HARRY ZWEIFEL INTERVIEW- Recorded on 12/14/91
Okay, well my name is Harry Zweifel and I was a shift at B area during the startup, I was a uh, shift supervisor on what they called patrol. We wandered around the building and saw that everything was as it should be, no radiation, undue radiation and so on.
WHAT WAS YOUR EXPERIENCE BEFORE HANFORD?
Well my experience before Hanford started out in uh, with Dupont in explosives, uh, TNT back at Kankakee and then I ran a training school in Wisconsin up at uh, Barksdale for TNT operators. And during the period of a 1940, latter part of ‘41 and ‘42 uh, I was in, as I say, in operations and in training school and uh, we followed the construction of the TNT lines and then the startups thereof and I was sort of a monohouse what they call a monohouse specialist. And then following the, as soon as all twelve were operating why uh, I became in charge of a shift in uh, TNT and uh, then was on days as the senior supervisor, actually an apprentice senior supervisor, I guess, and uh, one day early in uh 1944 I received a call from the head office TNT and the superintendent told me that uh effective, it was Friday, effective that Monday I was transferred on loan from Dupont to the University of Chicago. And I said “Well what am I going to do?” and he says “I don’t know, nobody told me, they’ll tell you when you get up there.” On Monday morning, uh, I think it was early February by that time that I went up and I was told by a fella named Dr. Kircher Q. Bellis that uh, that they’re going to split the atom, they’re going to make an atom bomb. And my job was going to be helpin em develop the uh, semaworks(?) under west stands doing the sep separations, developing the process for separating plutonium from the metals and I stayed there until I came out here and that was uh, I think that really was, things are starting to blur now but it was the end of a 1944. And we uh, I was following construction of the B reactor, my particular responsibility was what they call bellfield valves. You remember those George? They were uh, they were the valves that permitted us to quickly drop the, so called, poison solution into the vertical safety rods in case of a uh, of a an event where the reactor was gonna run away and you couldn’t get the VSR’S in and then this liquid went in all the thimbles. I spent about 3 months up there workin on the bellfield valves and droppin the materials and timing it and so on. And then once construction was done why I went in to uh, as I say, the patrol unit.
WHAT WAS YOUR EXPERIENCE IN CHICAGO?
Well in Chicago, when I went up there, we went in to the uh, under the west stands the (?) works and it was quite an experience. We had the, we had the squash court right next to Dr. Ferm’s reactor, his first reactor was... and they were just finishing their experiments and decided that yeah they could uh, keep the uh, reaction going and uh, we were building then the (?) works and we built it all ourselves because they wouldn’t let any laboring people in based on the security.
YOU WERE BUILDING THE?
The tanks, we, all the tanks and the and the piping for the, run running the solutions. We had our own little dissolver and then we’d jet over into these tanks. We had plastic lines and oh we had quite a time. We learned how to melt lead bricks, built our own shielding and so on. We did it all ourselves. Later on why we even got into a what later became the redux operation, we were doin uh, extraction with the liquids (?). We built that ourselves. And I became a, towards the end, I became the uh, supervisor in charge of the actual operation there.
WHAT DID FERMI DO IN CHICAGO AND YOU IN RELATION TO THAT.
Well ok. Fermi was strictly on the reactor side. And he was uh, he was the man that was doing all the studies on the graphite, how they moderate it, how the neutrons acted and so on. And at that time they were still trying to prove that they could sustain the uh, a uh, nuclear reaction. And uh, I, that was uh, I think that was the time it may have been in B reactor startup but I don’t think so. Something about the Italian navigator has landed and so on; which was the signal that uh, the reactor could be made self sustaining. And that was, that was a key right there, if it, if it hadn’t that would have been it.
WHAT WAS THE NATURE OF THE FUEL IN CHICAGO AND HOW HANDLED?
Uh George, I don’t, the fuel, I don’t really know exactly, as I say, I was, you know, they, I was on the chemical side. But uh, they had a ra, radioactive solution, rather potent, I think, a source, that they were using. And beyond that, I really don’t know how their, how their reaction...
IT MAY NOT HAVE BEEN SLUGS AT ALL?
Oh no, no I don’t think it was, no. Uh, I’m not, well they could have uh gotten clinton slugs, they had some, you know, from their reactor down there. And later on we started up our summer works that’s what we were running is the clinton slugs, they were sending those up. But, it if I can digress a little bit, Fermie was such a wonderful character, I just, (?). Uh, when we first, when I first got up there, he, they held an orientation for, oh maybe, 20 people. And uh, Ave Compton was there, Regner was there, Phil Morrison was there talkin physics and uh, they would each get up and they said what they had - these people there doin this and these people there doin that. There’s several sites, you see. Uh, Fermie, they all stood at the rostrum and uh, rather formal. Uh, Fermie got up there and he, first thing he sat on the edge of a table lookin at...and he always had a little stub of a pencil. No, maybe two, three inches long, that’s all, he played with that and so he stuck it in his ear and so on. So he was telling us what he did. He said: “Well I have these people at site B, they do this and I have these people over there, that do this.” He said: “Well I’ve got people all over, I don’t know what they’re doin.” He was kind of a breath of fresh air. He could meet em in the halls and of course there’s long halls in front of the squash courts and you could stop him, ask him a question, he’d stop and answer. So would Morrison. But some of the rest of em were more standoffish and too busy to mess around with a guy like me. But uh, Fermie was there and I really had nothing to do with him except meeting him in the halls and hearing him in a lecture and so on.
HE DID HAVE A CERTAIN CHARISMA.
Oh, he, he was, he was. He was just a comfortable old shoe.
(CHATTER) WHAT WAS IMPORTANCE OF DUPONT IN THIS?
Absolutely. The function of the Dupont Company I don’t think they ever received all the recognition that they should have. When, when you consider the design and the construction of these facilities and how successful they were, right from the beginning, it it’s astounding. I just think it’s beyond belief that they could do it and as far as I’m concerned Dupont was were the star of the whole outfit. And they sent good people out here; they had, boy, they had good people, top notch. Such that...(CHATTER). Well Dupont, Dupont would, I think that they never received the applause that they should have for the job they did. With the, nobody’d ever had a reactor other than the few blocks of graphite laid up and uh, in B squash court, uh, and we built the thing, designed and built it and it was successful almost right from the beginning as far as the reactor goes. There was a mistake made in how many, how much uranium you needed to keep the reactor goin so that you weren’t poisoned out by the iodine, but uh, it was an astounding thing. Uh, as I said, they had excellent management and they sent their best out here. They had some real good people and they were so much different than some that we had from then on, it seems to me.
WHY DO YOU THINK DUPONT CHOSE TO LEAVE WHEN THEY DID?
I think that Dupont at that time were kind of fed up with the way things were being run here. Uh, later on I think they were, you know, they were brought back in to Savannah and I think they hated that. And I really believe that this work and the Savannah work really set them behind as a chemical company, if you look at em now they’re havin a tough time, they’re, where it was all owned by the family now it’s own considerably by uh, Bronfran(?) who’s a liquor distiller and uh, and in a, not happily. I think that they, they really got behind on a lot of their research and so on in that long period where they were doing other things.
HOW WERE YOU RECRUITED OR WERE YOU ASSIGNED TO COME OUT HERE?
Like I say, they called me in on a Friday afternoon and said you’re transferred on loan to the University of Chicago, be up there on Monday morning. We were in Kankakee, of course and just 35 miles outside of Chicago so it was no great big thing bein there but it was a shock especially when you ask the superintendent of TNT “Well, what am I going to do there?” And he says “Nobody told me, he says, I don’t know.” And it was an entirely new, different group of people, you know, more uh, uh, scientifically oriented. PHD’s all over the place and some names you had heard and so on.
WHAT WAS THE TRANSITION TO HANFORD THEN?
Well that was uh, I was just telling George, Ward Botsford who was a friend of mine and he was he was back there at site B makin mirrors for instrumentation. So we were gonna come out here together and we both had cars, so we rented a tow bar. And his car was bigger so we towed mine. And so we drove out here. And I think, along about a, a little bit south of Spokane we both would have gladly turned around and gone back, what are we doing in a place like this? You know. It was quite a shock from a pair of city boys to see the desert and nothin nothin around there and couldn’t see how we could do anything out here. Of course, we both knew what we were gonna do out here, but sure didn’t look like a very good place to do it.
YOU WERE TOWING ONE CAR BECAUSE OF GAS RATIONING?
Yeah, um uh. And uh, that way we could both drive and we made a few side trips, did a days fishing at Yellowstone Park. But we got out here and went into the transient quarters and wasn’t went through the next day security and then we were, I was out in the area and Ward was, I’ve forgotten where they sent him. But there was an interesting thing there too on this transition. After being for a year and a half in uh, chemical separations and so on, I got out here and they said I was gonna be in the reactor. I’d never, I’d seen a reactor and it was really a surprise. And I didn’t want to do it because I really had an awful lot of experience in the one place and uh, I really had quite a bit of jump, you might say, on most of the other people who would be here. But it was real interesting, all my notebooks from (?) I got out here and they were too classified for me to see. I never did get em. So we went out to, we went out to the area, I went out to the area then, B and uh, followed construction, went through the startup and went through startup of F and then I went over to 200 areas for uh, more construction following and startup over there. I got, that’s where I got the unfortunate name of bein in construction and startups I think is that followed me all the rest of my life.
WHAT WAS THE OVERALL MOOD OF COUNTRY?
That’s, it was. Well, you know, we were still losin a lot of lot of uh, soldiers and marines uh, going into these various islands, the McArthur island hopping. And uh, you saw the uh bloody pictures of Tarawa and you saw a lot of the pictures of Guadalcanal and so on and so forth. Uh, I think that there was still a great deal of tension and so on while you began to see that on the long run that uh, that the Japanese were going to lose but at the same time you knew that there was gonna be an awful lot of American lives lost. It was not a happy situation. And, of course, that’s one reason why I was happy to see em drop the bomb because I’m convinced that saved many many thousands of American lives. (AND JAPANESE LIVES PERHAPS). It might have because, you know, by that time they’d had their fire storms over Tokyo and it’s questionable whether uh whether the bomb killed more than those fire storms did over Tokyo, I’m not sure.
WHAT WAS IT LIKE TO SEE THE PROJECT FOR THE FIRST TIME?
Through the dust storms, well we saw the through the dust storms and that’s where you, a lot like we had this spring. Those we would have called termination winds in the old days. But, it was an amazing thing. I think, if I remember the numbers, there was over 100,000 construction workers here and they had their dormitories uh, from uh, the old Hanford area and down in there. And actually, that was one of the places we used to be able to go at night to get a pitcher of beer. But you never went by yourself because there was some rough characters. There was all sorts of stories in those days, uh, about, you know they kept the men and women separated by big barb wire fences and there was all sorts of stories goin on there. And there were fights, a lot of fights, and uh, a patrolman at that time, I don’t know whether he was kiddin me or not, came off a shift and he said he’d found a body in a garbage can. That’s quite possible cause there was some rough people. But uh, dust storms, all the houses were still being, most houses were still being built. And you had the big argument about what kind a house you’re gonna have. And of course, well I lived in a dormitory for three months. My wife was back in Illinois, with our one little boy. And it was not a particularly happy period. You looked at it as, well this is a job, there’s others in the army doin a lot worse that this, so uh, you’d grit your teeth and you didn’t sign up for the termination wind.(?)
WHAT ABOUT THE SCOPE OF THE PROJECT?
Well, time let’s see, what was it, the 550 square miles if I’m not mistaken it was something like 5 to 600,000,000 dollars worth of construction and uh, it was so vast it, we didn’t know everything that was goin on, what was bein built, bein built and being built fast. And then, there was a shortage of material. You waited a lot of times for some valves to come in, of course, we had it a lot easier than any place else in the country other, of getting material. That was real interesting, you know, there was an awful lot of waste, a lot of thievery went on, cause a, a lot of the people in construction they had they’d gather them from anywhere they could.
CAN YOU REMEMBER THE FIRST TIME YOU SAW B REACTOR?
It looked monstrous, it looked so big. And you gotta, gotta bear in mind.
CAN YOU GIVE ME FULL STATEMENT?
Yeah, the first time I saw a reactor was the first reactor I’d ever seen, other than the little pile. (CHATTER) When I first went in there why I was pretty green about the reactors. I had to start readin manuals real fast to find out what was, what the was gonna do there and how it happened. Because uh, there was this tremendous block and of course they were still, still putting up a, a the B blocks and so on and they were starting puttin up graphite inside there and we got to see all that and uh, uh, that was quite uh, edify, for my edification and education. But it was a tremendous place. I be, I’d wondered whether I’d ever understand what it was all about and how to get around it. And then, of course, there was, we were a little leery about that much radiation, uh, the emphasis certainly was on safety. That’s why I found it so difficult to think, to hear that Dupont did so much other, down in Savannah, something doesn’t ring true. Or else it’s a different breed of cattle maybe, I don’t know.
REFRIGERATION FACILITIES.
Well, it, the facility, refrigeration facilities were in B. Each one of the reac, water plants, you know, had something a little different to them. And I think you’re right. I think B had a refrigeration system. F had somethin about a water treatment system, I don’t remember what uh, D had. But uh, they were tremendous units, but there again George, the separations of the people, I never went over into a water plant. You know, to see what was going there. First of all, we didn’t, we didn’t leave the building in uh, the early days toward, after we started up why then they started goin to the change house to each lunch. But outside of that you didn’t go. And you certainly, if you were a reactor man, you didn’t go over and go around the water plant, you know. So we were uh, we knew of course, how much water was comin over. We knew somethin about the quality of it, we knew the pressure. We knew a little bit more about 190 and the pumping because that was so important to us. But when you start gettin down on the, as you say the refrigeration, or some of the water treatments or the filtration plant of the river, I think it was probably uh, I don’t think I got to the river pump house until after I came back here in ‘46 and was in engineering design and did some work down at the river pump house. Only then did I see some of that stuff.
IT WAS PROBABLY INTENDED TO COOL THE WATER.
Yeah, that that’s right. You, you weren’t, you, like a I heard Don say on the cooling, we were always trying something different, you know, and there was so much unknown in the beginning. I marvel sometime at how quickly we’ve progressed because really in the beginning uh, you were cautious because you didn’t know that much, how it was gonna, bear, look look - as an example that uh, while Fermie and Compton had an idea that the reactor might die from pois, xe, xenon poisoning, but uh, they weren’t real sure of that. They weren’t sure enough that they didn’t go ahead and start and see what happened. And that was a lot of our, a lot of our training. Uh, but you lean so far over backwards on safety that uh, I never, I never felt endangered.
TELL US ABOUT INSTRUMENTATION FOR MEASURING RADIATION LEVELS.
Well, you’re probably more George, as far as instrumentation measurin, you probably know way more about that than I do. Of course, we all had our chances in the early days of carryin a Beckman(?) around and when we did anything. But uh, they were pretty crude. And you got one arm longer than the other. They must of weighed 35 pounds wouldn’t you think? And we’d traipse all around checkin on leaks and doin this and that, uh...(CHATTER) Beckman was an instrument, George can tell you more about it, for really, just only measured (?)(?) (?). Didn’t it George? And uh, we would go around the building with these, we were always checkin to make sure that there were no leaks and no stray radiation and uh, uh, that was one of the jobs that the patrol people did and in com in combining with the radiation monitoring experts.
WERE YOU CHECKING WITH EACH LEVEL?
Yeah, yeah, at the doors to the rear face, you know, to make sure that the air flow was in the right direction and nothin leakin out from the door. We went across the top of the reactor and uh, made sure that there was no gas leaking up there. Of course, we didn’t go within the circle of the VSR’s.
SO YOU WERE WORKING IN B AT THE TIME, AS PATROL?
In B, yeah. (YOU WERE THERE AT STARTUP?) Oh, yeah. Well that was, that was a terrible thing cause we didn’t know that much about it. But we started up and uh, very low level, of course, and I was on 4 to 12 at that time. And we came in the next day and everybody had a long face and they were all unhappy that the reactor was dying from the xenon poisoning. And uh, well it went down. Fermie and Marshall, Dr. Marshall and his wife, they were a young pair of physicists and very good. They worked with a Fermie a lot and uh, Morrison was there, Compton was there and they were burnin up their slide rulers. And uh, it didn’t take them too long and they said well okay you just have to put in uh, several more slugs per column and uh, we think we’ll be alright. As I remember, that’s what they said, we think we’ll be alright. So we went up very fast and as I recall, we put in about uh, about 50 more inches of slugs and uh, we were doin that as fast as we could, as a matter of fact it’s kind of interesting. Doc Marshall was a nice young guy and you could talk to him a lot, and uh, we had these old charging machines. Uh, you put a, you put your slug, you take it out of a box, you put it on a little ramp and it rolled down and then you had a lever and you pushed that. And I got him on one of the machines charging and then wouldn’t give him any relief. And he, he kept talkin “Come on, I gotta go somewhere” and I said well, you just stay and do a few more tubes and you’ll be alright. And he laughed and he was a good sport about it but uh, uh, that was a real critical period. And you wondered, you know, you had, you had to have faith that Compton and those guys knew what they were doin and they did.
HOW DID INFORMATION ABOUT THE SECOND STARTUP HIT YOU?
Well, on the second startup how did we feel. Well, you had to have confidence, especially those that came from Chicago, there weren’t too many but, but we had great confidence in Fermi and Morrison and the uh, and the Marshals. And like I say, as you had heard, you could look from the office into the control room and you could see them and they’re burnin up their slide rules and talking and so on and they came out and with the solution, proposed solution, adding extra uranium and uh, you know, at that time as I say, we were not that knowledgeable. A lot, especially me, coming from the 200 area operation you know I, I didn’t uh, it took a long time, I had a fine guy workin, that I was workin for at that time, Fran Mask, very intelligent guy and had achieved a lot of na, of knowledge at Clinton Labs. And he explained to me about iodine and how it degraded into xenon and xenon captured the neutrons so that there wasn’t uh, could be a sustained reaction. So, it was, it was a bad period because there wasn’t the confidence that the thing would, gonna go, you know, general confidence. You hoped and you thought it probably would, but you didn’t dare bet on it. And we were we were all anxiously waiting that next startup and, as I say, I was on 4 to 12 and we uh, between the 4 to 12 people and the l2, 12 to 8 people we finished the recharging the extra metal and they started up on day shift. And uh, the boy, when we came on
at 4:00 then the boys on the day shift were breathing a big sigh of relief.
THAT WAS OBVIOUSLY A MILESTONE.
A tremendous milestone.
WHAT OTHER MILESTONES WERE THERE IN THAT PROCESS.
Well, you gotta, you know, after a prolonged period is kinda what I looked at, if you remember that the reactors were said to be designed for 250 megawatts, and uh, I think one of the big big milestones was when we raised from 250 to 400 megawatts. Of course, that paled to the 2,000 that we got later on. But uh, it was awful big, awful big. You had to make a little changes, raise the pressure of your 190 pumps and uh, do a little reorificing and so on. But it was a great thing, because we, by that time we knew, hey we can run these things. And uh, a matter of fact we were probably gettin a little cocky, but uh, that was the big one.
FEEDBACK AND UPGRADING - WAS THAT SIGNIFICANT?
Well, it was to me because, you see, I left in May of ‘45, I left the 200 areas and went to rocket powder and uh, went around after rocket powder went to 3 or 4 more plants for du, for Dupont and by that time I was firmly in the design phase, design and construction and startup. And I was goin from plant to plant, so. We had two children at that time so uh, I quit Dupont and I hated to do that and came back here. And when I came back here I went into operations for a short time again, just to get my feet on the ground, but then I went into straight engineering design and I, I had part of building DR, building and design DR & H and uh, eventually ended up following all of the K reactors for opera for operations. Being in on design of those, so.
IN THIS EARLY PERIOD, WAS THERE ANY PROBLEM WITH FUEL FAILURE?
Oh yeah. That, that’s probably another milestone with the fuel failures. And uh, we were a frightened bunch of puppies when we realized that we had a slug with a hole in it, you know. And uh, uh, the first the first episodes at getting that out and how to do it, the, all learning, hadn’t been done anywhere before, you know. And uh, had to build all the equipment, how to push it, what do you do with it when you push it out the rear pigtail into the into the pool. How do you handle that. What about the water there, is it gonna be contaminated so badly. So that was a, that was a real milestone, George, I’m glad you mentioned that. Later on, of course, we ran at such high power levels and uh, high temperatures and we had a lot of em and I can remember one time we had a, we had a, it was at H, we had a critical W - you remember that’s when you shut down for lack of, for lack of electrical backup. And, we had been watching a specific tube in the H reactor, feeling that it was going to be a rupture or gonna stick. So when they shut down uh, we went into getting that out. Sure enough it was a sticker, but we got it out before the critical W was over. And that was, that was quite different than the first time. I think the first ruptured slug or stuck slug we were down for a week.
SOME DID OCCUR AT B REACTOR DURING THE INITIAL LOW LEVEL OPERATION.
Well George, whether there was an original loading, whether there was any fuel elements, I guess I’ve forgotten that if it did. It’s kinda, it certainly is uh, I think, probable but I just don’t remember if we did.
MARSHALL - ONE OF THE EARLY PROFESSIONAL WOMEN OUT THERE.
I think she was. Um uh. As you know, in the beginning, we had no women out there. The nurse was the only woman in the area. Uh, but, Mrs. Marshall, I’ve forgotten what her name was now, she was a good physicist in her own right and I don’t remember any other women being active in the work at that time. She was a Fermie protege.
WHAT FACTORS MADE IT POSSIBLE TO ACHIEVE THIS?
First of all, I think it had number one priority in the country, backed by the president. It was in a war time period where there was a different attitude towards work, I think. You had your Rosie the Riveters and we had our people out here just as dedicated, I think. Get it done, get it done. And uh, you worked. Well, in the beginning, you know, we worked 12 hours a day, 6 days a week - we didn’t uh take time off. We’d get home, go down to the cafeteria and eat go back to our dormitory a couple hours a playin bridge or whatever, go to bed, get up and do the same thing all over. Uh, so you had the priorities, you had the work ethic and you had a pretty high cadre of well trained people. Well, here’s an example. Uh, if you were asst. superintendent back with Dupont back there you came out here you what they called an area supervisor. If you were a uh, area supervisor and you came out here you’d be a senior supervisor. I was a senior supervisor, came out here and was a shift supervisor. So, you had, you had people, one, almost 100% engineers or chemists or whatever the discipline was required and most of them had shown some potential or they wouldn’t have been here. There was an awful lot of real good people left back - Kankakee, Memphis and a few other places. They skimmed the cream off, they thought. Some of em weren’t so creamy.
DUPONT WAS A GREAT COMPANY.
Well, of course I don’t, my thought is that Dupont was the best. Uh, and my feeling is that each succeeding contractor went down just a little bit and uh right towards to end, well I think it started with GE. You sent two type of people out here, as far as I’m concerned. This may be heresy but, you sent two type of people out here. You sent out young ones that you want to see whether they can advance to the next dead, or you set, sent out some people who were at a dead end and uh, sent out here, okay here’s a little reward but we’re gonna get rid of you too. But I think you had excellent people. Design wise, design and engineering wise, Dupont at that time, was the best in the country, I’m sure of that.
OVERALL TECHNICAL & INDUSTRIAL CAPACITY OF U.S. MADE IT POSSIBLE.
Oh, well yeah. We’re on the war time footing, you know, and we’re putting out the maximum effort with good people. The work ethic was there. My chemical experience here was, when I left, after we got B & F reactor, as you might imagine, the 200 areas were behind the reactors in construction. The main the primary job here was to get the reactors built and then the separations. So I followed the design and construction of a 221B and 221U. The only one I missed was 221T. And uh, I stayed there then for the startup of 221B, I was I was in charge of the control office. And uh, then of course that’s when I left there in Septem, er May of ‘45. I didn’t want to leave. I tried to stay another week but Bill Kay said “You get out of here, you’re transferred.”
SO THEN YOU WENT WHERE?
Oh then I went to Hercules rocket powder and we learned to make rocket powder there. Then I went down to Indiana plant 2 and we built that rocket plant. It was a $75,000,000 plant as I re, no $275,000,000. We made 207,000 pounds of rocket powder, we started up in about uh, mid June. Dropped the bomb August the 8th and we shut it, started shuttin down on the 9th. We made 205, 207 pounds of rocket powder. I had an interesting experience there uh, I was in charge at that time of what they call final testing. It was a, ultrasonic testing, x-ray and fine final inspection. And uh, my boss told me, plant one was smokeless powder and they were gonna shut down there, he said go on over there and interview those people and hire 70 operators. So I went over there and I met with all these operators and I told them how great it was they were gonna get laid off here but they could have a job here and rocket powder was so much more important at this time that you’ll work much longer.
ZWEIFEL INTERVIEW, PART 2
I had an interesting experience there. I was in charge at that time of what they call final testing. It was uh, ultrasonic testing, x-ray and then final inspection. And uh - plant one was smokeless powder and they were gonna shut down there - he said go on over there and interview those people and hire 70 uh, operators. So I went over there and I met with all these operators and I told them how great it was they were gonna get laid off here but they could have a job here and rocket powder was so much more important at this time that you’ll work much, much longer. Well I hired em in June and in August my boss said “Go and lay em off now.” And they were, they were not happy.
WHAT WAS THAT ROCKET POWDER TO HAVE BEEN USED FOR?
Oh, well you’ve seen these rockets in the war games and so on, at uh, the propellant for explosives, you know. And, boy, we’d burn, it was really ?, 50% nitroglycerin, 50% nitrocotton; and uh we made a lot of different shapes but they were ? shape. Mark, mark 18 was 39 pounds, and we burned the, in the testing we burned the uh, 39 pounds in a little over 2 seconds.
WHAT DID THAT END UP IN AS FAR AS THE WEAPON?
Well God, they put em in tanks George and they had, you’ve seen these Russians had a big batteries of them that fired and we did that too. It was quite a thing.
WHERE WERE YOU IN AUGUST OF 1945?
I was makin rocket powder at plant 2 in Indiana. And we were living in mud flats. And when they dropped the bomb there were a lot of people there that had come from out here, not a lot but some. And then we heard that the Japanese were gonna surrender. We had a two day party.
I GUESS YOU COULD SAY “I WAS THERE.”
I was there, that’s right.
REMEMBER IMMEDIATE REACTION WHEN YOU HEARD THAT?
Oh man. Well, return to, return to a peace time life. Get outta mud flats, at the, living conditions there were the, way worse than out here. We had a little pot belly wood stove in the living room and uh, water recirculated through there for hot water. It was miserable and uh, uh, just well, you can imagine. No more of your friends were gonna be gettin shot up uh, we could live a lot different. You know, after a while your, there were a lot of things that were short. Stand in line for this and that. And uh, just lookin forward to peace time.
ANY OTHER REFLECTIONS ON THE WHOLE EXPERIENCE?
Well, in reflecting back I always felt privileged to have been a part of it. And uh, you always felt in those days, well, you should have been in the service. And I went, I went up in Chicago and twice tried to get into the Navy and each time they’d say - “Well, what are you doin now?” And I’d say well I’m in explosives. “There’s the door, get out.” But uh, you AL, you always felt that you shou, you should have been, in your age group, you should have been in the army and not out here. You felt glad that was over. But you did feel that uh, some sense of gratification that you had some part in ending the war.
ANYTHING ELSE YOU’D LIKE TO PASS TO FUTURE GENERATIONS?
Well, I wish I could tell more of this generation that they’re makin a big mistake if they don’t proceed with a the use, the peaceful use of the atom. Forget all this stuff, the unfounded rumors of what might happen and so on that our friends in Portland and Seattle seem to thrive on. And uh, we’ve sure raised a lot of family here, haven’t we George. And none of em have two heads and none of em have been poisoned. It’s quite possible to have a healthy nuclear industry. I just wish we’d get on with it because petroleum’s running out and besides petroleum’s too good to be burning in gas, in automobiles, it should be making chemicals and medicines. I have no more that I can think of.
END
[WAS IN INSTRUMENTATION; WIFE ALSO WORKED AS EARLY MONITOR AND SHOULD BE INTERVIEWED.]
I’m Monty Stratton, and I came here to the Hanford Project in 1944, February of 1944, from the Kings Mills Ordinance Plant in Ohio. Walt Simon, who eventually became the first plant manager here, was on a recruiting tour of the country and he came to Kings Mills, and interviewed me for a possible job here at Hanford, and I came here in Feb. of 44 and was placed in the instrument department. I was first assigned to the group in the 3717 building of the 300 area, and spent several months there, and probably some time in the early part of the summer of 1944 I came to the 700 area and worked in the 717 Building, which was an instrument repair shop.
HOW WERE YOU TRAINED, HOW MUCH KNOWN, ANY BACKGROUND?
I was an electrical engineer by profession, and my hobby background was amateur radio, I think that’s one thing that probably interested Walt Simon when he interviewed me because I had that electronic experience, which apparently he was looking for, people who had that background for instrument work and I think that’s one of the reasons I was placed in the instrument department when I arrived. I got involved in the maintenance of specialized instruments that were shipped for the operating area into the 700 area, where I had a crew of several instrument mechanics and technicians, both male and female, I think we probably had eight or ten technicians working on these instruments at the time, and though I didn’t have any direct connection with the B reactor startup, I was in the process of maintaining instruments that were involved in the monitoring of the situation in the B Reactor Area.
SUCH AS BECKMANS?
Beckmans, Victorenes. one of the principal instruments that we maintained was what we called a victorene integron. There were something like a hundred fifty to a hundred seventy-five of those instruments scattered all over the plant, of course some of them were in monitoring buildings there in the area, but those instruments were shipped into the 700 area for maintenance. The instrument consisted of an ionization that was subject to breakdown because of the dust and dirt and sand that blew around, got into the instrument so the chamber shad to be torn down and cleaned and set up for use in the remote areas.
IN THE PLANT WHAT FUNCTION WERE THESE INSTRUMENTS SERVING?
They were use to monitor any airborne radiation that was of gamma nature
NOT A PORTABLE INSTRUMENT..
Not a portable instrument, they were fixed, they were mounted, the electronic portion of the instrument was in a cabinet about a foot square, a box about a foot square, the chamber was a separate instrument with a large cable that was a cylindrical chamber with a motorized piece of gear in it. As I said, they were not portable, they were mounted in various locations around the project, around the reactor buildings.
For instance, like in the B Reactor area, as I recall there were either three or four buildings out in the corners of the area, they were called the 614 buildings, and in each one of these buildings would be one of these victorene integrons. They also had several of them mounted inside the buildings, as I recall there would have been one or two of them mounted around the reactor building, but they were primarily designed to monitor airborne radiation of a gamma nature.
THESE INSTRUMENTS MADE A PAPER RECORDING OF WHAT THEY WERE READING, DID THEY NOT?
There was a recorder, this was a micromax recorder, a strip chart recorder, and it gave us a continuous record of the operation of the instrument..
...I CAN IMAGINE THAT THOSE OUTSIDE THE BUILDING, IN THE CASE OF A SIGNIFICANT INCIDENT, WERE TO SEE WHAT WAS HAPPENING OUT THERE...
That’s true, this was the intent. Just as a matter of record, those instruments were mounted in buildings in rather remote areas, for instance we had one building in Benton City. There was another mounted in a person’s home in Kennewick, another one mounted in a person’s home in Pasco, so there were some scattered around in various locations..
DID THEY THINK TO PUT SOME DOWNWIND?
We did not have any of this particular type of instrument mounted in the so-called downwind area, that is, north of Pasco.
WAS THE VICTORENE A NEW INSTRUMENT?
I don’t think it was completely new, but it was new enough that we didn’t have very much experience with it, and had to learn the operation of it, that’s for sure. This was a company back in Cleveland Ohio, it could have been a person’s name,.. A Beckman is a micromicroammeter, and it had a monitoring device, these were parallel instruments mounted in and around the reactor building, this was a popular location for them. We had as I recall four of these Beckmans with the chambers mounted in a and around the reactor pile, I’m trying to recall any other locations for these Beckmans, I can’t recall any but there probably were some.
I BELIEVE THESE WERE USED AS PORTABLE INSTRUMENTS, ALTHOUGH THEY WERE HEAVY...
The Beckman that I am thinking of was probably not quite portable, because it was a very heavy instrument, now he’s most likely referring to a different style of Beckman, because Beckman had gotten into manufacturing radiation monitoring instruments, and I don’t recall but there was probably a more portable instrument...
I RECALL ONE THAT WAS ABOUT THIRTY POUNDS..
This is the one that would have been mounted in the panel, such as the one that would have been used for monitoring the reactor status.
I’M CURIOUS WHAT WAS THE PROCESS OF MONITORING WHAT THE MONITORS WERE READ, ON WHAT CYCLE DID SOMEONE CHECK TO SEE WHAT THESE INSTRUMENTS HAD RECORDED?
Well, the victorene, which had its chart recorder going 24 hours a day, these instruments would be serviced, especially the ones out in the remote buildings, probably twice a week. But the ones in the reactor building course you had instrument people working around the clock, and they would be monitored at least on a shift-change basis. So we had frequent occasion to look in on the status of what was happening.
I WAS CURIOUS TO KNOW IF YOU COULD RECALL THE SITUATION THAT FIRST MIGHT BE RECORDED BY THESE KINDS OF THINGS, DID THIS EVER HAPPEN SO YOU WOULD HAVE HEARD OF IT, AN UNUSUAL READING?
I don’t recall any particular instruments that read unusual occurrences, especially on the victorene instruments. The Beckmans, they were sitting there monitoring the situation all the time, they used those for reactor startup and monitoring the status of the reactor during operation, but for any unusual instances, I don’t recall any particular instances at the moment.
CAN YOU COVER WHAT KIND OF INSTRUMENTATION THAT WOULD HAVE BEEN USED TO INDICATE THE FIRST INDICATION ON STARTUP- WHAT KIND OF INSTRUMENT SHOWED THE FIRST NEUTRON TICKLE?
It would not have been the victorene or probably not the Beckman. There was an instrument we used on normal startups in which a very sensitive radiation monitoring chamber was inserted in one of the process tubes. As I recall, in the early days this instrument was inserted from the rear face of the of the reactor. The instrument would be pushed in one of the operating tubes a certain distance and left there until the first indication of reactor activity, at which time the reactor would be brought up to the one megawatt elevation, and held at that power level while an instrument man and a monitor would go on the rear face and remove or pull that instrument back out of the hot area, and as soon as the instrument was pulled back, the monitor and the instrument man would leave the rear face and then they would be able to increase power level...it would have damaged the tube to where it would have been inoperable.
I’m sure there were occasions when you were in that situation. I was trying to think the other day who the person was that was with me on the rear face of F Reactor where I eventually went to follow the startup. One of the person was a monitor I believe it was Phil Jerman, I think he went with me on the rear face, and we pulled the tube and got to the point where we could go with it; I think that was the only time I did it, I was a foreman at the time and wanted to see what the operation was like, so I went back and did the job to follow through with it so that I could instruct other people as to what was done. Phil went on to be a manager.
THIS WAS A NEW AREA...
The field of instrumentation was certainly new at that point in time. Just to go back for a moment within my own history, I’d worked for the DuPont Company in Richmond Virginia, and my first experience with instruments was with a Clayton Northrop micromax which I later found out was used as a recording instrument here at Hanfrod, but that was back in the early years of my instrument experience, back in the mid 30’s when I first got involved with instrumentation.
BUSINESS OF RECORDING RADIATION WAS ONLY KNOWN IN RECORDING X-RAYS UP TO THAT POINT?
There wasn’t a lot of instrumentation, a lot of the equipment was developed here at Hanford, and some of the companies, like Victorene and Beckman, I think they were relatively small companies to start with, but the Hanford Project no doubt put them on the map and got them started because of the large orders of equipment that we purchased from them. So it was a new field, and we had to develop a lot of the equipment and we learned as we went.
DID YOU HAVE ANY CONTACT WITH THE TEST REACTOR THEY USED IN FUELS TO TEST THE URANIUM THEY WERE USING?
I did not have any particular experience with that.
DID YOU UNDERSTAND HOW THEY WERE USING IT?
I think my first inkling of what was really going on was probably two or three months after I arrived here at the Project, and begun to see the types of instruments that were used and started getting familiar with the equipment that was involved and discussing the process that was taking place. I finally was given a tour of one of the reactors when I was still assigned to the 700 area, this was probably sometime the early part of 1944. But I certainly didn’t know what was happening before I came here.
WHAT WERE YOU TOLD?
In my case I was actually told very little. In fact, I didn’t even know that I was going to be in an instrument department or division when I was interviewed by Walt Simon. I really didn’t know what I was going to be involved in until I came on the Project...I just happened to think of an interesting aspect of the integron instrument which we talked about earlier...
CHANGE TAPE
...I told Laura she should be doing this interview because she came here the same time I did...
WOMEN IN YOUR CREW? UNUSUAL?
Well, these were girls that were available just like I was in ammunition plants. The girls that worked for me were sent here from other ammo plants; Laura came from the Denver ammo plant...
WITH ALL OF THE EMPHASIS ON SEXUAL HARASSMENT THESE DAYS, DID YOU RECEIVE ANY INSTRUCTION?
Never heard of it, in fact, I probably would have had trouble getting a date with my future wife if we had conditions then like we have now. Cause I wrote her a little note and left it on her desk one day, and she accepted the invitation to go out for dinner...it was funny, we were married four or five months later, April, 45, then I went up to F area, and when I came back to the 700 area later, cause she was still there, they had to send her to the 300 area because they wouldn’t let her work for me.
DID THEY EVER EXPLAIN THAT RULE?
Probably from a favoritism standpoint... I was going to mention something interesting...when the Victorenes were shipped to us, the meter that was mounted on the front of the instrument mentioned what we were trying to measure; the word “millirenkins” was in bold letters across the face of the instrument. For security purposes it was necessary to remove the meter from the instrument, disassemble the instrument, take the meter face off, and very boldly paint in black paint, remove the word millirenkins for security purposes so nobody could read the word millirenkins and know what we were measuring.
WAS SECURITY PRETTY TIGHT?
Security was awful tight. To go back from a security standpoint...when I was sent out here, the only thing that I could tell anybody was that I was going to Pasco and would be in Richland, and I couldn’t tell anybody anything at all about the plant. After I arrived here and was given security orientation, one of the things that were were told was that if we took a trip from Richland to any of the remote areas, and if we told anybody about it outside the plant we could not mention mileage figures. We could not even say how far it was from Richland to any of the areas that we traveled to. If I wrote a letter to my friends or relatives, that’s how strict it was, I couldn’t even say how far I would have to travel to go to work, for instance, if I worked out in a remote area, I could just say that I worked in a remote area but I couldn’t give mileage figures. That’s an example of some of the security.
HOW DID THEY INTRODUCE THIS SUBJECT BEFORE YOU CAME?
Well, they just told you you are being shipped to Hanford.. the security wasn’t stressed until after we arrived here and went through security orientation...
WHEN DID YOU FIGURE IT OUT?
I think it came in bits and pieces, probably over the course of learning the equipment the y were using and getting tours of the project, you gradually learned what was actually happening, so it came not as a complete surprise, but only by bits and pieces did you gradually pick up what was happening here.
WHAT WERE YOUR OWN PRIVATE THOUGHTS ABOUT WHAT IT MIGHT BE?
Well, when I first came to the project, you’d drive out around the project and you’d wonder, gee, I wonder what in the world is going on, is it all underground? We got bits and rumors about why it was underground, you could get that much from conversation, so you’d drive out and wonder, well what are they building? What could be underground? It was anybody’s guess in the early days.
WE HEAR FROM OTHER PEOPLE THAT IF YOU HAD AN IDEA, KEEP IT PRIVATE.
You don’t want to talk about it. When they tell you about the fines and penalties involved, you were very careful not to talk about it. Penalties? Death. Well, you think of the couple the Rosenburgs that were executed, well when things like that are brought to mind you were very careful not to talk about the nature of your work. Security was one of the prime subjects in those days.
FOR PEOPLE WITH NO IDEA OF MONITORING, COULD YOU TELL WHAT THINGS ARE MEASURED, ETC.?
Well, primarily we were looking for any release of radioactive material, that’s the big push for instrumentation. That’s not the only thing we’re measuring, we have instruments for measuring other things like water flow through the reactor. We have instruments that measure the flow rate and temperature; flow rate and temperature are the big things we were measuring in the operation of the reactor. So there’s a lot of instruments involved in that, so radiation monitoring is not the only thing we’re concerned with in instrumentation. It’s a big field, I can think of other instruments that we would use, wind instruments, for instance, that were concerned with air flow and direction of wind and what was traveling in the wind. Instrumentation is a broad field, so there were many things we were measuring.
GO OVER INSTRUMENTATION ON EACH TUBE
To begin with we had flow instruments, we were measuring the total amount of water that was being pushed through the reactor for cooling purposes, we had the flow instruments, we were measuring the temperature, course the flow and temperature were one of the means for measuring the power level of the reactor, the amount of heat rise in the reactor that gave you a measure of your power level.
Some of the very important instruments that we used in the reactor were what we called pannelet gauges. This was an instrument that measured the pressure across an orifice that was located on the inlet side of each operating tube. This pressure gauge was very important because if for any reason you lost flow in any operating tube, you had a serious problem, and you wanted to shut the reactor down, to reduce power in that reactor quick-like to keep from damaging the tube. Each one of these panellet gauges was in the reactor SCRAM circuit for shutting the reactor down. That was one of the very important instruments, especially in the early days.
SO THERE WERE OVER TWO THOUSAND WAYS TO SHUT THE REACTOR DOWN..
If you had two thousand tubes in the reactor you had a panellet gauge for each one of those tubes and any one of those tubes that if for any reason you lost flow, such as a rupture in a tube, caused the flow rate to change, the pressure would change, and in turn cause the pannellet gauge to in turn give a trip one the SCRAM system.
DID THAT HAPPEN OFTEN?
I’d like to say not too often, but more often than we’d like to think. The operating people didn’t look forward to that occasion but we did have failures of panellet gauges and we did have human error, occasionally we would have problems with the panellet gauges, and we could put an electrical jumper across each gauge and remove it if we had authority from the operating people. So a particular panellet gauge that appeared to be giving some trouble we could put a jumper across that gauge and remove that panellet and replace it. But sometimes we would foul up and not get the jumper in the right place and down goes the reactor. I don’t like to think of those cases but it did happen...If the reactor had been operating for a period of time it would more than likely be twenty-four hour shutdown; now I’m getting into operating experience which I wasn’t all that familiar with, but I do remember on occasion when say on startup, if the reactor was coming up, and you had a shutdown, if it hadn’t gotten to too high a level you had so many minutes to restart.
WAS THERE AN ATMOSPHERE OF TENSION, NEW PROBLEMS, NOTHING ROUTINE?
A lot of the things that we did, as I look back now, although they were certainly not unsafe, as we knew it in those days, they probably would frown on it nowadays, because we have more strict rules and regulations now, but we certainly didn’t do things then that were unsafe, we did things as safe as we knew under the conditions at the time. But with the experience that we’ve had over the years some of the things we did would probably be considered unsafe now, just because of experience we’ve gained in the meantime... Without the experience behind us we had to rely on our best judgment at the time.
SOCIAL CONDITIONS, DESCRIBE
Dust storms. When I arrived in Feb. of 1994, didn’t see too much of the dust situation until the summer months came on, but I lived in a dormitory for a year after arriving here and I do remember the dust storms that we had during the summer; I recall one night I left the window open in the dormitory and I woke up in the morning with a big coat of dust all over everything and that was typical. Dust was a big problem. With all the construction work and lack of trees, the ground was torn up and the least bit of wind would bring up what we call the Termination Winds...
WHY CALLED THAT?
People would come here, take on the job, and not realize the weather conditions in this area, work here for a while and everything was rosy until the wind would start to blow and you’d get one of those terrific dust storms, they’d say, this is enough for me, I’m leaving, and they would terminate.
WHAT KIND OF HOUSE...
I was living in the dormitory and I married one of the girls that was working here and we accepted a B house, a duplex, that was the first house we had in the north end of town and then after we lived here for a few years we moved to what is now an H House.
IN B HOUSE WAS IT VERY BARE?
Dust was still one of the main problems, even after being here a year, because construction work was still going on, grass was still being planted and trying to get it to grow, trees were at a minimum, so there was still a lot of dust problems even in the early days.
WHERE WERE YOU WHEN BOMB DROPPED?
The first big
(TAPE ENDS)
NEW TAPE
..that’s the only consolation I have for the use of the bomb... where was I when the bomb dropped? My wife and I had gone on a vacation trip up to Mt. Rainier...All of a sudden this information became available, well, we read the newspaper that a bomb has been dropped and the President has announce so much information, so we wonder, how much can we talk about it, well, we better be quiet about it, don’t say anything...We get a telephone call, a frantic telephone call from my supervisor trying to reach us at Mt. Rainier, he finally got ahold of us and he says to us Don’t Say Anything, he was so afraid that we would start talking, reading the newspaper that had been released, that Hanford was involved in this bomb, he was so afraid that we would start saying things that we shouldn’t, so he made this frantic telephone call to us, to tell us don’t say one word about anything you know about the project, in fact I don’t think we even told people we even worked at Hanford. so we escaped any consequences...
WHAT HAPPENED WHEN YOU GOT BACK?
Well, when we came back, once again we were told don’t say anything that isn’t released publicly, you’re still under the same obligations that you’ve always been to remain completely silent about anything that you know about this project, the only thing that’s released is released publicly, so it was a long time before you would even talk about anything that you knew regarding the project to any outsiders.
PAPER BECAME IMPORTANT...
Bad thing about it was that in those days you would read in the newspaper, there would be a lot of rumors, and you had to be careful about what you read to separate rumors from what was officially released, so you had to still be careful about reading the newspapers and talk about what was in the papers, because you can very well imagine all the rumors there would have been in the papers..
HOW LONG BEFORE PEOPLE KNEW THAT THE MATERIAL HAD BEEN PRODUCED HERE FOR THE SECOND ONE?
I would hesitate to comment on that because I don’t remember details... It was quite sometime before it was released, best not comment.
WHEN YOU REALIZED THE NATURE, WHAT WERE YOUR FEELINGS?
It’s hard to remember any specific feelings, it’s all a part of the work we were doing, and so we’re here and we’ll do what we can to continue with it, we realized that it was important work, I don’t remember any strong feelings, it was part of my work...
FEEL PROUD?
I suppose in those days we did, I don’t remember feeling one way or another at the time, but I suppose at the time we did feel proud to be a part of at least the closing aspect of the war...
IN CONTEXT OF WAR EFFORT, JUSTIFY, SAVING LIVES?
I think the most we can say at this point in time was that the use of the material that was produced here at Hanford certainly contributed to the close of the war a lot earlier than it would otherwise, I think that’s the best way you can put it.
GREG TELLS STORY OF THE WHIZBANG, security...
Even at this stage of the game there are certain things that we have never been told that we are released from the original requirements... I don’t want the noose!
WHAT KIND OF DIRE CIRCUMSTANCES AS A PUNISHMENT...
We were given documents to read in which the consequences were spelled out very specifically what the punishment would be if you released certain information, so it was spelled out in black and white what the punishment would be...
AND WHAT WAS MAXIMUM?
Death! Yes, death, you would be executed or subject to punishment which could result in execution if certain things happened, so you had to be very careful about not saying things that could lead to that type of punishment.
MOST OTHER PEOPLE IMPLIED LOSE JOB...
More than that.
PEOPLE ON BUS PASSED RUMORS, GONE NEXT DAY
I never heard that myself, but probably... I never had top security clearance, but even a Q clearance which I had till I retired, even that type of clearance required a lot of secrecy.
BACK TO ARRIVAL, WHAT WAS MORALE?
I would say generally that morale was good, you knew that you were doing important work towards the war effort, so morale was good.
PEOPLE WORKING HERE GOT SPECIAL DISPENSATION FORM DRAFT?
Like in my case when I first came here I was given a classification that kept me from being called into the draft... It was essential to the war effort.
OTHER IMPRESSIONS?
I think many of us when we first came here thought that we would be here for two years at the most, but as time went on we became aware of the importance of the project, and became more acclimated to the area and what’s going on, so like in my own case, I was here the rest of my life, but a lot of people were only here for a short time...some of us continued to stay here.
WORKING FOR DUPONT?
I started with Dupont in 1940, so I had some DuPont experience, it was a very good company, a very safety oriented company...
WHAT WERE YOU TOLD AS TO WHY THEY WERE LEAVING HANFORD?
I can’t remember...
END
GLENN STEIN INTERVIEW- Recorded on 8/1/92
Well my name is Glenn B. Stein. Stein is S T E I N. I came from Denver up here I was working at Remington Arms in Denver which was owned by Dupont, of course. And a fellow by the name of Dunkleburger was one of the head men down there in the department I was in which was inspection in, uh, Denver; and ,uh, he was the one that recruited me because he was up here then and he was out recruiting. And uh, well I had heard rumors about the plant. It was a terrible place to be. There was people killed every day, and uh, there was drinking and gambling and such well the works that we were getting was Hanford see rather than Richland and so I was doubtful about coming up.
TRAFFIC, STOP
Well, I was doubtful about coming up here because of the rumors I’d heard. So I was called over to Dunkleburgers office , and uh, so he told me about it, wanted to know if I was interested. Well, the job down there was about out. We probably at that time felt we had maybe six months to go. So I thought well, I’m young I’ll take a chance on it! So I talked to the wife and I said well, I said, they’re gonna pay my way up there I certainly could pay it back if I, if it is as bad as I hear it is see. So I come up here, they sent me up on the train there were six of us from Denver. Earl Kirkwood another instrument man who has passed away was in the same group I was. And uh, uh, we came up here it was the first part of July. I’d say probably around about the 5th or 6th of July. And we came in here of course and checked into the hotel and they give us three days in the hotel. And uh, the next day they took us through orientation which kinda scared the pants off from us, I mean, the security end of it. And uh, I can remember when I got here on the train in Kennewick I asked the bus driver who was makin the trip about 4 or 5 times a day how far it was to Richland and he said “well I don’t know”. That’s how tight the soc, the , security was in those days, see.
THIS WAS 1943?
1944, July ‘44. Well uh, we went through orientation, of course, and the next day we started school. And I went to school approximately 3 months before I went to D area because instruments was new to me as it was to practically everyone else and we had boys from back east that was teaching us that uh, had worked in instrumentation or they had some instrumentation back there, see. And taught us a little about control. But now I look back we were pretty green out there! I had no idea what we were making, no idea whatever. In fact, I never knew what we were making until they dropped the bomb. It was the first I knew of it. Of course...
YOU SAID YOU HEARD STORIES AND RUMORS BEFORE...
Well, it was all on, you see the work that was comin back to us, the work that we was gettin there in Denver was construction which we all assumed it was the plant here, see. Never stopped to think there was a construction camp all together different down at Hanford. And oh, it was just, there was gangsters and everything else. And they threw a bunch of people in jail and it was just rough supposedly according to what we heard see. And of course I assumed that that’s what it was like here. The other thing was that it got to be in the summertime 135 degrees, and uh, you could fry an egg on the sand out here and there was a dust storm everyday and part of that true was the 135 but the dust was true, you know, no grass, no lawn so when the sun did shine it reflected right back on you it was hot. But not unbearable like we kinda thought it was down there.
AND WHAT WAS THE DEPARTMENT...
Instrument, yeah. Which is controls and uh, recorders and things like that see.
TELL ME A LITTLE ABOUT INSTRUMENTATION...
The instructors but I don’t think any of us did. I mean I’d had little exposure to it I was in inspection and actually our inspection was measurements. And we had gauges and stuff like that see, which you do have on instruments here but no controls whatever, see. So they had real good instructors uh, those fellows knew what they were doing and of course they had their manuals and stuff and we had manuals to read too and uh, so we were taught to calibrate and we used to actually they give us the instrumentation and we went ahead and we’d calibrate it, work it over so that we knew what we were doing when we got out there see that was the main thing because there was nobody to help ya.
WHAT DID YOU HAVE AVAILABLE AS A TEST SOURCE...
Oh no uh, we weren’t calibratin radiation instruments, it was, there were controls see. Now we would read radiation, yes, but we had a bug, we called it a bug that we used to test radiation. The amount of radiation that was coming, see.
WHAT TYPE OF OTHER INSTRUMENTS WERE YOU WORKING ON?
Well we had recorders that recorded everything out there. We had temperature instruments, we had flow instruments. We had controls that are instrumentation controlled the uh pressure of your pumps. There was controls on every pump out there to control the pressure because that had to be maintained. Uh, it was just within a couple a three pounds see. And uh, powerhouse controlled the boilers the temperature, the pressure. And uh, then pressure readings on everything. All your uh, water pressures off of every pipe practically uh. We had controls, I mean uh, gauges.
CAN YOU RECALL YOUR FIRST TRIP TO B REACTOR...
Well, I really can’t say that I can. It wasn’t what I expected. I got out there and it was petty barren; there wasn’t any growth or whatever. And uh, everything was fairly new, scraped up you know and as far as the earth was concerned we weren’t operating then yet. So uh, about the first thing we did was to get acquainted with the instrumentation what we had to see if we knew what we were doin and actually study some of the manuals they had there. And uh, as I remember the uh, supervisor was a Dupont man from back east too. That guy just was a real good man, he got us along pretty good.
CHATTER
It was Hanford that was the tough part, this wasn’t see.
CHATTER
Yeah, it’s down at Hanford itself. The old Hanford camp was a construction camp see. I was just tellin about goin through the beer hall I guess is what it was, a fella took us through. He worked here too but he’d been there, he’d worked construction first and so he told us he’d take us through there. When we got ready to go in the door he said well go in this door and out the back. He said keep your eyes open and your mouth shut. And I could remember one fella as we was goin through, one fella slid under another fella as he raised up off the chair and a fight started. You had to sit down to drink beer in those days see. And uh, we went right on through and came out the other side. And uh, I went to some dances down there uh, which you had to watch yourself but it wasn’t too rough really.
HOW MANY PEOPLE WERE OUT THERE?
At Hanford? Or B area?
AT HANFORD.
Oh, goodness I don’t know. An awful lot. There was trailers all over the place. And they had these big dorms you know, women’s dorms and men’s dorms. But I didn’t have any experience with that. All I did was just go down and they showed us around and come back see. I did go down to a few dances at night and they but they weren’t real rough down there the dances weren’t.
DID YOUR WIFE JOIN YA?
She didn’t, my wife couldn’t get here until, I think it was October before we got a house. So I was here about 3 or 4 months before she came here.
YOU BEGAN WORK AT B REACTOR ABOUT WHAT TIME?
I think it was about October, I’m not positive of that but I think it seems to me I was here about 3 months goin to school and uh, then I went out to be and I was there probably 3 or 4 months and then I went to D areas.
WERE YOU THERE AROUND THE TIME OF START UP?
Oh yes, I was there when it started yeah.
TELL US ABOUT THAT.
Well, of course I can’t tell you much about 105 because I was on the water side see. And uh, everybody was on their toes, I mean we had control of the water pressure for em see, which had to be maintained close. And uh, so we were naturally nervous; I mean, you know, it was our first experience too. I had no idea what they were makin, what they was doin over there. It was so darn secret you couldn’t find out nothing see. But uh, yes, it was a little nerve racking because you knew you had to keep that pressure there and you’d worry about whether you could keep it there or not see. Because our instruments was doing the controlling.
AND I UNDERSTAND THEY DID...
Of course that I didn’t know see. Like I say I was on the water side. And uh, I never knew, they didn’t tell us nothing. But I know we was checking our instruments and keepin our eye on them at all time in the beginning there to be sure that we had what they was asking for and we could maintain it see.
WERE YOU OUT IN THE BIG PUMP BUILDING THEN?
190 building, I was 83. I was in all the power buildings. The powerhouse. I worked all the power buildings what we had to change charts. I went on shifts I think it was C shift, I can’t remember exactly. And on the shifts the first thing we did was to go down and change all the charts. Well at the time you change your chart you checked your instrumentation to see if that for the last 24 hours has run true or if it’s been off balance or the pressures been up or down or what’s happened see. So it gives you a pretty good idea once you’ve got your charts changed as to how your instrumentation was working. I think there was 8 of us on shifts to start with and we wound up with one man on a shift about 8 years later. But at that time there was 8 men on a shift.
IT SEEMS LIKE A LOT OF THIS WAS DONE...
Well it’s nerve racking really. You worried all the time see. If something was gonna happen that you wouldn’t be able to take care of it that’s what you worried about mostly. And you worried, of course, that they was getting what they wanted. I mean they told us what pressure we wanted to keep it at. Uh, whatever the instrumentation had to do because they depended on the instruments to tell them what was goin on see. But I wasn’t on the 105 so I can’t tell you much about, I understand they was pretty nervous over there. I went over there later but at that time I was always at the water side. They took us through, I can remember makin a tour through 105 but uh, I can’t say exactly how long they’d been in operation before I started workin in the 105 side. But uh, right at the very beginning I was on the power side.
YOU WERE HERE WHEN THE BOMBS DROPPED.
Oh yes. uh huh. ‘46.
HOW DID YOU FIRST HEAR ABOUT THAT?
Over the radio. There was everybody was, it was all over the papers and everything see but first we heard it on the radio when they dropped it. We got the message out there uh, but not from the radio but that’s the way they got it see. But uh, about the bomb. Well, by that time we knew we’s having something that was very explosive but you see we only made part of that bomb. So they put the rest of it together down in New Mexico. So about uh. We knew we was dealing with radiation but just what we was makin, I’m talkin about my own experience now I had no idea we was makin a bomb! I didn’t know what we were makin. At times I thought we was makin fuel for an airplane. Or a submarine or something like that see.
WE HEARD STORIES, RUMORS...
Oh yeah, I can’t remember. There was a lot of rumors I can’t remember all the rumors that have been around but I can remember one of em was that well that this uh fuel we were makin for airplanes see. That was just all rumors and you didn’t spread none of it because security was so tight well one of the fellas was fired that was workin with me and uh, in those days you had two badges. You had the badge you wore when you come out of the area. But you had another badge that you called your name and number when you went through the guard house out there see. There was guards, there was an entrance to the area. Besides you still had known that you (?) at 105. You still had another guard house there see. Once you’s inside there you still can get to 105 unless you was (?) for that see. But uh, well I can remember they got so they remembered my 809 and they’d say 809 Stein when I’d come in the door. They got so they knew ya but to start with you called your number they picked up that badge looked at you and what’s your number and if it matched okay they’d give it to you and then you went see. Well this fella went home and told his wife. He was tellin her about what we went through to get in out there see. At 9:00 the next day he and I was on a job a calibration job where uh, they had used everything but one piece of this thing that they had left. And they was afraid somebody else would break it and they didn’t have another one but he and I had done one before and worked it alright see and they broke all the rest of em so they kept, he and I and so they told us that mornin that we’re gonna put you two on this because you’ve done it and you was able to put it together without breaking it and that’s the last one we got. So we go over and it wasn’t half hour before another fella comes over and he said “Stein, I’m supposed to help you.” He said Kelly’s supposed to go to the uhm, administration building down over here. Well it was the last I saw of Kelly. I mean they took him right to town that day, of course that night I went over to see him because uh, of course he didn’t tell me what was happenin either, he just said he had a good job on construction but we found out about a week later that he got fired. That’s how tight the construc, the uh, well what happened his wife was on the bus. She was tellin somebody else about how uh, we got in the badge house. After we got to the badge house out there how we went through what they did see, the procedure. And there was a (?) (?) intelligence man sittin in the seat right behind her. That’s how come the man got fired that picked it up see.
GENERAL CLIMATE OF COUNTRY. WERE YOU AWARE OF THAT?
The importance we were yes, very much so. We, we never talked about it once we got out of the area see. Now my folks lived down in Vancouver and I’d go down there when I was workin shifts on long change, you know. Well of course they’d start askin me. Well I’d just say well I can’t tell you nothin about it it’s secret. Anything I know I don’t dare tell you about. It to me, I was afraid to talk about it because I didn’t what was secret and what wasn’t see. I knew what was secret but I thought some of the other stuff that might be secret I wasn’t aware of it see. Because nobody’d ever say anything to us about not to tell anybody how you got through the area. And when a man got fired over that then they’d uh, pretty careful see. Yeah.
TAKE 2, ROLL 2 - SURPRISED WHAT’S BEING MADE HERE?
Uh, yes I was. I was yes, uh, very surprised. I knew we had radiation stuff like that to deal with but, you see, we had the one part. All we did was charge that uranium, I knew we had the uranium there, we knew that. But uh, what they was gonna do with it was what we didn’t know see, or at least I didn’t. I would imagine there was some people that did but I didn’t.
END OF WAR, GENERAL FEELING SATISFACTION?
Yes, my feeling was yes. I felt myself I know there was a lot of people killed when that bomb was dropped, true. But at the same time it saved an awful lot of our people from being killed and probably saved them the lives of other people because if that war had continued they’d have been all of them killed as well as ours see. Yeah, it was a shock to me, I mean, uh, I never dreamed we had anything that potent or would blow up a whole town you know. But uh, I uh, yes I felt that I’d contributed quite a bit once I heard that, you know. Before I didn’t really realize, I knew it was important but I didn’t really realize exactly what it was.
WERE YOU AWARE OF ANY PERSONAL DANGER?
Uh, just the radiation, we knew that was dangerous, see. But, we wasn’t too worried, I wasn’t myself because see we were in the instrumentation; we knew that we were protected as long as those instruments worked and which we were sure that they were working see. And I thought they were very good about taking care of us in there, I mean, there was as far as we knew none of us were getting overexposed and they were real careful about hauling us out. We had alarms on em, you know, so that when we had a certain amount of exposure they went off and uh, of course you’d protect yourself on that you came out, see; out of the zone. We was always dressed in what we called PWP clothes, you took your own personal clothing off and put the PWP’S on which was coveralls, head covers, gloves, shoe covers, everything - you was covered completely, you know. Even had a face mask if that was necessary. And so, no I felt that uh, oh I guess there was probably times I might have worried a little bit but uh, most of the time I felt that they were pretty much taking care of us.
ENTRY NUCLEAR AGE
Well, I uh, I’m happy that I had something to do with it. That I had my little small part in it. Yes, I’ve been proud of that all the time, but uh, I was never disappointed that I came up here. I remember my wife was worried, and uh, so I told her when I got up here, I said “No, you can live here pretty good,” I said. “It’s not as hot as they said” and I said “the people aren’t bad people in this town” and I said “they’re the nicest people you’ll ever run into”. And so but we had the awful rumors down there in Denver, see.
DID YOU LIVE HERE IN RICHLAND?
Um huh, when I came up I did. I got a B, uh, I got a two bedroom pre-fab (?). See, I had to take, my, my wife had sold the house see we put the house up for sale and sold it down there so she was living in an apartment in a basement apartment, see. So I wanted to get her up here as soon as I could and uh, so I had to take a two bedroom pre-fab to get her up here. I stayed in that for about 4 years. But it was a little crowded, we had one child then and uh, I think we paid if I can remember right we paid $25 a month and that included lights and heat and everything. We planted our own lawns and so on of course. And uh, the telephone, I think we paid for a telephone. When we got it was pretty hard to get a telephone and when we finally got one well I think we paid that but everything else for that $25 as I remember was $25 a month; I may be wrong maybe it was $35 but, anyway it was plenty cheap and everything was furnished and there was no light meters in town see. Everybody was uh, you paid your rent and that included everything. Water and the whole works. No water meters, nothing. But I think that people coming from all over the country were real friendly. You got acquainted fast back in those days. Nowadays you probably don’t know your next door neighbor for a month or so but in a couple days you knew em in those days. Cuz everybody was new, see.
YOU COULDN’T TALK ABOUT WHAT YOU WERE DOING.
No, but they knew it too see. They knew you couldn’t so, there was no pressure put on you really. Most of the pressure I would have would be from outsiders like I’d go see my folks. Then I’d get pressure, but, they understand after I explained it to them but. The work was something we couldn’t talk about here, it was secret so I. Well we never told anybody how far it was up here even. Just like that bus driver told me, he said he didn’t know how far it was, he drove it 6 or 8 times a day!
WAS THERE ANY SENSE OF THREAT, WARNINGS?
Not to my knowledge. I can’t really recall anything in that order. I can remember something about they picked up some things on the beaches someplace. I don’t know if they were balloons or what they were, but, there was some stuff picked up I heard; I’d just heard rumors of it, you know. But here not much we didn’t, at least I didn’t get much of it.
ORGANIZATIONS, SOCIAL THINGS FOR PEOPLE?
There was dancing was about all I knew. Well of course, see, I was married and my wife wasn’t here so when I got my dorms which was the third day then I was in a dorm room, to be honest with ya, I wanna be honest I played poker with those construction guys. And uh, I’d send my wife my whole check. I’d make enough playin poker to live on see. Course you didn’t need much in those days, I mean everything, your room was, uh, well that was paid for out of my check see but otherwise I’d send her the whole check. It seems like those construction guys was always tryin to buy stuff and you just played (?) your belly button why you could win. I’d never played poker in my life before, but, I had to do something at night so that’s what I did. That was after I got out in the area when I was here there just seemed to be, I don’t know, there wasn’t much as far as entertainment was concerned. You’d just sit around and talk. I wasn’t a drinkin man so, I never got in much on the booze, (?). I don’t know if there was much in here. I don’t think there was ... I’m trying to remember. There were very few taverns, if there were any here in town. I know for (?), in those days it was uh, uh, I guess hard to get because they had they wanted to know, I know one fella asked me if I would get uh, a liquor permit see. Which would allow me to buy a quart or two a month or something like that, and then, I’d go down and get it and then he’d pay me for it so he’d have his liquor see. Cause I didn’t drink it so I’d get it for him. In fact he was one of the bosses.
YOU’D COMMUTE TO B REACTOR?
On the bus. We all road the bus or I did at least all the time out there until later years, when I’d come in. It left from down here, yes uh huh, you see in those days, course I was livin in a dorm the bus would just stop, you know where the stop was and pick you up. For the people living in town they had free bus service, you know, that went around to the stores and went around town. It just, I don’t know if they charged em a nickel or something like that I can’t remember, but uh, after work I think it was a dime it cost us, I don’t know I can’t really remember that for sure either.
MOST REMARKABLE THING YOU REMEMBER.
You know it’s so long, I can’t, I get so mixed up whether it was B or D area cause I was, it’s like I say, I was in B for about, oh, 3 or 4 months and then I went to D and they was gettin ready to start that up, you see. I was down there then. But uh, no I admit all I did like I say was to play poker and I don’t (?) either one not the one I was in but another one a couple down from me and a lot of these construction fellas would come by you know and play. We were pretty well satisfied with our pay although it was very little in those days, I think. Well I started $1.65 an hour and you couldn’t even live on that now. But a lot of em started $1.10, trainee. I come in as a technician because I had some experience but uh, then we thought we was makin big money. And for what it cost you, I think I, as I remember we used to go over here and eat at that uh, the only restaurant they had in town, that big one. And uh, as I remember something like 50, 60 cents for a meal, it wasn’t very much I remember that.
SECURITY QUESTIONS
Well, I, in a way no. I did, I knew the government was behind it but you see I was under security down there too in Denver, see. You always had to pass, a lot of fellas wouldn’t be hired because they couldn’t pass the uh, uh, I say pass I should use something else, but they uh, when they checked them out they just uh, couldn’t take em see. So I had been under security there but not as tough as here, yeah, it scared me. I was scared to say anything to anybody and that was I think one of the reasons why they scared all of us that way, I don’t know, it was the best way for you to keep quiet.
SCARING - LOSE JOB OR BIGGER THREAT?
It was, because you know anything that was gonna throw you in jail you’d be aware of something like that. But uh, I was always afraid after this fella got fired, see. Cause he’d said something, he didn’t realize he was doin see and I didn’t say nothin.
EXAMPLE OF SOMEBODY EVERY SO OFTEN.
That might be, I don’t know. But the military intelligence men were around in those days and there was one sittin in the seat right behind his wife, see and she was tellin this other lady “well, I know how they get in out there”.
PROBLEM BETWEEN WORKER & SPOUSE?
Well, not that I know of. I uh, my wife just didn’t ever try to find out so we had no problems that way see, and I just didn’t tell her anything about it how we got in or stuff like that you know. And uh, no it never was a problem with us. Some of em may have had a problem that way but we didn’t have any.
END
Interview of Alex Smith
on audio tape (not video)
at his Daughter’s Home in Richland, WA
October 26, 1999
WEISSKOPF: Today is October 27, 1999. And why don’t you give us your name and spell the last name.
SMITH: Alex Smith, S-m-i-t-h.
WEISSKOPF: Did anybody know you by a nickname when you worked here?
SMITH: Smitty.
WEISSKOPF: Smitty? Okay.
SMITH: In the early days. Later on, they didn’t.
WEISSKOPF: And why don’t you start out, let’s talk about what you were doing before you were assigned here and how you came to Richland.
SMITH: I was working at Remington Arms in Salt Lake City making 30 and 50 caliber cartridges. And the first year in operation we made enough cartridges to shoot 200 rounds at every Axis shoulder and civilian. And we made so much, and there were three other plants besides the Salt Lake plant. And we drained all the coppers ‑‑‑ all the countries’ copper stockpile, eventually had to start drawing them from steel. Naturally, they were obsolete ammunition used in World War I, so a lot of them were never used after the first year, so they closed the Salt Lake plant down.
WEISSKOPF: Where were the other two plants?
SMITH: There was one in Kansas City and one in Oklahoma. And, of course, back in Remington Arms main plant.
WEISSKOPF: Okay. So they were going to close the plant you were working in.
SMITH: Yes. And since Remington Arms was a subsidiary of DuPont Company, and DuPont Company was doing construction of the plant at Hanford, those who wanted to go were given opportunities of being transferred up there on a job if they had qualifications of what they needed up there. So in a very short time after March or April sometime, 1943, by the time I got there in December the 9th they had assembled some 60,000 workers from every state in the union. At that time there were only 48 states. And they sent recruiters out all over.
WEISSKOPF: How did they present the job to you before you went out? How did they tell you what it was?
SMITH: They told us nothing. They told us ‑‑‑ the interviewer says ‑‑‑ he found out I had some machine shop experience, he said if we were to be called upon to design a shop ‑‑‑ of course, later on I could tell, after I saw the shop, I saw he was trying to get people who would know how to make a layout for mass production, to machine a product, is the way he put it, to set up the machinery. And he referred to most of it as carpenter machinery. Around the room, how you’d have it designed and have your assembly lines and machining lines to get the best results. That was about the only thing that he told me. I mean, anything that had any relation to the job I was to do.
WEISSKOPF: And did that sound better than ‑‑‑ what was your other option, if you hadn’t taken him up on that?
SMITH: He didn’t have one. He was specifically looking for somebody to work in the 101 Building, I suppose.
WEISSKOPF: Okay. When did you have the interview versus actually arriving in Pasco? What was the time lag, do you think?
SMITH: I was on my way in about three days.
WEISSKOPF: Did you drive out?
SMITH: No, they put us on a train. They paid our transportation. There was quite a ‑‑‑ I would say there were probably about 50 people came up with me. Some of them didn’t stay very long. Some of them left in a hurry. There was a ‑‑‑ the whole desert was torn up, had the first windstorm ‑‑‑ of course, this was the 9th of December, and it was cold. I remember we had what we called the cattle cars with a big semi trailer, and it had benches on either side, and the windows were all frosted up, you couldn’t see out. When we came through Richland, they had started constructing the houses, but you couldn’t see anything. You could try to scrape a thing. And at the time I came here, construction people, the engineers and people, they were DuPont employees, would get a house in probably three or four months. They had top priority, before us. The thing went along, and they started building, they of course built three reactors first. But I guess as they knew more of what they were doing, they decided that they didn’t need that many, so they concentrated on B and finished it first.
WEISSKOPF: And you got here in December of ‘43.
SMITH: Yeah, December the 9th. I remember the date.
WEISSKOPF: How many days later was it before you showed up on the job and they were ‑‑‑
SMITH: I showed up the next morning. And I was taken out to 101 Building. I already apparently had enough clearance, because there was no delay in getting in.
WEISSKOPF: You mean the basic clearance.
SMITH: Yeah.
WEISSKOPF: Not a secrecy ‑‑‑ you didn’t have a real clearance?
SMITH: No.
WEISSKOPF: But you were good enough for the job. They didn’t have to investigate further.
SMITH: Yeah. Well, I think they ‑‑‑ anybody that worked in the arms department had to have some kind of clearance.
WEISSKOPF: Okay.
SMITH: Had to pass a security test. Because they had gone out to people in high school, college, university.
WEISSKOPF: Was the 101 Building up and running when you got there?
SMITH: Yes.
WEISSKOPF: It was producing already?
SMITH: No, they had a ‑‑‑ yeah, they had one assembly line up.
WEISSKOPF: And it was milling graphite?
SMITH: Yes. It was very crude, and of course it wasn’t anything like the one we finished up with. I think there was ‑‑‑ it was two or three lines, I can’t remember for sure.
WEISSKOPF: Let me ask you again: The 101 Building, at least then, was only used for milling graphite?
SMITH: That’s all.
WEISSKOPF: That was the primary purpose. Okay.
SMITH: Storage. Had a big storage area for raw graphite that come in unmachined.
WEISSKOPF: And when you went in there, what did you do the first or second day? How did they orient you to ‑‑‑
SMITH: Well, that was in the engineering department. It was a separate ‑‑‑ they worked ‑‑‑ they reported directly to DuPont. As I remember this organization, DuPont was the construction engineer, and they furnished all the design, and the equipment, and the engineering reports, write-ups and everything, how things were to be done. But this Washington, being a strong union state, why, each craft worked for their own particular craft and they were hired out of the union hall. And there was, for example, Newberry, Chandler and Lord (phonetic)* was the electrical contractor. I can’t remember the pipefitters. But the millwrights of course was another contractor. They all reported to their separate supervision. It was a very cumbersome organization and hard to work, but the very fact that it was a war, it would never work in peacetime, but the very fact that people loyalty was at stake, and everybody cooperated and bent backwards to try to get along and work the best they could. And DuPont Company itself, they were a pretty smart outfit. They’d been through a lot of wars, ever since the Civil ‑‑‑ well, Revolution, I guess.
WEISSKOPF: So what were you doing the second day that they showed you the room, the building?
SMITH: I spent two or three days with engineers, going over the whole plan, showing us from the very beginning out to the raw storage shed place, and followed everything through. And I was going to be ‑‑‑ see, at that time they only had one shift. And I spent a week in orientation. And then I was put in charge of the swing shift. And, of course, I had a lot of people that knew what they were doing that worked on days.
WEISSKOPF: Back then, if it wasn’t top secret, if you were to come home and describe to somebody what your job was, or what the purpose of the building was, how would you have described it? Secrecy didn’t matter, what was it that the building was doing that you were there to do?
SMITH: We were there to machine graphite to a lot of different shapes and sizes to very precise dimensions. And we at that time knew nothing about what it was for, what we were doing.
WEISSKOPF: Were you familiar with graphite at all before then?
SMITH: Well, yes, in a way. My background was mining geology, and of course we had a lot to do with the raw materials and stuff like that.
WEISSKOPF: And did you know you were on a war effort? That must have been pretty obvious.
SMITH: Oh, yes. That was made very obvious. Everybody knew.
WEISSKOPF: Have any clue what they were going to be using graphite for?
SMITH: No. Not a clue.
WEISSKOPF: Did you know how much was going to be run through there, the quantities?
SMITH: No idea. At that point I had never seen a reactor, never seen the place it was going.
WEISSKOPF: Okay. So they started you as the guy running the swing shift, you said?
SMITH: Yes.
WEISSKOPF: And what was that like the first few days that you did it? What was the routine?
SMITH: Learning for several weeks. I had a lot of ‑‑‑ here again, everybody had the spirit of cooperation. There was no jealousy, no anything as far as the fact that the others had been here ‑‑‑ the only thing I could figure out was the others have been here long enough to make several mistakes, and I hadn’t, and that was the reason I got the job. Of course, the fact that I was a shift supervisor in the arms plant, I don’t know when that was. But I do know that I had a lot of good, intelligent individuals working for me, the engineers. A lot of them who weren’t engineers but were, you know, within the limits of their background and knowledge, they were doing engineering work. There was just nothing but good cooperation on their part to help me learn my job.
WEISSKOPF: What were some of the things that you were told that were really, really important about the graphite?
SMITH: Each piece of graphite has a particular place to go, so they have to ‑‑‑ each of them has to be accounted for, and we have to have a method, and they had already worked out this method. Apparently it was very much a success, because you can imagine what would happen if one of those pieces of graphite that was in the center of the pile was one that was supposed to have the receiver rod*, the pipe, tube, was in there, and you shoved that in the blank, in order to keep that place cool, they had no idea whether they were going to be able to do the job or not, but certainly they would never have started up if they discovered that that would happen. So everything had to be in place.
WEISSKOPF: Did they give you a list of sizes and pieces?
SMITH: Yes. They had drawings of everything. I can’t remember, but it was between two and three hundred different sizes and shapes of blocks.
WEISSKOPF: And other than the sizes and shapes, what were the other things that they emphasized was critical about the job?
SMITH: Well, like I say, those that required holes drilled the length of the block, which was ‑‑‑ was it three and a half or four feet long?
WEISSKOPF: Four feet, I think.
SMITH: Four? Yeah, four feet.
WEISSKOPF: And you tempered the edges?
SMITH: Yes, all had to be tempered.
WEISSKOPF: And you didn’t know why you were doing that, it was just part of the specification?
SMITH: Yes.
WEISSKOPF: Were there small pieces, too?
SMITH: Yes, there were small, just two or three inches long, some block. It was different sizes. Mostly they were ‑‑‑ they weren’t much shorter than a foot, as I remember, make everything come out even, I guess. And then there was, over those blocks, there was blocks that had instrumentation that went into the center of the controls, and they were very special, too.
WEISSKOPF: And you were milling them down to the finished size?
SMITH: Yes.
WEISSKOPF: Till they were ready to be used?
SMITH: Right. They were (inaudible)*. We had to stack them in very precise piles, all labeled, and they were to leave, to be loaded in a certain order, taken out. And one of the things that came up early on was the fact that we were ‑‑‑ we had practice runs with running the ones for 305, for the little reactor in 300 area. So we had a lot of practice in getting things done. Went out and laid that pile up.
WEISSKOPF: You were doing that as well?
SMITH: Yes. It was ‑‑‑ yeah. They had already ‑‑‑ if I remember right, they had already started shipping it out for the 300 area. It wasn’t very long till they had.
WEISSKOPF: Before they laid the graphite in the B Reactor, I know they talked about they laid up like 10 or 15 rows to make sure it all was exact, and then they’d take it out and put it into the pile. Were they doing that at the 101 Building?
SMITH: No. They didn’t do that on purpose out there, at 100-B. This is what I was going to tell you, that one of the sharp engineers that was there developed this method of measuring, so they didn’t have to ‑‑‑ they were going through before that calibrating everything, see? So in order ‑‑‑ this wouldn’t do in a mass production situation. So he had set up a machine and worked with that before it got up to speed and high production. He had this developed so he had sensors in three locations along the edge the length of the block. Three or four, depending on how long it was. And he could take this block and put it on a machine table, shoving it under those little lights on a screen ‑‑‑ I mean the sensors on a screen, it would position that when he shoved it under there. And that would tell us, if all the lights were green, it passed. If all the lights, or any one of them, was red, you had to pull it out and measure it by hand.
WEISSKOPF: So instead of having to make a dozen different hand checks, you just shoved it in the box and it had ‑‑‑
SMITH: Shoved it under there. It was done on a machine table, and you just shoved it in. And of course then you had to pull it out and turn one over, because you had to have two dimensions, plus the length. So there were sensors on the length, too. So it measured the length and the two sides with one push, and then you pulled it out and shoved it back in again, turned it over 90, and shoved it back in again. If it passed all dimensions, you would send it out. Well, what we weren’t sharp enough to foresee was the fact that if every ‑‑‑ if one went through just a thousandth on the high side, you multiply that by 14... And, so, (inaudible)*. Anyway, the majority of it was on the high side, but it was all well within specification.
WEISSKOPF: Let me rephrase that. Did specifications say plus or minus so many thousandths ‑‑‑
SMITH: Three-thousandths.
WEISSKOPF: ‑‑‑ three thousandths of an inch, you expect them to average out.
SMITH: Yes.
WEISSKOPF: Some less, some more. But you’re saying they were all heading towards the plus side.
SMITH: That’s right. So when we started to take them out, they rolled them out, take about 12 to lay them down in a pile ‑‑‑ that’s probably not the terminology that they used ‑‑‑ but anyway, that’s what we used. So by the time they worked up ‑‑‑ see, all the shielding block with the cooling water holes were already up to receive the aluminum ‑‑‑ what was that? The lining. Stainless steel.
WEISSKOPF: The tubes? The fuel tubes were aluminum, you had 2,000 of them.
SMITH: Yeah. I wasn’t sure about that aluminum. I thought surely they’d be stainless, but they were aluminum.
WEISSKOPF: Had to be aluminum. Otherwise the stainless would have shut down the reaction too much, I think.
SMITH: Is that a fact? Okay. All right, that’s why it was aluminum. All right. So when they shoved the aluminum tubes in, the 14th layer was the first one that had holes to receive the aluminum tubes, and they wouldn’t go in.
WEISSKOPF: This was in the reactor itself?
SMITH: Yeah. It wouldn’t go past the shielding form. So the first thing somebody thought of, of course, or everybody realized that there was no control over ‑‑‑ so ‑‑‑
WEISSKOPF: Let me ask you again: The first 14 rows up, the first row of holes for the process tubes, none of the tubes would go in?
SMITH: No.
WEISSKOPF: Okay.
SMITH: It was just that close. It was very close. It couldn’t have been ‑‑‑ if you had ‑‑‑ say if it was just a thousandth, it would be 14 thousandths off. They had to fit. They had to fit precisely. There couldn’t be air space or anything between the graphite and the aluminum tube.
WEISSKOPF: And that’s when they discovered that the error had been plus, plus, plus?
SMITH: Yes. So we didn’t have to take it all out, but we had to take enough out ‑‑‑ and this is another thing, just keeping track of how ‑‑‑ they did a masterful job out there, and I don’t know how they did it, because I haven’t (inaudible)* ‑‑‑ of keeping the ‑‑‑ of taking it out, keeping it in order, and sending certain layers ‑‑‑ I don’t remember how many they sent back, but it couldn’t have been over two or three ‑‑‑ and machined enough out to bring them down off of those, to distribute the error as much as possible, but it was down in a zone where there was no action at all, and so apparently a few thousandths off didn’t matter.
WEISSKOPF: And if the pile was ‑‑‑ what was it? ‑‑‑ 36 feet tall, and those blocks were about 4 inches, so that’s 3 blocks per foot, it was over 100 blocks tall. And they had to come out at the top, so that last process tube would go all the way through without binding or anything else.
SMITH: Yeah.
WEISSKOPF: That’s amazing.
SMITH: And they worked out a system after that, after that for the other reactors ‑‑‑ of course, they had to account for it for the rest of these, because there was tubing that had to go up every so often.
WEISSKOPF: Do you remember how you identified the blocks? When you were all finished with one, it met tolerance and you were done with it, and they stamped it, we saw them in the movie stamping it with an identifier, do you remember what those IDs were, letters or numbers were?
SMITH: No. When you saw this, was this done ‑‑‑ you couldn’t stop them once they were all in this ‑‑‑ they had to be stamped before they were put in.
WEISSKOPF: Oh. It looked like they were doing it at the very end. But they did put an identifying mark on them, didn’t they, at the pile, when they were laying it up, they’d know which block went where?
SMITH: Normally it depends on position on the roof, or how they took it out. There was four ‑‑‑ well, I don’t remember (inaudible)*.
WEISSKOPF: You wrapped them in paper when you were done?
SMITH: No.
WEISSKOPF: Just left them bare and stacked them?
SMITH: We stacked them, but we covered them. We covered them all. They were always kept covered, and nobody was allowed in there. And, of course, there was no smoking in there, no chewing tobacco, or anything like that.
WEISSKOPF: Right. What kind of clothing were you wearing while you were inside the building working?
SMITH: Well, they all ‑‑‑ I wore my regular street clothes, but if I was out, went out into the graphite area, I put on a pair of coveralls.
WEISSKOPF: It was separated from the rest of the building?
SMITH: Yeah.
WEISSKOPF: Okay. Just sort of a clean room for its day?
SMITH: Somebody’s sending a fax.
WEISSKOPF: So you normally just wore a suit and tie, or how dressed up were you?
SMITH: No, just casual clothes. See, it was too hot to do that. The only one I knew that wore a shirt was always the staff, he was the department manager, and he was the son of one of the DuPont engineers. One of the big shots. But he was sharp. He wasn’t there because of his ‑‑‑ it was because he did a good job.
WEISSKOPF: How long do you think you were there milling, you know, working with the graphite? You started in December ‘43.
SMITH: Fourteen months.
WEISSKOPF: Really? So you did all three reactors, then?
SMITH: Yes. I finished ‑‑‑ I was one of the last construction workers to leave. Because I wasn’t going to leave, and they kept me here as long as they could. And I was identifying equipment. All this equipment was needed elsewhere. Navy had first priority on it, and the Army had second, and DuPont had third. So we would get up ‑‑‑ and then there was other organizations lower than that. So you’d go out ‑‑‑ each morning I’d go into the office, receive a teletype from either Kansas City or some other plant, either someplace in ‑‑‑ mostly in Minnesota. I can’t remember where all the DuPont plants ‑‑‑ and they would tell me what they needed, describe it. And I’d go out searching the whole field for these. And I had tickets to put on there. Well, if it was somebody from the Navy or Army, they’d come along, they wanted to rip that ticket off. By the time I got a construction crew ready to go to load it on the freight car, why, it would be gone a lot of times. So I worked out ‑‑‑ of course, I being one of the ones that was there, the Navy and the Army personnel was a little arrogant about the things, and so they were very happy to accommodate me and let me know that they had ripped that off, so we’d load it on and take it. Told me that was legal. And I don’t know whether the Navy needed it worse than we did or not, but ‑‑‑
WEISSKOPF: So 14 months from December would be like February or March of ‘45?
SMITH: Yeah.
WEISSKOPF: All the reactors were up and running.
SMITH: Yes.
WEISSKOPF: The whole plant was running at that point. Okay. And ‑‑‑
SMITH: Well, I don’t think ‑‑‑ well, they’d have to be.
WEISSKOPF: Well, B Reactor started in September ‘44, about nine months or ten months after you started, and ‑‑‑
SMITH: It wasn’t very far behind.
WEISSKOPF: No, a couple, few months. I think by March they were all up and running.
SMITH: I can’t verify that one way or the other.
WEISSKOPF: I’d have to look it up. So that was ‑‑‑ the last part of your job at the 101 Building was decommissioning it, getting rid of the milling equipment and everything got distributed to other people at other places.
SMITH: Uh-huh.
WEISSKOPF: And then where were you left after that was done?
SMITH: Well, on my rounds around the plant I became associated, not friends but associated with the maintenance superintendent of 100-F. And we were on a first-name basis and everything. I told him I was wound up here, and they were looking for a place to either get rid of me, send me into the Army, or I wanted a job in operations. And obviously they had planned on three more reactors and two more separations plants, and they had one of the two built. They had four planned, and they only ever finished and operated two of them. One is still a hole in the ground. As far as I know, it’s still out there.
WEISSKOPF: C Plant, I think, in the East area.
SMITH: Yeah. Let’s see, the two were built in 200 West, but one was never started up.
WEISSKOPF: That was U.
SMITH: U. It was finally converted to a waste processing plant. So they did the same for operations, they hired, shipped in a lot more people than they ever needed, so jobs weren’t that easy to get in operations. So he says ‑‑‑ I can’t remember who this manager, apparently he had some kind of ‑‑‑ they thought ‑‑‑ the other superintendents thought he was getting all the breaks. So when I ‑‑‑ they hired me, he sat me down, he was going to make some kind of a junior engineer or something, so I was glad to get anything. So I went down there, was interviewed, sent out to 200 West. I thought I was going out there, some kind of engineering job, and they said “No, you’re going to be an area mechanic.” So I was an area mechanic for about six months before I finally got a promotion. But that proved invaluable to me when I got back in the engineering department, having had that experience.
WEISSKOPF: Dealing with the day-to-day ‑‑‑
SMITH: I got a chance on hands-on with all the equipment, at least in the 200 areas.
WEISSKOPF: As opposed to just working with blueprints and specifications and things like that.
SMITH: Yes. So I had served as a machinist apprentice until the (inaudible)* come along, and me and everybody else, I went back to college. So it was really a good thing later on, because I was picked for certain jobs. Of course, when the engineering department and the maintenance department divided up into two different (inaudible)*, why, the superintendent, who was then the superintendent of both, was going to be superintendent of maintenance, and he came and ‑‑‑ I was working in town then, in the Federal Building. It wasn’t the Federal Building then. He said he was going to send me out to 200 East, and so I went out. He didn’t tell me. He said “You’ll know why I did this later on.” Of course, three weeks later they announced the separation, and I was out in maintenance. So that was another good break, because I’d had enough practical experience. Here again, it was the spirit of cooperation, being put in charge of a maintenance crew, not having been a craftsman myself, but I’d had a good background. Well, I was, really, I had that experience, it worked out fine.
[Tape changed]
SMITH: Through conjecture, they didn’t know either. I don’t think there were over 50 people on the plant, both AEC and ‑‑‑ or was it still ‑‑‑ no, it was AEC then.
WEISSKOPF: 1947 I think AEC started.
SMITH: Well, then, it was still under the Army, wasn’t it. Well, of course, a lot of the Army knew about it, high brass, I’m sure. But I would venture to say, then, there wasn’t over 100 that knew it until the bomb was dropped.
WEISSKOPF: Did you know anything more after you’d been there for six months? Any feeling for what you were doing? Before the bomb was dropped, did you have any inkling of what was going on at the plant?
SMITH: No. No. We had a lot of ‑‑‑ as I say, I talked to enough engineers in the field, this field and that, and mostly, of course, they’d mostly be scientists, like physicists and that, but I had friends, but they didn’t know.
WEISSKOPF: Did you know of radiation?
SMITH: Oh, yes.
WEISSKOPF: You knew about that.
SMITH: We had to take all the precautions.
WEISSKOPF: And they called it radiation?
SMITH: Yes. Every craftsman knew that. They had a whole ‑‑‑ of course, they still got them, the radiologists, what do they call them now? I can’t remember.
WEISSKOPF: You’ve got your health physicists.
SMITH: Health physicists, yeah, it was the health physicists. Of course, they were very good craftsmen. Like I told you about that incident that the pipefitter, that worked in my organization, an operation supervisor and an operator went in to prepare this cask for another load of waste, of cesium, of strontium I suppose, one or the other, I don’t know what it was. But, anyway, they went in and opened the valves, and the cask was supposed to be clean, at least drained and flushed. And he opened this drain, and some of this greenish stuff rolled out. And immediately the supervisor hollered “Get out!” And he left, and the operator knew enough to get out. But the pipefitter, he decided to be a hero and put a stop to it.
WEISSKOPF: Turn it off?
SMITH: Turn it off. Not turn it, put the plug back in. And, of course, that didn’t fit the way it did (inaudible)*, and they yelled at him again and he finally left. Well, of course, he had gloves, rubber gloves and everything else, whatnot, and they washed him off as soon as they could. And everything ‑‑‑ of course, he was down, made all kinds of tests. The darned thing didn’t manifest itself until the scalp started coming up on the outside, and this probably was ‑‑‑ so the radiation, the damage was deep, but it came to the surface. So then I had to drive him to the University of Washington, medical. And then after that, why, we had to send him over once a month, until it healed up.
WEISSKOPF: Was it strictly localized on his head?
SMITH: Yes. He must have taken internally quite a jolt, too, but apparently he didn’t, because actually I guess the radiation limits we were told were, I don’t know, a fraction of what there was any danger of damage.
WEISSKOPF: What year do you think that was, give or take?
SMITH: Yes. It was in B Plant, and it was after B Plant had ‑‑‑ no, it was in T Plant, because it was when they were ‑‑‑ no, won’t say that. I guess it was B Plant. Because I had the pipefitters in both areas. I think it was the B Plant. And it would have to be 19... let’s see, when did B Plant start? It would have to be about 1970. Give or take five years.
WEISSKOPF: Okay. So let’s go back to 1945. You knew of radiation before the bomb was dropped, you knew that the plant had something to do with that, but no indication as to what was going on. So tell me what you thought when you did find out, when the bomb was dropped and the news came out. Did that make you look at Hanford in awe or in a new light?
SMITH: It wasn’t till later we found out that bomb was actually made at Oak Ridge. It was the uranium bomb.
WEISSKOPF: Right.
SMITH: And the one a few days later was plutonium, I guess. So we found that out. Of course, we were claiming credit right away for a day or two till it got straightened out.
WEISSKOPF: And did that kind of make your job seem much more interesting?
SMITH: Oh, yes. But the other thing is, is the atmosphere was here, this is a wartime project and the war is over now, are we all going to be out of a job. And there were all these homes here, and people with ‑‑‑ was paying $37.50 a (inaudible)*. Should have saved a lot of money, but I don’t know if they did or not. And they were making good wages, and what we were going to do. This is going to be a time of readjustment, and all the industries geared up for war, and we’re ‑‑‑ and there was a ‑‑‑ so that was why I told you about this big red permanent building going up in the center of town, DuPont looked at it as a great morale builder, and I believe it was. People here are donating a lot of money. This is the first time the church ever built a building on leased land.
WEISSKOPF: Which one was that? Where is that?
SMITH: That’s the one in the center of town, over on (inaudible)* Hill, overlooking ‑‑‑ when they started building that church, that was ‑‑‑ the uptown district was a swamp.
WEISSKOPF: Are you talking about the one on Jadwin?
SMITH: Yes.
WEISSKOPF: Jadwin and Symons, up in that area?
SMITH: Yeah.
WEISSKOPF: Okay. Yeah, I live right near there.
SMITH: Oh, do you?
WEISSKOPF: Yeah.
SMITH: See, that was just a swamp area down in there.
WEISSKOPF: Oh, by the creek that runs through, maybe.
SMITH: Yeah. It was four feet of water there. It was just a swamp. They had to have four feet of landfill in there to build that up (inaudible)*. I was coming through there one day, back ally on a cold winter night, and one of the owners of six of those buildings was in ‑‑‑ he came in here before the war and started a plumbing business in Pasco, Braden Plumbing *(phonetic). And here he was in that Japanese ‑‑‑ or Chinese restaurant there, fixing the plumbing. I said “What in the world are you doing this for?” He’s probably a millionaire. He said “I like to keep my hand in the work. I don’t want to ever lose this ability to be a plumber.” And he was fixing that up. He just come in there, I guess, and they needed help. And I thought that was the oddest thing. He owned six of those buildings.
WEISSKOPF: So, you heard about the bomb being dropped ‑‑‑
SMITH: Yes.
WEISSKOPF: ‑‑‑ the 6th of August. Another one was dropped on the 9th of August. The war was over the 14th, or something like that.
SMITH: Yes.
WEISSKOPF: So literally a week after you learned what you were doing there, your job might have been done, theoretically.
SMITH: Yes. We were just wondering what we were going to do. We had a certain amount of debts, we had started to ‑‑‑ one very interesting thing, the car I had was a ‘39 (inaudible)* coupe that I had before the war. Of course, you couldn’t buy one. So I drove that all the way until I could buy a new car. In 1949, ten years later, I sold it for $15 more than I paid for it in 1940.
WEISSKOPF: Really. Sharp businessman.
SMITH: Yeah, sharp businessman. I kept it in good shape.
WEISSKOPF: Were your kids already born before the war was over? Do you have children?
SMITH: No. Yeah, oh, yeah. There was only two. This is another interesting little thing. I had a secretary out at work, and she was a good Catholic, and she (inaudible)*, and I only had ‑‑‑ we had these two children, and the youngest one was five years old. And she said “How many children have you got?” I said “Two.” “Two!” So she didn’t say anything about it. I says, “Well, my wife had such hard labor the last time, she said if we had any more I was going to have to have them.” So years later she came to kind of a bazaar of some kind that we had at our church, and she came in, and she was married then. And I was towing two little kids around, one in each arm. And she looked at them and she looked at me and says “Did you have a hard labor?” Get back on the subject, but I guess that’s one of the things that happened, though.
WEISSKOPF: Yeah. I was just curious, that transition between wartime effort, you learn what the job is about, and then a week later the war is over. How much time was there before you felt like you were back in the loop of having a real job with DuPont?
SMITH: Well, DuPont didn’t want to stay here themselves, and they never did push this. But once GE came in here and said this is the industry of the future, they started talking about power reactors and peacetime use of this product was far greater. It’s unfortunate that it had its bad example with the production of the bomb. But the idea of peacetime reactors is to get as much mileage out of a few elements and create as little waste as possible. And, of course, the weapons program generated all the waste, all the high level stuff and whatnot. So it’s unfortunate that this is how atomic energy had its introduction. It was an invaluable method of generating electricity. It could be cheap, too.
WEISSKOPF: What were you thinking way back, like, say, 1948, ‘49 and ‘50, about where we would be 50 years later with atomic energy?
SMITH: I guess I didn’t have that much...
WEISSKOPF: I mean, did it seem to you also that it must be the power of the future?
SMITH: Yes. Oh, yes. I felt, well, we’ve got a career right here. I’d always thought I’d get back in the mining business. Even after I’d gone to work for DuPont, I’d gone to Denver to train how to make ammunition. And the superintendent of the tunnel that I worked on came there to buy equipment, and he looked me up, and he wanted me to go to South America. They had a mine there, in Chuckacumada (phonetic)* and they were going to drill a tunnel way down low and bring the ore out without hoisting (inaudible)* and up the mountain. Be a lot cheaper. Of course, they can still get it out. I guess they drilled, put the tunnel in the mountain. So I said “Well, the minute I leave this job, I’ll be in the Army,” they’re not going to let me leave the country. I was married after Pearl Harbor. So I went and helped him buy some equipment, whatnot like that. And he knew a lot about mining and tunnel equipment, and he was sent over there to buy it by Anaconda. But, of course, we’re off the subject again.
WEISSKOPF: That’s all right. Well, let’s change subjects, then, too. Working on this history of T Plant, you were in the separations area on and off. Do you have any remembrances, stories about the crane equipment in either the 221-T or E Plant?
SMITH: Yes. I told you about the rotating hook.
WEISSKOPF: Yeah. What I didn’t know is when was that and where were you at the time.
SMITH: I was at REDOX.
WEISSKOPF: That was REDOX? Okay.
SMITH: And that was the only, really, only separations plant. It was before PUREX was on line. And PUREX initially didn’t have the capability of dissolvers to take in the E metal.
WEISSKOPF: To take what?
SMITH: E metal. Enriched.
WEISSKOPF: Oh, right, which came along in the later years.
SMITH: So for awhile, during the early part of the Cold War, the only weapons plant, separations plant that was running full blast was REDOX. And it was designed originally, initially, it was secret before, but it was originally designed for four tons. In order to keep up with the production, we were going to have to do 14 tons a day. So we had a bunch of good, sharp (inaudible)*, and with the help of ‑‑‑ I had a small engineering crew. With the help of them, we designed ‑‑‑ each panel was run separated by an operator. So instead of the big control rooms, like they have now and like they had in PUREX, it was just individual boards, just like the old bismuth phosphate plant. So these guys were sharp enough to redesign that and locate three control locations. And they made a lot of other improvements, a lot of the times with (inaudible)* equipment. The coarse material was eating out the graphite bearings. So we went over ‑‑‑ I went back to Lawrence Pump *(phonetic) and I saw one of these big sludge pumps, and there was an opening in the tank. Ordinarily we had the deep well* turbines with the graphite. We tried glass bearings, which lasted longer. But we were changing out these $125,000 units every ‑‑‑ shutting down to do that, about every two weeks or less. Sometimes they’d last a week. We tried different bearing material. So I went back and got Lawrence Pump to build one along the designs that just a regular New York sludge pump that they used for their sewer, and made it small enough so it would go down through the big opening. We installed that, one pump, and made an extra one. We never ‑‑‑ they closed the plant down 18 months later, and we still had the original pump in there. It had some drawbacks, because we had to have so much liquid in the tank before it would start. Had a siphon tube down to the bottom of the tank, because it wasn’t long enough, and it wasn’t practical to redesign or build one, so we put this suction. And, of course, as long as it kept it running and everything going, kept the tank a certain level, there was no problem. But if it did happen to go below, they just had to add water and fill it up so it would prime itself.
WEISSKOPF: Okay. Now, the first six months you spent in maintenance, early on? You said they sent you out to the 200 areas?
SMITH: Yes.
WEISSKOPF: What kind of work were you doing in there?
SMITH: In those days, there was no union, and there was no differentiation between pipefitter, and millwright and machinist. I worked in the machine shop for a while, and then they put me on the shift and I’d go out to the various buildings and worked on mechanical equipment mostly.
WEISSKOPF: Did you ever go into the canyons?
SMITH: Oh, yes.
WEISSKOPF: What was the typical job where you might be sent into one of the canyons?
SMITH: Well, when they first started the T Plant, they just got hot, a couple of them. I had a problem with a jumper, and they couldn’t get it to fit in up there, so they put a couple of us down in the cell. We had a very short time limit. It hadn’t gotten real hot yet. We went up and tried that jumper so we got it to fit in place.
WEISSKOPF: What would they have done if it had been hot? What could they have done?
SMITH: They probably had to take the thing out and ‑‑‑ well, we couldn’t have gone down there. They’d probably take this out. In those days, we had ‑‑‑ later on, of course, we had a decontaminator, we had the capability of doing that, but we didn’t then. Wouldn’t even suggest it. They’d have sent it to the shop. We had (inaudible)* superintendent later on, this is now. They’d have gone back to the shop, pipe shop, and got another one built.
WEISSKOPF: Okay. And just replace the whole jumper?
SMITH: It was very interesting. (Inaudible)* might be interesting now. There was two different theories here. At Hanford, we built the jumpers very rigid. They had ‑‑‑ they didn’t bend very much. They had to be right, and they had a lot of stiff framework on them. And one of the big improvements over the bismuth phosphate plant was that they were a flat surface to surface, or the seal was, but the ones later on were oval, concave, so they could be tilted a little bit, and you could get away with that, see. Well, going back to Savannah River, of course I must have known in the back of my mind before this, but I got back there and found out they make them [jumpers] as flimsy as they can. They put one end down and then can bend the other one into place. Take the spare hook* or something like that if it didn’t fit. They just didn’t depend on a good fit. They made it out of schedule 10 pipe instead of 40, and when they put them on there, why, they could draw themselves ‑‑‑ they didn’t have that oval head like we had, but they didn’t have to sit straight, or anything else, they got away with this.
WEISSKOPF: The original design was a flat connection?
SMITH: Yes.
WEISSKOPF: And where was the oval used at Hanford?
SMITH: At REDOX.
WEISSKOPF: REDOX, Okay. They improved the connection.
SMITH: Yes. They improved that here.
WEISSKOPF: But at T Plant, the connections all had to fit precisely?
SMITH: Yes.
WEISSKOPF: When you laid it in there, it had to line up and then just ‑‑‑
SMITH: Yeah.
WEISSKOPF: ‑‑‑ fit perfectly.
SMITH: Yeah.
WEISSKOPF: How did you get down in the cell for that job when you ‑‑‑
SMITH: Well, we had ladders then, put them off the top of the tank. But something went wrong and something got out, you see, and I don’t know how they even ‑‑‑ I wasn’t there when they corrected whatever was wrong, because we were told to scram out of there.
WEISSKOPF: Were you dressed in whites, coveralls?
SMITH: Oh, yes. Coveralls. In fact, we had the plastic suit.
WEISSKOPF: Were you impressed at the size of the place?
SMITH: Oh, I saw that ‑‑‑ I think the T Building had an extra length, they had an extra operation.
WEISSKOPF: The laboratory. The semiworks that they had.
SMITH: Oh, yeah. I think it was 900 feet long.
WEISSKOPF: Just about. Almost. It’s 965, something like that.
SMITH: Is it?
WEISSKOPF: Yeah ‑‑‑ 865.
SMITH: And I couldn’t believe that. Plus the fact that the walls in places were 8-foot thick. Big concrete blocks on top of them. One interesting thing, on the crane, the REDOX crane developed this problem of going around, down the track skeewampus. There was no way ‑‑‑ it was so hot in those days, you only had 30 seconds to go up there and look. Something like that. Now, this was when I was maintenance manager with REDOX. And it was wearing the rail out and everything else. All kinds of problems. So Andy Eckert *(phonetic) and I went up, and we got allowance to take I don’t know how many, a year’s supply of radiation, something like that. Went up there, and it so happened on those old-fashioned cranes, they had one big motor in the center, and they had a flange on either side that drove the wheels, both sides, the motor too, worked from both sides. That was right in the center. And Andy noticed down there a big nut laying on the ‑‑‑ got looking there, and that crane was being powered from one side, and the other ‑‑‑ all gores* were either sheared off or laying around there. Those bolts. Nobody had thought of that for two or three weeks.
WEISSKOPF: So it was always skewed as it went down the track?
SMITH: Yeah. Every once in a while we’d have to go down to the end and bang it against the end to straighten it out again. And they did that so much, once they broke the rail on one.
WEISSKOPF: Did you ever work on the cranes at T Plant or B Plant?
SMITH: Yes.
WEISSKOPF: What types of things would you be doing with those?
SMITH: Oh, actually, most of the things was electrical. But we had to go up and lubricate the thing. And then... well, let’s see...
WEISSKOPF: Let me ask you this: There were two periscopes that the operator used.
SMITH: Yes.
WEISSKOPF: Do you remember there being television, a little closed circuit television in the cab?
SMITH: No. There wasn’t anything like that, that I know. The first television we got put in, and we put one on before we shut down at REDOX, but it never was satisfactory enough to see what you were doing.
WEISSKOPF: At REDOX. So at T Plant and B Plant, you don’t remember TV being there at all?
SMITH: No. No, there wasn’t any. (Inaudible)*
WEISSKOPF: Yeah. Is it possible they installed it and never used it?
SMITH: No. Well, yes, later on in T Plant it became the main decontamination of the ‑‑‑
WEISSKOPF: No, no, I mean in the beginning.
SMITH: No.
WEISSKOPF: In the beginning, there wasn’t a little TV screen in the cab that they never used?
SMITH: No. It wouldn’t be in the cab anyway, it would have to be out in the ‑‑‑
WEISSKOPF: No, the screen itself.
SMITH: The screen. Excuse me, I’m sorry. Okay.
WEISSKOPF: Okay. Well, I’ve heard it from plenty of people; it must be true. Did you ever talk to any of the crane operators?
SMITH: All the time.
WEISSKOPF: Were they swaggering, like a fighter pilot? Were they cocky and proud of their job because they ‑‑‑
SMITH: They were proud of their job, but they were very humble, too, because they had so much at stake. The whole plant depended on them. The whole ‑‑‑ they were the one key ‑‑‑ but it’s amazing, though, how we would often schedule shutdowns for the top crane operator to be on shift, at least when we installed the equipment. Dismantling it was no problem. But when we started installing it, why, we...
WEISSKOPF: So you’d schedule it around his schedule, to make sure that the top guy was there.
SMITH: There were very few that weren’t good operators. But there were a few that we just didn’t have any confidence in.
WEISSKOPF: How many hours would they spend on a shift inside the cab, working it? Would they be there the whole time?
SMITH: No, no. They came out for something to eat, to take lunch. But they put in four hours, probably.
WEISSKOPF: Okay. Pretty tiring job?
SMITH: Oh, it is, when they’re putting jumpers on. But most of the time, of course, they can only do so much, they have to get instructions on the process. Each operating department had an engineer working for the production. He was the production engineer, and he knew the facility very well, and he had all the blueprints, and he worked with the crane operator, told him this is the next jumper to use. They got to the point where they were pretty good at it themselves, but they had a certain order that they had to go on, because some were overlapping the others. You had to avoid putting one that was on top, and then it would have to be removed to put the other one in.
WEISSKOPF: Would they give them charts or something, or lists on how they were to go about?
SMITH: I think mostly they worked by the telephone.
WEISSKOPF: Okay.
SMITH: I don’t know. I can’t answer that.
WEISSKOPF: Did you ever hang out in the cab with them?
SMITH: Oh, yes.
WEISSKOPF: What kind of stuff were you doing? What was your job?
SMITH: Well, they would show me ‑‑‑ when you look down on that, I don’t see how in the world they ever operated.
WEISSKOPF: Looking through the periscope?
SMITH: Yeah. It took a certain ‑‑‑ see, the order of promotion was that they put heavy equipment operators ‑‑‑ I mean, crane operators that operated outside cranes. But I don’t know what the percentage of them was, but there was a certain percentage that just, by mutual agreement, they weren’t going to cut it. But they did have a lot of pride in the job, but as I say, most of them were very thankful there was a being that was helping them, the chances of everything fitting in place. The jumpers had to be all fit. A lot of times we would make new ones completely in getting them all. And, of course, if one didn’t get on, why, we had to go back to the shop and get another one built. We had to call up people at night, get a crew up there and put a jumper together sometimes.
WEISSKOPF: There must have been some pretty extreme pressures to keep the thing running.
SMITH: Oh, in REDOX, I’m telling you.
WEISSKOPF: Especially at REDOX?
SMITH: Especially REDOX, because PUREX wasn’t up. You know, it was quite a while, we had had all the cold* runs to do and a lot of other things. I don’t remember the timing. For a while, for whatever reason, none of the dissolvers had the (inaudible)* where you could put a concrete cylinder down the center, through the colony*. And they didn’t have the capability of doing this as E metal in Richland, and I don’t know, I guess it’s the enriched uranium.
WEISSKOPF: Which you didn’t have to worry about in the old days because they weren’t using any, right?
SMITH: That’s right. All the old dissolvers would just dump ‑‑‑ they dumped the whole (inaudible)*.
WEISSKOPF: And the only time they worried about criticality was probably after it got out of the T Plant into the other buildings, maybe at the end of the cycles?
SMITH: Yeah. There was a place in 233 in REDOX where we were worried about criticality, and we didn’t trust valves or anything. Whenever we had to use that line, we went in and we took a flange, it had two flanges, and took a line right out and molded blanks.
WEISSKOPF: Disconnected the pipe?
SMITH: Disconnected the pipe and put blanks on. And then during this operation, we went in, and during that time, at one time it about got away. And we had to ‑‑‑ I had an engineer by the name of John ‑‑‑ I don’t know whether I should say the name or not. Dugan (phonetic)* was his last name. He went in to try and save the day, and he took a big overdose of radiation, and he was never allowed to work in radiation after that.
WEISSKOPF: Took a lifetime dose?
SMITH: Yeah. So he went to grape* farming out in Benton City after. He went there for a long time. He’s got a grape farm up there, so he took his full time. But he didn’t come to work for me till after ‑‑‑ he was working for the engineering department then, because after that he came to work in maintenance, in our organization. And then he quit.
(End of Interview)
Interview of Warren H. Sevier
on audio tape (not video)
at his Home in Richland, WA
July 13, 2000
Interviewed by Gene Weisskopf, BRMA
Keywords: “200 Area”, instruments, 1950
[SIDE ONE]
WEISSKOPF: Today is July 13th and we are with Warren Sevier in Richland, that is
S-E-V-I-E-R, right?
SEVIER: Right.
WEISSKOPF: Okay and I guess where I’d like to start is maybe a little background about like what you were starting with what brought you to Hanford.
SEVIER: Okay, I worked for an instrument company back east and started looking around for a job and this was advertised in the Cleveland papers, so I submitted an application and here I am.
WEISSKOPF: Was the job highly tuned to what you were doing or…?
SEVIER: I was working for an instrument company and the job was instrument technicians.
WEISSKOPF: Okay. Why were they advertising in Cleveland do you think?
SEVIER: I don’t know.
WEISSKOPF: Yeah.
SEVIER: At that time, the previous fall, they’d had a lay off here. They laid off a lot of people and then with the new plants coming on like the reactors and REDOX and uranium plant they needed more people, so they went across country looking for people.
WEISSKOPF: So what time of year do you think it was that you saw the ad?
SEVIER: It had to be during the summer.
WEISSKOPF: Of 1950?
SEVIER: 1950, right.
WEISSKOPF: Somewhere in ’50.
SEVIER: And I came here in October of 1950.
WEISSKOPF: Were you married then or have kids or anything?
SEVIER: No, I was single then.
WEISSKOPF: So it was pretty easy to pick up and move.
SEVIER: It was yes, um-hum.
WEISSKOPF: Was the pay better than what you were getting or what was the reason?
SEVIER: Oh yeah, it was a factory job where I was working.
WEISSKOPF: Okay.
SEVIER: And I wanted to work in a field as a field engineer. At that time, they had a Cadet Engineering course and I was scheduled to take it. Every once in awhile somebody from the shop would be qualified enough to take it but management decision came down that no one else would be taking the course in the future without a degree and I didn’t have that.
WEISSKOPF: Okay, right.
SEVIER: And so that’s when I started looking for another job.
WEISSKOPF: And did they pay your way to come out for an interview or how did that work?
SEVIER: No, I submitted an application and I guess they gave me the job. There was some correspondence back and forth of course.
WEISSKOPF: Yeah, okay. Any negotiation about salary or did they just tell you what it was going to pay?
SEVIER: No, they told me what it was.
WEISSKOPF: Was it a step up?
SEVIER: Oh yeah, from factory work?
WEISSKOPF: Uh-huh.
SEVIER: Um-hum.
WEISSKOPF: Great.
SEVIER: What I was doing in the factory was assembling instruments and calibrating ‘em.
WEISSKOPF: Um-hum. What kind of instruments were they?
SEVIER: They were for powerhouse type, temperature, pressure…
WEISSKOPF: Yeah.
SEVIER: …flow.
WEISSKOPF: All of which they had out here right?
SEVIER: Oh yeah.
WEISSKOPF: Somewhere or another, okay. So you picked up and moved out. Did you know where Pasco and Richland were? Were you familiar with the territory?
SEVIER: I had been on the West Coast when I was sailing in the merchant marine but I had never been. I worked for an Alaska steam ship one time but never in Seattle and I didn’t realize that there was deserts and dunes like everybody else.
WEISSKOPF: Did you drive out here?
SEVIER: Yes, um-hum.
WEISSKOPF: Okay. So it must have been a little bit of a surprise when you found that you had arrived when you still didn’t look like you were in Washington.
SEVIER: Yeah.
WEISSKOPF: Where did you stay when you got here?
SEVIER: They had dormitories.
WEISSKOPF: Okay.
SEVIER: In Richland and I stayed in the men’s dorm.
WEISSKOPF: About how long did that last?
SEVIER: Let’s see….
WEISSKOPF: You got here in October.
SEVIER: Yeah, I think it lasted till, well I stayed till ’52 till I got married.
WEISSKOPF: Okay, so you stayed in the dorms for two years?
SEVIER: Um-hum.
WEISSKOPF: And that was a normal thing to do? It wasn’t just for transient temporaries?
SEVIER: Yeah there was 13, I think 13, and men’s dorms and I don’t know how many women’s dorms.
WEISSKOPF: Okay. And did you start work immediately upon getting here?
SEVIER: Oh yeah.
WEISSKOPF: Okay. So, where was your first assignment?
SEVIER: Well, in 700 Area Powerhouse. It still had some clearance, I think, to go through but anyway they had equipment from the company that I worked for and…
WEISSKOPF: So you…yeah.
SEVIER: …they wanted somebody to calibrate it.
WEISSKOPF: I wonder if that’s why they were advertising in Cleveland.
SEVIER: No, I don’t think so…
WEISSKOPF: No? Okay.
SEVIER: …I think their ad probably appeared all around the country, I think.
WEISSKOPF: Right, right. Refresh my memory in the 700 Area Powerhouse, where was that?
SEVIER: It was back of the 703 building, part of it is still there. It was in that open space where the bus terminal is now.
WEISSKOPF: Okay. Where did that power go to, do you think? Steam or?
SEVIER: It was steam and it took care of the office buildings, also I lived in those little apartments on George Washington Way and they were steam heated at the time.
WEISSKOPF: Okay. So that was a pretty standard non-nuclear job then?
SEVIER: Right, that was just until the clearance came though.
WEISSKOPF: And for that job required no clearance….
SEVIER: No.
WEISSKOPF: …and so how long were you there, do you think? A matter of weeks or months?
SEVIER: Oh, just a few weeks.
WEISSKOPF: Okay. Any problems getting clearance?
SEVIER: No.
WEISSKOPF: Yeah. So where did you go after that?
SEVIER: Went to the 200 Areas.
WEISSKOPF: Okay, in power or?
SEVIER: In instruments. See they had a separate instrument division.
WEISSKOPF: Okay.
SEVIER: They were set up with different kinds of divisions, there was separation division and so forth. Reactor had one division and separation, 200 Area separation and metal prep was 300.
WEISSKOPF: Um-hum, all had their own separate instrument people?
SEVIER: Yeah.
WEISSKOPF: Um-hum.
SEVIER: Um-hum, but as a group we, most of us, belonged to the Instrument Society.
WEISSKOPF: Right. Did you ever have meetings on campus amongst all of you or did you go to classes that would have mixed people from all areas?
SEVIER: Yeah I went to classes, right. They had classes for the people that came in here were either electronic or pneumatic technicians. I was classified as pneumatic so we had a school in White Bluff’s, in a warehouse in White Bluff’s, and we had both pneumatic and electronic people in there and they were from all the areas. So I think the school lasted probably about…oh six months if I remember correctly.
WEISSKOPF: Cause an awful lot of your instruments would have overlapped with everybody elses.
SEVIER: Oh yeah.
WEISSKOPF: Yeah.
SEVIER: Um-hum.
WEISSKOPF: And I presume that…were there standards that were used throughout the site?
SEVIER: Um-hum.
WEISSKOPF: Okay. Was there competition among you guys and the 100 Area instrument people or….
SEVIER: No.
WEISSKOPF: …didn’t really know what they were doing?
SEVIER: No, no problem there.
WEISSKOPF: Yeah. But you did share information?
SEVIER: Oh yes, um-hum.
WEISSKOPF: Yeah, okay. So when you were in instruments in the 200 Areas were you more narrow than the entire both 200 Areas or for some aspect of them?
SEVIER: Oh yeah both. I worked in T plant…
WEISSKOPF: Were you assigned to T plant, or that was just one of the buildings you took care of?
SEVIER: No, I was assigned to T Plant and also the tank farms one period. Then I was in a group that had the powerhouse and the remote weather instruments.
WEISSKOPF: Right, did you ever have to climb the weather tower?
SEVIER: Yeah.
WEISSKOPF: Okay. Was there an elevator or walk up?
SEVIER: They put an elevator in there later I think.
WEISSKOPF: Okay.
SEVIER: Yeah I did. There was no elevator at first.
WEISSKOPF: You had to climb up?
SEVIER: Yeah, one time we changed all the thermocouples or _____(sounds like thermones) I’m sorry…on the various stages where they measured temperature and uh….
WEISSKOPF: You had to work on the outside of the tower or how secure was it?
SEVIER: Oh you could reach from the tower.
WEISSKOPF: Okay. Huh. So
SEVIER: Yeah.
WEISSKOPF: And over, so what was your span of time dealing in the 200 Areas do you think? For the various jobs you had there.
SEVIER: Oh, for my whole career, just about.
WEISSKOPF: Was it? Okay.
SEVIER: I think so.
WEISSKOPF: Which went until when?
SEVIER: ’88.
WEISSKOPF: Okay. 38 years.
SEVIER: Um-hum.
WEISSKOPF: Okay.
SEVIER: I even got a 35-year watch.
WEISSKOPF: A watch?
SEVIER: Yeah.
WEISSKOPF: Yeah.
SEVIER: Rockwell. It is kind of funny, you know, you work for all these various contractors at the same job essentially, essentially like I was a Project Engineer for General Electric Arco.
WEISSKOPF: Um-hum.
SEVIER: Rockwell, and then of course I retired from Westinghouse.
WEISSKOPF: Yeah. Did retirement work out okay after all those transitions?
SEVIER: Oh yeah, fine.
WEISSKOPF: Yeah, okay. Cause I know that was always something that it depended on who you were working for.
SEVIER: I worked a little longer. I was going to retire when I was 65 and I worked into the next year because I was upgrading the railroad as a Project Engineer. That was one of the projects they had and they wanted to finish that before I retired, so I did.
WEISSKOPF: Okay.
SEVIER: I worked maybe in to January or February or something like that.
WEISSKOPF: I guess the part I am interested in the most right now is T Plant specific work….
SEVIER: Okay.
WEISSKOPF: …and I guess what kind of clearance did you need for that versus other places?
SEVIER: I think, you didn’t, you just needed just secret clearance, I’m not sure.
WEISSKOPF: Was it?
SEVIER: I’m not sure.
WEISSKOPF: Yeah, okay.
SEVIER: I had TS clearance because I worked sometimes once and awhile in the 2, 3, 4, 5.
WEISSKOPF: TS, was that higher…
SEVIER: Top secret.
WEISSKOPF: What was Q level?
SEVIER: Q was normal I think.
WEISSKOPF: That was just the basic.
SEVIER: Yeah, Q.
WEISSKOPF: Okay, okay but you had a higher one.
SEVIER: Well later I did for working in the metal prep building.
WEISSKOPF: Right, right. So when do you think you went to T Plant? Was that early on?
SEVIER: Yeah I think so. That would be….
WEISSKOPF: In ’51 or?
SEVIER: It had to be in ’51.
WEISSKOPF: Okay, okay. Was that your first assignment in the separations area, actually working on the separations process?
SEVIER: Working in one of the process buildings?
WEISSKOPF: Yeah.
SEVIER: Yeah, um-hum
WEISSKOPF: Okay, okay.
SEVIER: Because before that we had the powerhouse and the tank farms, well the tank farms I worked in and powerhouse, tank farms, and the weather instruments. Yeah.
WEISSKOPF: Followed that, or…
SEVIER: Well that was before I went into T Plant I think.
WEISSKOPF: that quickly?
SEVIER: Um-hum.
WEISSKOPF: You went into T Plant within the year of getting here…
SEVIER: Oh yeah.
WEISSKOPF: …but you worked in all those other places too?
SEVIER: Um-hum.
WEISSKOPF: Okay.
SEVIER: One group had it all, had the three assignments. One group took care of the powerhouses, the tank farms, and the remote instrument groups, operative.
WEISSKOPF: And so you weren’t stuck in one building all day obviously….
SEVIER: No, no.
WEISSKOPF: …the assignments came up and they would move you around.
SEVIER: Right.
WEISSKOPF: So what were you doing at T Plant when you first got there?
SEVIER: I worked as an instrument technician.
WEISSKOPF: Which meant you could go anywhere in the building to work on instruments?
SEVIER: Oh yeah, um-hum.
WEISSKOPF: How many of you were there?
SEVIER: Gee I don’t know, maybe counting the shift people, probably 10 in a group.
WEISSKOPF: 10 instrument people?
SEVIER: Instrument people yeah.
WEISSKOPF: On any one shift or through the entire, all shifts.
SEVIER: For the entire thing.
WEISSKOPF: So there might be two or three.
SEVIER: One man on a shift. See we were working six days a week. So short change was a matter of a few hours.
WEISSKOPF: Um-hum.
SEVIER: But I didn’t work shift there I worked days but I worked shift later at REDOX.
WEISSKOPF: Okay.
SEVIER: When they started up REDOX.
WEISSKOPF: Everything they did at T Plant was remote controlled, so I presume that instruments were as critical as instruments can ever get.
SEVIER: Oh yeah.
WEISSKOPF: Were you sort of on emergency call and when things came up you had to get to ‘em right away.
SEVIER: Yeah, of course as I say they had shift coverage so they had to have a man there all the time.
WEISSKOPF: But, was it frequently, would the process stop until you guys fixed it?
SEVIER: No, because it was batch.
WEISSKOPF: Okay.
SEVIER: They get in to the process, I mean start and stop. I’m not to sure…
WEISSKOPF: Yeah.
SEVIER: But it was a batch process.
WEISSKOPF: People weren’t yelling at you continually about holding up the process.
SEVIER: Oh no.
WEISSKOPF: Did you know much about the process while you were working there?
SEVIER: Not too much because it was a no no to read run books and things like that.
WEISSKOPF: The logs.
SEVIER: Right.
WEISSKOPF: Yeah, okay.
SEVIER: You get caught reading those and you get a little lecture but nobody read ‘em because really…if you were a chemist or something it might be fine but…
WEISSKOPF: Right, right otherwise it would be boring reading.
SEVIER: Um-hum.
WEISSKOPF: Did you ever have to dress up and go in the canyon to do instruments?
SEVIER: Oh yeah.
WEISSKOPF: How often was that? Weekly or every now and then?
SEVIER: No it wasn’t very often.
WEISSKOPF: Um-hum.
SEVIER: We had one project I remember, when they sent the slugs over from the 100 Areas they were in water and it was always a problem sending the cask cars back empty because they wouldn’t have the heat anymore and they would freeze up.
WEISSKOPF: Oh in the winter time?
SEVIER: Yeah.
WEISSKOPF: Really?
SEVIER: So what they were trying to do was establish a point where they did not need the water to cool the slugs.
WEISSKOPF: Oh.
SEVIER: So what they did is there was a swimming pool, what they call a swimming pool, a big pool in T Plant and they would bring a basket of slugs in and put it down in there and then we would put thermocouples in amongst the slugs and then we get out of there and they would pull it out and put it up on deck and watch the temperature. If it got to hot they would put it back in. They wanted to see how long it would take for the green slugs to cool down enough so that they wouldn’t need the water coming over.
WEISSKOPF: They wanted to find out if they needed it coming over from the reactors.
SEVIER: From the reactor with the slugs. See the slugs…
WEISSKOPF: Okay…
SEVIER: …provided heat.
WEISSKOPF: They weren’t set up at the reactor to do these kinds of measurements.
SEVIER: Apparently not
WEISSKOPF: It was easier to do it at your place.
SEVIER: It was easier to do with the swimming pool there…
WEISSKOPF: Okay.
SEVIER: Or the pool rather
WEISSKOPF: Okay, so they’d measure the temperature in the water and out of the water and…
SEVIER: Mostly out of the water, pull it out and let it heat up and then established a point where it safe to ship it without water so they wouldn’t freeze up in the winter. I mean that’s just one…
WEISSKOPF: Yeah.
SEVIER: …one little thing.
WEISSKOPF: Why didn’t they just empty the water out after taking the fuel out of the cask car?
SEVIER: I’m not sure.
WEISSKOPF: Yeah.
SEVIER: I was thinking about that.
WEISSKOPF: Yeah. So what they wanted to do was ship it over without water in the cask car.
SEVIER: Right.
WEISSKOPF: Okay.
SEVIER: Um-hum.
WEISSKOPF: And that was one of the times you had to suit up…
SEVIER: Yep.
WEISSKOPF: …then be out there. Where the heck were you when they were lifting fresh fuel out of the swimming pool.
SEVIER: Oh no you don’t get it.
WEISSKOPF: Yeah.
SEVIER: You get out of it. You don’t stay in the canyon.
WEISSKOPF: Yeah. And were they, so you put the thermocouple down in the water while it was safe to do so?
SEVIER: In the basket, Yeah.
WEISSKOPF: Um-hum.
SEVIER: Slugs were in a basket and you put the thermocouple down in there with tongs.
WEISSKOPF: Um-hum.
SEVIER: And then…
WEISSKOPF: You’d leave at that point.
SEVIER: …leave right.
WEISSKOPF: And the crane operator…
SEVIER: Of course the wire is hooked up and so forth.
WEISSKOPF: Yeah.
SEVIER: The crane operator would then pull it out and put it up on deck and then they would watch the temperature if it got too hot to go back in the pool.
WEISSKOPF: Okay. So you were looking down in the cell then. You were working down in, or you know looking over the edge.
SEVIER: _____ (unclear) the pool.
WEISSKOPF: Um-hum.
SEVIER: Um-hum.
WEISSKOPF: Was it big?
SEVIER: Oh yeah, it was a big pool
WEISSKOPF: Yeah, yeah. How many buckets were down there when you were doing this?
SEVIER: Oh, this was just the one bucket.
WEISSKOPF: Just for the test?
SEVIER: Yeah.
WEISSKOPF: Yeah, okay.
SEVIER: I think it would have been too hot with others.
WEISSKOPF: And they tended to have redundancy in instruments so if something did go out they could continue the process?
SEVIER: I think so in a way.
WEISSKOPF: Um-hum.
SEVIER: But with the batch process of course you could always stop.
WEISSKOPF: At any given point.
SEVIER: Right.
WEISSKOPF: Where did you tend to, did you spend, where did you spend most of your time dealing with instruments, what part of the building?
SEVIER: In the gallery, the operating gallery…
WEISSKOPF: Okay.
SEVIER: …that’s where your readout instruments are.
WEISSKOPF: Um-hum.
SEVIER: And it would be a matter of routine calibration.
SEVIER: Preventative…
WEISSKOPF: According to a schedule?
SEVIER: …yeah maintenance…
WEISSKOPF: Okay.
SEVIER: Preventative maintenance.
WEISSKOPF: Did that include like the big scales they had.
SEVIER: Yeah we had a scale man.
WEISSKOPF: Yeah.
SEVIER: I worked with him sometimes, everybody, he took care of the scales there and also the railroad scales. Riverland, which is where the rails used to come in. They had scales there. I remember going over there one day with him. Then, let’s see….
WEISSKOPF: So, there was always, everyday if there were no problems you still had work to do everyday…
SEVIER: Yeah, routine, oh yeah.
WEISSKOPF: …calibrating routine work. How often were there problems where you had to stop what you were doing and go fix something? Was it frequent or infrequent?
SEVIER: I would say infrequent.
WEISSKOPF: Just every now and then?
SEVIER: Um-hum.
WEISSKOPF: Did you ever go up in the crane operator’s cabin?
SEVIER: Oh yeah.
WEISSKOPF: Yeah? While it was running or?
SEVIER: The periscopes belonged to the instrument groups.
WEISSKOPF: Oh, okay.
SEVIER: But we had, there was a specialist in the 300 Area that took care of the periscopes but we might go with him you know and help out.
WEISSKOPF: While they were working? Or just during off hours would you be up there?
SEVIER: Oh off hours,
WEISSKOPF: Uh-huh.
SEVIER: Cause you couldn’t have any cells open or anything. Even though you were behind a concrete wall.
WEISSKOPF: Right. Cause, oh you were working on the outside on the periscopes themselves.
SEVIER: Periscopes, right.
WEISSKOPF: Right, okay. Was there TV installed at that point?
SEVIER: No, that was too early. They put TV on at PUREX, the first ones, and that didn’t work too well at first, the first TV’s. But the PUREX were the first application.
WEISSKOPF: Okay. You don’t remember any TV screens inside the crane at the T Plant.
SEVIER: No, not at T, not then no.
WEISSKOPF: So suiting up was sort of a normal thing to do? Not frequent maybe.
SEVIER: No, it wasn’t frequent, no.
WEISSKOPF: Yeah.
SEVIER: Usually it was pretty well organized.
WEISSKOPF: But weren’t the instruments, the other ends of the instruments were all in the cells right?
SEVIER: The sensing elements?
WEISSKOPF: Yeah.
SEVIER: Oh yeah.
WEISSKOPF: And what would you do if something went out in one of the dissolvers? Or you know…
SEVIER: Oh they probably, they were on jumpers so the crane operator would take them out.
WEISSKOPF: You would take the whole thing out?
SEVIER: And conceivably it would be hot so they would bury it and you’d have a replacement one in which _____ (unclear).
WEISSKOPF: And were you the one who would install you know a thermocouple or something in a jumper?
SEVIER: In a jumper, yeah, you wouldn’t build a jumper but you would put the thermocouple in.
WEISSKOPF: Where would you go to do that?
SEVIER: Up at the maintenance shop where they….
WEISSKOPF: Okay.
SEVIER: ...built the jumpers.
WEISSKOPF: So they would simply have an order for that and you’d go in and they’d tell you put it in there.
SEVIER: No, sometimes they had spares depending on the instrument.
WEISSKOPF: Was it all pretty well set up and easy to do or was there still lots of jury-rigging or making fit or something like that?
SEVIER: No, I thought it was pretty well thought out, planned before.
WEISSKOPF: You guys weren’t changing things, improving, upgrading all time, where you had to constantly fine tune it?
SEVIER: No I don’t think so, not in that sense.
WEISSKOPF: And the instruments in the gallery was like hundreds of yards of instruments…
SEVIER: Um-hum.
WEISSKOPF: .Did you understand, I guess most of them were repeated instruments though right? There was a finite number of types of instruments.
SEVIER: Yeah, they could have weight factors, BG, and temperatures…
WEISSKOPF: Um-hum.
SEVIER: …pressures.
WEISSKOPF: Microphones.
SEVIER: They had microphones yeah.
WEISSKOPF: Yeah, yeah.
SEVIER: Um-hum.
WEISSKOPF: I thought that was a pretty real black and white way of finding out if something was working.
SEVIER: Yeah, you could hear it.
WEISSKOPF: Yeah, yeah, real basic. So if you had training or experience on any one of those you could go down the isle and find them all up….
SEVIER: Oh yeah.
WEISSKOPF: …and down the operating gallery.
SEVIER: And then the radiation instrumentation. They were at usually Beckman’s.
WEISSKOPF: Um-hum.
SEVIER: They’re pretty standard. The weight factor and that was usually a ring balance and temperature was usually oh, Honeywell or somebody like that, Brown.
WEISSKOPF: Um-hum. All standard equipment kind.
SEVIER: Um-hum.
WEISSKOPF: Uh-huh. Did radiation ever interfere with some of the instruments? I know when they first were building Hanford that was an issue with any materials, is how would heavy radiation effect the materials. Did it have any effect on instruments, where you guys had to take that into account?
SEVIER: No, I don’t think so. It did on, I remember, on periscopes in the tank farm.
WEISSKOPF: For looking into tanks?
SEVIER: Um-hum.
WEISSKOPF: So it effected the glass or?
SEVIER: No the light, we’d have to change out the light bulb, and that was _____ (unclear)
WEISSKOPF: Oh yeah. Do you know a guy named Bill Painter?
SEVIER: Oh yeah.
WEISSKOPF: He told me a long story once about being involved in a crew where they had to pull the light thing out.
SEVIER: Yep, everybody gets a few seconds.
WEISSKOPF: And they all got dosed and they…yeah, yeah.
SEVIER: Quick turn on the _____ (sounds like light) thing and then get out of there.
WEISSKOPF: So were you involved in that from an instrumentation perspective?
SEVIER: Yeah, that’s when I was in the tank farm group, he was probably in the same group at the same time.
WEISSKOPF: Okay, and that was just one sort of, not odd, but you know something that came up that you had to deal with.
SEVIER: Right.
WEISSKOPF: And that was just the light bulbs?
SEVIER: Um-hum in that case, yeah.
WEISSKOPF: Yeah.
SEVIER: Sometimes when they were sluicing and they’d hit the periscope with the sluice uh, you know…
WEISSKOPF: Right.
SEVIER: …and then the bulb would just burn out I guess.
WEISSKOPF: Um-hum. Wow. So, but back at T plant the radiation, you never found yourself having to add a shield or something….
SEVIER: No, hum-uh.
WEISSKOPF: …in order to deal with that, there were all already had been proven…I guess…in the previous few years. Did you work, who took care of the instruments in the lab?
SEVIER: We did.
WEISSKOPF: Oh you did?
SEVIER: Same groups. We had one man assigned to the lab at T plant and then when he needed help, you know, he would get others from the group. But he worked all the time, especially in the counting room. You know where they were counting samples all the time…
WEISSKOPF: Um-hum.
SEVIER: …that took a lot of time as far as one man, keeping one man busy, so…
WEISSKOPF: Were there any unique instruments in the lab that you wouldn’t have found elsewhere in the building?
SEVIER: I’m not sure.
WEISSKOPF: Was there like chemistry instruments, like _____ (sounds like gastromatographs) or?
SEVIER: No, mostly, for the most part they were counting samples, you know. Lets see, I was trying to think of what, no I can’t think of any…
WEISSKOPF: Okay.
SEVIER: …that would be special.
WEISSKOPF: Um-hum. What was the deal with the padlocks on the panels?
SEVIER: You know the jet, so you couldn’t jet from one tank to another without, yeah they had padlocks on the jet controls. They were a wheel-type of thing that…
WEISSKOPF: Simply before you could move from to one tank to another.
SEVIER: Yeah we didn’t do that, of course the operators did that.
WEISSKOPF: Right. And was that for every tank, was there like dozens of locks all the way down?
SEVIER: Um-hum. Every panel board had three or four.
WEISSKOPF: Okay.
SEVIER: Depending on, you know that’s how they moved the material was they jetted it from one to another.
WEISSKOPF: Jet being a substitute for a pump right?
SEVIER: Right.
WEISSKOPF: And that is what you would see in the log book I guess? Is they’d get to a certain point and then they would check something and then say it’s okay to…
SEVIER: I suppose, again I say we didn’t have, I didn’t have, I wasn’t privy to it…
WEISSKOPF: Yeah.
SEVIER: …looking at the log book so…
WEISSKOPF: But it seems like if the only way they knew that things were working right and it was okay to jet it to the next tank was that the instruments were working right.
SEVIER: That’s right.
WEISSKOPF: Didn’t that kind of put a lot of pressure on the instrument people or was it just so well running that it wasn’t an issue.
SEVIER: No, I think because of their experience they would know if something was a little off standard you know. For instance, if you started to jet from one to another and the weight factor didn’t increase in the tank you were jetting into….
WEISSKOPF: Right.
SEVIER: ...or say it didn’t decrease in one, they would know right away.
WEISSKOPF: Cause as soon as they had done a few runs they would have a…
SEVIER: Um-hum.
WEISSKOPF: …routine that they would know what it should be.
SEVIER: Right.
WEISSKOPF: Okay. What about in the electrical or the pipe gallery, did you ever go down there for instruments too?
SEVIER: Oh yeah, Um-hum. There were thermocouples there.
WEISSKOPF: Thermocouples down where?
SEVIER: The wires came through the galleries.
WEISSKOPF: Oh-oh-oh, right.
SEVIER: For the cell temperatures and stuff.
WEISSKOPF: So you might have to tap into those.
SEVIER: Um-hum. Later on, I was Electrical Inspector and Instrument Inspector for 200 Areas for about 10 years so…of course that’s where I would get a little fuzzy as to what I did when, far as you know…
WEISSKOPF: Right.
SEVIER: ...cause I would have projects where we’d put in electric things but that was at a later period.
WEISSKOPF: How about adding new instruments? Was there much of that going on?
SEVIER: Um-hum.
WEISSKOPF: I said earlier improvements, but did they just find new ways to measure things or new instruments to use?
SEVIER: Well no, because the new plants were coming up.
WEISSKOPF: Okay.
SEVIER: Okay. Here comes REDOX, see, which has automatic control.
WEISSKOPF: So they never had to worry about making huge improvements at T plant because it did what it was supposed to do?
SEVIER: Um-hum.
WEISSKOPF: Okay. So you weren’t working with people to design new instruments to make it work better.
SEVIER: Not then, later on.
WEISSKOPF: Yeah.
SEVIER: Of course in the, most of the instrument projects later on I had. Where they’d upgraded. But uh…hey did you want, excuse me did you want some coffee?
WEISSKOPF: I don’t think I want any coffee thank you, once sec, I’m going to turn the tape over.
SIDE TWO
WEISSKOPF: Okay it’s working again. How about just generalized things like what was the most interesting part of the job when your dealing with instruments?
SEVIER: Well I don’t know, probably getting your calibration to come out, I don’t know.
WEISSKOPF: That was the most satisfying part of the job?
SEVIER: I think so, right.
WEISSKOPF: Cause you were calibrating all the time?
SEVIER: Um, part, yeah part of the time you were doing that right. I don’t think all of the time.
WEISSKOPF: And if it didn’t calibrate, that’s where your skill came in?
SEVIER: Start over and fix it.
WEISSKOPF: Yeah, was that the most difficult part of the job too?
SEVIER: Um let’s see, the most difficult part of the job was working shift I guess.
WEISSKOPF: Oh, you mean like graveyard?
SEVIER: Well, on a six day week I think you had, what 12 hours off between one of the shifts. When they had what they call a short change and a long change. Everybody in the plant was working these hours six days a week.
WEISSKOPF: So what was the routine, what was the schedule? Give or take.
SEVIER: Well, let’s see, as I say between…I’ve forgotten now which one…but between one of the changes maybe when you went from days to the short change or long change, anyway you had only eight hours I think it is on one. Maybe it was more than that.
WEISSKOPF: And you would move up a shift?
SEVIER: No, no. You rotated. Yeah right, you did rotate. You change shifts which was difficult cause of sleeping problems.
WEISSKOPF: Yep. I think since then they’ve learned to keep people on a shift longer right?
SEVIER: Right. You can imagine going to sleep say at 8 o’clock in the morning one time, the next time maybe 4 o’clock and 5 o’clock or worse, normally in the evening and this gets to be a little confusing after awhile.
WEISSKOPF: Yeah, right right. How many tools did you carry around with you? Would you do your calibration at the site of the instrument?
SEVIER: Yes.
WEISSKOPF: You wouldn’t take it out? Okay.
SEVIER: Well you might, in some cases you might take it back to the shop and work on it.
WEISSKOPF: Well how do you calibrate like a pH meter if its sensor is out in the canyon somewhere?
SEVIER: Well you do some substitute voltage, or whatever it was.
WEISSKOPF: With a separate wire going to the instrument?
SEVIER: Um-hum. In the case of weight factors and things like that you’d have manometers and in the case of temperature you’d have resistance boxes or voltage, things to measure voltage for the thermocouples.
WEISSKOPF: Okay.
SEVIER: Or substitute. You might want to substitute the voltages to calibrate.
WEISSKOPF: And on any given day would you go down the line and do only one type of instrument? What was the schedule for the calibrating?
SEVIER: I’m not sure on routine. You had a routine, preventative maintenance.
WEISSKOPF: But was it based on type of instrument where you’d go down and do all the thermometers this week…
SEVIER: No.
WEISSKOPF: …or by panel board?
SEVIER: _____ (unclear) panel boards probably.
WEISSKOPF: Yeah.
SEVIER: Course it had to correlate with the operation of the process.
WEISSKOPF: Oh, so it wouldn’t interfere.
SEVIER: You couldn’t very well take an instrument out of service to calibrate it when your operating…
WEISSKOPF: Right.
SEVIER: …so it had to be coordinated.
WEISSKOPF: And you then had a finite amount of time to get it done.
SEVIER: Yeah, Um-hum.
WEISSKOPF: But it sounded like time pressure wasn’t a big part of the job.
SEVIER: I don’t think so.
WEISSKOPF: Yeah, you weren’t under the gun…
SEVIER: No.
WEISSKOPF: …to keep the instruments going.
SEVIER: No, you didn’t have time study per se, which I never did like with, when I worked in the factory that’s what you had was time study. You’d have, you know, so much time to do a certain operation.
WEISSKOPF: Yeah.
SEVIER: Of course, you get energetic and work hard and get a little ahead then you could coast a little.
WEISSKOPF: Right. How about at the tank farm, when you shifted to that aspect did the job change drastically or just the environment in which you worked?
SEVIER: Well, when I was in the tank farm we had three things we could powerhouse, tank farms, and weather instruments. So we might depending on the need, we might work on any one of those three phases.
WEISSKOPF: And where were you based? What was your home office?
SEVIER: Oh we had an office in a, like oh in the change, end of the change…trying to remember…I don’t know, corner of the machine shop we had an office in the 200 Areas, 200 West Area.
WEISSKOPF: And were you doing tank farms for both areas?
SEVIER: Lets see, did we do both? I don’t think so. I think we just did the west areas.
WEISSKOPF: Okay.
SEVIER: Later on we did both though, seems to me.
WEISSKOPF: And were the tanks filling up at that point? How were they dealing with the amount of room they had left? Was that part of your job?
SEVIER: No.
WEISSKOPF: Was that part of somebody’s job as far as…
SEVIER: That would be process operation.
WEISSKOPF: Yeah, so how they were using or anything else didn’t really effect what you did.
SEVIER: No, not, hum-um.
WEISSKOPF: Was there looking for leaks? Was that part of the instrumentation?
SEVIER: As far as…
WEISSKOPF: What you guys were maintaining.
SEVIER: …tanks and that?
WEISSKOPF: Yeah.
SEVIER: Yeah, well we had projects where we drilled wells around the tank farm.
WEISSKOPF: Um-hum.
SEVIER: Monitoring wells.
WEISSKOPF: And put instruments down them?
SEVIER: Oh yeah.
WEISSKOPF: Or would they take samples out?
SEVIER: Well, if you went to the water table they would take samples out but I think the monitoring wells were later on.
WEISSKOPF: And did they have array of instruments down inside the tanks then?
SEVIER: Let’s see what was in the tanks? I guess there were dip tubes for level and BG and I’d imagine temperature…
WEISSKOPF: Um-hum.
SEVIER: …and let’s see, how did they measure radiation? Probably at a chamber.
WEISSKOPF: Inside?
SEVIER: Not in a tank itself but maybe in the well down alongside the tank.
WEISSKOPF: Oh, okay. And how often would you have to suit up and be on top of the thanks?
SEVIER: Not too often.
WEISSKOPF: Yeah.
SEVIER: They had a control house where the read out instrumentation was and a lot of your work was in the control house or instrument house.
WEISSKOPF: Did you ever have tasks where there was a real short amount of time they allowed you to work on it.
SEVIER: Well changing light bulbs was the shortest.
WEISSKOPF: And that was because the lights and the camera had been put down inside the tank and were contaminated, not wet with it probably they weren’t in the liquid they were just above it.
SEVIER: They were above it, but they might be, sometimes they got hit by sluicing cause at that time they were sluicing the tanks for uranium recovery so…
WEISSKOPF: So the sluicing they were doing wasn’t anything unknown, it was just the normal routine for getting the liquids out.
SEVIER: Right.
WEISSKOPF: Changing a light bulb, not real romantic if you ask me, not too exotic. So what was your job while they were doing that? How were you involved with changing light bulbs or how were you involved with the camera and everything?
SEVIER: Well not…
WEISSKOPF: You went there anyway, did they call you in for it?
SEVIER: Yeah, it took a number of people to do this. You know, someone to start it and then the next one would maybe do it, take three or four people to change the bulb.
WEISSKOPF: And was it just a normal bulb or a spot, or?
SEVIER: It was probably a spot _____ (sounds like involved).
WEISSKOPF: But it screwed in light a regular light bulb?
SEVIER: Right, um-hum.
WEISSKOPF: And one person couldn’t take 15-20 seconds to unscrew it?
SEVIER: No, it would take too long.
WEISSKOPF: Wow.
SEVIER: So it was really short.
WEISSKOPF: And they called you in simply to help change the light bulbs.
SEVIER: Well I was part of that group.
WEISSKOPF: Okay. And did you use up that week’s allotment of dose?
SEVIER: Probably.
WEISSKOPF: Cause Bill was mentioning something about sitting around not being able to do anything for awhile after some job like that.
SEVIER: Well we always could work out on a cold side though.
WEISSKOPF: Well evidently he didn’t that time.
SEVIER: Oh.
WEISSKOPF: That was one aspect, one time in his job where they had to sit around for a day waiting for something else to come along but changing light bulbs does not sound real exciting.
SEVIER: He came along a little bit later then, I think, if I remember right. So maybe they changed their method of operating or something.
WEISSKOPF: Well what he was talking about was exactly the same thing you were…
SEVIER: Or maybe they gave him more exposure then they gave…
WEISSKOPF: Yeah, yeah.
SEVIER: …in that case they would probably want to keep him from…
WEISSKOPF: Do you remember what your retirement dosage was? Your lifetime dosage?
SEVIER: No.
WEISSKOPF: Not to high.
SEVIER: I don’t think it was too high.
WEISSKOPF: Being exposed was not a normal part of your job.
SEVIER: No, because later, see later on I did a lot of…oh what would you call it…office type work.
WEISSKOPF: Right.
SEVIER: Cause I wrote instruction manuals and I remember I taught a class to the operators, instrument class at PUREX and a fella named Bill _____ (sounds like Schillnik) and I set up a preventative maintenance file for PUREX and then I worked as Project Engineering, so you see…and then being, I was an electrical and instrument inspector, you know, as I say for 10 years and most of that was not hot stuff that was new. You know, new buildings, new _____ (unclear) so..
WEISSKOPF: Was the instrumentation at REDOX much more exciting than it was at T plant?
SEVIER: Oh yeah, it was, had automatic control there instead of batch.
WEISSKOPF: So the continuous process was not just monitored by instruments but controlled by it.
SEVIER: Controlled by it, um-hum.
WEISSKOPF: Where at T plant it was all padlocks basically.
SEVIER: Um-hum, yeah batch.
WEISSKOPF: And switch on a centrifuge, switch it off, entirely manually controlled.
SEVIER: That centrifuge reminds me you know, my daughter was about yeh high, they had an open house and they had set a cell up at U plant with a centrifuge and we went in there. You know we could go in and look down in there and the next day no more kids. So that was, I think we must have went in on a Saturday and then Sunday morning there was no more children, because it was kinda unusual. She had been in plants where, seen inside of a canyon building where a lot of people couldn’t go.
WEISSKOPF: Yeah, you can’t now.
SEVIER: Yeah.
WEISSKOPF: Yeah, they don’t like hardly anybody in there. That’s funny. What about, the job wasn’t all that hazardous because you weren’t normally going into the canyon or places like that.
SEVIER: Not for me because a lot of portion of my career out there was kind of office work type thing, clean…clean work, new work.
WEISSKOPF: Were you at T plant when they stopped using it?
SEVIER: No.
WEISSKOPF: You had left already.
SEVIER: I went down to REDOX before the building was finished because we were in a Quonset hut between REDOX and U plant or a temporary building anyway and working on the instrument instruction manuals till we went into the building.
WEISSKOPF: Manuals for people to use them or to use ‘em.
SEVIER: Use them to maintain the instrumentation.
WEISSKOPF: Okay. To maintain them, not for the operators?
SEVIER: No…
WEISSKOPF: Yeah.
SEVIER: …in that case it was for maintenance.
WEISSKOPF: Yeah, Okay.
SEVIER: Later on I worked on operating manuals for the operators but that was for PUREX.
WEISSKOPF: And were you doing it from your instrumentation background or just because you understood the process? How did you get involved in writing operator’s manuals?
SEVIER: Not operator’s manuals, these were instrument manuals to educate the operators.
WEISSKOPF: Oh-oh-oh right.
SEVIER: Say that you were a new operator and you’d say “well what’s weight factor?” see….
WEISSKOPF: Yeah.
SEVIER: Well you get to _____ (sounds like write up) in a manual with diagrams showing what weight factor is, what it does and so forth or what’s, you know, anything? What’s BG? What’s, anyhow, that’s what the manual is.
WEISSKOPF: And it might be a paragraph or it might be five pages, but it was just to explain the instrument and how it worked.
SEVIER: You know, like a _____ (sounds like lucidive) about that thick. But anyway, just educate the operators to how the instrumentation did work.
WEISSKOPF: Because again instrumentation was the whole thing. It’s like flying an airplane blind. I mean they had to rely on instruments for virtually everything.
SEVIER: Yeah, because there was no other way. Yeah, right.
WEISSKOPF: Because the only visible part of it was when the crane operator lifted out a bucket, put it in the dissolver…
SEVIER: Um-hum.
WEISSKOPF: … after that everything else was via instruments.
SEVIER: Um-hum.
WEISSKOPF: And in the operating gallery with all those gage ports down there, how many people would be standing operating them? How many operators would be in there?
SEVIER: I don’t know, maybe one or two a panel, I don’t know.
WEISSKOPF: Oh, at a panel?
SEVIER: Or a section.
WEISSKOPF: So there would be quite a few people all the way down at least?
SEVIER: Yeah, there may be, depending on the process of course. We’re talking about T plant?
WEISSKOPF: Yeah.
SEVIER: Okay. We might have one or two panels, sections, then again depending on where they were in the process too I guess.
WEISSKOPF: Okay. Did you ever do any instrumentation for the stack gases going out? Any of the monitoring?
SEVIER: Yeah. I was, was it 291 building?
WEISSKOPF: Right, I think so.
SEVIER: Yeah. Yeah we had instruments in that building, stack.
WEISSKOPF: And that was, was that a room where you had to suit up and spend a little time?
SEVIER: No, oh yes you did, to get in there? I think you did, yeah. Right. Going way back.
WEISSKOPF: And they had filters in at that point right? By the time you got there…
SEVIER: Yeah, prior to my coming here was when they had a problem with the…and then they put in sand filters. But I guess they started, I’m not sure but I think they operated before without sand filters.
WEISSKOPF: Right. I think when they started it up it had no filters at all.
SEVIER: Right. And then just before I got here they put in the sand filters.
WEISSKOPF: And then later on they went to the silver, I forget what it was called.
SEVIER: Silver nitrate?
WEISSKOPF: Yeah, was a step up.
SEVIER: Yeah, that was in the building wasn’t it? Yeah.
WEISSKOPF: Did they have instruments in the filter?
SEVIER: In the filter?
WEISSKOPF: Yeah, down in the sand?
SEVIER: I don’t think so. I think what they do is measure differential across the various parts.
WEISSKOPF: Okay.
SEVIER: Yeah. Get the drop across the filters.
WEISSKOPF: Coming in and going out?
SEVIER: Um-hum.
WEISSKOPF: Okay. I haven’t read yet but what did they do after a period time of using that sand? Would they start a new one or?
SEVIER: I don’t think so.
WEISSKOPF: Okay.
SEVIER: They were big. I don’t think they did anything about it.
WEISSKOPF: And a lot of the stuff that went through it was fairly short-lived right? The iodine.
SEVIER: Iodine…yeah…
WEISSKOPF: Yeah.
SEVIER: …short half-life.
WEISSKOPF: Did you do instrumentation…what am I think of? The rough instrumentation that would just be checking motors and heat on bearings and things like that? Was that part of the instrumentation?
SEVIER: Sometimes. We…usually…most that went to the electricians.
WEISSKOPF: Okay.
SEVIER: But we might measure bearings and fan bearings and stuff like that. We had thermocouples on the fans…I remember on the bearings.
WEISSKOPF: Oh, to see if they were getting hot or not.
SEVIER: Um-hum.
WEISSKOPF: Yeah.
SEVIER: Maybe I had, I don’t know if they had an inner lock to shut ‘em down, I don’t remember now, _____ (sounds like uloises).
WEISSKOPF: Did you ever get called up in the middle of the night to come out?
SEVIER: No.
WEISSKOPF: Oh, okay.
SEVIER: And that, again, was because they had shift coverage. I worked shift, but that was during the startup of REDOX.
WEISSKOPF: Okay.
SEVIER: I didn’t like it.
WEISSKOPF: What did you mean working shift, versus what? What do you call it otherwise?
SEVIER: Working days.
WEISSKOPF: Oh, shift meaning off or normal hours.
SEVIER: Yeah right. And again, because it was six to eight weeks…and then let’s see how did…I forget exactly how they work but anyway you work more than a week before you had time off. They had what they call long change and people liked that. I think you had about five days off and people take off on trips.
WEISSKOPF: Um-hum.
SEVIER: And like everybody here they came from some other place at that time. We’re not born here.
WEISSKOPF: Nobody was born here, yeah.
SEVIER: So they often liked it so they could go home or whatever they were going to do.
WEISSKOPF: Yeah. What was the most troublesome instrument to work on do you think? The one that was either the hardest to work on or needed your attention the most.
SEVIER: I don’t know.
WEISSKOPF: Yeah? Nothing jumps out?
SEVIER: Might be Ladoux Bells and powerhouse, steam flow meters and that, cause they had mercury in ‘em.
WEISSKOPF: Um-hum.
SEVIER: And you had piping on them where you had to hook your instruments to them.
WEISSKOPF: The mercury is in the pump or in the meter?
SEVIER: Mercury was a seal in the meter between the two pressures and the Ladoux Bell had a _____ (sounds like pravulet) inside of it which gave you a linear flow instead of a square root output.
WEISSKOPF: Hmm.
SEVIER: Because you know flow is related to square root, so in a way it extracts square root for you…
WEISSKOPF: Yeah.
SEVIER: …gives you linear.
WEISSKOPF: Interesting.
SEVIER: But they were sitting in…because of the big difference in pressure they were in mercury for a seal.
WEISSKOPF: Why would, hmmm.
SEVIER: The ring balances were…it was actually a ring that had mercury in it, but it moved, rotated on pivots.
WEISSKOPF: Huh. And you said you liked to dabble with trinkets, were you a clock maker or a radio builder at home?
SEVIER: No. Well I built radios yeah.
WEISSKOPF: Yeah? Yeah, like from scratch? Or from Heathkit or ?
SEVIER: Yeah, Heathkit and junk like that.
WEISSKOPF: Uh-huh. Are they still around by the way?
SEVIER: I don’t know. The last thing I bought from them was an electric filter for the furnace….
WEISSKOPF: Hmmm…
SEVIER: …but that was quite awhile ago.
WEISSKOPF: One thing I bought from them was in 1974 probably, was a windshield wiper variable speed edition.
SEVIER: Yeah?
WEISSKOPF: I was way ahead of my time. That was the only thing I ever built from them. I think one problem today is they probably cost more, so much more than just buying it off the shelf.
SEVIER: Yeah, because of foreign inputs these things are real cheap.
WEISSKOPF: Yeah, yeah. I can just see….
SEVIER: I have that little digital camera there real cheap…
WEISSKOPF: Um-hum, yeah…yeah.
SEVIER: …and all kinds of things like that.
WEISSKOPF: Let me turn this off for a minute.
RALPH SANSOM INTERVIEW- Recorded on 8/8/92
I heard about the project because I was working for Dupont in Salt Lake City. And uh, they interviewed quite a number of us and I signed up to come up as an operator and I got to this area on December the 3rd, 1943, and the uh, bus from the project met the train at Hinkle, Oregon and there were two other fellas that I worked with for a while and knew quite well. One name was Rod Thackeray; and Rod had kind of an interesting thing that became of him. He saw all this desert up here and he was very, very disgusted and he moaned and groaned for 2 or 3 or 4 or 5 days and a couple of weeks I guess. And finally he got in touch with uh, the reactor down in Tennessee. They had interviewed him in Salt Lake and he had a chance to go down there but he decided to come up here. He asked em if he could still go and they said yes so he went back to Salt Lake and worked the uh, through the war in Tennessee. And uh, this other Remington? man who’s name I can’t recall right now, he worked here I guess as long as I did. Cause he was about the same age.
FIRST TIME SEEING B REACTOR SIGHT?
Well uh, dates I can’t but uh, we were taken around the various parts that were being constructed but we headquartered at 300 area. And uh, they cordoned off three lathes, the ones that was that were up here. They filtered in, you know, this day and that day and by Christmas time there was quite a number of em. But we used those three lathe to practice uh, the uh, cutting the slugs that were to go into the reactor. And I worked there for I can’t remember how long. But when they got ready to recruit for B area I went out there and I helped them to load the reactor and uh, uh, was there when they started it up and got the first reaction.
PROCESS OF BUILDING REACTOR?
No, I don’t I don’t think that’s right. There was there was a building that was being constructed and I can’t tell you for sure but I think that the reactor itself the core and everything was built and then the building built around it. Don’t you think that’s right?
I WOULD THINK SO.
Yeah, yeah it was going up simultaneously is more correct because there’s an awful lot of concrete that has to go around that for protection, you know. Concrete is pretty dense and they need that for protection from the reac from the reactivity.
HOW MUCH DID YOU KNOW?
Well uh, very little. As a matter of fact, we working down there in the 300 area would get some of these chips in our shoes. And uh, occasionally you’d walk down the street and hit a hit a rock or something and a spark would fly from your shoes! Because this uh uranium was, that was in the shoes. Oh, we got to thinking it was a bomb and we got to thinking it was a explosion. I don’t think any of the people in my category knew about it until, uh, till we went out to the area to the B area and started working on the reactor. And even then uh, uh, we didn’t know too much. You know they just fed us a little bit at a time but once we, once we got the reactor up and started to uh, uh, operate it all the time why of course they expected us to learn as much as we could and they, they’d didn’t uh, we knew what they were gonna do with the with the material then.
WHAT KIND OF REACTOR AND HOW BUILT?
Well it was a water cooled reactor. And the pile was built, it’s a, a....a lot of tubes that hold these 8 inch slugs uranium slugs and uh...
PAUSE, START AGAIN.
Well it’s a, they call it a pile and that’s what it is. It’s a pile of uh, of uh, tubes that hold these uranium slugs and at that time the first of em were 8 inches long eventually they started using 4 inch slugs. But uh, these are inserted in the reactor and uh, oh as the reactor goes up they put rods that have uh, boron that are inserted both from the top and from the side to control the reactivity and uh... It’s made of uh tubes and it has uh, what they called control rods and safety rods. The safety rods were vertical and they were made so that uh if anything out of the ordinary anything that went out of normal happened that they would just automatically drop in and kill the reactivity. And then the control rods, were they went in from the front and the operator would sit at the board and when the pile was ... (FLY BUZZING AROUND HIS HEAD) When the uh, operator would sit at the front and control these uh, uh, rods by insetting em and if the reactivity got a little too high in one place they would insert this rod a little bit into that area. As I recall there was 18 or 19 control rods, I may be wrong on that because it’s been so long. But that’s uh, that’s how the reactivity was controlled was by these boron uh, rods, rods. Of course the water cooled the uh, tubes so that they wouldn’t melt the metal, as you might have heard, got real real hot, I’ll tell you Dantes Inferno probably was....
MIGHT MENTION FUNCTION OF GRAPHITE.
Well the graphite is what what uh, makes the uh, uh, the reac the neutrons yeah, bounce off of the graphite and uh, that’s what makes the activity the reactivity goes is because it uh bounces these neutrons on in back into the pile and uh and keeps the reactivity going. I know that uh, Ted Lewis and some of those guys that I worked for would probably have a fit if they heard me explaining some of this so clumsily....
CHATTER
As we mentioned earlier, in the very beginning very few people knew what they were about, you know; and uh, as a matter of fact, here’s a little sidelight that might be interesting. Uh, got here on the 3rd of December as I said; and it was a dreary cloudy day like we’ve had, are you from this around here? Like we’ve had from time to time in the winter. And, we didn’t see the sun until Christmas day. It came out for, oh, couple of hours and then back again. And the scuttlebutt amongst uh, the peons and everybody was that that was a camouflage to the, that they had put up so, you know, to hide this - but it was just good old Washington weather and like I say from the 3rd of December to the 24th of well until Christmas day, I didn’t see a peak of the sun. (CHATTER) Nearly everybody had that as a theory.
REACTOR BUILT, SOMETHING IN PROCESS.
Well yes, but they knew pretty well what they were gonna do. I, they built a reactor in Chicago I think it was. Wasn’t it in Chicago? yeah and I believe that this reactor was uh, uh, the B reactor was just like that model that they built only to scale, you know bigger. So they knew it would work uh, or they figured it would work but they didn’t know if one of that magnitude would work. And uh, when they first pulled the control rods out to start it up, why uh, there was several little things that happened that they thought things weren’t going right but they solved all those problems. I tell ya there was some smart people that uh, that worked on that reactor. And one uh, woman - do you remember her name? She, she was a scientist and I’ll tell you she could tell you just what was gonna happen - when, where and uh, what it would be if you did this and it was just it was just about like a prophecy so to speak. But she knew what she was doing; as did most of the, well I would say all of em.
DID YOU EVER MEET Fermi?
No I didn’t. I missed him by just a little bit a couple of times. But I wasn’t fortunate enough to be at work when he was there.
WHERE WERE YOU AT STARTUP?
No, I was, I was doing some outside work connected. Because you see they had to really train us and most of the when they when they were getting the thing to start up most of operation was done by scientists, you know they, so it was some time after they had they had gotten it up before I was uh, privileged to sit down at the reactor; at the control board.
CHATTER, YOU HAD REGULAR SHIFT AS REACTOR OPERATOR?
Yeah. Well, I can’t remember how long it was before I went on the shift work but most most of my time out there was spent on shift work. Days, graveyard and swing. And uh, uh, I worked mostly in B area but then I worked I worked in all the areas. And uh, I did a lot of holdover work and as such I worked in most all of the other areas. F, C, (?), and uh my last I can’t remember exactly when it was but when they shut B area down I went to uh, K area and that was where I spent the last uh, before uh retirement, K area.
WHAT WAS REACTORS JOB AT B REACTOR?
Well, you have all of these uh, when you’re sitting at the control board you have all of these instruments that tell you where the reactivity is the highest. What they like to do is uh, is to make the reactivity flat. So it’s even all around the pile. And uh, they try to what seems to be the natural uh, course of things is that it gets hot in the center and they want to show that they will uh, get all of the slugs reactivated uh equally. They put control rods in where it’s hot and uh, to drive the heat up to the corners. And as a re, sitting at the control board you had to check, they would run a map - and they would tell you the map would be, have a , look just like the front of the reactor and it would tell you where the heat was and uh, then you were to put uh, insert these control rods in the area where the heat was and drive it where it was cool and...
TRYING TO COOK EQUALLY?
Cook it all equally, yeah. And then of course uh, there was what they call a 115 building, that was uh, the uh, gas they had, gas went through the air through the reactor too to cool it. Uh, uh, yeah, one oh, one week you would work over to 115 and then you would come back over to the control room and then uh, there was a lot of good old hard common labor of uh, cleaning up the uh, the messes after they had an outage, you know. And of course before, whenever they’d have an outage we would run these uh, uh, discharging machines or charging machines if you will. And the way that worked uh, the machine was hooked up to a to a tube and uh, these slugs were placed on a tray and this machine would come and shove the raw slug into the reactor and out of the rear would come uh, uh, slug that was already done, you know, and ready to be sent over to the 200 area and be separated. And that was just a, well it was quite an interesting job, but it was just a job of labor and ya, (CHATTER) and then, yeah, and then when they, when they uh, were discharged they were discharged into a basin about 20 feet of water and you could just go in and uh, and just see them glowing down there! But they were picked up with uh, oh about 20 foot tongs that were activated, just like an ordinary tong that you close it and a thing would open up and grab a hold of a slug and then they would put it into a bucket. And eventually it was loaded onto a train and taken over to 200 area and separated.
ELEMENTS CHANGED SAME TIME?
No, no the uh the discharge would be uh determined by the amount of activity that the various uh, tubes received. And uh, most of the time, I mean most of the of the discharge you know of course would come from the center because that’s where most of the heat was. But like I said before, they wanted to get it even so that they could discharge all of em, you know eventually the just keep em going in and out all the time.
REACTOR UP AND GOING, FAIRLY UNEVENTFUL?
Well yes, sometimes you’d, if you got to much reactivity it would cause the reactor to scram and the control rods and the uh, uh safety rods would just go in and shut the reactor down.
BEGIN SANSOM TAPE #2
CON’T. SAME QUESTION.
Well uh, you can lose electricity which would happen sometime and of course the safety rods were just by gravity, they didn’t need uh, electricity to insert them that was the way they were inserted. But uh, sometimes they would have leaks in some of the uh, uh, system, get a leak in a pipe or something and and uh, the water pressure go below a certain figure and just things like that. Most of the time once you got the op the uh, the reactor operating it was quite uneventful. For long periods of time, you know, you’d just sit there and just watch the gauges; but mostly it was the things that they were afraid of was the water pressure going down or anything that lost control of the of made you loose control of the rods or the water was the things that you had to watch all the time and you’d check those gauges and they would run these maps to see how the heat was and uh, quite a bit of the time was just watching those gauges and very infrequently did something happen. That was that was surprising to me, you know they that the first reactor of that size that was in existence and that it did operate so well. Didn’t it surprise you too?
WAS THERE GREAT SENSE OF URGENCY IN THE AIR?
Yeah, yeah that’s. Everybody felt like uh, like it was, you know, very important and I think most of the people that worked there had that feeling of uh, of urgency and felt like that they were making a contribution to the war effort. Uh, I don’t uh, I think the uh, plutonium for the Nagasaki and uh, what’s the other Japanese place? I think it came from uh, B reactor, I’m pretty sure it did. (CHATTER)
WAS THE REACTOR RUN 24 HOURS A DAY?
Yes, yeah it was run 24 hours a day until shutdown, you know what I mean. Shutdowns would, oh I can’t remember for sure, sometimes they’d last 3 or 4 days uh, sometimes just if they’d scrammed then you get back up before uh, when it scrams it causes xenon to uh to that poisons the reactor and unless you get up uh, real fast - why then you have to stay down for I think it was 24 hours I’m not sure, but a longer period of time. But it was possible to uh, recover from a scram, an inadvertent scram, uh, like one time uh, the first time that I went into the control room and one of the supervisors, I think it was Ted Lewis I’m not sure, he’s dead now, but there was an instrument there and he said now uh, you do this and this and this and was showing me how this instrument worked. He says uh, “If you run it all the way up it’ll scram” and he turned inadvertently turned it up and scrammed the reactor. If you run it all the way up you might scram the reactor! I laughed I’ll tell ya. I used to kid old Ted Lewis about that. But uh, it was they kept a the supervisors and the scientists kept a pretty good eye on it and uh, uh, I think most of the reactor operators were efficient.
WHAT WAS IT LIKE GENERALLY IN HISTORY IN AMERICA?
I don’t think that people actually at the time the bomb was dropped, I don’t think people of the United States, this is just my opinion, I don’t think they really realized just how much damage the bomb could do, how forceful it was. And uh, as a matter of fact I saw a television show just recently some of the people from Nagasaki telling about what happened and you know you just can’t believe some of the things that how how things would just - it was here and then it wasn’t - you know, and they were still alive, you know a lot of em and uh, yet they didn’t you know, it was just mystifying to me; I and I don’t think that many people realized how powerful the bomb was. But I think that most everybody on the project felt that it was necessary to keep it going and uh, I don’t think they felt that it was an unworthwhile project, uh.
WHERE DID YOU LIVE AT THE TIME?
Well uh, when I first came up here I lived in the barracks, uh, there in Richland. And my wife and family came up uh, oh in February or March I think. And we lived uh, first at uh, 94 Van Guessen in a B house and then we moved in l948 up on 408 Sanford in what they call a precut. And I’ve Iived I’ve lived there ever since.
DESCRIBE TYPICAL WORK DAY.
Well, you’d go in if you were gonna be uh, uh, a reactor operator you’d go in and you would talk to the person that was uh, operating the reactor at that time and you’d look over his charts and so on and uh, then you would just sit at the board like I say if that was your job as a reactor operator, uh, and you’d sit there for 2 hours and then another operator would relieve ya and when he’d relieve ya you’d go and you’d read all these gauges the that were around in the control room - Did you go in the control room? You saw this myriad of gauges. The they had to be read uh, at least once an hour, and sometimes if they had a special project goin on why uh, oftener than that. But basically that was uh, the control room operators job (CLOCK CHIMES) to read these uh, gauges and then operate the reactor. Uh, and there’s one job in reading the uh, water pressure on this board and that would take two people and one person would uh read the gauge and the other would record it and of course you they had to be within certain limitations and if one was out of order they’d call the instrument man and if the instrument was okay and if it was something that was way out and it was not a malfunction of the instrument sometimes they’d even cause a shutdown. Not very often, but uh, that was what they read it for to see if, if any And then the next time that you would be on outside and that would if it was you was goin to work after a shutdown then probably you’d go in and start uh, go uh, back to the where the slugs had been discharged into the basin and pick up metal and put it in these buckets they called em and they would be loaded into the car; but that was uh, that was the three basic jobs of a control room, of a of a reactor operator was in the control room or reading the in the control room sitting at the board or reading the gauges or out on the outside picking up the slugs uh, and shipping the metal to 200 areas and then in the when you was in the 115, the week you was in the 115 building you’d have to check the gauges over there and uh, see that the gas was coming as it should over to the reactor and uh. But mostly uh, it was either hard work or just uh, or just reading gauges and something very very simple.
FIRST YEAR - PROBLEMS OF RUPTURES, SLUGS, TUBE LEAKS?
Well uh, it was probably quite a bit later because the ruptures were the result of of uh, operating at a higher level. By comparison, I can’t remember the numbers but, the level that we were operating when in the first uh, months and year of the reactor, they got up eventually 2 or 3 times as high as that. And when we got up to those higher levels that was when the ruptures came. Uh and, they weren’t too frequent for the... I guess we had quite a few but I didn’t think they were too frequent for the level of operation that we were....
EXPLAIN RUPTURE.
Well uh, the uh the rupture was when the a slug the covering of the uranium slug was aluminum would the slug itself would disin start to disintegra - swell - burst this aluminum covering and then of course that puts this uranium all through the water system and everything and what had to be done then was to discharge that column of slugs and they would get the find out the rupture in the scientists would check it over, I don’t really know what they did there. But, sometimes it would swell and stick the so that you couldn’t discharge the metal with the normal charging machine. Then the maintenance people would come and they had tools and things that would put extra pressure on the on the slugs so that they could discharge it. Sometimes they would have to replace the whole tube and other times just replace the slug that was ruptured. But I, I don’t uh, as I recall, It wasn’t too frequent that that happened, but as you said it was later on when they started in more frequent was when they raised the power levels up.
QUICKIE METHOD?
Well as I recall that, that was just to try to go up and hook the charging machine to that particular tube and charge it with the, they would up the pressure the normal pressure but the quickie part of it was to see if it was not stuck so that they could just get the ruptured slug out and then get it back up because that way they wouldn’t have to be down so long, you see. But if it goes into one of these where it’s necessary to replace the tube when it’s stuck and everything then I think the minimum down time then even in everything else went fine was uh, a couple of days.
QUICKIE TIME 20 MINUTES?
Yeah um uh. Just get up, get the crew up on the on the front face and hook up the charging machine and try to get it out of there as quick as they could, like he said within 20 minutes or so.
3RD JOB, SLUGS IN POOL?
Yeah, they’re in a basin they call it. A 20 foot basin. The, it’s just a matter of pickin up the, you can you can see in the wa the waters clear you see and they have a underwater lights to show you down there; to shine on the metal. Uh, and it was just like a big long tong and you open it up and get it get the jaw on that uh, slug and raise it up and put it in the bucket. It’s just a matter of using, operating those tongs which are very simple. It was a crude crude way actually, but that was about the only way that they figured that they could do it.
WHOLE OPERATION UNDER WATER?
Yeah, oh yeah. Yeah, the buckets were under water. They would, the storage area back there was a, these buckets would hang on a rod and go there was a aisleway that the rods, that these rods that were connected to the bucket could go through and then up on top was a rail with wheels and you could just slide that bucket and uh put it in these rows and put it down on the bottom and disconnect it from the bucket and that was where they stored the stuff in this 20 feet of water.
DESCRIBE NOT SPECIAL LIGHTS.
Oh yeah, as he said this water was so pure it just looked like there wasn’t any water there if you didn’t see the movement of the wa, caused by any activity that was going on in the water, it just looked like it was just clear, and uh, yeah those light uh, it was kind of amazing to me that they that they didn’t un, you know, that it didn’t drown em out but, short em out! But it was, cause the wa, there was no uh, mineral in the water at all you see. CHATTER There’s gotta be, that’s where the conduction of electricity through water is, the minerals in the water. Yeah, you can just put a light bulb down in there and it would just burn.
CHATTER, TAPE 3
Oh, the counterbalance they had uh, a counterweight because those slugs weighed eight pounds , the 8 inch ones and uh they had a counterweight and as you picked up a slug it would be, you know, the weight would drag down and help you pull the tong up out of the water so that you could put it in; they were quite maneuverable for a great big clumsy thing that they were. But uh, without that counterweight uh you’d soon get so tired you couldn’t do anything. I know because once in a while you’d get a hold of a pair of tongs that were that wasn’t working. Actually, what it was just a uh, one of the ways they had was just a container that was around this a rod that the tong was made out of that had air in it and it would float, you see, its tendency was to come up and float and of course that helped ya..
HOW MUCH KNOWN OF EFFECTS OF RADIOACTIVITY? PROTECTIVE CLOTHING?
Well, I thought I, it was my thought that we were really careful and I’ve heard a lot of these people uh, whistle blowers and so on. Maybe there was some things that they did that they shouldn’t have done but I I’m positive that there was nothing done in the interest of speed. All the people that I worked for were safety conscious. And uh and it was not, to my knowledge, there was there was no one out in our area that was injured. I think there was a couple people in the 200 area that got an overdose. But to my knowledge I don’t know anybody that got an overdose of radioactivity.
THAT KNOWLEDGE WAS EVOLVING.
Oh yeah, that’s right. It uh, there’s a lot of it, well there just was no uh, uh, no precedent, you see. The history was made as you went along and they uh kept track of all these things to, whenever they would find out an effect, or what seemed like was gonna be an effect then they would uh, uh, they always cut the uh limits, if the limit they came up with was say, 5 rem uh, a day they would cut it at least in two. And to my knowledge they’re still doing that. I’m not, of course I know that now they uh, it’s been l5 years since I retired and there’s been a lot of new things found out. And uh, so maybe they found out that some of the things they did weren’t just exactly what would have been best. But I don’t think that there was anything intentional in any of that.
ANY THOUGHTS ON YOUR PART IN NUCLEAR AGE?
Well uh, I always felt, now you mentioned the uh urgency of continuing on after Nagasaki and these other tests that they made. I always looked at this as a peace time situation. I I’ve looked at nuclear energy as being the salvation of a lot of countries because a... well I don’t think there’s any better way of making electricity that uh with the nuclear reactor. And I’m surprised, personally, that there has been somewhat of a lessening of the of that idea. A lot of people feel that there’s other means of electricity. Of course, water we know uh is the ultimate one. If you’ve got plenty of water and you’ve got it all the time why sure that’s an easy way to make electricity. But uh nuclear energy, I felt, is a greater peace time uh thing that war time, that’s what I’ve always felt.
CHATTER
Right, right. I think that uh, uh that the United States, generally, I say generally because I don’t know how some of these other areas evolved with the uh nuclear age, but uh I think they uh have come up with good answers to the problems of using nuclear energy for peace time. Then of course medical medically there’s a lot of uses for reactivity in medicine.
IN ‘43 WERE THERE A LOT OF PEOPLE HERE?
Oh yes, yes, it was, that was quite an interesting time as a matter of fact, when we lived in the in the barracks uh and uh ate in mess hall up there. I tell ya you could you could hear most any accent any time of the day. You know, a Southerner, a Easterner uh it was quite interesting. There was a lot of different people and they were noticeable. Uh, we as Westerners have our peculiarities uh and Southerners have their peculiarities and Boston folks uh, it was very interesting to see that uh hodgepodge of people here at that time.
ANY THOUGHTS ABOUT MAGNITUDE OF THIS?
Well yes, well I think one of the main things was the, number one in my estimation is the area that was necessary to build it and the availability of a securing that, you know, for the government. They had its, there’s a lot of land that’s been taken out of normal service and put in to the uh, to the nuclear age so to speak. And uh, another thing is the uh, uh dedication to the people that were recruited. There was a lot of a lot of know-how that was that was looked for from the Dupont people in Salt Lake and other areas uh, Denver, the Denver people - a lot of them came up here. The, I think it was just a matter of all those things coming together in the right area and with the right people at the head of it that made it possible.
MAYBE GREATER THAN PUTTING MAN ON MOON.
Well uh, certainly it has had more impact on the people in this uh world than the man going on the moon so far now eventually, I don’t know maybe another 50, 80 years the uh that something from that feat will evolve. But, to date in my book it’s much it’s much bigger than that.
END
[partial transcript received 9/7/99)
JOHN RECTOR INTERVIEW,
Okay, well I am John Rector, R-e-c-t-o-r. I was working for DuPont in the Kansas City Small Arms Plant, which was run by Remington Arms as a division of DuPont. I was called into the office and they says we want you to go out to Hanford Washington for a three months’ job. (Coughs) And well, that was during the war, you just didn’t ask, you didn’t question, they wanted you to go, you go.
So I arrived out here on February 29, 1944. I was brought out here to actually machine or work for the tooling for machining the graphite for the reactor core. At that time I didn’t know anything about what it was doing or anything else, it was just a job that had to be done.
I didn’t know what the product was, and really didn’t want to know, because security was very very tight. And I was here and lived in the barracks for six months before they had a house ready in Richland so I could bring my wife and family out.
My three months was up when we had the graphite all machined, and they were looking for people to go into operations, and I signed on in the maintenance department of operations.
SO YOU WERE HIRED SPECIFICALLY TO DO MACHINING OF THE GRAPHITE.
WHAT WAS YOUR EXPERIENCE?
I was in the tool room of the Remington Arms Plant, with an extensive machining background. That was a plant that had a little over twenty thousand working there, and we were in the tool room building, there was over twelve hundred working in there to make the tooling just to make the thirty and fifty caliber ammunition.
TELL US ABOUT THE GRAPHITE ITSELF< REQUIREMENTS< CHALLENGES.
Well, the graphite came in to us in the 101 Building in Hanford in square blocks a little over four foot long, and a little over four inches, maybe four and a half inches square. Now these were not smooth, not uniform, they were just rough castings. Castings is probably not the right word, but rough blanks. Now these blanks had been inspected prior to getting to us in the 101 Building, for purity. They had to make sure that each block we machined was a block that would meet their reactor standards.
They did not want any foreign material contaminating the blocks, or machines... had to be very careful that when they were using any oils to lubricate the machines that they machined only, lubricated only the machines and not any blocks. Or left any around that could potentially contaminate...Coughs again) Don’t know if this is going to work or not...
Now the graphite purity was certified before we ever received the blocks. I don’t know whether records were kept of them or not, as to how, but I was sure there were records of some kind. But things moved so fast you just had to make every day count, you had to make some progress.
First the holes were drilled and then they were machined on the outside square with the hole concentric to all four surfaces. So that way when they were put together they would all align. Some of them had keyways in them and some of them were just like blocks. The samples that we have been able to get on this do not have a chamfer on the outside of them, the units originally each had about a 45-degree camfer on those. And this was for the internal cooling by air, Helium, maybe CO2, they used several things.
But there was additional atmosphere flows around the reactor. The tolerances on the squareness of the graphite was less than the thickness of a sheet of paper. They had to be square, and they had to be exact size, and the hole concentric. And the lengths all had to be, we had micrometers that was four inches long, they were special micrometers that were made just for doing that. Because a normal four-foot, try to go around a four-foot round part, takes a great big U, well these were tubular micrometers. frames that would only go a little over four inches. They had a real little depth of capability.
But probably the thing that impressed me more than anything else was the procurement that they had. Purchasing, the procurement people...working in the tool room, every once in a while we would come to a situation that, here come a new size block, a new description of a block, that we didn’t have any cutters for, and invariably, if I needed a cutter one day, the next morning when I come to work, we had it. It might not be a new one, but it was one that would get the job done. I might have to sharpen it, or even make it down a little thinner, for a specific dimension. But very seldom did they ever delay acquiring anything that you needed.
WHO WAS DOING THE PROCUREMENT/ DUPONT?
DuPont. I know in one instance we needed a milling machine that we didn’t have. And within a week, we had it, but it had been on a train headed for a plant in Los Angeles. They detoured it en route, it came to here instead of Los Angeles, because the case around it had the markings, Expedite, Hanford, Manhattan. Manhattan took priority over everything.
I’m still amazed at the short period of time that they could get whatever you needed if you didn’t have it. Course there were some times that we made tools that you could have got if you waited long enough.
AND YOU WERE REALLY WORKING WITH MATERIAL THAT YOU WERE UNFAMILIAR WITH AND DEVELOPING NEW PROCESSES EVERY DAY...
Yeah, my experience with graphite prior to this was as a lubricant, graphite dust, like we used in the locks. I knew that graphite was used in the chemical industry, in high temperature vacuum furnaces, but it was a new experience for me.
And I was amazed that when we started making tooling that we used out on the line, that it just didn’t last, that the graphite was extremely abrasive to cutting tools. Course we were running cutting tools at woodworking speeds; maybe if we could have slowed it down...
We would take that four foot piece and we were drilling the hole through that four foot in less than a minute, with vacuums pulling all the chips out and everything else. Then when we started using the planers to go over that, it was woodworking speeds. And obviously, it worked as long as the cutters were sharp. And our job was to keep those cutters available so they could do what they needed to.
And most of the equipment we used was not metal-working equipment, it was woodworking equipment. So we might have been trying to do something a little beyond what was intended. But basically we machined an awful lot of blocks.
TELL ME ABOUT THE SIZE OF THE REACTOR, ETC.
Well the reactor was essentially a forty foot cube, with holes going through it on a horizontal, and looking at it from the front face there were over a thousand and four tubes in there, but the corners were cut off which were full of solid graphite, in other words they were trying to simulate a circle.
So essentially it took literally hundreds of thousands of these four and three-sixteenths by four and three-sixteenths by four foot blocks, whether they had a hole in them or they were solid. The design was such that the horizontal had the fuel elements; from the left side were opening for the control rods that would move in or out. From the right side were special experimental tubes that were put in there, strictly for research, that was their only function.
And then coming from the top of the reactor there were holes for the vertical control safety rods. So even though it was a solid block, it was pretty porous, with many holes, many ventilations.
HECK OF A CHALLENGE TO MACHINE AND LAY IT OUT...
Well I had nothing to do with the layout, that was all done back in Wilmington, Delaware, the design was all done back there. But if they run into problems there were a lot of parts made from sketches. We would run into a problem, we would machine several of the individual units, and they would lay it out on a flat surface. And this surface was exactly the same as the surface at the base of the reactor.
Supposedly we would get enough blocks made for one level, one layer, a four and three sixteenths inch layer. They would lay this up in the 101 Building, in the mock-up, every one of them, in there, to make sure that everything fit, everything was in line. And they would make sure that there were no mismatches of all the pieces going together.
And after we got the first layer done they would start the second layer, same thing. Every piece by piece was laid as they would be in the reactor, exactly. And we did this up, I believe it was six layers high. There were a few instances it was less that because after we machined them they started assembling them and the reactor before we were through machining.
But we would lay out up to six layers of it, six or seven, I’m not sure just what it was, and they would be totally inspected that those six meet all the criteria of the drawings. Then they would start disassembling those one layer at a time. They would take one block, they would wrap it, they would identify it as to its number, its location, and where it was. And they set the first layer aside. Then the next layer down, say that first layer was six. Then they would take layer number five. And it was disassembled, and individually wrapped, every block every component of it, and identified. And it was sent out, it actually left our building and went to a warehouse in the various areas. And they’d keep working all the way down till they got all six layers, every block identified as to where it went in the final assembly.
So then we would take this top layer that we had of the last stack, and put it back down on this pad, and then we’d lay the next group of blocks to make the seventh or eight layers and just keep on going up with it. And we’d get a few of them, usually we were trying to get six or seven layers.
And sometimes the assembly, the fabricators out in the area, were moving faster than we were, by the time we got all the blocks machined, maybe we only went through four, and they would take those out... It was just a fantastic scheduling job to be able to get all those components, with all of the variations, and sizes... tape ends.
NEW TAPE...
...people that were used to building chemical plants. They also knew that there was maintenance to be done. So everything they did, there was maintenance to be considered.
WOULD YOU START THAT OVER AGAIN?
Actually the things were moving so fast and they were so well coordinated, that I don’t believe any company could have put this whole complex together in the time frame that they did other than DuPont. DuPont had their own construction crew which was familiar with working with chemicals, ammunition, they had many different... craftsmen that they used, expertise of different qualities. And they had people that really knew what they were doing. They worked quite well...
The one thing they did do that was quite unusual for an operation of this type, everybody was hired in as a mechanic. But they would try to put you in, whether you was a millwright, a machinist, pipefitter, electrician, or instrument... but your classification, you were a mechanic. That gave them the option that when they need a body they could pick up anybody, we want you over here. They could move people around and it just expedited, there were no delays. In other words, if somebody was working as a janitor he was still a millwright, or a craftsman. In other words if they needed a body, he could do it. Of course they never tried to put somebody on a job that they didn’t know what they were doing if they required a certain skill. But I know an instance that we had, in the 101 Building, basically we had all the millwrights were actually running the woodworking machinery. And I as a machinist, we were working in tooling for this production run. But the fact that DuPont was able to put together and coordinate all of this I think was a fantastic achievement. Because things got done.
TELL US WHAT YOU SAW WHEN YOU CAME AND THEN THREE MONTHS LATER
I arrived at Hanford on the last day of February 1944. And to show us what we were doing or the overall purpose, my supervisor and the particular building supervisor went out to B, this is B Area. And they were looking and checking things around, and at that time B Reactor was just a big hole in the ground, a deep hole in the ground. And they were just beginning to pour concrete. That was probably the second week of March.
My graphite machining job was supposed to last three months, which it did, and we did have all the graphite machined within a three-month period.
But after the three months was up I transferred from the construction crew to the operations crew, I was in the maintenance crew. I was working the first day shift out at B Area, then they got a few more people so I was assigned a graveyard shift on the maintenance crew, working in the machine shop. We came in one night, midnight, and they said don’t open up your tool boxes, we want everybody over in the 105 building. What we want, what the engineers want, is four plumb bobs on the corner of this reactor, inside of tubes, so that we can run a plumb bob down on all four...I didn’t know this was a reactor, and we want it done by eight o’clock in the morning. At one graveyard shift between the people that worked in the machine shop, the people that worked in the welding group, or wherever they could come from, we fabricated and put in those four plumb bobs, in an eight-hour shift.
There were elevators both the front and the rear, but they worked very slow. We recognized that there was no way we could be done by 8 o’clock. There was just too much ups and downs. In certain instances we were going up and down the pigtails, the reactor face, anyway we could do to get there, there were stairs you could go around, and put down a plank to get to where you needed to get the anchor for that housing for the thing.
But anyhow that job finished up, we finished it a t 8 o’clock, we was done. And they had their zero marks where it was... What the plumb bobs were for, I didn’t know it at the time.
But the next night when we came in, again, they said don’t open your tool boxes, they want you over at 105 building. So we went back to the same building. So this time they had table after table after table out there in what’s known as the loading area, the front face. And a bunch of chairs, and the set you down, you had a counter, you had a timer, and a clipboard with instructions on it.
And they said, you look at your clipboard, and it said set your timer for so many minutes. So you set your timer, reset your counter, and when it come all set, then record what the treading was in that minute interval. Then you set the next one. And we did this for eight hours.
And all the way down, somebody would come along and pick up your clipboard, and give you a new sheet, to go. What was happening was they were actually starting up the reactor for the first time, and these were additional sensors that they had places in various locations.
Of course they had all the regular operating sensors inside the control room, but they were all working inside the control room.
But the way the whole thing was put together, the way the whole thing was planned, was fantastic as far as I was concerned. Everybody was given a specific job that they could understand what that job entailed. So they didn’t have to have a particularly qualified person, an instrument man to be there. So we did this.
The counts, I know now what happened but I didn’t at the time, the counts were gradually increasing. I knew the numbers were getting bigger. And they put a new sheet down, and for the first time the counts were getting smaller. So what it was, it was the xenon poisoning we were seeing.
Now let me backtrack. A week or two before we were in the reactor starting it up, now this was in early September of 1944, they called us individually into the superintendent’s office, and he talked to us himself, there was nobody else. And he says well, we want you to be aware that this operation is a little bit unusual. But I can, I don’t know how to explain it, but it’s about the same as x-rays. Well at that time, x-rays were common, every shoe store in the country had an x-ray machine. So that was the comparison that they made to the lay person that didn’t know anything. Pooey, you walked in a shoe store and got your shoes and put ‘em, walked over and wiggled your toes, and well, this is not explosive anyhow.
But that’s the only indication I had as to what they were doing. I didn’t know. Even after they had the reactor running and we were working in maintenance, of course, I didn’t know, the security was fantastic. I did not know what the end product was until the bomb was dropped in Japan, and I was working here all the time.
How they was able to maintain the secret with so many thousands of people working, is an astronomical responsibility.
MUST HAVE HAD A BILLION RUMORS GOING AROUND...
Oh, there was rumors. Most of the rumors were coming out of the 200 West Area, where they were building buildings with concrete walls that was over four foot thick, and they said boy, I’m gonna get out of here before they start using those, if that’s what it takes to contain it.
But rumors were flying... but basically you didn’t talk. You just didn’t talk. The rec hall that we had at Hanford was about the only place you had to go to relax a little bit; if somebody in there got a few too many beers and started talking, first thing you know he was gone! You never seen that fellow again. They had security... you just didn’t talk. If you had a question you needed to know, they would answer, but you just wouldn’t ask what the next guy was doing.
So my hat is off to the overall Manhattan Project for being able to complete this project, get it onstream get all the facets put together, and come up with an end product that most people that worked on it didn’t know what it was up until it was actually consumed, actually used in the first one over Hiroshima.
HOW DID YOU LEARN ABOUT THE BOMB?
It came out in the paper, it was on the radio. It hit the news media all at once. There was no press leaks, so to speak. It came out, I was out there, I was working, I didn’t know what we were making.
WHAT WERE YOU TOLD?
The only thing we were told was do the job you’re told to do. You don’t ask questions what it’s gonna do. You just didn’t ask. Far different from the ammunitions plant, that was a technology which was known. All I knew is it was important enough to have top priority as far as priorities go. And if it had that much military application it had to be something important.
And of course I had three brothers that were in the service, I wasn’t. I had one in the Europe theater, and one in the Pacific theater, and I lost my brother just older than me before he ever left the states. That was a sad story but it has nothing to do with this.
ONE THING YOU MENTIONED WAS THE COMPRESSION OF TIME BETWEEN OCTOBER AND SEPTEMBER.
Yeah, when I arrived out here in February or in early March, I saw the 105 hole in the ground, just really getting started under construction. Pouring concrete and some steel work. So that was in early March. In September of 1944, I was in the front face of the reactor when it first went critical. And one had never been built before, it was a first big industrial... They had a little laboratory data and that was all.
And how they were able to scale up from a little bit of data they got in the reactor in Chicago to that, is amazing. To run all the calculations, theories, to make sure they get the instrumentation, as far as that converting the Uranium 238 to Plutonium 239, in that frame time, just get that reactor going...
HUGE THING?
Well we had over fifty thousand people working on the job. And nobody knew what we were doing. There was just a handful of people that knew what the product was. But looking back, I think that one of the problems... (tape ends)
NEW TAPE... as to the results of real tight security by the military to begin with and then it was the Atomic energy commission. Because all of the Plutonium sites or anything had to do with it was top secret. But they had let enough of it out they were starting to build it commercially, commercial reactors. But it didn’t get to the public, that there is a big difference between a bomb and a reactor, a fuel reactor.
YOU WORKED IN MAINTENANCE...? SAFETY ASPECTS, HAZARDS?
Yeah, but really, see we first started the reactor in September of 1944. It was only a year later, we’d only been in operation a year, there was very little maintenance to be done. Most of it was modification of facilities. We didn’t get into, or at least I didn’t get into any positions where I needed to know. I was in the machine shop, making who knows what. Anything they needed, we made a lot of the tools or special fixtures, I know now what they were doing, they were doing it for, was making tests using these special research test holes in the reactor, but I did not have any exposure to radiation until after the bomb was dropped. And then we knew what we were up against.
But to my knowledge, there was no, the reactors were so new that there was no real problems, other than shutdown crew, and I didn’t have anything to do with that.
SO FEW PEOPLE WERE EXPOSED EARLY...
They had enough of the radiation monitoring group working there that I don’t believe there was any possibility of anyone in those early months getting...at least in the reactor portion of it, the separations end of it is a whole different ball game. The chemical end of it, cause at that point you’re taking spent reactor slugs, I say spent, that’s probably not right, and dissolving them down, chemical reactions.
But later on I got out of the maintenance group in about 1948 or 49, late ‘40’s, early ‘50’s, I had switched over to engineering of the ?Technology Group. And in this group I was developing all types of different types of tools for doing routine maintenance on the reactor. Probably the closest I ever came to it was they were removing one of the tests from the research opening, and they didn’t have enough people so they shifted me over there. But we had radiation monitoring, he says, do not get your hands in front of that hole.
TELL ABOUT HANFORD CAMP...
Well the Hanford Camp was a military camp with roughly 50,000 people there. Barracks, strictly military barracks. In fact when I first arrived here I was put into a brand new barracks that had just been completed a few hours before. I checked in, they gave me a bed roll, they says go over to, I don’t remember the number now, but you will eat in Mess Hall 8.
And I spent my first night in there, brand new, two to a room, but it was strictly military, no locks, no nothing. Essentially wooden floors, standard bunks, but it was clean, it was comfortable.
WAS THAT RUN BY DUPONT TOO?
DuPont ran everything. They had patrolling, security, well the military was really in charge. But I’d catch a bus going out, well I could walk to the 101 building, but when I went out to B Reactor I had to catch a bus. But... I missed one phase....
I did spend the first two weeks in 2 West Area, in the maintenance Department. And that was because they didn’t have 101 completed enough to have me a place to work.
And when I was riding a bus out to the 2 West Area, this would be in March of 1944, I came in, I checked in to the barracks and I caught a bus the next morning to go out to the 2 West Area, the 2 West temporary machine shop. And we’d take the bus out there, come back... I checked in on the last row of barracks. I left that barracks in the morning, went out and worked an eight hour shift; when I came back there was two more rows of barracks there! And guys with bedrolls coming in!
How they scheduled all this is amazing. My hat’s off to DuPont.
WHERE ARE THEY NOW THAT WE NEED THEM?
Well, there were no environmental regulations, there was nothing. If you needed to do something, you did it. If you needed to dig a ditch, you dug it. You needed a road to go across over there, you put it in. There was actually hundreds of miles of railroads, highways and railroads all put in in a very short period of time.
Well maybe this is a good point to mention this. We talked about the dust storms that we have around Richland. They haven’t seen a dust storm, the newcomers. With everything torn up in construction, if we’d get a thirty-mile an hour wind, you couldn’t see across the street. I mean really couldn’t see. And you come back to your barracks, maybe there’s a sand drift in front of your door, to get into the barracks.
And the next day after one of those dust storms the average was about eight thousand terminations. They called that the Termination Wind. It was horrible, I’ll tell you. Guys had to work out in that stuff with ditch-digging stuff, roadmaking, wind blowing, dry, it was miserable, working out there. But next day, I’ve had enough, there’d be about eight thousand of ‘em check out after one of those windstorms. Of course they had to have another 8000 coming in.
MATTHIAS SAID TOTAL 145,000 TOTAL ON THE HANFORD ROLLS...
After one of those bad dust storms they said about 8000 left the next day, said I’ve had enough.
WAS HANFORD CAMP PRETTY WILD?
The Hanford Camp was what you made it. There were all kinds of people there. There were roughnecks, and skilled craftsmen. About the only recreation was the rec hall. There was a movie theater after a time, I’m not sure when it came. But you could go to the rec hall, I don’t know how many people fit, I expect several thousands would be in that total rec hall drinkin beer. Well if somebody wanted a fight he didn’t have to go very far to get it. So you could be sitting at one table and the first thing you know a couple of tables over a couple of them would hard at it, patrolmen would come in and grab everybody involved and off they’d go.
But on the other hand if you were just sitting in there, talking to somebody, just to relax, there was no problem. The problems were made. It was a rough camp, there’s no question about that. But the mess halls as far as I’m concerned, a fantastic job done. I was in Mess Hall 8, and I don’t know how many thousands of people they served in breakfasts and dinner, lunch was available in certain places but most of us took box lunches. How would you like the job to make fifty thousand box lunches. Or feed 50,000 people? Are you aware how the mess hall worked?
TELL ME ABOUT IT.
It was a large mess hall with tables roughly twenty foot long and benches. Most of them had, these tables were in line, and I would say may twenty tables. Then there’d be another row of twenty tables and another row of twenty tables. If I remember right there were five or six rows. And you would go in and you would go down to the front table on the left. You filled that table completely. And as soon as it was full they would start filling the next one. No empty seats, you set down wherever, you couldn’t go in a group and pick out a spot. And the minute the table was full, here come the waitress, would put the platters of food on there. The table would be set with your plate and your silver ware. But, family style. Soon as that was full, the next one would fill up, and this proceeded. You didn’t go over to the next aisle until this one was full. Then you went to the second one, and fill up that one. But the first table up here, if somebody would empty a plate they’d hold up the platter and the waitress would be right there to give you a new one, full. Immediately. They would keep filling up till everybody there got full, then they’d get up and go out.
By that time maybe they’re on their third or fourth one over here. But they would clean those off as soon as the guys left, reset it, and soon as this last one over here got full, these were ready, so there was a constant stream going in.
And they were all fed just about as fast as you could go in. You would hear guys complain, but it was good palatable food, considering it was high volume.
But, pie, they always had pie for desert, or nearly always. But you’d be sitting there at a table, you might see, aw, this pie’s awful. But maybe you’d already had two pieces. Give me another piece. This is awful.
But you might be sitting next to an iron worker, or maybe an office worker. But most of the office workers were down at Mess Hall 3. But just feeding that many people.
MANY WOMEN AROUND?
Oh yeah, there several women around. In fact, we had the military camp portion of it, and then there was a great big trailer park. We had the military portion of it, and then we had a great big trailer park, where people that actually lived there with their wife and family. I don’t know what they did for schooling for kids that were there...
BUT FAMILIES COULD BE TOGETHER...
Yeah, in a trailer. And that trailer, I don’t know, thousands and thousands of them. You either lived in a barracks or you lived in a trailer. Or you, from there you went out to the area. Now if you lived in Richland there were buses going out to the various areas.
But just the magnitude of ordering all the bedding, getting it all washed, getting all the food, the right variety of food, in the quantities that they needed, I know at the time I was impressed.
HOW FAR WAS HANFORD CAMP FROM B AREA?
About fifteen miles. You had B, D, and F, and they were five to eight miles apart. That was done because they didn’t know what was going to happen...
WERE THEY WORKING ON ALL THREE AT THE SAME TIME/
Well they started B but the other two were started almost simultaneously. It was just a short period of time after B was running till D was running. And F was the last one.
PEOPLE BUSSED OUT TO EACH OF THOSE?
Yeah, from Hanford. Cause there’s no place... they were building houses as fast as they could build them, but not fast enough.
There’s one thing I missed. The transportation from the Hanford Area to the various work areas was basically in buses, but many of us were hauled in what they called cattle cars. And they were literally cattle cars....(TAPE ENDS)
(NEW TAPE)
TELL US ABOUT CATTLE CARS.
Okay. If you lived in Hanford and were working out at 2 West Area or B Area or any of the other outlying areas, they would bus you from Hanford there. Well they didn’t have enough buses to go around so they found a bunch of cattle cars. Cattle Trailers. They were actually a trailer. and they had cleaned them up and put benches along the side. There would be twenty to forty of us in there along these benches along the side. No heat. You just rode the cattle car out to work. They were enclosed, and you’d go in through the back, but that’s all, it got you out of the weather, and out of the wind. But they were actually cattle cars.
WHAT WAS ATMOSPHERE OF COUNTRY LIKE DURING THE WAR...THREAT, STRESS?
Well the general attitude of the people, we’re in this thing, let’s get it over with. We’ll do what we have to do to get it done. Now while I was working at Remington Arms, we were making the 30- and 50-caliber rounds, we were making eight million rounds a shift in that one plant. It was a important job. Early in the game after the Europeans... the supply of rubber had disappeared. So gasoline rationing and food ration was in, they put it in real early in the game. And I don’t know that I ever heard anybody complain about it, because it was all part of the effort.
The average person with a car, you got a stamp for three gallons a week. That’s all the gasoline you could buy, unless you worked, and needed more, or rode to a defense plant, which all plants were defense plants at that time. The auto production all that stuff stopped and they started doing everything.
But I would say the attitude of the people then was supportive of the overall action.
PEARL HARBOR...
Course we were already in Europe before that. Gasoline rationing, it was not because of the gasoline, we had enough oil here to do it, it was because of rubber. Speed limits were thirty-five miles and hour. I made two round trips to Kansas City at thirty-five miles an hour.
CHATTER
Well that’s what it amounted to, you just couldn’t buy new tires. You had to get a special permit to authorize you, your tires are gone and you need your car for defense applications.
WHY DO YOU THINK DUPONT WAS SO EFFECTIVE?
Organization, and their people. Their people were topnotch. Well let me give you an example. Those two weeks that I spent out at 2 West in the construction machine shop. In the corner of that shop was the mechanical superintendent’s office. And then there was an assistant mechanical superindent. And I hadn’t been in the shop two or three days and hey, there’s something not normal here. And it turned out that the assistant superintendent was the boss. The superintendent was there to attend all the meetings, and these kind of things, gripes and what-have-you. That left the assistant superintendent free, and he roamed every job. He’d come in with something, with some sketches, and something happened. And I don’t know if it was done in all instances, but I suspicion that it was.
Because the guy that was there had the authority but he wasn’t saddled with all the administrative things. It makes sense, and it made sense to me.
TELL ABOUT DESIGN INSTRUCTIONS ETC.
Well we were getting instructions to get the job done, out in the machine shop, out at 2 West Area, I would say 90% of our stuff was nothing but hand sketches. Hand Sketches. But these were the details not handled at DuPont headquarters in Wilmington Delaware.
Thing of it is, there is no way they could have put everything documented on prints beforehand. In other words, DuPont put a lot of authority in their superintendents. They were well experienced, they had to know how to do it. they knew how to get the job done.
(CHANGE TRANSCRIPTION TAPE)
[end]
Video Interview of Bill Painter
October 8, 1999
at Battelle’s EMSL Auditorium
Interviewed by Gene Weisskopf, BRMA
Videotaped by Nick Nanni, Battelle
PAINTER: ...my Army experience on Okinawa, and it was nice and warm there. I got discharged at Fort Douglas, Utah, and the temperature was 20 below zero, and I was about to freeze to death, so I decided that I would go up and visit my brother who lived in Seattle. I got to the bus station and I met a fellow that I’d known before I ever went into the service, and he said he was going to Richland, Washington. I had no idea where Richland, Washington was, what happened there, anything about it, but I was well acquainted with his older brother and his sister-in-law. So on the trip up here we decided that we would stop here at Richland and visit his brother, and then he would go with me up to Seattle and visit my brother. Well, I got here, and it was between quarters in college, and I didn’t have very much money just coming out of the Army, and they were tearing down the old construction town of Hanford, and so I said What the heck, jobs were easy to get out there, and I said I could make a little bit of money and go back to school next quarter. So it was six years before I got to Seattle to see my brother. And I went, worked for Mohawk Wrecking Company, tearing down the old construction town of Hanford. And then I decided, well, I found out what was going on at Hanford, and I decided that I would see if I could get a job at Hanford since it paid more than being a laborer out at Hanford. And so I started hitting the employment office, and this was when DuPont was here, and they kept stalling me off and saying, well, they didn’t know what things was going to happen. And I just kept working at Hanford, and finally they made the decision that General Electric would come in here, and then I was told at DuPont employment that when General Electric come in, I would have a job. So the 9th day of September, 1946, General Electric came in the first of September 1946, the next day I went to work for General Electric Company. And my grandfather had been a farmer and had two big steam thrashing outfits, and I’d helped on the steam engine a little bit. And I had no idea what kind of jobs there was out here at Hanford, so I decided that I was qualified to be a power operator, work in the power plant. And they said “Well, we don’t have any openings in the power operations right now, but if you’ll take a patrolman job, it’s easy to transfer.” Well, I found out that was not quite true. It took me six years to get off patrol. And in the meantime I’d taken an ICS course on instrumentation and basic electricity and so on, so I applied for a transfer to the instrument department. And, like I say, six years after I came out here I transferred to the instrument department.
WEISSKOPF: In what area was that?
PAINTER: I was working in 200 East at the time, and I went to work in the instrument department at the hot semiworks. And part of the program was that I went as the bottom rate instrument trainee. And we would go to school one day a week; originally they said for 56 months, it ended up that we only went 48 months. So I worked for four days a week at East area and West area, and the tank farms, hot semiworks, B Plant, and went to school on Fridays. And I worked there till they started constructing PUREX building. And about the time it was getting ready to start up, there was a lot of instrument people that wanted to go to PUREX, and they was going from other facilities on the plant. So I was transferred from East area to the UO-3 Plant in West area.
WEISSKOPF: To the old U Plant?
PAINTER: It was the old U Plant. Uranium extraction. So I worked in the uranium extraction building, and uranium oxide, UO-3 Plant. And by this time I had enough seniority that I was eligible to take the instrument specialist examination. And I took the test and passed it and became an instrument specialist. And I worked there about another two months, and then it was put under the plant down ‑‑‑ I’ve forgotten now, the old 234-5* building, anyhow. I forget what we called it at that time. But, anyhow, I was transferred to the 234-5 building. PFP I think it was called at that time.
WEISSKOPF: Plutonium Finishing.
PAINTER: Plutonium Finishing Plant. So I worked the line at the Plutonium Finishing Plant. We made weapons pieces at that time. We had separations facility for the recovery of plutonium, and we had the analytical lab, and get moved from one job to the other. But most of the time, after you’d been there a while and became very well acquainted with the plant, they tried to keep you. If you was working in the analytical lab, they kind of liked to keep you in the analytical lab. But I was never put in one position. I moved from one place to the other. And then, finally, when they built the 236 Building, the new extraction building after they’d had the incident in the old recouplex *(phonetic) building, I was sent there to follow the construction of the facility. And so I followed construction on the plant there. And after the construction was over, I stayed basically in the 236 Building, or the recovery building. And all through the time that I was in 234-5, well, even when I was at the U Plant, I always considered that I was quite lucky, I got to work with a lot of engineers and a lot of people that I had a lot of respect for and I think that the company thought very highly of. Milt Zalinski* (phonetic), the originator of the ‑‑‑ at that time we called it Zalinski powder, but it was the continuous calcination at U Plant for uranium oxide, one of the finest gentlemen I ever met. Another name that came to mind was Bob Lyon* (phonetic), who was an engineer in the chemical separations there. But there was a number of them that I got to work with that I thought I was lucky to have a personal relationship with. And then after I got down to Z Plant, although I didn’t agree with all of the management directives, there was certain people, Bob Olsen* (phonetic) was the facility manager when I was there, Les Brecky* (phonetic) that taught me the philosophy of unit price, which I agreed with 100% ‑‑‑
WEISSKOPF: Could you just explain briefly what that was?
PAINTER: Well, unit price was ‑‑‑ Mr. Brecky’s theory was that if we could produce a weapons piece cheaper, higher quality than anyplace in the United States, we would get the contract. And since the money all came from the Department of Energy, or AEC or DOE, whichever one was in, it was important to have something that you could hold up and say “Hey, we can do it cheaper than Savannah River,” or “We can do it cheaper than someplace else, so we think we should have the contract to continue doing it.” Of course, there’s a lot of politics involved, so you needed every little thing you could get to help push your side. While I was there at Z Plant, of course, like I say, we was making weapon pieces and recovering plutonium, I had the opportunity to work on a stepping* motor lathe control system to cut weapons pieces. And with another instrument specialist, Matt Napora* (phonetic), we worked with an engineer from Schenectady, New York who was the stepping motor specialist for General Electric Company, two mathematicians from downtown someplace, I have no idea where their office was, they spoke a language that we didn’t understand, but it was a very interesting, to say the least, job on the stepping motor to cut a weapons piece at that time. There was 27,000 steps on the tape to cut the piece. And we determined one day, Matt and I, that when we got back to zero after cutting the piece, we was not where we started originally. And we was able to determine that we were missing two pulses someplace on this tape. So the mathematicians came out, and we talked it over, we showed them that we was not returning to zero. And, like I say, they was speaking a language that I didn’t understand. And finally one of them says “I know where we’re missing those two pulses.” I was really impressed. They went back to town and made a new tape, it was the big tape decks, what we had, came back out, and the two pulses were in there. We never did use the system to cut weapons pieces, but they did take the system and they made the measurement device to measure the final inspection measurements of the pieces using the same principles and everything, and they did the final measurements using it. And for this, Matt and I got the general manager’s award and a nice little sum of money that bought me a new set of golf clubs and a few other small items that was highly appreciated. And then later on I was working in the 236 Building, and we had long glove boxes, extremely long glove boxes. And to put equipment into the glove boxes for failures, we’d go in the end of the glove box, and we had to move it down to the location where it went. And so we had a crane ‑‑‑ not a crane, but a hoist, that was on a long shaft that had a worm thread cut into it that you could move equipment up and down the glove box. The glove box was approximately 2½ feet thick, deep, and, oh, maybe 70 feet long, something like that. Well, one day I went downstairs to do a job, and the engineers were in there talking, and one of the maintenance engineers was there, and they were going to cut a hole through the front of the glove box and run a pipe in for a new chemical addition. And so I said “Hey, you can’t do that. We got to have access to the length of that glove box to move equipment back and forth.” And he said “Well, we’re going to do it anyhow.” So I went over to see the head manager of the maintenance department, and they were in a staff meeting. And I knocked on the door. I talked to the secretary and I said “Is it all right if I knock on the door?” and she said “Sure.” So, anyhow, I went into the staff meeting and I explained to them why they could not put this pipe through the glove box. Wes Shick* (phonetic) was the manager at that time, and he said “I agree with you 100%.” So I always thought that this had a lot to do with later on Wes come and said “Hey, I have a unit manager’s job open, and I’d like for you to take it. You’d be over the instrument department.” And so I said “Let me think about it a day or two,” and I ended up taking the job. And then later the fellow that was right below the manager, I forget what his title was at that time, he retired, and I was offered this job. So it was second level maintenance manager in Z Plant. And as time went on, the manager changed, and there were two or three changes, and then finally the manager that I was working for went to T Plant for the strontium cesium encapsulation, and I was asked if I would like to have the job as manager of the maintenance of all the labs, the safeguards equipment, the reclamation, and so I took the job. I stayed on that job until I retired.
WEISSKOPF: How many years was that?
PAINTER: Oh, gosh, don’t ask me time. I never was able to keep track of events or times. But I had a gentleman that worked out there, his name was George Puckett* (phonetic), that had a photographic memory for dates. If I needed to know a date when something happened, or how long a period of time, I just had to call George, and he’d say “Well, that was on October 17th, 1973,” or 1980, or whatever.
WEISSKOPF: How about what year you retired?
PAINTER: Well, I’ve been retired now for ‑‑‑ ‘89, I think I retired in ‘88.
WEISSKOPF: (inaudible)*
PAINTER: I’ve been retired more than that.
WEISSKOPF: What’s his name, George?
PAINTER: George Puckett.
WEISSKOPF: Go ask him.
PAINTER: Yeah. No, you can’t ask him. He’s dead now. Let me think about it just for a second. I retired ‑‑‑
WEISSKOPF: Was it before (inaudible)*?
PAINTER: Almost 15 years ago. It will be 15 years in April that I retired.
WEISSKOPF: Okay.
PAINTER: And I kept my clearance for one year by request of my boss, but I told him that I would never go back out unless it was a dire emergency, I would not go back out as an escort. At this time the paperwork shuffling was coming in, and I knew that that was not my ball of wax. I’d always worked under, like I say, the principle of unit price, and I did not want to become a paper shuffler. Budget was bad enough.
WEISSKOPF: Okay. That’s good. A good recap of everything you did there in some sort of chronological order. Could we go way back to the beginning?
PAINTER: Sure.
WEISSKOPF: Sort of a generic question I’m always interested in. But where were you when Hanford became known to the world, and what did you know about the dropping of the bombs?
PAINTER: I was just landing on the island of Okinawa when the bomb was dropped. And I always called him the Mad Colonel that we had. His one desire in life was to lead the invasion into Japan. And needless to say, I didn’t agree with what he wanted to do at all. So when the bombs were dropped, I thought it was the greatest thing in the world.
WEISSKOPF: Did you understand what it was?
PAINTER: Oh, yeah. Yeah. We got all the news, the services had the radio station there on Okinawa, and on the ship, what we was unloading from. We got all the news, the same as anybody else in the country. You know, we didn’t get detailed, the size of the bombs and everything. To say the least, I was very happy at the events. And I knew in my own mind that if I went in with this colonel that the chances of coming home was kind of slim. I think that it would have been a high death zone if we’d invaded Japan. I think the Japanese people would have taken up arms, and it would have been horrible. There would have been a lot more people killed on both sides than the ‑‑‑ the bombs would have just been a small amount compared to what would have died going into Japan.
WEISSKOPF: When did you find out the connection between Hanford and the bomb?
PAINTER: I heard the word Hanford, but it had no meaning. You know, it was like saying someplace over in Pakistan, or something like that. Hanford, Washington. Never heard of it.
WEISSKOPF: Were you already here before you realized that the Hanford was the one where they made the bomb material?
PAINTER: Yes. I was on my way to Seattle, like I said. Well, I had heard that Hanford was where they made the Big Boy bomb, or the material for the Big Boy, but it had no meaning whatsoever. When I was talking to the gentleman I came up with about Richland ‑‑‑ I’d heard of Walla Walla, and ‑‑‑
WEISSKOPF: (inaudible)*
PAINTER: Well, when I was a kid, or a young man, I had a Model T Ford, and Walla Walla used to have Model T Ford races, like the racetracks are today, and I always thought, you know, it would be nice to go to Walla Walla, Washington and race Model T Fords. I never did. And, again, you know, Hanford, this fellow I came with said he was going to Richland, Washington. Well, I’d never heard of Richland, and I had heard of Pasco, and I don’t think he knew anything about Hanford, either. He was just coming to visit his brother, like I was going to do.
WEISSKOPF: Did you ever think that your job was short-term, that you’d be moving away?
PAINTER: Yes. When I first came up here, like I said, I was only going to come for a short time and then go back to school. And I happened to meet a little girl down at the old drugstore downtown Richland, and things kind of matched. And 1947 I got married to this girl, and she didn’t especially like the idea of moving to Logan, Utah, where it was cold and icy and everything. And by that time I thought well, this is a pretty good location. I like the climate, I like the people I knew, so we just stayed here. But there was many times in the early days when ‑‑‑ of course, when you started off you was on the bottom of the list as far as layoffs, and often thought there was a possibility might get ROF’d. And then when I transferred to the instrument department, of course, I started all over on the seniority list, and once in a while they was having layoffs, and so I’d just kind of sweat them out. And I seemed to have just enough seniority that I would be 10 or 12 people above the cutoff mark. So I ended up staying here 39½ years working out at Hanford.
WEISSKOPF: It was a brand new industry. Did it feel like it was an exciting industry to be in?
PAINTER: I thought it was. I enjoyed ‑‑‑ for many, many years I looked forward to going to work every day. I can’t say that, you know, the people I talk to today, but I actually did, I looked forward to it. And it was very interesting to me, and I took an interest in the chemical end of it, and I took an interest in other parts, the instrumentation. I thought to be a good instrument man you had to know as much or more than the operators about the chemical process so you could make sure that the instrumentation was working properly. Or in the analytical lab, or safeguards equipment, or anything else, you had to know more than the people that was using it on how they were going to use it and what they should expect out of it. Like I say, I enjoyed my work out here, and I looked forward every day till, oh, about the last two years. Well, I was going to retire when I was 60 years old. I just had a goal to retire. And they decided to redo the oxide line at Z Plant, and I did a lot of the design work on the ‑‑‑ we had two oxide lines on the ‑‑‑ one oxide line. So my boss asked me if I would stay until we redid the second oxide line and got it in service. So I agreed that I would stay till it went hot. So instead of retiring at 60 like I planned, I worked till I was 62. But in that two years I said when the plant goes hot, that’s when I retire. So when they set the date when the plant was going to go hot, I told my boss that the last day of that month would be my last day at Hanford, and I wanted no retirement parties, I wanted nobody to know about anything except my boss and his secretary.
WEISSKOPF: And how did that work out?
PAINTER: It worked out fine for me. But my secretary is still bitter about it to this day. She didn’t know until 3:00 in the afternoon on Thursday that I would not be back to the project, and she was very upset about it.
WEISSKOPF: She had to find somebody else to work with?
PAINTER: No. They had a man coming in to take my place, and that was the problem, she didn’t mix well with him at all. But I see her every once in a while. She still lives in Richland, and she at least smiles at me, talks to me now, and she’s forgiven me.
WEISSKOPF: In terms of instrumentation, could you give us the most typical instrument you ever worked with, or the most interesting, or the one that comes to mind?
PAINTER: Well, what always comes to mind mostly for me is the Foxboro* Company (phonetic). I guess you could almost call me a sponsor for Foxboro Company. I thought the Foxboro Company made the best chemical measuring equipment that was made in the United States at that time. And so I was always fighting, whenever we’d change any process, was to have Foxboro equipment brought in. In fact, Minneapolis Honeywell made threats that they was going to go to court and have me as a witness as to why they could not get a bid in on equipment at Hanford at the Z Plant. And it was kind of hairy for a while there, but it faded away. I guess they got contracts for other ‑‑‑ Minneapolis Honeywell made very good equipment, but I didn’t think their process equipment ‑‑‑ they made great recorders and that type of equipment, but I didn’t think their process equipment compared to Foxboro.
WEISSKOPF: Like give an example of a piece of process equipment.
PAINTER: Well, we measured flow, we measured specific gravity, we measured weight factors in vessels, we measured temperatures, and controlled minute flows. In the process in the plutonium extraction, we measured flows that ‑‑‑ can I say what I want to on this tape?
WEISSKOPF: Yes.
PAINTER: Well, I used to say that some of our flows per hour, my boy that was in junior high school could pee more than was going through the control valves. We were measuring down into the like 15 liters per hour, full scale, and we would be measuring part of that. We’d be measuring and controlling maybe 3 liters per hour, which is, you know, that’s not very much. It was so small that I used to have difficulty ‑‑‑ they’d have a problem at night, and they would have a pipefitter open the line, and he would say, “Hey, it’s about plugged.” You know, 15 liters per hour. He wanted to see a flow that he could really see. So we had to do a lot of explaining on how small of a flow that was. To measure that flow, we measured it with orifice meters and we measured it with magnetic flow meters.
WEISSKOPF: Could you explain what a magnetic flow meter was?
PAINTER: Well, a magnetic flow meter has two electrodes, and it’s like a generator. As the fluid goes past the two electrodes, the fluid was the conductor, and it was like generating electricity, and it actually generated micro amperage, and we measured it and controlled with that. Of course, on the orifice meters, you’d measure the differential ‑‑‑
(Tape ran out)
PAINTER: ...difficult, and we had problems. We took cans of plutonium waste and dissolved them in dissolvers. And there was ceramics, there was all kind of material in this waste. And to dissolve it and to get it into process, we had to use acids and so on that was extremely hard to control. And the acid part we used would try to eat up the vessel that we was using, so we had to have what they called kinar*, a plastic, lined dissolvers, and we used such things as hydrofluoric acid, and nitric acid, and different acids. But on our flowmeters, since there was electrodes, when they manufactured these meters they put O-rings on where the electrodes came into the flow stream. It was platinum electrodes. But the O-rings would fail, and it would only take a drop or two of liquid to get inside the magnetic flowmeter, and it would eat the wire connection off of the platinum electrodes. Well, if it ate the wire off of one side, the meter would only ‑‑‑ it would still record, and it would still generate electricity, but it would only generate half as much. So then I came up with the idea of measuring the signal that was going to the control valve. So if the control valve all at once opened up and doubled the opening, you knew that there was definitely something wrong. And that would give us a chance to shut the process down and go down and double-check the flowmeter. And the other concern that we had about these flowmeters was that they had copper coils and so on on the inside, and the containment part of the flowmeter was big enough that if the insides dissolved, you could have a critical mass. So if it failed, we wanted to get it out of there, and open it up and clean it up, dump it out and get it out of there ASAP.
WEISSKOPF: Maybe that’s interesting. Where was that and what process was it where you were dealing with this?
PAINTER: This was in 236-Z. We was recovering plutonium.
WEISSKOPF: When you say plutonium waste, what is plutonium waste?
PAINTER: Plutonium waste could be anything from plutonium buttons that we was reprocessing, it could be lathe turnings, it could be ceramic containers where the melded plutonium for pieces, it could be what they scraped out of hoods, dirt, electrical wiring. Anything.
WEISSKOPF: How did you know how much plutonium was in there, in a vessel that you were dissolving, as far as criticality goes?
PAINTER: We, by our system, knew in our columns what we were tapping off, we knew the concentration of plutonium.
WEISSKOPF: Based on what?
PAINTER: Neutrons. We had the neutron counters in various places on the columns, and when the neutron count would get up to a certain place, then we’d start tapping off the...
WEISSKOPF: I thought plutonium was an (inaudible)*.
PAINTER: It is, but there’s also neutrons. And so the vessels and anything in the hood was always concerned about criticality, see. Even though we operated on a unit price system, our number one goal was always safety. Production was very, very important, but safety was most important. And we had had one incident, and we sure didn’t want another incident.
WEISSKOPF: In the 234?
PAINTER: In the 234 Building. We had the incident in the recouplex, which was the old separations facility, and when they had the incident, then we shut down that facility. It needed to be shut down. It was obsolete and almost impossible to maintain.
WEISSKOPF: Let’s talk about that. As far as hazards in an industrial setting, there were dangers on the job, there were chemical dangers, radiation dangers, equipment dangers. Did you ever run into any hazards, where you got hit by a car, or...
PAINTER: No. Probably the worst thing for health, for me, was when I was working tank farms, when we was removing the uranium from the old tanks for the uranium recovery, we had periscopes in the tanks, the problem tanks, what they’re talking about today still. And there was sludge and everything in these tanks, just like there is still today. And we had sluice nozzles like they use in mining to cut the sludge, to dissolve it, get it into a liquid condition where we could take it out. But we had periscopes that went down into the tank, and periodically someone would turn one of the sluice nozzles on the light of the periscope, and of course it exploded, just the heat from the light, so we’d have to pull the periscope. And there was no buildings in the tank farms. You pulled it up into a plastic sock with a crane, and they hosed it down with the hose as they pulled it out of the ground, and the idea was to take a crew of 14 people and replace the light bulb.
WEISSKOPF: Replace the light bulb?
PAINTER: Replace a light bulb. And, of course, these light bulbs were in a bracket to hold them in place so they could be turned and moved to look at different parts of the tank, and then there was electrical connections to the light bulbs. And you would go in and maybe have, from the time you’d all dressed up in plastic and masks and the whole nine yards, and you would go in and maybe have 30 seconds to do your part of the job. And you’d have a burnout. A lot of times we’d take a double burnout, and then we couldn’t work in the radiation zone for a period of time. But I never had any ill effects, but I always was concerned about it healthwise.
WEISSKOPF: How did that affect schedules when you ran into those kinds of problems?
PAINTER: The problem at that time was, like I said, sometimes we’d take 14 men to change a light bulb. And we had a small shop up at the hot semiworks at the time, and you’d go back there, and this was the prototype for the REDOX building. But there wouldn’t be enough work, clean work, for 14 people to do. So there would be days that you’d sit there and act like you was busy, which was very difficult for me. That was the most difficult thing that I knew of, was trying to act like you was busy. Especially when visitors were coming in, and since it was the prototype for REDOX, there was always visitors coming to see what the process was doing, and so on.
WEISSKOPF: When you say the hot semiworks, which building is it?
PAINTER: Hot semiworks was at C tank farm area in East area, and it was the prototype for REDOX, which was in West area. REDOX was the separations plant before PUREX was built. From the old B and T Plants, which was the batch process, REDOX was the first continuous separations plant that was built. I never worked at REDOX. I don’t know anything about REDOX, other than, you know, I knew they had columns and ‑‑‑ but I never worked in the facility.
WEISSKOPF: One thing I’m always curious about is everything was kind of top secret. You had a clearance, right? And how does that affect one’s work in Hanford in the early days versus later on? Were you free to know everything?
PAINTER: You was basically free to know what you worked with, or the part where you was working. You wasn’t free to know everything. I had a top secret clearance, so I could look at documents on what we were doing. I could look at ‑‑‑ everything was secret. You know, things that you would not even today think was secret. Temperatures, and configuration, how we coated weapons pieces, how we measured weapons pieces, how we count weapons pieces, what did they look like, how did you measure them, how did you take the components and know that they were fit together, and so on. This was all of course top secret. You had the clearance to know enough about it to do your job, but other parts, no.
WEISSKOPF: Even though you had a clearance, you weren’t free to go and hang out at the reactors and ask questions, or anything like that.
PAINTER: Oh, no. No. And at that time, in the Z Plant, they had sections in there where you would go through doors. To go in through that door, you’d have to be checked, make sure you had a top secret clearance. Sometimes you had to sign a book to go in, that you went in at a certain time and you came out at a certain time.
WEISSKOPF: Did everybody in your position have a top secret clearance?
PAINTER: Everybody that worked in Z Plant. They didn’t all have top secret clearances when they came in. They had to have a minimum of a Q* clearance. But we had power and ventilation equipment in the facility, and we had equipment that you could work on with a Q clearance that was not in the top secret zones. And so we had ‑‑‑ our department at that time, in the instrument department, I think was like 12 people, or 14 people, and there was probably two or three people waiting to get a top secret clearance. But they couldn’t go into the areas where we was checked, double-checked to go into.
WEISSKOPF: Have you ever been followed up since you retired, with all that vast knowledge?
PAINTER: No. But I’ll tell you, it scared the daylights out of my mother when the FBI, who was doing the investigating at that time, was talking to the neighbors, and schoolteachers, and so on.
WEISSKOPF: You were applying for your top secret?
PAINTER: Yeah. And my mother had no idea what I was doing, and she didn’t know whether I was headed for Walla Walla State Penitentiary or what. It made her awfully nervous. And of course the neighbors, they wanted to know what was going on, too, when the knock would come at their door and “Hey, do you know William Painter?” “Yeah.” “What do you know about him?” And of course they would never say what the reason was, that it’s job-related.
WEISSKOPF: And I guess when you went home at night you couldn’t talk about work too much.
PAINTER: I didn’t talk about it, and I was never asked about it. It was just, I think, during the war that this set up a custom here in Tri Cities that you didn’t talk about your job when you got home. I know the story went on right after I came up here that one of the teachers, right after they dropped the bombs, asked the students ‑‑‑ this was a grade school class ‑‑‑ asked the students, she said “Do you know what they’re doing out at Hanford?” And this little girl said “Yes, I know what they do out there.” And the teacher said “Oh, you do? What is it?” She said “Well, they make toilet paper.” She said “What,” and she says “Why do you think they make toilet paper?” And she says, “Well, you know, it’s hard to get toilet paper, and my daddy brings a roll home,” and he did about once or twice a week.
WEISSKOPF: And on the bus going out and coming back you wouldn’t talk about work?
PAINTER: Not normally, no, you didn’t. What I did on the bus, I worked shift work for a few years, and we either played poker, or we played bridge, or we played hearts. Some of the people read. Some of the people slept. I happened to think I was a poker player at that time, and I found out I wasn’t.
WEISSKOPF: Give us your morning routine.
PAINTER: Well, I decided early that ‑‑‑ I joined a car pool for a while, and we had a couple people that we had to get out of bed, and I said that’s not going to work, so I started riding the buses. I would get up about quarter to six in the morning, and my wife would get up the same time. She would fix my breakfast while I bathed and got ready to go to work. And at ten after six I’d go in and eat breakfast, at six-thirty she’d have my lunch made, and I’d grab my dinner bucket and go to catch the bus. And it cost all of a nickel to ride out to work.
WEISSKOPF: Did you walk to the bus?
PAINTER: Walked to the bus. It was only two short blocks. Very short, easy to do. And they told us at that time that the nickel was so you was paid carrier for liability insurance reasons. And when I was at Z Plant it was 33 miles. The bus at my place ran right around 6:31. You could almost set your watch on it. We was the second stop on the bus, so they always left the first stop at a certain time, and by our stop it was a couple minutes later. And we started work at 7:48 out on the projects. At that time we had to go to the old bus terminal, which was on Wilson Street in Richland. And we’d get off the bus, there would be people who were going to the 100 area, people that was going all different areas that would ride the bus to the bus lot. Then you would transfer onto the bus that was going to the area where you worked. And you would go out, for instance when I worked at East area, you’d ride out to East area, you’d get off the bus, you’d walk through the badge house and you’d show your pass and you’d pick up a dosimeter and pencils. Then you’d walk inside, then you’d get on the bus that went to the building where you worked. So you went from an area driving from a total pickup, to an area transfer, to a building transfer. And you got to the facility where you was working and start work at 7:48. And we had a 30 minute lunch period, and we quit at 4:18. Let’s go back on that. The buses left the area at 4:18. We would get on the bus about 4:00 and ride up to the area badge house, go back through the badge house, turn in our pencils, turn in our dosimeters, get on the bus that was going back to the bus lot. At the bus lot we’d get on the bus that was going to the street where we lived. And I’d get home about 5:15 or 5:20 in the evening.
WEISSKOPF: That’s a long day.
PAINTER: Yeah, it was a long day. It was almost 11 hours. But like I say, in the early days I played poker, I played hearts, I played all different kind of card games on the bus. Read a lot of times. But later on, when I got into the management end of it, then I used the bus time to do work that I would have had to do at home, so I didn’t mind riding the bus. I never considered going back into a car pool all the time I was out there.
WEISSKOPF: (inaudible)* smoking.
PAINTER: Well, the smoking would get so bad in the back of those buses that you couldn’t see the cards you were holding in your hand. There would be pipe smokers, there would be cigar smokers, there would be chain smokers. And I can’t say anything against them, because I was a smoker too at that time.
WEISSKOPF: What was the situation at work? Where were you allowed to smoke at work?
PAINTER: At work, most of the shops you could smoke in the shops. In the radiation zones you could not smoke. Like Z Plant, there was a 10-minute break in the morning and a 10-minute break in the afternoon that you could go over and have a cup of coffee and smoke a cigarette. Or in Z Plant there were offices on the back side that were clean, and you could go in the offices at that time, or either go into the control room and have a cigarette if you wanted it.
WEISSKOPF: In the control room?
PAINTER: Yeah. But I quit smoking by that time, so I had no problem. I figured 20 years of smoking was long enough.
WEISSKOPF: Going back to the uranium UO process, that was in U Plant.
PAINTER: That was in U Plant.
WEISSKOPF: West area.
PAINTER: In West area. Originally, when I first went there, we were processing old material that had been in the tank farms from day one.
WEISSKOPF: Were they piping that in?
PAINTER: Yeah. Yeah. We piped everything into there from all the tanks in both East and West area. But it was old material, and so it had had a chance to decay a lot of it. And so we had two parallel lines that we were using to recover uranium, and the zirconium and all the other byproducts we just sent back to the tank farms. But then when we started getting on the newer stuff, we couldn’t clean it up enough with one line, so we took our parallel lines and put them in series. So basically we’d run it through twice to get all of the byproducts.
WEISSKOPF: You were using equipment in the cells like the building was designed for originally?
PAINTER: Yeah. Well, it had been modified.
WEISSKOPF: How many cells did it take for one line, do you think? You had 40 cells in the whole building, right?
PAINTER: I don’t remember whether we had 40 or ‑‑‑
WEISSKOPF: Twenty sections, 40 cells?
PAINTER: Yeah, I think it is, yeah.
WEISSKOPF: And you had two lines running.
PAINTER: Right.
WEISSKOPF: So that each was using no more than 20 cells.
PAINTER: Right.
WEISSKOPF: Why couldn’t you get it as clean as they did in T Plant and U Plant originally?
PAINTER: Well, because a lot of this half-life stuff, it was too hot for specs.
WEISSKOPF: It wasn’t any hotter than when they first did a fresh batch 10 years earlier?
PAINTER: Oh, yeah. Yeah. A lot of the half-life material. You know, there’s half-life material that is nanoseconds, and there’s half-life material that’s thousands of years. But I think the cesium and strontium was the two bad ones, what we were trying to make sure we got all of it out.
WEISSKOPF: Were you bothering to get out any more plutonium, or was that done initially?
PAINTER: Plutonium was not a ‑‑‑ basically, we wanted to recover uranium.
WEISSKOPF: And lots of it, right?
PAINTER: All of it.
WEISSKOPF: Because there were many tons of uranium.
PAINTER: Oh, yeah, there’s tons and tons of uranium. Only a very small part of the uranium that was in the original reactors ever made it to plutonium, and so we was recovering the unused uranium. And like you say, it was tons and tons of it.
WEISSKOPF: You lowered the tanks by taking out uranium, but your process created waste too?
PAINTER: Oh, I’m sure it did. Although we used a lot of nitric acid, and we had a nitric acid recovery system in the facility. I don’t know where ‑‑‑ we sold the nitric acid. Now, when I say selling it, it may have went to Savannah River job or it may have went someplace else. I don’t know just where it was, but we measured the nitric acid that we recovered out of the system.
WEISSKOPF: Wait a minute. Recovered out of the waste banks or out of your own process?
PAINTER: Out of both.
WEISSKOPF: Really?
PAINTER: Yeah.
WEISSKOPF: Was it hot?
PAINTER: I’m sure it was contaminated, but it was reasonably clean. I don’t know just how clean it was. Like I say, I don’t know exactly where ‑‑‑ we just measured it, and we sold it. And whether we were selling it to the Atomic Energy Commission to go to some other plant or where it went, I don’t know.
WEISSKOPF: Where were you in U Plant for that kind of work? Where was your day spent?
PAINTER: Usually, for the most part, I was in the separations building. I worked in the separations building until ‑‑‑ we had pot calsigners* at that time to make powder out of uranium, which was like a big mixing pot with a big agitator in it, and it had electric elements cooking it. And you’d cook it down until it was a powder, and then you would take pipes that had a vacuum hooked to them and you would manually go down in these tanks manually, we called them idiot sticks, and you would manually move the pipes up and down in the powder to suck the powder out of these pots.
WEISSKOPF: Was that in the canyon?
PAINTER: No. No.
WEISSKOPF: Outside of it?
PAINTER: It was outside. The radiation was so low that uranium was not ‑‑‑ you didn’t worry about uranium like you did plutonium. Uranium was a natural element. Uranium was a kidney seeker. If you got it, most of it went out of your system in your urine. So it was not like plutonium. Plutonium being a bone seeker, it went to your bones and it stayed there. When you were working with the powder, you wore respirators or masks. But when we started the first continuous calsigners, then I went over to the 224-U, the adjoining building, not the canyon building. And I went over there on that process to put that in and help follow with construction, and went on through, and that’s where I met Milt Zalinski. Like I say, he was the father of the process, one of the best, greatest guys I ever come across in my life. Not only process-wise, he would answer any question that you thought you could ask. And what I liked about Milt Zalinski was that he would try to give you an answer, and he was not a bit backward and say “I don’t know, but I’ll find out.” And in a couple days you’d get a page that Milt Zalinski was looking for you, contact him at his office, his phone number or whatever, and Milt would tell you what the answer was. Or if he had told you something that wasn’t quite true, he’d say “Hey, what I told you the other day was not true at all.” And, you know, I admired him for doing that. We had some people that would never admit that they ever said anything wrong or made a mistake. Milt was in national magazines on chemical separations and so on. Another man I met out there was Jim Lowe. Jim got the Kaufman* Award from General Electric Company, which I think they only gave out one or two a year, or something like that, in all of General Electric Company, a very smart guy and a very nice guy. And I was able to work with him, and it was just a great experience. I loved it at that time. Like I say, I looked forward to going to work.
(Tape ran out)
WEISSKOPF: ...people weren’t so easy to get along with.
PAINTER: Well, that always happened. Not very often, thank heavens. There was times when there was problems with people.
WEISSKOPF: Never got ahead of you? Never got to be too much.
PAINTER: Never got too much with me. I think I was pretty well able to work with about anybody out there. And I had friends in all departments. And like I say, I worked in different buildings all over the 200 area, and I knew power people, I knew operations people, I knew RM people, I knew ‑‑‑ and that was another thing, when General Electric Company was the only company here, you were more of all one family. After they split them up, then you went different ways and you lost track of a lot of people and a lot of people you didn’t know.
WEISSKOPF: Did you feel like everybody was going to be doing this kind of work in 20, 30, 40 years? Did you have visions that this was just the beginning of the nuclear industry and where it might go from there?
PAINTER: I had the feeling that ‑‑‑ I got a set of books, DOE put out a set of books on all different kind of things about atomic energy and about peaceful use of the atom. And by this time, my wife was a schoolteacher, and I found out about this set of books, so I asked them if it was possible ‑‑‑ these were books that was open to anybody, just general information. And so I was able to obtain a complete set of these books for my wife to use in school. And they were just little pamphlets, they were just giveaway type pamphlets. But I thought yes, you know, that this was the coming thing, and I didn’t think the people would ever have the fear of it that has been created. And I still think that we had ‑‑‑ I know that we had one of the best safety records of any industry anyplace. I read about building the dams and bridges and so on, where they expected one death for every million dollars spent. You know, if we’d have had anything like that, the whole world would have panicked. It’s all right for other industries, but it’s not all right for the atomic energy industry. And I’m not for being careless, you know. I don’t think ‑‑‑ I always said that atomic material was like ultra high pressure steam, or ultra high voltage electricity. You work with it, but you respect it, and you don’t take chances with it. I think that you learned to work with it and do it properly, that it’s a safe thing to do.
WEISSKOPF: Do you remember when the Nautilus was built and sailed under the polar ice cap?
PAINTER: I remember it, yeah.
WEISSKOPF: Did it strike you as Yeah, now we see where all this is going?
PAINTER: Well, yes. But there was other ‑‑‑ you know, they tried to develop an atomic airplane engine. And we got reports and talked to people. We got visitors from all different facilities and so on, get to talk to them, that was working on different projects. And it was mind-boggling, some of the ideas and so on of what they had for atomic. But I was always curious. I used to ask the fellows, I was telling you about the mag flowmeters what we had, that the electrodes would leak, and we had quite a few atomic submarine people come out to the plant, and I’d ask them, I’d say “How the hell do you test O-rings on a submarine?” They used O-rings on periscopes and everything. They said “It’s easy. You go out and dive them. If they leak, you come in and replace them and repair them.” I was then trying to replace little O-rings on a magnetic flowmeter, and I guess we did the same thing, when they leaked we replaced them.
WEISSKOPF: What kind of pressure was that particular one under?
PAINTER: Our pumps were 220 volt pumps and probably put out ‑‑‑ well, our columns were six stories high and they had to overcome the back pressure of a column, so I’d say they was, I don’t know, 40 pounds, 50 pounds pressure, just a random number.
WEISSKOPF: Not like a submarine.
PAINTER: Not like a submarine.
WEISSKOPF: A little bit more about the T Plant. Did you know the crane operators, did you know guys who were hanging out in the canyon?
PAINTER: Oh, yeah. Well, one of our responsibilities, we had measuring equipment in the canyon, in the cells, that we would have to replace, so you got to know the crane operators, you got to know the operations people. And our crane operator did all his work through periscope, and that was another responsibility we had.
WEISSKOPF: With instruments, you mean?
PAINTER: Yeah. Was to maintain the periscopes. So we had had times when we’d have to go in and put up scaffolding. Well, the ironworkers would put up the scaffolding for us, but we’d have to go up and grease the tubes on the periscopes and change out the optics and redo them.
WEISSKOPF: Was any of that equipment affected by the radiation that it dealt with? Fogging of glass, or anything like that?
PAINTER: I don’t think so. I think it was more fumes and dust and things like that. Our problems of high radiation was not like it was in the reactors. One of the materials that we used a lot of was Teflon. And we made gaskets out of Teflon, we made all kinds of things out of Teflon. There was a study made that Teflon would break down under radiation, and so somebody said “Well, we’re going to outlaw Teflon.” Well, Teflon is almost inert to chemical process. It was a great material for us. And we said “What are we going to do if they cut it off?” And they said “Well, it can’t stand the radiation.” Well, they never took into consideration the difference in the level of the radiation in the reactors compared to the level of radiation at our place. So eventually somebody wised up and said there may be better material, and we found some better material than Teflon, but we never stopped using Teflon, thank God. I don’t know what we’d have done if we had had to stop using Teflon. Because we had gaskets like you can’t believe in the process. All the jumpers were sealed with Teflon. Most all the pipe fittings, what we used, had Teflon inserts in them.
WEISSKOPF: And when you were working in U Plant, was it still all remotely operated as it had been during the initial bismuth phosphate separations?
PAINTER: The canyon?
WEISSKOPF: Yes.
PAINTER: Yeah. Yeah, the crane operator ‑‑‑ that was another thing I used to admire, is how they could look down in those cells with that periscope and disconnect jumpers and so on, and raise them up, big cell blocks, what they’d have to take out first, set them over to the side, disconnect the jumper, and they may ‑‑‑ the jumper, the piece of equipment that failed may be three or four levels down, they might have to remove three or four other jumpers to get to it. And then they’d bring it up and set aside, or take it down to the canyon away from the open cell, and then go in and clean it up to where we could go in and work on it. Of course, you was in double coveralls and masks and all the breathing apparatus and so on, but at least you could go in and work on it.
WEISSKOPF: When the tanks were empty, it was safe to be in there?
PAINTER: Oh, yeah. Yeah. In fact, the canyon being so long, you could have the jumpers off in a cell that was a long ways away from you. It didn’t matter how much was in the tank, this wouldn’t affect you. The old rule was that by the square of the distance you get away from the source, the level goes down by the square of the distance.
WEISSKOPF: Did you ever get to ride in the crane?
PAINTER: I’ve ridden in the crane, because we had the periscope or the eyepieces and all were in the crane, and we also had radiation monitoring equipment in the crane itself. And so we’d go in and be working on them while he was doing his work, if we was working on the recording outfit or something like that that didn’t have anything to do with his periscope.
WEISSKOPF: How big was the cab, that two guys could be in there at the same time?
PAINTER: I’d say the cab on the outside was probably 10 foot square. And it was hanging over on the back side of a wall from the canyon, and it had like a vault door going into it.
WEISSKOPF: Did it have its own air supply at that point, do you remember?
PAINTER: It had its own filtration and so on. It always amazed me, like I say, how those crane operators could, you know, looking down through a periscope with one eye.
WEISSKOPF: Do you think somebody gave them a plan for what they had to take off?
PAINTER: Oh, yeah. All the jumpers and everything was numbered, they had letters and numbers on them, so they knew what they had to remove and in what order they had to remove them. And then they had, you know, they had to make up the jumper. It had a ‑‑‑ I don’t remember now what they called it, but it had a three-prong piece that went around to pull the jumper in and tighten it up so it didn’t leak and so on, yeah. They had to put the jumper in, then they had to bolt it down, so to speak, for leaks and so on.
WEISSKOPF: Switching subjects and filling up the tape towards the end, what would you have been doing if you hadn’t ended up at Hanford? Go back to where you were a teenager and before the war.
PAINTER: Well, when I went to school before I went in the Army, I was going out in civil engineering. And probably if I hadn’t gone into the Army, I’m sure I wouldn’t have got out of school in four years, because I didn’t have that much money. I’d had to have some open periods there to earn money. But I’d have probably finished out in civil engineering. And I don’t know, I don’t really think civil engineering would have really been my field, but that was what I started in.
WEISSKOPF: When was the first time you heard the words atomic energy?
PAINTER: When they dropped the bomb.
WEISSKOPF: Not before then?
PAINTER: No. Had no idea about anything as far as atomic energy. I had chemistry in high school, and I had chemistry in the lab in the first semester of college, and it was never mentioned at that time that I ever knew of. Maybe I was asleep that day that they mentioned it, I don’t know, if they did.
WEISSKOPF: Is there anything you feel like, some subjects you can either mention now, or talk about now, or save until next time? Is there anything you want to fill in that we didn’t touch on?
PAINTER: Well, I was asked, you know, how much did you ever work in the 100 areas. The only time I ever worked in the 100 areas was downtime for the reactors. And I only worked at B Reactor one time.
WEISSKOPF: Working on the instruments?
PAINTER: Yeah.
WEISSKOPF: Like what aspect? Why did they have to bring you in?
PAINTER: Well, burnout. They had all of the back side was covered with thermomes* for temperature measurements, pressure gauges for all the I don’t remember how many thousand pressure gauges they had there. But the back side of the reactor would be a burnout situation, and they would burn out their people ‑‑‑
WEISSKOPF: Better explain what burnout is.
PAINTER: Well, they’d get them out of radiation that they was allowed per week, or per day, or per whatever period. And they would be wanting to get the reactor back up in the shortest time possible, and in the 200 areas we had thermomes, the same thermomes as they was using for measuring temperature in the B area, so we’d work our shift in our home plant and go over work in B area on swing shift, or graveyard, or maybe Saturday or Sunday, just to get the reactor back up and operating again.
WEISSKOPF: You were working on the rear face of the reactor?
PAINTER: Rear face and sometimes in the control room.
WEISSKOPF: How did you have to dress up in the rear face?
PAINTER: Coveralls.
WEISSKOPF: Was it wet back there?
PAINTER: It was wet, yes. I was trying to think how much, what we had to wear as far as liquid. It wasn’t very much. It was down at the time, of course, and water was ‑‑‑ you know, the rods were in, and...
WEISSKOPF: Water was still flowing, though, through the tubes? When you took a thermocouple out, did water come out too?
PAINTER: No. The thermomes were in wells. They were in their own wells. If you dropped anything, the pool was right below you and you didn’t recover it. It just went splash, and especially it was embarrassing if you dropped the last ‑‑‑ we had a lot of special tools made up to get into places and turn objects and whatever was needed, and if they were down to the last tool and you dropped it in the pool, it was kind of embarrassing to tell them on the front side whoops! And they would just say “Well, come out, we’ve got other ones being made.”
WEISSKOPF: Was there ever any job on Hanford that you never did but you always thought would have been a good one? Anything else look more exciting?
PAINTER: Well, I kind of wanted to work in PUREX when it first opened up. I thought my best field was the chemical processing, the instrumentation for chemical processing. Analytical labs, I could do most of the jobs, but I didn’t think that I was the best person in that lab to do the job. I knew there was other people that knew the equipment and everything a lot better than I did. But I thought in the chemical processing line that, knock on wood, that there wasn’t any better than I was for the instrumentation, and knowing the process, and knowing what to do to take care of the problems.
WEISSKOPF: Did any phases of your career ever get boring? You mentioned the one where there wasn’t anything going on, but when there was stuff going on, were there some jobs that you were glad to get out of?
PAINTER: Oh, there must have been.
WEISSKOPF: You changed a lot, right?
PAINTER: Yeah.
WEISSKOPF: It was a growing industry.
PAINTER: Yeah. And like I said, I wanted to go to work every day. It was an interesting ‑‑‑ if they had asked me if I wanted to work on Saturday or Sunday, I probably, back in the early days, I’d have said yeah, you know, with no extra pay or anything. The salary was never a major item to me. I wanted to be the highest paid man in that department, but I wasn’t out saying “Hey, we should have our wages doubled,” or anything like that, “We’re more important than somebody else.” So that was not the incentive for me, salary. I just enjoyed what I was doing. I liked working with the people, and most of the people, like I say, the engineering department and so on, they showed an appreciation for what I was doing, and it was just good, interesting work. And, you know, when people are saying “Hey, you did a good job. Thank you,” and “Please help us out on this,” “Help us out on that,” and there was a lot of it ‑‑‑ my wife and a lot of people always said that I should have been a design engineer and not come up through the instrument field. But I did a lot of design work, but not as a design engineer. The old process, what we had out there, to change the design on something, you could write what they called an FCN or a Facility Change Notice. And if you came up with an idea that you thought would help, you could talk it over with everybody and make a Facility Change Notice, and it would go through engineering, and they’d have to sign off on it, but you could change the whole design of process, which made it very interesting to me.
WEISSKOPF: A man who liked his job.
PAINTER: Yeah.
WEISSKOPF: That’s nice.
PAINTER: And when I followed construction, when they built 236-Z, I followed the whole mechanical end of it: The electrical, and the piping, instrumentation, safeguards, the whole nine yards. So it was very interesting. I worked with a lot of different construction people. You talk about frustrations. I did have some frustrations on that job. We had two DOE people, and DOE had just went through a big lawsuit. And the people what we had, I don’t want to say anything bad about DOE, but we had two people out there that they just could not tell the construction people no. Construction worked them over for every bit of money they could possibly work them over for, and they wouldn’t change anything out. You’d tell them it was wrong, that we didn’t want to do it that way, that the drawing they used was just a typical and it was not the drawing that showed exactly how things had to be installed. For example, the high pressure side of an instrument might be on the right instead of on the left that was on the typical. And even though you told them that it had to be changed, the piping had to be in to the other side, and you’d get the drawings and everything, they would go by that ‑‑‑ they’d install it wrong on purpose so that they could get a change order to change it back for dollars. And that just burned me. That wasn’t my philosophy at all, and that was quite frustrating. Then DOE would not back me when I tried to fight them on it. They said “Hey, let them install it backwards, and then we’ll give them a change notice to change it.” So there was frustrations at times. But all in all, you know, it was still, it was a great job.
WEISSKOPF: Well, good.
PAINTER: One thing I did, like I say, when I first went over to the instrumentation, I was on the bottom of the trainee list. And I got to U Plant, and I got assigned with a man named Bob Rhodes* (phonetic) who was a technician. And Bob Rhodes was a very critical man, and if he didn’t have any faith in what you did, he was very difficult to work with. If you had to be separated, he’d check both ends to make sure that you did your job right. And I’d heard a lot of words about Bob Rhodes, and I got assigned to work with him. And Bob and I hit it off great. He’d tell me what we needed to do, and I’d do my end, and he’d do his end, and I never had a speck of trouble with that man. And as a result, I progressed much faster in the instrument end at U Plant than the normal rate for a trainee. So while I was still a trainee, I was asked all the time to do journeyman work, and this caused a little bit of friction union-wise, but it gave me the opportunity to learn the process and to learn the instruments at a much faster rate than I would have ever had otherwise. And Bob never questioned. If I’d say I found so-and-so and it was in such-and-such a condition, he never questioned me, he never went back to double-check, and I made damn sure I never gave him a reason to question me or go back and double-check.
WEISSKOPF: Why do you think the instruments were used throughout the site but each area had its own group of instrument people?
PAINTER: Yes.
WEISSKOPF: Why didn’t they just have one team of instrument people?
PAINTER: Well, they had a manager over the whole deal, but the teams were separated. And it was because you’d learn to do the job, you’d learn where the equipment was, you’d learn the requirements of the job, you’d learn what you had to do for radiation, you could do the job in much shorter time and much more efficient time. But if a new job came up and somebody applied for it, and they had whiskers, seniority, you might get moved out of your job to another area to fill in where somebody had left. That’s the way before I went to U Plant, that’s the reason I went to Z Plant in the first place was to take the place of a man that had gone to PUREX. Harry Shaw* was another manager out there that I really thought a lot of. He came to work out at Hanford, I think from the Denver Ordinance, and he had a degree, but he went up through, he started right at the bottom of the plant, in the instrument department, and ended up as the vice president of Arco*. And I worked for Harry later on, and he was a smart enough man that you didn’t give him alibis. Alibis to Harry was always you had failed some way or you wouldn’t need an alibi. And it hurt a lot of people to work around Harry, because Harry would not accept alibis. Or, you know, he may have to accept it, but he didn’t like it and he always questioned it. But I thought he was a great person to work for, because you didn’t BS him, you didn’t beat around the bush, and you might as well tell him right out front what went wrong and say what we did to correct it.
WEISSKOPF: A different tack. Were there any women working on the line with you, operators?
PAINTER: Oh, yeah. Yeah, we had ‑‑‑ the analytical lab was full of women, of course. To start with, all the operators were men, but later on they had female operators. But most of the women that I got acquainted with, the female operators mostly came in after I was already in management. But in the analytical lab I met a lot of women.
WEISSKOPF: You weren’t exactly trained for your job when you came out of high school.
PAINTER: No.
WEISSKOPF: Where were they pulling people later on? What kind of people would hire out at Hanford?
PAINTER: Well, later on, then, they started Valpariso* Tech in Indiana, we had got quite a few people from their school.
WEISSKOPF: Specific training?
PAINTER: Yeah. And we had people that quit college, you know, second or third year, that either couldn’t cut it, money or whatever reason, that had a lot of training in dynamics chemistry, electronics. We got a lot of people out of electronic type schools. The program that I went through out here, and they finally dropped it, and instead of sending one day a week, like I went through, going to school on the project, they started going to Columbia Basin [College]. And they paid all their fees at Columbia Basin.
WEISSKOPF: Always in some kind of training because you were always changing jobs, you could always learn from it?
PAINTER: Oh, there was always learning to do. And, you know, the computer came in, everything was ‑‑‑ first of all, you know, you didn’t have any continuous process ‑‑‑
(Tape ran out)
PAINTER: ...so all the instrumentation changed. The old went out. A lot of the instrumentation that came in was experimental and died a natural death. It didn’t sell, and you couldn’t get parts for it. The communications parts came in, the safeguard equipment came in. It was kind of exciting, really. I never did get to learn everything about all of it, but I knew just enough to speak to my people about it. And, you know, if I went out in the field to look at what they were doing, I knew what it was supposed to do. And I may not know all the technical ways that it was doing it, but it was a very interesting job.
WEISSKOPF: Did you ever see how they do chemical separations fuel processing in France or countries that have a lot of commercial power?
PAINTER: No. At one time there was a program that came up, we was going to do laser separation, chemical separation, and the plant was supposed to be in Z Plant to do this. And a lot of the design work came in, and I got to go to a lot of the meetings, and look at a lot of the designs, and how they were going to do it and everything, but it never did come about.
WEISSKOPF: How would you use a laser to separate out materials (inaudible)*
PAINTER: Well, I don’t know whether I can tell you that or not. But, anyhow, they shoot a laser through it.
WEISSKOPF: Is it something that DuPont might use in a nylon factory? Was it just a normal process they were going to adapt?
PAINTER: No. I don’t think so. I think this was all originated in the labs down in California.
WEISSKOPF: And when you said you probably couldn’t tell me, is that because you don’t know or it’s probably something you shouldn’t talk about?
PAINTER: Both. Both. Both, yeah. Because I don’t know what the classification is on any of that stuff.
WEISSKOPF: If you had a guy come in from a nylon factory, DuPont or Dow engineer worked on a factory, almost like a chemical engineer, would he understand what’s going on in the uranium plant or (inaudible)*?
PAINTER: I think so. You know, he may not know everything about it, but he would pick it up real fast. Basically, you know, most of the chemical processes are pretty standard.
WEISSKOPF: Whether you’re pulling out gold or copper or anything (inaudible)*
PAINTER: Well, a lot of these know the schools in the chemistry department, and in their studies and what have you, they’re doing analysis and separating and so on. I know the ones that we got into the chemical processing, the engineering people that come out, not all of them was through the atomic field, there was a lot of them that had chemistry degrees, or physics degrees, or something like that. They knew what you was talking about. They’d heard about it some way. And they may not know all the details, and the weights, and the percentages, and what have you, but basically they knew what it was.
WEISSKOPF: Because the people who first designed the process were chemists.
PAINTER: Yeah. Right.
WEISSKOPF: Nuclear (inaudible)*
PAINTER: Right.
[end]
Mina Miller, that wasn’t my name then, I was Mina Peoples, and I came on the train, and happened to be...if I go from the beginning, I had taught school for one year and I had decided that was not for me, I had to have a job. And I was sent to the United States Employment, and they were shipping everybody out here. They said we can’t put you on the train tomorrow because that’s Memorial Day, can you go Tuesday, and I said sure. I got on the train in Detroit Lakes, Minnesota, and it was a troop train but I didn’t know that, and I didn’t know what a troop train was anyway, I came out just open and naive. I carried a lunch with me and shared it with the troop, and there were several other young women but I don’t remember any of them. This group was going back to Pasco because they had just become young ensigns and they were flying the Hellcats. So the whole thing was a big adventure for me. I had been through a small college and didn’t really want to teach anyway, but I did that one year, so I was open to anything.
I got off the train in Pasco and was met by DuPont and brought me to the Hotel, I guess it’s still the same one. This was in 1943, and I was put in a suite with six other women, and I got there late and had to share a bed with another women, well that wasn’t too upsetting to a 23-year old that had never been out of town; the other was really fussing, her husband was down the hall someplace. And in the morning they said as we went through Pasco to the hotel, in the morning you go to the gray building and I, it was two in the morning, I just knew I couldn’t find that place in Pasco, I had no idea how small Pasco really was at that time. So in the morning, I said who can I hang onto now, who won’t be so dumb as I was and couldn’t find the place we were supposed to go. And I met this lovely lady, who looked like she could be my mother, and asked could I have breakfast with her and go to the gray building, and she kind of put me off, and then later she said yeah, I’ll meet you downstairs and have breakfast, and we’ll talk. And that turned out to be Gwenna Maris, first person I met. I think I had it, so easy going that I just grasped at everything I could to hang onto. And when we got downstairs to eat breakfast she said I didn’t get off the train with you, and then told me she had been hired to take care of women’s matters at Hanford, and would I keep notes when I go through the second orientation, and see if there’s anything that upset me. Apparently, early on, the women were getting off the trains and turning around and going home. When they got in there, in Hanford finally, and found that their spouses wouldn’t be in the same place with them, and that was one of the things, she didn’t tell me that, but I found that out that it was men and women, and the families were really upset, of course. So I went through that, the orientation in Pasco... Before she left, and I was sent up to Hanford on a bus, she said, she knew then that I was hired as a... gosh, I did it for three years... she knew I wouldn’t get the job I was hired for... TALK... I went to US Employment and they were shipping people out to Hanford, I’d never heard of Hanford and when we found out, my parents and I looked it up in the atlas to see where it was, Pasco I think had 1100 people. I had no idea what I was walking into, but I was open to it, it was an adventure. My friends, we graduated that year from college, and some went into the service, some married their sweethearts and sent their husbands off to war, it was anything goes. And I think a person my age was just about the right age for it.
A recreation leader was what I was hired for... a recreation leader in a construction camp... nothing seemed to bother me. I had a roommate when I first got there, she was from the Deep South, and I was from Minnesota, the cold winters, and we really sometimes had trouble understanding each other...
MET LADY...
She said that she didn’t think that what they had hired me for would be forthcoming and said if you get out there and they put you to work in a filebox, women’s work, and she said if that happens you give them this telephone number, and sure enough it happened, and the poor man had a hard time even understanding that I had any clutch at all, or any, I didn’t know either, who she was, and sure enough, he called her, and he sent her right over to me, and she hired me for her, for a time that she could use me, and from then on I went right on into the building where we had the recreation hall for women. I worked for her for about six weeks, and then the opening came, the building was ready, the other people who were going to be running it were ready, and there I was. And it was a really nice job. I did some things for women like exercise classes, and really didn’t have a lot of, I just did it, there was no real push to get a program going. It was really good for me. I worked a swing shift.
I didn’t really realize how important it was to the people that came there. It was supposedly a place for women and their friends or their husbands to be with them, well, of course what they really need was a home of their own, so it didn’t work that much, but we did produce a lot of niceties for them. I’ll back up a little. There really wasn’t anything for people to do in the way of recreation, except what men do in a construction camp, they played cards, they drank, they wrote letters home, so it was something that we need, and from that they went to the big things, putting in the coliseum like that.
But we were a small group. I’d never chaperoned a dance, and when they built the mess halls, before they opened them, they opened them up to dancing. So there would be about a week or two of dancing, and men and women coming around. It was needed.
HOW MANY PEOPLE HERE WHEN YOU ARRIVED?
I have no idea... there was nothing to do but go to the mess hall and eat, but it got better and better, they were really concerned about this... At one time there was a popcorn stand...on the main street... and they were wide, these streets, maybe eight people or more walking the streets at the same time. Later on, after I met Blake, we would go to the mess hall at eleven o’clock when I got off and have breakfast.
BIG ADVENTURE;
I’d never really been in a big city very much...
HOW SPENT DAYS?
Just taking care of people coming in, talking to them, people were lonely. One of the things that got me was that I think it was on Saturday that peop[le got paid and they’d go to the commissary, and long lines of people calling home, sending money home, that was pathos, I felt really sorry for them, they’d be crying, not all of them, but it was a touch with home, and we were certainly, all of us a good long ways from home. There really I don’t think at the beginning, any buses going out, though later we saw that, there were buses going to Yakima. And if you got out to go to Yakima, you couldn’t find a place to sleep when you got there, so that wasn’t a very good idea. But you could go, later on, you could go overnight and if you had someone that had gotten a room for you, but of course there was the military coming in from the Yakima Firing Range, so that was overrun by the military and hangers on. I did go a couple of time alone on the bus and got back all right. The bus always stopped in Moxie so they could pick up liquor, because they weren’t furnishing liquor, beer or anything in Hanford at that time until they built the Beer Hall.
WHAT DID HANFORD LOOK LIKE WHEN YOU WERE FIRST THERE?
I didn’t see much. I kind of went from my work to the mess hall, and of course you make friends and have buddies and that’s what I did. We had in that recreation hall a good jukebox and a good hardwood floor for dancing. It was actually the other half of a barracks, so it wasn’t very big. But when it first opened they said the men can’t come in unless they’re escorted by a woman. But we had a terrible time because I think they had 26 openings, doors that people could come in and out, and trying to keep the men out was just impossible, and cruel, too. So we learned a lot of things along the line.
The woman I worked for had been in USO, and she was running it like a USO, and we were just trained along the way in what went and what things didn’t. The floors were just really good for dancing and having people in.
(TAPE ENDS)
...Store in Portland, they were sort of like Frederick and Nelson but even better. They found, that company found that the war was going bad and they sent their people over there to gather all the music that was coming out, and we got it..
HOW?
We made a request to the people who were working with...oh, well they were working with us but there was another way about it... I have one or two of them still...
OVER A COUPLE OF YEARS THE ENTERTAINMENT EFFORT EXPLODED?
Yeah, they had the auditorium, then they began to bring in the big bands, over the summer, the thing was going down and people knew it... they brought in the big bands, I can’t tell you who they were.. I didn’t see a lot of it because I worked till 11 o’clock at night...
WHAT WAS SUMMER OF 45 LIKE?
I just stayed laid back and let it happen, yeah, people were leaving, that was true, and we just sort of said good-bye and we’ll see you again sometime...I was married then, and I couldn’t live there if I didn’t have a job, and I couldn’t live in Richland because I was married to somebody who was still on the payroll out there, so I went to them and said I have to have a place to sleep, they put me in a place where we were shoveling paper into big wastebaskets. Then they found me a job in Richland, and I had a nothing job, but I still had to go back and forth on the bus...
DID YOU KNOW WHAT WAS GOING ON AT ALL?
No. In fact we were visiting my sister and her husband in Nacell, and when we heard the news on the radio, and then we had to come back here by train, and people around us knew nothing; we were all excited about it, we didn’t know what it was, but we were excited about it and that we’d had the good sense to stay there, because it was all good for us. And we walked right into Richland and made friends and neighbors and there was no... by that time I was working in DuPont’s closed files, right down here where the post office was, and then I went to GE until I had my baby (post-war)
EXCITEMENT WHEN BOMB WAS DROPPED?
No, that’s what upset us, then. I mean, we knew what it was, we knew what we had been doing and what had come to pass. But the people in the streets, well in the first place we were in Nacell, Washington, you know how big that is? Not very big. Then we went to Portland to get a train home, and there was not a lot of understanding of it, maybe they knew something terrible had happened but people were really pretty cool.
HOW ABOUT WHEN YOU GOT BACK HERE?
I really don’t remember..
DID BLAKE TELL YOU WHAT WAS GOIN ON?
No.
WERE YOU CURIOUS?
We were told not to ask. So it was a very successful put-down. And still I think sometimes, well am I supposed to know this, you know when I hear about things that are going on at the plant now, I think am I supposed to know this...
Had a house in Richland and we were settling down to housekeeping, and he never told me anything what he was doing, and he was one of the first, first...what do they call them? He went out and monitored the sagebrush way out as far as Ritzville, but I didn’t know... But we just didn’t talk to people or to each other about it, it was just very carefully kept.
I stay to my sisters in Minnesota, but this is my home, and they can’t fathom that. We just had our fiftieth anniversary, and of course they couldn’t be here because they’re older than I am; Blake’s brother came, same situation. It’s hard to let go of the old thing, I still love Minnesota and the people there, but I love the people here.
SENSE OF LOSS WHEN PEOPLE LEFT?
Yeah, but a lot of them come back...to retire
TAPE ENDS
END
Russ Knight
Audio Interview by Telephone
October 8, 1999
Interviewed by Gene Weisskopf, BRMA
WEISSKOPF: This is the October 8, 1999 interview with Russ Knight about his experiences in the separations process at Hanford back in the early days.
WEISSKOPF: If there’s someplace you’d like to start. Otherwise, do you want to go all the way back to what you were doing in World War II and sort of segue into how you ended up at Hanford?
KNIGHT: I could do that real quickly. You bet.
WEISSKOPF: Basically, last time we talked you told me what you were doing, the top secret kind of work, you had a clearance during the war.
KNIGHT: That’s right.
WEISSKOPF: Well, how about that?
KNIGHT: Okay. Let me say this. I originated out of Pittsburgh, Pennsylvania and joined the Army Air Corps, because they were taking fellows in with a little bit of education. I say a little bit. High school, minimum.
WEISSKOPF: Right.
KNIGHT: And from there, why, I went through the training, and then was assigned to the Eighth Air Force. And very shortly thereafter there was a big push to get personnel into what was called the troop carrier command then. And I went into the first troop carrier command, and during my stay there, training pilots, and we were then ‑‑‑ well, after I had been in training for about 14 months training pilots, decided that I’d like to get a part of the war effort, too. So I volunteered to go into the war. And at that stage I was assigned to a troop carrier unit that was to go overseas, and again was requested to submit to special training. At that time I was trained as a pathfinder. Part of that training took place at MIT, the electronics training, and the field training then took place at Pope Field in North Carolina, Fayetteville. And from there, why, I went over to the European theater of operations.
WEISSKOPF: And what year was that?
KNIGHT: That was in 1943. Late ‘43. And from there I participated in the war, and of course the top secret clearance type thing took place at my training at MIT and also in the field training at Fayetteville, North Carolina. So then I came home in December 1945. And at that time I came by the Richland area, because I had met some real good people and had some friends here. And everybody, during my visit, said “Oh, you better sign up and go to work here at Hanford, because this is the future of mankind.”
WEISSKOPF: You had actually felt that this was something new happening?
KNIGHT: That’s right. And so I said, “Oh, I don’t think that they would want me, but I’ll go down and submit an application.” Because I came from the East Coast originally, as I stated, and I had been offered a job by one of the officers in the Army to work for Standard Oil of New Jersey. And I thought, well, that was close to home and be a good opportunity, so that had been my original plan. But after submitting my application at Hanford, why, with my background and with the military clearance and just out of the service within weeks, why, they gave me my exam, gave me my clearance the same day, and told me to report to 100 West area the following morning.
WEISSKOPF: They were happy to have you.
KNIGHT: It was really strange, because the people that knew me said “That’s impossible, Russ, they can’t do that. They’ll stop you before you get out there. But anyhow we’re happy that you did sign up.” So the net result was everything went the way that I was told that it would when I signed in.
WEISSKOPF: This is probably early 1946 at this point?
KNIGHT: That was in January ‘46. January 14th, to be exact.
WEISSKOPF: Well, okay, great. That was the first day you showed up for work?
KNIGHT: That’s correct. And so in doing so, I got on the bus, and at that time the bus rides were free, and the bus depot was fairly close to town. As a matter of fact, it was almost on the corner of Williams and Thayer, about a block to the west. So I went to the bus area and got on a bus like they said. It was labeled to the 200 area. Now, these were small military type buses. They were even painted the OD color. And I got on this thing and started out, and when we got to the 300 area, there was the major barricade across the road. Now, this was manned by military personnel. And when I looked over at the 300 area to my right, why, there was guard towers all around the area. And it was hard wire fencing and barbed wire at the top. And low profile barracks type military style construction. And I thought, Uh-oh, I don’t recall the looks of that. But, anyhow, on we went. And the reason that I make this comment was I had just, on my return to the United States ‑‑‑ I had been stationed just outside of Munich, Germany, and they had Dachau concentration camps just 17 miles out of town, and I had visited that prior to coming home. And it had a very similar position in my mind, that, hey, this is another concentration type of thing, and what in the world are we doing here? So I didn’t feel too comfortable, the 26 miles on out to the 200 areas. And as we came up the hill closest to the 200 East area and flattened out, I looked over to the right and here I could see this real long concrete building and a large smokestack, or at least a discharge stack of some sort, 200 feet in the air, and I thought, Uh-oh, no windows in this facility, and I was really getting very uncomfortable. And I thought, Well, I don’t know whether I like this or not, I don’t want to be a part of something that’s like the concentration camps where...
WEISSKOPF: Yeah.
KNIGHT: So on we went to the 200 West area. When I got off the bus, why, I had the real strong feeling that I wanted to go back to town. So I went in the batch house and I asked them what time the next bus went back to town. Because there were no private vehicles at that time. And they said oh, there wouldn’t be another bus, there’d be a shuttle bus later on, that I might be able to ‑‑‑ they said, “By the way, who do you want to see?” And at that time I was asked to get in touch with Randy Fenninger (phonetic) of DuPont. So they said, “Well, here, we’ll get him on the phone.” So they called Randy, and he answered very quickly, and he says “We’ll be right up to pick you up.” So in just a very few moments, here came a car, a company car, and again it was in the OD color. And I got in the car, and they started down, and I told them, I said, “I’m really uncomfortable about this.” And Randy says “Well, you needn’t be, we’ll explain a few things to you as we go.” So he started telling me a little story about ‑‑‑ and, of course, the news on what was going on at Hanford had already broken and had been published in the papers. That was one of the reasons that I came home very early. So the story continued to be, “All right, we’re going down to the laboratory, and this is the 222-T laboratory, and we’ll start here and give you a little bit of an insight.” But they said “Bear in mind that everything that is on the site is very much in the high security type activities. Anything related to processing is strictly on a need-to-know basis.” So that was the beginning and the start of my introduction to Hanford. And I got into the laboratory and immediately met some really fine people and started working. And then after I had established myself in about three or four weeks, why, they said “We need your type of help over in the 200 East area also, same building, same type of activity, for B Plant operation.” So I worked a half a day in T Plant and a half a day in the B Plant laboratories.
WEISSKOPF: In the same day.
KNIGHT: For several years.
WEISSKOPF: Oh, between the two?
KNIGHT: Yes. A half a day in each. And that was kind of interesting. But then we got into what was happening and the processing. And, of course, the process at that time was what they called bismuth phosphate processing. It was a batch type process. They had the cells in the canyon building, which was a long concrete structure, approximately 800 feet long, and was equipped with 40 in-ground cells from ground level and deep into the ground 28 feet. And the cells were equipped with the necessary processing equipment, and all the processing equipment in the cells were stainless steel.
WEISSKOPF: Let me ask you this: You had a pretty good technical background just in general technical issues, but why did they take you to a laboratory for strictly chemical process, do you think?
KNIGHT: As I look back on it now, Gene, my only thoughts were that the whole process then had to be hinging around chemical operations. And that would be an ideal spot to start out and really learn the processes from the ground up.
WEISSKOPF: Okay. Yeah.
KNIGHT: And I was very fortunate, because that was the case. The more I started learning about the process, the more intense my desire to learn. It grew and grew to where it was really exciting, because the more I learned about the process, then the more I understood about it. And the more I understood about these things, the greater the “awe” effect became, that My goodness, they’ve done all these things in such short periods of time, such as building a complete facility in 17 months, building a tank farm to support that facility in the same time frame, and at the same time doing a lot of research along the way to actually assure themselves that the process would actually work. Because most of the work initially was done on a very small scale to begin with, and then it was blown up to be a full-fledged process in a large volume plant.
WEISSKOPF: So by the time you got there, at least it had already been proven that the process, the entire Hanford process, works.
KNIGHT: That’s correct.
WEISSKOPF: At least you got to step in saying Oh, whatever they were trying to do actually works. Now we can go on from that point.
KNIGHT: That’s right. And they were constantly in the experimental stage to improve their capability and abilities as to what was going on. Now, I mentioned initially that the canyon had 40 cells in it in the initial startup and operation of the facilities, and we ran that way for a number of years with using only 20 of the cells.
WEISSKOPF: Okay.
KNIGHT: And then as we continued to forge ahead, and the needs and the operation continued to grow and became more and more interesting as to what happened in the process and how they could improve their abilities to produce at a higher rate. They put the second series of cells into play, and this was called parallel operation.
WEISSKOPF: Oh, okay.
KNIGHT: And we increased the output from the plant. Because, bear in mind that as this process went, it was very slow and very meticulous and very tedious in getting the maximum amount of plutonium out of the uranium that was being processed. And it was very strange, because the initial volume of material that was put into play, the uranium was in the tonnage levels, and the extracted material, the plutonium, was in the gram phase.
WEISSKOPF: Right.
KNIGHT: And that was tremendous, to run through large volumes of processing in a tank, two, three, four thousand up to as much as six thousand gallon vessels, and continue to control this, and make sure that you knew exactly what you had and where you had it in a given time in the process. Very unique. And, of course, that’s where the laboratory came in. It was actually called the process control lab. And in order to adjust and maintain the process, why, samples had to be taken at each step during the processing. As the material went from one phase of extraction in the separation to reduction, oxidation reduction type phase, why, you had to sample at all stages. And not only did you sample for the product, but you also sampled the waste streams to ensure that none of the product was going out in the waste streams. Or if there was any going out, it was an absolute minimum allowable.
WEISSKOPF: Let me ask I think what is probably always going to be there, but because it was such a nationally critical material, the faster you guys got it processed, the better; and the faster you could do the sampling, the faster you could make the chemistry go, the better it would be all around?
KNIGHT: That’s correct.
WEISSKOPF: Okay.
KNIGHT: Now, the process was all designed to accommodate those needs. And this was another thing that was just amazing, to know that here was a brand new introduction to a ‑‑‑ this type of energy that we had never even considered that would be available to us on a daily basis. And to have started all of this with instantaneous construction, building, and putting the buildings into what we call a turnkey operation to begin with, once it was built, you would turn the key and open the door and went in and started the processing. That was amazing. And since the construction of the process facilities was done in such a secretive manner that the construction workers that were assigned to do certain phases of putting in interconnecting piping and whatnot were moved from time to time, and that was usually on a day or every-other-day basis, so that they never really had a true configuration in their minds as to what was being done and how the system was being built and what it would be used for. So all of those things were highly, just mind-boggling.
WEISSKOPF: How did that affect your job? You said they were introducing you to the entire process, the best way to learn was in the lab. How did security impinge on your knowledge of at least the separations process? Did they limit you in any way?
KNIGHT: Oh, yes. They had a very large technical manual that was available at that time of the whole buildup and the history of what was taking place in this technical manual, but you didn’t have full authorization to take the technical manual and sit down and read it at that stage.
WEISSKOPF: Oh, okay.
KNIGHT: That came later, that they made the technical manuals available to almost anyone that worked there after a period of time.
WEISSKOPF: Did you know where the fuel was coming from, or how it was processed before it got to you guys?
KNIGHT: They started telling us this early on, that the uranium was put into a process mode and put into the reactors. And at that stage, why, it was being transmitted ‑‑‑ transmuted, I should say, to make the plutonium.
WEISSKOPF: And what about within your process itself? Did you know when ‑‑‑ the material that you were processing ended up leaving the building and going to the concentration building. Did you understand that whole leg of the process, too?
KNIGHT: Yes, we did. Because that was all in ‑‑‑ well, within a stone’s throw of the canyon building was the laboratory, and next to the laboratory was the first phase of the concentration. It was the first phase through the operation. And once we got the plutonium in the rough-cut stage, I’ll put it that way, then it was moved from 224-T Building down to the 231-Z Building, which was the final concentration and purification operation. And the ‑‑‑ all of this was controlled, as I said, through the laboratory, and samples had to be taken in the processing facilities. In the canyon facility they had to keep the canyon in prime clean condition, because in order to get samples the way the system was built then was to take people right in on the processing deck with all the cells closed, and they had sample systems that they would go in and turn on what we called the air circulation, which was a circulated process, solution out of the vessel up through a sample receiving cup and back into the processing vessel. Well, they would circulate this for a minimum of ten minutes to ensure that they have gotten a representative sample out of this large vessel. And then they had special equipment that they inserted down into the sample cup and pulled the sample into it, and the high activity samples in the early process we used what they called a shielded trombone sampler. It was an all-stainless unit, and it had a release on it that lowered the actual sampling tip down into the solution. Then they used a syringe to pull the solution into a pipette that was at the bottom of this sampler. And those pipettes that were used on the bottom of the sampler were calibrated to a ½ or 1 ml. And the real hot ones, of course, we only took a ½ ml. And then the unit was retracted up into a shielded portion of the sampler, and then we had a shielded container called a doorstop that was placed very close to the sample port that was immediately transferred then into the doorstop. And at that point the sample pipette was disengaged from the sampler assembly, and then the lid on the doorstop was closed with a handle that clamped down and held the top of it sealed so in the event that it was tipped over it didn’t spill. And then they carried that by hand to a wagon. In the early stages, we didn’t have the wagons to begin with, and they would carry these then from there to the building, and that was to the 222 T Building, where I was. Then when the samplers came in the door of the 222 laboratory, they had a special window right inside the door on the right-hand side as they entered, and they rang a bell, which was a push-button bell at the window, and then they set the sampling equipment up on the dutch door type platform on top of the ‑‑‑ at the bottom of the window.
WEISSKOPF: So they wouldn’t actually have to come into the lab?
KNIGHT: They did not. Then we’d open the door and pull the sampler equipment in and set it down on the stainless steel benches.
WEISSKOPF: Would you pull just the doorstop, or all the trombone and everything else?
KNIGHT: Any sampling equipment that they brought over at that time. Sometimes it would take two or three samples while they were in the building, or in the canyon, and would take the process samples that contained the product. And that’s what it was always referred to, we never talked about it being plutonium. You always spoke of the product. And then they would also take waste samples, because, as I said, as they processed from stage to stage in the canyon building, they would take the sample of the product to ensure that they still had it, and the volume and the condition of it as far as isolation. And then the waste that came off of that, they took samples of those waste streams and brought those over to the building. And naturally as you’re processing this way, wastes are very important to get out of the building. Otherwise they’d back up and fill your vessels, would shut you down.
WEISSKOPF: Right.
KNIGHT: So that’s kind of the way the process always emanated and controlled, and it was really very interesting.
WEISSKOPF: What was your job actually, then, you know, a few months after you got there? What was your daily routine? You were in the lab?
KNIGHT: In the lab. As soon as they found out that I could use the pipetting equipment, because, again, college chemistry, if you remember, taking samples, everybody used to draw the sample up into the pipettes in college labs by mouth. And this was an absolute no-no, and you didn’t do that sort of thing. So the way we done it out there was we had these small syringes, the same type that the medical profession uses to inoculate you. And different sizes. The smaller volumes that you were going to work with, the smaller the syringe that you needed, down to where ‑‑‑ but you couldn’t go too tiny because you were going to hold this in your hand. And attached to the end of the syringe was a small piece of intravenous tubing that we used, and then the pipette was placed into the intravenous tubing to actually get a sample, especially the waste samples, were by hand.
WEISSKOPF: If they took just a 1 ml sample, would that be enough for you guys to work with, then?
KNIGHT: It was enough to give us at least two complete analyses. If we ran an analysis and it didn’t meet the expectation that we anticipated at that phase of the process, then we were asked to verify the analysis, so we had enough sample to run it again.
WEISSKOPF: Okay. Let me ask you this: If you took that sample early on in the process so it was hot, how close could you get to it and how long could you be near it?
KNIGHT: All right. For the real hot samples in the laboratory, we had a breakdown facility ‑‑‑ I say breakdown; actually, a dilution-type facility ‑‑‑ and it was called the Rube Goldberg, where we actually set the doorstop in behind this leaded shield window, and then we had a remote pipetter that we put a fresh pipette in, and then we would open the doorstop, and just turn it. It was on a swivel, and we’d turn it, put the pipette down into the doorstop sampler that contained the real hot stuff, and then we had a 10 ml flask units that we used to set in adjacent to that prior to opening everything up. You got everything in position before you opened the doorstop. And then you would take a minute amount, like 100 ml, of this half ‑‑‑ we had ½ ml to begin with, and then we would take 100 lambda of that and dilute it in this 10 ml vial that was almost already full of solution. And then after we done that, then we would close the doorstops and take these small vials and then dilute them to a calibrated mark so that we could make back calculations as to what volumes we were working with.
WEISSKOPF: Right. Okay.
KNIGHT: So this was very, very important that all, when you pipette it out of the doorstop, you pipette it up to a given line on the ‑‑‑
TAPE RAN OUT
KNIGHT: ‑‑‑ to get it right on the ‑‑‑ get the meniscus right on the mark, and then transfer that into the 10 ml flask. And that was the way we worked the hot ones. That was quite routine, and it became ‑‑‑ people became very and highly proficient in doing these operations, and without getting themselves into any kind of an exposure problem.
WEISSKOPF: And when you took a sample, was the process basically stopped at that point before they would transfer the materials on to the next step?
KNIGHT: No, no, they always waited for the results to come back before the material was moved to the next step.
WEISSKOPF: It was. So the process would be held up while you guys were doing your work.
KNIGHT: That’s correct.
WEISSKOPF: And what was the pressure for you guys to get it right if for some reason you didn’t find the numbers the way you wanted?
KNIGHT: Well, they had pretty good time frames as to how long it would take the laboratory to make an analysis for them. And the only time that they really got outstandingly pushy against the laboratory was when we would have a result that they didn’t felt met the criteria for the batch that they were moving. And if that be the case, then they’d call for a re-sample, and that meant the samplers had to come back, run over and take a sample out of the canyon, rush it over to us, and that was put on what we called the rush category, and that had to be done immediately.
WEISSKOPF: How long would that take, do you think? If you got the word that you needed a new sample until you actually had the sample in hand, would it be minutes, or an hour, or...?
KNIGHT: Well, they could have a sample to us in 30 minutes. And in most cases that would always be the situation. However, if they were going to be working in another cell in the process, like a leak or something like this, why, they would have, if they were going to have a cell block off, they normally did not let anybody in on deck when that was happening. So they would have to put a cover block back on before they could do that, and that would take ‑‑‑ by the time that they knew that they had to take a sample, they’d already told the crane operator that they had to close up because they had to take a sample.
WEISSKOPF: Okay. And the crane operator was theoretically the only one in the canyon while things were going on?
KNIGHT: That’s correct. And he was behind a shielded parapet wall. And from his position in the crane cab, which was behind that parapet wall, then he was in a solid steel cube. Actually, I say solid steel cube, it was a cube with an operational area in it that was heavy 8-inch steel all the way around him. And then we had modified Navy periscopes, the same type that they used on the submarines, that had been modified so that they could project on a horizontal plane out, and the magnifying heads could be rotated to give him views down the canyon or straight down. And it had a three-power configuration where he could change his magnification when he was up above looking and moving, and then go down closer. And then when the cell block was off, actually get right down to where he was seeing in the cell with very good visibility.
WEISSKOPF: Where were the lights for looking down into a cell?
KNIGHT: They had lights on the crane itself.
WEISSKOPF: That would shine straight down?
KNIGHT: That’s right. As well as ceiling lights in the canyon. But the crane operators always used, naturally, the lights on the crane because they were a high intensity spotlight type thing. And they had four or five on each side of the bridge, as I remember, and they’d shine straight down so that his work areas were highly lit and visible.
WEISSKOPF: If the crane operator was doing his job right, everything went, if something went wrong, there wasn’t anybody on the canyon floor to correct what he was doing or to make it easier. An awful lot of it fell on his shoulders.
KNIGHT: That’s correct. And if it was a really touchy job that he had to do, why, it was a very common practice that someone from the operations building would actually go up and ride with him when he was doing that particular job.
WEISSKOPF: Okay.
KNIGHT: And that’s what I was going to say, that having had experience, some experience over the years of going out and working at the 100 B Reactor, for example, on a special project, and having been transferred out of the laboratory into the operations side of the business, and having worked in the tank farm operations over the years, why, it makes it pretty easy for me to talk about these things, Gene. Because when you’ve worked in all the different places, then you really can focus and get a good idea of all of the outcroppings and the work that went on.
WEISSKOPF: Okay. You’ve seen the whole picture.
KNIGHT: It kind of gives you the big picture, yes. That doesn’t make me an expert, say, in the 100 areas nor in the processing facilities, because we had people that ‑‑‑ well, we had the working groups available in the various facilities, such as the chemists were working, and most of them would work in laboratories, chemical engineering personnel in the facilities, and then we always had the process chemistry group, which were all the high technical process engineering ‑‑‑ or chemical engineering type people that were always constantly looking at what was going on in the process and tell you what adjustments had to be made to get us to where we wanted to be. So it was well-controlled and well-orchestrated in the way that they done business, even from the very beginning. And that was one of the reasons that the DuPont Company was chosen, I’m sure, because of their background in chemistry and their dedicated records, or track record I should say, for doing good work and working with explosives and various types of energy that way.
WEISSKOPF: Right. And DuPont was still at Hanford when you came, right?
KNIGHT: Yes, indeed.
WEISSKOPF: Until almost the end of ‘46?
KNIGHT: That’s correct. They left in ‑‑‑ well, they made the transition to General Electric Company in September of ‘46. And then they stayed available on an advisory capacity in high echelon positions until General Electric had settled in and had full control.
WEISSKOPF: How quickly after you got there did your job all of a sudden change, or did they shift you around?
KNIGHT: It was pretty much on an individual’s abilities and capabilities versus the availability of new jobs, different places. And, of course, we have to bear in mind that a number of things were taking place. There was more demands for not only plutonium, but we started having people in the high forehead area, I’m going to say, that were already looking at possibilities for utilizing some of the other radioisotope materials that we were discovering. There was constant research going on in a number of the colleges around the country that were included in the program, Berkeley being one. And those people were getting actual samples of some of our materials, and they were also doing a lot of research, and development was just coming and going as fast as you could ever want it. So at that stage it was pretty tough to really get totally on board as to what was happening because so much and so many things were happening simultaneously. But it was all going, and it was really exciting because you knew, you could just sense the high intensity of things that were happening. And I’ve often said that I hated to go home from work in the afternoons, and I couldn’t wait till I got there the next morning.
WEISSKOPF: Wow.
KNIGHT: It was really great. And, of course, that continued to energize and grow into what I call the Fabulous Fifties, when they radioisotope business became high reality, and separations were actually starting to separate specific isotopes that they found would have a need in the public markets for various things, up to and including the treatment of cancers that we’re still using today.
WEISSKOPF: And I guess the prospects for nuclear energy itself were pretty darn high at that point.
KNIGHT: Extremely high. And, Gene, I have to say that we did not get off on the right foot with nuclear energy because it started out as a war born thing and initially was classified to have a 20-year life expectancy. And it was looked upon, every time you say anything about nuclear energy, the first thing they see is the big mushroom cloud, and the aspects of a war developed industry that was strictly to win a war. And that was so true at the time. But after we were into the thing for a while, then it became highly apparent that there was a lot of good things to come out of the system for the benefits of humanity. But it became a very difficult sell, because people had already been ‑‑‑ I won’t say poisoned in their minds, but had already been predestined to make decisions on the basis of it was a war type material and that’s all it was good for. And it’s a shame, because we know that we had ‑‑‑ well, I’ll cite the space program, NASA’s programs. In the early stages it was not too difficult for them to shoot a man up in the air and bring him back to earth in a short durational thing. But then they started extending their time in space, and they had to go to highly energized systems because everything was battery operated then, and they were using solar power to regenerate the batteries. And after we got up and starting orbiting, why, they got into some real close problems of not being able to bring personnel back, because when they got on the back side of the planet, the moon, this sort of thing, why, they were in the dark side, and they couldn’t solar energize batteries. And we were very close on a couple of occasions on return trips. And so during that phase, why, some generators were made, and Hanford played a major role in it, the Battelle Industries did, on building what we called snap generators. And they were used in space and still are, to my knowledge. So there were benefits in that light. And, again, from a medicinal standpoint, there were those benefits. And I guess the person that said it the very best in my book was Dixie Lee Ray, the administrator for the Atomic Energy Commission, and she stood before Congress and told them that the things that we were developing and using in the nuclear industry were no different than when things were developed such as electricity and people were injured and killed by misuses of electricity, but then we finally got it to where everybody now can walk into a room and flip a little switch and we have no problems with it. And I thought that that was an outstanding way to present something like that. And she said just think what it’s given the individual, the working class people in this world, when back in the days of the pharaohs with all of their money and magnificence, they did not have that type of control and services. And she felt that the nuclear industry was well on the road to getting us into that same category. And, to me, that just opened a whole new way of life for everybody, and I think that it still has that opportunity, and someday we’ll regret the fact that we’ve been so emphatic and vicious in shutting down our systems in this country.
WEISSKOPF: Yeah, okay. To me, it’s like the discovery was made and it will always be there now.
KNIGHT: That’s correct.
WEISSKOPF: How we utilize it and what ways we put it to use.
KNIGHT: And we’ve already demonstrated that under proper control and constantly upgraded maintenance programs, why, the systems work well to supply high energy needs. And unless I need to say too much more, Gene, I’m going to say that in my book, from what I know about the wars in history and our current wars and positions, that nations that have had energy and utilized their energies in proper perspective, were always people that were respected and controlled, or had controls, I’ll say. And as we continue to reduce our ability to have energies and be in control positions puts us in jeopardy, and I feel that very strongly.
WEISSKOPF: Interesting. That’s very good. To have a perspective on that whole career that you had really, to me, it makes me realize that you were excited about it. It was something brand new, it was totally undeveloped, and you got to see it start from almost nothing to a thousand different industries branching out of it. It’s really great.
KNIGHT: And I think that that was one of the reasons that I enjoyed, even after retirement, of staying and helping whenever I could. And I still feel very strongly that the industry still has its place and someday will probably utilize it a little bit better than we have.
WEISSKOPF: Yeah. You never worked in the private sector?
KNIGHT: I never have worked in the private sector.
WEISSKOPF: Was it always within the confines of Hanford?
KNIGHT: Yes, indeed.
WEISSKOPF: Okay. You didn’t travel around the country doing ‑‑‑
KNIGHT: Did not.
WEISSKOPF: ‑‑‑ what other people did?
KNIGHT: Oh, on a couple of occasions I did, Gene. But it was only because we had a specific interest in a given type function, such as ‑‑‑ and I’ll mention one. We were very interested in reducing waste volumes at Hanford, and the best way to do that would be to size the waste that you were going to put into boxes to be buried into the ground. And we were looking at setting up a sizing operation of our own in the plutonium finishing plant, and one of the other companies in the nation that was at that time at Rocky Flats in Colorado had let us know that they were already doing some sizing type work. And a couple of us were sent down to look at it. I say a couple. There was a number of trips made. And then from a health physics standpoint, because I was in health physics at the time, they sent people like myself and Bernie Sariffic (phonetic) down, and we made an observation as to what they were doing and whether it was compatible with the way we like to do business at Hanford. And it turned out that we had already put our oar in the water, so to speak, and the program that we had outlined for Hanford was going to be superior to the program that they had at Rocky Flats. So it was things like that that were also very interesting.
WEISSKOPF: Have you ever seen any of the fuel processing facilities in Europe, or where they use them for part of their normal commercial stream?
KNIGHT: Only from information and documentation that I had looked at here. Now, I did make a trip to Belgium in 1993, strictly a private type thing on the request of one of my sons-in-law to go with him, because he was looking at starting another little business of his own, importing pigeon feeds, because he’s a pigeon racer.
WEISSKOPF: And while you were there...
KNIGHT: So we got a chance to look around a little bit. And at that time Belgium had one reactor in service, and was just bringing on the second, and had already started the process of building their third, which would have put them at 100% nuclear utilization. And, of course, then interest in other countries. The French, for example, were getting up into the area of about 70%.
WEISSKOPF: These people have to deal, then, with fuel reprocessing and all the associated chemistry.
KNIGHT: Exactly.
WEISSKOPF: And it would be interesting, I guess, to see how they’re doing that.
KNIGHT: Well, it certainly would be, because I know that we’re getting ‑‑‑ and I refer to it as constipated, because we’re not reprocessing any fuels now, and all of our power reactor people are having problems with backup storage of their spent fuel, and that’s going to catch up to us. As a matter of fact, it’s become a very, very real problem at this time.
WEISSKOPF: Yeah. But in your experience, it would have been a really straightforward step up from what you were doing with separations to dealing with the commercial power plants around the country to reprocess their fuel?
KNIGHT: That’s correct. But we had already made the studies, Gene, and had that information available. As a matter of fact, we had already started making some equipment conversions in the PUREX plant to accommodate commercial fuel reprocessing.
WEISSKOPF: Okay.
KNIGHT: And that’s all on record.
WEISSKOPF: And I guess some of the down sides of that are you have to transport it around the country.
KNIGHT: That’s true. But we’re still transporting wastes around the country.
WEISSKOPF: Right.
KNIGHT: And I think that will continue. As a matter of fact, I sat in on a very interesting discussion in Yakima here probably eight or nine years ago now, where they had people convinced here in Yakima that we should just absolutely refuse to let them truck any wastes through Yakima or any that fly over in Yakima. And during the course of the discussion, from inputs from people like myself and others, why, it became highly apparent that, hey, if you do that, you have to remember that you’re going to shut your hospitals down, you’re not going to be able to have the x-ray equipment calibrated from time to time like we have to do to make sure that it’s within bounds. And all of a sudden they said uh-oh, okay, maybe we’re trying to get the cart before the horse. And I think all too frequently we do that.
WEISSKOPF: Yeah.
KNIGHT: And it’s an understandable thing, especially when we’ve had such a tremendous training program where everything nuclear was war oriented.
WEISSKOPF: Right.
KNIGHT: It’s going to take a long time to phase out of that, and I think we’re eventually getting there. People are a little bit more friendly towards nuclear industry, and they’re seeing that we’re still building new cancer clinics everywhere and using isotopes to treat those people in dire need. And I think that we’ve got to really look at everything with a good strong sense of realism, that hey, go back with what I originally said about Dixie Lee Ray saying that we injured people when we first introduced electricity, and she also made mention of the fact that we’ve done the same thing with gasoline, another form of energy that we all use today.
WEISSKOPF: Right.
KNIGHT: We use very carelessly at this stage in our lives, in many cases.
WEISSKOPF: Oh, yeah. There was a time when we were running out of gasoline. Somehow or other we’re not running out of it anymore.
KNIGHT: It’s very strange.
WEISSKOPF: Yeah.
KNIGHT: Well, we’re buying now a lot of our oils and products from other countries, too, and this is another one of those areas that gives me concern is that we’re putting ourselves on the table and being dependent on everybody else rather than depending on ourselves again.
WEISSKOPF: Yeah.
KNIGHT: Especially in the forms of energies.
WEISSKOPF: Hey, it’s been about an hour, and I maybe want to let you go before we drain you completely for this period of time.
KNIGHT: I really appreciated the opportunity, Gene, and it’s a real pleasure.
WEISSKOPF: Me very much so also. It’s great that you feel comfortable about remembering it. That in itself is a feat, I think, for all the experiences that you had over many years. It’s just great to have you laying it out like cards on a table. Would it be okay if I come up with specific questions for you that we do it again?
KNIGHT: Absolutely. Absolutely. Anytime, Gene.
WEISSKOPF: All right. Well, thank you very much, Russ.
[end]
Video Interview of Roger Hultgren
November 26, 1999
at Battelle’s EMSL Auditorium
Interviewed by Gene Weisskopf, BRMA
Videotaped by Nick Nanni, Battelle
HULTGREN: ...company actually notified many of the colleges and universities throughout the United States that they needed chemists and physicists to support their war program at the time. And, actually, when I was a junior, I was interviewed by the head of the DuPont ‑‑‑ what department would you call that? He was looking for ‑‑‑ he was looking for chemists, it was that simple, for their high explosive division, chemists. Well, that was my junior year in college and we weren’t ‑‑‑ I wasn’t old enough to get into the war, and nothing precipitated it at the time. But all of a sudden, in the spring I guess, late, the first of 1942, the call came on that they wanted to interview us, so I was one of the people interviewed. And lo and behold, after the interview we had, I received a letter from this DuPont company, Dr. Styles is his name, S-t-y-l-e-s. He said “We’re offering you a job as a chemist in the high explosive division, and we’d like to have you report as soon as possible after you graduate at Kankakee Ordinance Works,” which is just out of Joliet, which is just out of Chicago, south of Chicago. So that was my beginning, getting into that field. That was the high explosive field.
WEISSKOPF: DuPont, what was their slogan about chemistry?
HULTGREN: They had three famous words: Better things through better ‑‑‑ well, that was one of it, but they had three words: Safety, quality and quantity were the three mottos for working.
WEISSKOPF: Yeah.
HULTGREN: But the other motto, which we’ve heard on the radio, was “Better things through...” what is that? I’ve kind of forgotten now.
WEISSKOPF: They shortened it recently to “Better things through chemistry.” “Better living”?
HULTGREN: Right, “Better living through...” well, you can ‑‑‑ I have forgotten it.
WEISSKOPF: Yeah.
HULTGREN: But that’s ‑‑‑ they had the two slogans, but thinking of the three words that actually governed all of the things you worked for in the laboratories. First of all, there was no question in the mind that safety was their number one thing. You didn’t work if you weren’t safe. There were a lot of fellows that I knew or heard about that just were careless, and they just lost their jobs. Safety, quality and quantity. Quality was everything they did. Of course, when you’re working with high explosives and things, if you weren’t safe, you’d go along with it. So it was ‑‑‑
WEISSKOPF: So this was in early summer of ‘42, after graduation?
HULTGREN: I graduated in June of ‘42. In the same month I was in Joliet, Illinois at the Kankakee Ordinance Works in the high explosive division, and I stayed in that until approximately ‑‑‑ it was in June of ‑‑‑ early in ‘44, is the next thing. Did you want to know about the high explosives we worked with?
WEISSKOPF: Sure, a little bit, yeah. Was it fun to be a chemist there?
HULTGREN: Yes, it was a lot of fun, and it was a tremendous undertaking because safety was so paramount. You’re working with very concentrated acids, sulfuric acid, and you talk about oleum, which is 100% sulfuric acid, and nitric acid, all strengths of it, from dilute to concentrated nitric acid. You had ‑‑‑ these were very, very involved in all of the explosives. TNT, trinitrotoluene, was the TNT that was used primarily in your explosives, high explosives, different amounts of it. I worked in ‑‑‑ when you started to work on these chemicals, we were put through a training school, and I remember I think for six months, every single day, we went to a training school along with working. It’s like we’re in here today, if you and I were working with this gentleman that’s taking the taping here, he was watching us. And if we were doing something that wasn’t right, there was a ‑‑‑ you had a guardian, is what it amounted to, and if you didn’t ‑‑‑ for example, working around strong acids, you had to wear all wool clothing, because if you had a drop of sulfuric acid or something on you, it would just burn a hole right like that. And if you didn’t have heavy wool on, it would burn right through and get a terrible burn. But it was the heavy shirt, long-sleeved shirt, you wore gloves and things that pertained to that.
WEISSKOPF: Were you doing quality assurance, or research, or what?
HULTGREN: We were doing primarily quality, because we worked right with the production people. For example, typical on this TNT, there was operating people that started with the basic ingredient chemicals, and when they got down to a certain point, we would have to go out and take a sample of that product at that point, bring it back into the lab and analyze it. And it had certain specifications. Typically, on TNT, it had a ‑‑‑ actually, it had ‑‑‑ you started out with trinitrotoluene, you go along, and when you get to the final point, it’s hot, in a molten solution, and it goes over a drum that’s rotating that’s got cold water inside. And it’s just like soap chips, you had a scaler. As it turned over, the cold ‑‑‑ the hot molten would hit the cold drum and it would form just like thin soap chips, and they were scraped off and you would catch them.
WEISSKOPF: Was it explosive at that point?
HULTGREN: Could be, if it wasn’t the right percentage. And that’s the other thing, it would be caught into a box, similar to a cardboard box like you can see here.
WEISSKOPF: Uh-huh.
HULTGREN: We would take a sample of that back to the lab, put it in a heating device and put it back in solution. We’d stir it. All the time we’d have a temperature thermometer in it. And the freezing point was 80-point something, 80.1 to 80.6E centigrade. If it was outside of that, that whole batch of TNT would have to be recycled, and they would put it back into the processing in incremental amounts so that the next time it came through it could meet the specs. It was very precise. And that was a typical chemist.
For example, I’ll give you one example that we had in this laboratory, there was just like two halves of it, about twice the size of this room we’re in now. One half was what they called the powder side, the other side was the acid side. And there were two chemists there. And we would ‑‑‑ I know we were working ‑‑‑ we’d work a week, and then we’d switch. All of the dry chemicals, one chemist would work on them, and the other one the wet side. That was ‑‑‑
WEISSKOPF: You were pretty experienced. In that first year, you got a lot of experience.
HULTGREN: Oh, very much so. Tremendous experience. And we had constant meetings. The DuPont company, their big laboratory was called Eastern Laboratories, which was in Wilmington, Delaware, and they ‑‑‑ well, it was a pleasure working with the company, because they were so safety conscious, and we had ‑‑‑ they were brilliant people.
WEISSKOPF: So you were a DuPont employee ‑‑‑
HULTGREN: Yes.
WEISSKOPF: ‑‑‑ in the summer of ‘44. And how did they call you up ‑‑‑
HULTGREN: ‘42.
WEISSKOPF: But when you jump ahead to ‑‑‑ you said summer of ‘44 is when they called you up for Hanford.
HULTGREN: Yes, but it was all DuPont.
WEISSKOPF: Yeah. So how did they talk to you about coming out to Hanford?
HULTGREN: Well, just like we’re sitting here, and all of a sudden, I was working the lab, and the actual head of the ‑‑‑ well, he was a chemical engineer, Bob Smith, he came and said he wanted to ‑‑‑ he told my boss he’d like to have Roger Hultgren come up to the engineering building. There was a lab building out in this particular area. When I got there, there was a Roger Rohrbacher, who I went to college with, I think was at the meeting, but there was probably eight or ten of us there. And the bottom line was that seven of us actually were actually transferred to the Manhattan Project. It was that simple.
WEISSKOPF: Did they tell you why they were sending you, or that was top secret?
HULTGREN: It was top secret, but it was the Manhattan Project, and you would be going to the state of Washington. And we knew that much. But it was funny how the rumblings went on when we got out here, because you were ‑‑‑ in the group that I was in, we had I think almost ‑‑‑ DuPont was very Ivy League oriented. My first buddy out there was a fellow named ‑‑‑ had gone to Princeton, he was a chemical engineer, and we worked together in this acid laboratory. But they were just as common here, supervision didn’t flaunt anything. They were right there, they were so interested. Of course, I suppose the times dictated tremendous too, but safety was so important, and top secret. Absolutely top secret.
WEISSKOPF: How much did they tell you at that meeting?
HULTGREN: Out here?
WEISSKOPF: No, back there, with Roger Rohrbacher?
HULTGREN: When we came out to here?
WEISSKOPF: Yeah, before that.
HULTGREN: Really, nothing.
WEISSKOPF: They didn’t tell you much.
HULTGREN: As far as the Manhattan Project, no.
WEISSKOPF: Did they mention the word Manhattan Project?
HULTGREN: Yes. Yes, I think that was the Manhattan ‑‑‑ we surmised. It was ‑‑‑ I’ve kind of forgotten about that, but...
WEISSKOPF: Did they give you an option of coming out here? How did they present it?
HULTGREN: I don’t think ‑‑‑ nobody wanted to not be involved anyway. I don’t know of anybody that didn’t want to go. It was sort of nostalgia, it was sort of when you’re just into your twenties. Nobody was married. Everybody was all single. But, actually, I should say one thing, that when I was a junior in college, the government sponsored this civilian pilot training. And most of the universities and colleges were involved in it. Well, in the Twin City area there was about four schools there. There was the University of Minnesota, and there was Macalester, and there was St. Thomas. Several schools. And I think there were 12 of us that you had to have ‑‑‑ you were asked if you would ‑‑‑ you had to have ‑‑‑ for flying, most of the guys that were involved, we thought we were going in the service at that point in time, because that was the junior year, and it was sponsored by the army, air force. In fact, our instructor we had there, they were both back on some ‑‑‑ they had been in the ‑‑‑ whether they were actually on R&R, I don’t know, but they actually were our instructors, and we had ‑‑‑ we flew about three times a week for several months.
WEISSKOPF: Did you end up getting, what, a pilot’s license?
HULTGREN: Yes. I had everything. And I just knew, in fact we all knew that we were going to go in the air force. Well, that’s when DuPont ‑‑‑ see, that same, in the fall, that same fall we had interviewed as juniors with this DuPont ‑‑‑ because Dr. Styles had came through the area, the Twin Cities. In fact, I know everybody met, not together, but everybody went to these interviews at the Nicollet Hotel, which was the big one in Minneapolis.
WEISSKOPF: So when you came out here, you had your pilot’s license.
HULTGREN: I had my pilot’s license. Which I think, Gene, we’ve talked about, sort of predicated my first directional flow out here.
WEISSKOPF: Which was within days of getting here?
HULTGREN: No. But once I got here, first of all, your academic end of it, you had ‑‑‑ this was the chemistry and the physics background. But the other thing was, the head of the department that I went into, Bob Smith was the chem engineer that actually headed up our group from Kankakee, and we were turned over to this Dr. Gil Church, who had this meteorological group. He was a professor out of the University of Washington. But one of the things was, I had this chemistry and physics background, but I also had a private license, flying license. And I know that that had a lot to do with it, because when we ‑‑‑ there were seven of us who went into this meteorological group to start with. That was in the 200 East Area. And we had a building about, let’s say about maybe two and a half times the size of this room as a sort of a get-together talk about it. And that’s where we had, if you can think back at the ‑‑‑ every one of the 200 areas had these big stacks, 200-foot tall stacks. Well, at the time, in the summer, this is in April of ‘44, all there was was a hole in the ground where the plant was being built.
WEISSKOPF: Was that T Plant?
HULTGREN: That was T Plant. It was started up. They had the hole, and you could see a lot of the superstructure involved in those photos we looked at over there. But they also had ‑‑‑ there was a steam generator sitting out there when we first arrived up. And I think it was probably after our little indoctrination in this group. Bob Smith talked to us to start with. Then this Dr. Gil Church came along. And I should say something about this Church. He was about as common as an old shoe. Really. He was in oceanography. He had been ‑‑‑ he had about three Ph.D’s. Anyway, he was brilliant as could be. But he never flaunted anything. He was just so common, and he said “Boys,” he says, “what we’re doing is very serious, but we’re going to have fun doing it.” And I know one thing, too, that he introduced us to, this pilot that was working with us. I can’t think of his name now, but he had been with ‑‑‑ he was an R&R. He had been shot down. Who was it? Doolittle? Who had the big ‑‑‑ over the hump, they called it, in Asia. We had something going on over there. Americans. But he had been shot down or wounded, and he was ‑‑‑ some of those pilots were assisting the government, and this person was in the group. And he said “Well, I see, Roger, you’ve got a private license,” or a flying license. He said “Boy, that’s going to be great, because you can go with so-and-so.” He was a captain in the army. He didn’t even dress as a ‑‑‑ just regular civilian clothing. But what happened, this was all predicated for the dissolution of this metal that we’re talking about.
WEISSKOPF: Why don’t you explain that real briefly, what was going to be happening later on that you needed tests for.
HULTGREN: Well, for example, actually, it sort of ‑‑‑ it goes both ways, because they knew that the process was going to be a bismuth phosphate process.
WEISSKOPF: For doing what?
HULTGREN: This was for recovering plutonium.
WEISSKOPF: From...?
HULTGREN: From the uranium. But the point was that in order to do it safely, and they also knew that when you dissolved uranium with nitric acid, you liberated iodine. And they also knew in those days, it didn’t just happen then, that iodine was affecting the lungs. And I think we all know that it was a malignant type thing. So the key there was to actually, if you were to dissolve the metal, if you’ve ever been around when they were dissolving nitric acid, heavy acid, you’ve got these heavy fumes, it’s almost blood red. Well, if you didn’t dilute those to some degree, you have a very bad situation. So consequently the dissolution that went on had to meet certain criteria. It had to be ‑‑‑ the weather was so important. If there was a storm, turbulent, you couldn’t dissolve the metal because it was just almost ‑‑‑ if you’ve ever watched ‑‑‑ ever down ‑‑‑ yesterday, for example, we were at the Walla Walla, and you went down past the pulp plant down there at ‑‑‑
WEISSKOPF: Wallula?
HULTGREN: Wallula. You watch that smoke, it’s just up and down and around, and the wind will cause it. Well, picture the same thing, if this dissolved metal going out, the fumes. Okay, that’s a no-no. They knew that. They didn’t want it getting down on the ground. So what happened was that that’s where the airplane came in. And I know ‑‑‑ I didn’t know a thing about it, but the first day this ‑‑‑ who was it? ‑‑‑ I don’t even think it was Church. It was Church. He said “Well, you’re going to meet with so-and-so over in the building.” It was a shack, is what it was. And the pilot was there, and they had an airplane, they had a landing strip which was just between ‑‑‑ south of T Plant today. There was a flat strip in there, and they had this ‑‑‑ it was just a ‑‑‑ let’s see, what was it? If you’re familiar with this single wing plane, it was Aeronca, about a 75 horsepower, but it was all hooked up with suction cups, and you had the instruments in there to do it. Well, I went with him out. So the next thing I knew, he says “Well, get a chute on and let’s go.”
WEISSKOPF: You had to get a chute on?
HULTGREN: Well, we all had to wear chutes, you know.
WEISSKOPF: Yeah.
HULTGREN: But I didn’t know anything at the time what we’d be doing. So we just took a ride, and he says “Well, take over.” He said “What did you learn in college?” Well, we went through Hell, I’ll tell you that, when we were in college.
WEISSKOPF: The flying?
HULTGREN: The instructors we had, that was for real. And I’ll tell you what, they took you up, and they washed out, if your health wasn’t, and you couldn’t actually stand ‑‑‑ your blood pressure got up, if you had problems one way or the other, there was a lot of the guys that got knocked out. Anyway, that same thing existed here, so we ‑‑‑ actually, we had our joyride, and he found out, he said “Give me a stall.” I said “Okay.” What he would do, the plane we had was a two-seater tandem. He sat in front of you. And he was a big guy. I’m a pretty good size, too. But let’s take ‑‑‑ I’ve forgotten your name.
NICK NANNI: Nick.
HULTGREN: Nick. Let’s assume Nick and I. The guy was about as big as Nick, a little taller, and I’m sitting right behind him.
WEISSKOPF: As the pilot?
HULTGREN: No. I was the pilot, but he was sitting in front. Now, you look around, and you want to fly by dead reckoning, not instrumentation. You’re looking around, and he’s sitting up there. Well, he did it on purpose, of course, to see if ‑‑‑ and the controls.
WEISSKOPF: Disorient you a little.
HULTGREN: Going into slips and stalls, and coming in on dead stick, and I guess he found out that I could fly. But anyway, we had a lot of tremendous rides. Every time they’d send this smoke ‑‑‑
WEISSKOPF: Describe how they got the smoke up for you guys to (inaudible).
HULTGREN: Okay. They had distillate in these big 500-gallon tanks, and they were jetted into the bottom of the stack. And when it would go up, it would go out just like a plume, a big white plume, and it would take out. And the thing that ‑‑‑ we wanted to sample that plume. We sampled, got right in it, and we had a sucker on the plane. It was humidity, hygrometers, and all these things, I know the first things I did up there was wet-bulbing it, and this hygrometer, familiarization with it, and where do you go when you’ve got a plume coming out. Well, it turned out I never actually did it alone, but it gave him ‑‑‑ they were concerned about an emergency thing, too, with a pilot, because it was ‑‑‑ we flew from 200 West area, T Plant, we’d go up as far as Vantage, up along the Columbia River. A lot of thermals through there.
WEISSKOPF: Following the plume?
HULTGREN: Following the plume. But the main thing is to ‑‑‑ you had a big sucker out there, and you could suck it in onto some what looked like big filter paper, and you could analyze it. Well, it turned out that if it loosened, and that was translated back through the laboratories that you could have a certain dilution condition for dissolving the metal.
WEISSKOPF: They were trying to come up with the type of weather in which you could sample?
HULTGREN: Right. Absolutely. And if the weather was bad, there was also samples taken by the ground crew, which I was on, too. But a lot of times the plume would come out of the stack and go out maybe a block, and all of a sudden it would dip down right to the ground. Well, what happened was we had two of these big four-wheel Dodge Command trucks, and we had all sample equipment in there, and I got involved in that end of it, too. But it would go out and get right in the middle of it, and we’d suck in that concentration, and that was all translated back. And believe it or not, and I know this is the truth, that the dilution data which was obtained during that early ‘44 period, or the summer and fall, was actually legitimate enough for the REDOX plants and for PUREX, when they finally shut down. Now, I was involved in all of those plants. But PUREX started up the second time, as you probably know, in the ‘80s, and actually the dilution data, limitations for it, you did not dissolve unless you had a certain dilution factor.
WEISSKOPF: And those factors were already mapped out (inaudible).
HULTGREN: That’s right. We had ‑‑‑ mention this, too. I don’t want to delve on it, but we had two statisticians that worked with us, Herb Poss (phonetic) and a Johnny Gilotte (phonetic) were the two of them. They’re listed in Sanger, and I think they’re also listed in the Smythe ‑‑‑ not Smythe, but the Sanger Report. They were both with DuPont. Gilotte, he had a doctorate degree in statistics. And they actually did all of the factoring in for these dilutions. They calculated ‑‑‑ my god, there was unbelievable. And this Herb Poss was actually a statistician, but he was also a pharmacist. He went to Marquette. And he was ‑‑‑ he worked in the drugstores in Richland as a second job. We didn’t make any money. But, anyway, that was Herb. So that kind of was the ‑‑‑
WEISSKOPF: Let’s switch gears a bit. While you were doing all this, did you understand what was going to be coming out of the smokestack?
HULTGREN: Yes.
WEISSKOPF: How much did you know about the process?
HULTGREN: Well, the point is that we knew that plutonium was going to be the primary ingredient here.
WEISSKOPF: You did. Okay.
HULTGREN: That was known. In fact, you mentioned Fermi. Enrico Fermi. You probably heard his nickname. What was it?
WEISSKOPF: You tell us.
HULTGREN: You tell us.
WEISSKOPF: You’re the one being interviewed. What do you mean by nickname? Tell us that whole (inaudible).
HULTGREN: Well, Enrico Fermi was the inventor, I think, of plutonium. Wasn’t the inventor, reactor. And actually he put this together. But Mr. Farmer was the nickname that was used, code name, around the plant. Have any of you met Dr. ‑‑‑ in Richland, I’ll think of his name in a minute. Aghh. But he looks very much like him. Short, bald-headed fellow.
WEISSKOPF: What was your interaction with Mr. Farmer?
HULTGREN: Well, the point with Mr. Farmer was that he actually worked ‑‑‑ everybody in our group, I think there was nine of us altogether. Seven were in the area to start with, and then we had the two statisticians. But that whole group went from the dilution portion of it, and then the next job was sort of ‑‑‑ [Tape ran out]
Well, that was in the 300 area, concurrent with all the dilution end of it, they were also taking the cold uranium, which is machined, cleaned up, and canned. They were using mechanical equipment.
WEISSKOPF: Why did they have to can the uranium?
HULTGREN: Because you cannot have uranium get water to it.
WEISSKOPF: Okay. It reacts?
HULTGREN: It reacts, and it won’t bond properly. And you had to get a bonding agent. That’s kind of a little different story leading up to it.
WEISSKOPF: The can was to seal in ‑‑‑
HULTGREN: What you had was a uranium slug, cold uranium slug.
WEISSKOPF: What size was it?
HULTGREN: Eight inches long and an inch and a quarter in diameter. It had been machined. It almost looked like you had little rivulets all the way through it. And I watched this several times. They would bring it into this 324 building down in the 300 area, and it was wrapped in a ‑‑‑ just like you look at a paper towel. And it would get on a bench, and the first thing it would go through is an alcohol bath. It would be washed in there. It had a mechanical washer. And then it would progress down the line, and they kept it hermetically sealed after it was washed.
WEISSKOPF: Because air would (inaudible).
HULTGREN: Oxidize it. The next thing was that the people that were ‑‑‑ if you look out here just in your auditorium, there was automatic lines that were run by machines, and they were on clocks, where actually it would start this progress of canning the uranium, and it would go down through automatically. Well, the bad thing was that it was just like taking your pen right there and put it in the first ‑‑‑ they had a bronze type bath, almost like in a washtub, that had heating rods in it, and the temperature was I’ll say about 1000EF. And the next one was an aluminum bath. And then you had an actual unit that actually sealed them. Well, this ‑‑‑ you’d heat up the slug to a certain temperature of that bath. It was moved from there mechanically to the next one. And then it would go where a person ‑‑‑ they had this ‑‑‑ picture this holder, but which is large enough in diameter to accept a one-inch diameter slug with a little O.D., enough annulus around it. So that was filled with ‑‑‑ you took this canister, this aluminum canister that was put kind of in a cradle. It was dipped in this aluminum bath and set in what they called a whiz-bang. It was just a pedestal here with a plunger that would hold this aluminum canister, with a plunger, they would drive the uranium into it. Well, what happened, that whole thing was fine, but they were getting ‑‑‑ in that Smythe Report, I was just looking at it here the other day ‑‑‑ they were getting about 10% success. What happened was that the temperature was such that, the eutectic of it, that it just had to be perfect or it would just seize like that. And it was fun, I remember they would call us when we were getting in this experimental line we were to be working on, because everything ‑‑‑ it’s so ‑‑‑ it was absolutely, aside from the laboratory end of it, and I was telling you this here I think once before, General Groves came out here, Dr. Smythe was here, who wrote the Smythe Report, and they came into this 324. But Groves, I remember that distinctly, coming, they were watching. Well, that was the time when they were getting about 10 to 15% good ones.
WEISSKOPF: This was in the summer of ‘44?
HULTGREN: This was in about July of ‘44.
WEISSKOPF: Okay.
HULTGREN: And they were expecting to have the reactor ready for loading in September, and they just weren’t going to have enough metal to do it. Well, it was just terrible, and it’s just awful, really, because the war was ‑‑‑ well, it was just awful.
WEISSKOPF: Without being able to cam them, the reactors wouldn’t have started?
HULTGREN: No. They were building the ‑‑‑ B Reactor was ‑‑‑ T and B and D were the first three.
WEISSKOPF: B, D and F.
HULTGREN: No, T was the first one.
WEISSKOPF: T Plant?
HULTGREN: Yes, T Plant.
WEISSKOPF: Oh, it was first of the separations plants.
HULTGREN: I’m talking ‑‑‑ oh, excuse me, all right. Reactors. Yeah, B, D. I’m talking about separation plants. But the reactors, B was the first reactor.
WEISSKOPF: Let’s get an idea for how much fuel they needed. Tell us how many process tubes there were in the reactor, about. There was 2,000 and something?
HULTGREN: That figure slips me now, and I can’t really...
WEISSKOPF: Tell us for the (inaudible), then. There were 2,000 of those.
HULTGREN: Let’s say there were 2,000. And if you look ‑‑‑
WEISSKOPF: Each of those had 35 fuel slugs, give or take?
HULTGREN: Yes, probably.
WEISSKOPF: In other words, how many slugs were needed to fill up the reactor? It’s 2,000 by 30.
HULTGREN: Well, I guess I’ll have to bow to it. I don’t ‑‑‑ but I was thinking about the ‑‑‑ if you look at the wall we’re looking at right here, the front face of the pile, this is quite a story that goes into it, and I think people have wondered about how they could have really circumvented (inaudible). But it happened that, I guess everybody knows, that Roosevelt actually requested the DuPont Company that they were to do the designing of the reactors and the other plants. It was that simple. I guess he gave them a choice, but they had no choice. They had the engineering people, they had the design of it, they had everything. And I know from when I was still in school, I don’t think there was any engineer that wouldn’t have given ‑‑‑ to get to work with DuPont, as far as I was concerned, there was nobody besides DuPont. And if you can think about DuPont Company today, do you ever hear anything wrong with them? They’re always one jump ahead. And they’re just ‑‑‑ and they were such a great company, I just... But anyway ‑‑‑
WEISSKOPF: Let’s go back to (inaudible), then. You said that General Groves came in?
HULTGREN: Well, they’d come out and see how you were doing.
WEISSKOPF: And you were getting 10 or ‑‑‑
HULTGREN: Ten percent. And they would extrapolate that into the number that they needed to load that pile, and they just weren’t going to get from here to there. Time was the essence. And the point was that the war was getting critical. Germany had surrendered, what is it, September 8th or something like that.
WEISSKOPF: April or May of ‘40 ‑‑‑
HULTGREN: ‘4.
WEISSKOPF: Oh, ‘44, excuse me.
HULTGREN: Germany had surrendered, but you still had Japan at this time.
WEISSKOPF: That was ‘45, wasn’t it?
HULTGREN: Well...
WEISSKOPF: Japan surrendered in 1945, in August ‑‑‑
HULTGREN: No, but it’s in this report.
WEISSKOPF: Didn’t Germany surrender in April of ‘45?
HULTGREN: Well, whatever it was ‑‑‑
WEISSKOPF: It was ‘45, it was later that they surrendered.
HULTGREN: You can check that, but it’s in the...
WEISSKOPF: I think the war was still raging when you were making ‑‑‑
HULTGREN: Germany was actually out of the picture, really, from ‑‑‑ they were in the war, but it was still ‑‑‑ the thing is that Japan, everybody was worried about Japan at that time. But, anyway ‑‑‑
WEISSKOPF: Getting back to the necessity of having the fuel slugs, how long did it take to tune up that process?
HULTGREN: Well, I think it was in June, early June, that I know I went down there. Our whole group didn’t go down, but there was two or three of us went down that were in this meteorological group. But the fellows that went down had quite a bit of physics and metallurgy involved, and that was something that I know metal ‑‑‑ do you know anything about metals? Well, yeah, we had some of it. But the point was, we learned enough to be good listeners, I guess. But we had a ‑‑‑ what was happening, they had about six or seven of these automatic lines they were running, and none of them were actually producing. They would get 10%, 15% that could go through an autoclave and prove that they were good. So what we did, there were six or seven of us in this group. There was the bronze bath, aluminum, and the canning. We did it all manually. There was this molten bronze bath, and I can remember you’d put the canister ‑‑‑ the slug, rather ‑‑‑ in a wicker basket such, and lower it into the molten bronze ‑‑‑
WEISSKOPF: Like making Easter eggs.
HULTGREN: Huh?
WEISSKOPF: Like making Easter eggs.
HULTGREN: Making Easter eggs, up and down, up and down, at controlled temperatures of the bath. Well, we started out using the temperatures that they were using on the line, and it became pretty apparent right away that you had a freezing problem. Because the minute ‑‑‑ just like I know we were doing it right now, working this bath for a certain amount of time, lifting it out of the liquid so it would drain, and drop it into this ‑‑‑ next, just put it in this aluminum, and then take it out of that and putting it in this plunger, and the damn thing would go down about halfways and freeze. Well, we would get all this raw data together, we’d get the operation people together, we’d talk about it. They’d go through it. What did you do? Well, we had ‑‑‑ the fellows were ‑‑‑ what the heck was the guy’s name. One of the fellows says, “Well, the eutectic” ‑‑‑ well, eutectic, yeah, that’s temperature ‑‑‑ he said “What’s happening here is it’s freezing.” Well, you know, when you get started on something like that, and you’re not really familiar except that you know from the academic world what he’s talking about, but when the people were running these things out on those mechanical lines, they were so rigid on temperatures they had, they couldn’t experiment, and that was what came out of this about the first week. Everything we did went to pot. We froze up. We’d have these slugs that would go down four inches into it. Some, if you were lucky, you might get one to go all the way through. Well, none of them could go in these autoclaves. Well, then they started checking around temperature. First of all, they were ‑‑‑ I think both the bronze and the aluminum were the same temperatures. Well, finally we figured we had to do them separately, couldn’t do them together, because you had to know exactly what would happen. So the temperature was increased about three or four hundred degrees in that bronze, I think that temperature is showing up in there, and it was all in that temperature eutectic, because it was almost like manna from heaven when this thing happened because ‑‑‑ and we had, my God, it was unbelievable. Tom Evans was our supervisor, and he was just so excited, he didn’t know what was going on, because the temperature was so critical, and all of a sudden we had these slugs that were ready to go in the autoclaves. And you’d punch them down, and they would seat, and then you had a cap that would fit on it, and cap that on, and then they could machine it and out. And we had ‑‑‑ the percent is still listed in there. I would say that we had around 90% good ones just like that. And that’s what I was going to tell you about. You asked me about Mr. Farmer.
WEISSKOPF: Uh-huh.
HULTGREN: I’m going to shift subjects a little bit. Everybody was so elated that they had a picnic up on Mount Ranier. Tipson Lake, if you’ve ever been up there during the summer, it’s over the hump. And the people that were in the lab, it was our metallurgical development group and some of the operational people. Mr. Farmer was there. By that time the horse was out of the barn, of course, everybody knew it. But we had this picnic, and it was up there. And that was in, oh, it was in late July I guess. But then it was turned over, and they were able to do it automatically by temperature adjustment. The thing they absolutely had to make sure, there was no water. Because water give them these hot spots. It was just like little pockets, you look at those things.
WEISSKOPF: Tell us what the autoclave, how that worked to test everything.
HULTGREN: Well, all that was was just a high temperature and pressure where these were put in. I nearly never saw the...
WEISSKOPF: How would that tell you if it was good or not?
HULTGREN: Well, the point was that each one had a control. It was controlled in buckets. I never really had a good clear vision on that, and I guess ‑‑‑
WEISSKOPF: The main point was to make sure they were perfectly sealed?
HULTGREN: Oh, yes. Because sealed, the thing was if they couldn’t go through the autoclave without showing up with blistering ‑‑‑
WEISSKOPF: From the reaction?
HULTGREN: Well, if you had temperature burn, if there was water that was behind and got between the slug and the aluminum, went through the bonding there, it had pinholes, and the autoclaves had this high temperature, and each one was hooked up to a point that ‑‑‑ I’m going to show ‑‑‑ I just can’t respond to that. It’s in there on that autoclave.
WEISSKOPF: After you took them out, would you just visually inspect them, or how were they passed?
HULTGREN: Well, automatically, the instrumentation actually. They could inspect it with ‑‑‑ I think they actually scanned it for any ‑‑‑ they could check for any weak spots in the aluminum jacket, and there would be evidence of impervious spots. But once they were eliminated, you didn’t have any of that, and it went through the bonding. In fact, that is an area, I remember it, but...
WEISSKOPF: Tell you what ‑‑‑
HULTGREN: I’ll get back to you on that.
WEISSKOPF: You keep mentioning the Smythe Report.
HULTGREN: Yes.
WEISSKOPF: Why don’t you hold it up to the camera. Tell us why this was an important (inaudible).
HULTGREN: Okay. This goes back, and I ‑‑‑ well, it was history to us. But during the war, when the Allies were having such a horrible time, and finally the United States got involved in it, during that period the Manhattan Project ‑‑‑ well, let’s see, what was it? I guess it was actually formed. Germany at the time, apparently the Allies knew that they were making heavy water up in Norway for this nuclear deal. And we, as we talked about it, so many of the American scientists got their final degrees over in Germany, and it was unbelievable, you had more scientists that were American that did graduate work, it was in Belgium ‑‑‑ no, where was it? There’s one famous scientist that worked over there that’s in here, too. But the thing that ‑‑‑
WEISSKOPF: When did this book come out?
HULTGREN: This was in 1945. What I’m thinking about is that ‑‑‑ and I know that President Roosevelt actually ‑‑‑ well, it’s in the preface right here, you can read about this ‑‑‑ actually, he went to Princeton, and Dr. Smythe was the head of the physics department there, and he actually I guess requested that he work with this Manhattan Project District and worked to put this book together.
WEISSKOPF: It came out at the end of the war?
HULTGREN: This book came out ‑‑‑ oh, goodness. 1945.
WEISSKOPF: Is that when your copy is from?
HULTGREN: Yes, this is the original copy.
WEISSKOPF: You bought it right when it came out?
HULTGREN: Yep. This was the original issue. I paid two dollars for it.
WEISSKOPF: All right. And when you read it, did it all make sense at the time?
HULTGREN: Well, yes. You know, it was just like unbelievable, because I’ve got enough red ‑‑‑ you see these little stubs in here? They’ve been there for years and years. I’m not a statistician. But the point is that you never saw so many happy people in the world. I was ‑‑‑ let’s see. The first group that it was in was in this meteorological group. Then the next group was the metallurgical development group. And once this canning project was defeated and they were getting enough canned uranium to facilitate loading the B Reactor, and that was ‑‑‑ I guess I’ve told you about the time my first opportunity to go out there, because it was all so top secret.
WEISSKOPF: Tell us about it.
HULTGREN: Well, when we actually ‑‑‑ “we,” this metallurgical development group -‑‑ was very helpful in getting this thing resolved, they had a big party and thought it was wonderful. But that didn’t last long because it was just a foot in the door. We actually ‑‑‑ that’s where I met Bill McCue. Bill McCue has been with the DuPont ‑‑‑ started out in DuPont in their Parlin (phonetic), I think it was, back east. And he was, I would imagine, one of the oldest supervisors they had at the time. And he was in the control room.
WEISSKOPF: At where?
HULTGREN: At B Reactor. And what happened, this Tom Evans ‑‑‑ I’ll get back to this ‑‑‑ once we I guess had crossed the bridge on this canning, and there was ‑‑‑ at that time we were sort of excess baggage, and we were a bunch of young kids is what it amounted to. I was 24, I think, at the time. And there were other assignments, and they were looking for health physicists, they were looking for metallurgists, engineering all over. Well, before we went, Tom Evans one day come in and says “Now, each one of you has been in this canning, and I asked the production people if we couldn’t have our guys that helped go out and observe it.” So I remember going out with a load of slugs that were canned. They were in these big containers. They weren’t hot then. But we went out, and they picked them up in the back side of the reactor, these buckets, lifted them up. And then I remember coming back in with some piece of paper, and I had to give it to Bill McCue. I remember that. Anyway, that was ‑‑‑
WEISSKOPF: Was the reactor operating then?
HULTGREN: Oh, no. Hell, no. The reactor didn’t start up till September 13th.
WEISSKOPF: The 22nd.
HULTGREN: Read these dates. I think your dates are ‑‑‑ you’re dreaming about them.
WEISSKOPF: But in September.
HULTGREN: Those dates are right in here, all of them.
WEISSKOPF: So was this the first fuel that went into the reactor then?
HULTGREN: Well, it was loaded.
WEISSKOPF: Yeah.
HULTGREN: There was ‑‑‑ the fuel that we had was loaded for several weeks to get it up enough to load that, it was a big square like this. Anyway...
WEISSKOPF: Now, you knew it was a nuclear reactor? Did you know how it was going to be working and what (inaudible)?
HULTGREN: Well, I guess we did. At that point in time we knew it was a reactor, and we knew that it was uranium. You know, it’s hard to tell, everything was a top secret, you couldn’t even talk about it. My wife, Idelle, is a medical technologist, and she worked, was hired from the University of Minnesota medical school, and she went to the University of Chicago. She was at Chicago at the ‑‑‑
WEISSKOPF: The Met Lab?
HULTGREN: Met Lab, yes. There was another girl. Do you remember Phil Fuqua (phonetic)? Was he gone by the time you were here?
WEISSKOPF: Yes.
HULTGREN: All right. His wife was a medical technologist. But anyway, the next thing she knew, she was transferred out here in late ‘45. And there were three girls, three medical technologists. And at that time it had come out that everybody that worked in the plants had their specimens and blood samples taken constantly. Let’s see, what was it? I guess almost on a weekly basis. But these girls would do all the blood work. And the main thing they were checking was the white count.
WEISSKOPF: Would they check you, too?
HULTGREN: Oh, hell, yes. They did that, it was a routine thing, and they did that, took samples, specimen samples, but the main thing was the white count.
WEISSKOPF: What would that have told them?
HULTGREN: Well, white count is destroyed with high radiation, and that was the main indicator they had was your blood. But, there again ‑‑‑
HULTGREN: Yes.
WEISSKOPF: Was she taking your blood?
HULTGREN: Probably. I don’t know. Turned out that we got talking, and her home was only about 60 miles from my home in Minnesota.
WEISSKOPF: Really.
HULTGREN: But then the girls that did all that blood work, there were these samples taken of everybody, their specimens, throughout. But it was a known effect that when you dissolve the metal, that the off gases that came out, and there was concern in there about filtration of the off gases. It’s a highly technical end of it to get it worked out. But at that time ‑‑‑ then here is my next phase of it, from the meteorology to the metallurgy, and with the physics background, they needed health physicists out here. And I, you know, in those days, you didn’t really say what you wanted to do, you were ‑‑‑ it was it. And I think there were four of us that transferred out of this development group ‑‑‑ no, it was three of us ‑‑‑ went into health physics. And I was actually in the B Reactor when the first metal was discharged from the reactor, it was monitored after a cooling period, and it was stored in the north area. And I remember when they took it out, just put them in this ‑‑‑ you’ve seen those charging buckets, I guess. They were just ‑‑‑
WEISSKOPF: Tell us about it. You were back in the fuel basins while they were (inaudible)?
HULTGREN: Yeah, we were there up on top. You can go up on the back side and look down in there about, what, 20 feet of water, and there were just spotlights through the thing, and the buckets were there, had all of the holes in the sides so that when you lifted them out of the water, the water would run out, and then they could put it in another cask car that had water and lead for shielding. And that went down. The thing that was of concern at the time was how long should you let that metal cool before you actually dissolve it, because it was to be dissolved ‑‑‑ you had to get down to the radium. And, well, pressure was on. There was no question about it. And the first cooling time length was way shorter than it turned out to be, like 20 or 30 days, and we ended up with 80-90 day cooling periods, and even longer than that at PUREX, I know, because I was involved there. But that cooling period was so critical.
(Tape ran out)
WEISSKOPF: Did you learn of it when it was happening, or not till after?
HULTGREN: Well, I guess I did. And it’s so vividly pointed out here. And it’s in that Sanger Report, I was reading that again just last night, and that poisoning that went on.
WEISSKOPF: You’re talking about poisoning of the pile.
HULTGREN: The pile, right. It just went up and shut down. Well, that gets ‑‑‑ there’s so many tales of woe in this whole thing. That is one of the reasons why DuPont, again, is so famous, because when they designed anything, they designed an additional safety factor into it. It goes on to a couple of stories in here. It says if they were asked to build a hotel, for example, or some big building that would be about eight stories, they designed it for another three or four stories so that you could go up. Those words are just as vivid as you and I are talking now. And if you look at the face of that pile, you look at over there, the thing was loaded in a circle, and they predicted the fact that it actually didn’t have enough guing (phonetic), you had this (inaudible) problem, what, 20 ‑‑‑ let’s see. But anyway, the answer to the whole thing was they could load up the corners, just like a circle. And I guess the story goes on, I’m sure I’m correct in that, that Fermi and some of his physicists had calculated they knew exactly what it was, and they were able to actually tell them to put X number involved in there again, and it cranked right up.
WEISSKOPF: How long were you working in the health physics end? What kind of duties did you have?
HULTGREN: Well, that’s funny.
WEISSKOPF: Were you there when B Reactor started?
HULTGREN: Yes.
WEISSKOPF: Okay, okay. Well, tell us about it, then. You left the canning when that problem was solved. You didn’t stick around ‑‑‑
HULTGREN: No. That’s where the health physics department, Dr. Parker ‑‑‑ there were three of them. Herb Parker was the head of it. He was with DuPont all these days. He was an Englishman that came over here, educated in England. But he had this health physics group, actually, for instrumentation and all radiation protections that went on. That was his people. Karl Gamertsfelder was another one, and Jack Healy. There were three of them. I worked with Parker about ‑‑‑ I’ll say this was in September, shortly after I remember having a chance to go out and follow taking the metal out to the reactor, we were called in. And he was there, and Jack Healy was with him. And what he was talking about was we need some health physicists around here. And he says you and you, we know your background, we know where you come from, but they wanted to have some ‑‑‑ physics was their main criteria involved in that health physics, because the instrumentation, it just seemed that it just built up. I wasn’t any mathematician whiz on it, but I knew enough when it was safe. And we went through a training program, and at one time, believe it or not, I was the only health physicist in the T or B Plant. T Plant started up on the 9th of September, but it actually charged about December something.
WEISSKOPF: Right around Christmas time?
HULTGREN: Right. I remember distinctly going in and sampling it in there, in the canyon. Did you ever see these instruments they have, it looked like a doorstop sampler? It was just about the size of that little grip behind you. And you picked it up, my God, it weighed about 25 pounds, and had a plastic front that you could put sort of a Lucite cover on it to shield it out from the beta, and you could open it up and you get all ‑‑‑ you could get the various ‑‑‑ you could have all beta, no beta, all gamma.
WEISSKOPF: Was this one of the early, early ‑‑‑
HULTGREN: Yes, doorstop. It was just ‑‑‑
WEISSKOPF: Doorstop?
HULTGREN: ‑‑‑ a suitcase. It was just about like here.
WEISSKOPF: Was that like one of the Beckmans?
HULTGREN: No, no, a Beckman was about a four-inch chamber that had an electrode in it, and it was hooked up, and they’d put it down in a ‑‑‑ they were in the cells of the canyon, there were holes about six inches in diameter on either side of the cells, and they could lower this Beckman chamber in there, which is I’d say about three feet long, and it had electrode in it, and it was hooked up electrically so you could lower it down with a chain way down. Those cells are about 30 feet deep, you know. And there would be opposite, for example we’ll say that screen over there, this thing could be opposite, so you could actually monitor the activity, which would be a vessel in that tank, and it would be shining. In the cell you had an opening that had a steel plate over the front of it. It was just like if you had ‑‑‑ here’s a typical opening in a cell, this big. Did you want to film this? There’s a hole. Each cell ‑‑‑ let me give you the ‑‑‑ can I tell you the diameter of a cell?
WEISSKOPF: You bet.
HULTGREN: All right. Each cell was about 30 feet deep, 17 by 13 feet rectangular sized, and on each side there were roughly ‑‑‑ if you had a tank sitting on the floor like this in a cell, let’s say there’s one over by the other side of the room and one here, this Beckman chamber would be positioned so that if you lowered this instrument in this 6-inch piece of casing down here, there was ‑‑‑ okay, excuse me. Tell me, when you lowered ‑‑‑ the Beckmans were positioned in there stationary. They were lowered down in this 6- or 8-inch casing, and it dropped down such that it was centered in this steel plate that actually was keeping it from getting contaminated.
WEISSKOPF: Liquids or whatever.
HULTGREN: Right. In the cell, just like in this room, there’d be one there, looking at this vessel. As I recall it now, there were two on each side of the cell and one on the end. Well, those were hooked up, transmitted back into a recorder back into the operating gallery. So that’s how they checked the ‑‑‑
WEISSKOPF: As a health physicist, you had to have a portable instrument.
HULTGREN: As a health physicist, yes, we had alpha detectors, called Little Plutos, or Sandy was another one. Then you had your doorstop, which was primarily a beta-gamma type. And they also had pencils.
WEISSKOPF: You could wear it?
HULTGREN: You could wear a pencil which had an electrostatic capability of picking up a charge which could be transmitted on to a kind of a zero to a hundred type gauge, and you could have various different resistances. And we had to calculate the exposures all the way through, oh, goodness. And then that was for beta-gamma type. Then there was also the alpha, the instruments for the alpha counting. And that was ‑‑‑ Sandy was one of them, but actually one of the things for checking for alpha contamination, if it was contamination ‑‑‑ see, the range of an alpha particle is just a matter of centimeters, so you can’t ‑‑‑ we had I think it was ‑‑‑ I was going to say Bakelite, but it’s sort of a film that would let the alpha particle penetrate through because there was no resistance, but it only had this slight range. But I remember, as a health physicist, prior to going out on a maintenance job that we would take ‑‑‑ it was funny. If you can imagine a piece of tablet paper, you could cut it down, and so you’d have about five or six different slots in it, and you’d staple the sides of it. And you could have a piece of 1 x 1 inch tissue paper in here, here, here, here. That would be capable of picking up and using it to smear for any contamination. You’d pick it back up with tweezers, put it back in, take those back into the building and count them for alpha. The alpha-beta-gamma. Now, that was the health physics. We learned a lot of things.
WEISSKOPF: But two or three years before that, none of that existed, would you say?
HULTGREN: There was some health physics in the 300 area, but we ‑‑‑ I was thinking back in college, in high explosives we didn’t have anything like this at all. Of course, physics covered radiation, and it had been, because there was ‑‑‑ I know we had seminars. I’m trying to think one time (inaudible) ‑‑‑ well, there was a DuPont physicist that came through, I remember that, and we were in the Tri-Cities. There was, oh, gosh, about six or seven schools that came in. There was Iowa, Iowa State, Minnesota. They had a big seminar there.
WEISSKOPF: How long were you in the health physics, then?
HULTGREN: I was in it about, oh, a couple years. But I really wanted to get into operations. In fact, this McCready, have you heard him?
WEISSKOPF: Yes.
HULTGREN: About his name?
WEISSKOPF: Mac MacCready.
HULTGREN: Mac MacCready. He was the first chief supervisor out there that came along.
WEISSKOPF: Did you know him back then?
HULTGREN: At Kankakee I knew him but didn’t really work for him. And then he was actually ‑‑‑ he was from Alabama, and I know, I was reading just the other day about his background. He was a physicist, but he was ‑‑‑ oh, he had enough sheepskin on him to ‑‑‑ but he was just the nicest guy in the world, and if you talked to him, the last thing he’d want to do, he’d say, “Well, Roger, do you know what I’m trying to tell you?” And if you kind of (inaudible), then he’d start over. But he really knew, and DuPont had ‑‑‑ he was in charge for the company. He did all of the inspections from a health, from a physics point of view. He was actually a theoretical physicist, one of his degrees. He had several of them. But he went into production, and he was the chief supervisor. There also was a person that came out with DuPont, his name was Elton Coal (phonetic), and he was a chemical engineer and also an electrical engineer from MIT. My God, it was ‑‑‑ but the guy was ‑‑‑ he was like an old bum. He’d come around in the lab, he dressed ‑‑‑ I mean, there was no show. No show. I’ll tell you what, if you ‑‑‑ that’s why the old-timers, and I may be one of them, it burns me up when I see this dog show that’s going on, because I know it’s all show, really. Because to this day I know some of my friends that still are with the company, DuPont, and they really haven’t changed, really. But anyway, they had ‑‑‑
WEISSKOPF: Was Hanford a pretty informal place to work back then?
HULTGREN: Well, it was a secret. It was informal, but everything was top secret. My wife had a top secret, I had a secret security badge.
WEISSKOPF: Did you and your wife talk about your work then?
HULTGREN: We just ‑‑‑
WEISSKOPF: Weren’t supposed to?
HULTGREN: We were not supposed to, and when you left, it’s don’t. It was that simple. Well, anyway, I stayed ‑‑‑ you asked about health physics, and I imagine I was in there about three years. But I wanted to get into operation, and I know that I interviewed with McCready, and there was another fellow by the name of Charlie Gross (phonetic), who had the whole ‑‑‑ he had all of the power reactors. Well, Charlie Wende was one that had the reactors, and then there was the power department. There were three departments: the separations, the power, and the reactors.
WEISSKOPF: Power referring to the steam and electric?
HULTGREN: Yes. Yes. That’s the one that Charlie Gross had. These were all DuPonters that had been ‑‑‑ they were older.
WEISSKOPF: This was now under General Electric?
HULTGREN: Oh, no. This was when DuPont was still here. And then GE left, or DuPont left in what, ‘46, and DuPont took over, but ‑‑‑
WEISSKOPF: GE took over.
HULTGREN: Or GE took over. And McCready and Gross...
WEISSKOPF: Wende?
HULTGREN: Well, Charlie Wende was here, but those two people stayed. And Gross was the chief supervisor of the power department. McCready had the S division it was called. And then Hanford Labs, everybody worked with them. And there was ‑‑‑ I think ‑‑‑ I’m trying to think who was actually ‑‑‑ I’d say Herb Parker was probably one of the most influential down there at the time, because he had all the health physics people, and health physics, you know, is almighty out here. Boy, I’ll tell you, when you had the president, and you had people like Smythe and all of the top Seaborg out here. You’ve heard about the time when Seaborg, when he came out.
WEISSKOPF: Early on, or when was it?
HULTGREN: No, it wasn’t early on, it was later on. We’re talking now ‑‑‑ you want to keep this in the early days?
WEISSKOPF: Go ahead.
HULTGREN: Well, actually about ‑‑‑ T Plant operated until about 1947, I think, or ‘48. B Plant was operating at the time, but then they shut down, too. And there was a time when ‑‑‑ and REDOX came on in ‘53, or ‘2 or ‘3, and then continued to operate. And the big thing that came on at the time, after about B Plant ‑‑‑ no, U Plant, which you’ve heard about U Plant, it was a used ‑‑‑ they thought that they needed it. They did three of them. But the calculations indicated that U Plant ‑‑‑ it was about two-thirds built when they decided that they didn’t need it, but they elected to go ahead and use it for training purposes. And luckily it was, because U Plant turned out to be a godsend for this uranium recovery program, and I got involved in that. So that was ‑‑‑ and then the next thing was PUREX come along and ‑‑‑ I guess ‑‑‑ do you want to ‑‑‑
WEISSKOPF: I’m curious to know the different jobs you had while you were here, just briefly. After the health physics, you went into what?
HULTGREN: Operations.
WEISSKOPF: And for whom?
HULTGREN: Again T Plant. There was a shift supervisor there in operations, and the first supervisor I think I had there was a fellow named Will Wireman (phonetic). And there was a Jim Barber. These were all DuPont people that stayed over, and most of them ‑‑‑ Jim Barber is a name that I had forgotten, but he actually was another one of these ‑‑‑ he was a Princeton man. Princeton was real tops back then. It must have been because of this Smythe, because he was actually commissioned, you know, on that report. But there were just ‑‑‑ I guess I can’t get off the subject. These people were just great people to work for, with. They were ‑‑‑ really appreciated what you were doing. Of course, the time and place actually I guess dictated that, too. And there were a lot of people that were just there for the war and then they left.
WEISSKOPF: Let me ask you, what did you think when the war was over? Did you think about going elsewhere, or what was your decision?
HULTGREN: I think I ‑‑‑ no, we had just gotten married, and Idelle enjoyed it out here. She had her discipline. And my brother was back home. My folks had a summer resort. But John had high blood pressure, and he wasn’t in the service, and he took over running the lodge, and it just looked like a good way. But we’ve been here ‑‑‑ but she had her discipline, and ‑‑‑
WEISSKOPF: She kept her job after the war too?
HULTGREN: Well, for many years, and then she went into the art business. She had an art gallery in Richland for 20 years. Jade Gallery.
WEISSKOPF: Did you ever think of going into the private end of things?
HULTGREN: Oh, yes.
WEISSKOPF: Did you get job offers?
HULTGREN: Well, we talked about it several times. The thing ‑‑‑ this came up pretty clear. I was on the scope and design when PUREX was started up. That was in about ‘55, ‘56. That was when we’d completed this uranium recovery program at U Plant, and they were looking for a scope team for PUREX, and I was asked if I’d like to get in that, and I said yes, I would. So that was the PUREX plant. But that was ‑‑‑ see, PUREX started up in ‘57, I think, about ‘57, and I went through that till ‘66. Then it was the uranium recovery, or the ‑‑‑ yeah, uranium ‑‑‑ or the waste management program back to B Plant. So B Plant was old home to me. We went into B Plant after PUREX ‑‑‑ PUREX had the dual operation, self-extraction, and it had ‑‑‑ it was just the latest, it was the Cadillac of things at the time. Well, then, when that was finishing up, I had gone into this waste management program. That was the current B Plant was just shut down, and it had solvent extraction from going from your mixers or back from the original bismuth phosphate process, which was sanification and precipitation type operation. You use solvent extraction again back in this waste management program. We had solvent extraction all the way through that. B Plant had solvent extraction, went from bismuth phosphate to solvent extraction, which was kind of proven at PUREX. And REDOX had solvent extraction, but they had pack columns over there, where we had mixer settler PUREX in the B Plant.
WEISSKOPF: Where were you when you retired? What was your job for five years before you retired?
HULTGREN: Well, I was at B Plant. I was a consultant, I guess you would call it. Primarily, I reported to the directors. Then they had a big show and tell that I was going to end up leaving, and we had already made with a group that we were going to go to Mexico. There was a big crowd going down. And Dale Bartholomew (phonetic) was the director of B Plant at the time. Well, then he was leaving, and he was replaced by Dwayne Bogan (phonetic). You’ve heard the name. Anyway, he was the next director. Well, he and I were pretty close friends, and he asked “Well, can’t you come here and stick around for a while?” And I said “Well, we’re leaving.” And he said, “Well, when you come back from Mexico, give me a call.” He was frantic at the time when I got back. And I said “I don’t want to get deeply involved in this thing, but I know every foot of that B Plant and what’s going on there.” Well, he says “By God, we’ve got problems.” Then it was Westinghouse. And then I finally got down to a couple ‑‑‑ I occasionally get a call now, but I’m actually retired.
WEISSKOPF: Is there anything we haven’t talked about that you’d like to talk about?
HULTGREN: Well, one thing that I would like very much, is I think there is ‑‑‑ you can see if you look at (inaudible) that it’s been used.
WEISSKOPF: The Smythe Report?
HULTGREN: The Smythe Report history. This was the Princeton version. Then you had this Conant, who was the president of Harvard, he was a great organic chemist, and he was actually commissioned to write something, too.
WEISSKOPF: Do you think that’s a good book for people to read to learn about ‑‑‑
HULTGREN: No, it’s ‑‑‑ the point is ‑‑‑ I don’t know if it’s fair to say that, but I think a person needs a pretty good background. But the time and the place to appreciate it, this actually talks about the war. And the point is that when Smythe was involved in this thing, I remember meeting him one time when he came out to the plant. I don’t know if it was with Groves or not. General Groves. But the old story, and Smythe has written it in here somewhere, that when Groves, when they would come out to Hanford, they wouldn’t go beyond 300 area. The hell with it, they wanted to make sure that all this canning and dipping, that ‑‑‑ I’ll tell you, that was the most important thing in the world. And I got involved in that for about three or four months, I guess.
WEISSKOPF: This book, would it be good for somebody who wants to understand the Manhattan Project and all the work that went on?
HULTGREN: Oh, yes.
WEISSKOPF: Would you recommend it?
HULTGREN: I’d recommend it to somebody who’s not real ‑‑‑ someone who would appreciate it. You know, there’s a lot of people that will read something, and all they can do is find fault in it. We’ve got those people. But I think somebody that has a good ‑‑‑ he’s got to have a pretty good background to get anything out of here, because it gets so deep, too, into some of the theoretical end of it. But ‑‑‑ well, this was published in ‘45. When we talked about this ‑‑‑ this is rather interesting ‑‑‑ Idelle says “Well, you haven’t been doing this type thing for a long time.” And I said “The more I’ve done it, the more involved I” ‑‑‑ she kind of ‑‑‑ I guess I went to sleep last night reading this thing. But the thing that was so interesting, though, at least I thought it was, that the president, it goes in here, why did they pick the DuPont Company, the design? Well, they went into this capability of a vision that...........
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....and to sustain the reaction at the time, and all they needed was some more uranium in there. But they predicted it.
WEISSKOPF: Let me ask you one question that I like to ask everybody. It was all top secret when you first got there ‑‑‑
HULTGREN: Yeah.
WEISSKOPF: ‑‑‑ the world didn’t know what Hanford was doing until the bomb was dropped on Hiroshima and then Nagasaki. What was your work experience and community experience like before and after that? How did it affect your job and now everybody knew what they were doing?
HULTGREN: Well, I think everybody had a sigh of relief and they were kind of proud about it. In fact, the people that I associated with, the ones like Rohrbacher, Tom Clement, we ‑‑‑ obviously, going to school with Roger, I saw him every day for about four years. But the point was that there isn’t anybody else left, because ‑‑‑ I’ve got to think about this. Well, I know myself, just like Idelle and I, we fell in love with the area, she knew that I loved to play golf and hunt. We were married about six years before we had a family, and the first thing ‑‑‑ we were married, after about three months we ended up having a labrador pup. And I think we’re on our sixth or seventh labrador now. Sugar. The first female we’ve had. But it was ‑‑‑ we still have right now a bridge club of people, we’re the oldest group that have been here, but across, there’s a couple there, I know the Alcars (phonetic), both of them are Buckeyes, Ohio State people. But it’s funny how the people are all around. Battelle has got ‑‑‑ well, I know so many of the Battelle people, worked with them over the years. Lane Bray (phonetic) I’m sure you probably know. He was one of the chemists out here early, before Battelle time. But when we were starting up PUREX, we met with each other, the operations people, we were either coming down here or they were coming out to the PUREX plant and going through the design and process, testing. It was a very close coupled situation. At the time GE was here, you know they were 20 years, from, what, ‘48 till fifty ‑‑‑ when did GE leave here?
WEISSKOPF: Sixty something?
HULTGREN: Sixty-three, four, five?
WEISSKOPF: Would you say that you didn’t just stay here because it was a job, but you actually ‑‑‑
HULTGREN: Oh, no, no, no, no. It was many friends, and I think ‑‑‑ I know Idelle worked in the laboratory, and she and another gal, she was very involved in this art gallery. In fact, today she’s very definitely involved in the arts. And I think she’s on a lot of the boards.
WEISSKOPF: So has Richland felt like a small town to you? You know everybody in it?
HULTGREN: It’s a small town, I guess.
WEISSKOPF: Happy that you stayed?
HULTGREN: Oh, sure. We have a couple girls that both enjoyed it. But coming from the Midwest, climate has had ‑‑‑ you know, Minnesota was kind of a ‑‑‑ but they’ve had probably warmer weather than we’ve had out here.
WEISSKOPF: If there’s anything else you want to put on, we can do this again sometime.
HULTGREN: What I’d like to do is this: obviously, when you get home or thinking about it, and I’ll do the same. How annoying is this to you?
WEISSKOPF: What?
HULTGREN: Just listening to this stuff?
NICK: It’s okay with me.
WEISSKOPF: Unfortunately, the cameraman has to put up with it.
HULTGREN: Well, no. But I think there’s a mutual respect involved in these things.
WEISSKOPF: Well, he’s enjoyed the other ones, so I have a feeling he’s probably getting a lot of it, too. What were you thinking, as far as what?
HULTGREN: I’m just ‑‑‑ I guess I’ll ask the old cliché: how far is far?
WEISSKOPF: We can go as far as we can suck you dry.
HULTGREN: Well, that’s the point.
WEISSKOPF: Not today, but another time.
HULTGREN: No, no. The point is, where do you stop on this thing? What may be good for the goose is not necessarily good for the gander, and how far do you go?
WEISSKOPF: We can go a lot farther. We can do it again if you’d like.
HULTGREN: Who’s your audience going to be? Are you doing this for the three of us, or are you doing it for the public, or who?
WEISSKOPF: We’re doing it for people that want to understand how Hanford operated, what was it like there, what kind of jobs were going on. For people who are technically interested. They want to hear about the fuel canning, they want to hear how the separations process went, they want to hear about health physics. It was all a big part of the Hanford process. So we’re hopefully going to appeal to a wide range of people.
HULTGREN: You see, the thing about ‑‑‑ are we holding you up? Are you going to be here anyway for a while?
WEISSKOPF: Well, the tape’s going to be up in five minutes.
HULTGREN: All right. All right.
WEISSKOPF: How about if we shut the tape off, and we can talk about doing this again sometime.
HULTGREN: I don’t want to...
WEISSKOPF: You can start packing up, if you want, Nick.
HULTGREN: Nick, this has been great.
[end]
BLAKE MILLER INTERVIEW- Recorded on 6/8/93
Tom Putnam: All right. If you could first tell us your name, and most of the time you have to look at Greger. Talk to Greger. Tell us your name, and what you were doing before you heard about Hanford and how you ended up here.
Blake Miller: Well, my name is Blake Miller and I hail from the state of Iowa, town of Fort Dodge, Iowa. And to come out here was because I was a washout of Officers’ Candidate School for the military; they gave me that famous classification of being F. From there, I went home when they released me from the induction camp which was at Fort Des Moines, Iowa. And by the time the next morning rolled around I had all kinds of offers for government jobs—postal long distance, Teletrans, you name it, people I’d never heard of were offering me the opportunity to go to work for Uncle Sam. So, I was bound and determined I was going back to school, but my mind began to change rapidly. And so there’s where I got into it. I finally wound up going to the Federal Security Agency. And the Federal Security Agency, I believe I would be correct in saying that there were all kinds of other agencies already in existence, or new ones that were coming forth by Uncle Sam, like one, the National Youth Administration, the Federal Manpower Commission. Next thing you know I was being maneuvered around to—I didn’t know from one week to another which one I was going to be working for, except if I get my calls, and that’s the way it happened.
Greg Greger: They were all short of bodies.
Miller: All short of bodies, that’s correct. So anyway, I even got close enough to—well, I went to Duluth, Minnesota. With that, it was with the Federal Manpower Commission. The Federal Manpower Commission, they had the National Youth Administration. So then I was assigned to that. In my own schooling I had—my father had always said, be prepared for more than one occupation. So that’s always gone through my mind, so one of the things I was certified in arc and acetylene welding, and I had my certification in that. I also took a job printing education, and I served my apprenticeship working in a print shop. This was all while I was going to school. So these various things where these government jobs came up, they were putting me into slots where they needed a warm body and sometimes they hit the right one. So I wound up substituting as the instructor in various courses of the National Youth Administration. These were kids out of high school or through school. Maybe they were from the rural areas, and they wanted to get in and make some of this good money. But they had to learn how—whether it was electronics, they had to learn that, and we offered that service. They had to learn how to read blueprints and maps, and we offered that service. Maybe some of them wanted to be welders, and they had to learn that. Sheet metal work, you name it, Uncle Sam was offering it, and we had instructors doing this. And so I wound up at one stage being a timekeeper of all these kids. Because they were coming from miles away, and we’re providing housing for them as well as board and room—and they would take these classes and we ran around the clock, by the way. And this was in Duluth, Minnesota. Now, you’re in the Iron Range up in that area, and the iron ore cars would come down and dump raw material in these big ships and then go on to the smelters from there. I got involved in so many things. And then recreation for the centers, they were like small overnight campuses that would develop—girls in one and fellows in the other. And we had to have recreation programs and rec leaders. It just seemed I was moving around all the time. And then one time they needed some help in recruitment; this was in the Twin Cities in Minnesota. I was sent there for a while, and I worked out of the United States Employment service. And they had special facilities because at that time, during the war, all the construction jobs and the demand for people’s skills, every—well, DuPont was recruiting personnel, Boeing was recruiting personnel, Uncle Sam was recruiting personnel, Douglas Aircraft—all these, as well as the United States Employment Service was doing theirs. But all these other people were in there helping them; that’s where they were headquartered. So when people went to the United States Employment Service, here were all these various avenues. And I got acquainted with the people in DuPont. And being the youngest one in the whole layout, I think, I didn’t know anybody, but I soon got acquainted. And it soon came out that I was working for Uncle Sam, and these guys were making much more money than I was, but I was fulfilling my obligation by working for Uncle Sam in a war-needed service. So, somehow, I found out through my acquaintances with these other groups that DuPont and I got along just fine, and I could start at DuPont at double the salary I was getting from Uncle Sam and having to pay my own room and board outside of that, and having to wear a suit all the time. That’s how I got here. Finally, I got signed up with them and it was okayed by Washington, DC, I presume, wherever--whoever hired me back there--
Greger: So this was your first DuPont job.
Miller: That’s correct.
Greger: What did they tell you about it, if anything?
Miller: Not much more than what I was told in the recruiting, from other people. It’s a military installation, out in the state of Washington. Whereabouts in Washington would be the question. Well, it’s at Pasco, Washington. I couldn’t find Pasco on the map and I don’t think anybody else could. But at any rate, that was the general answer. Well, what are they doing out there? I can’t tell you. We have requests for this type of—if you’re a cement worker or an iron worker, a carpenter, welder, whatever, or any background degree that you have, we need to know about it so if we can use you, we’ll take you. Provided everything is—after it’s all appraised and looked at. So that’s what we did. So anyway I would up coming out here, because it sounded interesting to me. Had no idea what I was coming to. I got off the train like everybody else, in Pasco, after midnight, I know that. And a car met me; everybody else got on buses, I say everybody else, I was looking out for myself, and my mother traveled with me. My mother traveled with me because of my allergies. I was in bad shape when I left back there, back in Minnesota. And to show you what kind of shape I was in, when we hit Fargo, North Dakota on the train, I stopped and a doctor came on and gave me a shot in the arm. And it came that way all through someplace—the last time was in Montana, and we crossed that Continental Divide, and I was sound asleep, but I never had a problem after we crossed that Continental Divide. None of the other doctors had to get on the train at all. I think all in all, the train ride stopped three times just for a doctor to get on and treat me. When I got out here, my mother went with the women, but here was a car waiting for me. I went to what’s called the New Pasco Hotel, and my mother did, too, only trouble is I went in a vehicle and she went in a bus. [LAUGHTER] And I had a room all to myself. My mother had to share one with another lady that she’d never laid eyes on in her life. Next morning I was picked up and went to the gray building. In the gray building, here was the head of DuPont recruitment and the head of personnel over there, in the gray building in Pasco and I’ll be darned if it wasn’t Curly Schafer and he was the guy that got me into all this trouble to begin with. [LAUGHTER]
Greger: Well, that was interesting. A friendly face, or maybe not that friendly.
Miller: He was. But here he was, and I wondered why I was being treated differently—they had something all lined up for me.
Greger: It had been prearranged.
Miller: Prearranged. So I remember coming through Kennewick—well, I remember going down the street in Pasco at night when I got in. I said to the driver—this was in September—I said, golly, what’s all this white stuff, you get snow here already or what is it? Well, they’d just had a horrible dust storm, and you could see the tire tracks on the street. And he said, oh, it’s just a little dust on the street. We had a windstorm last night. Oh! Well, it didn’t bother me, but anyway, here we were.
Putnam: When was this, what month did you arrive of what year? And what did it look like when you got here?
Miller: September 1943. As I said, I was due about three times earlier than that by way of rail, but health-wise I wasn’t in a condition to travel. I would have, had I known now, I could have met my original date which was a couple of months earlier, had I known that the medication would have been available to me and all that.
Putnam: So that was pretty early.
Miller: Yes, it was.
Putnam: So what was state of things here when you got here?
Miller: In Hanford?
Putnam: Hanford and Richland.
Miller: Okay. I remember coming across the old bridge between Pasco and Kennewick, and that one town was Pasco, one was Kennewick. And I was eyeing everything, and I remember most of all, when we were headed toward Richland, all this gravel road, which was still George Washington Way—I say still George Washington Way—I don’t know what its name was then, maybe it was George Washington Way.
Greger: Columbia Avenue.
Miller: Is that what it was? Yeah, you’re right, it was. Because we went through Columbia Park and that was the main highway then. Then came right on through Richland and I remember the old house which was on the corner of the driveway that goes into the Hanford House now and where the new dental building is on George Washington Way. Almost across street, down a little further north of Richland Bell Furniture. But the original buildings, like the—one of them had a gas pump out in front of it, and there was a bank on my right side coming in as I was going north was a bank building on the corner, a concrete block building, which now has some offices in it, and that’s where the Village Theater was built, attached to that still coming north and so forth. Then primarily, very little—there was what you’d call a wide spot in the road as far as Hanford was concerned. Because there was—you could count the number of buildings probably on both hands, and one was a little building about the size of a hen house, but it was brick, and I don’t recall what was in there, unless it was controls for the irrigation or something. It was on the left side of Columbia Drive.
Greger: Where did you end up in your assignment?
Miller: In my assignment, I ended up in Hanford. And who I reported to up there I don’t recall at the particular moment, except I went through the general personnel office. And they had all my papers and said I was in barracks so-and-so and room such-and-such and that was it. Next morning I was to report to a man by the name Radice, and his nickname was—they called him Buzz Radice. Right now, I couldn’t tell you what his first name was. He was my supervisor in public relations. So I did a number of things, then, in public relations.
Putnam: What would a public relations job—what did you do?
Miller: Well, at that point in time, we had several things going on in public relations. One was the orientation of all employees coming on the site. Didn’t care what the contractor was that they were coming for, they all had to go through orientation. I had a taste of that, and there was a crew of us that that’s all they did. And we had some people who were not acquainted with working in masses doing the same type of work. So one of my main stints was job relationship training—job—you might say relationship communications was a big thing. Because you had Carpenter Foreman, Carpenter Foreman, and Carpenter Foreman. They had to get along and they had to know how to communicate with each other. So I did a lot of that job management training. Same thing, you’d have various supervisors for their companies, and they had to get along with the other supervisors of the other companies who were doing the same thing but another segment of it, you see. So public relations did a little bit of everything. Like in March, we would file income tax. I remember that one vividly, because there were people out there who had no help of any kind to help them fill out their tax returns. So the IRS sent, if I recall correctly, approximately 50 people to help at Hanford, who had no idea any more than we did who were working there, where they were going or what their assignment was going to be other than income tax filing. So we were all trained by these people. And again, we used the public relations building, and we’d have rows of desks, and we’d have IRS, DuPont, IRS, DuPont. And I forget, there must have been close to 100 people, near 50/50, I think, there was 50 IRS people and 50 DuPont people 19:27
[VIDEO CUTS]
Interviewer One: --did you hear about this place, and what’s the reason and circumstances that you came here, but--
McCullough: Oh, okay.
Interviewer One: That’s usually the start.
Interviewer Two: Yeah, what we’ll do first, we’ll just kind of go through chronologically where you were when you were recruited, perhaps, and then the story of you coming here, what you found when you got here. And we’re interested in what it looked like, how many people were here, and the visual image is, kind of how you remember. And then what your job was when you were here. And then we’ll just bring it along like that. Up through the end of the war, probably. And then maybe some more general questions about—or more specific questions about operations or things that we got some interesting information on loading sequences and things like that. Part of it is an attempt to get some of the technical information that we may not have another chance to get. We’re trying to gather—talk to as many people as possible and just kind of get whatever information we can about operations or problems that people had during startup. Just some descriptive stuff of how things—
[VIDEO CUTS]
Interviewer Two: Start by telling us your name and what your job was when you were here working in that period, and then go back and start telling us about recruitment and coming here the first time.
McCullough: Okay. My name is Dee McCullough. During that time, I was an instrument shift supervisor. I came from the Utah Ordnance Plant in Salt Lake. Came on the payroll January 1st of 1944. Arrived here in Pasco on the 3rd of January, met by people with armbands on saying DuPont. Herded us into what we called cattle cars, [LAUGHTER] and took us to Hanford, where we were registered. The signup was quite interesting there. Most people there at that time were construction workers, and there was construction workers galore here at that time. We were introduced to—
Interviewer Two: Actually, hold on.
[VIDEO CUTS]
Interviewer Two: Okay, thanks. Go ahead.
McCullough: I’m Dee McCullough. I was instrument shift supervisor at the time B Area was started up. I previously worked at Utah Ordnance Plant as an instrument technician at that time. At the time the plant closed, I was also doing work in the telephone office as troubleshooting in the exchange. Also did the patrol radio maintenance work there. At the time I was interviewed to come up here, I had a friend working with me and he said, oh, he wouldn’t go to the state of Washington. I’ve been there before, and I don’t want all the mud and rains that the area—he’d worked out on the coast. So he said he was going to go to Oak Ridge. Well, later on, when I saw him, he got the mud and water, and I got the dryland here. [LAUGHTER] But I arrived here the 3rd of January, 1944, and was taken out to the Hanford site, where we were registered, signed up. But at that time, there was construction workers galore coming and going. Some being interviewed for jobs, and some leaving. Big long lines. But I was assigned to electrical supervisor—engineering supervisor. Took us—our papers that we’d filled out, and he’d take us to the front of the line and put the paper on the top of the basket and our names were called up far in advance of the construction workers that were coming in. The early days, it was quite, oh, might say primitive here. I can remember some of the early people, which—one was George Petty, which I don’t believe we have. But he was one of the power supervisors. They had a steam engine—railroad engine there, which was powered up, and we were getting all of the steam to heat the buildings from a railroad engine that they had parked at the site by the Administration Building there. I spent about two or three weeks there at Hanford, in the barracks, which was very interesting. I roomed with an Oklahoma carpenter. He’d come in and say, boy, if the wind blows again tomorrow like this, I’m going to terminate. [LAUGHTER]
Interviewer Two: What did you see when you came here? What did it look like? Was there a lot of construction going on? Was it kind of a big mess, or was it pretty well finished at that point? I think you’re the person—so far, the earliest—the other two guys we talked to yesterday came in May of ’45, I think.
McCullough: Oh, I see.
Interviewer Two: What was it like in January of ’45?
McCullough: In January, as we came by, as the bus went through Richland, they pointed out the fact that here’s the city of Richland. And it was, oh, up around Hunt, that area, the east side of the highway, was pretty well with housing under construction. You could see some on the other side. The present Hanford House was called the transient quarters—I think by that name. It was just all torn up area—a lot of ground being plowed up and there was a few orchards you could see here or there. I don’t remember the exact locations where they were. By then another long, dry, sandy spell driving out to Hanford. And there—I don’t have too much recollection there, except the big barracks that they had. One was the Administration Building. We were taken in there and then there was quite a bit of conversation as to when the dormitories would be completed—the first dormitory in Richland—for us to be moved into. Whether we would be able to go into Richland and stay at the transient quarters for a few days and then go into the dormitory, or whether they should put us out into the big barracks. I came from Salt Lake with an old fella that worked with me in Salt Lake, James V. Thompson, who is an electrician. The two of us was sort of—well, we came up on the same train. I knew him church-wise before. We wondered—we were glad afterwards that they had decided it had been too many delays in the dormitory being completed that they were afraid that they would be overcrowded at the transient quarters, so they had us roomed out. One of the main things there that I can remember is that we ate in a big barracks, which was opened up, it would seat 2,000 people. As we would go into the barracks, we’d buy a ticket for—it was either $0.69 or $0.79. They’d just line us in, line by line, we’d go and fill tables up. By the time we filled the last table, then, people were leaving at the other end of the building, and they started to go the other way. We ate family style. All we had to do was if a plate of potatoes got empty, we’d take the plate and hold it up above our head, and somebody’d come and pick it up and bring in a new one. It went that way even with dessert—pies—we had great pleasure in eating as much dessert as we could cram down us for our $0.69 or $0.79 that we paid. That lasted for about two-and-a-half weeks, and then we were given a room in the dormitory—first dormitory that was built. It was, oh, about the area where Swift and Jadwin, I think, was located. There, we had been told to order two books from one of the publishers back east. One was the laboratory book on measurement and identifying radiation types—alpha particles—and it showed cloud chambers—how to identify alpha particles. So that was the only indication we had of what we might be going to do at that time. The other book was a chemical engineering book, which had basic instrumentation in which we were interested in. But not having a safe place to keep these, we were just told to keep them locked up in our suitcases in the dormitory, so that they wouldn’t be available to other people. We were taken out to the 300 Area, and at that time, there was Will McCue, David Merrill and myself were all in instrumentation at that time—assigned to instrumentation. They took us into the engineering office in 300 Area and introduced us and told them to make whatever drawings were available to us for the 1713 Building there, which was the instrument maintenance building at that time. Looking at the drawings that we had on that building, all we could identify was one long table that was called a thermocouple table. So there we surmised we were going to be working with thermocouples. But Dave Merrill was the tool and die man at Utah Ordnance Plant. So he was more or less given authority to direct the installation of machinery and such in the 1713 Building machine shop that they had. I was assigned first to contact the construction people and receive the first amount of instrument spare parts, which was just capacitors, condensers and transformers and such, which didn’t tie into anything in particular. I can remember one of the fellows there was Martin Bier, which I think just passed away recently. But he was the construction man who turned over the components to me. As I was starting to say, Dave Merrill and Will McCue and I were introduced to the engineering office, and we met a friend of ours that had worked in Utah Ordnance Plant and had come up here on construction—or had come up earlier anyway. And he was one of the foremen in the 305 Building—that’s the test reactor. We were able to go over there and see him, but got into just the outer area there. It must not have been in the building, because he said, well, I don’t know why you can’t go into the building. All there is is a big U-shaped piece of concrete. Which turned out later to be the three sides of the test reactor that was being built there. But all there was at that time was just the three walls. And the front wall was open. So we were able to spend time there. I was assigned to work with the nuclear the flux monitors which was at that time Beckman instruments. It was a micro-microammeter, which had been developed from a Beckman pH meter. They sent me to the Beckman factory in Los Angeles, and I spent three-and-a-half weeks there sitting beside the test engineer to watch what he was doing and learn as much as I could about these instruments and see him troubleshoot the new ones as they came off the production line. Later, we had to—of course it was my job to see that they were installed after we got back here at the plant.
[VIDEO CUTS]
Interviewer Two: Tell the story of that anecdote, you know. Okay, go ahead.
Interviewer One: It would be interesting for us to hear what you were told when they hired you in, and even here when you arrived here. Because we realize, because of security, they couldn’t tell you very much. And also it’d be interesting to know any rumors or other ways you might have been given clues on what was really happening.
McCullough: Okay. At Utah Ordnance Plant, of course in those days, with fuel rationing and all that we were on, and drivers’ pools, I drove to and from the plant and there was two secretaries that rode with me. One was the daughter of one of the chief managers. They would talk about the City of Richland. What her dad had told her about the city of Richland, how it was being built up, it was a model city, being built from scratch here. But as far as telling us what was going on here, it was very highly secretive. When were hired, it was—they didn’t say Manhattan Project, it was just the three initials—I can’t remember. HEW, or something of that sort. I don’t remember the—and that’s who we were to report to here. At that time, I worked out at the telephone office at the Utah Ordnance Plant, and my supervisor heard the plant was closing. He decided to take another job elsewhere and so the maintenance of the telephone office fell on my lap at the time. I was hoping to be able to stay there after the plant closed to be on standby or maintenance there. But we were told if we didn’t accept these other jobs, we would be sent to the Army. So I decided that I’d go to Hanford. We’d heard a lot of stories about the rough times that the construction crowds that were at Hanford and the things that went on there, that wasn’t too appealing to us going. After we came out here, again, about the only clues I had as to what I was doing was this thermocouple bench and the book I read, which talked about gamma rays and alpha particles, neutrons, and that sort. So we did know that we were going to be working with those types of items. While I was up here, my wife wrote me and said that she had talked to a man on a streetcar or a bus there in Salt Lake, and when she said that her husband was working at Hanford, he told her that if she knew what was going on there—or if he knew what was going on there, he wouldn’t stay within a thousand miles of the place. So that was about the only thing that we had. As I mentioned before, the test reactor in 300 Area, the U-shaped cement, well after our clearances came through, we were of course allowed to go in there. We watched the graphite being placed in the reactor. I had the work to see that the ion chambers were placed underneath the reactor on tunnels that went underneath the reactor for the sensors for the nuclear flux monitors. We also used similar ion chambers around the building for area monitoring for health purposes. So when we started to load fuel, there again, we were just told to produce some radiation. We watched the loading by the instruments that we had in the control room. The control room was up on more about halfway on the floor, a second floor of the building, where we could look down at pretty well the side of the reactor. The control desk was at the backside of the control room, where we were pretty well shielded from the sight of the reactor by the side of the reactor. But as the front end of the control room had a bench with a lot of what we called pigs at that time—Geiger chambers inside of big lead cylinders. Two inches of lead around the thing to keep out any outside radiation. We had to put in the counters—these Geiger counters drove. But as we started to run tests, they began to fill the—put the fuel in the reactor, then we would watch the progress by the activity that we noted. As they would pull the rods out, after they got pretty well full of fuel, then these Geiger counters would take off. We could just see the counters just beginning to click and go up, and we knew that something was passing forth from the reactor to these Geiger counters. Of course, we were back, standing—kept us back out of the road. So we knew something was generating alpha particles or gamma rays at that time, that it would come through. But after we finally got to the point where the physicists said that we had sufficient in there, I think he said the power was one-and-a-half horsepower on there or something—or about 1,000 Watts, I think was the way he put it. So it was a very low level power that we were getting out of that reactor. The purpose of it was to test the fuel and the graphite that was going out to the B Reactor. We had channels that would go through the reactor that we’d load a channel up with graphite, and as we pushed that one channel of graphite in the reactor, it expelled a channel out the other side. So then we could tell a difference between the part expelled and the new stuff that came in. So we had these graphite standards that we used to test the purity of the graphite that was eventually going out to the B Reactor. And likewise we would load a channel of fuel and watch the difference as the fuel replaced the standard fuel that was moved out the other side. So that was the main thing that we did at that time. After they decided they had sufficient fuel in the reactor, then they closed it down and allowed the construction workers to come back in and put the cement wall on the fourth wall of the reactor up. It was put up in just big cement blocks. They had the construction workers wear gasmasks and such, I think just more or less to give them the wrong idea of probably what was going on in the place. One other thing of interest at that time, these what we call pencils, these radiation monitoring—which we’d carry around in our pockets, the first batch of those we received—and we were just told to wear them, that was before there was any radiation or anything at the plant. But we wanted to determined just what the decay rate would be on those pencils just around normal operation. So I can remember wearing a pencil and not knowing too much about them other than knowing that the principle, which we could read in this laboratory book that we had received. There, again, that was the only indication that we had of just exactly what was going on. Of course after we got to the B Reactor—oh, I might say as we first took a tour, they drove us out to the B Reactor, we could see where the present F—I think it was the F—and the D Reactors were there, just stacks of piles of valves and all sorts of construction materials there that was going into the future reactors. Taken up there, we were given a tour of the plant. I can’t remember too much of the particulars of how far advanced they were, but I did see Beckman pH meters in the water treatment plant area. Of course, I was familiar with the Beckman instruments. I had to do some work on them. And was made one of the shift supervisors. That came out of a sudden—they said that the man who was supposed to be the shift supervisor was still tied up with teaching a training school on instruments. So I had a three-day excursion of the plant and told that I had highly qualified technicians in the water house and in the water plant area, that my chief responsibility would be in the reactor building. The technician that they gave me—oh, I guess one of the first technicians I had in the 105 Building was Dick Thiel. He may still be around. We were very short on electronics people, because the services had grabbed all of the electronics people that was available at that time. So we were very shorthanded. The fact that I had my previous experience had been theater sound before the war. So I had some electronic experience that way. I was called up one day from the employment people. Said that they had a man there that they were going to send out to me, thought he might be a big help to me. His qualifications was the fact that he lived next door to a ham radio operator. [LAUGHTER] That was about the type of electronics people that we were getting at the plant. But even then, we were able to get the plant going on schedule and in good time.
Interviewer Two: Go ahead.
Interviewer One: Were there any—you mentioned the pencils. Were there badges worn, too, with the film in them at that time?
McCullough: No, the badges came later. I don’t remember just when the badges came, but at first we just had the pencils.
Interviewer One: A related question, then. Were you ever told, or was there anyone measuring radiation? I guess it was you, probably. Were you told of any concern for how much you should be in these zones per week or day or any talk about time limits at that time?
McCullough: I believe there was. I don’t remember too much about when we were first told that 50 MR or 100 MR was a time. Our first indication—when I mentioned that we put the ion chambers—the neutron sensors underneath the reactor that had—the 305 Reactor in the 300 Area had quite large tunnels underneath there where we’d put these chambers underneath. And we were standing there by the instruments superintendent one day. And he says, don’t stand in front of that hole. That’s where the neutrons might come out. He said, they’re the mean little devils. [LAUGHTER] So we knew that there was neutrons and gamma rays. And of course, we knew that alpha particles were stopped by a sheet of paper or something. So there was not much worry about them unless they got into our bodies. So we did know the possible hazards there might be. But still, how much of a hazard, we weren’t too sure.
Interviewer Two: Couple of questions. One, what did—visually, what did it look like? Was it still pretty dusty and hot? Were there dirt roads? How did you get around? Things like that. Just what did it look like?
McCullough: Yeah, the city of Richland at that time, especially—I mentioned earlier I went to Los Angeles—they sent me to Los Angeles to school there. And then on my way back, I was able to go by Salt Lake and pick my wife up, and we came on back on train. All of our goods were shipped up here by car. We were taken into the transient quarters and told that, oh, we’d have to stay there overnight. That our furniture had arrived in our house that had been assigned to me, but it had not ever been arranged and it was all covered with dust. They told me at the time I asked to bring my wife up, I said, I want to bring her up with me when I came back from Los Angeles. They said that’d be a lot better to bring her back than if she had to come up when I was in Los Angeles. They said, if she got here during the dust storms, they said that she’d just turn around and go back. So we were somewhat prepared for that. One of the things that we remembered was, oh, these dust storms, there was so much construction—homes being built—that one of our youngsters, which was about three years old or two years old—by then, I guess it was the neighbors, too, if they were out in the yard sometimes we could hear them call out but we couldn’t see them because the dust was so thick. So—
Interviewer Two: Just one thing I’m interested in, not having lived through those times, what was the sense of—I mean, I think there must have been a sense of being involved in something very important and in winning the war. But overall, how would you describe the feeling of the times? Was it rather—I mean, obviously, there’s a lot of tension. You heard about friends being killed. Just if you could recreate that wartime atmosphere, and what was at stake? If you could tell me a little bit about that.
McCullough: Okay. As far as the security was concerned, my wife speaks—oh, at women’s clubs and associations, they very seldom ever talked about what their husbands were doing. And she said she had no idea what we were doing until we informed her that the bomb had been dropped. But we did know that whatever we were doing was of extreme importance for the war effort. Myself, knowing whether it would be a strong ray that would cause problems or just what—I wasn’t too sure. I did know that there was a great deal of heat generated. Our big problem was that we didn’t want to lose the cooling water to the reactor, for fear of a meltdown or something of that sort. We used to talk about, well, the backup we had for the cooling system. We had four big tanks—storage tanks in the 190 Building that would last us for so many hours. Then there was two high tanks of water that would last us for a little bit longer. My supervisor and I, one day we were talking, we were sitting in the valve pit and we were talking about how far away we could be [LAUGHTER] before the water ran out. But the problem was that B Reactor—we loaded the reactor up to what they called dry critical. It was just starting from the center and putting fuel in more or less a circular fashion, until it got out to what was considered dry critical. Then at that point, they stopped and connected the water supplies and started water flowing through the reactor, and tested. Then we continued the testing with the water through the reactor, and continually added fuel until—
[VIDEO CUTS]
McCullough: They loaded D to dry critical and then determined their characteristics that they had at that time. Of course, we were—a lot of the physicists were all betting on how much fuel it would take to reach dry critical. But instead of putting water in, then, they continued to load the reactor. And test and make sure that we had plenty of rods to take care of us. So we were able to load D Reactor completely full of fuel without any water. So then we knew that if we lost water at B Reactor, that we would be safe. But up until that time, it was still—talking about what might happen, the dangers involved and that sort of—we came out at the D Reactor on a Sunday to test for the response of the reactor at that time. And then we picked the time when there was very few workers there. It was on a Sunday. I think there was about three or four carloads of us went on out there and deactivated the safety rods so we could pull them out. Took some critical tests. I can’t remember what the speed was, but it was power of a double in a matter of a second or two—I don’t remember just what. By that time, we had a good idea, then, what the capabilities of this could be. Then, of course, we went back and very carefully deactivated all of the possibilities of pulling the rods up and went on home. Getting back to the B Reactor, during the startup there, after we loaded the fuel to wet critical, and then fully loaded the reactor, then tried to start up. I guess everything seemed to go along all right, but as far as increasing power until they got up to certain levels, then the power started to drop off. Nobody seemed to know at that time just what was happening. There was a lot of fear that if it dropped down to, say, zero power, we’d never be able to get it started again. At that time, they brought in all of the top physicists and such. Enrico Fermi was out here at that time. We were introduced to him as Dr. Farmer. Some of the fellows that I worked with that had come from Oak Ridge, they were quite concerned—they made quite light out of that, because they said here, we sat in lectures at Oak Ridge where Enrico Fermi lectured to us and we called him by name. But out here, he was Dr. Farmer. We all—other than just amongst ourselves, we indicated that, but I did know who I was talking to at the time. He would ask me in the control room, oh, where does this Beckman get its supply from? What was the location of this particular one? I think there was three of the Beckmans we had in the safety circuit. Of course, we were running with the rods all open and very concerned that if there should be a sudden turnaround, that we would be able—the safety circuits would shut us down all right. But here they were getting to the point where they were going off scale, downward, [INAUDIBLE]. So the next thing was to go and reposition the chambers to more advantageous spot to—I think previously, we had to leave them about half withdrawn from the risers that came up into the reactor in order to keep the instruments on scale during the early testing. But here we were losing power, getting to the point where it would get down so low that we had bare reading. And they were concerned about bypassing them while we changed the chambers. We had to do that. But the cables that we were using at that time were very sensitive to static charges. And of course these micro-microammeters were very sensitive to static charges that they would swing full scale with anybody rubbing a cable or moving a cable on the sensors. So we had to be very careful when we were in the vicinity of these signal cables. They would say, well, here, we’re going to have to bypass this chamber, or this Beckman. Do you know exactly which chamber that is to? And will you go down there and reposition that? So it was very interesting to go through that. We did reposition to the most sensitive range, but none—it turned out that I was on a weekend off—I think I was off—my shift was off for two days. During that time, the reactor turned around and started coming back. My neighbor who was an instrument supervisor, he came over to my house and said, well, the baby—a babe was born. It turned around. So I wasn’t actually out there at the time that the thing turned around. But I do remember, and I appreciate the opportunity I had of working with that Dr. Farmer. One of the other things that I remember is the physicist that he with him was a woman, Dr. Marshall. She had a two-foot slide rule that she was manipulating very fast and all. Of course in those days that was about the best calculators that we had, was these long slide rules.
Interviewer One: I think when I talked to you by phone, you mentioned a story of you being in the control room and they were waiting for the startup. The people had retreated—the managers had retreated in the office where you could see them, but not hear what they had to say. And then you had asked your manager when he came out, what was going on? Do you remember that?
McCullough: I don’t remember that.
Interviewer One: Oh. I thought that was you, positioning monitors. Maybe--
McCullough: No, that was right in the control room. Usually there was quite a number standing around, watching the response of the instruments.
Interviewer One: It might have been another instrument person that—well, the story in essence was they could see Fermi and all the other people behind the glass doors.
McCullough: Yeah, but, she would be—Dr. Marshall—was mainly in the back room.
Interviewer One: Right, and it looked like a pretty hot time in there. And then when his boss came out he asked him, well, what went on in there? And he said, oh, we were just making up a pool on the next startup.
McCullough: Oh.
Interviewer One: That was the story, but I guess it wasn’t yours.
McCullough: No, that wasn’t me. The pool on that—I didn’t know anything about it.
Interviewer One: I thought it was a neat story, because it kind of showed the confidence everybody had that—
McCullough: Yeah, there was one other physicist out here that they called Dr. Stone, and I don’t remember what his true name was, it’s just what he was.
Interviewer Two: Oh, I guess the next thing, the story of—you said earlier that you didn’t really know that it was a bomb until you heard that it was a bomb. Can you—how did you hear about it, and what connections did you make at that time?
McCullough: We were sitting around the lunch table in the instruments shop. I think it was in D Area at the time, when I received a phone call. I was told that they had dropped the bomb on Japan as a result of our work here, that I could make that announcement to the instrument technicians that were sitting around the table. That was quite a surprise. We had—oh, I can’t remember what I visualized could happen at that time, how it was. I don’t know whether—I can’t remember just what the responses were of the people, but I can remember I didn’t waste too much time to call my wife and tell her.
Interviewer One: What were the responses after—well, the second one, and then the fact that the war was over? If you have anything to say about that, that might be of interest. How was the feeling out there?
McCullough: Oh, we were all of course very proud of the fact of what hand we had in that. Even though how disastrous it was to over there, it did save a lot of our soldiers’ lives. The fact that the prospects of the nuclear age and being in at the beginning of it and what we could make of it in the future was quite interesting. I don’t know whether I have anything more.
Interviewer Two: Anything that you’d like to say about the whole experience? I mean, just in a few sentences, what was it like to be involved, and was that a significant time in your life?
McCullough: That was very significant for me, because, actually I feel like I had a great opportunity here. I’d had a great opportunity, because I came up here as an instrument technician. I’d had—oh, some years in college, but I hadn’t finished college. The fact that they were short on electronics people, they gave me great opportunities for me to advance and actually become—go into engineering work.
Interviewer Two: Were you an employee of the DuPont company?
McCullough: Yes.
Interviewer Two: Was that a good company to work for?
McCullough: Yes, at Utah Ordinance Plant, I was working for Remington Arms, which was a subsidiary of DuPont. And then I got referred to going up to Washington to work for DuPont. And we worked there ‘til—oh, ’46 or ’47 I guess, when GE took over from DuPont.
Interviewer One: One thing, I wondered if you’d had anything to say. You’ve already given the impression that in most cases, the wives knew very little. Was this any kind of a problem explaining to your spouse that you really couldn’t tell her—how did they accept that idea?
McCullough: I don’t think so. We didn’t seem to—from what I remember—have much problem with it. Because they realized that it was the war effort, and it was their part to go along with this on that.
Interviewer One: Okay. Is that why she wanted to be here, perhaps to hear it all? [LAUGHTER]
McCullough: No, when she mentioned about the—I guess the streetcars at that time, in Salt Lake—and when she was on the streetcar and this comment that one fellow made to her. Then I thought that might be good to bring out here. Some words had got around about, something great was going on here that would have a big effort on the war effort. And just how it would come about, but they figured it was a lot of danger here, if it was going to be—
Interviewer One: Did you hear that concern expressed by any employee, that it might be a dangerous place, and have any apprehension about it?
McCullough: Oh, not that I know of. I think that we all became quite aware of the fact, too, that we were concerned about enemy bombing and the fact that we had air corps—air bases all around here that we were being protected, so we knew that whatever we were doing probably had a big effort in how the outcome of the war would come. So we knew it would be some sort of a means of demolishing the enemy. And just how that would be wasn’t too—I wasn’t too sure in that; I don’t think a lot of us were. Those that came from Oak Ridge probably had a lot more insight on it than what we did.
Interviewer One: Was there any information released on the first test bomb in this country? As far as the plant was concerned?
McCullough: Not that I know of. There probably was, but I wasn’t made aware of it.
Interviewer One: Mm-hmm. Okay. That’s pretty good.
Interviewer Two: Yeah.
[VIDEO CUTS]
FRANK MATHIAS INTERVIEW- Recorded on 9/26/92
Tom Putnam: All right, first, could I ask you to state your name and what your relationship to the B Reactor was?
Lieutenant Colonel Franklin Matthias: Oh. Yes, my name is—at that time I was Lieutenant Colonel Matthias when the B Reactor was started in the Corps of Engineers. I was a reserve officer on duty.
Putnam: How did you first become involved with the Manhattan Project?
Matthias: Well, it really started by getting involved with General Groves. When he became the boss of the Manhattan Project, he got me involved in a number of things, and finally to find a site for the Hanford Project and to start building it, contract with DuPont and many other things.
Putnam: And you started with General Groves on the Pentagon?
Matthias: Yes, I started with him on the Pentagon. He was—I never reported to Groves, but, he was head of the end of the operations branch of the Construction Division of the Corps of Engineers. And I was in the Engineering Branch. And we brought all kinds of construction projects for the Army, at that time, to the point where there was money for them and authorization for them. And then they were turned over to the operations, and that was General Groves. So, my group, the group that I was in and the group that Groves was in charge of, did a lot of work together, but I didn’t work for General Groves. And then he kept borrowing me for the Pentagon Building and that started in the middle of June when the Pentagon building got started. I worked on Pentagon problems quite a lot of the time from then on until oh, the middle of ‘42 when we started, well, almost finishing the Pentagon Building.
Putnam: How did you begin to hear about the Manhattan Project?
Matthias: Well alright, I heard about that because General Groves—one time I heard about it, because he gave me some scientific reports on uranium-235 and asked me to describe the construction—evidence of construction of a project that would take that scientific approach into construction. And I didn’t know ‘til later—I did that, and I spent several days trying to figure out and I finally had it—did figure that it was going to be a tremendously big operation. So I just described a big construction operation, camp and everything, and railroad tracks and sidings and all sorts of things. And I found out later that Groves wanted that to give to the Air Force to look for a place like that in Germany. Because we were--at that time, we were behind the Germans in this nuclear effort. We soon left them behind in the next, first six months after that. But we were behind at that time. And we weren’t in the Germans’ problem, because they never did get going.
Putnam: Yeah.
Matthias: On a concerted effort. A lot of people just—a few independent ones were trying to make a reactor.
Putnam: And you were primarily involved in the—
Camera man: Go ahead.
Putnam: You were primarily involved in the search for the site, too, weren’t you?
Matthias: Yes, I was, I was asked by General Groves first. I didn’t know what it was all about, until General Groves got me to go to Wilmington to meet with the DuPont Company. He had already made a deal with DuPont that they would take over the design and construction. This was a meeting with mostly the scientists from the lab in Chicago—the Metallurgical Lab that we were operating, our district group. And the purpose of the meeting was to establish the requirements for a site. And it included water supply, power, kind of a--not too many people living in it—we could build reactors and be 20 miles away from a town of maybe 2,000. And we had to be 15 miles away from a main railroad or a highway. And they wanted us to be more than 200 miles away from the ocean. But we never did quite meet that require—that was just kind of a little phony. Anyway, all of those requirements were developed by the scientists in their calculations and in their votes and by everything else. And everything they told us, they said, they kept assuring us, were—what is the, the meaning when it’s—this is what we think it is but it might be 10% minus or 10% higher.
Putnam: Oh—
Matthias: T there’s a definite name for that kind of—and that’s what scientists all said, that we don’t know, sure, this is our guess and it ought to be somewhere in between. 100% or 10, 1% if it’s 10.
Putnam: Oh, order of magnitude.
Matthias: Order of magnitude, that’s the expression.
Putnam: Yeah, yeah. So you set off then to search for a site?
Matthias: Well, then I went back to—yeah, Washington, and General Groves met me when I came back from that meeting, and he told me what it was all about. That’s when I really first knew what this Manhattan Program was all about. And then the next day, he said, now the two DuPont guys are going to come: their chief civil engineer and the guy they pegged for construction manager of Hanford. And you’re going to go out, you’re going to find a site for this project. So we spent a day with the Corps of Engineers and talked about our power possibilities and where we might get the biggest amount of labor easily and a number of things like that, that would influence us some. And then that night we started out—the next night we started out—no, that same night; that was the second day after the meeting. We started out to Spokane, because we knew it had to be in the Northwest; that’s the only place there was power, the only place there was water of any consequence. And so we got a hold of these big flight maps that the Air Force used. The whole country was covered by these, and we made a template with six reactors three miles apart, three separation plants six miles apart. And the separation plants, at least three or four miles away from the reactors, and a lot of things like that. That we made on a template that fit those flight maps. And then we got out first into Washington State and we borrowed Captain Hopkins from the District Engineers Office who knew that country cold, grew up in it and everything. So we could ask him, now, this map doesn’t show it, but what’s the agricultural program in here? What it is it? How big is this town? All that business. He was a big help to us. We spent a whole day in Spokane, just working over those maps. And we covered the whole west and down into southern Oregon that one day, and the next day we started out looking at all we could get within reach. We drove all over, or clear over to the east side of Washington and all that country in between. And then we drove down to the south and we borrowed a plane, an Army plane, to get—I was the only one that could go, because the others were not in the Army. But I borrowed a plane—
Putnam: Excuse me just a second. We’ve got an awful lot of—
[VIDEO CUTS]
Putnam: You had—you were taking a plane. You had borrowed a plane.
Matthias: Oh yes, I got a plane and went down over Oregon and the set planes, it was obvious that the sites we’d identified were not attractive. Then we—I went back to Pasco and met my partners who’d driven over through the Hanford area from Yakima. And I met them at the airport for the Navy flight system in Pasco. And they were just as excited as I was, I just said, this is it. There has to be—there’s nothing like it in the country. And they confirmed it, and they’d done some poking around at the soil and everything else. They say this whole basin is full of gravel: that’s wonderful building support. Everything was good about it.
Putnam: When was this again?
Matthias: This was just before Christmas, 1942. And we went down to San Francisco and we had dinner at a Chinese restaurant--Christmas dinner. And then that night we went to Sacramento and we had a meeting with their district engineer in Sacramento and dinner at his house, a second Christmas dinner. And then we got the plane there and went down to Los Angeles. And we borrowed a car from the Corps of Engineers and drove out all through the eastern part of the Los Angeles area, in the desert and we didn’t find anything. And we knew that if we did, we were going to have to take water away from either the Colorado River or the canals to the Los Angeles area. And then if we wanted to keep this project secret, that was not the way to do it. Because there’d be a tremendous citizen uproar if we started a project that wanted to drain one of those canals. So then we went back to Washington that night and wrote our report to Groves on the plane, and we landed the New Year’s Eve. And I called Groves right away and he said, well, let’s get together tomorrow morning. And so we did.
Putnam: So you were flying around the country in what, DC-3s?
Matthias: DC-3s, yeah. That’s the only thing there was then, that was long distance. And that was like, 200 miles was a long flight before you landed and refueled. But we spent all night New Year’s Eve getting to Washington.
Putnam: Mm-hmm, boy.
Matthias: And then--
Putnam: What was the--at that point there was a real feeling of urgency about the project--
Matthias: There was a real feeling of urgency, yes, and that was expressed. When I got back from my meeting, when they had established the site requirements, Groves told me all about it, and the urgency and everything else, he stressed. And that’s why we—we would have liked to have spent a month looking for a site. But we knew that we’d had the best one in the country in just that time. So we went ahead with that. And Groves was out on the 9th of January to see it, because he thought he had to before he went in to testify that it had to be that place. That week, the next week, they got authorization to acquire 600 square miles, which is what we needed for the Hanford Project.
Putnam: And so what was the next step then?
Matthias: Well, the next step was to go ahead with DuPont and get the design going and the construction going. Now in about mid-February, Groves asked me to come in, and we had nobody in charge of it. He said, I’ve got a promise from the Chief of Engineers that I can have anybody that you want in the Corps of Engineers who’s not on combat duty. And he said, I wish you’d review the possibilities and recommend somebody to me. And as I left the office with my hand on the door I said—he said, by the way, if you don’t find somebody I like, you’re going to have to take over that project. And I shut the door and I said, General, there isn’t anybody I can recommend. He said, all right, you’re it. That was how I got into it, the middle of February. Then I went—worked hard on working out with DuPont the contract terms, the systems—business control systems that we would use and how much they could do themselves and how much they had to check with me. And in early March we moved out on the Project and started construction.
Putnam: What was the terms of their contract?
Matthias: The terms of their contract was one dollar fixed fee for managing the project and designing it and everything and operating. And finishing the project in four year. A one dollar fee, and the guarantee that they would not lose money.
Putnam: All costs would be paid.
Matthias: All costs would be paid. And the DuPont Company, when they got to collect their one dollar fee, the government paid them back 72 cents because they finished the job and was operating in three years instead of four. So they managed that only three years in four and weren’t entitled to a whole dollar. And the DuPont president framed that and put it in the office in Wilmington and I think it’s still there, probably. Then the Pasco Chamber of Commerce heard about that and thirty two members each—28 members each contributed one cent to fill out the full fee to the DuPont Company. And they sent that to the president of DuPont, and he had a great time getting that and making a demonstration or something that he could hang on the wall, this 28 pennies.
Putnam: That’s a great story, I haven’t heard that one before.
Matthias: He thought that was great. And I have a sound tape now of him talking about that, the president of DuPont.
Putnam: Well then, the next step was to go to the site and begin to recruit workers?
Matthias: Yes. We started in—DuPont’s field construction superintendent arrived early in March. And we occupied some of the empty houses in Hanford, up in the Hanford area, near the river, and used them to house his first construction workers and they started building barracks for the labor men--group. And mess halls and all that stuff. And that started, and then we also, in March, started excavation for the reactors—for the B Reactor first. And we didn’t have any design except a conceptual drawing. We didn’t have design for it, and we get design dimensions from the Wilmington Engineer Office. And it took them--it took—we got way ahead in our excavation and stuff on dimensions we’d guessed were right. And they caught up—the designers caught up to us about June and we hadn’t wasted much of anything. But we also did a lot of exploration about foundations and we found that there was anything from 50 to 300 feet of gravel under maybe a foot-and-a-half of top soil in that whole valley. So that was great support, you know, just about the best foundation support you can find. And earthquake depressant, too. And so we just got going building. And we kept increasing as fast as we could get housing for camp, for men and got our mess halls operating, we kept getting all the people we could get. And DuPont had a system of—an engineer on every phase of the work was working out things so he could tell the fore, the labor people—carpenters and pipefitters and everything—what they had to do the next day. Everything was laid out like that. DuPont did a tremendous job of managing that. So they always knew what they were supposed to do, and they just kept doing it.
Putnam: So the DuPont Company—how would you describe the job that they did?
Matthias: DuPont Company gave us their very best people in management, in engineering. I just can’t ever say too much about how DuPont operated. They were great, absolutely great.
Putnam: Now in recruiting—how many people did you need to do it, and how did you recruit them?
Matthias: Well, in the whole project, in the three years of real activity, construction, we hired—we had 130,000 people on the rolls during that time. We never had more than 45,000 at any one time. And that was about, oh, the seventh—August or so, July or August of ‘44, when we had our peak.
Putnam: And how did you—that’s a tremendous number of people. Where did they come from?
Matthias: Oh, they came from all over. Gil Church, who was the DuPont Project Field Manager—Construction Manager and I made a trip to the War Manpower Commission Officers, east of the Mississippi—we didn’t get into the Far East. But we went to all the ones in and got them to help us get men and labor. And we worked it through the unions and we did everything to get enough. It was tough. We ran a shortage of plumbers and pipefitters at one time. And we even got some Army people, pipefitters, off of duty and put on reserve and got them into our forces as a morale builder and a pressure thing, coming out of the Army, and they got paid civilian wages for that time. And that caught up a big shortage of those kind of people. But we did everything to get people.
Putnam: What was a typical day like for you during that time? What was your role?
Matthias: Well, my role was really to work with DuPont Company and get the job going, keep it going. And sometimes I had some differences with DuPont; I’d have to go and argue about something they were going do that I didn’t think they should. We’d settle it and go ahead with the next thing. But I spent a lot of time working with the DuPont Project Manager and his staff. And I spent a lot of time talking to General Groves. But General Groves never did give me many instructions—hardly any. He was not a—he really didn’t tell me, hardly ever, to do some specific thing. But I had to keep on doing things to keep everything going.
Putnam: How did you like General Groves?
Matthias: Well, I didn’t like him, but I admired him. I have a tremendous admiration for him. But no, I wouldn’t say I liked him. But I appreciated the fact that he seemed to have a lot of confidence in me.
Putnam: Was it difficult to motivate the workers? What was the mentality like then?
Matthias: Well, I don’t know. We did give some speeches. Groves would come out a time a give a speech to the laborers on a safety—a day or an hour or so, at one place where he had a lot of people--a safety meeting, we’d charge it to. And I did quite a bit of promoting the patriotism. We did a lot to maintain morale. For instance, the ‘44 year-end we had a nationally known band come to the Hanford Camp and play for the laborers. We had about a 1,000-capacity rec hall in the camp. And we had a lot of setup—some of the materials, war materials, for them to look at that—something on museum style, but telling them, this is the kind of stuff we’re making now. We had one—in the middle of ‘44, we had a contest—not a contest—well, it was a contest, to find something that the laborers could do for the war effort. And it turned out that they wanted to buy an airplane, a bombing plane for the Air Force. We held a big contest that excited a lot of people, and it was about what it should be called, so it got the name of A Day’s Pay. And that was done. That was bought and paid for by the one day pay of the laborers—all of the crafts. I remember that well, because I checked what the average was and it was just about exactly what I was getting as a Lieutenant Colonel. [LAUGHTER]
Putnam: Now, at this—you want to come up a little?
Camera man: Yeah, he’s set a little bit. We have three minutes.
Putnam: Our focus is primarily on B Reactor. That was the first reactor built, wasn’t it?
Matthias: Right.
Putnam: How did that progress?
Matthias: Oh, well, it all progressed pretty fast. In fact, we had it—it went into operation in October of ’44.
Putnam: Wow.
Matthias: It started building up flux level of neutrons ‘til it got to about 120-some kilowatts. And then it started to die down. The activity started down and we kept opening up the control system, and it still went down. And we thought we were done. We thought we were absolutely done, in the whole business of the Hanford Project. We got Fermi and John Wheeler, who were both top-grade scientists, and they spent about two days analyzing what was happening and how fast it went down and all kinds of things that they could think of. And they came up with the idea that because—after two days it started come backing up again, on its own. And that indicated to them that there was something absorbing stray neutrons inside the reactor. And that that could only be cured by adding more plutonium. Our first loading of the B Reactor loaded like 2,000 tubes through the reactor, and there were holes for 500 more that the DuPont designers insisted on putting on. The scientists didn’t like it because they had said they’re guessing, super-guessing us, and we don’t need that; we need 2,000. Anyhow, that 500 extra tubes saved the day. And it took us about six weeks to add them. And by that time, we had the next reactor almost ready to go. And we of course put in the 2,500 rods or holes for them, right away. And as soon as we got the thing into operation with the added uranium, it went right up to full level--300,000—controllable by the control rods perfectly. And Fermi and John Wheeler had exercised a very smart guess. Really, really sharp.
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Matthias: All right, when they had analyzed this thing and came to the conclusion because of how fast the excess degraded—how much the flux inside the pile--reduced and then came back. That meant it was some product, efficient product, that had a very short half-life, two or three days, just quick. And it was xenon and iodine, they thought. And they still think that and I don’t know if anybody knows it for sure. But that cured the problem.
Putnam: Were you there at the startup?
Matthias: I was there. I was there when they put—talk about precision. Here we have a forty-foot cube of solid—not solid, but solid materials—mostly carbide—mostly carbon and 2,500 holes in it and they couldn’t, weren’t to be drilled after you erected that forty-foot cube. It was built in bricks, in blocks, with the holes worked into those blocks. I was out there when we put the first tube in the B Reactor. We were all out there. We had to unwrap the tube; it was a forty-foot long aluminum tube and we unwrapped the paper off of it. It was made in Canada; the Aluminum Company of America didn’t know how to do it. And we unwrapped the pipe and started pushing it into one of the holes. And we couldn’t get it in. We got it in a ways, and then it sort of hung up. So we pulled it out and we cleaned the pipe carefully with cloth rags and things, and when we came again to that hole, you could push that whole forty feet in and out like this with your hand. And that’s the precision they had. Imagine, 25 holes, forty feet long each through that mass of carbide.
Putnam: All carefully machined.
Matthias: That was really an accomplishment to do all that—putting it all together and having it fit within thousandths of an inch.
Putnam: And the day that when it actually all the tubes were filled and the first time the reactor actually went critical, was that quite an event?
Matthias: Oh yes, that kept, that worked right away and it went right up to the rated capacity.
Putnam: Were you there?
Matthias: --and it was controlled.
Putnam: Were you at the—
Matthias: Oh no, we did this slowly. We only moved up about a little bit an hour, until we got up to 300,000 kilowatts of heat. And then that was where it sat and kept working.
Putnam: Did you have any contact with the scientists at that time then? What was their reaction?
Matthias: Yeah, I always had contact with the scientists. The scientists always did approve all of the working drawing of the mechanical and the theoretical physics parts. And so they had to approve all of the designs. So I always had contact with those people.
Putnam: Were they living there at Hanford?
Matthias: Not very many. Most of them were at the University of Chicago in the Metallurgical Lab. And I had the problem assigned to me by General Groves to be sure that the Metallurgical Lab was doing the kind of scientific work that the engineer designers at Wilmington needed. That was another little duty, besides your others. [LAUGHTER]
Putnam: What was their reaction? Was everybody aware of the momentous nature of this? What was their reaction?
Matthias: Oh gosh, yeah, we thought we were done. We thought the whole thing was a failure. Then we had another interesting one that—this must have—yeah, it must have been the B Reactor. About the time we got it going again, we had the next one just about ready, but we had a—the Japanese had sent over fire balloons. And one of those fire balloons is supposed to burn the forests of the Northwest and give us a lot of distress, as a nation. One of the balloons came down on the transmission line between Grand Coulee and Bonneville. And it cut out our power and we had put some fast breaking things, fast correcting things in the switch yards, at both ends of our transmission line that came right past us. We lost about ten cycles of power before it corrected itself and that was six seconds of—it meant a tenth of a second—yeah, a tenth of a minute. Those fazes shut down the thing completely, our safety thing shut it down. And we were delighted because we probably didn’t—wouldn’t have had courage enough to try them ourselves. We never did anyhow, but the Japanese tried it for us. [LAUGHTER]
Putnam: Great. Yeah, I think there’s a wire coming loose there on the back of the chair, on the side.
Camera man: Oh, I missed it. Excuse me.
Matthias: --Sixth of a second, you didn’t know it happened. It just cut off our reactor.
Camera man: Excuse me.
Matthias: So, there wasn’t any excitement about it, it just died for that long. And it was such a short time, we didn’t even know it except by the measurements that we had in our control room. We knew that it had been out, short-circuited, for a tenth of a second.
Putnam: Was there any time for example, the starting of the reactor when it first went critical and you knew that you had—that it was a success, what were those kinds of milestones, the times that were really important to you during that--
Matthias: Well, we spent about—we had the real scientist people there at the start. And they would start it with a control rod, they’d pull it out a little bit and leave it there until it went up maybe ten degrees and then they’d pull it a little more out and it would go up and they’d spend a whole day building up the load. Because they didn’t ever know what might happen, you know, until we got experience in that business. But after we found the failure in B Reactor and added the uranium to it, then that went on all right and the next was coming along right with it. They’d build up, they’d take a whole day, to get up to full speed. And there was nothing moving it, except these neutrons bouncing around.
Putnam: Mm-hmm, just looking at the dials and it seemed to be working. And so how long was it before fuel was—how long did it take to irradiate fuel and what was done with it after that?
Matthias: Well we did a little short—I don’t know just how long. But I think it would have been fairly somewhere near the efficiency level to have it exposed in the reactor for maybe two months or three. Now, we shortened that period because Los Alamos was desperate for some plutonium. And to get the plutonium out we had to age these for a while. And we would like to age them for a couple months as they progressed from an intervening element that was formed to plutonium. We kept it in deep water, just let it cook there and it would react by itself: a fast movement, or decay, of the intermediate element which was called neptunium. That was a very short life. But anyhow that had to develop, to cook on its own. And we sent—we dissolved and extracted the uranium out of the first batches earlier than we should have for an efficient operation. But we were trying to get the thing going fast to Los Alamos.
Putnam: Now how did that first batch of plutonium get to Los Alamos?
Matthias: Well, I took it in a packing box in a locked compartment in the railroad car down to Los Angeles, and turned it over to an officer who was sent from Los Alamos to pick it up.
Putnam: Pretty expensive suitcase, huh?
Matthias: Pretty expensive yes. At the railroad station, this officer came up and I said, well, have you got a locked room to go back to New Mexico? No, he said; I had trouble getting it so I have a berth—an upper berth. So I said, well, you know what you’re going to be carrying? And he didn’t know. And I said, well, it cost $350,000,000. That was the cost of our project up to that point. So he kind of got a little bit shaky and went back to the station and came back with a locked room that he could use to get back. And then I sent the next kind back with my administrative officer, Harry Riley, the same way. And after that, we had our regular system. We operated with the ambulances, Army ambulances, one every—or two a week, that would take a charge of plutonium to Camp Douglas in Salt Lake City. They changed to another car and go back to Los Alamos. And then those two sections, groups of drivers never saw each other and we always had them accompanied by an officer of—oh, one that we knew real well. So that’s how we delivered it, just in an Army ambulance.
Putnam: We’re talking about preserving the B Reactor. Do you think that is a good thing to do? What’s the significance of the B Reactor?
Matthias: Well, I don’t know. Its significance is that it’s the first full-size, full-scale reactor that was ever been built for the kind of the reaction. It doesn’t exist anywhere. The first one. Now, there’s nothing to maintain it—almost nothing. You could keep it, and it’s just a very interesting historic monument. And I’d be all for it. I’d like to see that preserved.
Putnam: And moving through then, during the war, was it fairly routine, then it just sounds like a construction—it sounds fairly routine at that point. Any other big challenges or big surprises?
Matthias: Well, there was always very much concern that we could achieve the kind of dimensional control of everything. Big buildings and equipment and the cells, the chemical cells, that we had deep in the pit, 22 of them in one building. I don’t know of anything that would decay in the B Plant. Just let it sit there. Keep it clean on the outside, keep the aluminum tubes in it. You just don’t have to keep any uranium in it.
Putnam: In the times of processing, this was a totally new technology. Nobody really knew the scientific and day-by-day you were validating scientific hypotheses, and providing actual material for the scientists to study. What was that like? I mean, what did people—safety for example. How did you handle that? How did you know what you were handling?
Matthias: Well, we had a doctor in the Manhattan District, Stafford, Colonel Stafford Warren, who was supposed to be the most knowledgeable guy on nucleus—atomic nucleus kind of a system. And we had him—he was in the Manhattan District and we had him in charge of all of the safety devices. And then the scientists knew something about it, but we didn’t really know how much hazards there’d be, you know, when we built that. Because it had never been done before. What are you going to have? You guess. And the scientists guessed for us and they did pretty good guessing.
Putnam: And everything with the processing plants and all, you had to come up with new ways of handling this material. Just phenomenal.
Matthias: Yes, that’s right. They kept working at that on a laboratory basis, to improve the thing and do it better. You know, a bomb, only about two—only about two or three ounces of plutonium actually exploded out of a 25-pound bomb. About two or three pounds, out of a 25. That was the amount of plutonium in a bomb. And its efficiency was 2.3%. Imagine, three pounds, or six pounds maybe, five pounds of uranium—of plutonium would give you an explosion as big as 20,000 tons of TNT.
Putnam: Where were you when you heard--well, you knew about the Trinity test at Alamogordo.
Matthias: I wasn’t supposed to know about it, but I did know that it was happening. I helped Colonel Parsons, who was their security officer, helped him write a cover story report of a big explosion that they could give to the newspapers if the test worked. So we’d done that a couple days earlier, so I knew that we were about to do it. And then General Groves and Conant and Vannevar Bush came through Richland on their way to that test. And they stopped there Saturday and I took them to the Navy for lunch. And then they went on and I asked—I told Groves, I said to Groves, I’d sure like to go down to see the test. And he said, what test? I said, well, isn’t that where you’re going? Well, yes. [LAUGHTER] And he said, well, I’m not letting you and Nichols go to the test. You’re the ones in the production of this thing now that are important; we aren’t important. He had his deputy with him. And he said, I just want to be able to keep on with it if we get blown apart. [LAUGHTER]
Putnam: A practical man.
Matthias: It was. And I told Nichols that he had told me that, and Nichols said he couldn’t believe it. So he’d braced him once about it and the guy said, yeah, that’s why. Groves told him that was why.
Putnam: And then, so just three weeks later the bomb was dropped on Japan?
Matthias: Right, it was the 19th of July, I think, the test.
Putnam: The test. Then the 6th of August the bomb was dropped.
Matthias: Well, that was an Oak Ridge bomb.
Putnam: Oh, that’s right.
Matthias: That was the uranium-235. And then the next one was our bomb in Japan.
Putnam: Did you know that one was coming up?
Matthias: Oh, sure, sure I did. And when the first bomb was dropped, a guy in Groves’ office, his security colonel, called me about 7:00 in the morning and he said, be sure—no, earlier than that—he said, listen to the news at 7:00 on radio. And that’s when they announced that the bomb had been dropped in Japan and all the doubt—everything successful. Now that was a relief cause that knocked off the real security pressure.
Putnam: What was the reaction of the camp and people there and yourself? How did you feel at that point?
Matthias: Well, we were smothered by news and people like you taking pictures and stuff that we didn’t have time to think for about three days. [LAUGHTER] Richland was swamped with people and I had made arrangements anticipating this. With—oh, what outfit of the Army? The Signal Corps. To arrange for some extra telephone coverage into our place. So I had telephones every place, before that happened, and this was all right there when it happened and it only took an hour or so for people to come pouring in. That was quite an excitement.
Putnam: And with the finish of the project, what was, did you have a feeling of personal satisfaction then that it was a job that was finally accomplished?
Matthias: I certainly did. Exactly. I felt very good and I felt it complete. And I was not—as I stayed on and all we were doing was operation, no more exciting construction work, I got tired of the place. I spent the last six months—the last four months at Hanford mostly giving speeches all over the states. About Hanford, about the program. And I still had—it was still under wraps to some degree. But I didn’t have any interest in operation. Hell, it wasn’t fun.
Interviewer: In terms of the overall and the history—the historical context—the big picture so to speak, in your own words, what is the significance—it was really the entrance into the nuclear age. What’s the significance of that, what do we learn?
Matthias: Well, I thought that there would be some improvement in this whole system. As the years went on I didn’t expect anything much to be done importantly for ten years or so. That’s why I went to Brazil for an engineering job. But I did think that there would be some more work done and some more discoveries. And they didn’t happen. Everything went to the business of a reaction from the other end of the scale. Of atoms. That would be not—of what do they call them—one is fusion—a fusion thing. And I still think that that’s going to be the important solution; sometime, they’re going to find something that they can operate that way. Because a fusion process would not develop a lot of spare radiation, like the fission product does. And I had hoped that that would be important. Well, they’ve used it for power at the South Pole, nuclear power, they’ve got a lot of power plants going. They’ve never done anything with the fusion system, because it takes more power to get a reaction than is produced in the reaction. So, you’d get no gain. And until that is cured, it isn’t going to do anything more. I think the fusion is the process, sometime, but they haven’t learned how yet. Westinghouse has been trying hard for how many years? To find a way to do that. Fast neutrons.
Putnam: Well it’s an interesting time now, 50 years coming up—50th anniversary and almost coincidentally, it’s kind of—suddenly, the Cold War is over and the events that, at Hanford, really started the Cold War--or led to eventually the evolution of—led to the winning of the war. And that—I think that people lose sight of that in the depressing quality of the Cold War and the kind of nuclear fear, nuclear attack, and we lived under that for many years. And I think that the magnificence of the achievement in the Second World War was kind of lost in that, that people forget about what was at stake during the Second World War, and what is the scale of the accomplishment.
Matthias: Well, I think that guys like me that had all this to do with the thing, felt that this was a tremendously successful operation, and that it should keep on being studied and worked on until it could do more for civilian population—civilian operation. Now, they used to say, Seaborg for instance, used to like to say, we ought to have about 20 years, we ought to be able to get a lot of things done by the nuclear systems that we will have discovered. Well, they haven’t done it; it just hasn’t come. And they still don’t know anything better. And I feel disappointed, and I would be tremendously happy if they could turn up a good fusion process. But it’s not been the picture yet. And I don’t know how to answer your question, really.
Putnam: Yeah. It’s a hard one to answer. Jay, do you have anything to comment on?
Jay: One aspect of B Reactor that had an influence on the people of the river—influenced the Wanapums, the people that fished on the river, and that kind of thing—and you had to address that issue, same as you addressed that establishment of the studies of the fish and so on, you also dealt with the Native Americans here.
Matthias: Yes, I had—I used to talk to Johnny Buck quite often.
Putnam: Can you speak to me, into the camera here?
Matthias: Yes. Johnny Buck was the chief of the Indian tribe. And the first time he came to see me, he had an interpreter, an Indian agent, and he didn’t say one word in English. And he showed me the treaty he had for fishing in the Columbia River and the islands just opposite White Bluffs. And he told me about their process: they come up to the island to fish and they dry it, and take it back to their huts and store it for winter. And he said, we usually move up to one of these islands for a couple weeks and catch enough fish. And it’s out of season for those salmon, but the Indians had the rights. So I arranged for it; I told him, well, we can’t let you come up here anymore at this place unattended, or to live here, because it isn’t going be safe for you in a year or so. And I worked out with them a system where we went down and picked up a gang of the people that fished at their village way down in the west side of the Project and took them up to those islands in a pickup, and then we’d take them back at night and they’d do their fishing and storing and drying fish. And while I was there, that worked. Now, I don’t know what happened after that. But I had a deal with Johnny Buck and his Indians that satisfied them. But I’d also gotten Johnny’s Indians to do a job, to work for us, when we work fixing up the Milwaukee Railroad Branch. He had—I’d offered to put his guys to work and get good pay, but he didn’t want to have to bother with social security and all the reports, if his people worked or if he acted as a foreman, an owner. So, I fixed it up so that he wouldn’t be subject to any of that.
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Matthias: Nice. They had a lot of good stuff, interesting stuff. They had a guy who—their medicine man was a respected doctor from, I think, Yakima. A well-educated Indian, he was their priest. And they were nice. I liked them, that group. And I had a little trouble with Johnny Buck getting them controls to get into the Project. They had to come in the west gate to get to their camp. And I told—I went down and had a talk with him and told him that, you know, you’re going to have to be in some trouble, because our people are going to have to arrest everybody that doesn’t have a pass. And I’d like to send somebody down and get passes for all of your people in your tribe, because we want you to come through. And he didn’t like it a bit. And I said, well, Johnny, if you don’t do this, somebody’s going to break in here and steal something, and you’re going to be blamed. And I made that a terrible thing for him, and he agreed and he gave up. I sent a couple WACs down to photograph them and make badges for them all and they had a great time and so did the Indians.
Putnam: That’s something we haven’t talked about, security. Was security difficult? What were some of the aspects of security there?
Matthias: Well, security was—I don’t know how you could say it was difficult; it was extensive. And we had a military police detachment assigned to me that did the outside business of controls and not much access. DuPont had a police system of their own, security, that secured each of the working areas and the Hanford Camp. But the west gate on the main road and down towards Richland was controlled by the military police group most of the time. But I didn’t have them the whole three years. I had them, I guess, about the last two. I don’t remember exactly.
Putnam: What was the biggest problem you had during the Hanford Project?
Matthias: I haven’t any idea what was the biggest problem. I had so many, really, so many problems came up. And sometimes I’d think I’m never going to get this one solved and somehow we’d work it out.
Putnam: What’s an example?
Matthias: Well, I really don’t—I really haven’t thought of that much.
Interviewer: Just to—but there were construction—was it getting material?
Matthias: Oh, material, not so much. I worked close with DuPont on construction methods and construction programs. For instance, our separation plants were, what, about 60 feet wide and about 800 feet long and a four-foot thick concrete. I talked DuPont into them. They decided they wanted to pump the concrete up to that arch—the top. And then I talked them out of the idea of building scaffolding. And I got them to build the two outside walls completely, then they could put in the big power crane and they could build forms for the bottom of the roof on that crane and just, with jacks, poke it up into place, fill it full of concrete, and the next day move it on for another 20 feet. And they thought that was great. But they hadn’t thought of—that’s a tunnel process that I’ve had a lot of experience in. Well, that was a big help in the construction method. I don’t know. DuPont—a cute thing that DuPont did—they had a travel transportation guy, on their staff, in charge of all the buses. We had 900 buses at one time taking men down to work and back. And the last batch of buses, we couldn’t get good ones with seats, they were standup type. And the construction stiffs just hated those buses and kicked about them all the time. So DuPont’s transportation man cured the whole problem. He would have these standup ones the last ones that left Hanford Camp to work, and on the way back he’d have them the first ones to pick up at the job site and take back to the camp. So that earmarked the guys that were trying to loaf. And there was no more kicking about it, stopped it completely. I say, ingenious, people thinking, you know, of something. That’s the kind of people we had around there. They’d get a problem of some kind and figure out how to cure it. And I didn’t have to cure it for them. [LAUGHTER]
Putnam: Well, thank you for spending so much time with us, and one thing I thought was that perhaps—I know you had a lot of anecdotes in your notes today, it might be interesting to—if you had any of those that you wanted to tell. Do you have any of those stories, or would you like to look at those, and tell us of those stories?
Camera man: I’m losing a wire.
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[Woman off-screen]: Frank? One of the stories that you told me that I thought was interesting was—
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Camera man: We’re rolling.
Matthias: Yeah, we had—yeah—this was one of the tough things that happened. It must have been about, in early ’44, and I had some friends from Portland who had invited me down to Astoria for a weekend fishing there at the mouth of the Columbia. And I finally arranged that my assistant, Harry Riley and I would go down there and get there Sunday morning, early. We left Saturday night and drove all night almost. And we went out fishing about 5:00 in the morning on Sunday. And we were out in the boat, out in Astoria, off west area and a shore patrol boat came up looking for me. They had a message for me from Hanford, that I needed to call back real importantly. So, they took me back to a telephone. And here the problem was, that the pipefitters were going on strike the next morning, and they had agreed—not agreed—they demanded that they would all be in the recreation building the next morning and they would get a couple of international officers there, and they were going on strike. So we went right back to Richland, got there first thing in the morning. I went out to their camp to meet the strikers. And they had 500 or 600 of them in the theatre, and about five or six guys up on the stage that were talking and they had a loudspeaker and trying to work up feeling about it. And there was one young guy that I knew in that group. And I knew he was a union man and I’d had some dealings with him. So I got him to help me get control of the microphone. So I finally got it, and I was very short to them, I said: you know, you guys, somebody in you guys is violating your promises. We have a contract with you that you do not strike. That we have other ways to solve your problems. And I said, some of you also have been told that this project is very important and we need you and the country needs you. And I said, you know, I think you knew all that; there must be some people that are leading you into this, and they’re wrong and they’re against us. And I’d like to have them all be picked up and sent back to Germany where they belong. And I think, if anybody’d had guns they would have shot me, it was such a violent complaint. And I got them all quieted down and I said, look, I didn’t call you guys unfaithful and unpatriotic, but there must be some of them, some of you, that are promoting this. And how about living up to your contract? I’ll meet you all this evening about your problems; how about going back to work? I’ll have the buses at the door in ten minutes. And they all cheered. And they went back and got in the buses and left. And as they were rushing out of that door, the two international officers came in and they wanted to get them back in so they could talk to them. They just paid no attention to them. So we solved the problem; it wasn’t a bad problem. That afternoon and the strike was over. Well, those are the kind of things that you hit sometimes. And I was kind of tired after I got through with that. I’d been up the night driving there and the night driving back. So, that was quite an interesting case and the DuPont people just felt that was great, that I had jumped in on that one.
Putnam: Yeah, it sounds like it. Well, you had a crisis a day, it sounds like it. You needed some action there.
Matthias: Oh, we had, we didn’t have that many. But we had quite a lot. I had a close call with the electricians, at one point, but I happened to know real well the electrician president in the east and he corrected it for me awful quick.
Putnam: So labor management was a good deal.
Matthias: But I didn’t have a lot of labor management. Really, DuPont handled most of that. They were employees of DuPont and I was really sort of butting in when I got into it, but I could do things as an officer that they couldn’t.
Putnam: Mm-hmm. Well, any other thoughts?
Matthias: Oh gosh, I have so many things that I could talk to you about but I don’t know what.
Putnam: Well, if you think of anything else then we would like to hear about it. I know that all this—
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Matthias: One day I kept getting telephone calls from the security officer under General Groves in Washington. He said, there’s a report that a girl was killed on the railroad track, on your project. And I said, where’d the report come from? Well, I don’t know, he said; it’s come to us as a valid report. I said, well, it didn’t happen, because I’m sure I would know about it within five minutes after they were found, and you couldn’t have gotten the news that fast. All right. So then a little while later he called me again. And he said, they’re very positive this happened. And I told him not. And the third time he called he said, look, Jack, I’ve just gone out and put a marker on the railroad track where that gal was not found. Now that’s all I’m going to do about it. [LAUGHTER] And I never heard about it again. [LAUGHTER]
Putnam: That’s great.
Matthias: There were quite a few funny things. But I don’t remember many of them anymore.
Putnam: Well, from the people we’ve talked to it sounds like a real take charge—just people wanted to get the job done. And it seems like those were the days when you could actually do that and there was no red tape.
Matthias: Yeah, that’s right, we didn’t have anybody that held us back. It was great. And all of that was simply because Groves had been put in full charge of this project and he could sneer at almost any other government agency, because he had the President’s backing.
Putnam: Sounds like he was pretty good at sneering, too.
Matthias: Well, he was pretty good, but he knew when not to. He was a very intelligent man, really a very, competent. God, if he’d been just one yard better, he would have been a divinity, I think. But he was really a genius.
Putnam: That’s what I’ve heard.
Matthias: He didn’t spend much time trying to make people like him.
Jay: One thing I remember in our conversations here, at Hanford, you made the comment that you had so many people under your command. In fact, you had more people under your supervision than any other colonel in World War II, if I remember.
Matthias: Well, General Groves—one time I was out with General Groves and sort of in late—in the fall of ‘44 and he said, you know, I’m trying to get you promoted. And he said, it’s awful hard to convince the Army authorities that anybody that’s just in charge of a construction project should be promoted to full colonel. And he said, I can’t tell them what you’re colonel of, or what you’re commanding. And that bothers me. But then he also told me about that same time that no reserve officer should ever be more than a major. [LAUGHTER] That was like him. But it was only a few weeks later that he called me one day and he said, there’s some news about you, and you’ve just been promoted to full colonel. And that was Election Day 1944. So he was trying to get it fixed for me all the time, but he had to get in a few, you know, things about it.
Putnam: So how long did you stay on then?
Matthias: Well, I left in March, but my replacement came in and spent two months learning the job before I left. But he was responsible then. So I was through with direct responsibility about January—early/mid-January of ‘46. Then I left entirely in March of ‘46. I spent about six weeks teaching my successor.
Putnam: Did you have any regrets when you left?
Matthias: No, not really. And I liked the guy that they sent to take my place, he was a West Pointer, regular officer, ended up Chief of Engineers, did some high class duty in Europe and in Washington, DC, he was Mayor of Washington about four years. When the military appointed one. So, that’s the way it was. And I didn’t have any fun really after the construction was done; it was operations. And we had all that so well organized that I didn’t have any problems, hardly. I ran around giving speeches for a long, couple months.
Putnam: Sounds like you saw a challenge and you took it and met it very well.
Matthias: Well, I guess that’s right, yeah. But I didn’t seem to see any challenge anymore when everything was smooth and working.
Interviewer: --just telling us your name and what your position was during construction, or how you—what your job was. And then tell us how you were recruited. And as—[VIDEO CUTS] If you can, it helps us a lot.
Don Lewis: Sure.
Interviewer: Okay, just a second. Okay. Go ahead.
Lewis: My name is Don Lewis. I was a shift supervisor at the B Reactor startup in September of 1944. How I got here was I was an employee of the DuPont Company. Joined them at Carneys Point, New Jersey, in the smokeless powder plant they had there. And was in training for their military explosives program, and went to Charlestown, Indiana, where I was a control chemist in the laboratories there. Eventually worked into being a line supervisor in the acid and organics part of the plant. During that time, one day I was called into my superintendent’s office, and he indicated to me that he had another assignment for me. He didn’t know exactly what it was, but he sent me to the service superintendent of the plant’s office. I was told that I was going to the TNX project. This was supposedly a super-secret project that we’d heard about but didn’t know anything about. And even the superintendent didn’t know anything about it. But all he told me was that they had train tickets and reservations for me to go to Knoxville, Tennessee from Charlestown, Indiana where I was working. And I went within two days of getting the word. We went, and we were to report to a certain address in Knoxville, which we did. It was just a nondescript storefront. But inside were very many people like myself, plus all kinds of secretaries. We started in filling out forms, and signing our life away, and identifying ourselves. After we got through that for about three hours, why, they loaded us into what was known as a stretch-out in those days. It was sort of a large sedan made into a bus with an elongated body. And took us out to what they called Clinton Laboratories outside of Knoxville, out in the hills out there, and said this is where we would be working. We stayed in the hotel in Knoxville for a couple days until they had accommodations for us out at the Clinton Laboratories site. It was the Oak Ridge site as they call it; it was built around the town of Oak Ridge, Tennessee. So we were moved into dormitories and began our training there. We were told that we were in training for a production plant out in the state of Washington. We heard several names—we heard Pasco, we heard Kennewick, we heard Hanford, and we didn’t know what they all meant at the time. But we stayed there in Oak Ridge at the Clinton Laboratories in training to operate an atomic pile. After our clearances went through, why, they revealed to us what we were doing—the kind of work we were in. It was considered to be extra hazardous work, because of the unknown nature of it. But most of us were not too concerned about the hazards involved, because of our association with the DuPont Company. DuPont has an excellent safety record and excellent safety philosophy, and having worked in a dangerous chemical and smokeless powder manufacturer, why, we were all used to that type of thing. We stayed at Oak Ridge, at Clinton Laboratories, learning how to operate the X-10 Reactor, which was the second reactor made. The first one, of course, being the Chicago Pile—reactors were called piles in those days. About three months later, we came out here. I got here on May the 11th of 1944 and got set up in a dormitory room, and was immediately assigned to the 300 Area as part of the operating crew for the Hanford Test Reactor, or the Hanford Pile. This was a pile that tested uranium fuel elements and mostly graphite that was being machined to be used in the construction of the B, D, and F Reactors. From May the 11th until July the 5th, I worked down there, and then I was transferred out to the B Reactor site, which was under construction at that time. While out there, we were schooled in the operation of the plant—the pile itself. We followed construction and tried to learn about this strange new industry that we were associated with. When we came out, we were told that we could expect to be assigned out here for about two years. Then they felt that the war would be over within the next two years, if our venture was successful.
Interviewer: And at that point, did you know—you then did know that it was nuclear-related or atomic-related?
Lewis: Yes, yes. During the time we were at Oak Ridge, we had quite a few people come in and talk to us, especially—the most memorable man I recall was Dr. Paul Gast, who was one of the pioneers in nuclear physicists. He was also much more practical and could speak our language. We learned an awful lot from his lectures about it.
Interviewer: How much was known about atomic energy at that time?
Lewis: Oh, quite a bit. I was amazed at what they did know, because when I went to school—I was a major in chemistry—and all we knew was that there was uranium and thorium and radium, and they disintegrated in a series of radioactive elements by radioactive decay. That’s all we ever spent with radioactive elements in school.
Greg: Can I ask a question?
Interviewer: Sure.
Greg: You mentioned you knew of—
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Interviewer: Okay, go ahead answer.
Lewis: All of us that were associated with the reactor—with the piles themselves—knew. The top management of the other areas, like the water plant, the maintenance, knew. But it was sort of a need-to-know basis. So the people that ran the power facilities, the water plant facilities, the maintenance facilities, they didn’t have to know about what we were doing. As the plant got built and started to operate, then you had to bring the maintenance people in and they were schooled on what it was. Except—the only thing a lot of people were told was they were dealing with radioactivity. It was what they call a hazard disclosure that they gave everybody. But that didn’t come until later. But those of us who were trained at Oak Ridge to be operators of the reactors and the separations plant and the fuel fabrication facilities and the radiation protection, or health instruments people, were all in the know on what it was. But we had two operators on our shift when we started at B Reactor. They didn’t know anything. We didn’t tell them anything, but they were able to work, and later on, they found out what it was about.
Interviewer: I’d like to know a little more about DuPont—I mean, I think that one of the points that’s certainly been made is that DuPont’s expertise and ability as a company—the management techniques and all—was absolutely critical, and as an extension of that, the ability and capacity of American industry as a whole was very important. Can you tell me a little bit about that?
Lewis: Yes, yes. In retrospect, after I’d been in the reactor business for a couple of years, I was amazed at the foresight that the DuPont Company showed in their design of these plants. There wasn’t a thing that they put in that we didn’t have a use for. They just thought of every contingency. For instance, in 1948, we started to get fuel elements that stuck in the process tubes of the reactors. And lo and behold in the warehouses, DuPont had a whole set of tools for extracting stuck fuel elements from the reactor. I guess the most famous thing about DuPont is the fact that the reactor was supposed to operate with 1,500 tubes. And one of the engineers with DuPont said we’d better prepare for a contingency. And they designed it with 2,004 tubes. As it turned out, because of the xenon poisoning problem during operation, why, the 2,004 tubes were utilized, were required. Of course, DuPont they assigned their—
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Lewis: And of course this is hearsay from me, because I don’t know firsthand, but they told us that Oak Ridge, when we were in training, that these were the latest prints they had. But when we got out there to Hanford, there’s no telling what it would look like, because the design was holding everything up. Getting the design complete—and really the construction people were really pushing the designers. It was that close.
Interviewer: Because they were waiting for the blueprints to work, huh?
Lewis: That’s right. What I was going to tell you was—the summer or ’44, during the completion of the B Reactor construction, we had seminars and training sessions a couple times a day in the office building over there. We had the chief design engineers for each of the components of the reactor come out and talk to us. They gave us the detail and the background on their design criteria that they had to work with, and how they went about designing their equipment. For instance, the guy that designed the control rods and the safety rods was out here. It was really a liberal education for me that summer, to hear these guys talk, because I learned more about mechanical equipment design from them. The fellow that designed the charging and discharging equipment was out there. As a matter of fact, when we first discharged fuel, he was out there, to watch it work. As turned out, his design—it was a perfect engineering design based on what he was told, what his criteria were. But the things that they told him were so conservative, that it was almost—it wasn’t impractical, but it was very slow. We eventually threw out most of that very conservative design and went to—we had our own people design our own fuel handling equipment.
Interview: Logistically, what was involved in the Project? I mean, I know that most people around here worked here know about what went on. As someone from the outside, not having much of a physics background at all, I know almost nothing about—well, I’m underselling that. I know something. But a lot of people know almost nothing about what is involved. In the pile some graphite locks together, and put in some uranium and then pull the rods out and there you go. Logistically, what was involved? What had to be done to begin to—there’s the magnitude of the scale, just from the very small pile coming up. But what kind of industrial capacity was necessary? What types of the graphite? Graphite machining, the aluminum, all that—what was involved in the—
Lewis: Okay. Well, nothing in the form of great quantities of uranium had even been mined. Then the refining of the uranium and then learning how to machine and work with the uranium to make the fuel elements—there was a lot of engineering development had to take place there. The graphite, also—what, 250,000 tons of graphite or—I don’t know what the—the magnitude of the graphite problem was terrific. And the design of the graphite moderator in these blocks about four inches square and about four feet long. And the drilling of the holes in the graphite, the sizing of the graphite. Graphite was very soft, easily—pieces were easily chipped off of it, and it had to be very carefully handled. The people that worked with the graphite, their sweat had to be kept out of the graphite. The graphite itself had to be extremely pure. It was purer graphite than had ever been made before. The development in this short period of time was astronomical. I know the graphite in the B Reactor was not as high quality as the graphite in the D Reactor, which was not as high quality as the graphite that was used eventually in the F Reactor. And they came online within six months of each other. But the techniques were evolving that rapidly. The cleanliness and the precision with which the graphite was laid was absolutely outstanding in my book. They used surveyors’ instruments with very great precision. They put a layer of graphite in and it had to meet certain tolerances, within several mils, I think, of perfection. And then they’d bring another layer of graphite in and do the same thing. When they ended up with that stack almost 40 feet high, there was less than a quarter of an inch difference, I think, from perfection, from being absolutely perfect.
Interviewer: How about aluminum?
Lewis: The aluminum also had to be extremely high purity, because of the different elements that are normally found in industrial products. Even minute traces of them in a reactor would poison down the reactor and make it inoperable. They learned how to purify the aluminum and also to extrude the tubes. They had several different tube designs, and they ended up with a two-S aluminum tube as the best—
Interviewer: So with the welding and the whole—it was an enormous variety of skills and technology.
Lewis: Well, not only that but radiation shielding, too. Of course they knew that concrete was a good radiation shield. But I thought it was rather ingenious—they made the outside biological shields of the first reactors with laminated slabs of iron and Masonite of all things. Masonite with a high hydrogen content and would help moderate neutrons. So with enough iron and Masonite, why, they could capture all of the neutrons and the gamma rays of high intensity that were generated within the reactor.
Greg: I think it might be of interest if you could briefly mention how the uranium got here, what was done to encapsulate it, and how it got out to the plant and then into the reactor. And then what happened?
Lewis: Okay.
Camera man: But before that, if you could maybe sit up a little, again—you’re starting to lean back a little and I get a flash—
Lewis: I’m relaxed!
Camera man: I know, that’s good, but I get a flash in your eyes, the reflection I’m getting. Okay.
Lewis: As far as I know, the uranium came out in billets from wherever it was made back east, I think around in Ohio someplace. And the billets were then extruded into rods. And the rods were then machined into individual—machined to the tolerance for fuel pieces, and then the rods were cut up into individual fuel pieces. All these, of course, were very precisely dimensioned, and checked, and cleanliness was of paramount importance. And then they had to can these fuel pieces, which were a little over eight inches long, a little over eight inches in diameter, inside an aluminum can. And because of the heat generation that would take place in the reactor, the aluminum can had to be metallurgically bonded to the surface of the uranium slug, so that you’d get good heat transfer through the metal into the cooling water which ran outside. The reason for the can was that uranium and water reacted at high temperatures under radiation. The uranium would hydride very rapidly, and the fuel piece would be destroyed. So the can was put on to protect—to shield the uranium from the water. Also, you had aluminum, water, aluminum and no electrolytic couples there that you might have with aluminum and bare uranium.
Interviewer: Had any of this ever been done before?
Lewis: No.
Interviewer: Was this all new technology?
Lewis: As a matter of fact in Chicago—where they made it, I don’t know—but part of the summer, we spent testing fuel elements that they had made in Chicago that were un-bonded. They were just a canned element. They were going to be used in case they couldn’t get the bonded fuel element development in time. Because they weren’t going to hold up the startup of that reactor. That was the hardest job we had that summer, was spending numerous hours autoclaving at a high pressure, in a high pressure autoclave—no temperature, but with high-pressure helium, to check these fuel elements for any pinholes they might have in them. And then we’d put them in—one at a time, we’d put the fuel elements, after they’d been for 48 hours under high helium pressure, in a vacuum mass spectrograph, and we would draw a vacuum on them and see if we could detect any helium, which would mean that there was a leak in the can.
Interviewer: So overall based on the—
Lewis: So they were going to use them in case the development of the bonded fuel element in the 300 Area didn’t pan out. But the bonded fuel element did get—I guess—the first good fuel piece they ever made down there didn’t occur until after the 4th of July, 1944. Rumor has it that a slug—that a shift came in after a long change, all hung over, and in very surly shape, and they got in there and all of a sudden, it was like the dam broke. They started turning out good fuel pieces. [LAUGHTER] They caught on to it I guess. But there was a lot of trial and error in that, that summer down there, with the fuel. But once they got it down, it was all right.
Greg: What was the sequence of events that led right up to the startup, as far as loading and all these kinds of preparations?
Lewis: Well, we kicked the construction people out of the reactor after they had essentially finished everything. We ran the rods, we exercised everything, and the reactor was going to start up dry, so we didn’t have our water system pumping water into the reactor. What they were doing over on the water side, I don’t know. But we checked all of the equipment out in the reactor that we could, and exercised everything, found out where all of the glitches were. And then we had the construction people come back in and finish up all of our punch list items. And then they went out for good. In the meantime, we were beginning to get the fuel out from the 300 Area in big truckloads. We’d get a truck, two trucks a day, I think it was for a while. There we did a lot of hard work, too—handling those fuel elements. There were six elements in a box and they all came in a nice little wooden box to protect them from being scratched or damaged. We got them, we laid them all out, we inspected every fuel element, and eventually we laid them all out on the work area floor in front of the charging face. The first thing that was done was Fermi and some of the other people inserted the first fuel elements inside the reactor. And also there were some special irradiations that went into the reactor, too, first. Then they turned it loose to us and we started loading fuel. They had all of the rods out of the reactor. They had the safety circuits all made up. And as we loaded fuel, they had proportional counter—sort of like a stethoscope—inside the reactor that was indicating the buildup of radioactivity in the reactor. There were a lot of bets on how many tubes it was going to take to bring the reactor critical, and also who—which shift was going to be on when it became critical. It was very frustrating for us operators, because we were really, really loading that fuel as fast as we could. But then the physicists would stop us, and they would run some tests to determine how close they were to critical. So we kind of bootstrapped our way up, and the closer we got to critical, the slower the process of loading tubes was. And it got so we were loading one tube at a time. I was on a four to twelve shift, and I thought that night we were going to make it. But we didn’t, and it was awful close. So we were invited to stay over after our shift was finished, and—I don’t know, 2:00 in the morning or something, it did become critical. So we were there for the dry criticality event.
Greg: What was the indication, and how many tubes were loaded at that point?
Lewis: Well, there was 300 and some tubes, I think. And the indication was on the proportional counter that—every time you load a tube, the proportional counter level of radiation would go up, would increase in intensity. After a while, it would level off. When it didn’t level off anymore is when you had your chain reaction without loading any more fuel. You usually had to wait about ten or 15 minutes before the leveling off process would take place. Then you’d load another tube and you’d wait another ten or 15 minutes. But finally, when it did go, it was pretty obvious. And we had everything set on the safety circuits. And so when the rising level of radioactivity showed that there was a chain reaction in place, when it got up to a certain level, then it automatically tripped the safety circuits and the rods went in to shut it down. Then they pulled them out again and checked it again and did a lot of folderol like that. The next thing was to put water on the reactor. That drove it subcritical again because the water was a poison. We had to get the water system all operable and going smoothly. And then we started to load the fuel, same way again, only with water on the reactor, and using our charging equipment as it was designed to use. Same thing took place. And of course this was history, because a water-cooled reactor never had existed before. And so the closer we got to critical there, why, the more people showed up. And of course, Dr. Fermi was there and Dr. Compton—Arthur Compton from Chicago Met Lab. All those people were there, many of which I didn’t even know who they were, but I knew who Fermi was and I knew who Compton was.
Interviewer: When it happened, was there a sense that this was a historic moment?
Lewis: Yeah, that’s when Fermi made his remark, a child is born.
Greg: Was there a figure on that initial dry startup as to what kind of level it would reach? Very low, but was there a figure tossed around there?
Lewis: Oh, milliwatts. Milliwatts, yeah. And the same thing happened with the wet reactor. And then there were a lot of physics tests. Then they’d load more fuel, and finally they loaded it up to the 1,500 tubes that they had agreed was where it should be. A lot more testing. And then finally they pulled the rods to start their—what they called the power ascension program. And heretofore, we’d only been up in the milliwatts range or watt range, perhaps. But now we were on our way up to the megawatt range. And when they got to eight megawatts—and they were going up in—bootstrapping their way up. When they got up there, to eight, I think it was around eight megawatts, why, they leveled off and the rods kept coming out—
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Tom Putnam: And kind of what place you are in this story, just identify yourself and then if you could just begin telling us—
Greg Greger: When your parents got here.
Annette Heriford: Yes, well I’m Annette Heriford, and my parents—my actual history started back around 1910 when my father and his brother came out here because of some big publicity on the Hanford Project—the Hanford-White Bluffs area. They had a cousin that was in real estate and they were promoting this area as the earliest fruit-producing section in the Northwest. I don’t think either one of them had ever farmed or done any type of orchard growing—or fruit growing, I should say. But they came out in 1910, and then my father went back east and met my mother—this was in 1918—1919, and she came out to Hanford. At first she said she thought it was the jumping-off place of the whole country. But they both learned to love the country. I was born in Kennewick, 1920, and returned to Hanford when I was nine days old. So that was my real home.
Putnam: I think—excuse me—I think I’m going to have to ask Jim.
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Putnam: Okay. Start again with you name.
Heriford: Okay. My name is Annette Heriford, formerly Annette Buckholdt. I’m a true native of the Hanford-White Bluffs area. My history started back in 1910 when my father and his brother came out to Hanford. They had a cousin in real estate and he was promoting this area as—with everyone else at that time—it was the earliest fruit-producing section of the Northwest. So they invested all their money in the Hanford. We lived out about three-and-a-half miles. And I lived there and went to college at the University of Washington, and in fact, I was in my last year when we received word in March of 1943 that we’d have to move out, and we had 30 days’ notice. And that was quite a shock. After the initial shock and—finally resigned myself to the fact that I was going to be a part of this war effort, we were so busy working—we worked six days a week. Once in a while, I’d work seven days and nine hours a day. So that I didn’t have time to really think about all the unpleasantries of having to move and lose my home town, and all of my friends. The fellas had gone off to war in 1941. I was reading my diary the other day, and it said in 1941, I was at the University, and I believe it was—that was on a Sunday. And on the 8th, I wrote in there that I can’t believe that I would ever live to see the day that the shades would have to be drawn, we had blackouts, and I had forgotten some of this until I reviewed that. But it was quite a time in history.
Greger: I think, maybe, a point that you might expand on is a little bit about the community—the kind of community it was, and particularly relating to Richland. Was Richland just a town out there that you maybe played in your school sports or what? And then another—we’ll ask another question and I think maybe we want also a little bit more of your and other—what you think are other people’s feelings about how was this takeover really done? How did you hear about it, and other than the official notice, were there rumors ahead of time? I think this is of interest. But you might start with growing up in this kind of a thing.
Heriford: Oh, it was a marvelous place to grow up. I thought—and still think—it was the greatest place that a child could ever grow up in. And all of the people that’d come to our White Bluffs-Hanford reunion say the same thing. Because we had such a freedom. We swam, we rode horseback and we hiked. I said, we felt like the Indians before us, because this is what we did, was sort of replace the Indians that have roamed there. However, we did mix. The Wanapum Indians came down and they had rodeos. They came to the stores there. I have some videotapes of some of their activities that way. But no, if I could name any place in the United States, that would be the place that I would have liked to have raised my children. But we had such a close-knit community—or communities. If there was any activity going on, everybody in the community participated in it. The schools—we had good teachers. And of course, we lived in a different era. Then we were leaving—pardon me—learning reading, writing and arithmetic and discipline. And in those days, you respected the older people. You respected your teachers, even if you weren’t always satisfied with what they were saying. But the people still have that bond. And other people marvel at the bond we have amongst our members. Because we still carry that. It’s not like friends down the street; we were all one family. If somebody needed help, why, we helped them.
Greger: You might take a bit of time to tell us about the White Bluffs group, which you’ve been talking about. How long have they operated, and what is their official name?
Heriford: Oh, we’re the White Bluffs-Hanford Pioneer Association, and this all started the summer that they had been evacuated. Of course, most of them had to leave in March of 1943. They had the 30 days—March or April. And they started meeting in the Prosser park. This continued up until our 25th year. And then we met in Richland, and we received permission from the Department of Energy to go back to our home sites for the first time in 25 years. You have to realize that the fellas who’d gone off to war and perhaps left, some of them in ’41, but ’42 anyway, and they had never stepped foot on their home site from that time. So they had no homes to come back to. It was a sad time for them. It was a sad time for all of us. But despite that, when we get together, we don’t remember any of the unhappiness that came about. We just have a real good time when we’re gathering out there at the river and along our old home sites, and where these schools used to be.
Greger: I think, for this purpose, we probably would like to hear what you have to say about the reaction to this notification. Was there any clues ahead of time? What about that? How did people feel? What did they do?
Heriford: No, we really didn’t have a clue ahead of time. I think it was in December—November, December—that I noticed that they were drilling down at—would have been the west end of our orchard. And my dad and I said, gee, wouldn’t it be wonderful if they were drilling for uranium and they would find it, or oil or something. We had no idea. So when we received official notice that we had 30 days, most of us were in shock. In fact, now, when I look back, I don’t remember going to see some of my friends that lived clear on the other end of town. You didn’t have time to think, gosh, I wonder what they’re going to do, or where are they going to move. You were so busy with your own immediate family. In this case, my father and I found out that if we went to work for them, we could stay in our home. We lived three-and-a-half miles outside of town. So we did. I went to work in blueprint. My father—I don’t know what he did right at first—but then he was surveying. In fact, he ended up surveying the street that I later lived on where the Jefferson School was built and where my father graduated. But we have histories written about the people, how they felt and it’s just something you can’t describe—to lose so much in such a hurry. If somebody were to knock on your door today, and you had no forewarning, and saying you would have to leave, you would lose your friends, your town, and you would move some distance away. You’d just about have to put yourself in that position and wonder how you would feel about it.
Putnam: What had happened? Give us an idea of what kind of condition people were faced with.
Heriford: We didn’t have any money. People didn’t receive anything at first. And then a lot of us received such a small amount, there wasn’t enough money to move anyplace. Of course, your neighboring towns set up their prices—Yakima and Sunnyside, Grandview—all of them, because real estate started going sky-high then. And there wasn’t enough money to purchase anything come near anything like you had in Hanford or White Bluffs. A lot of people just had to leave, and if they didn’t have a truck, I know a lot of our farm machinery was just left on our place. Because there wasn’t any place to take it. But I think by my father and I working and staying for another year, that transition period was easier for us. Because we had gotten into the work pattern there. We were just patriotic enough that we anxious to do anything to help win the war, and to end the war.
Greger: Were you able to live in your own home?
Heriford: We lived in our own home for just a little over a year. So that helped a great deal. And a few families were able to do that. The homes in town, like my grandmother’s house—she had long since passed away, but—her house was torn down. I rode horseback into town and saw the house. They were picking it up with a scoop—whatever the equipment they had—and that was quite a shock, too. But as I say, once we got into the job and we were so busy, and then I was anxious to see what was going on. The first job I had was blueprints. So I did cover the Areas. And that’s where I became acquainted with the different—the B Area, the D Area, the F Area. But of course at that time, B Area had no significance to me, no more than any of the other areas. During the time that I worked in blueprint, there was a lot of excavation, the reinforcing bar was put in. They were getting ready to pour concrete. But before there was much construction done, actual building there, I had transferred to youth activities and became a youth director, which was an exciting job. I enjoyed it.
Putnam: That was during the construction period? So there were a lot of activities, community activities for—were these the kids of workers and things like that?
Heriford: Yes.
Putnam: Tell us a little bit about. I never heard about that.
Heriford: Well, we had 50,000 people come in in what seemed like overnight. I started to work in June, but I had been there from the very conception of the whole Project, as far as we knew about it. They came in in March, and as I said, I watched some of the residential area just being completely cleared. It remained the same out where I lived. But the rest of the town was just being razed and erased, so to speak. The Administration Building was built that housed all the DuPont workers. We had recreation for all of the children. They had a wonderful program for them, and later on, in 1944, they had a manmade lake. I used to swim in the river when I got off work every night, but I guess they felt that they needed something that would be safer for the youth. So they built a manmade lake—built a lake directly south of the village. And I taught swimming there. They had a marvelous program. They had diving, swimming meets there. We taught all kinds of sports. Money was no object. We had bingo parties for the children. We had a youth center for them; it was manned every day of the week that I can remember. I don’t know about Sunday—I won’t say for that—well, I think so. I had Monday off, so it was probably manned during the week. But I know it was six days a week.
Greger: In that kind of community, were—there must have been an awful lot of curiosity about what the big project was. Did you hear much talk about this? Any speculation?
Heriford: No, it’s amazing. I’ll have to say that DuPont had the best safety program I’ve ever seen and they also had the best security that I have ever seen. Of course, it was during that era, and it was the war effort. So I really can’t compare it, because that’s the only one war effort project I have worked on. But I don’t ever remember discussing it with my friends. Because we knew it depended on security, the successfulness of it. And when I look back, I am amazed at that, that people really didn’t discuss it. We wanted to contribute everything we could to this effort. Because it was a serious war at that time. When they came in 1943 and all they told us—it was needed for war effort. And believe me, that’s all I knew until the day that they dropped the bomb.
Greger: What was your reaction then, on learning this? What circumstances did you learn it?
Heriford: When they dropped the bomb?
Greger: Mm-hmm.
Heriford: I was over in Yakima. We were over in the Wenas country visiting people that formerly lived in Richland. They have Snively Road and Snively Canyon. These were named for our friends, Harry Snively. And they owned a great deal of land at one time on Rattlesnake Mountain and all that land around by Horn Rapids area. So the government asked him if he wanted to sell part of it, or all of it. He said if you’re going to take it, take it all. And then I think he was sorry afterwards. But anyway, we had gone over to visit them, and listening to the news—it was Gabriel Heatter in those days. Very dramatic. When he said that they had dropped a bomb, I still didn’t get the full impact of an atomic bomb. I knew what an atom was, but still—you just didn’t picture an atomic bomb—or conceive of it in your mind. At least I didn’t. And then of course that was on Hiroshima. Then later, the Nagasaki one. When the war was ended, I was living in Richland. That’s when I felt—that was a day of celebration to us, because we had lost a lot of fellas—per capita, we lost a great number of fellas in our communities. And I should say when I heard about the other, in Yakima, my parents had moved to Richland by that time. So that’s where I was living.
Greger: What went on in this celebration that you mentioned?
Heriford: Here in town?
Greger: Mm-hmm, or anywhere.
Heriford: It was open house, all up and down the streets. And I remember people putting out washtubs full of beer, Coke, whatever. And people—it was a very friendly community to begin with. But people that perhaps you didn’t know that well, it was like one big family that day. It was an exciting time. We knew that the fellas would be coming home. And I think we felt a little different, too, because having lost our home and gone through that sadness of all that, I think we had a feeling of pride, because we had contributed. We had truly given. By giving up everything we did.
Greger: Was there any thought by anybody that you might be able to go back, now that it was over?
Heriford: Well, not at that time, because you know they were—well, the war really hadn’t ended as far as getting our troops home and all that. So, no, at that time we didn’t think about it. But later, that’s where I wanted to go, was go back home. In fact, as old as I am, I always say I’d love to go back and have some land there. Live out my years along the river. If they’d allow a few more friends to be there.
Putnam: That’s something that’s very nice.
Heriford: Maybe I’m not answering—
Interviewer: Oh no, you’re marvelous.
Putnam: Oh, no, you’re doing beautifully, it’s just—it’s great, it’s really--
Heriford: I’m not a good TV—video person.
Putnam: Please, no, you’re very good. I’d like to know—
Heriford: Because I know you’ll only take a segment of it.
Putnam: Well, I’d like to hear a little bit more about—and we’re going to run out of tape in just a little bit. Oh, I better actually change tape. I’d like to hear—[VIDEO CUTS]
Heriford: The question, and I’ll just tell a little bit about the towns and taking that into Richland, and—
Greger: Okay. Okay.
Heriford: Well, Hanford and White Bluffs actually were two great rivals back in days that I remember and all during my school days. We were seven-and-a-half miles apart. Sports were vital in both schools. We didn’t have TV and we didn’t have everything that’s going on. Sports are still important in the schools, I know, today, but with us, it was our main activity during school time. So we had such rivalry that until the time our school burned down and we had to go to school in White Bluffs—that was 1937. We always blamed it on White Bluffs, that they burned our school down. Later, theirs burned down and they blamed it on us as retaliation. But of course, we joked a lot about it, but I think some people might have believed it, too. After we went to school and became integrated, we really built up quite a bond of friendship there. We loved it. But as far as activities and outside activities, going to other towns, we crossed the ferry at White Bluffs or at Hanford. I know in Hanford, we crossed the ferry, and went downriver for a ways, and then you went up a little winding road through the bluffs, and we drove right from there to Lind, Washington, and then on to Spokane. So that was our highway in those days. So going to Spokane was a big treat. We had our Senior Sneak up there—our 1938 class. But heading—and Pasco was another place to go, because we could get in the theater with our student body pass for $0.16. Go to the M and M café, I think it was—Chinese café afterwards. No one had much money—you have to realize this was during the Depression years, and money was scarce. But we had—everybody was creative and ingenious, I think, when it came to just having fun. On the way to Pasco, we came through Richland. In the early days, you came—we left Hanford and you went straight to Horn Rapids. That’s where the Wanapum Indians used to do their fishing, and they would camp there. That was one of the places, I should say, that they did their fishing. They built scaffolds, just like you see nowadays. But then the road wound around by the Snively place. We went over one little bridge and it would wind back and forth over another little bridge. We came out—what is now known as West Richland—came over the twin bridges, there. From West Richland, came into town, via Van Giesen. The Grange Hall was where the Lutheran church is now, and into town. So we went through Richland, but our main purpose at that time was to get to Pasco and Kennewick. Kennewick used to have a lot of parades. They had rodeos. Just getting out of our two small towns, any town that was bigger was quite a treat. So was Richland, I know a lot of the boys probably went to Richland, dated some of the girls there. But we did have sports with Richland. They had a good basketball team. In fact, one of my best friends went to—they had to move; they had a dairy farm. And she went to school in Richland. She said she’d beat us. We’re still arguing about that. [LAUGHTER] But all of the towns played an important part in our lives. Of course, we had the friends, the Snivelys, so we did come to Richland every so often.
Putnam: It was a very productive agricultural area, wasn’t it?
Heriford: Richland was a beautiful community, really. A lot of real nice farms. I don’t think people realize that, just how far the farms extended. They were clear out to—well, just south of where your 300 Area is now.
Putnam: Some of the literature, the old literature I’ve seen, this was sales literature that talked about the long season and the early crops. Was this in fact a competitive factor in fruit growing?
Heriford: Yes, very competitive. Because we were two weeks ahead of the rest of the market. And I have newspaper clippings where our fruit went to New York and was so well-received, it was shipped abroad, shipped to the Orient. It was predominantly apples. We had quite a few people who raised soft fruit like peaches, apricots. But I think the main crop was apples, because when you start sending soft fruit—in those days, especially—it would never have lasted that great a distance, with the containers—the shipping that we had at that time. In the early days, I have to mention about the sternwheelers. That’s how fruit was hauled. It was taken down to Pasco, Kennewick, probably, and then it was shipped by rail. Because the railway didn’t come into Hanford until about 1913—I think it started around 1912 up in White Bluffs. Then they put in the cold storage plant in White Bluffs. So that’s where they got their ice and shipped the cars from. We used to all pack fruit during the summer to earn money to go to college, or just to earn money for expenses when you were in high school.
Putnam: Did you have electricity, for example, in Hanford and White Bluffs?
Heriford: We did, we had electricity, we had cold running water, and your bath facilities were outside. I mean, your outdoor bathroom—outhouses, as they called them in those days. I remember visiting friends and staying all night, and several of them used lamplight to study by. So I thought, well, we were really fortunate to have electricity. But yet it was exciting to go to somebody else’s house, where they did use the lamps—oil lamps, kerosene lamps.
Putnam: I grew up in rural Missouri, born in 1945—in town, but I used to visit friends out—they didn’t have electricity sometimes. So it’s not so unusual, really, that—we forget how long ago that was—or what a short time—how far we’ve come in that length of time, how much we take for granted.
Greger: [UNKNOWN] One area I wonder if you’d like to comment on: it seems to me that you were in a unique position in that you got the job. I was wondering, what is there to say about the period when everyone else moved out because of the notice, and then what happened? What was the sequence of this whole thing moving in there? Could you kind of describe that period?
Heriford: Well, to say the least—
Greger: What did you see?
Heriford: To say the least, I was overwhelmed. Because I went to town quite often. I wanted to see—I lived out three-and-a-half miles. I wanted to see what was going on. And to begin with, they were all men, construction workers, and it wasn’t exactly a safe place for a 22-year-old girl at that time, or at least you didn’t feel safe. They did start up where they had dances right away, and I loved to dance. As time went on, we used to dance about five nights a week. So once it happened, every night was a Saturday night, I think. They had a lot of activity. They built the recreation hall that we had. They used three shifts round the clock, and as I remember it, it was eleven days. I’ve heard other numbers, but I remember them saying eleven days at the time. This was where we played city basketball. They had prize fights, we had dances, we had big name orchestras—Kay Kyser of course was one of them. Just lots of activity coming in there. We had Truth or Consequences program, which I got involved in. I worked in youth recreation, and so I attended all of the functions at that recreation hall, if youth were involved at all. Because our main director of the recreation program insisted that we be there to see that everything was quiet and also safe. Something I’d like to get into, which I didn’t—when the government came in, you have to realize that we had gone through a period of Depression, after the big crash of ’29. I have the books that my father—they kept track, and the receipts and all. In fact, it used to be that we went to California before this crash. And then during the harvest time, or it was time to prune, why, we would come back. Dad worked for the oil—Union Oil Company, I think, down there. But then as the Depression set in, of course, we didn’t travel anymore. That was the end of that. But the farmers had to get loans, not because they didn’t have good crops; there wasn’t a market. An apple still cost $0.16 on the train I rode in 1936. I went back to Pittsburgh and Cleveland and I couldn’t get over the price to think that one apple cost $0.15 when the farmers didn’t sometimes reap that much out of the box after they paid the fruit companies. Everything had to be done as to processing—processing the fruit. And the grower ended up without anything. But I know my parents would get a loan, and they had to pay the help, the pruning, the picking, everything. So it was quite a period in time that was a struggle for all of the farmers. And the fruit growers. So when the government came in, they just—they were thinking about these times and perhaps the land wasn’t worth anything. That was beautiful land. And you could go out there now, in one year’s time everything would be green and start producing. You go to Desert Air now and look at the orchards. But we had a marvelous location. We were protected, I think, a lot from the cold that they might have farther south. They speak of the 200 Areas, now, I think when they take the temperature or wherever it is, at 622. Well, they didn’t—we never had that cold of weather. We didn’t have very little rain fall, so we depended on irrigation. We had a wonderful well, so that helped us.
Greger: Back to the official notice, one other account I’ve read said that some of the people first clue was a notice in a Spokane paper, of a declaration of the taking, I think they called it. Did you hear anything before the official notice out there that was significant?
Heriford: No, I didn’t—I don’t remember at that time reading anything. As I say, when you’re in shock, sometimes you forget some things.
Greger: What form did that notice come in?
Heriford: Well, I thought we received a letter, because I have some of the information as to the price. Like they offered us $1,700 for our 30 acres and our home and our well and everything. And the well cost $1,900 to bring in the line and then the motor. I have the papers from the motor. When you see all this, you—I think I became quite ill at the time. I just couldn’t accept it. It seemed so unfair. There was no justice as to the price. But then after we—as time wore on, and we were working, I went to work in June—not until June. But I’m at a loss for words there. Truly.
Greger: Did the fact that you were a native there make any significant difference in your work as to relationships or any—
Heriford: Oh, no. I’ve often thought about that. But I was Q cleared, and I delivered blueprints and took care of the classified material. We didn’t have a shredder in those days. It went down to the dump grounds. They had a steel cage, everything had to be burned. I had to shake the ashes, make sure that all of it was burned. That was part of my job working in the blueprint. I was cleared, because when I delivered blueprints, and they said, why do you want to do this, if you’ve had college training? Why don’t you be a secretary? And I said, well, first of all, this pays more than being a secretary. And second, which I’ve told this so many times, but it’s true—I wanted to see what they were doing to my land. Driving there every day and I still didn’t know what they were doing except tearing it all up. And huge building foundations.
Greger: What actually happened with the land that belonged to your place? What happened?
Heriford: Our home, evidently, was left there. And not taken, probably, until the ‘50s. And it was moved to West Richland—no, to Benton City, along the river. But I could never locate it. They kept telling me it was along the river. The Webbers had moved it. They got a contract and did quite a bit of the moving of the homes. Some of the homes were just torn down. But the big screen porch was taken off, the shutters were gone, the roof had changed, and it wasn’t until about three or four years ago that I recognized my house by my bedroom window, after it was shown where it was. But they tore up our orchard, and the trees are still laying there. So I like to go out in the spring, walk around. The spray pipe--we had stationary spray pipe—to begin with, people had a sprayer that was drawn by horses, mules, and you went up and down the orchard. That’s how they sprayed. And when it was empty, why, you had to fill it up with the spray and the water again. But then when we had the stationary sprayer, my dad had overhead spray pipe into the area, and faucets then where he could hook into any one of those pipes and spray, which made it a lot easier. Then they pulled some of the trees, too, in the late ‘30s, because he kept all of the Extra Fancy Delicious. And our cherry trees, the orchard was bordered by cherry trees on the north and south ends. But I like to go out and see the remains even yet.
Greger: Was nothing physically built on your—
Heriford: Oh, no, there isn’t anything. Nothing. I see what you mean now. No, there wasn’t anything built out there. So it’s easy for me to go right out to my place. None of that area. It was all on the other side of Gable Mountain.
Greger: You might comment again about the relations with the Wanapums. Just a little bit more, if there’s more to say.
Heriford: Oh.
Greger: You knew about—well, you knew where the villages were, of course—the main one up by Priest Rapids.
Heriford: Yes, now we had several people who actually visited move to Priest Rapids. The Webbers—Russell and Dorothy Webber moved up there. So they knew Puck Hyah Toot, or Johnny Buck as we called him, and they knew quite a few of the Indians. Dorothy Webber was telling me just this last week, she said, one of the ladies would just come up and open the door and walk in. They felt free to do whatever they wanted. People always had good remarks. I mean, they felt kindly toward the Wanapum Indians. And Mr. Reierson who owned the trading store in White Bluffs said that Johnny Buck would come in, want to know what bills his people owed, and he would pay up. He really admired Johnny. Joe Brill was our bus driver. He owned the airplane. We had an airstrip between Hanford and White Bluffs. And I forgot to mention, we also had what they called the in-between area, and that’s where I lived. If you lived out three miles out from town, I think you were in the in-between area. So when they wrote in the newspaper, it would always be In-Between News, Hanford News, and White Bluffs. But we had a newspaper, and if anybody made a trip to Yakima, they motored to Yakima, or they motored to Pasco, that was big news. Specially in the early days, when they had a car with a motor in, that was news. When the touring cars came into town. Because some of our early pictures show the hitching posts in front of the stores. I have a lot of those pictures in the 1920s and earlier. That was something that—I don’t know what happened. I know with security in town, when they came into our area, we weren’t allowed to take pictures. But I think we still could have taken pictures prior to the time that was really taken over. I’m just lucky that my friend and I took a lot of pictures. I think we must have had a premonition, because we had little Brownie cameras and we took pictures of everyone and everything. Her pictures burned up, but I still had mine. So we still have quite a few.
Interview Two: Okay well—
Heriford: It’s blinking, is that--?
Putnam: It’s almost to the end of the tape.
Heriford: Well, I just talk so much. I shouldn’t talk so much.
Putnam: Oh, no, that’s exactly what we want. It’s just—
[VIDEO CUTS]
Interviewer One: Well she did have kind of a—if you listened to her, kind of an oddball on the first round.
Interviewer Two: Okay, if you could just kind of start by telling us your name, your background and what your function was here, and then we’ll go back into—
Jim Freimyer: Are you ready now?
Interviewer Two: Mm-hmm.
Freimyer: My name is Jim Freimyer. I came to Hanford from Morgantown, West Virginia in August of 1944. I was working for DuPont in the ammonia division. The opportunities came up to transfer to Hanford if you so desired. At that time, it was—and still was—a very hush-hush project. All I knew was that I was going to Pasco, Washington, I knew my job title, and I knew my salary. And they gave you your travel allowances, tickets, and so forth. I went on two weeks’ vacation, and then I came to Hanford. Fortunately, in the Pullman car from Chicago, I shared one of the bunk sections with a Dr. Meyers, who was a metallurgist. He commuted quite frequently between Chicago and Hanford. We knew several people in common, so I felt like I was slightly indoctrinated before I got to Hanford. And he said, don’t worry, as soon as we get there, why, I know you’ve got orders to go to the transient quarters. And he said, I’ll have a car waiting there for me. He says, why, he’ll bring us both up to the old transient quarters. So when we got in, I looked back and there was two sections of trains practically every day from Chicago. And people with armbands said DuPont on it. I wondered what the score was, so I found out later that these people with the armbands were sort of guarding the second section to keep them from jumping ship! [LAUGHTER] And it was quite—I shall never remember the first time I crossed—entered—the Pasco depot. There was drunks and mess everywhere, and you had to dodge all this. He and I were still together, and finally this driver came up and he was announcing for Dr. Meyers. So finally we got together with the driver, and he explained to the driver that I was in the operating crew and had to go to the transient quarters, and he’d like to travel along with me. No, sir, we can’t do it. My orders are for you, and that’s all I’m taking. So that particular night, why, right across from the Pasco depot they had sort of a marshalling yard for all the incoming employees on the second section of the train. Well, we must have gotten into Pasco at about, oh, 1:30. And I had to wait until they processed the complete second section train before they would attempt to bring me to the transient quarters in Richland. They brought me by myself on a bus. Only passenger. I was awakened the next morning by a swishing sound. I looked out the window—hadn’t been in bed over two or three hours—and I saw the first sprinkler of my lifetime. It was one of those—oh, what do you call them—impact sprinklers. So, I couldn’t tell what the terrain was like. But I inquired, and I went over to the old 703 Building. And I reported in to the office of Murray Acker. He was the superintendent of the power group. During the time that I took for vacation, why, they had processed me and clearance and everything, so I was in employment just a few minutes. And then I went back to Mr. Acker’s office and he took me to B Reactor. I had never been in the West before, and sagebrush and thistle was something new to me. At that time of the year, it was hot as the dickens. I thought I’d burn up. So, we traveled for roughly 30 miles, and we got to B Reactor. I was in awe by the immensity of the Project, and this was only one reactor. My job back east was to supervise the filter plants, the waste disposal pumping stations, and the water treatment and powerhouse. But ours was very small as compared to what we saw here. So, I’ll let you give me a few questions.
Interviewer Two: How did you first hear—how were you recruited? How did you first hear of the Project?
Freimyer: I think it was through supervision word of mouth. Prior to my applying to come here, several people that were in the same department I was in had already left. For instance, Ed O’Black was one of them. He was one of our substation operators on our generator panels. So I just decided that I’d give it a try. Today, it’d scare me to death to think about something like that. Going all the way across country. But we were young, so we gave it a try. I might add, I didn’t know it at the time, but I indirectly observed some of the tests on equipment later used at Hanford. Particularly, the 190 pumping equipment. If you recall, Interviewer One, you had that big fly wheel? To give you that stored energy for that few seconds you needed it on the reactor? Well, those tests were conducted—I saw them build the facilities and conduct the tests. But it was hush-hush. I didn’t know what it was for.
Interviewer Two: When you first came here, what did you see? I mean, how far along was the Project at that point?
Freimyer: Oh, I came here in August. They went critical in September. So as far as B Reactor was concerned, it was just primarily mop-up work before the reactor started. Because it was only about six weeks’ interval there, or so. And our job was to—on some of the facilities, they weren’t quite complete—we would inspect them for cleanliness and the capability of starting the facilities.
Interviewer Two: At that point, how much did you know about the Project itself? I mean, you must have known it was war related, did you know—
Freimyer: I knew it was war-related. It was very important, because management back east, and also here, emphasized those facts. But at that time, I didn’t know. But shortly thereafter, I did. It was hard in those days of being a supervisor of trying to convince people that their efforts were worthwhile, since you couldn’t tell them the whole story.
Interviewer Two: What did you do? How did you do that? How did you get them motivated?
Freimyer: Primarily by telling them the same as you had been told. That someday they would be proud to have taken part in the Project; that it was about the top priority in the United States. And they bought it. In fact, in those days, we had war bond drives quite frequently. And you would be amazed at some of these operators that we had that were former carpenters or millwrights or so forth on construction, the money that they used to buy war bonds with. They were very patriotic.
Interviewer Two: Was there a sense of being involved in a real patriotic effort? I mean, was there kind of a group spirit?
Freimyer: Oh, yes, there was. Group spirit in everything.
Interviewer Two: Let me ask you that question again, and if you could make a full statement on that.
Interviewer One: I was going to say, it would be interesting to hear what kind of rumors there must have been of what it was. I’m sure people were guessing.
Freimyer: Oh, yes, there was rumors. It’s the old common one. Two little kids playing and one asked the other one, what does your daddy do out there? And he says, well, he works in the toilet paper factory. Well how do you know that? That’s all he ever brings home! [LAUGHTER] That’s one of them. Well, to be frank, people were told, and when they were indoctrinated in their security aspects of the place, the people just learned to keep their mouth shut. On the job or in town, you didn’t say anything. Period. Not even to your wife, friends, at a party. They knew that people that tipped their elbow pretty heavy, they were under scrutiny. Aside from being patriotic, people were just afraid to say anything, because they knew their job, livelihood, and possible prosecution would be forthcoming.
Interviewer Two: Was there—I was born in 1945 and certainly don’t remember anything about wartime, or—I remember the post-war period—but in the country or here, in a sense, what was the feeling like during the war? I mean, it was—were things pretty desperate?
Freimyer: In what way do you mean desperate?
Interviewer Two: Well, I mean, a sense that there was a really feeling that we were in it as a fight to the finish, right?
Freimyer: Oh, yes.
Interviewer Two: I mean, it was not just something that was far away, and that people were going to—the only war I lived through was the Vietnam War, and it was kind of removed, and it didn’t really affect us much back in this country, except for the demonstrations.
Freimyer: The whole atmosphere of the American people as far as patriotism is concerned, I think started changing some in the Korean War. But then it was a direct flip-flop in Vietnam. Those conditions weren’t prevalent during World War II. Everybody was patriotic. They did everything they could to further the war effort.
Interviewer Two: Well in the war—and it was—there was rationing, there was—you’re giving up things, you’re making real sacrifices.
Freimyer: You were rationing on meat, well, fruits, practically everything. But people took it in stride.
Interviewer Two: Can you give me a full statement, just basically a statement of description about, how did people feel about how much—were people affected by the war effort, and what did they have to do?
Freimyer: Well, meat was rationed, butter, a lot of your scarce commodities that the armed services needed. People had no qualms about doing it. They might gripe a little, but you very seldom heard that. They were just patriotic, as far as I can see.
Interviewer Two: And there was a real sense of contributing to the war effort.
Freimyer: Right, there was.
Interviewer One: Most of them had relatives who were in the service, or—
Interviewer Two: Right, uh-huh. Okay. Let’s see.
[VIDEO CUTS]
Freimyer: I’d like to explain one thing to you that—in 1944, well, when most people in the operating group left the East, they were supposed to have a house waiting for them. I think everybody was told that. But when they got here they found that it was a horse of a different story. That they were still building, as rapidly as they could, but they couldn’t satisfy the demand. I recall, along with one or two that’s on this list that Interviewer One gave me, we were sent to live in sort of a barracks type thing in Kennewick, on 10th Avenue, about where the Kennewick General Hospital is now built, in that section there. And I can recall, I had to get up at 4:00 in the morning to get to work at eight. I had to walk from 10th Avenue to the old Pollyanna Café on Avenue C. I don’t know whether you remember it. It’s where Pennwynn Plumbing and Heating is now located. I got on an intercity bus. And by the time I got to the Area, I had changed buses five times. And that made a long day of it. I had to repeat it in the evening. Well, fortunately, I only had to put up with that for about six weeks or two months.
Interviewer One: [INAUDIBLE] suggested a question. I wondered how, from their point of view, what happened at the time it started [INAUDIBLE]?
Freimyer: As far as going critical or so forth, we in the other end really weren’t in on the actual details. As far as we were concerned, we were told to start or stop or accelerate the facilities. And that was about the end of it. I do recall seeing several of the noted scientists that were here at that time. I recall seeing Dr. Fermi. I didn’t know him from Adam then, but I did later. There were several of them here at that time. But as far as actually going critical, I don’t think anyone outside of the knowledgeable reactor crew knew about it.
Interviewer One: How was the news of what it really was—how was that released? What kind of an impact did that have?
Freimyer: In 1945, prior to—well it was in, I’d say, June or July of ’45—management talked to each of us and told us that there would be some news forthcoming. To neither confirm nor deny the release. When I first heard about it, I was back east, due to a death in the family. The news broke when the bomb was dropped. At that time—I was in West Virginia—you hardly saw anything about Hanford. It was all Oak Ridge. And when I got back, why, the employees were just flabbergasted, the town and everybody else, when the news release came out.
Interviewer Two: How did you feel, and how did the other people feel, when you learned what it was?
Freimyer: I felt good, because it shortened the war. I don’t regret it at all. And I think the right decision was made. I do feel one thing about people—about the nukes and so forth. But I also feel that we have gone through over 45 years of world peace—I’m speaking on the—in the magnitude that we had in World War II. Had it not been for the atomic bomb, I don’t think that we would have experienced that. Now, to me, I’m more concerned about our threat today than I ever have been.
Interviewer Two: What do you mean?
Freimyer: By the break up in Russia. Because I think you’ve lost your control.
Interviewer Two: Yeah, it seems--
Freimyer: Also, a lot of these other countries are on the threshold of developing nuclear weapons. When the two super powers were in control, each of them had enough sense not to start anything. But some of these smaller countries—
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Freimyer: We have more employees here than we did during the days of nine reactors going and several separations plants.
Interviewer Two: Uh-huh. That’s hard to believe, isn’t it?
Freimyer: So you can see where the effort is.
Interviewer Two: Yeah. And it’s probably going to be more people coming, too, with all the—
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Interviewer Two: We just talked about. One, the first one Greg asked about, what kind was the—how then—I think, how did the nuclear technology develop, or what—
Freimyer: No, his question was—
Interviewer One: I said, communicated to the employees who didn’t know anything.
Interviewer Two: Oh, right.
Freimyer: At that time, shortly after the bomb was dropped and VJ Day occurred, the Manhattan Project came out with an official publication that explained the whole thing. It was called the Smyth Report. I don’t recall where this fellow was from—it could have been MIT—but one of the prestigious schools in the East. I would like to make one comment, though, and it has always been my feeling that our federal government is very much remiss as far as nuclear energy is concerned. It’ll be our energy of the future. But the mistake was made back in 1945 that they did not try start an educational program in the schools to teach the children the merits of nuclear energy. Consequently, people have to form their own opinion. There was a lot of communications through your various media that overkilled the subject, there was half-truths, and the public in general runs scared when nuclear energy is concerned. And we have to contend with—just on the west side of our state here, they’re all anti-nukes. I can’t understand why they let it go. Okay?
Interviewer Two: Yep. Well, I remember Atoms for Peace, under Eisenhower and that. There was some effort at that time, but then not much after that.
Freimyer: What amazes me is your chemical plants throughout the United States industrial complex. You can have an explosion and you can kill several and injure dozens more and all you see is a three- or four-inch article in the newspaper. But let somebody get a very slight exposure in nuclear energy, and they’ll paste it all over the front page.
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Interviewer Two: What would you like to tell not only people today, but future generations about the experience of being involved in the early days of the nuclear age, if you will?
Freimyer: Well, I’m proud to have been a part of it. As I said before, I don’t regret it, and the lives that were lost in Japan. One way of looking at it—I believe that there was an article in the paper not too long ago that quoted Fermi, that said if it hadn’t been a miscalculation on his part, Hitler would have had it. Did you read that quote, Interviewer One? Yup. I read it somewhere.
Interviewer Two: Do you know what that was, that miscalculation?
Freimyer: I’ll tell you where it was. It was in that book of that fellow that interviewed residents of Richland that were here during the early days. It’s a quotation in that book.
Interviewer Two: Okay. Great.
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Freimyer: During the war that we had shortages in several things, but as I mentioned, the American people got accustomed to doing without those things. I felt we had a good life then. We had our social activities and so forth, and I don’t think we suffered. I think we all had fairly good times. One thing was the camaraderie of the people here at Hanford. Because everyone you ran across was from somewhere else. And to me, I think that added to the interest of everything. No, I’ve enjoyed it. I’m glad I came here.
Interviewer One: You’re retiring here, right?
Freimyer: I retired here, and fact of the matter, every time I get east of the Rockies, I want to turn around and come back.
Interviewer Two: When you hear of the efforts to preserve the B Reactor, are you in favor of that?
Freimyer: Yes, I think I am, because that could be a national monument to the commercial production of plutonium. And I think it’s worthwhile. Of course, the main thing there is can you get enough support to do it?
Interviewer Two: Okay.
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Interviewer One: --this is a serious war is that the news of how much damage there was at Pearl Harbor wasn’t released for almost a year. And I remember when I saw those headlines of all those battleships that were sunk, all the sudden it made me think, this is mighty serious business.
Freimyer: Yeah.
Interviewer One: Because I know the attitude when I first heard, oh, they first bombed us, oh well, we’ll take care of them in a couple of weeks.
Freimyer: Greg, if you don’t have this book, I think I’ve got a copy at home.
Interviewer One: I think I have it, yeah, but I’ll look--
Freimyer: It’s one of Charlie [INAUDIBLE] They interviewed both scientific, lay, and technical people here at Hanford.
Interviewer Two: Okay.
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Tom Putnam: Just state your name, and maybe you could spell it for us, since it’s a little challenging. And then tell us when you came to Hanford and how you heard about the Project and how you were recruited. We’ll sort of open it that way, if you don’t mind.
Rudy DeJong: Well, my name is Rudy DeJong. My last name is spelled capital-D-E, capital-J-O-N-G. I was working at Remington Arms in 1943 when I heard about the Hanford Project, which interested me very much, and several others. So there were five of us left in November of 1943 to come to Hanford. It was a very interesting trip that time of the year—winter, cold—but we found Hanford. We spent the first night in Pasco. We got there kind of late at night and we spent the night there. Then we drove over to Hanford. When we got to Hanford, it was on Sunday morning—I remember that—and we found the barracks. We were assigned to Barracks Number 2, and we were told that we’d be eating our food at Hanford Barracks—no, Hanford Number 2 is where we’d have our meals.
Putnam: Let’s turn it off for just a second. Okay, so this was—what was the date?
DeJong: It was November of 1943.
Putnam: So you were one of the very first people to arrive. Pretty early.
DeJong: Yeah, pretty early. We were very early in fact, uh-huh.
Putnam: And who was your employer?
DeJong: It was Remington Arms, which is DuPont. So it was just a matter of transfer up here, so I continued to work for DuPont up here during the construction of the first three reactors: B, D, and F.
Putnam: What did—how much had been done, by the time you got here? When you got here what did it look like?
DeJong: Well, very little. We were living at Hanford, at the time in the barracks, and there was a shop there where we started to work. And one of my first assignments was to work in the 105 Building where they were to machine all the carbon blocks for the reactors. So my function was to set some of the machines and equipment for that activity. Then there was a time or two--oh, two or three weeks—when we were going to the 300 Area, and I was setting equipment for the shops over there and also for the power house.
Putnam: Things were on a pretty tight schedule, weren’t they? It was quite a tight schedule?
DeJong: Things were quite a tight schedule. We were very busy and working long hours. We all had plenty to do; there was no waste of time.
Putnam: What—excuse me—were you a machinist by trade? Is that what you were--
DeJong: Actually, I was a millwright at that time. Millwright.
Putnam: What did—let’s see—where was that area, was that out at the B Reactor site?
DeJong: It was a little later. After they had built the outer walls of the B Reactor then we were shipped to work there, every day, from Hanford to the B Reactor area. It was quite cold then. They had big 50-gallon drums with fires in them to keep warm, so we’d warm up and then go back to work. But by the time I got there, the outer walls were built to full height, and we started doing some work inside.
Putnam: What was story you were telling Greg about climbing those walls?
DeJong: Oh! Some of the survey crew were looking for someone to set a survey target high on the walls. Well, there were actually no scaffolds inside, and they were having a lot of difficulty finding anyone to do it, because they had to be tied with ropes and hung over the wall to do it. So finally I told them I would do it. To do this, I had tools which I carried with me, and the target, and I climbed the outside scaffold clear to full height. And riggers were there, and they tied ropes on me and hung me over the wall. The survey crew were down below, and they were giving me signals where to set the target. Well, I had a starred bit which you hold up to the wall, and I kept moving that around till they give me the signal to stop. And then I took my hammer and made my mark. After that, why, I continued to make the hole, deep enough for the target. And they were all pleased, they said that’s perfect, so I drove the target into the hole. I’m assuming that that was the major target for setting all the other activities. It didn’t take too long to do it. It didn’t cause me any trouble.
Putnam: How long—at that point, were you out working on the construction of B Reactor?
DeJong: Yes, I’d been working there not too long, maybe two or three weeks when I had to set that target. It was after that, that I was doing other work, getting ready to set the floor blocks for the reactor—that is for the carbon portion of it, you know. We had to use mercury levels to level all those blocks. I was also involved setting the outer blocks, which were quite large, and they had to be set very accurate. Those were the ones that would contain all the gun barrels, which were the lines that would go clear through the carbon blocks, clear through the other side. So I continued on that ‘til they got pretty well built clear to the top.
Putnam: How long did that take?
DeJong: This is something I couldn’t tell you, because—I can tell you this, B, D, and F were all completed during 1943 as far as our portion of the work. Because it was December that I transferred to the 200 Areas, and started working January the first in the 200 Area.
Putnam: What was the process of handling these blocks of carbon from the 105 Building to where they were going to be put in? What was the--
DeJong: They were hauled there, on pads, and then the rigging crews would pick them up and bring them inside the reactor.
Putnam: Did they have to be protected?
DeJong: Well, I don’t recall it too much. They were placed very carefully on these supports, and they had to be laid very accurately. I mean, it had to be accurate, if you were off just a little bit—if the height would get out of line, or the width—then the gun barrels would not be able to go clear through the reactors.
Putnam: What was their method of aligning them if one was a fraction off?
DeJong: Well, we had to move them. Sometimes you’d have to move a whole layer if you got off too far. But the important thing was to be very accurate from the time you laid your first carbon block as you go right on through. And it was checked very carefully, and they had an inspector watching things pretty carefully.
Putnam: Was it all enclosed—or, you said they’d bring them over the wall; was the--
DeJong: The outer walls were all in at the time you were laying the carbon blocks, right. They were all to height, then you laid your carbon blocks, then after that, then you laid your gun barrels in and run through.
Putnam: Must have been difficult to keep it clean enough, with the dust and all? I mean, it sounds like--
DeJong: It didn’t seem to be any difficulty there, no. It was pretty clean. They had carloads of Kotex coming in. I mean a lot of Kotex, which made a lot of people wonder why. But those were used as swabs going through the gun barrels and piping. That’s the way we swabbed all those pipes.
Putnam: That’s what I’ve heard. The box cars.
DeJong: Yeah, oh, my!
Putnam: Lots of jokes. Well, what John Rector said—he said that they got a bid from Modess. And it was a cheaper bid, and they started buying them. But they didn’t work, because they were wood fiber.
DeJong: Right, right, right.
Putnam: And they didn’t really hang up. They’d leave a residue. So, anyway, that’s a funny little story. I forgot to ask you that on camera. What was the Hanford Camp and all? Did you live in the camp?
DeJong: Yes, we lived right at Hanford in Number 2 Barracks—that was our barracks—and we ate in Number 2 Mess Hall. Food was perfect. They had wonderful food, and a lot of it. I mean, a lot of good dessert. I’ll have to say that; the food was perfect.
Putnam: They had great pies, I’ve heard.
DeJong: Very nice, oh, yeah. Variety of pies and cake. Boy, we really ate.
Putnam: So in November of ’43—that was pretty early, and there must have—what was it like? Was there activity every day and buildings going up all around?
DeJong: Oh, yes, there was a lot of activity all over. There really was quite a bit of activity, you bet. It was a busy place.
Putnam: Was it a seven day schedule, seven days a week?
DeJong: Yes, well, I worked mostly six days a week, and twelve hours a day. That’s the way they had the shifts pretty much, twelve hours and six days a week.
Putnam: Did the work stop on Sunday or were there other people, other shifts working?
DeJong: Yes, you’d work your shift then the next shift would come on and work the other 12 hours. That’s the way you got in your 24 hours.
Putnam: How much did you know about the Project when you came out? And then as it went on, did you find anything out?
DeJong: No, I didn’t know until after I’d been here a short while. I pretty much had it figured out what it was to be. Now after I was made foreman, then, the foremen, the engineers, superintendents were the only ones that ever saw a drawing! And we had to go into a vault inside the reactor building, look at the drawings, figure and get your dimensions, make notes, then you go out to your crew and tell them what to do and what the dimensions were! I had to make notes in my little notebook, you know. It’s hard to remember all those dimensions, but we did pass on the information and it worked out very well.
Putnam: So, the drawings—the engineering drawings—would come out and be put in a vaulted--?
DeJong: Everything was in a vault. You’d never see a drawing out on the floor; no one saw a drawing except the foremen and the superintendents. Which brings out a strange story, I was 1-A in the draft when I came up here, and I got my notice to go to Spokane to take my physical, with some others. I passed my physical, I came back, and it wasn’t too many days before I got my notice to go into the Army. So I gave this notice to the superintendent, and he says, you cannot go, there’s no way you can get in the Army: you know too much about what is going on. This is a highly secret project. So I did not have to go in the Army. My two brothers did, but I did not. But it kind of gives you an idea.
Putnam: Were some people drafted that might not have had the access to the securer matters from Hanford? Did some get drafted? Did you know of any?
DeJong: Oh yeah, there’s a lot of people that didn’t have that information No, no, I don’t think anyone was ever drafted that knew anything about what was going on. In fact, General Groves was there one day out on a truck talking to everyone and telling us how important this project was. It was snowing and it was cold. He said the Germans are working on the same thing; we must get this finished first. But he didn’t tell us what it was. But it was interesting.
Putnam: What did you do after construction was finished—construction of B Reactor?
DeJong: After the B Reactor, then I was transferred to D Reactor. And completed that, and then we went to F. And when F was completed is when I left there to go back to Operations. And January 1st, ‘45 is when I started Operations.
Putnam: At B Reactor?
DeJong: No, operations in the 200 Areas. I’m sorry, 200 Areas.
Putnam: That’s the separations area.
DeJong: Yes, right.
Putnam: Was that effort going on—when did they start building T Plant?
DeJong: Oh, T Plant was quite early, because I remember standing on top of the F Reactor and seeing smoke coming out of the stacks. They were actually started operating T Plant, because you could see the colored smoke coming out of the stacks. It was very interesting, yeah.
Putnam: That was the separation side of it?
DeJong: That was the separations side of it.
Putnam: And they were helping that, obviously, on a schedule to—
DeJong: Right, right.
Putnam: Were you aware of startup in September of ’44, when the plant first began to run? Were you aware—or were you there?
DeJong: You mean in the 200 Areas?
Putnam: No, in B--
DeJong: No, I was not aware of it then. Well, I heard about it but I couldn’t fix a date to the time. I was very, very busy when I was in 200 Area. Oh, I was a busy man. We were very busy there.
Putnam: What were you doing there?
DeJong: Well, for a short time, I was a millwright, only maybe two or three weeks, until I moved up to a foreman, see. Then I was foreman for a while. And then when they were building PUREX, I was moved to engineering and I was on the inspection of PUREX, every part of that, while it was being built. When it was finished, then I became planner and scheduler and started hiring the help to operate, do the maintenance, operation of PUREX. But—
Putnam: That was later on.
DeJong: That was later on. Oh, I think before that I worked at T Plant for a short time, and U Plant. I was the foreman there at U Plant. Oh, it’s hard to remember everything.
Putnam: Oh, sure. Is it right to assume that, because this separations facility would not have anything from Hanford to separate until the reactor had run for a while, that they were on a later schedule?
DeJong: I was foreman at B Plant in Separations for a while, you know, there. I had all of the crews--all of the maintenance crews there, in fact we even had to the tank farm maintenance at that time. There’s one story I can tell; I don’t know whether you want to hear it or not.
Putnam: Sure.
DeJong: But I was driving a company car to B Plant, and to pull up to the dock, and there’s a large crowd of people all looking up in the air. Flying saucers! Flying saucers! So I run down and got my binoculars and went around the building where I could get a better view. And they moved so fast, but there were three flying saucers. Now, don’t think this is just a joke. This is true, because Patrol was there, and I asked them, and they said we’ve alerted Moses Lake Air Force. We watched those for a while, and suddenly they were gone. I don’t know whether it’s because the Air Force was showing up or what, but then—there was a lot of us saw that. There were actually three flying saucers there that we saw from B Plant.
Putnam: When was that?
DeJong: That would be about ’47, 1947, some place in that area, yeah. In fact, when I first went to the 200 Areas, I guess, oh, perhaps six months after that, we used to see some of these balloons from Japan coming over. In fact, the riggers got some parts of one and brought it in.
Putnam: I’ve heard a lot of rumors, here. You’re the first person I’ve ever talked to--
DeJong: There were actually some; we saw them. In fact, about that time, I had the rigging crews; they were our—see, I once had all of the shops—I was manager of all the shops, all the rigging crews, janitorial services, all of them. And the rigging crews came and showed me that one time.
Putnam: Was there knowledge about the balloons coming over before they were seen? Was there any instructions to people as to what they should do if they saw one?
DeJong: Well, we were cautioned to beware of those things, because you never knew what explosive they might have, or you know.
Putnam: Just tell me the story of the balloons. I mean, do you know how many were sent? Tell us about that. Where did they come from?
DeJong: This portion of the story had to be in ’45, before I was manager, I think, because one of the riggers brought one of them up to the shops. I was foreman then. And I recall seeing one going across. And then this other one—the one they found parts of it—that’s all I remember about balloons.
Putnam: Let’s see. Oh, gosh.
DeJong: It’s kind of a little difficult for me getting my timing right on some of these things, because you’re going back 52 years or—
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Putnam: When was T started?
DeJong: T Plant had to be started up in 1944 before I ever got to 200 Areas, because it was in 1944 we were on top of F Reactor, can see that colored smoke coming out of the stacks at T Plant. So they had to have been operating then.
Putnam: In ‘44.
DeJong: In ’44.
Putnam: Well, it Christmas of ’44, around then, that the first fuel was discharged.
Greg Greger: I thought it was later than that. Could they have possibly had some material from the Chicago Test effort?
DeJong: Might have done; I don’t know.
Putnam: Maybe they were running other chemical process, just to--
DeJong: Could’ve been, but it was colored smoke, I know this, colored--
Putnam: And that was characteristic of the process itself?
DeJong: Well, I thought it might have been, right. And U Plant, of course, that started operating shortly after that, I think.
Greger: Good information about living in the Barracks, living in the Camp, and recreation?
Putnam: Yeah, tell us about the Hanford Camp. And was that—I’ve heard that was a pretty wild place, and I’ve heard it actually wasn’t a wild place. What was your impression of it?
DeJong: Well, I didn’t feel that it was wild, because of course you don’t have that much time there. When you’re working twelve-hour shifts and you’re back, you go to the mess hall to eat, you eat in the morning and you eat at night, it’s—They had the—the women were kept in an enclosure. Their barracks were all enclosed with a high fence, so they were protected. [LAUGHTER] No, I don’t think—I didn’t see any wild activities. They had a theater there, and people had time to go to. And they had a bank there. I do recall so many people there to cash their checks, they didn’t know how to sign, they couldn’t sign their names; they made X’s on their checks. So many of them that did that.
Putnam: Now, who ran the camp, and everything was provided for you, wasn’t it?
DeJong: Yeah, everything was provided, right. It was handled very well.
Putnam: What were barracks like?
DeJong: Well, they were kind of crowded. I think there was—some of them had four bunkers in there. You know, you sleep on bunks: two levels, two levels. You didn’t stay in there very long anyway, but you’re in there to sleep. But they were all right, I can’t complain. In those days, when you’re young, you don’t think about things like that. You’re tired and you want to sleep.
Putnam: What can you tell us about working for the DuPont Company? I mean, people have generally said that DuPont was very well organized. And what about that, the effort involved in organizing so many people for so long and doing such an--
DeJong: I believe that DuPont did an excellent job, I really do. They were with it. There was no waste of time. They seemed to have pretty good control of everything that we did. There was no problems, no discontent that I know of. I was certainly happy with them and they promoted me fairly early after I got there, and they treated me nice, really.
Greger: Did DuPont give an official reason for them giving up the contract to leave when GE took over?
DeJong: Not that I recall. I do not recall. Pension-wise, it did not help me too much. I get a very, very small pension from DuPont, part would be from Remington Arms and part of it out here, the one year, roughly.
Putnam: Do you know the terms of the contract that DuPont had? What were the conditions under which DuPont was hired?
DeJong: I don’t know. I really don’t know anything about the contract.
Putnam: What do you remember most from that period of time in ’43-’44? In your experience, what stands out the most in your mind?
DeJong: Well, there was considerable activity; there was so much work going on. I had one difficult period: I wanted to get my wife up here. I was living in the barracks for so long, I had a young son. So one day on a Sunday, one of the fellows that was a foreman that I worked with had a car, so we drove to Yakima. Drove and drove. And I finally found a home. A lady had an apartment, and she really questioned me very carefully, and it was a nice lady. And she says, okay, we’ll give you an apartment. So I got my wife up here—I think it was March that I got her up here. The only problem was, I was working from 6:00 to 6:00. It was an odd shift, the portion of work that I was involved in at the reactor, and the buses didn’t leave until 8:00 at the barricade up there to go to Yakima. So I wouldn’t—I’d have to be two hours before catching a bus, I’d get home about 10:00, sometimes 10:30 in the morning, I had to get up a 2:00 to catch my bus to get back to work. Can you imagine that? So my wife stayed ‘til about September and then she went back to Utah, and--
Putnam: That was a rough day.
DeJong: Oh, that was rough, that was rough. That was the hard part of it.
Putnam: Was everybody working that hard?
DeJong: Well, I don’t think there’s too many that traveled but there were some. Roads were real rough, buses were rough, shaky. Gosh, they were shaky, but--
Putnam: Pretty dusty?
DeJong: Dusty and rough. It was rough, yeah. So I didn’t get much rest, oh, boy. And you had to work hard, you’re busy, yeah.
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Putnam: --is where they were when they heard the news that the bomb had been dropped. And if that was that the first time they knew, and how that affected them. Do you recall?
DeJong: Yeah, I was manager of the shops when I heard that. Because one of the foremen rushed up to me and heard they’ve dropped a bomb on Hiroshima, yeah. And that was—when was that, ‘45?
Putnam: August of ‘45.
DeJong: August of ’45?
Putnam: Did you immediately associate that with Hanford in any way?
DeJong: Yes, I did, oh, you bet. There was a lot of talk going on when we heard that. I can’t remember whether I was manager of the shops at that time or not. It seems like that’s where I heard it, but my memory is slipping.
Putnam: Mine is, too, and I’m a lot younger than you.
DeJong: Oh, gosh. I guess if I knew more about the questions you were going to hit me with, I would’ve been better prepared.
Putnam: Oh, that’s not a problem at all. And in fact, we want spontaneous memories and impressions, too. Jim Acord said that he had a very enjoyable trip out to B Reactor with you, and that it was quite fascinating.
DeJong: Who?
Putnam: Jim Acord, who was—
DeJong: Oh, yes.
Putnam: He said that you had a nice trip out there. Tell me about that. What were you guys doing out there? It was the first time you had been out there in a while, wasn’t it?
DeJong: Out at the B?
Putnam: Yeah.
DeJong: Yeah, we hadn’t been there in, oh gosh, several years, several years.
Putnam: That must bring back a lot of memories?
DeJong: Yeah, oh yeah. I want to change one story a little bit. I was not manager of shops when that bomb was dropped. I remember it was later on, the foreman rushed up to tell me that was when President Roosevelt was shot, that’s what it was. But it had nothing to do with the—so, I’m sorry. No, I don’t know where I was when I heard that, about that bomb being dropped. I just don’t recall.
Putnam: But you did, you did understand that it was the--
DeJong: Oh yeah we did, we knew that, you bet.
Putnam: Was there a lot of celebrating, or—how did people react generally to it?
DeJong: There wasn’t a lot of celebrating, but there was a lot of reaction to it. I don’t know much—I don’t recall any celebrating.
Greger: I’m curious about one thing. You knew what you were making, because of your position, and--
DeJong: Yes, I knew.
Putnam: Did you know at that time—was it said that this would end up as a bomb? Or how did they describe it its end result? Or did they?
DeJong: I knew it was going to end up as a bomb, yes. I knew that early in the game. Right, right.
Putnam: You must have had been one of the very few people that did know.
DeJong: No, there was others who knew it. There was another fellow that worked with me; he’d gone and been to university studying a little about it. He was a good friend that came up here with me, and he knew what it was. And we both talked about it.
Putnam: Well, security--tell us a little bit about security. It was very tight, wasn’t it?
DeJong: Security was very tight, very tight. It was good. All the way through, even with operations, it’s been very good. You bet. No, I can’t complain about security; it was very well done.
Greger: Did you know of any cases where people were—well—were perhaps terminated or any action taken on them because of security violations? Did you ever hear of that?
DeJong: No. Only thing I recall—once, when I was manager of the shops, one craftsman, apparently an alcoholic, and he used to bring some alcohol in his thermos bottle. And I don’t know—I wandered through the shops quite a bit—and one time I’m watching him, so I walked up to him and I could smell the alcohol. So I said, this is it, I’m gonna have Patrol take you home. And I said, when you come back, there’ll be no more drinking on the job, or you’ll be fired, you know. And by golly, Patrol took him home, I never had a problem with him since. In fact, his wife called me one time and thanked me. She says, he’s away from alcohol. So people can get away from it. Isn’t that something? Yeah.
Putnam: Yeah. Well, let’s see. We covered most of our—
[TAPE CUTS]
Greger: --B Reactor, when you were assigned there, what would a typical day involving you, what would you be doing? Was it mostly aligning the blocks of graphite?
DeJong: Well, that was part of it, yeah. And doing different—setting equipment, you know, ventilation systems, heating systems, cooling systems, and part of that. And then setting the blocks. Those huge blocks, they had to be so accurate. I spent a lot of time on that. And also after the walls were built, we had to set some blocks down to support the carbon, and boy those things had to be perfect. We used mercury levels to set those blocks, so that when the carbon was on, we had no difficulty afterwards, you know, by settlement and whatever.
Putnam: How were those blocks handled? What kind of machine or tool was used to actually position them accurately, as you say?
DeJong: Well, they were set of course with cranes, and I guess we had to—it’s hard to remember a lot of that. You know, I’m sorry.
Greger: It’s all right.
DeJong: I’m sorry. But, I guess--
Greger: I always think of it as a fragile thing, and I’m not clear on how you could even have something that would grip them while you’re positioning them.
DeJong: Oh, the carbon blocks—if you’re talking about the carbon blocks—they slide pretty easy.
Greger: Yes.
DeJong: Yeah, we can move those pretty easy.
Greger: Yeah. What were the other blocks, then, that you were referring to?
DeJong: Oh, they were heavy material to support the whole weight, you know. They were heavy blocks.
Greger: Of what material?
DeJong: Oh, I don’t remember now. Jeez! I don’t remember. I just don’t remember! Hmm!
Greger: Probably a combination of metal—iron and something?
DeJong: Yeah, metal, concrete maybe, I don’t know. Isn’t that strange, I can’t remember that? I didn’t do that too long. Most of my time was with the carbon blocks and the outer blocks.
Greger: They’re relatively light.
DeJong: Yeah, yeah.
Greger: How big was—I know there were probably certain sizes, but how big was an average carbon block?
DeJong: Seems like they were four or five foot long, maybe five or six inches square. I don’t know. There’s another thing that is hard to remember.
Putnam: And all of them pre-drilled so that--
DeJong: Everything was, they were all pre-drilled and pre-machined, to accuracy.
Greger: So that the tubes could be slid in.
DeJong: Our main objective was to be sure they all lined up.
Greger: Were you out there at the time when they began putting up the tubes and these kinds of things?
DeJong: Oh, yes, yeah.
Greger: Were there any problems that you saw?
DeJong: No, not that I recall, no. Putting in tubes.
Greger: What was their sequence of during the reactor? Did they do from bottom-up, putting in the, I suppose the gun barrel first, then the tubes?
DeJong: Yeah, bottom-up, as I recall, bottom-up, right. I remember the gun barrels were welded in while we were building and putting the blocks. While they were set, the welders were welding in the gun barrels, they’d go just so far through, then your other tubes would go right on through, all the way, through the gun barrels. And I do remember one thing: the welders all had a helper working with them, you know, to help them move things and clean the weld if it has to be chipped, you know. And one welder was saying to this one young fellow that was working with him, now watch it. He meant for him to close his eyes, and after a while this fellow says, I can’t watch it anymore! I can’t see anymore! Gosh. Yeah, I remember that.
Greger: Bad choice of words.
Putnam: Yeah.
DeJong: Yeah, can’t watch it anymore.
Putnam: How many people were actually onsite? What was the crew sizes? I mean, were there hundreds of people?
DeJong: Oh yeah, there were hundreds of people. Probably have as many as twelve or fifteen in a crew, depending on what your activity was, yeah.
Putnam: But at any given time, there would be a lot of people?
DeJong: Oh, yeah, because there’s all kinds of other activities, see. My crew’s working strictly on the reactor. Well, there’s other work going on around the reactor. There’s lot of activity inside and around.
Greger: With you folks working a twelve hour shift out there, how did you handle a meal during this period? Did you take a lunch, or what was the process?
DeJong: Yeah, we took a lunch. And we had our meals at Number 2 Barracks before we came out and when we came back.
Greger: And out at the Site, you ate one meal there?
DeJong: Ate a lunch, yeah. We took a lunch.
Greger: Did they have facilities for that?
DeJong: Not that I recall, no. No, no. Something I just—trying to think of. Hit my mind when we were talking.
[TAPE CUTS]
Putnam: The bus from where you stayed—how did they manage all that?
DeJong: Well, the bus going—well, they just had a bus taking you right up to your job site. There was no problem.
Greger: There must have been thousands of people being taken.
DeJong: Oh, yes there was. Oh, you bet.
Greger: That was a whole problem--
DeJong: That’s right. See, when work was going on at B Reactor, they were already started working on D Reactor and then right on to F Reactor. So while you’re still at B, there’s work going on at D, and maybe possible little bit at F, doing the ground work and getting ready for it.
Putnam: What can you say of the magnitude of the reactors themselves and of the Manhattan Project? I mean, it was immense, wasn’t it? Wasn’t it one of the biggest?
DeJong: Oh yeah, it was a tremendous activity, you bet. It was big. Of course, as you say, a lot of people didn’t know what it was, but I think gradually the word must have got around a little bit. We couldn’t talk about anything like that, it was something you just didn’t talk about it. But—I don’t know.
Putnam: It’s an impressive achievement, a huge accomplishment.
DeJong: Oh, yes, yes. It was a tremendous accomplishment. And imagine building three reactors in one year. Look how many years it takes to build one now. It was a lot of work done. It went fast, amazingly fast.
Greger: Here’s this old term termination wind. Did you want to comment on the situation where some people came and looked it over and maybe decided it wasn’t for them? Did you--
DeJong: Hmm, I don’t recall any of that, I think that most of the people stayed. I think so, yeah.
Greger: Did you get into town—Richland—very often?
DeJong: No, no, the only time I ever got to go any place was Yakima. And sometimes we’d drive over to Grandview or Prosser to eat, you know, just to get a change, we’d do that sometimes. One of the guys had a car, so we’d do that. But, no, I never got started going to Richland until around 1945. Got my first house there, January of ‘45, got my wife back up here. Gosh. Oh, there was something I was going to tell you, but now I—
[TAPE CUTS]
DeJong: Oh, yes, I think people, they don’t talk much, but everybody was working hard to get the thing done. There wasn’t any goof off there at all. People were really working. That’s one time they were really working, during that war period, mm-hmm, yeah. Gosh.
[TAPE CUTS]
Putnam: So, you just kind of walked around the building and you saw this? Tell us.
DeJong: No, actually I was driving—I’d been to a meeting, and I was driving a company car up to the dock of a building, and I saw so many people out there. And I parked the car, and they said, flying saucers up there, three of them! So I ran down—my office was in the basement of 271-B—and got my binoculars. And I saw for a moment and then they went behind the building so I run down around the end of the building to get a better view and that’s when I run into the patrolman. And I says, flying saucers, and he says, yes, we’ve alerted the Moses Lake Air Force. And, boy, I was watching--
Greger: Ever hear if they sent up anything?
DeJong: I never saw the Air Force. That’s what makes me wonder if the government was involved in those some way.
Putnam: Can you describe the shape again?
DeJong: Saucer shaped. They were, no question.
Putnam: And moving?
DeJong: And white colored, and, boy, they moved fast.
Greger: I guess you can say we are relatively a minor planet here—small. And there are folks out there who have done things far beyond us.
Putnam: Certainly a recurring theme.
Greger: Yeah. Not quite ready to believe those people who claim they were taken aboard, but—
Putnam: Yeah. Well, like I say, I’ve never had that experience with it, but it certainly makes you reflect and think about it. I can see that if you had seen it, it would make a believer out of you.
DeJong: You know I’m trying to think hard when I was made foreman: whether it was still at B or at D. I kind of suspect it was D. This Earl Wiesner, I was telling you about, he was an iron worker; and I had a record of laying more carbon blocks, my crew than anybody ever did, you ask Earl Wiesner, he was a rigger boy, he was telling the story about it.
Greger: I’ve been trying to get in touch with him but nobody answers the phone.
DeJong: I don’t know whether he’s away or not. He might be.
THOMAS CLEMENT INTERVIEW- Recorded on 3/15/92
Tom Putnam: If you’re ready, we’re ready.
Thomas Clement: All right.
Putnam: So, can you state your name and your position—what you did, you know, what your job title was.
Clement: At the beginning?
Putnam: Yeah.
Clement: Thomas M. Clement, and I was transferred to Hanford in February of 1944 from Kings Mills, Ohio. That was the Remington Arms Plant at that time, making ammunition for the Armed Forces. And I was interviewed back there by Walt Simon, who turned up to be the plant manager for DuPont here, when he got here. And they allowed me to drive my car out here in February of ’44. I had snow all the way from Cincinnati to Pendleton, Oregon, so it took me eight days to make it. And when I started to work here, why, I was in training for the reactor instrumentation maintenance end of the business. When I got here, I did not know what we were doing here; I was not informed during the interview. But there was a college friend of mine here that I’d gone to college with in engineering and I was—they sent me down to Los Angeles for a couple weeks down to the Beckman Instrument Company to look over the Beckman RXGs, which were used in the control room.
[VIDEO CUTS]
Putnam: Okay, I’m sorry I was—had an interruption there. I’m sorry, can you start with that description again about, about—oh, you better tell me about the physics book again, too. I’m not sure I got that. So, if you could tell me that story, and then--
Clement: All right. In May of 1944, I was assigned to go down to Los Angeles to visit the Beckman Instrument Company at that time, who were manufacturing the Beckman RXG Micro-microammeters that would be used in the reactor control systems. They would measure the output of the ion chambers that would indicate the level of nuclear activity in the reactor block itself and were used as a matter of control and safety. At that time a classmate of mine back in college, Sherman Lloyd, said, while you’re there, why, go over to the Los Angeles Public Library and look at the Pollard and Davison physics book, and you’ll find out, essentially, what we’re into here at Hanford. So, I did this when I went to Los Angeles and got some idea of the type of thing that we were looking at. So, in other words, it didn’t—the book did say something about the feasibility, or possibility, of a nuclear bomb being manufactured. So after that, why, I continued my training. And the other thing I continued was courting my potential wife, who was living in Seattle and I was living here. I would get on the train in Pasco Saturday night and get over there in the morning and visit with her and then get on the train and come back here Sunday night and then go to work Monday morning. So, it was kind of hectic, but that ended a bit anyhow on August the 13th when we were married over in Seattle and I had a long honeymoon of three days up at Paradise Inn on Mt. Rainier. So then, shortly after that I was assigned out to B Reactor. I think it was about the first of September, and at that time, I was acting as a shift supervisor for the instrument crew, and we had--I think it was either four or six—Instrument technicians, I call them now, on each shift. Because we were training people for the other two reactor areas that were going to be started up at that time. This was B Reactor and we were going to start up D Reactor and F Reactor.
[VIDEO CUTS]
Putnam: --you went out to the Area and what it looked like, what stage the construction was in, or something like that, can you describe?
Clement: The stage of the construction on our first tour, as I remembered—I think it was in April of ’44—and the D and F Reactors were just coming out of the ground—the buildings. And B, as I remember, the side walls on the reactor building were getting up pretty high. I think they were still laying the graphite in the pile, as I remember, at that time. And that would have been the year—actually the year the reactor started up. So if you put this in terms of building reactors today, it was a fantastic job from the standpoint of how fast it went along. When you figured that they got all three reactors started up within one year and--
Greg Greger: Excuse me. When they took you on this tour, what did they call this—you know, if they were going to show you this, how did they refer to it?
Clement: Hmm. Well, the reactor, the only thing I remember is reactor.
Greger: They did use that word?
Clement: As I remember. Now I may be wrong, but that’s the way I remember it—
Greger: I see.
Clement: --so. And of course we were into the instrumentation and control of the reactor, too, as far as what was going on inside. So we had to measure the nuclear activity; we had to measure the heat generated, and all that sort of thing—I mean, with the thermocouples. And we had to measure the water flow through the reactor with the panelettes for the pressure monitor system. You know all about that, I’m sure. But--
Putnam: Were you developing instruments as you went along? Were you building new instruments?
Clement: No, we were learning—in the process of learning what instruments had been provided to do the job. In other words, this was an orientation period for us. Which amounted to, I’d say, about six months or less, on a completely new field. Because we were assigned out to B Reactor, I think it was in the first part of September of 1944 on shift. And at that time we were preparing for reactor startup and—which went quite well as I remember it—up until the time that the reactor died because of the poison—the nuclear poison. Enrico Fermi was there at that time, and it took him, I think, less than a day to come up with the answer. It turns out that DuPont—who was in charge of the construction and in charge of the operation of the reactors, in their design work back in Wilmington, Delaware—had decided to put at least one or more extra rows of process tubes around it—the outside of the reactor—so that—the critical—they could put in more uranium to enhance the critical mass if some of the calculations were not right. So, when Enrico Fermi went through the process of calculating what had happened with the shutdown of the reactor, why, all they did was to charge the outer rows—I think it was one or two rows; I can’t remember which—of processed tubes with more uranium. And then we were able to proceed along with normal operation of the reactor. So, this would overcome the poisoning of the—what was the material that was—
Greger: Xenon?
Clement: Xenon poisoning, right.
Putnam: Were you there? During that time, were you at B Reactor?
Clement: I was at B Reactor during that time, yes. I was on the shift—on one of the shifts.
Putnam: In the control room?
Clement: Well, I had a crew of instrument people that were responsible for the instruments in the control room and in the whole plant, for that matter. So I was there. I don’t remember being in the control room at the time that the actual—it died gradually, let’s put it this way. The xenon poisoning was a gradual thing, it wasn’t just cut off like that, suddenly.
[VIDEO CUTS]
Putnam: Well, what was I going to ask you to do was kind of think back about the atmosphere. It must had been quite charged with expectation; I mean, people must have been—was it doubtful, was it simply people didn’t know what was going to happen, or was it confident?
Clement: Oh, I think people had confidence in the management of the plant. In other words, it was all being run by DuPont. DuPont had been in charge of construction. It was not at all like the atmosphere in today--that we have today--with so many government agencies in the picture that you don’t know what the final decision is going to be. This way, you would pass the problem up the line and you would get an answer back down the line, a positive answer. And you would go with it, and you would believe in it. Because you had faith—you had confidence in the people that were running the show. I still come back to another story that I heard. That in Congress—at that time, Harry Truman was in Congress, and there was a lot of to-do about all of the money they were spending at Hanford. And so, Harry Truman came out to Hanford to do a little investigating. And about the time he got here, why, one of the DuPont executives called Wilmington, Delaware and Wilmington, Delaware called Washington, DC and Harry Truman left right overnight; he didn’t do any investigating, so—[LAUGHTER] They had a lot of confidence in the company that was constructing the plant, and that was running the plant, and I think this is a very key point to the success of the whole operation. At least, in my opinion it was.
Putnam: Go back to that time of startup and can you kind of describe that day or that period of time? We understand there was a long process of loading tubes and then dry criticality was reached, and then it was flooded and then they had to come back up to wet criticality. Do you have any recollection?
Clement: I don’t have a specific recollection of that. I imagine Don Lewis probably would give you a better description of that.
Greger: What were you as instrument people, what was your main function in all of this?
Clement: The main function in this would be to—like in the criticality end of the business—would be to see that our—we’d read the results or measure the criticality with the Beckman instruments that I was talking about, that I went to Los Angeles to check on where they were building them—the Beckman RXGs in the control room, they’d have the ionization chambers actually under the reactor so that you can measure the nuclear activity in the reactor. And of course as you come, as you start to reach criticality your activity builds up quite a bit; your readings on your instruments goes up, so.
Greger: Where were these chambers positioned in relation to the loaded tubes?
Clement: They were positioned—let’s see now. We had the galvanometers—chambers were positioned in holes through the reactor shield, up about the middle of the reactor. The Beckman instruments, now these measured—these galvanometers measured the ionization current coming from those chambers and would measure activity. The Beckman instruments themselves were--the chambers were located underneath the reactor where there’s holes up through the graphite, so that they can get a picture of the center activity, in the center of the reactor. Now the Beckmans were safety devices, such that you would preset a trip point on the Beckman, and it would automatically scram the reactor, or insert the control rods when you passed a manually set trip point.
Greger: Were these Beckmans such that you could change them out or maintain them through their position in the reactor?
Clement: Yes, we could. We had to change the chambers if we had a failure. Sometimes we would have failures and we would have to remove the chamber and replace it with a good one. In other words, they’ll fail like most any other object or gadget, you might say. We didn’t have to do that frequently, but it had to be done sometimes. But we had enough of them, such that we would always have some of them in operation, and we would be sure that we had a good picture of what was going on. Of course, in addition to the radioactivity, we had a good handle—now, that would be for dry critical, but it would also work during the wet critical stage. When wet critical, why, then you would have the temperature instruments—we measured the temperature—outlet temperature of the water coming through each and every process tube on the temperature monitor. In this way, you can get a picture, too, of the heat generation in the reactor itself. You know the inlet water temperature and then you measure the out water temperature and we had a temperature monitor system so that you could plot the whole picture and see where the hot—what’s getting hot and what isn’t.
Greger: Actually, the measurement of that temperature was significant in understanding the level, was it not?
Clement: In the reactor.
Greger: Yes.
Clement: That’s right. We also had a, a power level instrumentation which would measure the overall outlet water temperature and the overall—in other words the bulk, the flow. And this would give you the level of the reactor in kilowatts or megawatts or whatever—heat generation. So--
Putnam: It must have been fascinating for the first time to see what a real reactor, actually—no one really knew what it was like, did they?
Clement: That’s right, that’s right. And you figure before we got done out there, before we shut B down, we were up to--what was it—about 3,000 megawatts of power generation--I mean, of heat generation, not power generation. And you look at the overall picture, it’s very rewarding. But it took a lot of effort, it took a lot of, we’ll say, cooperation and working together with the people out there. And I look back on it and I—it’s a pleasant memory, let’s put it that way. That phase of the work is very pleasant.
Putnam: Did you have a sense you were breaking new ground, that you right on the frontier?
Clement: We were sure of that, yes. I think we were sure of that, and after reading some of the articles and things that are done and then the fact—when the bomb was dropped, of course, then it hit the newspapers, so. That confirmed what we had known for quite a while, or what some—many of us had known.
Putnam: What do you think the general feeling of people was? Was there a feeling of a big—that it was a real cooperative effort? Was it kind of s cooperative spirit, a real project team kind of feeling and a feeling of real satisfaction when job was done?
Clement: Yes, I think there was, really. At least there was in my mind. I think a lot of this, like I said before, comes from the attitude and the way the whole system was managed by the DuPont Company. And they were in charge, and in that time the only other government agency in here, as I remember was the Corps of Engineers. DOE hadn’t come into the picture as yet.
Greger: Or even AEC.
Clement: Or even AEC. That is right. Now, I’m not saying that those aren’t necessary at this time, but during the war effort when time was of the essence because Adolph Hitler—they had word that he was also working on the atomic bomb. So we had a goal in mind.
Greger: Do you have any recollections of that first startup shift? How did it affect you as a person, as what you did that night or whatever?
Clement: I guess I don’t, Greg. Whether my shift was off or not, I don’t know, but I don’t have any specific recollections on that one.
Greger: Do you remember how you learned that they had made the first indication and all this kind of thing?
Clement: Well, I was—I can’t even remember the date that we first started up, to tell the truth, when we first reached criticality. So I, I have no specific recollection. I went through so many phases of it afterwards I guess, that I-- [LAUGHTER] And I realized after we’d get up to 1,000 megawatts how insignificant it was in terms of energy. I have no specific recollection of that.
Putnam: So it was like a huge milestone in the day-to-day operation; it was just pretty routine almost?
Clement: That’s right. And this was the first step in the B Reactor and of course, we knew that we would have two more reactors to start up, too. And people were focusing on the overall, I think.
Putnam: Any interesting problems, or solutions to problems, during that time in terms of your field, in terms of the instrumentation or anything you remember about something that came up that was—I know that we were talking about canning the fuel elements and that it took them a long time to settle that problem—was instrumentation pretty straightforward?
Clement: I think it was. I can’t remember any during the startup phase. I can remember some later on, when we ran into a lot of failures in the thermocouples which measured the outlet temperature of the individual process tube. But that would be a year or two down the road, when we had to get in and replace all the 3,000 thermocouples on the rear face. [CHUCKLES] Which is the fairly radioactive place. But I don’t remember any specific problems, as such, right now.
Putnam: Okay.
Greger: I was curious about one thing, when the news hit the papers, as to what the result of the product had been, what kind of attitude did that generate either at work or in the community? Was there anything that one can talk about as to that—all of a sudden people knew what they had been doing?
Clement: Well, I think for us people that were involved with it, I think it was a matter of pride, really. That we were happy to have been a part of what our country was doing. In other words, that was my feeling. Now let’s see, the first bomb was dropped in August, wasn’t it?
Greger: Yes.
Clement: Of 1944?
Putnam: Five.
Clement: Five, ‘45. So we started the first reactor out there in September of ’44. And we started the second reactor out there in December of ’44. We started the third reactor in February of ‘45. I was in on the F Reactor and on the B Reactor; I wasn’t in on the startup of D. But I didn’t get C and H and some of the others.
Greger: Some of the people had mentioned this problem that B ran into, of the graphite growth and the fact that B was shut down for a while. Do you have any recollections of how all this happened?
Clement: Oh, yes.
Greger: Was there an instrument?
Clement: Oh yes, yes, yes indeed. The graphite growth of course came at after it was directly, we’ll say, connected with the amount of irradiation that the graphite had suffered. I remember very well, because Bill Overbeck was in charge of instrumentation at that time. And I was assigned, along with Harry Shaw, for finding out a method for measuring the amount of growth of the graphite. So, we got our heads together—and Harry had a background of civil engineering, I believe. And Bill Overbeck and Harry and I--and I think that was all, three of us—went over to visit at Boeing down—when they were at Boeing Field—and did some exploratory work down there, looking for a means of measuring the bowing on the—I say, that’s B-O-W-I-N-G—on the process tubes. So we came up with a very simple approach where we would set up a transit on the charge elevator and we had the center of each process tube on the wall—measured on the wall, the concrete wall and back about—what, 50 or 100 feet from the elevator. We would take a little target that just fit inside of the process tube and had a little scale on it with a light, and the scale was marked in tenths of an inch, or something like that, on a horizontal basis. And we would pull the slug with the scales through the tube, one or two feet at a time—I can’t remember how many feet—and we would take a reading with the transit at each position. And then you could plot the bowing on the process tube. So this turned out to be a very helpful thing in determining the actual amount of graphite growth that we had. And we continued to use this method for a number of years—I don’t remember how many, as long as we had the graphite reactors, I suppose—in determining the amount of growth. And I imagine, after we had enough data, they could calculate the growth of the graphite based on the amount of nuclear activity that you’d had in the reactor itself.
Greger: Wasn’t there an operational change that caused a change of this growth rate, of using helium?
Clement: We started out—I think we started out with a mixture of helium and CO2 in around, surrounding the graphite and it seems to me we wound up eventually with 100% helium, I think. I remember very well, too—of course this is way late in the game—but we had gas analysis instrumentation on the gases flowing through the reactor. This goes back to the 60s though, a long time.
Greger: The use of helium was supposedly a cure or a slow down?
Clement: Slow down for the graphite, yes, that’s right.
Interviewer: Do you know how they came to the conclusion that that was the thing to try?
Clement: I would imagine it was done by the results of our surveys. I would imagine that. I wasn’t in on that, but all we did was to take the readings and give them the readings. And then the technical—the other technical people would make their calculations and go on from there.
Greger: What is there to say about the time they closed down B Reactor for a period, because of this problem?
Clement: Oh, Greg, I don’t think I remember that. I may have been assigned to another reactor at that time.
Greger: Our power person here mentioned that, and I knew it was down for a period.
Clement: Yeah, that’s right, it probably was. I don’t remember that. I might had been over at F Area or D Area or H Area or something like that.
Putnam: Was the work pretty absorbing in that first year? So summer of ’44 to summer of ’45—things must’ve been pretty intense. Were you working long shifts?
Clement: Oh, yes. Everybody was working at least six hours a day—six days a week, I mean. Six days a week. And it was a long day. The time you left the dormitory and caught your bus at about 6:00 or 6:30 in the morning and got back about 6:00 or 6:30 in the night, it was a long day, yes. And then you’d have to go over to the eating place there. That building’s still there, incidentally—the old cafeteria building’s still there, as you know. It’s right across Knight Street from the Federal—from the post office there.
Putnam: Yes.
[TAPE CUTS]
Clement: Yeah, there’s been a lot of phases, an awful lot.
Greger: I guess, at one point that to an outsider is hard to imagine, and I don’t know what your memory is of it, but when all this construction and ground digging was going on out in the Areas, it must have been interesting to see it on a windy day.
Clement: Yes, it was.
Greger: Several people have referred to this, but—
Putnam: I think maybe that’s—
Greger: I’ve been meaning to ask you.
Clement: The dust storms were terrible in those days. And we think they’re bad now, but the dust was coming from—well, I think of around the city of Richland primarily because I was not in the area during the construction phase as much, very much. But when you were living in Richland in the first two years, I’d say ‘44, ‘45 and ’46, the dust was very, very bad. Because a lot of people were moving in; they hadn’t been able to plant their lawns, even though, when you got your house, why, the company would furnish you with grass seed, they would furnish you with water and everything to try to encourage you to plant the lawns. They’d furnish you with coal to heat your house, and all that sort of thing. So, that was one of the things that—I didn’t hear Brit mention that one, but—[LAUGHTER]
Putnam: Yeah, in some respects it was a pretty good life, wasn’t it?
Clement: It was a very—that’s right. Your rents were very, very low. This house here is the first one we moved into. I think it was in the beginning of December in ‘44 when we moved into our B house up on Black Court. It was a real interesting experience.
Greger: I’d like to ask you, you as a plant employee, and in your case, you met your future wife who did not work here. What kind of situation was there when two people meeting would obviously want to know what the other was doing and these kinds of things?
Clement: [LAUGHTER] I just told her, I couldn’t tell you. It’s secret work, yeah. [LAUGHTER]
Greger: Enhanced your—
Clement: Yeah! I didn’t get any kind of—any negative reaction I guess, because she went ahead and married me anyhow. And we had five children so, and we’re still married so. There’s been a lot of rewarding things, too, let’s put it that way.
Putnam: One of the most interesting things that we talked about, I think, is the magnitude of effort, and the fact, as you say, that in a year three reactors were built and put online.
Clement: That’s right.
Putnam: Can you—was there more to say about that? Just—what was the magnitude of that effort? What was going on? What all was involved?
Greger: Even the traffic must have been—the shift changing.
Clement: Well, that’s right. Well, let’s put it this way, the magnitude of the effort was tremendous. The design of the plants, first of all, was made—was generated in Wilmington, Delaware by the DuPont Company. And they were in charge of design, they were in charge of construction, although there were some subcontractors out here, but they had full control. Which was the secret I think, of the whole operation being, in my opinion, of being so successful. And when you look back at the Hanford days, when the town of Hanford was at its peak, I imagine, I think there were 40 or 50,000 people housed out there. I’m guessing a little bit on that, but I think it’s about right. And the mess halls, the dormitories, the trailer parks. And the fact that you get that many people together in one place and they have nothing to do in their off hours, it’s kind of a problem. But they were working long hours, and I think their purpose—their whole purpose in being there was to complete the job. And I think that, they didn’t just work a 40 hour week and—So, I think that added to it, a lot. And there was a high rate of turnover, I think particularly among the construction workers. I was not aware of any high rate of turnover among the DuPont people who were going to operate the plant.
Greger: What was recreation--in the spare time you had--not in construction, but down here, in Richland, what could one do?
Clement: Oh, well, I remember playing tennis with Mr. Farmer, who happened to be Enrico Fermi, playing doubles down at the park. We did play a lot of tennis down here. I remember another Sunday, not too long after I got here and I still had gas stamps, and three or four of us in the dormitory got in my car and we drove out to Rattlesnake and climbed up Rattlesnake. You could drive up to where the old well was on the side—gas well, I guess it was—on the side of Rattlesnake and climb up from there. It was dirt road, but it was accessible. And there was a tremendous amount of things to see and do. With gas stamps I remember driving up almost to Chinook Pass one day with four or five of my buddies. We had one day off, so--one day a week off, so that didn’t allow for too much—to do too much.
Greger: What was in Richland at that time as a source of recreation?
Clement: Well, Howard Amon Park was there, the tennis courts were there. I remember them well because I played a lot of tennis down there, that’s one thing that I did. There were no bowling alleys as I remember at that time. I’ve forgotten just when they—maybe they—I can’t remember when they built the bowling alleys at the old rec hall, you know.
Greger: Was there a movie theatre?
Clement: Yes, there were movie theatres, there were movie theatres.
Greger: And Richland Players, I think, started fairly early.
Clement: Fairly early. I don’t remember just when they started. I used to work backstage for them, but that was after I—that was after 1948. Where I’m living now, we were right across from the Chief Joe Auditorium there, is where we live now. But it’s been a very rewarding life, I think.
Putnam: How would you describe the overall experience from startup and your ensuing years here? You say it’s been a good life?
Clement: Yes, yes, I think so. I have no complaints; I have a lot of good memories. I have some that aren’t too good, but I don’t magnify those; I don’t think of any specifically that come to mind.
Putnam: What—I guess I never thought about this—but what happened after startup? Did the community remain? I know the construction people were disbanded fairly quickly, but the early people that came on for operations and all, was there a high rate of turnover at that point, or did it become settled and you made a lot of friends and the community came--I mean, what happened around that time?
Clement: I was not associated much with the construction people. I’d say the operating people, from my point of view, were a very steady group. There were very few, very little turnover. I can remember one instance and I can’t remember the exact time of it; I think it was after we started F Area up, and my boss came in one day and said, well, we’re going to have to lay off a few people. So he told me who to tell, and so I went out and told him and I had a hard time with him. But it turned out all right. But like anybody when they get laid off, why—but there was not a large cutback. I’d say by and large, a large number of the people that I associated or worked with back in ’44, there’s still a lot of them around here, let’s put it that way.
Putnam: Was that a surprise at that time—I mean, I guess, I know a lot of people thought that the effort was to win the war, and then perhaps things would shut down after that and continued. Was that unexpected?
Clement: Well, we were wondering, yes, we were wondering. In fact, that would have been about ‘45 and ’46, wouldn’t it? And I was wondering myself, because in August 1946 I guess it was, I had some ideas; I was going to get a separate line of work. So I went out and bought a farm over in the Kennewick Highlands, twelve acres. It was about five acres of asparagus and several hundred fruit trees and a house. So we moved out there, I think it was August of ’46. So whatever happened at Hanford, we were going to have a separate sideline so to speak. And well we stayed there two years, because about that time, I think it was ‘47, ‘48, the construction started again, and the traffic got so bad it would take me an hour to get from the Kennewick Highlands over to Richland and then another hour to get out to work—two hours one way. And that got a little old. So at that time, why, I reapplied for housing. And at that time they were expanding the housing in Richland, so I got the house we’re still living in now, a Q house.
Greger: What did you hear, or what’s your impression of the political changes that were an impact on the plant? You know, the war was over, was there kind of a gap there, until all of a sudden it began going up again, as you say, with more construction?
Clement: Yeah, well, the political changes, of course, were that the AEC came into the picture more and more and more, I think. In other words, the government agencies. Which they had to do, I suppose, looking at the type of government that we have. And of course we had a change of contractors when DuPont left. I personally had a chance, I could have gone back east again with DuPont, but I turned it down and decided to stay here. That would have been in ‘46 when they left and General Electric came in. So.
Greger: Do you recall the reason given for DuPont to not continue the contract?
Clement: I don’t recall exactly, no. I know that shortly after that they were given the contract for Savannah River.
Putnam: We’ve certainly heard nothing but good things about DuPont as a company, and the efficiency with which things were done.
Clement: That’s right, right. Well, I started to work for DuPont in 1937 when I first got out of college and started making viscose rayon. And then I helped start up the first nylon plant in Delaware. And then they shipped me out to Ohio to make ammunition for the war effort and then on out here. So, I have an awful lot of respect for them, let’s face it. And I grew up in their territory, back in Pennsylvania. And still, in fact my sister’s retired now, and she lives out at—oh, the DuPont estate there outside of Wilmington, Delaware. I’ll think of it in a minute.
Putnam: Any more?
Greger: I can’t think of any more, do you? Well, maybe we should ask him that question. Do you think of anything that you remember as being interesting or significant to you or even funny?
Clement: [LAUGHTER] I can’t right off hand. If somebody were to trigger me, I might think of something, but I can’t right off.
Greger: Since you referred to it, I think it would be of interest—how did you manage the living quarters? You’d just married and I think—were you in dorms, or did you have a house?
Clement: When we were first married, my wife had a whole week off, I had three days off. We were married on Sunday. We spent Sunday night and Monday night and Tuesday night up in Mt. Rainier, Paradise Inn. And then we came down and stayed at the transient quarters for the rest of the week and then my wife had to go back to work in Seattle. So from there on it was a weekend at a time whenever we could make it. Either she would come over here or I would go over there, and that would involve catching the train Saturday night out of Pasco and going over and spending the day and then coming back. So, but then I applied for a house, of course, as soon as I could. And then it took them until—that was August—until December before I was given a house.
Putnam: And, did she move over then?
Clement: Then she moved over, right. In the meantime, she had been shopping for furniture so we could furnish the house—shopping in Seattle.
Putnam: You asked about women in the area.
Greger: Oh, yeah, right. Well, I was curious; I asked the others, in construction or operations, I don’t think there were many women, but what do you remember? I’m just trying to think of women working. I know there were a few, even among the technicians, we were told, to help startup, there was a man wife team?
Clement: There was a man and wife team at B Reactor, the Doctors Marshall. They were both physicists. And I remember them being out there, because they came from the same part of the east that I did, as I remember. I didn’t know them personally, but I remember them at—I think it was at B Reactor. I think they were—I’m not sure they were—I don’t think they were involved with the first shutdown when due to the xenon poisoning. I don’t believe they were, although my memory’s not that good.
Greger: Were there other women in other jobs that you observed during the early days?
Clement: The only ones that I observed were secretaries, that I had any personal contact with, the only ones that I remember. Did anybody else have any memory of it? I don’t remember.
Greger: Annette Heriford commented, she delivered blueprints to construction, but that’s the only other one.
Clement: Yeah, that’s right. Yeah, I remember the secretaries that I had on the job out there when I was in different stages of the thing. I didn’t have any when I was on shift, of course. Then I got up to where I was assistant manager of the instrument group and then I was manager for a while and then they changed the organization and they had a, then I was manager of maintenance for D&DR. And then went on from there to various different types of organizations and jobs.
Putnam: One question that I think I mentioned; I don’t know if I asked you but, the question of wartime—sort of the atmosphere, the crisis, you know, it was pretty tense. Can you talk a little bit like that? I mean, how much was at stake in this effort? Were you aware of how much was at stake and how important it was to the war?
Clement: I think we were, yes. Well, I know at one stage of the game when the Japs were bombing—well, this was after Pearl Harbor probably, but we expected to see Jap bombers come across out here. And we were all always out looking around the sky to see if we could spot any planes coming in. We’d make a crack about seeing a Jap bomber up there. Of course, we never did and we had, pretty much, defense units around from the Army and so forth that were out there. There were quite a few of them.
Greger: Was there any particular activity following the “war was over” announcement, because of the plants’ effect on it?
Clement: You mean on the war?
Greger: After the second bomb.
Clement: Oh, I think there was a lot of good feeling, as I remember. In other words, look what we helped do. We did a little—we did our part of it anyhow. In other words, I think there was a lot of satisfaction, yes.
Putnam: Any celebrating, dancing in the streets?
Clement: I don’t remember any, let’s put it this way. I don’t remember any.
Putnam: I didn’t think there was a whole lot. Well, okay, if you have anything to add, we’d be interested.
Clement: Yeah, I can’t think of anything right offhand.
Putnam: Okay.
Clement: If, at a later time, there’s anything I can fill in that you come across, why, let me know, and maybe I can search the mind and remember some of it. Maybe not.
Greger: This has been a great time.
Clement: Well, I hope it’ll--
FLOYD BRITSON INTERVIEW Recorded 3/15/92
Tom Putnam: The first thing we’d like to know is if you could state your name and whatever position that you had here in the early days of Hanford. And then we’ll ask questions for answering.
Floyd Britson: Well, Floyd Britson is the name. And I was Senior Supervisor on C shift during the startup of B.
Putnam: How did you first hear about the Hanford Project, and how were you recruited to come here?
Britson: Oh, I was an area supervisor for DuPont at a TNT plant at Joliet, Illinois. And they turned the plant over to another company and moved about 1,200 of us out here from Joliet. This was in the summer of ’44, basically operating people. But I got on a side issue along with a chap by the name of Harry Miller. Developed the whiz-bang which resolved the canning problem of the slugs they used in B Reactor.
Putnam: How did you come here? Did you come by car, by train?
Britson: By train. Landed here April 12th. My car showed up somewhat later, by train. And then, I was assigned a house early in the—but I was told that my furniture would be two-three months away from getting out here. But, one day I got a call, come into town; there’s a truck full of furniture out in front of your house and they want to unload it. It seemed, according to my wife, that when they started to load the furniture back in Joliet to haul into Chicago for storage, the truck driver got a call on the telephone and he was told instead of bringing that furniture into Chicago, you just head out for Richland. So, I had a house full of furniture and no wife.
Putnam: What was it like when you arrived here? Where—did you live in Richland or in Hanford, or--?
Britson: I lived in Richland. The dormitories were in operation but full. And so I was put in a house out on the corner of Stevens and Van Giesen. That was made over into a dormitory. There was six or eight of us that were sleeping there. But a few days after I got there, as I say, I already had a house assigned to me, so they said they would loan me a bedroom full of furniture if I would sleep in my own house for free until my furniture got there, which would free up a dormitory room for somebody else. Because they were moving them in pretty fast at that time. Well, I don’t know how many, but several DuPont plants were shut down, in the east, or turned over to—well, it was our plant at Joliet was turned over to U.S. Rubber, to operate. And they moved everybody that could get clearance and they brought 1,200 of us out here. But Oklahoma, southern Indiana, various plants, many people were brought out here at that time. And so they were just running out of room.
Putnam: Was there a lot of construction?
Britson: Well, construction was in full force. Hanford was loaded. Reportedly 65,000 men out there. And so—but then, a good many houses were well along in Richland. The big problem was furniture. They couldn’t get it in fast enough, they couldn’t get freight cars and sometimes up to six months.
Greg Greger: You mentioned 65,000 construction workers. Do you have any idea of whether or not any of them were women? Not in construction, necessarily, but related jobs?
Britson: There were some women. I have no idea how many. They had women’s dorms and they had men’s dorms and they had quite a problem with that: married people split up. They had to do their lovemaking through fences and—oh, it was a lot of stories. [LAUGHTER]
Putnam: When you—do you recall first seeing B Reactor and the Area out there? What level of construction was complete by then? Tell us about your first reactions.
Britson: Well, the buildings were all complete, at the time I got here in April, or virtually complete. But the equipment inside took until about September before they loaded up and started up. I don’t remember the date in September; it seems like the initial start was fairly early.
Putnam: and you came in April, April of ’44. So tell us the story then about—what was the problem that they had then at that point?
Britson: Well, the problem that I got onto was canning this uranium slugs with aluminum, they had to be leak-proof, no pinholes. And they had been working somewhere back east—Ohio I believe—for a year and had not been able to solve the problem. And, so a chap by the name of Harry Miller was assigned the job; he was a DuPont troubleshooter. And Harry grabbed me as a draftsman and I spent the next two months in developing what was later dubbed the whiz-bang. But from it, they found out what they were doing wrong with their old machines and they made the correction in between April and September. Had enough seven-inch slugs to load B Area.
Putnam: Can you describe the whiz-bang to us? What—how did it work?
Britson: No, I don’t think I dare. I was sworn to secrecy and I’ve never been taken off of it, so--
Putnam: Okay. So what did your work consist of? You built the whiz-bang, and then--?
Britson: Then I went back to B Area and was senior supervisor on C shift for power. We supplied the water and the steam for backup emergency. But our primary job was to pump through the filter plant—this meant water treatment, additions of various chemicals along the road, and then the final pumping station in the 190 Building, which brought it up to pressure. Also had the emergency steam pumps sitting there, in the event of electrical failure for the electric pumps.
Greger: On the treatment of water, was there anything new or was this pretty much standard procedures?
Britson: Well, it was fairly standard procedure. B Area did not have the refrigeration units as we talked a bit ago, although D and F area did have, but they were only used for one season, I think. But the standard filter plant was—see, there was first a river pump house. Pumped it up to a reservoir in the plant. And from that reservoir, then, water was pumped through the filter plant into clear wells. They had gone through the filter beds, given water treatment and pumped out of the clear wells through the 185 Building, which was a chemical addition building where addition chemicals were added. The 190 pumps then pumped out of the storage tanks in this 185 Building. Pumped it through the valve pit where again chemicals were added. And through the tubes that contained the uranium slugs that were being irritated. [LAUGHTER] Irradiated.
Greger: Do you recall how many degrees the refrigeration was able to get in the water?
Britson: No sir, I couldn’t. Not now anymore, but we just gave it all we had.
Greger: Mm-hmm. And you might mention, as you told me, why the decided not to--
Britson: But that was not in B Area.
Greger: I realize that, yeah.
Britson We did not have the refrigeration pumps in B Area.
Greger: But even with the older areas, since it was going on at the same time, you might mention what you told me.
Britson: Well, they only used it for, I think, one season. And decided that, rather than to waste all that electricity on those refrigeration units, they’d just pump additional water. Get the same results. And then later—oh, several years later, they put in bigger pumps in those 190 annexes they put in—[TELEPHONE RINGS]—some enormous pumps. [TELEPHONE RINGS]
[VIDEO CUTS]
Britson: Everything was secret back in those days. You just didn’t discuss off of the Plant anything that you knew about the place. Various people got into all kinds of trouble from spouting off. There was one story that was going around, a guy got into trouble and he was asked what they were doing out there he said, hell, I don’t know, they could be splitting atoms for all I know. And boy, he was in a lot of trouble. [LAUGHTER]
Putnam: He made a good guess! How much—were you aware of what was going on? Were you given information or simply given figures?
Britson: I was given only what information I needed to know to run my job. When water got to the valve pit, I didn’t have any idea what was going on beyond that.
Greger: How long was it before you finally understood or were told that it was a nuclear thing?
Britson: I don’t guess ever. Of course, my job, over time—I was on construction liaison for several years, the building of H Area unit, D and DR unit—DR unit. And some of the buildings, operations in the 200 Areas and, as I say, information that filtered down some way or other. I had no idea what was going on. How I acquired it, I don’t know. But as far as anybody sitting down and telling me what was going on, that never happened.
Greger: They probably thought that power needs to just treat the water.
Britson: Treat the water and that’s it. No, we never told our fellows anything. You see, I was two months behind on getting my shift together. And holding the training courses, because we were hiring anybody that was warm. And it turned out that construction was letting a lot of carpenters loose at about that time and we hired a lot of carpenters for power operators. It was a new business and so it didn’t make much difference how much experience a guy had, he didn’t have what was going on here. But I was permitted to hold some overtime classes in town here, during the summer of—well, say, July and August—I held classes right here in town for my crew on overtime basis because I was behind, having spent two months on the whiz-bang. And of course that never hurt my reputation any. From then on, I had a good job. Harry Miller got to be superintendent of a department. I never attained that, but I did wind up as manager of GDR Power, in the last few years.
Greger: One last question on the whiz-bang. Do you happen to know how they came up with that name?
Britson: No. No, that was all done in operations. In fact, I had trouble even finding anybody that would talk, to tell me that much on the whiz-bang. Because it had been a sore problem and when it got resolved, why, it was kept a secret. No, I ain’t kidding you.
Putnam: Were you at—you were here when startup occurred. Were you at the plant, or what was—was there awareness that the plant started up?
Britson: I was on C shift, actual startup.
Putnam: C Shift—what was C Shift?
Britson: We were on 4:00 to 12:00.
Putnam: 4:00 to 12:00. And so, were you working in the main building? Were you in the control room?
Britson: No, I was supervisor—senior supervisor of the shift. So I had a lot of buildings to—the 190 Building, the 185 Building, 183 Building, 182 Building, 181 Building, 108 Building—all under my supervision, plus the powerhouse.
Putnam: What did that entail, just telling people what to do?
Britson: Well, no, I had supervisors under me who did the telling. But when you’re the top supervisor on any shift, the responsibility lands in your lap for anything that happens.
Greger: Were there any preparations or announcements or anything else as you approached startup that would make it any different in the regular shift?
Britson: No, no. We had been working for days as though the place was in operation. As far as we were concerned in our water treatment plant, our pumping, all of our pumping facilities were just as—the crew really never knew what was going on, particularly.
Greger: Was there any announcement that they had made?
Britson: Not particularly. No, because as I say, nobody was told anything that they didn’t have to have it for use on their job. And these boys had some gauges and that’s all they had to watch.
Putnam: How many people were—I mean, was there a big crowd around at the time?
Britson: No, no, no. It was just standard shift. There may have been a few extra physicists during the startup period. Because—well, remember, that was the first one in the world and so the boys with their pencil were there, but not too many of them, that I was aware of.
Greger: How many people were in your power C Shift would you estimate?
Britson: Oh, gosh. I just don’t remember now how many I did have.
Putnam: I think I’d better—
Britson: We had about, at that time, total power, as I remember, about 600 people. But they were scattered over four shifts.
[TAPE CUTS]
Britson: From F—or B to F, and continued then in operations, I was area supervisor for—well, the rest of ‘45, ‘46, when DuPont left and GE came in. And sometime in ‘47, or ’48, we started to build the DR Reactor because B was shut down and it looked like it was done.
Greger: What was your understanding of how they came into that problem at B?
Britson: Well, I was told that the material used was crawling and that the tubes were getting so crooked, that they were having trouble getting these seven-inch slugs pushed through. Were having some trouble with the control rods which had to be moved in and out to control the reaction. And what they were concerned with, particularly, was that the vertical control rods wouldn’t drop into place in case of emergency. But after B sat there for a while and they were able to watch D and F Area, which was still in operation, they realized that the creep had about reached its limit. And so they went to a four-inch slug instead of a seven and were able to load the tubes, and their control rods weren’t giving them any further trouble. But in addition to that, my understanding was that they hung a bunch of hoppers—buckets if you will—with boron balls—marbles—above the reactor and so in case any of the control rods failed all they’d do is dump those balls and they’d run like water into every crack and crevice in the place and shut the place down dead. And so with that behind them, then they started up B Area again and it continued to operate until it was shut down somewhere in the ‘60s.
Putnam: In terms of general atmosphere at Hanford and kind of in the country at the time, what was the climate--was there a time of fear and crisis, or--? What was it like to be in the United States of America in 1944 working on the Manhattan Project?
Britson: Our only concern really was the balloon bombs that the Japs were floating this direction. We were told about them; that some several had landed in Oregon. None that I ever heard of had landed near here. But it wasn’t until just a few years ago that I learned that those rascals floated over 6,000 of those bombs in our direction, on the Jetstream. But that Jetstream, of course, changes course without notice and their bombs weren’t too effective, but the intent certainly was there. To float 6,000 of them in this direction. And that was several years after Pearl Harbor, which was in ’41, and so we’re talking about ‘44, ‘45. Of course, in ‘45 the bombs were dropped, first Nagasaki—or I mean Hiroshima and then Nagasaki a week later. Now, Nagasaki used materials from here. Hiroshima used material from Oak Ridge.
Putnam: When did you first hear about that? And was there an explanation? I mean, obviously it came in paper at that time.
Britson: Well, I was in Portland. We had a day off and so we’d gone to Portland, and I heard about it there.
Putnam: Do you remember hearing about it in the news?
Britson: Oh.
Putnam: Were you excited?
Britson: Well, for sure because we didn’t know what the results of that may be, but then on the other hand—Many of us had been passed over by the Army or the Navy. I had—back in TNT plant—I was in TNT before Pearl Harbor. I had gone to work for the contractor that was building the TNT plant there at Joliet in 1940. And, as construction ended, or was tapering off, I got permission to talk to DuPont who was coming in to operate the plant. I had been working with Stone & Webster. And I had been in charge of well drilling operations, so DuPont decided they needed me and so I hired over with DuPont. Stone & Webster already had a job for me at Oak Ridge but I talked them out of that. In fact the Stone & Webster manager said, I know a little bit about DuPont. He said, I’ll just bet you a dinner that you leave here before I do.
Putnam: What was your area of expertise? How was your training?
Britson: Well, I was a civil engineer to start with. I had gone to school at Iowa State, Ames. I never got a degree, but I had gotten into construction—some of the major companies.
Putnam: What, in your opinion, was the major importance? It was really a huge endeavor, the Manhattan Project. Why do you think we were able to do it and make it succeed?
Britson: Well, I guess you can say it just kind of happened, if you get the right people on the job. DuPont had some people on the job with their expertise. [TELEPHONE RINGS] Now we’ve talked—
Putnam: Oh.
Gregson: I’ll get ya.
Putnam: Okay, go ahead.
[TAPE CUTS]
Putnam: What I was getting at before was, did it take a lot of the industrial capacity of the United States to—I mean a lot of the expertise and industrial capacity of the United States was diverted to this project and it was pretty remarkable. Do you have any thoughts about that?
Britson: Well, I don’t know too much about the design effort, nor the early construction. See, these reactors, well, they’d been building on them for years by the time I got here.
[DOOR OPENS]
Putnam: Oops.
Britson: And so, I don’t guess I’m in position to answer your question that you’re—
Putnam: Yeah, sure, okay. Let’s see. We’re going to—
[TAPE CUTS]
Greger: --that you felt everybody was really tuned in to security, and I think that you commented that some people did get in trouble. Did you have anything else to say about that? One would think that people would always—or some people would discuss what they thought it might be. But have any thoughts comments?
Britson: Well, no, not particularly. There were a lot of little stories around about at the time. One story that they used to tell—a kid in school got up and said to a teacher, she knew what her father was doing out in the plant, because he brought home a roll of toilet paper in his lunch box every night. [LAUGHTER] Another of the cute stories at the time was that they just painted some glue on a piece of paper and held it up and made sandpaper out of it. Because of the sandstorms. We had a lot of wind at that time and of course everything in Richland, Hanford, and the areas was all dug up and just loose sand everywhere. And so, it was in the air. But, well, of the group of people that I associated with, were all like myself: they had a very limited knowledge of what was going on in the building. But I think most of us operated on the basis we had enough to learn about the equipment that we had under our charge to worry about what was going on the other side of the fence. And, of course, as I mentioned, the fact that at the time construction was laying off carpenters, and so we hired a bunch of carpenters for power operators. We had brand new equipment; nobody was used to it, and so it didn’t make much difference what their past profession was, they had to learn all over again. And we had plenty of time, with the exception of myself, because I’d spent two months on the whiz-bang. And so my shift got a bit behind, but they permitted me to set up some overtime sessions down here in the school, right across the street here, somewhere. Right here in this area. There was a church, or something, right over here on the corner, wasn’t there? And I set up some sessions there and paid the boys overtime to sit and listen to me yack at them.
Greger: You mentioned that you were on a day off in Portland when the bomb was dropped. Is there—I’d be curious as to what was the attitude of people when you got back to the shift and people you knew, now that the news was out?
Britson: Well, I don’t know, nobody seemed to be too surprised at anything. Is that the way you remembered it, Tom?
“Tom”: That’s about right. I think--
Britson: Nobody seemed to be particularly surprised at anything. The fact that the second bomb came from material from here was welcome news and that was about it.
Putnam: Yeah. I want to backtrack and—you were describing me the startup procedure and some of the technical facts of the 1,600 versus the 2,000 tubes, can you give us just a little bit, kind of a thumbnail sketch, of the startup period and you know just what you heard about or what you know about it? Just as a description.
Britson: Well, as far as our operations concerned it didn’t make any difference. We just had to maintain certain water flow, water pressure. And once it hit the valve pit we didn’t pay any attention to what was going on the other side of the fence, because we had been told right from the start, it’s none of your damn business. And so—[LAUGHTER]
Putnam: But, how did it work, where they did a dry criticality first, and then--?
Britson: We had been pumping for days. To make sure of our equipment. You see, the contractor only had to run equipment 24 hours satisfactorily. And then it was turned over to us, and we had to make sure that it was going to run continually. And if one piece of equipment wouldn’t run, then another piece would. And to back all of this up with tanks of water sitting here and there and high tanks and we had special pumps on the export system to pump water from one area to another.
“Tom”: Yup, they were some high tanks.
Britson: [LAUGHTER] Yeah, yeah. And so—but in my years of operation we never had to resort to those. We were able to take care of the situation with our electric and our steam pumps.
“Tom”: Steam backup.
Britson: Plus—one little factor in there—there were great big wheels between the motor and the pump—flywheels. What did those things weigh, six tons?
“Tom”: Yeah, at least that much. Yeah.
Britson: And they would continue to keep those pumps running for long enough for us to get our steam pumps in operation. And the power houses responded every time there was a need for it. We had ample capacity there and a well-trained crew. And we had those steam pumps at all the places: 182, 183, as well as 190. And reservoirs to back us up.
Putnam: Did you have any particular problems in that area in the days before start up, anything that was interesting problems to solve? Or was it just basically a well-designed beginning, not too many adjustments necessary?
Britson: Well, no, there wasn’t too much. We got the equipment. Oh, we had some problems, but they posed no problem for us, because we had alternate equipment to stick on. And backup equipment. From my own limited knowledge of what was going on—and I don’t remember now just where that took place—but it was some time after the initial startup was when they put those boron balls in those buckets above the reactors. That was a safety backup.
“Tom”: The VSRs.
Britson: Because we’d all been a little dubious about some of those horizontal rods and particularly those vertical control rods hanging up somewhere. But when they put those buckets of balls up there, why, I certainly rested a lot happier with it. But I don’t remember just where now, it was a year or two after—
“Tom”: After startup.
Britson: --after startup, wasn’t it?
“Tom”: I don’t remember the day really, the Ball-3X system. I started to work at DuPont down there around the same time that he did.
Britson: Oh, I see. Well, of course, I came from Kankakee Plant and there were a lot of boys from Kankakee Plant here.
“Tom”: Oh, yeah.
Britson: In fact, I think there was probably about 1,200 at one time considered for moving out here.
Putnam: Here, would you describe conditions as being difficult? And what was the morale like? Was there a sense of team spirit sort of, of everybody working on a big project?
Britson: Well, I don’t know if we had too much of a problem in operations, although there was several people unhappy with their housing, and I guess some were unhappy with their job. We were all here on travel contracts, and so some of the boys, as soon as they could, talked them into shipping them back to their old plant. But it wasn’t long we started getting letters from them, could they get their old job back? And one chap, Chet Smith, do you remember him?
“Tom”: I remember the name.
Britson: Well, Chet and his wife lived down around in here somewhere in F house and they didn’t like it. In fact, they didn’t like anything about this place much. And so, they were one of the very first to be shipped back. But they were also one of the very first to start writing letters, could they get their old job back, could they get any job back? Could they get their old housing back, could they get any housing back? They didn’t need housing, they would live in a trailer. [LAUGHTER] Anyway, to get back here. We did, we finally got him back, gave him his old job. You never heard a thing out of Chet Smith from then on. But there were a few pretty unhappy people here at one time.
Putnam: Was there enough—was the food good, was there a lot of groceries?
Britson: Well, sure. There was a cafeteria across from the 703 Building there on the corner, I don’t know what’s in there now.
“Tom”: The corner of Knight and Jadwin.
Britson: And a Coke machine at the Desert Inn, and that was it. If you wanted to get to a restaurant you had to go to Pasco or Kennewick, and they didn’t have too many. But the cafeteria food was pretty good, so I thought. There were a lot of stories that come out of Hanford of the construction group. In fact I heard one fella say, we had a pretty good week last week. We lost 3,000 because of the dumb sandstorms, but we hired 3,001. So we had a good week. The turnover was terrific, apparently, in construction. But, you see, when we started moving operation people in, the City of Richland, the housing that’s just here today, mostly, was available to us. Of course, there was some unhappiness. My wife, when she got here, boy, how she hated this place. We had an H house, right in the middle of a sand dune, across from the Mormon Church. It wasn’t there at the time, but was built later. But anyway, I think it was 1959, we had built a house over east of the shopping center and moved over east of the shopping center and moved over there, Kennewick address. Now we had been living here since ‘44 and this was in ‘58 or ‘59 when we moved over there. I remember a trip that we took back east, on vacation, and when we got back in the middle of the night I said, to heck with our baggage, we’ll come back in the morning and get it. I’m bushed, let’s get the car and get home and get a little sleep. Which we did. And the next morning, then, we went back for our suitcases and I can remember my wife settling back in the seat of the car and she said, I’m glad to be home. But it took a lot of years to get there. [LAUGHTER]
Putnam: In retrospect, in your own experience from all the—what’s your evaluation of that experience? Are you proud to have been a part of that, and was it gratifying to be here during those years?
Britson: Well, the part that I played into it and the responsibilities that I had, were probably a lot different than the average. Because I apparently made a name for myself on that first two months, on the whiz-bang. And from then on I had myself a good job. I was a construction liaison and startup of new areas. When we finally settled down on GE’s reorganization, I was a manager of an area and that’s where I retired from. So, I think my luck was a bit different than the average that just had a humdrum job and didn’t really gain anything much by it. There was a few promotions but not really too many, because in Operations we didn’t have too much of a turnover of people. Housing was cheap. Of course wages weren’t all that good at the time, but then, these houses that now sell for $100,000, we bought for $7,000 or $8,000.
Putnam: Anything—well, as part of the overall, do you have anything else to say about the experience and about kind of—we are undergoing a lot of nuclear power and nuclear generation has led to a lot of questioning and a lot of—we have to look to the future. Do you have anything that you can say from your experience to future generations?
Britson: Well all I can say is, I’ve been retired for 27 years and I’ve continued to live right here. That’s about the first thing my wife and I agreed on. That we were not moving back to Ohio or Illinois. If we were to leave here, we would go to Arizona. And then we decided that our six weeks of summer here was a heck of a lot better than that six to eight months of summer in Tucson. [LAUGHTER] So, we stayed right here. My wife and I were together 66 years before she passed away a year ago.
Putnam: Oh. Well, that’s wonderful. Okay. All right, thank you very much.
Britson: Well, you’ve milked me dry, have you?
Putnam: Well, anything you want to add? Anything you want to say in retrospect to—for posterity?
Britson: Well, I don’t know. I listen or read about these guys over on the West Slope and all the troubles that they’re having from this plant and I worked in it for 20 years and have lived around here almost 50. And I don’t understand what they’re complaining about. [LAUGHTER]
Putnam: Good, all right.
FLOYD BRITSON INTERVIEW Recorded 3/15/92
Tom Putnam: The first thing we’d like to know is if you could state your name and whatever position that you had here in the early days of Hanford. And then we’ll ask questions for answering.
Floyd Britson: Well, Floyd Britson is the name. And I was Senior Supervisor on C shift during the startup of B.
Putnam: How did you first hear about the Hanford Project, and how were you recruited to come here?
Britson: Oh, I was an area supervisor for DuPont at a TNT plant at Joliet, Illinois. And they turned the plant over to another company and moved about 1,200 of us out here from Joliet. This was in the summer of ’44, basically operating people. But I got on a side issue along with a chap by the name of Harry Miller. Developed the whiz-bang which resolved the canning problem of the slugs they used in B Reactor.
Putnam: How did you come here? Did you come by car, by train?
Britson: By train. Landed here April 12th. My car showed up somewhat later, by train. And then, I was assigned a house early in the—but I was told that my furniture would be two-three months away from getting out here. But, one day I got a call, come into town; there’s a truck full of furniture out in front of your house and they want to unload it. It seemed, according to my wife, that when they started to load the furniture back in Joliet to haul into Chicago for storage, the truck driver got a call on the telephone and he was told instead of bringing that furniture into Chicago, you just head out for Richland. So, I had a house full of furniture and no wife.
Putnam: What was it like when you arrived here? Where—did you live in Richland or in Hanford, or--?
Britson: I lived in Richland. The dormitories were in operation but full. And so I was put in a house out on the corner of Stevens and Van Giesen. That was made over into a dormitory. There was six or eight of us that were sleeping there. But a few days after I got there, as I say, I already had a house assigned to me, so they said they would loan me a bedroom full of furniture if I would sleep in my own house for free until my furniture got there, which would free up a dormitory room for somebody else. Because they were moving them in pretty fast at that time. Well, I don’t know how many, but several DuPont plants were shut down, in the east, or turned over to—well, it was our plant at Joliet was turned over to U.S. Rubber, to operate. And they moved everybody that could get clearance and they brought 1,200 of us out here. But Oklahoma, southern Indiana, various plants, many people were brought out here at that time. And so they were just running out of room.
Putnam: Was there a lot of construction?
Britson: Well, construction was in full force. Hanford was loaded. Reportedly 65,000 men out there. And so—but then, a good many houses were well along in Richland. The big problem was furniture. They couldn’t get it in fast enough, they couldn’t get freight cars and sometimes up to six months.
Greg Greger: You mentioned 65,000 construction workers. Do you have any idea of whether or not any of them were women? Not in construction, necessarily, but related jobs?
Britson: There were some women. I have no idea how many. They had women’s dorms and they had men’s dorms and they had quite a problem with that: married people split up. They had to do their lovemaking through fences and—oh, it was a lot of stories. [LAUGHTER]
Putnam: When you—do you recall first seeing B Reactor and the Area out there? What level of construction was complete by then? Tell us about your first reactions.
Britson: Well, the buildings were all complete, at the time I got here in April, or virtually complete. But the equipment inside took until about September before they loaded up and started up. I don’t remember the date in September; it seems like the initial start was fairly early.
Putnam: and you came in April, April of ’44. So tell us the story then about—what was the problem that they had then at that point?
Britson: Well, the problem that I got onto was canning this uranium slugs with aluminum, they had to be leak-proof, no pinholes. And they had been working somewhere back east—Ohio I believe—for a year and had not been able to solve the problem. And, so a chap by the name of Harry Miller was assigned the job; he was a DuPont troubleshooter. And Harry grabbed me as a draftsman and I spent the next two months in developing what was later dubbed the whiz-bang. But from it, they found out what they were doing wrong with their old machines and they made the correction in between April and September. Had enough seven-inch slugs to load B Area.
Putnam: Can you describe the whiz-bang to us? What—how did it work?
Britson: No, I don’t think I dare. I was sworn to secrecy and I’ve never been taken off of it, so--
Putnam: Okay. So what did your work consist of? You built the whiz-bang, and then--?
Britson: Then I went back to B Area and was senior supervisor on C shift for power. We supplied the water and the steam for backup emergency. But our primary job was to pump through the filter plant—this meant water treatment, additions of various chemicals along the road, and then the final pumping station in the 190 Building, which brought it up to pressure. Also had the emergency steam pumps sitting there, in the event of electrical failure for the electric pumps.
Greger: On the treatment of water, was there anything new or was this pretty much standard procedures?
Britson: Well, it was fairly standard procedure. B Area did not have the refrigeration units as we talked a bit ago, although D and F area did have, but they were only used for one season, I think. But the standard filter plant was—see, there was first a river pump house. Pumped it up to a reservoir in the plant. And from that reservoir, then, water was pumped through the filter plant into clear wells. They had gone through the filter beds, given water treatment and pumped out of the clear wells through the 185 Building, which was a chemical addition building where addition chemicals were added. The 190 pumps then pumped out of the storage tanks in this 185 Building. Pumped it through the valve pit where again chemicals were added. And through the tubes that contained the uranium slugs that were being irritated. [LAUGHTER] Irradiated.
Greger: Do you recall how many degrees the refrigeration was able to get in the water?
Britson: No sir, I couldn’t. Not now anymore, but we just gave it all we had.
Greger: Mm-hmm. And you might mention, as you told me, why the decided not to--
Britson: But that was not in B Area.
Greger: I realize that, yeah.
Britson We did not have the refrigeration pumps in B Area.
Greger: But even with the older areas, since it was going on at the same time, you might mention what you told me.
Britson: Well, they only used it for, I think, one season. And decided that, rather than to waste all that electricity on those refrigeration units, they’d just pump additional water. Get the same results. And then later—oh, several years later, they put in bigger pumps in those 190 annexes they put in—[TELEPHONE RINGS]—some enormous pumps. [TELEPHONE RINGS]
[VIDEO CUTS]
Britson: Everything was secret back in those days. You just didn’t discuss off of the Plant anything that you knew about the place. Various people got into all kinds of trouble from spouting off. There was one story that was going around, a guy got into trouble and he was asked what they were doing out there he said, hell, I don’t know, they could be splitting atoms for all I know. And boy, he was in a lot of trouble. [LAUGHTER]
Putnam: He made a good guess! How much—were you aware of what was going on? Were you given information or simply given figures?
Britson: I was given only what information I needed to know to run my job. When water got to the valve pit, I didn’t have any idea what was going on beyond that.
Greger: How long was it before you finally understood or were told that it was a nuclear thing?
Britson: I don’t guess ever. Of course, my job, over time—I was on construction liaison for several years, the building of H Area unit, D and DR unit—DR unit. And some of the buildings, operations in the 200 Areas and, as I say, information that filtered down some way or other. I had no idea what was going on. How I acquired it, I don’t know. But as far as anybody sitting down and telling me what was going on, that never happened.
Greger: They probably thought that power needs to just treat the water.
Britson: Treat the water and that’s it. No, we never told our fellows anything. You see, I was two months behind on getting my shift together. And holding the training courses, because we were hiring anybody that was warm. And it turned out that construction was letting a lot of carpenters loose at about that time and we hired a lot of carpenters for power operators. It was a new business and so it didn’t make much difference how much experience a guy had, he didn’t have what was going on here. But I was permitted to hold some overtime classes in town here, during the summer of—well, say, July and August—I held classes right here in town for my crew on overtime basis because I was behind, having spent two months on the whiz-bang. And of course that never hurt my reputation any. From then on, I had a good job. Harry Miller got to be superintendent of a department. I never attained that, but I did wind up as manager of GDR Power, in the last few years.
Greger: One last question on the whiz-bang. Do you happen to know how they came up with that name?
Britson: No. No, that was all done in operations. In fact, I had trouble even finding anybody that would talk, to tell me that much on the whiz-bang. Because it had been a sore problem and when it got resolved, why, it was kept a secret. No, I ain’t kidding you.
Putnam: Were you at—you were here when startup occurred. Were you at the plant, or what was—was there awareness that the plant started up?
Britson: I was on C shift, actual startup.
Putnam: C Shift—what was C Shift?
Britson: We were on 4:00 to 12:00.
Putnam: 4:00 to 12:00. And so, were you working in the main building? Were you in the control room?
Britson: No, I was supervisor—senior supervisor of the shift. So I had a lot of buildings to—the 190 Building, the 185 Building, 183 Building, 182 Building, 181 Building, 108 Building—all under my supervision, plus the powerhouse.
Putnam: What did that entail, just telling people what to do?
Britson: Well, no, I had supervisors under me who did the telling. But when you’re the top supervisor on any shift, the responsibility lands in your lap for anything that happens.
Greger: Were there any preparations or announcements or anything else as you approached startup that would make it any different in the regular shift?
Britson: No, no. We had been working for days as though the place was in operation. As far as we were concerned in our water treatment plant, our pumping, all of our pumping facilities were just as—the crew really never knew what was going on, particularly.
Greger: Was there any announcement that they had made?
Britson: Not particularly. No, because as I say, nobody was told anything that they didn’t have to have it for use on their job. And these boys had some gauges and that’s all they had to watch.
Putnam: How many people were—I mean, was there a big crowd around at the time?
Britson: No, no, no. It was just standard shift. There may have been a few extra physicists during the startup period. Because—well, remember, that was the first one in the world and so the boys with their pencil were there, but not too many of them, that I was aware of.
Greger: How many people were in your power C Shift would you estimate?
Britson: Oh, gosh. I just don’t remember now how many I did have.
Putnam: I think I’d better—
Britson: We had about, at that time, total power, as I remember, about 600 people. But they were scattered over four shifts.
[TAPE CUTS]
Britson: From F—or B to F, and continued then in operations, I was area supervisor for—well, the rest of ‘45, ‘46, when DuPont left and GE came in. And sometime in ‘47, or ’48, we started to build the DR Reactor because B was shut down and it looked like it was done.
Greger: What was your understanding of how they came into that problem at B?
Britson: Well, I was told that the material used was crawling and that the tubes were getting so crooked, that they were having trouble getting these seven-inch slugs pushed through. Were having some trouble with the control rods which had to be moved in and out to control the reaction. And what they were concerned with, particularly, was that the vertical control rods wouldn’t drop into place in case of emergency. But after B sat there for a while and they were able to watch D and F Area, which was still in operation, they realized that the creep had about reached its limit. And so they went to a four-inch slug instead of a seven and were able to load the tubes, and their control rods weren’t giving them any further trouble. But in addition to that, my understanding was that they hung a bunch of hoppers—buckets if you will—with boron balls—marbles—above the reactor and so in case any of the control rods failed all they’d do is dump those balls and they’d run like water into every crack and crevice in the place and shut the place down dead. And so with that behind them, then they started up B Area again and it continued to operate until it was shut down somewhere in the ‘60s.
Putnam: In terms of general atmosphere at Hanford and kind of in the country at the time, what was the climate--was there a time of fear and crisis, or--? What was it like to be in the United States of America in 1944 working on the Manhattan Project?
Britson: Our only concern really was the balloon bombs that the Japs were floating this direction. We were told about them; that some several had landed in Oregon. None that I ever heard of had landed near here. But it wasn’t until just a few years ago that I learned that those rascals floated over 6,000 of those bombs in our direction, on the Jetstream. But that Jetstream, of course, changes course without notice and their bombs weren’t too effective, but the intent certainly was there. To float 6,000 of them in this direction. And that was several years after Pearl Harbor, which was in ’41, and so we’re talking about ‘44, ‘45. Of course, in ‘45 the bombs were dropped, first Nagasaki—or I mean Hiroshima and then Nagasaki a week later. Now, Nagasaki used materials from here. Hiroshima used material from Oak Ridge.
Putnam: When did you first hear about that? And was there an explanation? I mean, obviously it came in paper at that time.
Britson: Well, I was in Portland. We had a day off and so we’d gone to Portland, and I heard about it there.
Putnam: Do you remember hearing about it in the news?
Britson: Oh.
Putnam: Were you excited?
Britson: Well, for sure because we didn’t know what the results of that may be, but then on the other hand—Many of us had been passed over by the Army or the Navy. I had—back in TNT plant—I was in TNT before Pearl Harbor. I had gone to work for the contractor that was building the TNT plant there at Joliet in 1940. And, as construction ended, or was tapering off, I got permission to talk to DuPont who was coming in to operate the plant. I had been working with Stone & Webster. And I had been in charge of well drilling operations, so DuPont decided they needed me and so I hired over with DuPont. Stone & Webster already had a job for me at Oak Ridge but I talked them out of that. In fact the Stone & Webster manager said, I know a little bit about DuPont. He said, I’ll just bet you a dinner that you leave here before I do.
Putnam: What was your area of expertise? How was your training?
Britson: Well, I was a civil engineer to start with. I had gone to school at Iowa State, Ames. I never got a degree, but I had gotten into construction—some of the major companies.
Putnam: What, in your opinion, was the major importance? It was really a huge endeavor, the Manhattan Project. Why do you think we were able to do it and make it succeed?
Britson: Well, I guess you can say it just kind of happened, if you get the right people on the job. DuPont had some people on the job with their expertise. [TELEPHONE RINGS] Now we’ve talked—
Putnam: Oh.
Gregson: I’ll get ya.
Putnam: Okay, go ahead.
[TAPE CUTS]
Putnam: What I was getting at before was, did it take a lot of the industrial capacity of the United States to—I mean a lot of the expertise and industrial capacity of the United States was diverted to this project and it was pretty remarkable. Do you have any thoughts about that?
Britson: Well, I don’t know too much about the design effort, nor the early construction. See, these reactors, well, they’d been building on them for years by the time I got here.
[DOOR OPENS]
Putnam: Oops.
Britson: And so, I don’t guess I’m in position to answer your question that you’re—
Putnam: Yeah, sure, okay. Let’s see. We’re going to—
[TAPE CUTS]
Greger: --that you felt everybody was really tuned in to security, and I think that you commented that some people did get in trouble. Did you have anything else to say about that? One would think that people would always—or some people would discuss what they thought it might be. But have any thoughts comments?
Britson: Well, no, not particularly. There were a lot of little stories around about at the time. One story that they used to tell—a kid in school got up and said to a teacher, she knew what her father was doing out in the plant, because he brought home a roll of toilet paper in his lunch box every night. [LAUGHTER] Another of the cute stories at the time was that they just painted some glue on a piece of paper and held it up and made sandpaper out of it. Because of the sandstorms. We had a lot of wind at that time and of course everything in Richland, Hanford, and the areas was all dug up and just loose sand everywhere. And so, it was in the air. But, well, of the group of people that I associated with, were all like myself: they had a very limited knowledge of what was going on in the building. But I think most of us operated on the basis we had enough to learn about the equipment that we had under our charge to worry about what was going on the other side of the fence. And, of course, as I mentioned, the fact that at the time construction was laying off carpenters, and so we hired a bunch of carpenters for power operators. We had brand new equipment; nobody was used to it, and so it didn’t make much difference what their past profession was, they had to learn all over again. And we had plenty of time, with the exception of myself, because I’d spent two months on the whiz-bang. And so my shift got a bit behind, but they permitted me to set up some overtime sessions down here in the school, right across the street here, somewhere. Right here in this area. There was a church, or something, right over here on the corner, wasn’t there? And I set up some sessions there and paid the boys overtime to sit and listen to me yack at them.
Greger: You mentioned that you were on a day off in Portland when the bomb was dropped. Is there—I’d be curious as to what was the attitude of people when you got back to the shift and people you knew, now that the news was out?
Britson: Well, I don’t know, nobody seemed to be too surprised at anything. Is that the way you remembered it, Tom?
“Tom”: That’s about right. I think--
Britson: Nobody seemed to be particularly surprised at anything. The fact that the second bomb came from material from here was welcome news and that was about it.
Putnam: Yeah. I want to backtrack and—you were describing me the startup procedure and some of the technical facts of the 1,600 versus the 2,000 tubes, can you give us just a little bit, kind of a thumbnail sketch, of the startup period and you know just what you heard about or what you know about it? Just as a description.
Britson: Well, as far as our operations concerned it didn’t make any difference. We just had to maintain certain water flow, water pressure. And once it hit the valve pit we didn’t pay any attention to what was going on the other side of the fence, because we had been told right from the start, it’s none of your damn business. And so—[LAUGHTER]
Putnam: But, how did it work, where they did a dry criticality first, and then--?
Britson: We had been pumping for days. To make sure of our equipment. You see, the contractor only had to run equipment 24 hours satisfactorily. And then it was turned over to us, and we had to make sure that it was going to run continually. And if one piece of equipment wouldn’t run, then another piece would. And to back all of this up with tanks of water sitting here and there and high tanks and we had special pumps on the export system to pump water from one area to another.
“Tom”: Yup, they were some high tanks.
Britson: [LAUGHTER] Yeah, yeah. And so—but in my years of operation we never had to resort to those. We were able to take care of the situation with our electric and our steam pumps.
“Tom”: Steam backup.
Britson: Plus—one little factor in there—there were great big wheels between the motor and the pump—flywheels. What did those things weigh, six tons?
“Tom”: Yeah, at least that much. Yeah.
Britson: And they would continue to keep those pumps running for long enough for us to get our steam pumps in operation. And the power houses responded every time there was a need for it. We had ample capacity there and a well-trained crew. And we had those steam pumps at all the places: 182, 183, as well as 190. And reservoirs to back us up.
Putnam: Did you have any particular problems in that area in the days before start up, anything that was interesting problems to solve? Or was it just basically a well-designed beginning, not too many adjustments necessary?
Britson: Well, no, there wasn’t too much. We got the equipment. Oh, we had some problems, but they posed no problem for us, because we had alternate equipment to stick on. And backup equipment. From my own limited knowledge of what was going on—and I don’t remember now just where that took place—but it was some time after the initial startup was when they put those boron balls in those buckets above the reactors. That was a safety backup.
“Tom”: The VSRs.
Britson: Because we’d all been a little dubious about some of those horizontal rods and particularly those vertical control rods hanging up somewhere. But when they put those buckets of balls up there, why, I certainly rested a lot happier with it. But I don’t remember just where now, it was a year or two after—
“Tom”: After startup.
Britson: --after startup, wasn’t it?
“Tom”: I don’t remember the day really, the Ball-3X system. I started to work at DuPont down there around the same time that he did.
Britson: Oh, I see. Well, of course, I came from Kankakee Plant and there were a lot of boys from Kankakee Plant here.
“Tom”: Oh, yeah.
Britson: In fact, I think there was probably about 1,200 at one time considered for moving out here.
Putnam: Here, would you describe conditions as being difficult? And what was the morale like? Was there a sense of team spirit sort of, of everybody working on a big project?
Britson: Well, I don’t know if we had too much of a problem in operations, although there was several people unhappy with their housing, and I guess some were unhappy with their job. We were all here on travel contracts, and so some of the boys, as soon as they could, talked them into shipping them back to their old plant. But it wasn’t long we started getting letters from them, could they get their old job back? And one chap, Chet Smith, do you remember him?
“Tom”: I remember the name.
Britson: Well, Chet and his wife lived down around in here somewhere in F house and they didn’t like it. In fact, they didn’t like anything about this place much. And so, they were one of the very first to be shipped back. But they were also one of the very first to start writing letters, could they get their old job back, could they get any job back? Could they get their old housing back, could they get any housing back? They didn’t need housing, they would live in a trailer. [LAUGHTER] Anyway, to get back here. We did, we finally got him back, gave him his old job. You never heard a thing out of Chet Smith from then on. But there were a few pretty unhappy people here at one time.
Putnam: Was there enough—was the food good, was there a lot of groceries?
Britson: Well, sure. There was a cafeteria across from the 703 Building there on the corner, I don’t know what’s in there now.
“Tom”: The corner of Knight and Jadwin.
Britson: And a Coke machine at the Desert Inn, and that was it. If you wanted to get to a restaurant you had to go to Pasco or Kennewick, and they didn’t have too many. But the cafeteria food was pretty good, so I thought. There were a lot of stories that come out of Hanford of the construction group. In fact I heard one fella say, we had a pretty good week last week. We lost 3,000 because of the dumb sandstorms, but we hired 3,001. So we had a good week. The turnover was terrific, apparently, in construction. But, you see, when we started moving operation people in, the City of Richland, the housing that’s just here today, mostly, was available to us. Of course, there was some unhappiness. My wife, when she got here, boy, how she hated this place. We had an H house, right in the middle of a sand dune, across from the Mormon Church. It wasn’t there at the time, but was built later. But anyway, I think it was 1959, we had built a house over east of the shopping center and moved over east of the shopping center and moved over there, Kennewick address. Now we had been living here since ‘44 and this was in ‘58 or ‘59 when we moved over there. I remember a trip that we took back east, on vacation, and when we got back in the middle of the night I said, to heck with our baggage, we’ll come back in the morning and get it. I’m bushed, let’s get the car and get home and get a little sleep. Which we did. And the next morning, then, we went back for our suitcases and I can remember my wife settling back in the seat of the car and she said, I’m glad to be home. But it took a lot of years to get there. [LAUGHTER]
Putnam: In retrospect, in your own experience from all the—what’s your evaluation of that experience? Are you proud to have been a part of that, and was it gratifying to be here during those years?
Britson: Well, the part that I played into it and the responsibilities that I had, were probably a lot different than the average. Because I apparently made a name for myself on that first two months, on the whiz-bang. And from then on I had myself a good job. I was a construction liaison and startup of new areas. When we finally settled down on GE’s reorganization, I was a manager of an area and that’s where I retired from. So, I think my luck was a bit different than the average that just had a humdrum job and didn’t really gain anything much by it. There was a few promotions but not really too many, because in Operations we didn’t have too much of a turnover of people. Housing was cheap. Of course wages weren’t all that good at the time, but then, these houses that now sell for $100,000, we bought for $7,000 or $8,000.
Putnam: Anything—well, as part of the overall, do you have anything else to say about the experience and about kind of—we are undergoing a lot of nuclear power and nuclear generation has led to a lot of questioning and a lot of—we have to look to the future. Do you have anything that you can say from your experience to future generations?
Britson: Well all I can say is, I’ve been retired for 27 years and I’ve continued to live right here. That’s about the first thing my wife and I agreed on. That we were not moving back to Ohio or Illinois. If we were to leave here, we would go to Arizona. And then we decided that our six weeks of summer here was a heck of a lot better than that six to eight months of summer in Tucson. [LAUGHTER] So, we stayed right here. My wife and I were together 66 years before she passed away a year ago.
Putnam: Oh. Well, that’s wonderful. Okay. All right, thank you very much.
Britson: Well, you’ve milked me dry, have you?
Putnam: Well, anything you want to add? Anything you want to say in retrospect to—for posterity?
Britson: Well, I don’t know. I listen or read about these guys over on the West Slope and all the troubles that they’re having from this plant and I worked in it for 20 years and have lived around here almost 50. And I don’t understand what they’re complaining about. [LAUGHTER]
Putnam: Good, all right.
Tom Putnam: Well, if you could start by just telling me your name and spelling your last name, and then tell me when you arrived, how you first heard about what your job was and how you got the job. Just a little background like that.
Hope Amacker: Mm-hm. My name is Hope Amacker, A-M-A-C-K-E-R. I had never heard of a construction camp until I joined the Army. Before I finished my basic training, I was told that I was going to be assigned to the Manhattan Engineer District. I had joined the Air Force, so of course I was disappointed. I came through Oak Ridge, Tennessee and was indoctrinated there by Captain Scheidenhelm. And she then made it sound very important and exciting and told me that I was one of a few who were handpicked to work with the Manhattan Engineer District, and that I would be stationed where there was sand up to my boot tops and an hour-and-a-half away from snow skiing. So I had no idea where I was going. It was Richland, Washington.
Putnam: That’s all they told you?
Amacker: Hanford, Washington. That’s all they told us, that’s right. Well, when we got to Oak Ridge, she did say we’d be going to Pasco, Washington. But that was like the end of the world in 1943, to me, from Ohio. I’d never been further west than Chicago.
Putnam: What was your job description, and how did you come out?
Amacker: I came on the train. Spent five nights on the train coming out. Traveled with another girl who had been stationed at Oak Ridge. I came from Daytona Beach, Florida, where I had just finished my basic training. At Hanford, I worked in the transportation department. Then when I moved to Richland, I was in military intelligence—until we got a public relations officer. Then I went to work for public relations, and that’s what I did until the end of the war and after.
Putnam: Do you remember the exact date when you arrived?
Amacker: January 1st of 1944.
Putnam: That was pretty early.
Amacker: That was early. We lived at Hanford in the barracks behind the barbed wire fence that everybody’s heard about.
Putnam: Oh, yeah.
Amacker: With a guard at the gate and tarred floors. We didn’t have any floor covering at all, so if we walked barefoot from our rooms to the shower, our feet were black.
Putnam: How many women were in that complex?
Amacker: I don’t really remember—oh, in the whole complex? I don’t know. In the WAC dorm there were probably 22 of us—or barracks, we called them then. They were dormitories after we moved to Richland. I did know at one time the number of women that were there, but I don’t remember now. There were a lot of us—a lot of women. But only one barracks of WACs.
Putnam: And what was the job that the WACs did, basically? It was unusual to be a woman here, wasn’t it? I understand the ratio was pretty high—
Amacker: There were a lot of women at Hanford, even though there were only a few of the WACs. We did a variety of things. Most of us were secretarial. Some of them worked in recreation—I remember one girl that did. And then after we moved to Richland, and the plants were constructed and were into production, the girls worked in the Areas, some of them did. I never did.
Putnam: What was your job?
Amacker: After we moved to Richland, it was, for a short time, in military intelligence, and then public relations for Lieutenant Milton Cydell. He was the public relations officer.
Putnam: How much public relations was there to do? I understand the secrecy was—
Amacker: Well, most of it was no public relations. And that was his job, to talk to all the newspapers, radio stations. And I can’t recall what he told them; he told them something very important was going on here, but there was no—we were keeping a lid on it. It was amazing, though, how you could go to Portland or Seattle and mention Hanford or Richland, and they had never heard of it. Even Walla Walla. They’d say, where’s that? Word didn’t get around. You just kept the lid on it. People didn’t talk. We were instructed not to talk about the Plant when we were traveling by train or car, whatever.
Putnam: And people here didn’t know much either, did they?
Amacker: No. Very few people knew what was going on. I don’t think any of the WACs did. Maybe one or two, but I doubt it. I don’t know. I’d say that none of them knew.
Putnam: And what were conditions like when you got here?
Amacker: Well, pretty rugged at Hanford. Nothing growing. Streets weren’t paved. And I’m sure you’ve heard about the termination winds. Every Thursday, it seemed we had a termination wind. We’d eat in the mess hall at Hanford. When we moved to Richland, we had a cafeteria, which is right across the street here from the Federal Building. It was pretty rough, pretty rugged.
Putnam: I’m not—what was the chronology, how—I know Colonel Mathias came here to check out the—they did a survey and finally identified this as the ideal site, and then what happened after that?
Amacker: Well, I think the first thing they did was build Hanford for a place to house the construction workers. Then they went to work on the plants. Then—of course, they had subcontractors doing Richland, building the dormitories and the first houses in Richland. I think I moved to Richland in March of ’45. So I was at Hanford over a year—a year and about three months.
Putnam: So Hanford was a construction camp, but Richland was more the administrative center, is that correct?
Amacker: Mm-hmm, mm-hmm. Hanford was the construction camp to get the plants built. When we came to Richland, I suppose there was still construction going on out in the Areas. But the bulk of the construction had left Hanford by the time—well, not when I left. I was one of the first of the WACs to leave Hanford. And I don’t recall now how long the Hanford Camp was in operation. I don’t think much past the summer of ’45.
Putnam: No, the construction was pretty well done, actually by then.
Amacker: Pretty well done, mm-hmm.
Putnam: What was the camp itself like?
Amacker: Rows and rows of barracks and the mess halls. We had a post office and a bank and a big recreational hall, which they built in 12 days. You’ve probably heard all that stories—the stories about all of that. It was dusty. Everywhere you looked, it was dusty. For recreation, we used to go across the river and picnic because there were more trees across the river than on this side of the river—on Sundays. We worked six days a week, so we really didn’t have much time to think about recreation. And we worked nine hours a day. So we were busy.
Putnam: You were working for the Army then—I mean, in the Army. How did the—but the contractor was DuPont.
Amacker: It was DuPont, mm-hmm.
Putnam: So what were the relations like? How did that work?
Amacker: Well, at Hanford, when I was at Hanford, I hardly knew who the contractor was. After we came to Richland, it worked very well. Colonel Mathias was at one end of the second floor in the Administration Building, and DuPont was at the other end. I worked next door to Colonel Mathias’ office. It worked very well. DuPont was a superb company. And Colonel Mathias got along with everybody; he didn’t have any problem with Army or civilians. He just did the job.
Putnam: He was a heck of a guy, wasn’t he? We have about—
Amacker: He was—when I think of him, I think of the old saying, there’s nothing so strong as gentleness. I never heard him raise his voice. He never was military, in the sense that if you were placing a telephone call for him to a lower ranking officer, most military men would insist you get that man on the line first. Colonel Mathias wasn’t like that. He wasn’t military or petty or—he just got the job done. He did what he came to do with very little fanfare.
Putnam: He was pretty young for that position, too, wasn’t he?
Amacker: He was. I think he was 34 when he came here.
Putnam: And so you worked right in the same—
Amacker: Well, our office, the public relations office, was next door to his. His secretary’s office was between us and his office. Sometimes I would relieve her. If she was away for a day or two, I would work in that office. So that’s how I got to know Colonel Mathias, and to appreciate his abilities. He was a superb man.
Putnam: What do you think made him so effective?
Amacker: Oh. I can’t—he was very unassuming. He knew what he was about. He knew his job. He knew what he had to do. And he just did it.
Putnam: He must have had some good help, too.
Amacker: He had some good help, he did. He had some good military help, and he had good relations with DuPont. DuPont actually built—did the work, but Colonel Mathias was the—well, he just oversaw everything. He made sure it was getting done.
Putnam: Okay. The camp itself was a pretty rough and tumble place, wasn’t it—
Amacker: It was.
Putnam: --as far as the people. What kind of people were there?
Amacker: All kinds. All kinds. The rec hall was all the entertainment you needed. You could just go to the rec hall and sit there and be entertained. Even the waitresses were colorful. We had one waitress that we called the Vitamin Girl. Closing time, she came around with juices—a huge tray of juices. And she’d give us the old, get your juices here! And then of course there were lots—I suppose there were a lot of fights. I always heard there were, but I never did see one. I never saw any—just—I didn’t see any brawling. Everybody had a good time. And you had to be seated to be served. So there was a lot of people waiting in the rec halls to find a seat. Because you couldn’t get a drink unless you were seated. And there was people from every walk of life at Hanford. 40,000—45,000 people were there at the peak of construction. And I have no idea how many came and went. They were coming and going every week.
Putnam: Quite a turnover, I understand.
Amacker: Big turnover.
Putnam: How were they recruited, do you know?
Amacker: They were recruited from just about all over the country I think. Because there were people here from everywhere. I think DuPont must have sent out recruiters. I don’t—of course the Army didn’t. They just took who they wanted from wherever they were stationed. I’m sure it was DuPont that—or maybe the construction contractors.
Putnam: Well, it must have been—coupled with the fact that nobody really knew what was going on, what the Project was, what the scale of the construction was—it must have been pretty willy-nilly a lot of the time. Just—oh, we need 150 carpenters. Just according to demand. But on the other hand, it sounds like both the Army and DuPont were incredibly well-organized.
Amacker: They were, they were. I think that the turnover was due mostly to housing and the dust storms. But men with families had a hard time finding somewhere for their families to live. They had a trailer court at Hanford. And some people lived in Prosser and Sunnyside and all the little towns like that. But I would say that’s the reason for the turnover, mostly, was housing and dust storms.
Putnam: Just feeding that number of people [INAUDIBLE]
Amacker: That was an experience, too. And entertaining.
Putnam: Tell me about that. Tell me about the mess halls.
Amacker: Who was it? Olympic Commissary Company had the mess halls. And we sat at long tables—the Army people always sat together, even though the military intelligence people were in civilian clothes, we still all sat at the table. When a bowl was empty, you held it up in the air, and the waitresses would come and refill them. And they—people complained about the food, but it was pretty good food. For that many people, when you consider, in wartime, I’m sure we were fed better than most people in the United States. Because we always had steaks. And we had a lot of something that was supposed to be chicken, and people would say that it wasn’t because it was too big. But it wasn’t as bad as we made it out to be. That was part of our—that was normal, to complain. That was just part of the scene. We used to—everything all snafu, you know.
Putnam: Well, actually, in talking with people who were there, everybody remembers the food being very good.
Amacker: At the time, we complained, because we thought we were supposed to. But in hindsight, it was wonderful. It was good food. We always had pies, always had meat, always had—I’m sure they had all the sugar they wanted, whereas other people were rationed. And Hanford had whatever it took to keep people working. That’s what they did.
Putnam: Well, it’s true, I think of materials and it evidently had the highest priority.
Amacker: I’m sure it did, mm-hmm. Even though we didn’t—we were told that it was very important, and that very few people in the United States knew. In fact, I was told only four people knew what was going on at Hanford, but I’m sure there were more than that—quite a few more than that. And we didn’t talk about our jobs. We were told not to, and we didn’t. The patriotism was so high in those days. It was unbelievable compared to the way the country is divided now. We were all on the same side—win the war, win the war. And we would have done whatever we were asked to do. And camaraderie was great. It was a wonderful experience.
Putnam: Well, I think that’s part of why—part of what interests me in doing this documentary, is that I think it’s hard for a lot of younger people to understand that kind of solidarity.
Amacker: I’m sure it is.
Putnam: And the feeling of the war threat during the war, and how strong that must have been.
Amacker: Mm-hmm.
Putnam: I talked to my—I was born in 1945, so my parents were—and my parents were both involved in—my father was in the Air Force. So, of course when I was growing up, everybody talked about the war. But do you think there was a feeling—it’s hard to realize how extreme that must have been in 1943 when—
Amacker: It was, it was. A Day’s Pay, for instance. That was a tremendous effort. For people to donate a day’s pay to buy an airplane. I don’t think you could get people to do that today.
Putnam: Well, they’re probably doing it, but they’re not doing it voluntarily. [LAUGHTER]
Amacker: Oh, well, right. Yeah, we’re all doing it. But not voluntarily.
Putnam: Right.
Amacker: Not actually seeing that deducted from your paycheck.
Putnam: Requesting it.
Amacker: I was telling my husband the other day—I really don’t know how I did it, but I bought war bonds on $21 a month. When we were married, I had bought enough war bonds to pay for our wedding. But I had my housing and my food, so that $21 was a good amount of money then.
Putnam: Did people read the war news a lot and were pretty conscious of what was happening?
Amacker: Yeah, yes. Yeah, we did. And when the story broke on what he had been doing, it was celebration time. It was just—well, it was just indescribable, the feeling of relief that it was over and that we had played the biggest part in ending the war. I have never for a moment thought about it being wrong. It was right. It was the thing to do as far as I’m concerned. And those of us—I would say, all of us who worked here would feel that way.
[VIDEO CUTS]
Amacker: He’s sitting over there.
Putnam: Oh.
Putnam: Okay, let’s see. Where was I? Well, we were talking about patriotism and—
Amacker: Oh, yeah.
Putnam: Do you recall getting the news, when you first learned—
Amacker: Well, as I said, I was in public relations at that time. Prior to the—it was early spring, probably March. Bill Lawrence, who was a science writer, came to Richland, and he wrote the release for the day that the bomb would be dropped. I had not seen it before that day, though—before the day it was dropped. Even though I was in public relations, I had not seen it until we started releasing it. It was bedlam, the morning that—and my boss had told me that I might be called in to work at any time. And he didn’t say why; he just said, when this story breaks on Hanford, you may be called in to work at any time. Well, it was about 7:30 in the morning as I recall that I was called in. The phones were ringing, and it was just the two of us for the first three or four hours. And then we had a headquarters set up over at the transient quarters in those days—it’s now the Hanford House. And then we had more telephones and the radio people started coming in, and we get a lot more help in reading the releases. In those days, we didn’t have fax and all these wonderful things. We had to do it all by telephone. It was a very exciting, exhausting day. Long, long day. But there was such exhilaration with it—we were just high all day long, just giving out the releases.
Putnam: And then that evening, did you celebrate?
Amacker: No. No, we were—no. I think we were all too tired. And it wasn’t over. We had to get back to work the next morning, too. I can’t remember when we did start—really celebrate. There were lots of celebrations, but it wasn’t that first few days. We were too busy. That was exciting, though, meeting Bill Lawrence, who came out from New York. And I didn’t know why he was here; I just knew he was an interesting man.
Putnam: Who is Bill Lawrence?
Amacker: He was a science writer for the New York Times, I think. He’s the one that wrote the release for the story. So he knew all about it.
Putnam: One of the few, probably, in the media circle.
Amacker: I suspect the only one. Because it was ready on the day the bomb was dropped. We had that release and lots of copies of it. So he had to know sometime. I think he was here in the very early spring. So he had to have known what was going on.
Putnam: Did you continue to live—when you were in the dormitory then—the barracks—
Amacker: Well, when we came to Richland, we were in the dormitories right over behind the—oh, the building across from this Federal Building which was the cafeteria in those days. All of that area was dormitories—the women’s dormitories. And that’s where I lived in Richland. And then when I was discharged from the Army, of course, I—[COUGH]—excuse me—went back to Ohio. It rained every day for 30 days. And I’d had a job offer to come back here and work with the same man that I had worked with in the Army. So I came back, and the day I arrived I met my husband. So here I am, 50 years later.
Putnam: Did you make a lot of friends, I mean, was there—
Amacker: Oh, yes.
Putnam: Tell me about the camaraderie.
Amacker: Lots of friends. Both civilian and Army. We weren’t just our little clique of 22 or 24 WACs. We had lots of civilian friends, and we were treated very well. We weren’t made to feel inferior or that we were unimportant. We were made to feel that we were contributing. Oh, yeah. Lots of friends.
Putnam: Essentially, it was just a huge construction project for the first part of the time so you had to—
Amacker: Well, at Hanford it was essentially just construction. But then after we moved to Richland, it was different. It was becoming a town then. Because they’d built all of the AJ houses—no, not at that time, they hadn’t built the AJ houses. They came later. AJ is Atkinson and Jones. Before that—who built the houses? Most of them were in the south end of town. I remember all the letters of them that were in the south end of town. There were the A, B, Ds and Es and Fs and Ls. And then Atkinson and Jones built the other houses—the Ms and Qs and Rs, Ss.
Putnam: There really wasn’t much here though at first, was there?
Amacker: Nothing. Well, there were a few orchards. But there was no grass, no shrubs, no trees. Just dust.
Putnam: Did you know any of the people who—did you meet any of the people from Hanford and White Bluffs who moved, and who owned land?
Amacker: Yes. I knew the Weirs, who lived here, lost their homes, their land. And the Dams. There was a ranch out at West Richland—Snively Ranch. I didn’t really know them, but I knew the ranch—I knew where it was. They were pretty bitter. They felt that they had been robbed. Well, Annette Heriford. You know Annette.
Putnam: Yeah, we interviewed her.
Amacker: She lived at Hanford—White Bluffs.
Putnam: I’ve actually been to a couple of the reunions, yeah.
Amacker: Have you?
Putnam: Yeah. And they—you know. Most people are pretty philosophical about it now.
Amacker: Well, they are now.
Putnam: But still—there’s some bitterness.
Amacker: Still a little bitterness, yeah. I didn’t realize how little they were paid for their places until much later. At the time, I just—I knew how they felt, but I didn’t know a dollar figure on them. And since I’ve heard, I agree. They were certainly underpaid.
Putnam: I guess some of them were able to appeal later and get a little more compensation but a lot of people--
Amacker: Yeah, they didn’t get as much--
Putnam: --didn’t know about it, so—
Amacker: They didn’t get as much as the Japanese got 20 years later for going to the camps. They didn’t get anything like that. Which I think’s unfair. But it’s all over. That’s in the past.
Putnam: Yeah. Let’s see.
[VIDEO CUTS]
Amacker: Well, we had good entertainment—when we were talking about entertainment at Hanford, I did forget we had big name bands come out there.
Putnam: Do you remember some of the names of the bands?
Amacker: Guy Lombardo was there and John Payne, the movie star. Oh, gee, who were some of the others? Then after we moved to Richland, we had Fats Waller and Jack Teagarden—you probably don’t remember them. That’s before you were grown up.
Putnam: Well, my parents listened to that music.
Amacker: Oh, yeah. Let’s see. Who else did we have? “Does Your Heart Beat for Me?” Whose theme song is that? Henry Morgan.
Putnam: Oh, I don’t know that one. So there was quite an effort to—
Amacker: Every effort was made, really, to keep people happy and to keep them on the job. That was the big thing: keep them on the job. And another thing DuPont stressed was safety. I was really impressed with their safety program. And we did have a minimum of accidents, I think. I don’t remember any figures, but I’m sure we—it was a minimum.
Putnam: Well, it was quite a time in history.
Amacker: It was. It was very—it was an experience that I’m glad I was able to be in on it—take part in it. I don’t think there’ll ever be that same strong feeling of patriotism and camaraderie that we experienced. And it kind of keeps us all tied together. When you see somebody from the old days, you are truly happy to see them. It was just a great experience.
Putnam: Gosh, I want to ask so many questions, I don’t know—it’s—let me think.
[VIDEO CUTS]
Putnam: --Colorful characters who are—I mean, I think of the famous people like Colonel Mathias or—you must have met quite a lot of the top brass, then.
Amacker: I knew most of them. Not well. Oh, I should have told you—when I came out here from basic training, I told you I stopped in Oak Ridge and was indoctrinated. Then we got on the train in Knoxville to come out here, and the president of DuPont was on the train—Mr. Carpenter. He invited my traveling companion and I—her name was Libby Woods—to come have a happy New Year’s drink with him in his compartment. And he told the MPs that he’d invited us and he left the door open. He was a real gentleman of that era. We exchanged family pictures and had a nice visit and a nice New Year’s eve drink. That was a highlight, just meeting him. He was a lovely man. I can’t remember any other—well, I remember when Fermi visited here. He came by the name of Farmer. Oh, gee, there were a lot of—Dr. Coolidge, who was the father of x-ray. The thing I remember most about him were the burns on his hands from x-ray. Let’s see, who else?
Putnam: Were you here when Harry Truman came out?
Amacker: No.
Putnam: I remember hearing a story that he came out at—
Amacker: No. John Kennedy came.
Putnam: Uh-huh.
Amacker: But that was in the ‘50s, of course. No, I don’t remember Truman coming.
Putnam: I think he was set out to investigate something. This may have been earlier. To find out why so much money was being spent or something like that.
Amacker: Oh.
Putnam: But he was sent, turned around or something like that. Colonel Mathias said that he made a phone call and President Truman went right back to Washington.
Amacker: Oh, yeah, that would happen. Well General Gross came while I was here. I can remember being sure everything was ready for the white glove inspection when he came. Because—oh, you stood at attention when he was in the room, or around.
Putnam: He was—
Amacker: He was very impressive.
Interviewer: In what way?
Amacker: Very military. Big man. And he demanded that you be aware of the fact that he was the General. [LAUGHTER]
Putnam: Quite the opposite of Mathias.
Amacker: Very, very different from Colonel Mathias, yeah. I think he only came once while I was here. He came back for the 25th anniversary. I remember we had a big party at the Hanford House. And Colonel Mathias came for that, too. I can’t remember any other famous names right now.
Putnam: Well, the WACs in particular—tell me about your unit and what your assignment was, and—
Amacker: Well, there were never more than 24 of us. Most of the time, there were about 22 of us here. And we all had our assigned jobs. Some were out in the Areas; some were in town; some were—well, several of us worked in the Administration Building which was right in this location. We had a commanding officer. We had three commanding officers while I was here. They just came and went. We did have drill once in a while, not very often. We didn’t have bed check. We lived as the civilians did. And we had a very comfortable dormitory. We had anything we wanted: washer and a dryer and a stove and a refrigerator. We were permitted to cook there, which we did very little, because the cafeteria was so much easier. But we’d have holiday dinners there and invite civilians. We had a room set up for a dining room. We cooked turkey and all the trimmings.
Putnam: I understand you were the cream of the crop, too, to get this assignment.
Amacker: We were told that. We were told that we were the cream of the crop, handpicked especially for the Manhattan Engineer District. And I don’t know whether we were the cream of the crop or not, but it certainly was a privilege to work with the Manhattan Engineer District. We had some pretty nice girls, so I guess maybe we were deserving. I made lots of friends with—well, we were all friends. I think we all got along very well in the dormitories. And the civilians, I believe, did too. There’s a little animosity here and there, but I think mostly everybody got along very well.
Putnam: There are a lot of stories about how rowdy everything was, with the gambling and—but still—
Amacker: Well, that was at Camp Hanford. But I didn’t know anything about that. I hear all those stories, too, but I was unaffected by it because I didn’t even know it was going on. I don’t know whether I had my head in the sand or where it went on, but I was unaware of gambling and I never saw fights, I never saw a brawl, I didn’t see—I heard about people getting shot and cut up and all those wild stories, but I never saw it.
Putnam: I live in Seattle and I hear about the same things and I don’t—
Amacker: You didn’t see it either, did you? [LAUGHTER] Sometimes I think those things are—oh, speaking of funny things, they had a horse out at Hanford—anything the least bit different was entertaining because we were so isolated from the world—who could count. His owner would tell him, now count to eight, and he’d paw on the ground for eight times. That was one thing I used to watch every Sunday. I’d go out and watch that horse.
Putnam: Pretty entertaining.
Amacker: But anything that went aside from the business world was entertaining because we were just not—we were isolated.
Putnam: Yeah. Did you find—did you get used to the dust—I mean, it’s hard to be used to the dust but did you grow so that you liked the country?
Amacker: I loved it. I was appalled when I got off the train and saw the Pasco Depot. It was terrible. People were sitting on the floor, leaning against the wall, and they were mostly construction workers and they looked pretty ragged. But then, when we started to cross the old Green Bridge and I saw that gorgeous river, and the drive out to Hanford—it was real early in the morning, maybe—it was just daybreak. I fell in love with it. I just loved it. I love the barrenness; I love the desert look of it. It looked like it needed people. And it was all so new to me and exciting. I’ve always loved this country, from the day I arrived, in spite of the dust storms. And I’ve grumbled about the dust storms just like everybody else. But in between has certainly made up for it. Beats the heck out of Ohio. [LAUGHTER] We have terrible winters and weather there. So I love the country. And the people. I’ve never been unhappy or sorry that I stayed here. Course, I met my husband and that made it that much better. And our children love it. I think the young people—I’ve seen lots of them grow up and leave and pretty soon they’re back. Same with when GE left, a lot of people left with them. And before long, a good many of them were clamoring to come back. There’s just something about it, this place. It grows on you, even those who didn’t like it. They learned to like it.
Putnam: It’s a special place.
Amacker: It is. Mm-hmm.
Putnam: Beautiful country.
Amacker: In spite of the wind.
Putnam: Yeah, the river and all. You say you used to go across the river on ferries?
Amacker: On a ferry, mm-hmm. Usually on Sundays. We’d just go across the river and picnic. We could get a box lunch at the mess hall. They were so generous at the mess hall. You could go in there any time in the day or night and get something to eat. So, they really made it as appealing as possible for people to stay. Of course, we weren’t going anywhere; we were stuck, being in the Army. But we still had the advantages that all those people had.
Putnam: Well, thanks very much for talking to us.
Amacker: You bet.
Putnam: Is there anything else you want to say?
Amacker: I can’t think of anything. It was a pleasure.
Putnam: Yeah.
Amacker: Thank you very much.
Interviewer: It’s nice when--