ML20065D658
| ML20065D658 | |
| Person / Time | |
|---|---|
| Site: | Clinch River |
| Issue date: | 04/05/1982 |
| From: | Croff A OAK RIDGE NATIONAL LABORATORY |
| To: | Lowenberg H NRC OFFICE OF NUCLEAR MATERIAL SAFETY & SAFEGUARDS (NMSS) |
| Shared Package | |
| ML20065D499 | List: |
| References | |
| FOIA-82-290 NUDOCS 8209300116 | |
| Download: ML20065D658 (16) | |
Text
,'
Yec 'N Af7fE % {}f OAK RIDGE NATIONAL LABORATORY OPERATED BY UNION CARBIDE CORPORATION NUCLEAR DIVl510N g
POST office box X OAK RIDGE. TENNESSEE 37830 Ap ril 5, 1982 Mr. H. Lowenbe rg Office of Nuclear Materials Safety and Safeguards U.S. Nuclear Regulatory Commission MS-396-SS Washingtoni -D.Cr 20553~
Dear Homer:
Euclosed with this letter is the summary ORIGEN2 output for the CPER for use by yourself and PNL.
I have also enclosed a memo summarizing
{
the scope of the output, the assumptions employed in generating it, and other potentially relevant backup information.
I received your letter concerning the meeting in Silver Springs on
)
April 14 and 15 and I will be there on April 14 to discuss the ORICEN2 CRBR model and to meet with you beforehand.
If questions a rise in the interim, give me a call at FTS 624-6147.
/
Since rely, Allen C. Croff, Manager Engineering Analysis and Planning
- Chemical Technology Division AGC:il 2 enclosures cc:
I. Nelson, PNL (w/att. and encl.)
8209300116 820820 PDR FOIA WEISS82-290 PDR s
Attachment to letter to H. Lowenbe rg dated April 5,1982 DESCRIPTION OF THE EASIS FOR ORIGEN2 CALCULATIONS CONCERNING CRBR This memo is intended to supply sufficient information to the users of ORIGEN2 output concerning the CRBR until a draf t hVREC/CR report becomes available.
General Background and Fuel Management A summary of the most pertinent fuel canagement and burnup-related parameters is given in the attached Table 2.
This table is based on the ave rage rate at which fuel is charged to the reactor over a pe riod of seve ral cycles such that the refueling patte rn repeats itself.
A mo re detailed depiction of the refueling sequences is given in Table 3.
A copy of the core map is also included to facilitate understanding of the refueling scheme.
A summa ry description of the reactor characteristics is given in Table 5.
Material Compositions and Descriptions The initial actinide composition of the unirradiated, undecayed (U,Pu)02 core fuel and the UO 2 blanket fuel is given in Table 4.
The nonactinide composition of the fuel material was taken f rom Table 9 of ref. 1.
The description of the CRBR core and blanket fuel assemblies is given in Table 6, including dimensions and overall masses.
The composi-tion of the stainless steel 316 fuel assembly structural materials was taken f rom Table 7 of ref.
1.
ORIGEN2 Irradiation Parameters The various fuel zones were irradiated separately using the specific powers and residence times given in' Table 2.
The irradiations were con-tinuous with no allouance for decay during refueling intervals.
The fuel assembly structural materials associated directly with each fuel zone were irradiated at the same flux level as the contained fuel.
Fuel assembly structural materials outside of the fuel zones were irradiated reduced fluxes based on neut ron transport calculations.
All irradia-at tions were performed on a 1.0 MT initial heavy metal basis for each fuel zone.
g ORIGEN2 Decay Calculation Parameters
~
The decay time's employed in the calculations are self-evident by inspection of the column headings in the computer output and they will not be listed he re.
Major assumptions and parameters used are as follows:
the fresh, undecayed fuel was assumed to be decayed for 2 years a.
before irradiation, b.
the spent fuel is assumed to be reprocessed 150 days af ter discharge from the reacto r, the parameters used during reprocessing are as follows:
c.
1.
0.5% of the uranium and plutonium goes to the HLW, ii.
0.05% of the nonvolatile fuel material is retained with the cladding, iii.
0.69% of the fuel assembly structural material is assumed to dissolve and go to the HLW, iv.
0.1% of the halogen elements and none of the noble gases, t ri tium, and lC is assumed to be in the HLW.
d.
the compositions of the HLW, st ructural caterial waste, plu-t onium p roduct, and uranium product are based on " blended" fuel which is generated by weighting each of the fuel zones in p roportioa to the rate at which it is charged to the reacto r (see first column of Table 2).
Ch aveGsk 4
ORIGEN2 Output Description The ORIGEN2 output is comprised of seve ral segments for different materials and/or decay times.
The.f[irst _two_ segments,s_umma rize the com-position of the charged and discharged fuel and structural material for each of the fuel zones on a 1.0 ffTEM basis.
given and no decay ti=es are provided.
~Only masses (grams) are 3
~-
The next fou r segments decay _co.re.f..co.re_ax_ial blanket,, radial, blanket, co re, and inne r, blanket fuel.. assemblies,,ypectively.
For these segments and all succeeding segments, only summary tables (defined below) are given.
The table types provided are mass (grams), radio-activity (curies), thermal power (watts), inhalation hazard (m3 air to dilut to 10 CFR 20 values), ingestion hazard (m3 wastes to dilute to 10 CFR 20 values), and alpha radioactivity for the actinides (curies) and neutron production.
Decay times range from 60 days to 10 years.
All of these segments are based on one fuel assembly (not 1.0 MIHM).
3 The next three segments sunma rize the results of the assumed reprocessing of the core + core axial blanket, inner and radial blankets (including their axial emponents), and of the -blended fuel from all zones of the reactor weighted as described above.
The output for each fuel composite consists of columns, giving the composition of the as produced HLW, st ructural material waste, uranium product, plutonium product, thorium product (small or zero), and the volatiles (halogens, noble gases, tritium, 14C) f rom 1 MTHM.
The volatiles are then decayed for times between 30 days and 180 days.
The table types included he re are' the same as those above except that the thermal power and alpha radioactivity tables have been omitted.
The next two segments decay the HLW from 1 MI blended fuel for various times.
The first secgnet includes decay times ranging from 10 days to 2 years.
The second segment has decay times ranging from 3 years to 1 million years.
It should be noted that the as produced HLW composition is given in the lef tmost column of both of these segments.
The types of tables produced are the same as those for the fuel assemblies described above.
The two segments following the HLW are for the fuel assembly structural material waste from 1 MT blended fuel.
The decay times and other cocments pe rtinent to the st ructural cate rial waste are exactly the same as those given for the ELW above.
The final two segments decay the recove red uranium and plutonium f rom 1 MI blended fuel, respectively, for times ranging f rom 90 days to 100 years.
The types of tables produced are the same as those for the fuel assemblies described above, but only the actinides are given.
Except for the first two of the above seguents, all of the. output consists of ORIGEN2 summary tables.
A summa ry table is gene rr.ted by first dividing the amount of each nuclide present at a pa rticular time by the total amount present at that time (e. g., 104 Ci of 137Cs divided by a total radioactivity of 106 cu ri es ).
This fraction is then tested against a cutoff fraction specified by the user.
If the nuclide being tested contributes more than the cutof f f raction, the entire line is printed for that nuclide.
This test is perf ormed for each decay time (column) for the reprocessing output, HLW, st ructural cate rial waste, u ranium, and plutonium segments.
The rest is performed for all columns except the leftmost in the case of the spent fuel assembly decay (to eliminate short-lived fission products).
If the test is successful (t rue) for any of the columns tested, the entire line is printed.
Othe rwis e, the nuclide is not p rin ted.
A similar procedure is followed for the chemical elements.
This testing procedure is conducted separately for each table type (e.g., mass, radioactivity) since the principal con-t ributors printed in the summa ry table can vary widely between table types.
The cutoff f raction used in the case at hand was 0.001.
Re f e rences 1.
A. G. Croff, J. W. McAdoo, and M. A.
Bje rke, LMFBR Models for the ORICEN2 Computer Code, ORNL/TM-7176 (October 1981).
s Table 2.
Detalle of CRBR sverage irradiation characteristics Pa ra me t e r s
Ave rage cha rxe ra t e Ave rage invent o ry Average power Average specific power Residence time Ave rage dische.rge bu rnup
"'8 Heterial type kg/ cycle kg heavy metal NW(t)
HW(t)/HTillN full powe r days HWd/MTillN Co re Fueth 2645.0 5290.0 748.9 141.6 550 77,880 ABC 2152.9 4305.8 17.1 3.97 550 2,184 Fuel + An 4797.9 9595.8 766.0 79.83 550 43,907 Inne r blanket
" Fuel-d 2240.8 4481.5 113.1 25.24 550 13.882,.
As 1742.8 3485.6 13.3 3.82 550 2,101
" Fuel * + A8 3983.6 7967.1 126.4 15.87 550 8.729.
Radial blankets Radial blanket 1
" Fuel
- 850.9 3403.6 46.6 13.7 1100 15,070 A8 661.8 2647.3 5.1 1.93 IID0 2,123
" Fuel" + An 1512.7 6050.9 51.7 8.54 1800' 9.394 Radist blanket 2
" Fuel" 748.8 3744.0 27.7 7.40 1375 10.175 A8 582.4 2912.0 3.1 1.06 1375 1.458
" Fuel * + AB 1331.2 6656.0 30.8 4.63 1375 6,366 Radial blanket I+2
" Fuel" 1599.7 7147.6 74.3 10.4 1229 12,779; AB 1244.2 5559.3 8.2 1.48 1229 3,819
" Fuel" + A8 2843.9 12,706.9 82.5 6.49 1229 7,977 Total 11,625.4 30.269.8 975 32.21 23.063
'AveraSed over cycles 5-10.
36 in. (ru.U)o2 re gi on.
- Coopeelte of uppe r (14 in.) and lower (14 in.) U02 axial blankets.
36 in. U02 region at the same antal elevation se the core fuel.
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e Table 4.
Initial compositions of 1000 kg of CRBR heavy metal Material type Nuclide Fuela Blankets U-235, g 1,340 2,000 U-238, g 668,660 998,000 Total uranium, g 670,003 1,000,000 Pu-236, g 0.005 Pu-238, g 198 Pu-239, g 283,932 Pu-240, g 38,610 Pu-241, g 6,600 Pu-242, g 660 Total plutonium, g 330,000 Total heavy metal, g 1,000,000 1,000,000
- Assumes no preirradiation decay.
.v.
Table 5.
Summary characteristics for the CRDR Fuel region (s)a i
Pa rame te r Fuel AB Fuel + AB IB RBb Fuel + AB + IB + RB Elect ric power, HW(e) net Thernal powe r, IIW(t) 749.0 17.1 766.1 126.4 62.5 975.0 Ave rage specif f.c power,c 141.6 3.97 79.8 15.9 6.49 32.21 MW(t)/t!TIlut Ave rage fuel bu rnup, 77,880 3871 43,907 8729 7977 23,063 ilWd /MTIllt!
Irradiation du ration, 550 550 550 550 1229 l
full power days Refueling cycle length:
275 275 275 275 275 275 full power days Ave rage cha rge, kg/ refueling cycled 235U 3.5 4.3 7.8 8.0 5.7 21.5 Total uranium 1772.1 2152.9 3925.0 3983.6 2843.9 10,752 Flastle plutoniume 768.5 0
768.5 0
0 768.5 Total plutonium 872.9 0
872.9 0
0 872.9 Total (U + Pu) 2645.0 2152.9 4797.9 3983.6 2843.9 11,625 1
Average discharge, i
kg/ refueling cycled jl 235U 2.5 3.7 6.2 6.1 4.2 16.5 1
Total uranium 1669.8 2095.0 3764.8 3801.1 2690.5 10,256 e
624.2 51.6 675.8 141.4 123.8 941.0 Fissile plutonium Total plutonium 762.3 52.7 815.0 146.4 130.3 1091.7 Total (U + Pu) 2432.1 2147.7 4579.8
'3947.5 2820.8 11,348 i
" Fuel - 36 in. (Pu,U)O2 region, AB = UO2 axial blankets associated with fuel, IB = entire inner blanket, RB = entire radial blanket.
Weighted average of inner radial blanket (4 cycle residen%) and auter radial blanket (5 cycle residence ).
j cDased on rated power level.
d j
Ave raged ove r 4 cycles.
e239Pu + 2 4 IPu + 239Np.
-+
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Table 6.
Physical characteristics of CRBR fuel assemblied Core and Inner and axial blanket radial blankets Assembly component lengths, em Upper end hardware 30.4 29.2 Cas plenum 124.5 124.5 Upper axial blanket 35.6 Core or radial blanket 91.4 162.6 Lower axial blanket 35.6 Lower end hardware 109.2 109.2 Overall total 426.7 426.7 Fuel element total 290.6 290.6 Assembly shape hexagonal hexagonal Assembly flats, em 11.62 11.62 Fuel element arrangement t riangula r t riangular Fuel elements per assembly 217 61 Fuel element OD, em 0.584 1.285 Fuel pellet OD, cm Co re 0.491 Axial blanket 0.483 Inner and radial blanket 1.194 Fuel pellet density,
% of theoretical Core 91.3 Axial blanket 96.0 Inner and radial blanket 95.6 Fuel element pitch, cm 0.731 1.378 Cladding thickness, em 0.038 0.038 j
Channel thickness, em 0.305 0.305 Channel height, em 314 314 Circumscribed volume /asscably, m3 -
0.0607 0.0607 Heavy metal / assembly, kg 60.35 100.85 b
68.45 114.39 M02 assembly, kg Stainless steel / assembly, kg 135.5 122.6 Assembly total weight, kg 204 237
- Based on data in re f. 10.
b b(Pu,U)O in the core ang axial blanket and UO2 in the 2
inner and radial blankets.
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- DA UGN I E RS* *
(*U CONCE N IH A T IONS e GRAMS HUCLIOE TAOLE:
F1 Ci tNLL N I H A T IO NS, GRAMS L LCMLiti 1 AllL E 3 12..____.
G ONt.E N f f{ A T IU NS,, G R AM S,. _,... SU 4 malty,IAULE.:____.. _._... _ PRO DUCT S * * * * * * * *F ! S S l uN_ _ _ _ _ _ _.......P HO DU CT S *
- FlLSBON Pl4100 C 7 5 9 * * * * * * # F I S b l uN PHODUCTS********FISSBON Fe CONLt til Fv A F IU NS. GFsAMS NUCLIUC T Al1L C:
'88 Cf 3NCL NIR A l luid'. Gl4AMS LLLMLNT 1 AL LE:
W 9 '.s CONCI.H T H A T.lHNS..GHAMS.
. SUMMAHY TAOLE:
(ALPHA.N) tai U T H ON SUUI4CE Spur 41 ANf_uuS Fl5 Slut 4 NCUTHON SOUN CE 9T
..t.AA I PU T 1 Atat.F $- N_V I T Y-T I T LIWA LC AY_ OF.CD 83!. FUEt.* CURE _ A x l A1, _UL ANKE T_ ANO. STitUCTUR Al M A TER I At.]8_Ma, p ",,. [d] h.",
RECYCLE.# =_ 0_
r 88 1 84 LAC ANO UUf 4 HUP DATA
- ACTIVATBON PHODUCTS***** ACTIVATION PHouuCIS***** ACTIVATION PRODUC T S * * * *
- A CY l V A t l 0N PRODUCTS ****
- a r t CuNCLN IH Al ltlHS, bl4 AM S SUM 14 A14Y 1 AtlL E :
100 H Au l U ACJ_l v lT Y.._ CUH I CS
. SuMM AnY _.T AUlt ;
107 illEleM AL P O Wtill, WAIIS SUMMAHY TAULE:
304 RAUluAC18VC INNALAIlON HAZARD.
M**3 AIR AT RCG
SUMMARY
TABLE:
100 HADIOAC1tVC INGLS T ION lAZARD.
M**3 WATER AT HCG SUMM ARY TAHLE:
- AC i l N I DES.+..D AUGlill.HS * *
- ACT I N I DES...t. D A UGilI ERS*
- t. AC.T l H I DES _ +..D AUG H T ERS* ? t A C T.lMI DES._+..D AUGil T ERS.*
- 10tt CONCLNIHATIUNS. GHAMS
SUMMARY
T AUI.E 110 RAulOACTIvifYo CUNIES St>MMARY 1AULE:
I l i' I l tt.H M AL PH r4* fi e WAITS SUMMANY 1 AULf.:
II4 H AL)!O AC J l VL, lNijAL A IION, N AZ ARD.
l i fe R A D I D A CT I VI-IN bt.STluN llAZAhD.. M *
- 3, A I R. A T_ f4CQ _
SUMM AR Y. T ADLE i.
M**3 WA T Ett AT HCG
SUMMARY
T A!!LC :
Blu ALPHA RADIOACTIvlTY CONIES SUMMAltY 1 ADt.E !
- FISSthN P l41t AJC T S * * * * * * *
- F I S S I ON P14DDUCTS******** FISSION PRODUCT S * * * * * * * *F I S SI ON PRODUCTS *******
IPn
,_ _ __CONCLNIRATltlNS,,GHAMS.,_,
SUMM Af tY.1 ADLE :
I F.s NADIUACilVITY.
CUHIES
SUMMARY
IAHLE:, _,,,, _,, _.,., _
1 2 '.>
INtHMAL Pti mti n,
WAFTS
SUMMARY
T AtSL E :
827 HADIOACTIVC INil AL A l l ON ll AZ AHO,
Me*3 AIN Al RCG
SUMMARY
TADLE:
4 e
littl' t.j)F,Ct]ti ll fel b_UP4 Ut41,f _= 13_ EO8_OU I PU T_UN I T...=.. I l _ _. _ _ __
P At.t.
129 H AD ID AL T i ve. IP4bCS T ION t m 2 4 6< D e M e *.1 WATER AT HCG SUMM AR Y T A ut.C:
/
i lJR 1 All8H A eN I f allJT HUN Lt)UNCE IJ2 SPON T Alet'OU b F I bS I ON IJti Ull# 0N SOUNCE I.l J 40lPUI 1 Af t.C 5--II ILi56LC AE"tJF ltAu!AL'DLANKET FUE L~AUD STRUCTUHAL M A T ER I A L - 6 8 Oy "IOF' RECYCLE 8 =
'O l.lJ 14LACilVIIY A llO U U H ritJi* UATA
- A C1 I V A T I Ute Ht OUUC I S * * * *
- A C T I V A f l UN PRODUCTS ****
- IJi.
14ADIUAC11VilY, CultlES SUPIM ARY T A ts LE :
LON Cf' t4 T H A T. IU tis e. Git AH S.____. ___ SUMH Alt t_ T Atf LC
- BJb IJS 18 tC HM AL Pu hC R.
WATIS SUMMAHY TAULE:
leu I4 A U l tl AC I I V1 ItallAL A T j uld HAZAllD, M *
- 3 Allt AT f tC G SUMMANY 1 AtiL E :
142 R AD IDACJ 8 vC_ IldbES T II)N I M Z Ai!D.
He*J W A T E.R A T. H CG LUMM Arty TAULC:.
' AC T Ire lDLS
- U AUGit IC'IS * *
- AC T IN l td.S
- DAULH1CHS*** ACTINIDES
- D AUGH TC HS * *
- A CT I NI DES + DAUGHTERS **
144 LUNCCN il4 A T 10 t45. bl4AMS SUMMAHY 1 ADI.E :
144.
H ADIU ACI IV lT Y, C Uf e l td S S U'18t hit Y 1 AOLti:
.W A l l s_ _.. SUMMAR Y TAU LC
- ISO HADIDACilVl; INHALAllON ttA/ARD, M**3 AIR AT 84CG
SUMMARY
T AI)L E :
l b.*
f4 ADI U ACT i vti INL.E S i lura IIA / Altu.
M**3 WATER AT I4 CG SUMM Arty T AliLC f 854 AL PH A HADIeMCTIVIIY CURIES LUM M A14 Y f AlJLE :
- F.I SS IUfL P Hu oV L I S * * * * * * *
- F 15 5 80i4. Pit ODUC T S * * * * * * *
- F I S S I ON_ PRO DUC T S * * * * * * *_._.
ISb C UNLtiH f H A i lONS, GHAMS
SUMMARY
TARLE:
lbv RADI UACT IV IT Y, Cult l E S buMM Ally TAULE*
I ta l IttCitM AL Pt i mE f t.
WAlfS SUMMAl4Y TAOLE:
I GJ _.
H AD I U AC 11.Vt__If 4 HAL A l l uN_ tlA2 ARD....M e
- 3. A I R_AI_IICG CUMMARY TADLE:
If?
H A ul tl AC l l V C IN GCL i t tr4 tMZARD, M**3 WATER AT HCG
SUMMARY
T ADt.C :
IbF 1 ALPHA.f 4 ) f aiUT Hurd LOUH CE 160 SPONI AHtiOUb F 8 b:., I ON NEUTHON SOUNCE B69 I AJ T PU T T A11L E S--I l F L E sDI C AY.... _ OF...CU NC.
.JTHUC T UR AL. _..... -MATERIAL - dd_g"jy~ g)p.g*
FUCL AND HECYCLE 8 = 0 I tr>
4 lati AC i lvi f Y AND uuHf40P DA1A l
- ACTIVATIUH IM UUUL f be * * *
- AC T I V A T I O N PROD;'C T S * * * *
- AC T I V A T B ON Prt 00 0C T S * * *
a 372 Q
CUNICS
SUMMARY
TAuLE:
1Fe THEHMAL PUWEl4.
WAllb SUMMANY 1 AF3 LE:
q 17b
'7, H AD ill AC I I VI. It4ttAL A l lON HAZ Af40, Mt*3 AIR AT RCG SUMM Aft Y T AUL E :
liu RADIUACT I VC. INGCS T ION D IA Z A NO.
M *
- J. W A T ER _ A 1_ H CG _...... SU MM Art Y TADLC*
e
_,p
. f,,
- ACTINIDL5 + D AUGlll CRS **
- ACT INllstS + DAUG8 tic HS* *
- ACT IN IDCS + DAUGHTERS *** ACTINIDES + DAUGHTER $**
I flu yi CONCEf 4 IH A l IONS, GHAMS SUMMA 14Y IAOLE:
1812 o tA
,HADIOACTIVlrY.
CUHIES SUMMANY TAULC 3 04 U IC HM AL_PU E R. __ w A T T S_.
- 185b
.N 4 II AUIU ACl f vL INHAL A f lilN HAZARD, M * * 's A I R AT HCG SUMM AR Y TADLE I II U d$f 84 A D I D A C T I V E INGC$ r ION iMZARD.
Mo*3 WATER AT HCG
SUMMARY
TADLCf
^Cf ALPelA HAullALIIVITY CUHILS SUM M Alt v TAULC 190
% i tw __ o r I :,b.l ON. PHu ou c i b * * * * * + + + F l S $ lo N PrtODUC r S * * * * * * *
- x-192..
O' S CONCE NIHA f lUNS. GHAMS bitMM A14 Y T AtiL E 195 HADIDALTIVITYe CURIES SUMM Af ty TAULE:
f THCHMAL PO b.C H.
WAfiS
SUMMARY
T AtJ LE :
197 199. _
8 H AD B U AC,I IV L lH ilALA I J UN_It AZ ARD, __.M o
- 3. Al R_ At_ HCG CUMM ARY T AULE:
f_..
84 A D I U ACl l V t. INGES1 TON IMZARD.
Mo*3 WATER AT ft CG
SUMMARY
TAULE:
201 20J t
I AllHtA eN I efiUTRute LOURLC 204 1
SpuNTANCOUS FISSION NE UT itON SOUNCE S T HUC T Urt A L M A TE f3 I AL M*JJ' M*
2 tra (UIPUT 1 AbtEb-111LE *D LC AY OF I N f 4ill OLANKET FUEL AND RECYCLE a = 0 l
3 g
P A r.F.
18 (it.F !)E _ CON.iti N I $_U14 U N I.T =
13_tDR_UU. J PLLL Ur41.1_=__.L.1_
205 HLAC11VI1Y A lJU tiuH NUf 8 UAfA
/.
- AC T I V A T 1014 PI1000C 1 L * * * *
- A CT I V A T 3 0r4 B*R ODUC T S * * *
- 2 0ta CONLLN f14 A f ION *.. G T4 AMS SUMMAHY 1 AFS L E :
2 0t3.
R AUIO ACT IV IT Y....CU14ICS.. ____ buMM AT1Y _1 AO LE :
2su T i tI; R M AL P0 hC H.
WATIS SUMMAHY TAQLE:
2 8.*
R AU!OAC1 t Vf.
INilAL A l lON H A l A f40.
f98 9 3 AIR AT FICG
SUMMARY
TADLE:
219 HAulOACTIVC IN OL S T l Did in2AHO.
Me*3 W A f t: R AT HCG SU M'4 AR Y TADLE:
- AC11 t410E S _+. D AUGillCitS * *
- AC T IN I DES.*. U A UGill Elis * *
- ACT IN I DES. +. D AUGH T Lits * *.. _
2th CONCCNIRAIIONS. GftAMS SultMAHY TAULE:
2 111 RAutOACTIVITY, C Ult l E S Sutti4 AN Y 1AOLC:
22U l tlEHM AL PU hE f4 WAITS SuttM AHY 1AULE:
242 224 H Au !O AC T I VL.. It40t AL A ll ON if A/ Af40.
- 19 9 3 A llt A T fiCG SUMMAltY T A UL E :
H AU 10 AL i t vt. IN bC S t a trid in 2 A f40, M**3 WATER AT stCG
SUMMARY
1 AULt-::
2 d ra ALPHA $4 AD I DA L.f l V l 1 Y CU f 4 I tis SUMMAHY TAULE:
- F I S S 10t4 l* NIOU C T $ 4 * * * * * *
- F I S S I Urd PHOUUCTS********FISSBUN PRODUCT S * * * * * * *
- F I S S 10rt PftODUC T S* * * * * *
- 22b._.-_ _
COr4CCN TJtAL10HS d ItAMS SUMil ANY 1 AULE*
238 H Au f tl Alil V II Y.
CUHIES SUM r4 AR Y TAULE:
4.5 J I HE f1M AL PU.dE 34 WAITS
SUMMARY
1AULL:
2 S, 14 ADI D ACT I Vt. INHALAllON HAZARD.
tit
- 3 A I R AT NCG SUMMAftY 1 AtJL E :
t' J /
2Jv 14AD I D ACT I VE IN GliS T IUf4.. in ZAHU.
Me*3. WATER.AT.RCG.-
SUMM AR Y.. T ADLE :
IALPHA.HI PEUIHON SOUR CE 240 SPUNI ANCUUS F-I SS ION Nt!Uf f40N SOU64 CE 24i LUTPU '_ T A.DL E S - 111L LaR Li*l40CliLS I NG. OU ll'U T. Af40 V OL AJ
'S DECAY.__
. _. RE C Y CL C s
.m.. 0.....-.. _.. _.
d
- 4t' AC i I y 81 Y A tlU UURNUP DA1A CoI"4 LAC 3. but p
24I n
- ACTIVATION PR ODUC T S * * * *
- AC i l V A I lute PRO DUC TS * * * *
- ACT I V A T IO N PRODUC T S * * * *
- ACT IVA T ION PRODUCIS****
L C ONCC N f s4 A f lO NS. Gl4 AM S bum *e Aft Y 1AOLE:
242 i
244 N
HAUluACIIValY._ CUHIES
.. SUMM Aft y.T AU Lti
- 2 4 ts h
it AD IU AC I I Vf INtf AL A T I ON If Al Al4U,
MS*3 AIR AT HCG
SUMMARY
TAULE:
24H np HAulOALTIVL INGLSilON inZAPU.
M**J WATER Al HCG
SUMMARY
TABLE:
%r
' AC l l tilDL S + U AUGill f;H S * *
- A CT I NI DI.S + U AUGifiLR S* *
- AC T I N ! DES + UAUGHTERS*** ACTINIDES + UAUGHIERS**
233 A
CON 4 Eh l H A T. IOlls._Gil AMS...... _. SUM M Alt Y. I A tile '
t 252 84AUIU ACT I V I T Y.
CUHIES SUMMAHY 1AULC:
2 '.a 4 HAulOACTIVC INHAL A l luid if A Z AND.
M**J AIR AT HCG SUMM Aft Y T AUL C :
2 Y, D
I4 A u l u A C T I V.I.tu SurON.iicouCTS******.2ARD.
IN GE S T ION SM M**3 WATER PHOUUC T ue. A T.f t CG*.*P.
SS l oN.PnoOUCu *.LE :
SUMMARY
TAU
.p8
- a:SSiUN
- A * *.r i S S i oN PI,ooUCT S*. *. *.
- 2 5ts CUNCENil4 A f lu t45. GHAMS SUMMA 14Y 1AULE:
2 f. I J
CUI4fES St84M ARY 1 AHLti:
2 t.3
]
HAutuacilVL INilAL A l l uN HAZAllu.
Me*J AIR Al itCG SUt1M Al4 Y T AUL E :
2bb
'4 AD I D ALT.1 V t.JN LCS T l u!4 hAZ A340
_M e *.3_w A i LR._A I_H C^
SUMM AltY__I Auf 8" ?
28 7 I ALPit A.ld t F E U f1404 LUUR UE 2 08 "J
- SPONTAt4LUUL FlLbION NCUFHON LOU 64 CE 2 t.V t.;U 1 FU f..T AULI:5-- f i tL E rf 4 LPsfllCt:5S I NG UU T P T er u VI ATILEJ t 'C Y
t e.9 Ht. AC I IV i1 Y A t40 hUlttAJP UA1A 9
'l M. (NCf RECYCLE.s_A _0-.
- ACTIVAiluti PRUDUC I S* * **
- ACT I VA l ION PituuuC1 S * * * *
- ACT ! v AT ION PROD UCT S * * * *
- A CT IVA T ION PRODUC TS * * *
- 2/O CONCE NIf4A T IO NS, Gf 4 AML 1,UMMAHY 1AULE:
2N.
(1 A U I U ACl l V II.Y.... Cult l ES
- 2 74 H AD l 0 A4. f l VL INilAL A l lON HAZAltu.
M8 + J AIN AT RCG SUMMAltY TAULE:
2Fb 84A D IU AC ? t Vt. IN Gt:51 ] DN DM2ARD.
M**3 WATCn AT RCG
SUMMARY
TAULE:
- AC1114 tin S + U AUGirl Ll45 0 *
- ACT lf Jl ut'S + U AUGIIT CH S* *
- AC ilN I DES + OAUGif f Efts * *
- ACT INIDES
- DAUGHIERS**
2Fu g _ CONCE tt ill A T IO f fs.. G R A M S._ ___.. SUM M AR Y. I A U LC "
i'O u w
CUHirS SUM M AI4 Y T AULti:
? l h'
.j f4 Au l U AL18 VI: lHHALATION ll A Z A140 M**J AIR Ai ftCG StJMM Afl Y 1 AOL E :
2tia K.,
H A D I U A C T I v f.
lHGt.51 f ord in2ARD.
M**3 WATER AT RCG SUMM AftY T AULE :
I
- nrounwme.uo.m.* E.uu uu_PHo uuasu u ** ur_um.>N sRo DUCxsA * *
- u. Acusum_auoouunia*w f
u-
.s e.
s, s,
,,,.3, l
i I
Q' xo P AGl.
2 1 A tti li Uf" CON 11;t4 T S ON UNIT = 13 F Oli OUTPUT Ura l T = II
- ~
26se 4
- LbHLLNTH A T IURSMIIKRS Ent M T.i4 Y T atiL E :
709 HADIDACTIVITY.
CU98CS
SUMMARY
1AULE:
h> rv)Y R AD ID AC T I VI 243 INilAL A flON HAZARD.
M**J AIR AT f4CG
SUMMARY
TABLE:
%tADIUACilVt-IN C.C S I I Det IW 4 Af40.
2VJ 2 V f*
I
( ALPie4 ?li)iC ui f3DN '!.UUlli M ' '' ~ ~ " *M**3 uATER AT RCG
SUMMARY
T AOL E : ~~
~~ ~~~
~
I 2+
' " ~ ~ '
Sf*0N T AN1;t.Ub l# 1 S S i t)N NCull10N SOUNLE i'O f 291, 8 RJ TPu f T Aut.f'i-- f l T L l2R t P H OC t. ".S I N G. OU I P f D*M M-QL T. I - S.,
AY
}a dD y
.d g e d ay.t_ _
RC CXCL E.f,_= O AND V Ot; ACT IV l1 Y dilO UUHNUP DA1A-I M
~
- ACTIVAfION 8 44 00 0C T S * * * * # A C T I V A T I ON M4UDUCTS***** ACTIVATION PROD UC T S * * * *
- 29 tJ CONCF.NIH A T IOt4S. GHAMS SOAMART TAULE:
J00,_
H Att I U AC T I V.I T.Y.... C U H i ti. S,,llA Z ARU.
II**J AIR AT HCG _ _. _..
SUMMARY
__1 Aut.E :
.. SUMM Af4Y _1 AULE;
.5 U2 H A u l U AC I ! Vt.
$ N HAL. A l l ON JU4 f4 A D I D AC f i v t.-
IldbCST ION HA2ARD.
Me*3 dAFER AT RCG SUMM AR Y T Al5L E :
- ACTINIDCS + D AUGli tEHS * *
- AC T i tel OCS
- U AUGflf EHS* *
- AC T I NIDES
- D AUGit TE RS* *
- ACT INIDES
- D AUGitT Efts *
- J o e, C tp4Cl;t4 5 R A T luf 45,_Gt4 A%.,
SUMM Af3y.,J AOLE ;
30 t!
HAulUACilVlfY.
CURICS SUMMA 9Y IAULE:
JIO HADIUACIIVE INilAL A T ION HAZARD.
M*
- 3 AI R AT f4CG
$UMMARY TADLE:
Jt2 RAUlOALTIVE INGCSTION tm2AHD, Mo*3 W A T ER AT lt CG
SUMMARY
TADLE:
T..F IS S I ON _p hQ UU C I S * * * * * * * *f.l S S 1014 PH U DUC T S t * * * * *.t *.F_I S S I ON.P RU DUC T.S? M * * *3 *F_I S S 10N_ PEO DUCT S * * * * * *
- ONCLtalR Af lu t4S. GuAMS SUMMAMY IAULE:
J14
- si f RAulOAllIV11Y.
CUHICS
SUMMARY
TAOLE:
J i'A HAOlOACilVL INilAL A T ION lt A2 ARD.
M*
- J A I R AT HCG
SUMMARY
T ABLE :
348._.
H A DI D AG.I. I Vin It#CCS I J UN.. tM F Al.D.. _ M *
- 3 tr A.1 ER_, AI R CG
.,SUMMAllY TA0LE.__._
J2J (ALPHA.H) 14iUT HON SUU R CC J24 SPUNTANEtJUS FISSit!N NE Ull40N SullRLE J 2".e E10 } PU.T_TfDLl; s--.111 Lt,soFC AY. or: HI bet-tt VLL et ASIL. FHUM ptE!ntt). FULL. -.. fo day-2 y 43tkF__.. _._.. RECYCLIL #_=_ O J?S HLACf!Vl1Y A f dU UU H t #UP UA1A
- ACTIVATIUN 1*l4 00UC f S * * * *
- AC T I V A 1 I ON M40 DUCTS ***** ACTIVATION PRODUCTS ***** ACTIVATION PRODUCTS ****
31't>
CUNCL N ill A l IO NS. GHAMS SUMMANY 1 AO Ll? :
J2 t*
HADIOA(,IIVlfY._ CURICS J.t u TitChMAL PO M' id,
wA115
SUMMARY
.1AULE:._.
SUMMARY
1AULE:
J J.!
I4 A ulil A C1 B VI.
IstilAL A l luse H A ZAHO.
M**JAIM AT f4CG
SUMMARY
TAULE:
J J4 f4 AD I U ACT I Vit INCESI!ON eM2AHU.
Mo*3 WATER AT F4CG
SUMMARY
TADLE:
- AQfINibtS *. D AUGHICRS **
- ACT INIDCS + D AUGN TEf1S* *
- A CT. I NI D ES_.*_D AUGH T ERS *
- J.lts,
C ut4L.hta l H A l lul43. Gl4 AM S SUMMAHY T AtiLti :
J J et rtADID AC1 IV If Y.
CURIES
SUMMARY
TAULE:
J4u 1 HliHM AL PO wC R.
WATTS SUMM Af4Y TAOLC:
Je/
J44 14 Au lu AL I I VI.
INisAL A i I ON II AJ Al40.
M**J As'
'T. HCG.
__.SHMMAfty T A DL E I. _ _... _...
f t Aul U AL13 9 t.
IN(. tis i lON IM / A S40.
M**3 WA AT ll C(,
SUMMARY
1 ADLE:
346 ALPHA #4Ab f l A CT IV I T Y CUHIES SUMMAHY
-JLE :
- FIShIUN P I O LAI C T S * * * * * * *
- l' I S S t uN PH UDUC I S * * * * * * *
J40 CUf4CLNIHA1IUNSe. GHAMS._,..
_ LUMM ARY_. T AtiLE :
J '.s l s Abli:A t.t i v 11 Y.
CUHICS
SUMMARY
1 AltLL J'.a J TitHMAL Pu mC R.
wA11S
SUMMARY
T Au t.C :
J'.,'.a H A D I O AC T I VI-INHAL AllON HAZARD.
M*
- 3 A l H AT HCG
SUMMARY
T Aut.E :
Jh/ '
H AU l O AL.T I VL I N OP. S i l ON IW2ARD.
M**3 WATCH A T f1CG
SUMMARY
' ' ' "T ABL,E M.*J
( ALI66IA.'fil~ i4IUI HUN ' SOUlit.;
3 >0 SPote t ANLOUs F I SS I Ott NLUTHUN SOURCE l
ouNoEo FUFL - sy.- fyt_.
.l.. I Eu1 pot TA u S--IITLluoF. CAY o, H l en_uVLL,,Asic FRoM Re C Y u e.._._0__... _.
i O
6 er -
.mm.
PAGF 1 A tit.!: OF CONTENTS ON UNIT = 13 FOR DUTPUT UtilT =
II 3(e i HLACIIYT!V A fii 'buRNUP !s A 1 A'~
~ ~ -'
4 AC T I VAT IUtd Pf 4DOUC lh e * * *
- ACT I V Al luti PRODUCTS ***** ACTIVATION PRODUC T S * * * *
- A CT IV A T I ON PR ODUC T S * * *
.% 4 RAulOACTIVilYe_ CUH ! f.S
._,Suk. MARY 1AULE:.
J t.b S itEI4 M At. P O WCId.
WATIS SUMMAHY T AUL ti :
Jr ts RADIUACIIVC I N H AL A l l (174 HA2ARD, Ho*J AIR At RCG SilMM AR Y 1AULE:
JF0 54 AD IO AC T I VL IN GC S T I Or8 Im/AHO, Me*3 WA TEH Al HCG
SUMMARY
TABLE:
' A G I NI LM + U AUfallIbl4 5 8 M A C.T.IN il>ES_ +._ D A U Gell E R S *
- t A C.T J F4 CONCCH I N A T IDI45. Gf4AMS buMM AB4Y 1AOLE:
114100 5 + D AUGI.f l ER S
- t* A C I.lN I DCS._.t_ D AUGit T ER S *
- J F4 R AulUACT I VIT Y, CUti l E S SUMMAttY 1AHLE*
J7b T i tt-f t M AL Pu mE H.
WAITS SUMMAf4Y 1 AULti:
3 /fJ H AUI D ACJ { Vf;_INHAL Al lDN lf A2 ARD.
H + + J A I R. A T. ftC G. _..
SUMMARY
T AllL E :
Jhu RADIUACTIVt IN bC S I I Utl in?AhD, Mo*3 WA TER AT HCG
SUMMARY
T ADLE :
Jtv All'H A f t AI)f 0A C T I V I T V Culil E S SUMMAfeY T A fiLC
- FI55IUN P f1] DU C T S * * * * * * *
- f-I S S I O N PH OtJUC T S * * * * * * *
- F 1 SS I Of 4 P fl0 0UC T S* * * * * * *
- F I S SI DH PHODUCTS*******
J l14 GVN t.N [ 54 A T.lf J P.M_s,,_GB A M S SUM M AH Y__i A U L E i Jil F f3 ADID ACT IV IT Ye Cult l E S
SUMMARY
TABLE:
JIPe THfinMAL PO WLd H.
walls SU M M A54 Y I AtlLC :
JVI HA010ACT!vt INtt AL A f f ilH HAZAflue M e
- J A l lt AT RCG
SUMMARY
T AttL E :
J's.t H Au l p AC.T. I Vt.. INGliS T. ItJN. ItA R A14D.
M**J WATER _.AT_ftCG
SUMMARY
. TABLE:.....
J 9.s I ALPitA.N I f f* Ul kUf4 h0UR CF.-
J90 SPONTANCOUS FISSION NC UI f4UN SOUROI
.._fo dp_- KgAG J'JF....fAJIPU T T ADM'.5--ll.lt.g.=p l,C AY_OF.Si nVC IUHAL.M AI E H I AL. w A ST ES I4tCYCtr_.> = 0 39F RLACllV11Y A Nil HU tit #Ul* UATA
- ACTIVAYION PR OUtlC T S * * * *
- ACT I V AT ION PRODUCI S * * * *
- A C T I V A T I ON PR ODUC T S * * *
- J9ft CONCEN184 A T IOf 6, Gil A M *>
SUMMAHY IAULE:
4u0 PAulUAC11YITYe..CUI4lCS._.. SUMM ARY. T AU Lli; 4 0.*
1iftHMAL PO M.; H e WAILS SUMMANY f AULfi:
404 H Ab l O ACT I VI: l'HALAllON H A Z Al40, Mo*J AIR AT FICG SUMMAfiY TAULE:
400 NADIDACTIVC INGES r lura Int AHO.
Me*3 WATCR AT IICG SU Mr4 AR Y TABLE:
- A CJ I N I DL S _+ D AU et t 1 L f 4 5 * *
- AC T I N I DES..* D A UGH T E14 5*.f *.AC.T I N ID ES.+..D AUGH T Ef4S * *.* A C T I N E D ES..t.O AUGH T ERO **
400 CONC t1NI H AT f0f43, GHARS SU:4 MARY T AftLE:
410 HADIUACilVITY.
CUH t tis
SUMMARY
IAULE:
4IJ 1 HCHM AL l>O nt sd.
Walls SUMMANY TAOLC*
419 H AD I D AC I I VL IN13AL A I I UN.. llAZ AH O.
M *
- J A I R A T.R CG.
SUMMARY
T AUL E
- 436 HADIUACTIVL INGCSilON inZARD, Mo*3 w A TLit AT RCG
SUMMARY
TABLE:
4 9 ts A ll* H A H AIJ 8 0A CT I V I I Y CUHIES SUM M Al4 Y TAULE:
- OISSRON P Hu tJU C T :a * * * * * *
- o f-I S S I O N PH UDUC T S * * * * * * * *I2 f SS I ON Pfl0 DUCT S * * * * * * *
- F I S S I ON PR ODUC T S * * * * * *
- 420 HADIDAClivlTY, CUHlFS Suf4 M AR Y T Alj t.E CONCLNIHAl.luNS GitAMS
_ SUMHNtY._I AIJLE-42J 425 T itCHM AL PUMita.
WATIS SUMMAHY TAULC:
421 ft AulO ALIIVC INil AL. A l l ura H/t 2 Al40.
Ho*3 A!H AT 54CG-
SUMMARY
TABLE:
429 4.11 II Au l u AL. T I V E IN GCS T IUtd inZARD, Me*3.wATCit..AT HCG
_SUMM AR Y..T AtILE : _
l I ALM 11A.f4 ) Il! UI ROrd SlHll4 CF.
4J2 Spur 4 T ANLOUS FISSION NEUINUN SOURCli 4JJ_.UU f euf _TACLES.-I I TLCrO LC AY Uf" SI NUCIUHAL. M AlliftI AL_wASTLS
- 2 [J8D. "E [d. M J.
I1ECYCLt! J _= 0 4J3 HCACIIVf1Y A Ht) 11UR f fUt a gATA
- ACI I V Af luta PHURUC T S * * **
- ACT IVA f ION Pf400 UC TS* * * *
- ACT l v A T IO N PROOUCT S * * * *
- ACT I V A T ION Pfl 000C T S * * *
- 434 Cuf 4CCNTH AT IONS e GRAMS hUMMARY TAULE:
4Jb Fi AO !U AC T IV li Y e _ CUN ICS....._. StM4H AN Y..T AO Lli:
4Ju T ilC f 4 M AL PU aC l4 walls SUhMANY T At1LC :
440 14 Au l O AC f ! VC INHALAfluN It A 2 Af40, M**3 ASH AT ftCG
SUMMARY
TAULE:
I 1
e e
4 9
l o
n
L P ALA T A.ljt,5; UM _ CON IC N { $ _ONJffl L_m 43_ EurLQVJP.V]._UN I.T_ m.. I 3._.
44?
H AU l O AC 12 VL LNbt;5110f 8 iM 4 Af40,
>' *
- J WATER Al 84CG
SUMMARY
1 AUL.E
'ACIINIDLS + D AUGilill4 S * *
- AC1 1N I DLS + UAUG'8TERS* *
- ACT INIDLS + D AUG6t iE HS * *
- ACT IN I DCS + DAUGHTERS **
444 LONCCNifl Al lDNS e GHAMS SUMM A11Y TAHLE:
4 4 t, 440,
H Au l p ACJ,1.V I T Y._.C un IE S____ __SUMM Af4Y T AH Lti: _
I IIC HM A L PU hC H.
WAllh
SUMMARY
TAULC:
4SO H AI)l0 AC T I vL INHAL Al lfire it A EARD,
M**3 AlH AT 84CG
SUMMARY
T ABLE :
452 NAuluACTIVC I N G E. 51 10t l in/ Af40 M**3 WAFER AT HCG SUMM A14Y TADLE:
4 !**
AL Ptl6 y ADJ (A CT. I Y l i Y _LURI CS..... SUM M AHY _ T AULCJ
. _... PRODUCTS ******** FISSION _
... _... _ _.Pf40 DUCTS *******
- FISSJON Ph0 DUCTS ********FlSSluN PHODUCTS******** FISSION 4 St, CONCtNIRAllONS, GRAMS SUMM N4 Y 1AdLt 45V II AD i tl ACT I V IT Y.
CUNICS SUMMAi4Y TADLt!
461 I HC A M A L. PQ nC 84 e. W A T 15 _ _...._ SUMM AltY. T A O LE : _.. __........
4bJ f4AD10ALilVL IN H A L A i l(IN ItA2 Af40, M**J AIR AT RCG SUMMANY......T A UL E :_.. -.. _... -.. _.
4 t**e R A D I U A C T I V t.
lHGES110N BMZARD.
M**3 WATER AT HCG
SUMMARY
T AltLE :
16/
I ALPtt A.N! PdiUI 540N
- UUllCC 4 t.e>
Muti tat 4 EQUfa_ F.LS L I UN.14tiUI H uf 4_ Soul t CE
- Td Clay - (OO p 8G 469 (AJY PU Y T AHt_E S--T I T LE =D eC AY O f' HE CO V E hcl) UH AN IUM RECYCLE a = 0 4 te9 f tE AC T IVl TV A ND O U HHt tp DATA 9 A CI 1 V AI I ON _ PH OD UL T L14 * * # A C T I V A i 10N. Pl400 UC T S * * * *
- A C T I V A 110N. f H00 0C T S * * * *
- AC T I N I DL S + D AUGillLRS * *
- A Ci l N IDL S + OAUGiliCR S * *
- AC T IN IDC S + DAU GN T E R S * *
- D AUGPtIERS **
470 CurJCLt4 5 t4 A f if1NS e GHAMS SUMMAHY IAOLC:
4 rt RADIUACTIVlfY.
Cul41 E S SUMM Al4 Y IAULE:
4 T9 It1C HM At__Pu hC H.... W A i I ;,._. _... SUM M Alt Y._ I AO L C
- 4 16 I4Aul0ACflVC IN HAL A l l WN HAZARD, M**J AIR AT RCG
SUMMARY
1AOLE:
470 RADIUACTIVC INGCSTION HAZAl4D, M**3 WATER AT RCG SU MM ARY TABLE:
400 ALPif A I4 ADI OA C f l V i l Y CURIES S UM M A14 Y TAGLE:
4H2 -.
t f-I S S l uN. Pl40 DVC1 S * * * *
- 9
- e l' ! S S ! !)N Pit ODUC T So * * * * * *
- 1 ALl*ll A,N ) tiiUIRON SOutt CC 4 tlJ SPOrd I Ar4EUUS FISSION Niiuf HUN SUUl4CC 4 09
_..W T.PUI T At4.LS::Tl TLE YO LC AY..UE. I4C CU VCRE D. PLUTUN IUM.
._d{ O,
S__f00 yeq g,
,,,,,,_j,ggy c E_s _m
_n 4 f14 flEACiIVITY A PA) UURNUf 8 UA1A
- ACIIVA1IUN IM10DUC IS * * * *
- ACT I V A i 1014 PHODUCTS***** ACTIVATION PH OO UC T S * * * *
- A C T I V A T I ON PRODUCTS ****
4ACilHIDCS + UAUGillLHS*** ACTINIDES 4 D AUG81 TERS* *
- AC T I N IDES + OAUGHTERS*** ACTINIDES + DAUGleTERS**
4 tsb CUNLtLN IH A T.JO NS.._ GRAMS
.SUMf4 Al4LTAuLE:
4 ts F HADIUACTIVITY.
C UR I t.S SUMMAHY T AtlLC :
4 ti9 THEHMAL POhER.
WATTS SUMM AI4Y T A O L F. :
491 II A u l U AC f l VC INHALATION 194 2 Alto.
Me*J AIR Ai RCG
SUMMARY
TABLE:
4 *)J.
f.t Au lU ALilN!WN GliS.T.l uf t._!n2 Altu.__M * *.i_W AJ ER._AL_IAC-
u_8MMAllLT.A DLC 1 4 *e5 All8 t f A RADI( ACf IVI T Y CURIES SUM M Ally T AULti:
- F I S S I Ute l*lallMIC I $ * * * * * * *
- F I S S I Ore Pit ODUC T S* * * * * * *
- F I SS 10N PRODUCT $ * * * * * * *
- F I S$10N PRODUCT S * * * * * *
.. _... S Puf 4 I ANE 005 l'8 SS I Or4 I4C UT Rote SUutt CE..... - __.....
y.
N
\\
d f
,..e,o ame s 6 a
n..
a
. so 6