Forwards Revised Origen 2 Output for Crbr.Averaging Procedures Altered for Agreement Between Flows & Physical Mass

ML20076C006
Person / Time
Site:	Clinch River
Issue date:	04/20/1982
From:	Croff A OAK RIDGE NATIONAL LABORATORY
To:	Lowenberg H NRC OFFICE OF NUCLEAR MATERIAL SAFETY & SAFEGUARDS (NMSS)
Shared Package
ML20076B704	List: ML20076C006 ML20076C010 ML20076C111 ML20076C119 ML20076C128 ML20076C131 ML20076C138 ML20076C144 ML20076C151 ML20076C236
References
FOIA-82-290 NUDOCS 8210070253
Download: ML20076C006 (13)
v • d • e

Text

F.

4

{

Sh o

OAK RIDGE NATIONAL LABORATORY OPERATED BY UNION CARBIDE CORPORATION NUCLEAR DIVISION POST OFFICE box X OAK RIDGE, TENNESSEE 37530 April 20, 1982 Mr. H. Lowenbe rg Office of Nuclear Materials Safety and Safeguards U.S. Nuclear Regulatory Commission 7915 Eastern Avenue Silver Springs, MD 20910

Dear Homer:

Enclosed is the revised ORIGEN2 output for the CRBR that yot. requested during our recent meeting in Silver Springs.

I have cade the following changes in the calculations per your request:

~

1.

altered the, averaging procedures so that the ORIGEN2 mass flows agree with the physical masses, 2.

assumed a 4 y pre-irradiation fuel decay period, 3.

eliminated the output sections for the core ' assembly and the reprocessing outputs from the core +. core axial blanket and the inner + radial blankets, and 4.

added an output section decaying the entire annual batch of discharged spent fuel.

I Enclosed ycu should find the following items:

1.

a summary ORIGEN2 output on paper for the CRBR and a table of contents for same, 2.

a detailed ORIGEN2 microfiche output for the CRBR and a table l

of contents on paper for the same, and '

l i

3.

a set of tables describing the revised CRBR model.

It vill be i to 2 weeks before I can work on the graphs since I' will l

not be back in town until April 26 and there are several alterations to l

be cade to the input decks to accoc=odate the changes that you requested.

1 I

CSE10070253 82071'6

^ ',

1 PDR FDIA LEIS 882-290 PDR 4m, e-

~

Mr. H. Low:nberg Ap ril 20, 1982 However,.I think that.the material in this package should taeet all of the_

short-term needs.

I only had time to give the output a cursory check.

Everything appears to be correct, but - be wary.

Since rely,'

$E U

/g o

a Allen C. Croff, Manager Engineering Analysis.and Planning

, Chemical Technology Division AGC:il cc:.

I. C. delson, PNL 9

[

la

/

3 Table 2.

Betella of Chet treedtettee einerectIrtetta Perenete r Spectfie power Sf fective -

Charge rate, hg/ cycle te,entory, bg power, per(s) pe#(s )/MTtset treedsettee.

Diecha sse deretten betemp Metestet type' Cycle N Cycle N + t Ave rage Cycle N Cycle N

• I Ave rage Cycle N Cycle N + 1 Ave rage Crete N Cyete N

• I Ave rage full power doye gesd/MTilet ;

Core Two-eyele seeldence Feel

• 5890.2 2595.1 5190.2 5690.2 5190.2 773.6 689.9 -

738.7 149.1 132.9 145.0 550 77.550 d Agb 4224.6 2882.3 4224.6 4224.6 4224.6 14.0 19.3 B6.7 3.38 4.57 3.94 550 2.167 --

Feel + At 9414.8 4707.4 9414.8 9444.8 9454.8 787.6 709.2 748.4 83.7 75.3 79.5 550 43.725 One-cycle seeldence Feel

- 199.6 99.8 199.6 99.8 26.5 13.3 132.9 832.9..

275 36.M8 As 162.5 88.3 162.5 88.3 0.748 0.378 4.57 4.37 275 1.217 J

Fuel + AB 362.5 188.5 362.3 181.1 27.2 13.6 75.1 71.1 275 20.653 Tetet Feet 5190.2 899.6 2694.9 5190.2 5309.8 5290.0 773.6 '

FI6.4 745.0 849.8 332.9 840.9 539.8 76.01t At 4224.6 162.5 2893.6 4224.6 4397.8 4305.9 14.0 20.0 17.0 3.31 4.57 3.95 539.8 2.83)

Fuel + #5 9414.8 362.8 4888.5 9414.8 9776.9 9595.9 787.6 736.4 762.0 -

83.7 75.1 79.4 539.8 42.870 tener blanket Two-cycle eveldence

. 4313.3 84.0 138.2 182 8 19.9 32.I 26.0 550 44.300

• Fuel **

4318.3 2155.7 4381.5 4318.3 As 3353.3 1676.7 3353.3 3353.3 3353.3 II.2 17.9 14.6

3. M

!.M 4.34 550 2.M F

• Fuel" + AB 7664.6 3832.3 7644.6 7664.6 7464.6 97.2 154.5 12.7 20.4 16.6 550.

9.803 One-cycle seelderte

• Feel

• 34 0.4 170.2 340.4 570.2 6.79 3.40 19.9 19.9 275 5.4F3 At 264.7 132.4 2 64.7 132.4 0.885 0.443

3. 34 3.34 275 989

" Feet" + AB 605.1 302.6 605.1 302.6 F.68 3.84 12.7 12.7 275 3.493 Total

• Feel

• 4651.7 2325.9 4653.7 4388.3 4481.5 92.8 138.2 115.5 19.9 32.8

'25.8 529.9 83.654 AB 36ts.0 1809.0 Mit.0 3353.3 3485.7 32.5 37.9 15.0 3.34

5. M 4.30 529.9 2.280

• Fuel' + AS 8269.7 4834.9 8269.7 7664.6 7947.2 104.9 '

156.1 130.5 12.7

'20.4 16.4 529.9 8.693 Kedlel bleakets tener redtel bleeket

• Feet

• 850.9 3403.6 3403.6 3403.6 46.6 44.6 46.6 13.7 13.7 13.7 -

8100 15.070 Aa 648.8 2647.3 2647.3 2647.3 5.1 S. I -

5.1 3.93 I.93 3.93

'3I00 2.123

• Fuel * + AB 8582.7 6050.9 6050.9 6050.9 St.F St.7 51.7 8.54 8.54

• 54 -

A

. 9.394 Outer radiet blanket

• Feel

• 748.8.

3744.0 3744.0 3744.0 27.7 27.7-27.7 7.40 F.40 7.40 1373 80.175 AS

$82.4 2982.0 2912.0 2912.0 3.8 3.1 3.3 8.06 8.06 -

I.06 1375 1.458

• Fue t" + AE 1331.2 6656.0 6656.0 6654.0 30.8 30.8 30.8 4.63 4.63 4.63 1375 6.M6 Total redset bleeket

• Fue l

• 1599.F 7147.6 7147.6 7847.6 74.3 74.3 74.3 10.4 10.4.

30.4.

1229 12.779 AE 1244.2 5559.3 5559.3 5559.3 8.2 8.2 8.2 f.48 t.48 8.48 1729 1.889

• Fue1* + AS 2843.9 82.706.9 12,706.9 12.706.9 82.5 82.5 82.5 6.49 6.49

.6.49 1229 7.97F Searter total II.867.3 -

30.398.4 30.848.4 30.270 975 975 975 -

32.I0 32.28 32.23 22.600 e34 in. (Fu.U)02 8'8 88*

8 bCeepeette of espper (14 to.) and lower (14 Is.) 1102 estal bleakets.

• Ein 0%rqimat#cs.cw[gaggspiim sMo{

=

5 e

+/n/sn

v Table 3.

Detalle of the CRat fuel cycle management for cycle. 5-10 Fuel annagement schee.le. bg heavy metal (fuel assemblies)

Core Inner blanket Radial blanket 1 Radial blanket 2 Cycle

• Fa ramete r Fuelb ABC Fuel + AB

" Fuel-d AB

" Fuel" + AB

• Fuel

• A8

" Fuel" + AB

• Fuel

• AB

• Fuel".+ AS EC34 Invento ry 0

0 0

(0) 0 0

0 (0) 0 0

0 (0) * - 3744.0 2912.0 6656.0 (66) 30C5

+ ma rse 5190.2 4224.6 9414.8 (156) 4651.7 3618.0 8259.7 (82) 3403.6 2647.3 6050.9 (60) 0 0

0 (0)

= Inventory 5190.2 4224.6 9414.8 (156) 4651.7 3618.0 8269.7 (82) 3403.6 2647.3 6050.9 (60) 3744.0 2912.0 6656.0 (66)

EOC5

- Discharge 0

0 0

(0) 340.4 264.7 605.1 (6) 0 0

0 (0) 3744.0 2912.0 6656.0 (66)

= Inventory 5190.2 4224.6 9414.8 (156) 4311.3 3353.3 7664.6 (76) 3403.6 2647.3 6050.9 (60) 0 0

0 (0)

BOC6

+ Charge 199.6 162.5 362.1 (6) 0 0

0 (0) 0 0

0 (0) 3744.0 2912.0 6656.0 (66)

= Inventory 5389.8 4387.1 f766.9 (162) 4311.3 3353.3 7664.6 (16) 3403.6 2647.3 6050.9 (60) 3744.0 2912.0 6656.0 (66) -

EoC6

- Discharge 5389.8 4387.1 9766.9 (162) 4311.3 3353.3 7664.6 (76) 0 0

0 (0) 0 0

0 (0)

= Inventory 0

0 0 (0) 0 0

0 (0) 3403.6 2647.3 6050.9 (60) 3744.0 2912.0 6655.0 (66)

BOC7

+ a arse 5190.2 4224.6 9414.8 (156) 4651.7 3618.0 8269.7 (82) 0 0

0 (0) 0 0

0 (0)

= Inventory 5190.2 4224.6 9414.8 (156) 4651.7 3618.0 8269.7 (82) 3403.6 2647.3 6050.9 (60) 3744.0 2912.0 6656.0 (66)

EOC7

- Discharge 0

0 0 (0) 340.4 264.7 605.1 (6) 0 0

0 (0) 0 0

0 (0)

- Inventory 5190.2 4224.6 9414.8 (156) 4311.3 3353.3 7664.6 (76) 3403.6 2647.3 6050.9 (60)

'3744.0 2912.0 6656.0 (66) 30C8

+ aarge 199.6 162.3 362.1 (6) 0 0

0 (0) 0 0

0 (0) 0 0

0 (0)

= Inventory 5389.8 4387.1 9776.9 (162) 4311.3 3353.3 7664.6 (76) 3403.6 2647.3 6050.9 (60) 3744.0 2312.0 6656.0 (66)

EOC8

- Discharge 5389.8 4387.1 9776.9 (162) 4311.'3 3353.3 7664.6 (76) 3403.6 2647.3 6050.9 (60)

'O O

O (0)

= Inventory 0

0 0 (0) 0 0

0 (0) 0 0

0 (0) 3744.0 2912.0 6656.0 (66)

~

BOC9

+ Qiarge

'5190.2 4224.6 9414.8 (156) 4651.7 1618.0 8269.7 (82) 3403.6 2647.3 6050.9 (60) 0 0

0 (0)

= Inventory 5190.2 4224.6 9414.8 (156) 4651.7 3618.0 8269.7 (82) 3403.6 2647.3 6050.9 (60) 3744.0 2912.0 6656.0 (66)

EOC9

- Discharge 0

0 0 (0) 340.4 264.7 605.1 (6)

'O 0

0 (0) 0 0-0 (0)

= Inventory 5190.2 4224.6 9414.8 056) 4311.3 3353.3 7664.6 (76) 3403.6 2647.3 6050.9 (60) 3744.0 2912.0 6556.0 (66)

BOClO

+ marge 199'.6 162.5 362.1 (6) 0 0

0 (0) 0 0

0 (0) l

= Inventory 5389.8 4387.1 9776.9 (162) 4311.3 3353.3 7664.6 (76) 3403.6 2647.3 6050.9 (60) 3744.0 2912.0 6656.0 (66)

(

EOC10

- Dischstge ' 5389.8 4387.1 9776.9 (162) 4311.3 3353.3 7664.6 (76) 0 0

0 (0) 3744.0 2512.0 6656.0 (66)

= Inventory 0

0 0 (0) 0 0

0 (0) 3403.6 2647.3 6050.9 (60) 0 0

0 (0)

• E0Cu = end of cycle al BOCy = beginning of cycle y.

36 in. (Fu.U)02 region.

' Composite of upper (14 in.) sad lower (14 in.) U02 antal blankets.

36 in. UO2 region at the some antal elevation se the core fuel.

0

).

=

Table'4.

Initial compositions of 1000 kg of CRBR heavy metal Material type Nuclide Fuel Blankets No decay 4 y decay a

U-234, g 0

6 U-235, g 1,340 1,372-2,000 U-236, g 0

16 U-238, g 668,660 668,660 998,000 Total uranium, g-670,000 670,054 1,000,000 Np-237, g 0

- 4 Pu-236, g

-0.005 0.002 Pu-238, g 198 192 Pu-239, g 283,932 283,900 Pu-240, g 38,610 38,594 Pu-241, g 6,600 5,444 Pu-242, g 660 660 Total plutonium, g 330,000 328,790 Am-241, g 0 -

1,152 Total heavy metal, g 1,000,000 1,000,000 1,000,000 s

4/n/e2 e

e

,yx

_c e--

r-

4 4

Table 5.

Summary characteristics for the CRBR Fuel region (sla Pa ramete r Fuel' AB Fuel + AS IB RBb Fuel + AB + IB + RS Electric power, PSl(e) net 267.4 6.1 273.5-46.9 29.6 350.0 Thermal power, Isi(t) 745.0 17.0 762.0 130.5 82.5

-975.0 Average specific power,C 140.9 3.95 79.4 16.4 6.49 32.21 MW(t)/MT1101 Average fuel burnup, 76,031 2133 42,870 8693 7977 22.600 mwd /MTitet Effective irradiation dura-540 540 550 530 1229 tion, full-pover days Refueling cycle length, 275 275 275 275 275 275 full-power days Average number of 81 81 81 41 28.2 assemblies charged per cycle Average charge, d

kg/ refueling cycle 235U 3.6 4.4 8.0 8.3 5.7 22.0 Total urantua 1805.5 2189.1 3994.6 4134.9 2843.9 10,973 Fissile plutonium

• 783.0 0

783.0 0

0 783.0 Total plutontua 889.4 0

889.4 0

0 889.4 Total (U + Pu) 2694.9 2193.5 4888.4 4134.9 2843.9 11,867 Average discharge, d

kg/ refueling cycle 235U 2.6 -

3.6 6.2 5.9 '

4.0 16.1 Total uranium 1715.8 2149.0 3864.8 ' 3960.2 2726.9 10,532 Fissile plutantua*

627.2 38.5 665.7 131.6 89.1 886.4 Total plutonium 766.7 39.6 806.3 138.3 94.9 1039.5 Total (U + Pu) 2482.5 2188.6 4671.1 4098.5 2821.8 11,591

• Fuel = 36 in. (Pu,0)02 region, AB = 002 axial blankets associated with fuel.

IB = entire inner blanket, RB = entire radial blanket.

Weighted ave rage of inner radial blanket (4 cycle residence) and outer radial blanket (5 cycle residence).

• Based on rated power level.

d Averaged over 4 cycles.

• 239Pu + 2 41Pu + 2 393p,

}

f/12 /S2. -

w

,o

Table 6.

Physical characteristics of CRBR fuel assemblies 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 triangular triangular Fuel elements per assembly 217 61 Fuel element CD, em 0.584 1.285 Fuel pellet OD, em Core 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, em 0.731 1.378 Cladding thickness, cm 0.038 0.038 Channal thickness, cm 0.305 0.305 Channel height, em 314 314 Circumscribed volume / assembly, m3 0.0607 0.0607 Heavy metal / assembly, kg 60.35 100.85 b

M02 assembly, kg 68.45 114.39 Stainless steel / assembly, kg 135.5 122.6-Assembly total weight, kg 204 237

• Based on data in ref. 10.

~

(Pu,U)02 in the core and UO2 in the axial, inner, and radial blankets.

4/p/ci

&#2-p ypf-P AOC lQtsLL OF CONTENTS ON UCeti o 13 FOR DUTPUT UNIT o 15 8

OUTPUT T AlsLE S--181 LEmSUMM Aldy OF FUEL AND STRUCT MAT *L CHG AND DISCHG HECYLLC e = 0 m

HCAGJ V1.1Y._ANu_.itLHtAJP_DA) A DRODUCTS****

• ALTlVATION PH tO UC1b* * * *

• AC T I V AT I DN PRODUCT S ** * *

• AC I I val l ON PRODUC15*****ACTIVAtlON I'

CONCLN1RAiIONb, U4AMS P4UCL I DE 1 Afst.L S t.

CUNCEN1HATIUNS. G4AMb LLEMENT TADLE:

_le r uNCliN1 H A1.luNh e_tA AM b SUMM ANY_T AtsLtil DAUGHTERh**

• ACTINIDtb + D AUWIIE RS**

• ACT IN I DE S

• DAUGHit.RS* *

• AC15 t4!Dh 5

• DAUGHTERS ***ACIINEDES

• 10 CONCE NTH Al lD NS. G4 AM S NUCL!DE 1AbLE:

gI, 24 23 CONCEN T R Al lON's. U4AMS ELEMEt4T TABLE:

ruNCLtal RA1.!ONS._LH AMS -

• UMM ARY_1 ADLLI

• F15 BION Pl40 DUC I h* * * * * * *

• F 3 5b l ON PHODUCIh******** FISSION PRODUCTS ******** FISSION PRUDUCTS*******

E6 Cf JNC t:NTHATIONS, U4AMb NUCLIDE i Atit.fi

$3 CONCENTHAi!UNS, G4 AMS ELEMENT 1ADLE 44 Cut 4CCNitl AllllNh e WlAMS_

SUMM Altt_.1 AULti:

a/

1 ALPHA.NI NCulhuN buuRCL gh SPbHTANCOUS FISSIHN NEUTRON SOURCE 49 OuYP1LJ IM*LE6--J I ILL*SUMEIANY_ItF f17(t _ANQ bJ64UC1 MAJ** idla_AhQ-QlSCifG F4 E CTill _

• _."

_0 i

ae 9 f4EACTIVliY AND EsukNUP DATA

• ACT1VATRON IHtDbcTS***** ACTIVATION Pf40DUC.4***** ACTIVATION PRODUCT S * * **

• AC T IV AT IOP4 PRODUCI5****

• ,0 CONCE N T H Al lONS, CT4 AM S NUCLIDE T AtiLE :

a la f UNCt.NTflaT IOhb._in AMS ELEMENI_1ADt.El tes e CONCliNIH AT IONS, b8sAMS

SUMMARY

TAllLh:

1{Gi

• ACTINIDES + D AUQt1E HS**

• ACT IN IDES + DAUGHTERS *** ACTINIDES + DAUGHT E R5**

• ACT IN ID E5

• DAUGHTER $**

3 CONCE N IR A f l0 NS. U4AMS NUCLIDE TAULE:

78 CUf4CI h f H AI. IONS 04 AMS ELEMEN LT Abt.U

/;*

CONCLNI f4 Al ltlNS, ORAMS

SUMMARY

T AtsL E :

• FISSION 88HU DUCI 5* * * * * * *

• F I bb l DN DHODUCTS******** FISSION PRODUCTS ******** FISSION PHODUCTS*******

7*

CUNCEH1HATIONS. UtAMS NUCLIOC 1AHLE:

98 EUNCE NIR A L10 NS a_%,' LAM S ELCMEN L],AC'g t,

e 9;*

Luf4CENINAlEUNS. G4AMS

SUMMARY

1AULL:

IALPHA.NI NEUTkflN SOURCE M.

SPONT ant-OUS F i bS ION NE UT ROti SuuRCC

• l

• > 7 OUIPUT T AbLLS--I l l LE mptiC AY OF CURE FUEL

• CORE AXIAL ULAtMET AND $1RUCIUf4AL MAIEHI AL RECYCLE

• =0

a. T HEACTIVl1Y A t40 flUHNUP DATA

• ACTIVAlION PHODUC15 0 * *

• 4 AL11 VAT R DN Pf40 DUCTS * * * *

• ACT IVAT IUN PRODUCTS ***** ACTIVATION PRODUCTS ****

adu CONCF,NIR AlJONb3 MMS btjMM ARY_J AHL&:

e 300 AADIUACilVIIY, LUNILS SUMMAkV 1AbLL:

I O;*

THERMAL POWE R.

h A T 15 huMMAkV TABLE:

Ice 64A U l O ACi lVE IN HA LA l l uN HAZAND, M**3 AIR AT RCG

SUMMARY

T Aut.E :

1.un H A Dluec1J vtL_ INblibi lON_ttA z ARo, l _ Me

• 3_W A1L R, A]__ HCG

SUMMARY

_JADLI(

• AC11NIDL5

• DAUutiCR$*** ACTIN OLS

• UAUGHIERS***AT INI_Dh5 + DAUGHIERS***ACIM IDES + DAUGHTLras**

10u CONCENTRATIONS. ud AM S

SUMMARY

TAULE I10 HADIDACTIVliY.

CU RI E S SUMMANY I Atst.E :

Ll2 Ilitd1M A L_L'1J WfiB a___ ? A T.1.5 SWM A NY_1 A BLLI l i as kADIDACIIVE INHALATION tlAZAkDe Me*3 AlH AT RC t,

SUMMARY

1AHLE:

l ita kADIDAC11VE INGE ST lore HA2 ARD.

M**3 WATER AT RCG SUMMANY TABLE:

lla ALPHA $4 A D I UAC i l V l f Y CUR S E S

SUMMARY

TABLE:

• F,8 $h,l DN_ PHO Du(T_A* * * * * * *

• F t hS I DN.PHUDVC T 5 * * * * * * * *F R $M ON PHODtJGJ S * * * * * * *

• F l }.1[ ON PRODUC15 H H e *

• IPO CONCE NIR A l lUNS, U4AMS SUMMANY 1AbLL:

skJ RADIDACTIVlive CUklES SUMMAHY TAOLL:

l i'5 1HtiHM AL PUhF 54, WA115

$UMMARY table:

11 54 Ak]RACT I Vli I N thA.llf rLt4_A T ARyut!.* *LA l.UMC.G St&M_A_BY l ADLE :

6 e

e e

9r Pow TOOLt CD L ON TE NT S ON UN I T = 13 83 OR OUIPut UNII e !I I'9 RADIDACTIVE INutSTION HAtAND.

Me*J WATLR AT f4CG SUMMAHY TAhLL:

3 38 1 ALPH A.N ) PE UT HON LUURCE 1v

• P ON T AN LUU S_Elh S10 N hE U I RU N_SU UR L F 133 OUTPUT T ABLC S-I I I LC sD EC A Y OF HADIAL 6LANKET FUEL AND STRUCTL'HAL I4ATERI AL RECYCLE am 0 133

.NEACTIVITY A ND H UR NUP DATA

• A LI.LV A T I Of1_E1500 0C T S

• f * ?

• ACT I V AT I ON. PliOQUCIS 9.t3 ff ACl! VA1_10N.ERODUC15 t9 t

• 9 AC T !Y A l l ON_PRDOUCT S *

• 9

• I;M CONCENT H Al lt)N5, (J4 AM S SUMr4 A RY TABLE:

1.%

54 ADIOAc i lv l T Y.

0084 8 L 5 buMMANY T AtiL E :

l pt T HL 84 MA L PO wt;H.

wATIS SUMMAHY TABLE:

Lea He D 10 ALJ.I VL._J NNA l.A 110N_ H A Z Akus_.M t

• 3_ A I R_ A LHCC

'UMMARY_1AbLE:

let RADIOACilVli IN(el SI ION HAZAND.

Mo*3 WATER AT kCG

SUMMARY

T AfsLE :

• ACT IP4 tDES + DAUutit NS **

• ACT INIDE S

• D AubHT E NS * *

• AC11 NID ES + DAUGHT E NS * *

• AC T INI DES

• DAUGHTER $$*

144 CONCENTRATIOt45, ud AMs suMMAp<Y TABLk:

Imh HADI D ACT.1V II Y _Cutil ES SUMM ARY_.1 AULE:

l as.t 1HtRMAL F tt hE H e WAllb SU MM A14Y 1AbLL:

p'K I SO HAD ID ACT I Vf-INHALAllON HAZARD, M**3 A!H AT RCh

SUMMARY

TADLE:

i If2 RADIDACTIVL INGEbTION HAZAku, M**3 WATER AT RCG SUMM A f4 Y TABLE:

11A ALL'HA 14AD IDACLIV_lLY_CURI LS SUMM ARY_1 ABLE:.

• F 155 l124 PHUDULTS******** FISSION PHUDUC 1 h e * * * * * * *F I S$ 1UN PRODUCT S * * * * * * *

• F I S $ 5 0N PRODUCTS *******

lho CONC 1'N1f4 AT IUP4s, OR AMS SUMMANY T ABLL:

S t.9 54AD I DACT IV I YY, CUf t l E S

SUMMARY

TAULE:

101 T t1LRM AL_ PO wlut._MT I S

SUMMARY

_1AULL:

I t,J HAD10ACTIVt INHAL4lluN HAZAND, M**3 AlH AT RCG buMMANY TABLE:

ItS 54 ADID ACT I Vti IN Gr. 51 1014 NAZAND, Me*3 WATEN AT HCG

SUMMARY

1AHLE:

I(J

! ALPHA.NI NtiUI h0 N bOURCE I t,d M*0NINtLUUS E.! b53URLNCUT.RUN_SOUf1Cr I t At UUTPUI T AHLL b-T I T LE mO EC AY OF If4NER OLANKET FUEL A P4D STHUCTURAL MATERIAL RECYCLE *

• O I t.9 Rt ACT IV11Y A t4D OUHNUP DATA

• ACI.l YAJ.lutLPROQ UGi b'* *

• f ACllV All(W_PROQUC1!itif

• f.f AC11 WLLION EEDDUCIS11ti.! ACILYellON EBUDUCM f f ??

__1 70 CtsNC LNI B< Al lONS, WeAMS

SUMMARY

IAULL:

1 72 RAblOACTIVIIYe CUHIES SUMMANY 1AblE:

174 1HthMAL PO WE R.

WATTS

SUMMARY

TAbLk:

I70 R A QlllSCT.I Vl INMSLA 1 I fifL_tiA T ARQ e_

N e # 3_A I R.AL RCh SQM_M ARY__1 Abt.E1 ITM HADIDACTIVE INbC Si lON HAZAND, M**3 WATER Al HCG

SUMMARY

1AOLEI

• ACT lf4 f DCS

• DAUWilEldS*** ACTINIDES

• D AUGHIER$* *

• ACT I NID ES + DAUGHT Ef4 S**

• AC T IN IDES

• DAUGHTER 5**

I tiO CONCEPelRATIONS, U4AML

SUMMARY

T At9LE :

1 tc' R AQ_]De(1,1yJJ1a._ tuffIld SUMM ARY._T ADLlii Ita 1HLHMAL Po wE H.

wATI5 SuMMANY TABLE:

(,, S E tm NADIUACTIVE INHALAllON HAZARD.

Mo*3 AIR AT RCG

SUMMARY

TABLC:

_' _ ISU I tAs 64 A DI D AC T I VF INGCSTlHN HAZ AND.

M**3 WATEH AT $4CG

SUMMARY

TABLES AL PH 4_R A D l HA CT_j V.113 _ CU R I E S

$UMMARY TAht,,G

• t-8 5s lOta PkopuC15* ** * * * *

• F l 55 t ON PHUDUCIS********FlhSIDH PRODUC154 0 * * * * * *F 155l 0td PHODUC15*******

l u2 CONChNIf4AllONS. GR AM'.

SUMMARY

1AHLL:

lW fADIDACTivilYe CUhlES SUMMAHY table:

1*9 TbERMely.EQati.Be _wAlis hv8M A HY._LAUL U tw HA D I U AC I I V f.

INHALAilON HAZARD, M**3 AIR Al NCh Sun ' 9 RY TABLE:

201 54AD ID ACT I VE SAbfi5flON HAZARD.

M**3 WATER AT RCG

1. UMMARY TABLE 203

( ALPHA N ) NElli RO h 5f RIRCE G'o WOM J!NiiQQ$._F,,,,,[M { Qy.,[4QJ} Hgy_ppyH,_.(E l' Ob OU1PUT T AbLE S-T I T LE=

DI.C AY OF ALL SPENT FUEL DISCHAMLED ANNUALLY FROM CkDR RECYCLE e a O

g.g_,

9 9

e P A O'.

1QllL h OF Cid41EN15 DN UNli O 83 FOH OUTPUT Ue4 t i a 11 2 05 Hl. AC I l v l 1 Y AND ti t N4 NUP DA1A

• ACIIVAlION PH[ID UC 1 h e * * *

• ACT I V AT I ON PHODUCT S * * * *

• AC T IV AT IOte PHODUC15* * ** S At T IVAT I ON PHODUC1586**

R ue, Cte4CfNIHAT30 % _U4AHS SUMt4 ANY_T ADL E :

P tit.

HADIUAcilVITY.

LeJH I L S.

SUMMARY

TALLL:

.' 8 0 1HCRMAL PO tt H.

kA115 SUM'4 Al4 Y TAbLL:

i t..'

I4 AD I D Aci l V f.

INHALAllHN HAZAHD, M**3 AlH AT kCG buMMARY TAOLE:

_y. 8 4 H ADID AC1 IvLINot St. lON.flA2 AHD,..IDE S +. M e

• 3 W A T E H. A T._ f4CCr __. _IDE S_bOMMAkY.1AHLE: ___ ilUIDES

• AC T I N IDt:5

• U AU Qt ill45* *

• AC T IN UAUGHILRS***ACilN

• OAubHI E l4 5 * *

• AC

• D AUGHT E R5 *

• Pib CONCLtil H Al lot 4L, U4AMS

$UMMARY TAhLE:

P lts 84 Abl tJAC T IV li Y.

LUlt i f S

SUMMARY

TADLL:

/,0 1 Ht l4 H AL l'O ht~ H e DATIS SUMit A14Y T ALLE,dl~ HCG 2

i; 2 Hk ts l U All l Vt " lNiih l A l l t stfiiK2 IND, ' M4*3 AIH LUMMARY TABLE:

. /g NADIDACilVL IN bli bi l ON Dd2AHD, Me*3 HATER AT HLG

SUMMARY

1 AtsLE:

a t.

ALPHA e<A DI OA CI IV II Y LURIES

SUMMARY

1ABLE:

• r I bs jive. Pi<nDUG Lt * * * *f t

• F.l M i ntL PHODUC.1 b* * * * * * * *f_1551DN 1R0puCIh* * * * * * * *F j S SI ONf kDOUCT S * * * * * ? *

/.h LOP 4C L t.1 H A l lllP4b e fi4 AMS

SUMMARY

1AULh:

( P Ji 84 Abill ACi lV I T Y, LUNILS

SUMMARY

T ADL t- :

P ai i t et s4 M AL Pa l mt-H.

mAlth

SUMMARY

1AULL:

E p.

HADID ACT Ivi_ BroJ A L A l ltitt it A 2 Af40,_ M**3_AlH_A1.f4C(*

SWM A R Y_1.ADR.E ; _ _.

2M HAthlUALT IVL INbl.Si lure HA 2 AAD,

H+*3 wAILH Al HCb buMMAI4Y 1 Al LC

? ?s (ALPHA,NI NE U I 54tlN blIUf4 CL 28,0 SPut41 At4CUU5 FibSION IJE U I NDH SOURCE 1:48 udi Mll AbLL S--I I I Lt =H t PHUlf. bb LNG OUTPUI AND VOLAllLLS DECAY HLCYLLL a a O

2*l HLACTIVITY AND DUNNUP DATA

• ACTIVAllON IHODICTS*****ACilvATION PRODUCTS * * * * *AC T I VA T ION PHODUC1 b * * * *

• ACi l VA l lON P54DDUC 1 S * * *

• ke?

CDNCttaTHATIONS U4AMS SUMM AS4Y T AfsLE:

2h

1. <^ D I D AC Y I V i r 6_,,,_CO M i ts

$UMMARY I hbLtif

~~ ~

I' 4h a

14ADID ACT I VE INHA L A l l ut4 HA2ARD, Me*3 Alp AT RCG

SUMMARY

TABLE:

2 ets

$4 A D I D ALi l V O.

INGt.hllDl4 HA2AND.

M**3 WATEN Al HLG

SUMMARY

1 At1LE :

/.

• ACl[NIDt5

• D Auu t it-HS * *

• AQlN I DE S + DAUblffl@$***ACTINIQE5 + DAUGHilWS**

• ACT_jNIDES

• DAUGHTER 5**

_.SO Cut 4CEiif H AllON5. OHAMS SUMM ARY T AbLLI

,[fK *i t.m

/ b2 HADIUACTIVIIY.

LUI4 t E S SUMMAHY T AbLli:

64 AD I D AC i l VI.

INHALAllHN II A Z A l4D.

Me*3 A l lt AT faCG SUMMANY 1AULE:

iL6 H ADIO ACI lVf! IN bt Li tute HAZ AND.

M**3 wATEH AT HCh SUMMAfdY TAULE:

__ ~

~

.F i ss listi ykT)DUt i !* 4 s * &~*

• sF l LS ilifMUffUCf 56 3 0 6 3 6 *FI35IT)W PA0buCT5 * * '*

• s Wi3F153t OWPN6EUCt fi* oisie 1 541 LuhCEt<1H Al lul45. Ul AM S SUMM A84Y TABLE:

Phl RADIUALilVITY.

Lt> Hits

SUMMARY

1AOLE:

P f.J F4 A D l(1 A 1lVI%)NHALATION HA2AF40, M**3 AlH AT RQG

SUMMARY

TABLE:

~

265 OA D I UhC I'j Vt-IN bt. h1 liite "ilA/ AHD,

k &

• fis AI elf A T ' $ich

-- $UMWkAY'IAHLLI 2

/ t,7 (ALPHA.NI t<EUIRON SOUH Lti E f dl SPuf4TANEOUS FISSION NE U T ROP 4 SOURCL Piw OU1N1 T AtiLEL=TITCEWECAV Iil HIDi:EEWC WASTE FROlFUC'ET.UED TOLL NE CVCI~E~~e = b 2hv HEACTIVITV A t4D O LA4 P AJP DATA

• ACTIVAfRON Pl4HD UCI S* * * *

• AC T I V A T I Ord PHODUCIS*****ACTIVATIDN PRODUCTS *****ACTIVAllON PRODUCTS ****

270 CONC E N T R A T R ONS_f._'Ld te t L 5 ua AM5 SUMt4ARY TABLE:

2 72 8AbloiClIV4Y9.

buMMA W TAbi.t!

g 274 THERMAL PumER.

hA1TS SUMMANY 1 AbLti:

s 276 H A D I D A C i l Vf' INHALATluN HAZAhD.

M**3 AIN AT 84C G

$UMMARY TADLE:

/ ns HADIDACTIvt it4Go-51 tote lu 2 AF40.

M**3 WATER AT RCG

SUMMARY

1 AtiLE:

• Ac t ifJ iUE L'~F ~6 AUtl41E AS* 6

• ALT IrilOES + bAuWf ER5ue ACTINIDES 4 DA065tTCR53F4 ACTlfilDESTDAU636TER544 2 f+0 CONCENIHAlluN5. U4AMS 50 ktl A R Y TAHLC 2n<

HADIOALTIVITY.

L0 54 8 t 5

$UMM AS4Y 1ADLL:

Plwe 1 t it' H M AL PO kt: R.

WATIS SUMM Al4_YJ A,tJL_ti :

4 m

W Pa tt T A bt. E. (D8 C(#41EN13 UN UNIT = 33 FOR OUTPUT UNIT = 11

' k t6 NAlslO ACT I Vt' INH AL A l l t#4 HA2ARD, M**3 AIR Al HC G SUMM A84 Y 1ABLE:

2at HADIDACIIVL INGE Li ltite itA 2 AkD, M**3 It A1 Eli Al NCG SUMMAS4Y T AtiLL :

290 ALPHA _H AD I UAll3 v.11 Y_ CUH I E 5_

SUMM ARY_1 ACL E I

• r t ss l ota PuoouC i t* * * * * * * *F l z.s t tire PRoDUC i s* * * * * * * *F I sslON PHODUCibe*******F1551ON PRODUC154******

? *s?

C ut4C ENT H A Y lONS. 04 AM S

SUMMARY

1 AUL L :

2 *'S HADIOACllVITY.

CUklES SUMHANY 1 AttLE :

2*M THCHMAL. l'Ontik e _ W A I f 5

_ LUMMAl4Y,}AULt.:_

PW HADIUACIIVL I NHA L A l l tin HA2AHD, M**3 A lle Al NCG

SUMMARY

TAbLL:

J OB NADIDACTIVE I?dbLSilHN HA 2 AkD.

Me*3 W A 1 Ll4 AT HCG SUMMANY 1 AtsLC:

303 I ALPHA.f a l Ht.ul Hula LOtsl4 CE

_JtR Ssjot4T3 guys, ti n.lartt.at 015 MIN.bOU8tCC 3 05 OU1PUT TABLEb--731Lt=DLCAY O F f a l u e-L L Vt t. WASTE FROM DLENDLD F UEl.

htCYLLE * = 0 3 t;5 HCACTIVlly A ND O LA Nup DATA

• A LT I V A t ION _ f >HOU bC T S * ?

• t

• AC J I V Al l tP4_PRODF.1b

• t! *f 8 CLIVAL lDPLEl40 DUCT 5+f * *

• ACT IV A1 I DN_ PflODUCT S * * * *. _.

3 0t, CtstJCLN164 Al lHNS.

(J4 AM S SU M*(Af4Y 1AOLE:

J 041 NADIUAC15Vl1Y.

CU R I E S SUMMAftY T At>LL :

,s t o itfLRMAL Pu tut N.

te A T T L SUMM Af tY TALLE:

Jl?

144 0 ID ACli vtuir4HA LAl l DPL H A Z At4Q,

M ?

• J A I R A T_kCG SUMM ARY_] Atti.E :

384 NAulOACTIVC IN Gt. Li l HN HAZARD, Mo*3 W A T El< Al HCG bOMMAkV 1 AtsLE :

1. ACilNIOLS

• DAUutthH50**AC15NIDL5

• DAubH1C RS * *

• AC T INIDES + DAUGHT EM S * *

• AC T I NIDE S

• D Aut.HT E RS *

• 316 CONCEP41 H A l loth e bkAMS SUMMANY TAhtt:

'11 b f* AD I D A4 [.I V I i y o_CQR l ti$

$UMMARY_1AbLth{

3<0 IttERM AL Pt pht f t.

WAlf5

$UMMARY IAbLt:

1[f 322 kADIDACTIVf" IN HA LA 11 tlN HAZAf4D.

Me*3 A l f4 AT HCG

SUMMARY

table:

34g RADIDACilvt IPeGL SI ROP 4 HAZARD.

Me*3 W A T E f4 AT HCG

$UMMARY 1 AHLE :

3 Pts At,9HA _ H A Ql OA CT JY 3.T LLtitel F S

_JUMMAny f at>LE ;_

F

.I i ss IDt4 Pwo ouc t s* * * * * * * *F I'55I_DN PH UDUC15 * * * * * * *

• R ES IOte PH5Duc i s * * *

• iT_*_* _.I551 GT PHODUC f 5 * * * * * *

• 326 CONCENIHAllONS, U4AMS

SUMMARY

TAULE:

3 31 NADIOACilvl1Y.

LUl4 I C S SUMMAHY 1 AbLE :

J JJ T Heif4M@L,JApFJ4,_,,hA T 15 _

..SILM5 AHLI ABLl; 33$

HADIUALilVC IN#1 A L A l l DN HA2AS4De Mo*3 AlH Ai F4CG buMMARY 1AULE:

337 HADIDACilvt IN GC E T ION HA2AND, M**3 W A T Ef4 AT HCG

SUMMARY

1AULC 3 3<*

I ALPHA.tJ I PE UI RO P4 buuRCE MO LepMJAFF,py M l}*lQPU RU]pQPLSQQQC5 t

(

341 OUTPUI T ADLES--Il1 LE=DEC AY OF LThuCTUHAL MATERIAL WASTLS RLCYCLE e = 0 341 REACTIV81Y A ND. B UR NUI' DATA

• A CT I V A I I OPJ_EHIA CONCEN I f4 A f R ONS. I OC I S *

• A f f ati1 I V A T. l D'LPRODUCU * * * *f ALI tyJLLI DFL.EBOD_pCD * * * *

• AC T_l VAL 1DN _Pf3QDUCIS f f *

• 34?

U<AMS SUMMAkV TABLE:

Q6 344 NADIUACTIVITY, CUHlLS SUMMANY 1AbLL:

J e f, It tt H M AL POteE k,

h41TS

SUMMARY

1AOLC:

3*H.

R4tilOAb7(VF l tittA L A T I ON _H A Z AMD e,_ M * * )_ A l R A},_QCG SUMM ARY__T Af (C i t

S$O HAO!OAC}lVE If 40t[il BUT4 HA Z A f< D,

M**3 W A f tif4 AT 64CG SUMMANY 1AULE:

• AC1 lre f ut'S

• D AUus1Lf45* *

• AC11H IDES + D AU U t1E f45* *

• ACT I N I DE S + DAUGHI Lf4 5* *

• ACT IN IDE S + D AUGHTE HS * *

m2 CONCE t4 T H A T IONS. U4AMS

SUMMARY

TAf1LE:

3 *A.

f4 A DJ U ARI V_IIY o_

Culi t tS SUMM ARY_f AULE.;

JLb I Ht.H M AL Piltet H e WAllb buMMANY IAULL:

J bei RADIUACilVC IN HA L A l l tJN HAZARD, Mo*3 AlH AT RCG

$UMMARY TADLE:

Jbo 64ADIDAC1tVC IN Gh bi l ON HAZAHD.

M**3 WATER Al HCG

SUMMARY

TAHLE:

2 N' Al. ht14_HA l? l t i A Ql v I TLCt f R $ tt $ _

_5UMMAHy. table;__ _ 55 ION _ _,

• FILSIUN Pf7 NADIDAC1lVITY, Cutt l ES SUMM f '4 Y TAbtE:

e 49' O

O 4

9 v

P Att 1 A HLtd 17 CtV4 TENTS ON UN I T = 13 FOH OU1PUI UNIT a Il 3a,9 iltE HM AL POeEffe WAfib buMMARY TALLC:

3 78 HADIUACTIVE INHALATION HAZAHus M**3 AIR AT HC G

SUMMARY

TABLE:

iTJ f 4 ADI D AC11 Vt _1N L,1.LI.16N. HA L ARD. _M 9

• 3_W AIER_A_1_HU-AUMM ARY__1 AbLEJ 375 (ALPHA,NI NF ul kO N LOUNCE J 7t, SPONIANL00b F I SS RON Nt-U1840N SOUNCE 477 nU TEu f__1 AULLS--1J T Lt EDECAY_UE _5f HUCT UH AL._H ATEkl AL._WASIM RECYCLC a_ C O J 77 HLACTIVITY Ardu ht.Aat4UP DAIA

• ACTIVAIION PS40uuCTS*****ACTIVAllON PROuuCib*****ACTIVATBON PHODUCT$***** ACTIVATION PHODUCTS****

J76 CONCEN1HAllONS. udAMS SUMMAHY 1 ADLt.

Mt:0 4 A D I DACI J V I IJ,_ CU k i t.S

SUMMARY

_1ALLE:

3L2

'f bCH MAL Po wt H.

hA185 huMMAHY TAbLt:

J a,e

6. AD I D AC T l vh INHALAllON H AZ AF40.

He*3 AlH A1 RCG

SUMMARY

TAULE:

3..u HADIVACTIVC IHLE.LIION HA ? A HO,

M**3 WATLA A1 RCG SUMMAHY TALLE!

• AC i l N I DL5.t. U AU Ltilt.HS t *

• A C T INIDLS. t_DAUGHi tiHS *.t.* ACT !NIDE5_t._DAUGHi tR $t t

• ACT IN IDES _

• DAUGHI ERS*

• 3th LUNCE N1H AT IONL, U4 AM S LUMMARY 1 ADLl; ;

en Fu HADIOACTIVITY.

CUHILS tiUMMARY TAULE:

6D 3'e2 I Ht-64 M AL POW.H.

halls SUMMAHY 1ADLE:

M9 HA Q I U ACl I Vt._INttA LA 1 IHeUI A Z AFfD s, M t t 3_ A I R A1._HCh EUf45 ARLJ AOLE :

35%

HAfe I D ACI IVI. IN bt.bi llIN HAZANDe M**3 WATEH Al RCG

SUMMARY

T AllLE 3 **C ALPHA H A D I t#A CT IV I I Y CONIES

SUMMARY

TABLE:

• F1$5$UN PRutnJC1L******** FISSION PHUDUCTS******** FISSION PHODUCTS********FIS$lON PRODUCTS *******

900 LifNCLtd H Al IUN a e_l>4 AMS

SUMMARY

_1ABLL" 401 RAIJ I DACi lV I T Y, LU F4 t E S SLMMANY TADLE:

40b THLHMAL POhCR.

tea T I S

$~MMANY TABLE:

u nor HADIDACTIVC INHALAllON H*

A 540 M**3 AIN AT RCG

SUMMARY

TABLE:

4Lv R AD IU ACLIVL_._INbCS1 I ON sAZARD..... Mt *J_W AJEILAL HCG SUMMAHL I AbLf)

=Is (ALSHA.N] hF.U l HU N SOURCE e

4 52 SPONTANEUUS l-I LS ION Nt UIS UN SOUL 4CL 933 nu TPUL IADLEb--111 LtJU LL AY 0F_lfCCOVERLO_DR ANIUM REC 1 CL t: _ e._=

,_O.

g13 5' C AC T I V I I Y AND t t Ul4 NUP DATA 4

ill/

• ACT I W A1 I ON PNUU UC i be * * *

• ACT I V A T I ON PHODUCTS***** ACTIVATION PRODUC T S * * * *

• AC T I V A T ION PHODUCIS****

U

• ACTINIDES + D AUGH IENS * *

• Alf lN IDES

• DAUGHIERS***ACIINIDES

• DAubHTERS***AC11NIDES

• DAUGHICHS**

M19

__CUNC CNI HA LI ONh.s _0H A M b buMM AHLT ABLL:

436 64 A D I U ACT IV I T Y e CUHIES SUMMAf4Y TABLE:

4 5 ti T Ht.H M Al. PO hE H e WATTL SUMMANY TAULE:

g?O RAUluALTIVC INHA LA l l t N HAZARD, M**3 AlH AT RCG -

SUMMARY

1AblE!

__. _9 a BAQ 10AG] I VF,__I%DJ IQtutA Z A Bila M * *3_ W A 7.E 8_AL 14%G SUMMAFll _1Al1LE !

g re ALPHA HADIUALI IV IT Y LURIES

SUMMARY

T F.0L E :

• F I LS ItW PRODUCTS ******** FISSION PRODUC T $ * * * * * * * *F 15S I ON PRODUCI S * * * * * * *

• F I S SI ON PRODUCTS *******

42o I ALPHA.N ) NE UT HO N SOUNCE 427 SEIRLI Ah(UU:a tJ MitlutLtKU.1BQ!Lb0USKE gW OUTPUT T AULC5-I I T LC aDLC AY OF HECOVERED PLU10NIUM RECYCLE o a O

4 42b HEAC1tVITY ANO D LA4 NUP DA1A

• KT I VA1.3 0tLE*.3 0tipc1 S?it* t ACT J VM i ntLEH04UCTS!!!!! ACIl y AJ JpH PRQQUGi b * * * *

• AC T IV AT i ptLP!?ODVCl $.t L* *

• ACTINIDES + OAubHitkS***AL11NIDCS

• DAUGHILHS* *

• At t l N I DtLS

• DAubHI EN S* *

• AC T IN IDES + DAUGHIENS**

hh429 CONCEN1 RATIONS. W AMS

SUMMARY

1ABLL:

f 4 31 NADIDALIIVITYe CURI tis SUMMAS4Y 1 ADt.E :

9 3J T HfM M AL._ PH wFJt e _ _w A 1 { b_ _ FAT 4D.

bOMM AS4Y 1 AOL,C i i

e35 HADIDACTIVF IN NA L A i llW HA M**3 AlH AT 84C4

SUMMARY

TADLE:

eJF HADIUALilVE It4bt LilON HA2AND.

Me*3 WATER AT HCG SUMMANY 1AOLES eJ9 ALPHA HADIDACT IV II Y CUfdl E S

SUMMARY

1AbLE:

l

• t3hilu!LP.t40 falC T S* * *

• t! ?

• U S$ 1 DN__PBODWC R*_f.! * * * *

• F t h5 NN PRDDVC I S * * * * * * *

• F_l S S IptLJ:RQDuq_T S * * *.t.* *

• 4 i

e 4

y.

-mam

_-_a m

m b

i l

l l

f I

e f

l 4

l i

i l

M

=

em ep

-)a m)

C 2

O E

M l

n

== eJ Z U 3

z o O 4 4 Z e-Q 2 2 WW>

=V3

[2W wsz v'r 3

DzI so g,2 4 a>

Ze O L C V. 13 a3 Z4

• 2 er <

E&

EE

.2 a 41 me A 4, m fJ fa i

e cer l

a 4

j l

e i

l I

i

.