Rev 10 to EMF-1563, Consolidated License Application for Siemens Power Corp Model SP-1,SP-2 & SP-3 Shipping Containers

ML20210F158
Person / Time
Site:	07109248
Issue date:	07/27/1999
From:	Bentley B, Gaines S, Rieke P SIEMENS POWER CORP. (FORMERLY SIEMENS NUCLEAR POWER
To:
Shared Package
ML20210F147	List: ML20210F143 ML20210F158
References
EMF-1563, EMF-1563-R10, NUDOCS 9907290175
Download: ML20210F158 (38)
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Siemens Power Corporation EMF-1563 Revision 10 Consolidated License Application for Siemens Power Corporation Model SP-1, SP-2 and SP-3 Shipping Containers l

Certificate of Compliance No. 9248 j

Docket No. 71-9248 I

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3 Siemens Power Corporation EMF-1563 Revision 10 Consolidated License Application for Siemens Power Corporation Model SP-1, SP-2 and SP-3 Shipping Containers C

7!2/#/ 7 Prepared:

P. C. Rieke, Staff Engineer Licensing Date Regulatory Compliance Concurred:

27'W B. F. Bentley, Mana)er Date Plant Operations Concurred:

M 7/r/,/Sg o_.

S. F. GairMaha(e/

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Date / ~ / ' /

Materials and Scheddling

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Concurred:

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7/Z6[99 T. M Howe, Manager Das

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Product Mechanical Engineering Ia$

75x /99 Concurred:

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p. A. Ndkisson, Manager Dats ~/

Quality Engineering Concurred:

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C. M. Powers, Vice President Date Quality and Regulatory Affairs v

Approved:

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N L. J. Maas, Manager Date Regulatory Compliance

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EMF-1563 Consolidated License Application for SPC Revision 10 Model SP-1 SP-2 and SP-3 Shipping Containers Page i Nature of Changes l

Paragraph or l

Item Paae(s)

Description and Justification 1.

6.2.8 Added description of new fuel bundle type.

2.

6.3.8 Added criticality evaluation of new fuel bundle type.

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l Siemens Power Corporation u

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y EMF-1563 Consolidated License Application for SPC.

Revision 10 Model SP-1. SP-2 and SP-3 Shipping Containers Page ii

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Contents 1.

I ntrod uction........................................

.1 1.1 History...............:............................

..1

1.2 ~

Th is Ap plicatio n............................................................................

..........1 1.3 General Package Description'............................................................. 1

- 1.4 C om pli a n ce..................................................................................... 2 1.4.1 Normal Transport Condition Tests............................................... 2

.1.4.2

. Hypothetical Accident Conditions..................

.3 1.5 S P Series Shipping Packages............................................................... 5 1.5.1 S P-1 In ner Container............................................

...........5 1.5.2 S P-2 In ner Container..............................................

........6 1.5.3 S P-3 In ner C ontainer..............................................

... 7 1.5.4 SP-1 Outer Container.........................

.8 1.6 Contents of Shipping Containers...............................................

...9 2.

S tru ctu ral Eva luation......................................................................................

3.

Therm al E valu atio n......................................................................

.................1

' 4.

C ontainment Evaluation.................................................................

................1 5.

Shielding Evaluation..............

.....1 6.

C riticality Evaluation..................................................................

......1 6.1 i ntrod uctio n...............................................................

.1 6.2

. Descrip+. ion of Contents...................................

.1 6.2.1 Type G1 (Category 1) Fuel Assemblies......................................

..1 6.2.2 Type G2 (Category 2) Fuel Assemblies...........................................1 6.2.3 10x10 Fuel...................................................................................1 6.2.4 FuelRods........................................................................................1 i

6.2.5 10x10 Atrium Fuel Assemblies.................................................... 2 6.2.6 Additional 10x10 Atrium Fuel Assemblies.................................. 2 6.2.7 9x9 Atrium Fuel Assemblies.................................................. 2

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6.2.8 AdditEirialMthu'Hilss[A' ski.mblies........

.2 i

6.3 Criticality Evaluation of Individual Fuel Types.............................

........3 6.3.1-Type G1 (Category 1) Fuel Assemblies..............

..3

~6.3.2 Type G2 (Category 2) Fuel Assemblies..............

.3 10x10 (Catiig~6tfi3) Fuel Assemblies.....................................

..4 6.3.3 Fuel Rods _(@ Category.4).............. 4..fy4) Atrium Fuel Assem j

6.3.4 :

.. 4 10x10 (Cat l

6.3.5 L

6.3.6 Additional 10x10 (Category 6) Atrium Fuel Assemblies...................5 6.3.7 9x9 (Categ@?) Atrium Fuel Assemblies...........

.6 6.3.8 Additional 9x9 (Category 8) Atn,um Fuel' Assemblies............

.6 7.

Operating Procedures for Loading and Unloading SP-1, SP-2 and SP-3 Containers.

.1 7.1 <

Container H andiing................................

..................................1 p

Siemens Power Corporation v

EMF-1563 Consolidited Lica.nse Application for SPC Revision 10 Model SP-1. SP-2 and SP-3 Shipping Containers Page iii 7.2 Shipment Procedures.............

.2 8.

Acceptance Tests and Maintenancu Program.....

....1 8.1 Acceptance Tests................................

.1 8.1.1 SP Inner Containers....................

..........1 8.1.2 SP-1 Outer Containers.................

.2 8.2 Maintenance Program........................

.2 8.2.1 SP Inner Containers.......

.2 8.2.2 SP-1 Outer Container.............

.2 Siemens Power Corporation

EMF-1563 Consolidated IJcense Application for SPC Revision 10 Model SP-1, SP-2 and SP-3 Shipping Containers Page iv List of Appendices Apperidix No.

Title 2A Current Engineering Evaluation of the RA-Series Fuel Shipping Container 2B Test Report for Hypothetical Accident Condition Tests of an RA-3 inner Fuel Shipping Container 2C Design and Test Information of the Previously Designated RA-1 Inner and Outer Containers Used for Shipping BWR Fuels 2D Design and Test Information for Earlier Versions of the RA-2 inner and Outer Containers Used for Shipping BWR Fuels 2E Test Report for Water Spray of RA-2/RA-3 Fuel Shipping Container 6A of Advanced Nuclear Fuels Corporation Supplemental Application to Certificate of Compliance No. 4986 6B Siemens Power Corporation - Nuclear Division Criticality Safety Analysis for Shipment of SPC 10x10-88 Fuel Assemblies in the SP-1 Shipping Container 6C Siemens Power Corporation Supplemental Application to Add Gadolinia-Bearing Loose Rods to Certificate of Compliance 9248 6D Siemens Power Corporation Supplemental Application to Add 10x10 Fuel Assemblies to Certificate of Compliance 9248 6E_

Siemens Power Corporation Supplemental Application to Add 9x9 and 10x10 Fuel Assemblies to Certificate of Compliance 9248 6F Criticality Evaluation for Siemens Power Corporation Consolidated Application for Certificate of Compliance 9248 6G Siemens Power Corporation Letters of April 18 and April 30,1996 6H Siemens Power Corporation Supplemental Application to Add the SP-3 inner Container to Certificate of Compliance 9248.

I Siemens Power Corporation

4 EMF-1563 l

Consolidited License Application for SPC Revision 10 Model SP-1. SP-2 and SP-3 Shipping Containers Page v l

List of Figures l

l Figure No.

Title Page No.

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1.1 SP-1 Inner Shipping Container Assembly 1-10 l

l 1.2 SP-2 inner Shipping Container Assembly 1-11 l

l 1.3 SP-1 Outer Shipping Container 1-12 l

l 1.4 Gadolinia Rod Shipping Container 1-13 1.5 SP-3 inner Shipping Container Assembly 1-14 l

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l Siemens Power Corporation

i EMF-1563 Consolid;ted License Application for SPC Revision 10 l.

Model SP-1. SP-2 and SP-3 Shipping Containers Page vi l-List of Tables Table No.

' Title Page No.

1.1 Summary Listing of Applicable Licensing Drawings 1-9 l

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Siemens Power Corporation

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EMF-1563 Consolidated License Applic tion for SPC R vision 10 Model SP-1. SP-2 and SP-3 Shipping Containers 9

Distribution Controlled Distribution D. A. Adkisson B. F. Bentley EdC.;Rieke S. F. Gaines T. M. Howe L. J. Maas C. D. Manning

. C. M. Powers D.

Steinigeweg R. E. Vaughan NRC-HQ (6)

Siemens Power Corporation

EMF-1563 Revision 10 Page 6-H Appendix 6H*

SIEMENS POWER CORPORATION SUPPLEMENTAL APPLICATION TO ADD THE SP-3 INNER CONTAINER TO CERTIFICATE OF COMPLIANCE 9248

• This Appendix 6H replaces that provided with revision 9 of EMF-1563 submitted April 12,1999.

EMF-1563 Consolidited Ucense Application for SPC Revision 10 Model SP-1, SP-2 and SP-3 Shipping Containers Page 1-9 container provides added protection to the end cap and cover of the SP-1 and SP-2 inner containers during an accident 1.5.4.2 Safety The SP-1 outer container's safety has been determined as the result of a drop test to be acceptable for the purpose it was designed. See Appendix 2A of this section for the Te-t Report.

J1.6 Contents of Shipping Containers Tb contents allowed to be shipped in the SP-1, SP-2 and SP-3 containers include BWR fuel assemblies with a maximum enrichment of 5 wt% U-235 and individual fuel rods enriched to a maximum of 5.0 wt% U-235 and containing a minimum gadolinia content of 1.0 wt%. The payload of the SP-3 is limited to category 8 fuel assemblies as discussed in Chapter 6 and Appendix 6H.

Each fuel assembly is enclosed in an unsealed polyethylene sheath. The ends of the sheath are neither taped nor folded in any manner that would prevent the flow of liquids into or out of the ends of sheathed fuel assemblies.

Individual rods are shipped either in a product container or the gadolinia rod shipping container. The product container consists of a five-inch schedule 40 stainless steel pipe fitted with either a screw type or flanged closure. The gadolinia rod shipping container is shown in i

Figure 1.4.

Specific descriptions of fuel assemblies and rods to be shipped in the SP-1, SP-2 and SP-3 containers are given in Chapter 6.

TABLE 1.1 Summary Listing of Applicable Licensing Drawings Reference Figure No.

Drawing No. and Description 1.1 EMF-304. 416. Rev.13 SP-1 Inner Shipping Container Assembly 1.2 EMF-308,257. Rev. 5 SP-2 inner Shipping Container Assembly i

1.3 EMF-306. 272. Sh.1. Rev. 9 SP-1 Outer Shipping Container 1.4 EMF-309,141. Rev.1 Gadolinia Rod Shipping Container 1.5 EMF-309. 818. Rev. O SP-3 inner Shipping Container Assembly 1

i Siemens Power Corporation

EMF-1563 Consolidated License Application for SPC Rsvision 10

' Model SP-1, SP-2 cnd SP-3 Shipping Containers Page 6-1 6.

Criticality Evaluation 6.1 Introduction The evaluations of the SP-1, SP-2 and SP-3 containers to retain their contents under both normal transport and hypothetical accident conditions are documented in Appendices 2A-2E.

6.2 Description of Contents There are sEJEri fuel assembly types, plus fuel rods outside of assemblies which constitute the

' contents to be shipped under this application. They are described below.

6.2.1 Tvoe G1 (Cateaorv 1) Fuel Assemblies UO fuel assemblies in a 7 x 7, an 8 x 8, or a 9 x 9 square array with a maximum fuel cross-2 section area of 25 square inches, maximum fuellength of 174 inches and maximum average enrichment of 3.3 wt% U-235. Minimum zircaloy clad thickness is 0.025 inches; maximum pellet diameter is 0.555 inches.' Any number of water rods in any arrangement are permitted.

6.2.2 Tvoe G2 (Cateaorv 2) Fuel Assemblies UO fuel assemblies in a 7 x 7, an 8 x 8, or a 9 x 9 square array with a maximum fuel length of 2

174 inches, and a maximum average enrichment between 3.3 wt% to 4.0 wt% U-235. Pellet and cladding dimensions and nuclear poison specifications are to be in accordance with the limits specified in Appendix 6A.

6.2.3 10 x 10 (Cate"66rvli Fuel j

UO fuel assemblies with a maximum enrichment of 5.0 wt% U-235, and a maximum average.

2 enrichment of 4.0 wt% U-235. Each fuel assembly is made up of fuel rods in a 10 x 10 square array, with a maximum fuel cross section of 5.022 inches square, a nom!nal pitch of 0.511 inch, and a maximum fuel length of 174 inches. The maximum pellet diameter is 0.3356 inch, the minimum clad thickness is 0.0225 inch, and the maximum U-235 enrichment in any edge rod is 4.0 percent by weight. Each assembly contains at least 6 rods with minimum nominal 2 weight percent Gd 0, which are symmetric about the diagonal, and each assembly contains 2 3 at least 4 water rods in the 4 central rod positions.

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6.2.4 Fuel Rods (CateoorF4)

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UO fuel rods with a maximum U-235 enrichment of 5.0 wt.% and a minimum gadolinia content 2

of 1.0 wt%. The maximum pellet diameter is 0.5 inch and the maximum rod length is 169 inches. The rods may be clad with zircaloy, steel, or aluminum. Rods meeting the above requirements may be placed into the "Gadolinia Rod Container" or the five-inch schedule 40 i

stainless steel pipe product container and shipped in the SP-1, SP-2 or SP-3 in lieu of one or two fuel assemblies

' Siemens Power Corporation

EMF-1563 Consolidsted License Application for SPC Revision 10

' Model SP-1. SP-2 and SP-3 Shipping Containers Page 6-2 6.2.5 10x10 (Cite 66rv'5) Atrium Fuel Assemblies UO2 fuel assemblies with maximum U-235 enrichment (wt.%) constraints as follows: perimeter i

I rods: 4.0%; UO -Gd 0 ("gadolinia") Rods: 5.0%; All other interior rods: 4.0% average and no 2

2 3 rod shal! exceed 5.0%. Each assembly is composed of a 10x10 array of fuel rods and water 1

rods. A water channelis required in the central 3x3 rod positions. Any number of additional water rods in any arrangement is permitted including part length rods. The maximum fuel dimensions are 5.0 inches by 5.0 inches by 174 inches. The maximum pellet diameter is 0.35 inches and the minimum clad thickness is 0.018 inches. Each assembly shali include at least twelve rods with at least 2.0 wt.% gadolinia in all axial regions with enriched pellets in a pattern symmetric about one of the assembly diagonals. At least eight of the twelve gadolinia rods shall be located in rows 2 and 9 and columns 2 and 9. The nominal diameter of the gadolinia pellets shall be not less than that of the UO2 (non-gadolinia) pellets.

6.2.6 Additional 10x10 (CateooiF55 Atrium Fuel Assemblies UO fuel assemblies with a maximum U-235 enrichment of 5.0 wt.%. Each assembly is 2

composed of a 10x10 array of fuel rods with a water channel or water rods located in a central 3x3 array of rods location. Any number of additional water rods or water channels in any arrangement is permitted including part length rods. The maximum fuel dimensions are 5.0 inches by 5.0 inches by 174 inches. The maximum pellet diameter is 0.35 inches and the minimum clad thickness is 0.018 inches. Each assembly shall contain at least eight rods with at least 2.0 wt.% gadolinia in all axial regions with enriched pellets. Additional gadolinia rod specifications are given in Appendix 6G.

6.2.7 9x9 (CiiniE6E7i Atrium Fuel Assemblies f

l UO fuel assemblies with a maximum U-235 enrichment of 5.0 wt.%. Each assembly is 2

l composed of a 9x9 array of fuel rods with a water channel or water rods in the center 3x3 rod locations. Any number of additional water rods or water channels in any arrangement is permitted. The maximum fuel dimensions are 5.0 inches by 5.0 inches by 174 inches. The l

maximum pellet diameter is 0.40 inches and the minimum clad thickness is 0.015 inches.

l Each assembly shall contain at least eight rods with at least 2.0 wt.% gadolinia in all axial l

regions with enriched pellets. Additional gadolinia rod specifications are given in Appendix 6G.

6Tf8HX3ditCf9xifidited6rifsFhtriuTFGiiiFiS UO2 fdsl7ssseidslieilh'EM9Wuirififfi9"w/AndiEmidimuN6nieragirenrichme

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InfaTrii'xisuhifusi' cross-section of 25 square inches',emaximudifuellength of 4174 in'ches i

2354TtElriomidilpe' lie ~iliaihet (is10.370}ndh'FAlliiMM.3A3[rodlociationsshall,be t

a water channel 2 Each assembly mustinclude at least eight rodswith a minimum nominal gadolinia (Gd:Ogcdrdent of 2.0Y/h is alfaxial rsdi5hsisitiieririched 'pelletsf. Additional

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gadolinia rod specifications'are given in Appendix.6H.

Siemens ower Corporation o

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EMF-1563 L

. Consolidated License Application for SPC Revision 10 l'

' Model SP-1, SP-2 and SP 3 Shipping Containers Page 6-3 I

l 6.3 Criticality Evaluation ofIndividual Fuel Types 6.3.1 Tvoe G1 (Cateaory 1) Fuel' Assemblies l

l Parameter Value

+

Assembly size 5.0 inch x 5.0 inch (maximum)

Assembly array 7 x 7, 8 x 8, 9 x 9 Average water / fuel volume ratio (VwNf) 1.0 (minimum)

Pellet to clad radial gap 0.003 inch (minimum)

Clad thickness 0.025 inch (minimum)

Pellet diameter 0.555 inch (maximum)

Water rods Any number /any arrangement l

Assembly-average enrichment' 3.3 wt% U-235 (maximum)

Gd 03 requirement None 2

Appendix 6AM}inod.fisiOEy?,6Ej describes the criticality analyses of the type G1 fuel assembly i

to be shipped in SP-1 or SP-2 containers.

6.3.2 Tvoe G2 (Cateoorv 2) Fuel Assemblies Parameter

y_glg, Assembly size 5.0 inch x 5.0 inch (maximum)

Assembly array 7 x 7, 8 x 8,9 x 9 Average water / fuel volume ratio (VwNf) 1.0 (minimum)

Pellet to clad radial gap 0.003 inch (minimum).

Clad thickness 0.025 inch (minimum)

Pellet diameter 0.555 inch (maximum)

Water rods Any number /any arrangement Assembly-average enrichment' 3.34.0 wt% U-235 (maximum)

Gd 0 requirement None 2 3 Minimum number of UO -Gd 0 rods is four in non-perimeter locations symmetric about the e

2 2 3 assembly diagonal.

UO2-Gd 03 rods may contain various Gd 0 concentrations in the enriched fuel zone but 2

2 3 the minimum Gd 0 concentration in the enriched zone to qualify as one of the four UO -

2 3 2

Gd 0 rods is 2.0 wt%.

2 3 The nominallength of the UO -Gd 03 region shall be equal to or greater than the nominal l

e 2

2 L

length of the enriched region in the UO fuel rods.

2 l

' UO rods and UO -Gd 0 rods may contain severalinches of natural enrichment UO pellets at either 2

2 2 3 2

or both ends of the pellet stack. The assembly-average enrichment limits are for the enriched zone only; i.e., the assembly-average enrichment does not include the natural uranium at the ends of the h

pellet stack.

Siemens Power Corporation

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EMF-1563 Consolid~ted License Application for SPC Revision 10 Model SP-1. SP-2 and SP-3 Shipping Containers Page 6-4 Gd 03 s not required in the end regions with natural uranium.

i 2

Appendix 6A, as modified by6F; describes the criticality analyses of the type G2 fuel assembly l

to be shipped in SP-1 or SP-2 containers. Attached Appendix 6H describes the criticality analysis of the Category 2 fuel to be shipped in the SP-3 container.

6.3.3 10x10 (Cateaory 3) Fuel Assemblies i

Parameter Value Edge of outer square determined by 5.022 inch (maximum) peripheral fuel rods Enrichment of any pellet in assembly 5.0 wt% U-235 (maximum)

Enrichment of any pellet in an edge rod 4.0 wt% U-235 (maximum) 2 Maximum average planar enrichment 4.0 wt% U-235 (maximum)

Clad thickness 0.0225 inch (maximum)

Pellet diameter 0.3356 inch (maximum) l Fuel density 98.0% TD (maximum)

L Rod pitch 0.511 inch (nominal) l UO -Gd 0 rods 6 (minimum) 2 2 3 Gd 0 content 2.0i 0.08 wt% (minimum) 2 3 Water rods Center 4 rods (minimum)

Poison rod arrangement Symmetrical across the diagonal l

Fuel rod array in bundle 10 x 10 Appendix 68, afrnodified bi6Ei describes the criticality analyses for 10 x 10 fuel assemblies l

to be shipped in SP-1 or SP-2 containers.

l 6.3.4 Fuel Rods (Cated6MA)

UO fuel rods with a maximum U-235 enrichment of 5.0 wt.% and a minimum gadolinia content 2

of 1.0 wt%. The maximum pellet diameter is 0.5 inch and the maximum rod length is 169 l

inches. The rods may be clad with zircaloy, steel, or aluminum. Rods meeting the above requirements may placed into the "Gadolinia Rod Container" or the five-inch schedule 40 stainless steel pipe product container and shipped in the SP-1 or SP-2 in lieu of one or two fuel l-assemblies.

Appendix 6C,' as modified by 6F, describes the criticality analyses for gadolinia-bearing rods to be shipped in the gadolinia rod container in SP-1 and SP-2 containers.

2 Maximum average planar enrichment: The average enrichment at the axiallocation yielding the highest planar average.

Siernens Power Corporation

EMF-1563 Consolid'ted License Application for SPC Rsvision 10 Model SP-1. SP-2 and SP-3 Shipping Containers Page 6-5 l

l 6.3.5 10x10 (Citeio'ri5) Atrium Fuel Assemblies Parameter Value Edge of outer square determined by 5.0 inch (maximum) peripheral fuel rods Enrichment of any pellet in assembly 5.0 wt% U-235 (maximum)

Enrichment of any pellet in an edge rod 4.0 wt% U-235 (maximum)

Maximum average planar enrichment:

4.0 wt% U-235 (maximum) excluding Gd rods and edge rods Clad thickness 0.018 inch (minimum)

Pellet diameter

-0.35 inch (maximum)

Fuel density 98.0% TD (maximum)

Rod pitch 0.510 inch (nominal)

UO -Gd O rods 12 (minimum) l 2

2 3 Gd O content 2.0i 0.08 wt% (minimum) 2 3 Water rods Center 3 x 3 rods (minimum)

Poison rod arrangement Symmetrical across the diagonal Fuel rod array in bundle 10 x 10 Appendix 6D;ffs'.jii6difiE69,;6$ describes the criticality analyses for 10 x 10 fuel assemblies to be shipped in SP-1 or SP-2 containers.

6.3.6 Additional 10x10 iGitio65~6) Atrium Fuel Assemblies i

Parameter Value l

Edge of outer square determined by 5.0 inch (maximum) peripheral fuel rods l

Enrichment of any pellet in assembly 5.0 wt% U-235 (maximum)

Clad thickness 0.018 inch (minimum) l Pellet diameter 0.35 inch (maximum)

Fuel density 98.0% TD (maximum)

Rod pitch 0.510 inch (nominal) l UO -Gd 0 rods 8 (minimum) 2 2 3 Gd 03 content 2.010.08 wt% (minimum) 2 f

Water rods Center 3 x 3 rods (minimum)

(

Fuel rod array in bundle 10 x 10 l

Appendix 6E, as' modified b'y 6F; describes the criticality analyses for 10 x 10 fuel assemblies to be shipped in SP-1 or SP-2 containers.

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Siemens Power Corporation

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EMF 1563 Consolidit:d Lic;nse Application for SPC Revision 10 Model SP-1. SP-2 and SP-3 Shipping Containers Page 6-6 l

l 6.3.7 9x9 (Cateaorv 7) Atrium Fuel Assemblies Parameter Value Edge of outer square determined by 5.0 inch (maximum) peripheral fuel rods Enrichment of any pellet in assembly 5.0 wt% U-235 (maximum)

Enrichment of any pellet in an edge rod 4.0 wt% U-235 (maximum)

Maximum average planar enrichment' 4.0 wt% U-235 (maximum)

Clad thickness 0.015 inch (minimum)

Pellet diameter 0.40 inch (maximum)

Fuel density 98.0% TD (maximum)

Rod pitch 0.569 inch (nominal)

UO2-Gd 0 rods 8 (minimum) 2 Gd 0 content 2.0i 0.08 wt% (minimum) 2 Water rods Center 3 x 3 rods (minimum)

Fuel rod array in bundle 9x9 Appendix 6Efa's~modifiidjp.6lS describes the criticality analyses for 9 x 9 fuel assemblies to be shipped in SP-1 or SP-2 containers.

658FiA~ddnidrisi9xif(CatidoiVW4EiUhip6515555iibliei T

P5Tiihi6iir yll[5 Aisiihbly;ilii 53}nch x 5;0'iNcF(~miiiidisin')

AMblyihi~y 9is Aseidi&TiaTiilfdhi voltimi ratio:(vwNf) 1.0 (mi6iniurn)

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P3litWc~lididdialgigi 0.003 lich]Inihimum)

CUsilthi6Ic65s's 0.025.inct[(minimum)

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Pille@iam'atii 0.55.5;iifg[(miix_irnum)

Withriodsi CentsrJic3k6ds

($5sr661IFelMeTe'565lifilint 4KMQiffQth~aiddi6.sh) 6dMsiGi6iEiiit

[5EMinfuy5iB5sF@lj 6Md;6Ms~JsToFr]6.735sfRFrheteil16siti36irsyTdiirdfriFitio6i

.?~~U Ndded,ro!diagona the assembly dsimaycAhiaihilaiid~'idda'O do'iE5Etra356iiEthi'shriclied fuefz'one

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but the minimum..Gd20.3 concentration.irfthe' enriched ' zone-to qualify as one of the four UOz-Gd:Os ods is.2.0.wt%.

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' Th'e~hbin'iisal leiifth pf the UOFGd Odegion shall b.e equal to or greater than the nominallength of the enriched region in'the.UO fuel rods.

Gd:Os is'not required Iri ths erid regioris krtis hituial uranium.'

Attached Appendix SH describes the criticality analysis of the Category 8 fuel to be shipped in the SP-1c SP-2'and SP-3 containers.

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8 Maximum average planar enrichment: The average enrichment at the axial location yielding the highest planar average.

Siemens Power Corporation

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i EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-1 Criticality Evaluation i

1.

Introduction and Summary 1.1 Introduction This supplemental Criticality Safety Evaluation (CSE) for the SP-1 shipping container was 1

created due to reduced spacing dimensions and the resulting impact on kon. Thii"i'@ hg

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s isdiTctiiid)tisiil&Tt3156hiiiESP-1MrirIc3niainiiEtini5iedesigiisted_asiSP-3f Tlii;following CSE.MKiii6iliRSP53]shiEic66tiinifs!A6dsidiiw?cateioiyifuEl typelvhich shall tii.ireferred.to IildliiIEEM Section 2 of this evaluation details the methodologies used for the criticality analysis.

Component description and analysis are provided in Section 3. Section 4 contains the Quality i

Assurance (QA) review. Section 5 documents the references.

1.2 Summary TliWy45ElsiidiE6sWpiiddji6MREOFl} 563EM.592subshitted }oiths, NRChrilj2[i 999) by

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EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-2 2.

Analysis Methodology 2.1 Nuclear Analysis Methodology Monte Carlo techniques were used in this analysis. The sensitivity of pellet diameter, pellet pitch, anif interspersed moderator within the SP-3 inner container were evaluated.

2.2 Computer Codes and Databases Used The following codes and cross section libraries are part of the SCALE 4.2 system of codes (Reference 4) placed on the SPC HP workstation SSLO1.

791176 Jun 22 199411:36:41 o0o001.'a (XSDRN) 545416 Feb 21 199410:25:06 o0o002.a (NITAWL) 516744 Feb 21 199410:14:38 00o008.a (BoNAMI)

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1094280 Jun 22199411:46:27 o00009.a (KENO.Va) 112000 Feb 23 199415:16:47 albdata. bin 4256216 Feb 23199414:40:21 pxs123 bin (123 group master cross section library) 362140 Feb 25199416:54:21 pxs16. bin (16 group master cross section library) 9020996 Feb 23199414:53:45 pxs218. bin (218 group master cross section library) 824404 Feb 23199414:38:03 pxs27. bin (27 group master cross section library) 94400 Feb 23 199415:12:03 stdcomp. bin (standard comp. library) 44812 Feb 23 199415 :14 : 40 wtdata. bin 287 Jul 71994 09:35:35 csas25 2295 Jul 7 199417:07:41 drva i

2.3 Cross Section Preparation The Hansen-Roach 16-energy group cross sections available in SCALE were used for all calculations. BONAMI and NITAWL adjust the master format cross section data for the specific problem cross sections (e.g., perform resonance self-shielding corrections).

2.4 Benchmarking The SCALE 4.2 system of codes was developed for use by the USNRC and its licensees. SPC benchmarking of SCALE 4.2 on HP Workstations includes critical experiments of 4.31%

enriched assemblies from NUREG/CR-0073 (Reference 5) which were modeled using the same methodology used in these calculations. A bias estimate based on 23 pooled cases was calculated from the 16-group data in Table 12 of Reference 10 and is -0.0032110.00261.

Negative bias indicates conservative results.

l

EMF-1563 Supplemental License Application for SPC Revirion 10 Model SP-3 Shipping Container Pam 3H-3 3.

Component Description and Analysis 3.1 Reduced Dimensions of SP-3 Inner Container The dimensions of the SP-3 inner container are shown on drawing EMF-309,818. In previous analyses, the SP-1 inner container (drawing EMF-304,416) was modeled with a 1-15/16" space between the channel and the outer steel box (space occupied by angle deel). The calculations of this section justify the use of a 1-5/8" space, instead of 1-15/16". This change in dimension only affects the calculations for damaged conditions, as the outer container provides the container spacing for undamaged conditions. The type and form of material idfMd%ti35 6X[6~0!6(flil6188Ti6dVKRdid:to;61a~M{d, are evaluated below.

The KENO models used in this section are consistent with those used previously for the respective material types with one exception, i.e., the inner container spacing, discussed above.

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i EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-4 Tablejlicimpajis6DfM6sifal hiModeled Conditions giMdister

.Nd5ilEsl M.odeled.

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S 1Pogshyir(sstiipii Ii ta7NQihtist6f s.hinis 128lcT9'iirWFiaG57ol; 59f GT6.' grams ~iiiactilmodeled as o

FractiotAofiQ;p28 volfraction =,13 in space.between rodsifor normalcase TiiF66EfistbThidisi pfWilltisihlp6EdWitiIPE%h15iiipli6iid6EiWiinWpishidsi!At6tallof16 i

ty shirrisie'iiieciisilich'of thE8Iiicti6ns?6fiftial6dnYileiSY60'nssisitIUet'o66dasiMPE shihis~is'3;546yriniis"(59i'6).$ifitils"6iisiis'H6766iidhiEsEM6r7a76isiiie ofl28';527?cin*, the

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EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-5 The voI6me taisi.lsblefo(stilEis is_ ca.ic61stsd.tas followsj AssefribliEn:ibl6pe:5811M5Mid=JgghMy;Cr6ss ssctional area =:160.3 cm.

2 Cfa5fielE@ilfp553 8536iECrofs.i35tibiiil?iriaW4l:8sm2 I$E3fTil7o'ds: DES?Mif215,55Mc~ni'i Arif6fJhihis/c~r61e~hithyj:160.3268T-14.8577,1

~

Ass ~u!hidgWiictiiie^fusijdndth;o[t76'cip2the. volume for shims is:-28,527 cm*

(Mote 5f6ft65T@ del 5ittilfid3isideW5(19ff6iiiridiic616dingicla'dding) the mo. deled adiu33}}TcMai3]sf6fr'a~n@}jff.6EtilE3Miia~mTI6?thiiinio'dil ithifoldniifrhetion FjEsisidid!6ejapptoxihiitily 0.101 3 J t ] l i H p D i 3 I i ) .i i Water,.Cha6nel ] j i 3 3 3 l l Figure 1 Gd Rod Locations

l EMF-1563 Supplemental License Applic:: tion for SPC Revision 10 Model SP-3 Shipping Container Page 6H-6 SsniitNity]studlesi.bisidid63ns]6fdfatisnifl Figuridiodlthsimodeled parameters described IRTalil5].1Rir'e7coiiiplitid!ald 'irejeportsUnlTi6]i2.TDnTciEf.o~iicfiidif frBriilttili seiisitivity shid itSifallTriticiliti,isfili!6ritiria~aii'iiiitl6rithisishippi5g 66ntainers. ~ TableljReicWilfRiisiltif6LMSPKCuisip5Tyi8l Fuel lRiename' dro~av UNol%p ksCoimnents'ltitM-M-iM E.+svg.hp MWat#6 WAvg.i~tHP= u ew enwnmww.weker;o<.) W % r.m. e c.a - o e.nwk~ %me-id.WG win %43MM4>mWW+vsti shewwse~' m n & ~w Msw 3ia +J h:w+ 260Vn. iti 13.x20.x..ds'a,fs ' 'a.fdiHii~ddii6HaE-F..w"w.N.w~Ifdli.iNe_toVT. n. 3'cl.id," 1i.ii N s m ppin~g

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se!2

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,_. _. pe.MM(gMG#Ji! - T }~~~,].fnW h l3 dxa.d;00slHf a Pill 7efDliiHiliMo;94iii5i .943s .002s .949_1 ( 7.0,9 ex8E0071nf 7 .943) .0634 .9507 i ixad.00815f a .9351' .0'034 .9419 exad!0091rif 9 .933s .0036 .9409 ex8d.0_10inf 10 .9274 .0036 .9345 exad.0111nf 11 .921.5 .0040 .9295 ex8d. 0.12inf 12 .9250 .0039 .9328

EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-7 260.(13x20x1;irray) units"st daisiged.c6nditions,'noininal pelletdiameter, no clad,. 26.vol%fE between rods as shipping ' shims,.and :various amounts of interspersed moderator ex8d,.008).26 8 Psliet Diameter,5.0.94cm .9030 .0037 .9103 ei8d.'009.26 9 .9089 .0042 .9172 ex8d.01.0.26 10 .9031 .0038 .9107 ex8d.01'1i26 11 .9099 .0035 .91.68 ex8.d.012;26 12 .9049 .0034 .9117 - 800120i20x2'irray) units it sridimijedjpiadind; norninal. pellet. diameter;.no.cladt.13 vol% PC betibesnV6ihi as shipiijnilshirnira5_dyaHousfan}bshtsidf Peas'1.ntsriipeised.m6deratoi betweerdnner,ando. uter (containers;, .t anc.0.0ps800 7 As imitti .7622 .0045 .7713 800 g g PE3isf[@. %jnersiiksiiitiii co inii.61ise800 Ai'iBiFe3W61%'PE .7757 .0033 .7824 betweinitrin$r!5nd ostir co6siners ~ a6c0'3'pe800 As'ab6VEiivitth33/ol% PE .7537 .0040 .7618 inc;05hb800 AsiaWe.with;5jyolW PE .7118 .0035 .7249, 260 (13E26Kiirray)'Un'lWat'disajiiKE6~j$)a"rio6(frEcu66'of 15teispirskd mod ~ betweeMrodsjas s!{igipi@ijh.fr$4jr ex8d'000111 0 A11!tcTrfdisRistir@llet' .7226 .0037 .7299 k ex8d 1 .7689 .0031 .7751 g e'x8d.003;11 3 .8298 .0033 .8363 ex8d.008;11 8 .8900 .0037 .8974 ex8d.009!11 9 .9092 .0042 .9175 ex8d.0.10;11 10 .9021 .0037 .9094 ex8d.011111 11 .9110 .0032 .9174 c' 8d.012.11 12 .9094 .0038 .9170 x ex8d.013.11 13 .9003 .0033 .9069 ex8d.014.11 14 .8978 .0036 .9050 ex8d.100.11 100 .7298 .0048 .7395

EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-8 - 16fl6fte'.numtie'r of uhits~it'didisg~edf66Wditi6hiF1.1TEdianietsr/ pellets, no1 clad;;13 vol% PE between rodi[is sliippidgishirhi?a~6d.WrioniLNUIunts'of interspersedjnod.oritd. : ~ ^ s_k8_d._0_.0_9.i.1.11nf 9 A.'1!1f65fidl.ah.ietihpillet .9539 .0031 .9601 eIi8d:6fl.t.iinf 11 .9540 .0033 .9605 of a* 16allMlad fuel I si8d.01;2111nf 12 rod! .9508 .0036 .9579 .,lp'finitiF66fnbsr of ~ursitfat' ~uddiirisIgists" ' ~1ii cpd ~ " ~ ~llets ' ~ ' ~ gpA 7 r - tutwegin. y_...nerzand.... in. h. is. [. ti.sii_ii.s._s.f..i..~_o'd.i.'abis_ hipping sn.id._.m ani..t_ ... antainer,s.,..In.t5r.s.. -% .s .i.E..r... ~ Ec!06)ie 9 A's~caseeiB8 'ii.v.itti. .s560- .002.7 .'96'15 n, v.- . -.nda,ms,,n nor u spac,inga agg;; ;yg;p .~. innerr,andySteiric9ntainers nc. 01p.e. 1_i_ 61%fRE tre, tiii.i.sh lhnst .9.180 .0037 .9253 riE03~ps Oslibor,1wittiEv31%EE .83_77 .0030 .8418 ns06p6 6iliilisFssindigniistigE .77A .0658 .7g_22 8,0016hlts!(2,0x2,0x2: biliseen r' ds as: shipping;did~g$iid3@ious},y.(1[gdliE1iaitir siilletilhs:ladij@ Errav);it a Elsg sdimspan$ var -amounts;ofeEiastinterspersed snode,rator '~ o~ Mtb@ih~nMEinijsteM(6talhe$ " KEE60iii800 9 gi~c~aW 5(S~t 6~nW .'8' 17 .'0041 .~8298 2 nn401gie800 AiiFits5(elsitlijlRBlWRE .8201 .0035 .8271 hsi~03]ie800 As'iboveWeil3ydlWP5 .795.3 .0040 .8034 nnc;05]is800 As?iti6Fdsitti.5jblWRE .7461 .0.037 .7356

r EMF-1563 l Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-9 ) 4. QA Review Description 1) Methodology used in this CSE is clearly defined and was verified to be applicable. The calculation methods including details on cross section preparation, atom densities assumed, and geometry models were reviewed and determined to be adequate. Each of these items was verified to be conservative. 2) Assumptions were reviewed for reasonableness and applicability to this analysis. 3) Modeling was reviewed and determined to conservatively model the actual system. A listing of one or more of the most reactive cases is included in the CSE. 4) Referenced sources were reviewed for applicability to this CSE. 5) Input information was checked against referenced sources. 6) Input for computer calculations were checked for agreement with values in the CSE text. 7) Hand calculations were independently checked. 8) K n for worst case sceident conditions is specifically stated in the text. 5. References 1) SPC Criticality Safety Analysis BFQ-SP1.1, SP-1 SHIPPING CONTAINER. 2) SPC Criticality Safety Analysis BFQ-SP1.2, SP-1 SUPPLEMENTAL APPLICATION. 3) SPC Criticality Safety Analysis BFQ-SP1.3, SP-1 SHIPMENTS WITH GADOLINIA ROD CONTAINER. 4) SCALE Standardized Computer Analyses for Licensing Evaluation, NUREG/CR-2000 ORNL/NUREG/CSD-2, Volumes 1,2, and 3. 5) Critical Separation Between Subcritical Clusters of.4.31 wt% Enriched UO Rods in 2 Water with Fixed Neutron Poisons, NUREG/CR-0073. 6) Certificate USA 19248/AF, Revision 13, SP-1 and SP-2 Shippino Certificate 7) EMF-1563, Revision 1, Consolidated License Application for Siemens Power Corporation Model SP-1 and SP-2 Shippino Contair'ers, December 1993. 8) EMF-1563, Supplement 1, Revision 1, Supplemental License Application for Siemens Power Corporation Model SP-1 and SP-2 Shippino Containers, March 1995. l 9) EMF-1563, Supplement 4, Supplemental License Aoplication for Siemens Power Corporation Model SP-1 and SP-2 Shippino Containers, February 1996. l I { t

F 1 EMF-1563 l Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-10 10) EMF-94-175, " Validation and Verification of KENO.Va" by R. E. Coen, Siemens Power Corporation - Nuclear Division,2101 Horn Rapids Road, Richland, WA 99352. ) l

p l. EMF-1563 Supplemental License Application for SPC Revision 10 l Model SP-3 Shipping Container Page 6H-11 APPENDlX.C% SAMPLE COMPUTER INPUTS FOR SP-3. CONTAINERS WITH SPC 9X9 FUEL Casei [dedayek8d.012 =csas25 modellfoismostireactivei ype g2fassembly t hans.:1pfhom 'fmixiuseil 'jfinter M u'o2fpellets i4-wtt u235 r u-235/t.0.0'9.4068e-04 '293 ' end u;238 IliOIO '212291e-02'293?end o k.,- a J15 0. 0.4 ; 64 64e-02 ' 293.end Dmisturei2 'ydedgeiso2. pellet'sR45t4{u235 2 u 23572fMOr9!4068e '0412937end a uk23632$0tDIt,M91e%24 95Merid 2 021?d22.0:.0M.64 64e-02.293j.end a 'Emi~ittirii3 i3?sd6efuh2:551Tetst facIn@Mtherib6ndis, f 41'wtt '6235 ^ tif235MO 0;9'/4'0686:04:f293'end u-238.! Mdi2r22Sid40223 fen'd X oSyd!3jRioj4Ai64es021291)end 1 1 ',iinix^thisf4 I t" :gdfd623ps114ts,T4 Twt % !'s235 i 31; 5 L wt %'. gd u-235 2.4QQ10 V p.'4068e-O4 J29.3aend uh238M4h0iO;2i2291eJ 2X293f'end 0 o W '44520J0J4';6464e102i293Eend gd IMSM0joJA2467e-0{229ferid ETnCds~r's}5 t/Famearedis961ad ' Upod% M dMcodV=;U 4221"?!,0.'4281"7 0.4781" '[p11ffriictESr3N$;898.8' U E atSdsns} M 9sS988?*..AF2518-2~= 3.8215e-02 zircal.loy;5:0.053.8215e-02,.293 end ' mixtursE6,._. _ diiode,,,ra, tor 'Jil2 7vo1%-intersperse h2o16iden=1.00E0L12Jd293!end i%mixtst'l? e 'lTearbon"Istsel%.1100 doit c3 7. 0' 0:3*.921682e-03. 293 Tend fe17l0.018:350009e-02 293,end ~ ' mixture B ' 'carbonisteelid85.57 vol% smeared with 10 volt, h2o e' 8 0;0 3.355783e-03 293 end fe 8 0.0 7.145103e-02 293 end o '8 0.0 4.8167e-04 293~end h 8 0.0 9.6335e-04 293 end ' mixture 9 i carbon. steel,.8.64 vo1% l c,9 0.0 3.388333e-04 293-end I fe 9 0.0 7.21440Be-03 293 end I o, 9 0.0.3.0496e-03 293 end

,4 EMF-1563 Supplemental License Application for SPC - Revision 10 Model SP-3 Shipping Container Page 6H-12 ~h39'0~.0l6'.0992i;037293!snd ? 'Tmixturei10- 'T/watera for..' reflector Y o 10:.0 f 01.,3.344e-02'2937esd bl10.0.0163689eE0212931snd 3 TeixtirWC11 'if%andEtateisperseddester-:

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holeP22113.'01625s-2.~8575$3Jo hole'.422W333WS3)i7sMO holin'.21g3c3317593"" 20 hole:9263i65 ~ 10 h61WT(*3.' ' f0 - hole?22&36 D h61sC22s3j9687553781<.00.O t{ udi M 7 ~ comi="Tabacilid!Estee1Langis'atT+F side of basket :" i ciabo? *6',110.0 3-4.'12750/2p8.89 L 2p225.58 hole.221.-0.15875 0.0 0.0 hole ; 22 i-0.47625 -0.3175 ' 0.0 hole 22 0-0.47625 0.3175'0.0 l hole. 221. -0.79375 0.635J 0.0 hole'22 6-0.79375 '-0.635 0.0 i hole 221 -1.11125 0.9525 0.0 i hele 22 -1.11125 -0.9525 '0.0 hole '22 -1.42875 El'.27TD.0

EMF-1563 - Supplernental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-14 hole)22?L-it 42875::M1027'oi0 hole 922 M ik7.4625 M t5875?0.O holel227[,f.1Q4625K3E587M0j0 holeT22 a-2.06375?n 905 A 0 ho'le'l22 M 2'.06375 -1.90540;0 hole 122042;38125 t2:222510.0 4 holel22M-2$38125'.-2i222590.C hole 1224-2i69875M2j54J0:0 hole;22JL-2iS987542.54sJ0.0 holel22 k3io1625V R 4575;0'.'O h61e)22iTpUf)1625~.r2L8575% 0; O hole?22 993?33375M 3f175?0.0 h61el22f,lE3.3337533917510.0 hole;22 @ 3;65125 63.'49251L 0 holeJ25153[65125h 31492530 0 h61ej221}33j 964752l.3{81lp.0 ho,leJ24.dA6.81513 81A0;.0 t - d$1tf18 com="5 anglesWs ',apacitig.:beneath baskets cuboA6f132p8;89'4?12750iOJpf;2p225.58 holeJ21y0(09307159J51f,0;O hole;211eQ.3175io;47.625%D;0 holes 21.3,0:31*l5h 0.~4762534410 hole 521WOM35Q0.79375y'O TO 1 0!0 ' h'crie3 ' 5'%,,n97,9$Dt1112MdIO 635N0179375}j., 21 heldi21.1 ,s; ILK 125R0iQ hite4 m M A2835'c0'e ho&M21i '424"55$0I0 holef21%il's)S35MI@4525%0'.10 h614(2Ift-139755bidd62b20'.'O hole"21%1."905p#2i0$37K410.0 2*c06025%#iG h61e!.21'4-11905 hole"21M:272225'* 2'.'39125 7,0O holsI2173h2R2i[2158126!10:0 hole 121Ql23322!69875:0/0 holeJ21b;liS4?226987510' O hole 021G218575td3.0162540.0 hole! 21Tir.42. 8575i3'; 016251.0'.' O l hole 721Q3;175?3733375?0:0 holed 21Md3i'175133375QO;0 hols:217.Tg3J4925L3465125s0.0 holel215%324925 ai65125:0;0 - j hole l21 @ l 3081t3 96875;'0:0 hole 12GX-3'."8133.~96875 0(0 unit 19 ~ com=" angles:s spacing.above~ baskets & " cubo? 6-lb' 2p8.89 l 0.0 W12750S2p225.58 hole 212 0.0 ~-0.15875 J.0'.0 hole.21h0.3175i -0.47625%0.0 hole.21.h 043175,;-0a476254 0.0 hole.21 + 0; 635- -0.79375 4 0. 0 hole ' 2.1-0 ; 635 b~-0.7 9375 " 0'.0 hole 21...0.S525 -1.11125 0.0 hole 21 -0.9525 - -1.11125 :. 0.0 hole 21L 1.27 -1.42875~- 0.0 hole 21'-1.27i,-1.42875J 0.0 hole 21 1.5875 :-1.746251 0.0 ~ hole 21 -1.58751.~-1;74625.;0.0

F .c. EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-15 h61e'21%1'!905]P2."06375T O'.0 i ~ hole /211-1.905 d--2 06315110.O t hole;21w2.22256-2/38125h0.0-hole I21%2:2225E-2h8125?i 0,0 hole!21&2154 $2!69875t0.*0 L hole (21,%-2!5432.69875?0;O. ( hole;213 E 8575i-3.016255 0.0-holeL2124-2.8575'-3 9162500.0 i. l. hole? 21%f3;175N3.3337520' 0 l hole;i21)Mp31275..-3 ; 33375, fiO ; 0 holef21 ,.J314925L-3.65125i0.0 l ' hole,21 $ -3.4925./-3.65125..O.O hole :21* Q 3.81i-3.96875 0.0 holef 2112,-3.61}-3.96875[0.0 l unitn21 6ijs>"paifipfMeel?anglii3n. horliisectionsichiatringer" Q:16i25527 D.125" l ouboM7D,%.jin:ph;197104:2p071587492p225158 unitd2 l coM"paWT6fVateel Tangla[!ifsiriuffis6ti46I,Eoffstringer" l %j?6.125"isyO1552". l deboly7j),5 $ d58749:2p0119110d2p225f;58 l-M*> 98088tr.Y l l afa= )[Tuje9"iidz;l fill V ^242 M 21272?2?2i3 t' 2144f1*iej1664?3 l 25131914:!E141.}3 _ J i 2t1123;2E2311_3 l-214p1923M$23flid;?3 2 tir23:25423:1-1;3 L Td1111113 2*,1?l11)Tjlgljl4f3 2f4 1 1;J2 222{2l3 2}2g2 L end fill are=2:num 9?puy=9 nuz=1 a fill 3Tl2j 2"272721272' 2 l 3E411K411:J.i4 2 { 34,2}.1L1,T.131;1?X2 3f11332r 23'!23 T l'2.. 7 4 '34111.2323-13!1'.4i2. .l 3!1l1123323'!23!1.1.2 3 i lc l'1 1 1 311 ';1' 2 l 3eiliip4(151'472 t 3 t2'2 = 2 212ll2"2 c2 end= fill-ara =3.nux Cauy~3~nuz'=1 u = 4 fill I l- .9 18I18M9 162--5jr6;17 l 9119 19Z 9 endJfill ara =4 nux=13'nuy=20 nu:=1 i fill fl0 end fill-end array read start nat=1 end start read bounds l k

E l ,a EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-16 all-vachumi esdf. bounds r8iad bilis - iiiid=500;.2011 ehd!biail

read.' plot tt'l=.'{xyl'aection of.:.bottomlleft container.'

xu1=0Hs Q L.yu1=28.2.438{O z1'r=10 a.zu1=10 ' x1r=4 6. 0238 L s ylr=0g., N uax=1tdHM; 4vdn=-1EiffMnax=150M 1pi=10 Weno ttif'"My ipictiosiof?5x57 array xuim bth{ M g ykl=141;219te zul'=10 r x1:wi3dil19asyli=0Ilde$ndz1r=10 uan=13i?idF i.vdn=;1/;ftKMi naii=150lM1pih10 Mend eidd}16e e eixit data and 4 1 Casestr!ImWO1A800 ' 6E.5ibist.fiesctlie3fp~j22 Ass ~einbly e Mdpfkdel A 'TelinsiM1 $ElhfEtoi~Eo23ellets245ttu235 u-235 E 0.0!9.4068e-04.293 end u-238 (110.0' 2;.2291e-02 3293;end ofi.81[0[0it' 64.64e'-9202R)!end ' h turil.2 .$hedgejuo1Ips11shsTg4IwtE6235 u-235y210:Or?t4068e-04;293'end u%38df!O'rti!212291eUD2?2937end dfffM0;RIj'I6.464giiO2j2933end 4 .'[niEasiiieT3 0% edgeluo2jpelletCfacilig'othef';tiandle R4iwt t!u235 u-235 :330 05 924068e44.c.293Jend u-238/370.012!2291e;02293?end ol

• 53 T O~.0 ~ 4'.6464e-02 293 end

'[mixturej4, gdeuo2 pellets,S4"wtt:'u235,;1'.5'wttigd u-235;4:0;0'9;4068e-04^293 fend u-238.410.0 2.2291e-02 293 end og. 4 ' 0;0 4.64 64e-02. 293 end gd ; J 4, O'.0 5.32467e-04 '293 end ' "Mxt'ure'.5 '$ smeared-zr clad 'G pod,fcid,scod =i0.4221",i0.4281",'0.4781" ~ ' 7vol fract tr = 0.8988 ~ ~

• 1. fat dens = 0.8988
• 4.2518-2 = 3.8215e-02 zircalloy' 5 0.0 3.8215e-02 293 end

P EMF-1563 i Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-17 ' mixture.6 ' J7.vol% interspersed moderstor h2o-6: den =1.Dio.07 2930end ' mixture'7 i carbon steelC 100 volt c 27.,0,0i~3.921682e-03:2933end fe.47g 0.0. 0;350009e-023 293:end ' faixtiure;8 ' ' carbon" st'e'e1% 85.'57 vo1%' sin drid With' 101vo1% h2o c, 810.0.;3.355783e-03,293 end fe B 0.0;.7.145103e-02 293 b d o.8'0;0i4;8167e-04.29~8[end h..820',0./9;6335604993[end ':dixtsre,S~~ 'jfcarbod,stee17.8464Wo1% c M9.:07013;388533e-04:}293*end feT910;0?IK4408e-03?291 end of';,9: 0.'.014t0496e-03 293;cnd h..; 9:1,0#d6 9992e-03 293 ;.end ' :inixtUre?10 'j '.katerjf6FffEf1hcEdi o,10g 0;0;.3j344e}02 293_.end h.10.50iOL676.894 293.end 'Cmist'uYEil'1 ~ ' 3 pe '.An'd).nt'eIspirdedl k5t er.', 'jv.ffpemQ;126 use.;0.13;her.e c l 'iwatecat9ulf. density; As l.(1s13)i=,873/c. h2o filiden=0.'.870o. 07*'s 293 P end arbmepe40'292,'2k O'f D1?'012'1,, q .,y - 6 - e,,u;p s

c. 399g re v

.11[.0,13 a,...end . e.n

t. w m.~

2. ' mixture :12 ' C')pe"a'siinfe'rspersed lm6deratoE~forf ethiloas '4,vf pe:use 0.01 here arbmepe2 0.S2 2-0 1 1*6012 1 . L :,s , :s.../ 4 E-1001J2 ^',i. 1210.01{'. J #

end

'. 11 c.2.. end,. comp, more data res=":1 byli"9 4.1453E-01 dan ( 71)= 6.1766E-01 res= "2 cyli 5.0254E-01 dan (; 2.)=14.1325E-01 res ' 3 'cylii;5.0311E-01 dan (A3)=.4.5282E-01 res=. { 4.,cyli4 3. 6477E-01.. dan l:0 4)F ;6.3170E-01 end more model:forJ.most reactive type g2!aeeembly ~ read parameters tme=60.0 gen =83 npg=300 j fix=yes fdn=yes xsi=yes nub =yes pwt=yes run=yes pit =yes end parameters read geometry unit 1 com=" interior uo2 rod cyli 1 1 0.470 2p225.58 l

f. I 1 e* EMF-1563 l Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-18 cM unit 1;11~'.154p0;7225C2p225'J58 2 com="J-edgeiuo2irod? " cyliy[2t#17;0!470',W2p225258 cubog11l.,114p017225%2p225.58 unit 423 com="li.waterhisirod i:" cuboE621i4p027225!fC2p225;58 unit # 3 com=$edg5?l rod l facing'othe'r. bund 1'r" e cylla34LCOJ470;i2p225;58 cuboy11/104poJ225fA2p225.58 unit X4 com=d[662?gd2.0)6fdifMI58 ffr6d C cy11 $110;43 cubo31%,GM4pC'/225Mf2p225'.58 unitM S c g h d25-Q 606$E225 48%9 Miiiiiii'eVin'isiflissMt@d' " aickay - cuboM6y[E4p8J7381?f@$rforatedcsteel !58,,,. 'yaddA0gD0598;4achvpffp cubo $8%Mi,:4pS;8ME2p225158 unity,T6 . arrayf2Q28-6[44065(M@gh$)ba3kiG", comagAiL%bu6disli 'fi @ 58 cubot61*al@4ppc9383>,$3pS25;50 'i[aSd0,*D059904neh%ftgerfora~tWstsel cub 8EthJM41i@9 Map 2fM58 unit'7 coash MEidqi!EstissGEijleEJi'q~j~gW(hiiskstE", citing 9$1M.*2pyW%dp(1939N9$$ 25158 citlehCat i@2ptgS6R5jhW8ppp2Mp225f5$ t ung?8 cespay#ssiTesiffEgra%aE6TfiSiiie basket!57" i cuboM 9410F2pel@392,' 2p2:46375;2p225.58 cuboT63112p8)89N2p2706375t;2p22LS8 unit:9 ccai="1'"13/167135"/,16?is:hmiiFiatToiiTr~egi6ns' Cat" corners f " c'uboM6 21%462LO632512p225.55 unitaa oiss 2451ansr~W =~iBi", amtmyHbSMK'22CsESISi97M225158 '$$addM598;$$a11s replie,WX6r0;151941 '0addsiateriorJmoodiboxi 'userlowl densiitydPF.1-bereia~nd 'bidisisei of 24"'x.124 ".;?.x! 205", cubo $12U;174p30!48 $ 2p261.62 ^ global unit'11 com="arrab bf. inners : :" array:;4 ~ 3r0.0 repif.10.2 '. Gr3. d ?.10 unit,16 ~ com=". spacing i steel angle at{-xiside of basket " cubor. 6 1" 4.12750 0.0 2p8.89"2p225.58 hole'J22' 1'O.15875 0,O 'O.0 hole 221 0.47625 -0.3175.0.0 hole [22 h 0.47625 /i 0.3175,0.0 hole 22 6 0.793753 0'.635,0.0 hole-22.0.793751 -0.635:0.0

EMF-1563 Supplemental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-19 l hole;2231011125?!Oi95254 0 l hole 42$17.11128i?-0}9525%.0 ') lioleC22%T.',gE75g1';27E0;0 i holet,22 h J' 247S S r zfe;0 I how.22R1174s2ssn 5s75io.0 hole-22hi.74625 W1.5875110,O i holei22%2r06395$1$ 90510'."0 1 hole #22.fg2f06375 C1770530 l hbis1234238145%212226;0;0 hole 122$2(38125@212225 r40.0 i hole 2242rs9825y 2' 54,k0:0 hole :2252169875'.-2 ;54 y"0:0 . hbleT22lIi3?D1'625C2;8575 0;O hole 722M3.016253-2.857f60.0 ~^ ~ hole;22M.33374H 3iUSM l holei22%!!3 53375Pls31175$ 10 hole 122 3!651tS Q 3 0 tisies22 3;45125ft.334 f.e liols.22% 6)5 M M W,Zh3).81NiiRAC bem dc5=$FofMTsYsiil3aEEelatdTxibl~dsi ofl6as ket2 cuboWKM$et*%A :12759h3p0!!89#2p225258 holeN2&Mf-0015875s0j0 % S f. hole "?, 5E

0 hole

b 0;0 hole! $#M E0.0 i@ l tic 3C2137rG89875Kp).~2$3;0 - hol_ini22RY1j$4Np5;;45413)i(10 holek224-TD4625WM;582540;O ho1512$$s2'j0@5 TsS05%f0 ~ hd1M22i9:t lS$375:01'J905*$/0 2 5 hFis32235 2i38825N21222E;0:0 ti.le';22M2 38385sy2i2225;t,0.0 3 holeA227.e2*:69875b::2,34-1bt9 j hols?22T2!A9875 215474LO holeU222.t3101$2' $):2.'35749.0 1 1 5 hole. 225-3,01625:1-2;85WfLO;0 l hole 7.22$-3J33375 Mil 75$0 0 hole 422? 3.'33375 93^.175?i0.0 hole'22M3j651259l13!492570.0 ~ i hole 222$3(65135:'-3!.4725).0 0 g hole' 22%$3.,964*/5 s X81%l0.0 holel225?--3 96875M3.8150.0 1;g. udit 18' com="jsriglesTOspacing lispeath baskets E" ~ cubo c" 6:1? :2pB.89 4.12750CD.O.42p225.58 hole 2140.0 e 0.15875 ~10.0 hole.23/-043175N 0.4'16257 0.0 hole 21' 0(3175;U0.47625!! 0.O hole.21?0.635%0.79375in0 hole 21.-0.635n.0.79375 90.0 hole 21" 0.9525: l'.111252 0.0 hole'21?-0,9525i 1.11125 0.0 hole 21 M1.27 J1.~428751.0.0 r.

( e* EMF-1563 Supplemental License Application for SPC - Revision 10 Model SP-3 Shipping Container Page 6H-20 hole T21C1.27R1.42875'I;%0.0 0.0-hole.212.!1458752,1,74625 hole l 21';'-1I5875%1.74625;%0.O hole 221&,1.9051i2.06a2520;D l hole' 21Sli 905Y.2.06375 R0;0 hole 21e 2.2225 M2:39125D.0.O holeL210-2!2225i:238125'r0.0 hole.217.;h2;54 [,.2.638W 0. O h'oisi21idr2l54di69995I.0;0 hoie-213121957523.01625 90:0 . holeJ21?hE2'.'8575i3.0162570 'O hole.21 C 3.175/3.33175 0.0 hole! 21W-3 ;175! 3.33375N_0'.0 hole-21996314925;3i651254.0 tioleL21'K93:4925W3WOWD "2 M M DB M t; 'ts19 com="ai41ssT&'s speci5g3atsifei basketisT? '1275pf2p225hd cuboy*6jl hole 211Tp%2p8 89 s0.Dlj; g

D;a-0.1587

.0 hoisI21M01317560TG625d;E0 hhie 21% OP3175 m-0;WP6253.0?O tiole.'21f 'Ok6353C017D375/ek0 t h61M21 DIA35MO27$TICOi0 6o1021 23525D1'fDR2ELO' 0 hold!21MOE952569

0(0 holed 21M;t."27gd

'i0 hold;212 Id78 0 I?d875Y 0@ h61e ' 15$75h"1T3ED li k1'f2 hole hoW210$12905[p '21063W544!0 ~ h61e921$1f905($2iO6995$p.0 hole'21" 212225;%2J39I25m O.C 061e:21 $&225? 2 3812$1ll0;0 h64e220/f42iS4W2.i690151010 hold 21tt,0 kS4 4216987550;0 2 holre'21M!M B575"-3~.916256 0.0 hole'21fM2i8575:-3401625.90'.0 tioleE211;if.3t175M3 70 h^ ole.J21$ E3;175E 40 l hole 215 % 314925r 0se L ho1W2TODCSM925N?OM h6 3! 3136875*0'T0 D 3381 3294875Jp~.0 uniEJ21 ~ cour" parte 6f JsteelMangisflh :horEisestions iff,. stringer" 'n*0.1552"sx70;125" cubo i 7f if 2p0 ; 197104 '?2p0' 15874 "2p225. 58 unit 22 com="paittCof s'stleef angliiin -vert "sestionsof stringer" ~ 0.125"cx 0' 1552" ' cubo1.7-l'2p0.15874:2p0.197104 2p225.58 end geometry read array ara =1 nux=9 nuy=9 nuz=1 fill 2'2.2L2 2'2 2 2 3 2.4'1.1 4.1 1 4 3 2l1 1 1.1.1 1 1.3

i: ~ e p EMF-1563 Suppismental License Application for SPC Revision 10 Model SP-3 Shipping Container Page 6H-21 l 2:1 1J23423l23,1 1 3 234~1t23T23L23t1:4.3 211::1 23*23f23el 1 3 Zl-ItI%1k111d103 2[4fl[IT[2M#,M3 242e2;2.;2 2%2;.;3 c.:e: A fill l ara 42.nss=9;nuy=9-nuz=1' J i fi1T l 322.:27212'27212L2 i 3jollf1'.l4';1S 1i4; 2 3al:-'Id1 % 1N1fla2 i. 3ilb1 23123 231271'L2 l~ 3'4[1:23i'23{23:1154'2 l 3;litli,23.:21!23f,1111.12 3G17151,i4XI)C112. 3J.e d M # t1t 1 14 ;2 3,,,02;t, I2f,2523. 2i3. ~52 ara =3;W4fjisipRniz=1 fill 1 19I19fi:9 1935X$;17 - as5mmeMauiiR10(569620'nhi=2 fillsf19?and? fill endiafray rendastart eid tait readibounds allMiialma andi;boiifads road,hTaii sid=500i2R11 - endib Es read!hiot tit 1= ' 3c93 sedEionl of'. boti6m,lef t icbst'aineE ' ~ xu1=0 M. Myu1=28.2438-e zu1=10 x1x=46.0238#dylr=0e e & z1r=10 uak-iCdi23ydn%1&l!Zoaia.15pa"1pi=10 C_end t tE1;'l xVJain'cti6E o fi Sx5Tair'a'9Q xu1=0d4sMHi,yu1=141.2196Wzu1=10 x1r=230.119n-:ylr=0 t N t*M.zif=10 uax lTjZi[ydn--17'fhEnax=150H1pi=10 '. end a nd. Plot esd'Jdata end 1}}