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| issue date = 12/12/2018
| issue date = 12/12/2018
| title = Enclosure 5: Proposed CoC 1014 Amendment 12 Appendix B:-100U (Memorandum to K. Morgan-Butler User Need for Rulemaking for the Holtec Hi-Storm 100 Cask System, Amendment No. 12)
| title = Enclosure 5: Proposed CoC 1014 Amendment 12 Appendix B:-100U (Memorandum to K. Morgan-Butler User Need for Rulemaking for the Holtec Hi-Storm 100 Cask System, Amendment No. 12)
| author name = McKirgan J B
| author name = Mckirgan J
| author affiliation = NRC/NMSS/DSFM/SFLB
| author affiliation = NRC/NMSS/DSFM/SFLB
| addressee name =  
| addressee name =  
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| docket = 07201014
| docket = 07201014
| license number =  
| license number =  
| contact person = Chen Y J
| contact person = Chen Y
| case reference number = CAC 001028, EPID L-2017-LLA-0028
| case reference number = CAC 001028, EPID L-2017-LLA-0028
| package number = ML18087A055
| package number = ML18087A055
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=Text=
=Text=
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{{#Wiki_filter:PROPOSED CERTIFICATE OF COMPLIANCE NO. 1014 APPENDIX B-100U APPROVED CONTENTS AND DESIGN FEATURES FOR THE HI-STORM 100 CASK SYSTEM (MODEL NO. 100U ADDITION)
 
TABLE OF CONTENTS 1.0 DEFINITIONS ........................................................................................................ 1-1 2.0 APPROVED CONTENTS ...................................................................................... 2-1 2.1    Fuel Specifications and Loading Conditions ...................................................... 2-1 2.2    Violations ........................................................................................................... 2-2 2.3    Not Used ........................................................................................................... 2-2 2.4    Decay Heat, Burnup, and Cooling Time Limits for ZR-Clad Fuel..................... 2-25 3.0 DESIGN FEATURES ............................................................................................. 3-1 3.1    Site .................................................................................................................... 3-1 3.2    Design Features Important for Criticality Control ............................................... 3-1 3.3    Codes and Standards ........................................................................................ 3-2 3.4    Site Specific Parameters and Analyses ............................................................. 3-7 3.5    Not Used ......................................................................................................... 3-10 3.6    Forced Helium Dehydration System ................................................................ 3-11 3.7    Deleted ............................................................................................................ 3-13 3.8    Combustible Gas Monitoring During MPC Lid Welding and Cutting ................ 3-14 3.9    Corrosion Mitigation Measures ........................................................................ 3-15 3.10 Periodic Corrosion Inspections for Underground Systems .............................. 3-16 Table 3-1        Not Used ................................................................................................. 3-4 Table 3-2        Applicable Code Paragraphs for Underground VVMs ............................. 3-5 Table 3-3        Load Combinations for the Top Surface Pad, VVM Interface Pad, Support Foundation Pad, and the Retaining Wall Per ACI-318 (2005)................. 3-8 Table 3-4        Values of Principal Design Parameters for the Underground ISFSI ....................................................................................................... 3-8 Certificate of Compliance No. 1014                                                                      Amendment No. 12 Appendix B-100U                                                1-1
 
Definitions 1.0 1.0 Definitions Refer to Appendix A for Definitions.
Certificate of Compliance No. 1014      Amendment No. 12 Appendix B-100U                      1-1
 
Approved Contents 2.0 2.0    APPROVED CONTENTS 2.1 Fuel Specifications and Loading Conditions 2.1.1 Fuel To Be Stored In The HI-STORM SFSC System Model 100U
: a. INTACT FUEL ASSEMBLIES, and NON-FUEL HARDWARE meeting the limits specified in Table 2.1-1 and other referenced tables may be stored.
: b. For MPCs partially loaded with stainless steel clad fuel assemblies, all remaining fuel assemblies in the MPC shall meet the decay heat generation limit for the stainless steel clad fuel assemblies.
: c. For MPCs partially loaded with array/class 6x6A, 6x6B, 6x6C, 7x7A, or 8x8A fuel assemblies, all remaining ZR clad INTACT FUEL ASSEMBLIES in the MPC shall meet the decay heat generation limits for the 6x6A, 6x6B, 6x6C, 7x7A and 8x8A fuel assemblies.
: d. All BWR fuel assemblies may be stored with or without ZR channels with the exception of array/class 10x10D and 10x10E fuel assemblies, which may be stored with or without ZR or stainless steel channels.
2.1.2 Uniform Fuel Loading Any authorized fuel assembly may be stored in any fuel storage location, subject to other restrictions related to NON-FUEL HARDWARE specified in the CoC.
(continued)
Certificate of Compliance No. 1014                                          Amendment No. 12 Appendix B-100U                                2-1
 
Approved Contents 2.0 2.0 Approved Contents 2.1 Fuel Specifications and Loading Conditions (contd) 2.1.3 Regionalized Fuel Loading Users may choose to store fuel using regionalized loading in lieu of uniform loading to allow higher heat emitting fuel assemblies to be stored than would otherwise be able to be stored using uniform loading.
Regionalized loading is limited to those fuel assemblies with ZR cladding.
Figures 2.1-1 through 2.1-4 define the regions for the MPC-24, MPC-24E, MPC-32, MPC-68 models, respectively1. Fuel assembly burnup, decay heat, and cooling time limits for regionalized loading are specified in Section 2.4.2. Fuel assemblies used in regionalized loading shall meet all other applicable limits specified in Tables 2.1-1 through 2.1-3.
2.2 Violations If any Fuel Specifications or Loading Conditions of 2.1 are violated, the following actions shall be completed:
2.2.1 The affected fuel assemblies shall be placed in a safe condition.
2.2.2 Within 24 hours, notify the NRC Operations Center.
2.2.3 Within 30 days, submit a special report which describes the cause of the violation, and actions taken to restore compliance and prevent recurrence.
2.3    Not Used 1
These figures are only intended to distinguish the fuel loading regions. Other details of the basket design are illustrative and may not reflect the actual basket design details.
The design drawings should be consulted for basket design details.
Certificate of Compliance No. 1014                                                  Amendment No. 12 Appendix B-100U                                      2-2
 
Approved Contents 2.0 Figure 2.1-1 Fuel Loading Regions - MPC-24 Certificate of Compliance No. 1014                        Amendment No. 12 Appendix B-100U                          2-3
 
Approved Contents 2.0 Figure 2.1-2 Fuel Loading Regions - MPC-24E Certificate of Compliance No. 1014                        Amendment No. 12 Appendix B-100U                          2-4
 
Approved Contents 2.0 Figure 2.1-3 Fuel Loading Regions - MPC-32 Certificate of Compliance No. 1014                        Amendment No. 12 Appendix B-100U                          2-5
 
Approved Contents 2.0 Figure 2.1-4 Fuel Loading Regions - MPC-68 Certificate of Compliance No. 1014                        Amendment No. 12 Appendix B-100U                          2-6
 
Approved Contents 2.0 Table 2.1-1 (page 1 of 8)
Fuel Assembly Limits I. MPC MODEL: MPC-24 A. Allowable Contents
: 1. Uranium oxide, PWR INTACT FUEL ASSEMBLIES listed in Table 2.1-2, with or without NON-FUEL HARDWARE and meeting the following specifications (Note 1):
: a. Cladding Type:                            ZR or Stainless Steel (SS) as specified in Table 2.1-2 for the applicable fuel assembly array/class.
: b. Initial Enrichment:                      As specified in Table 2.1-2 for the applicable fuel assembly array/class.
: c. Post-irradiation Cooling Time and Average Burnup Per Assembly:
: i. Array/Classes                  Cooling time  8 years and an average 14x14D,14x14E, and            burnup  40,000 MWD/MTU.
15x15G ii. All Other Array/Classes      Cooling time and average burnup as specified in Section 2.4.
ii. NON-FUEL HARDWARE            As specified in Table 2.1-4.
Certificate of Compliance No. 1014                                          Amendment No. 12 Appendix B-100U                                2-7
 
Approved Contents 2.0 Table 2.1-1 (page 2 of 8)
Fuel Assembly Limits I. MPC MODEL: MPC-24 (continued)
A. Allowable Contents (continued)
: d. Decay Heat Per Fuel Storage Location:
: i. Array/Classes 14x14D,          710 Watts 14x14E, and 15x15G ii. All Other Array/Classes      As specified in Section 2.4.
: e. Fuel Assembly Length:                    176.8 inches (nominal design)
: f. Fuel Assembly Width:                      8.54 inches (nominal design)
: g. Fuel Assembly Weight:                    1720 lbs (including NON-FUEL HARDWARE) for assemblies that do not require fuel spacers, otherwise  1680 lbs (including NON-FUEL HARDWARE)
B. Quantity per MPC: Up to 24 fuel assemblies.
C. One NSA is authorized for loading into the MPC-24.
Note 1:      Fuel assemblies containing BPRAs, TPDs, WABAs, water displacement guide tube plugs, orifice rod assemblies, or vibration suppressor inserts, with or without ITTRs, may be stored in any fuel storage location. Fuel assemblies containing APSRs or NSAs may only be loaded in fuel storage locations 9, 10, 15, and/or 16. Fuel assemblies containing CRAs, RCCAs, CEAs may only be stored in fuel storage locations 4, 5, 8 - 11, 14 - 17, 20 and/or 21 (see Figure 2.1-1). These requirements are in addition to any other requirements specified for uniform or regionalized fuel loading.
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                                2-8
 
Approved Contents 2.0 Table 2.1-1 (page 3 of 8)
Fuel Assembly Limits II. MPC MODEL: MPC-68 A. Allowable Contents
: 1. Uranium oxide or MOX BWR INTACT FUEL ASSEMBLIES listed in Table 2.1-3, with or without channels and meeting the following specifications:
: a. Cladding Type:                            ZR or Stainless Steel (SS) as specified in Table 2.1-3 for the applicable fuel assembly array/class
: b. Maximum PLANAR-AVERAGE                    As specified in Table 2.1-3 for the INITIAL ENRICHMENT:                        applicable fuel assembly array/class.
: c. Initial Maximum Rod Enrichment            As specified in Table 2.1-3 for the applicable fuel assembly array/class.
: d. Post-irradiation Cooling Time and Average Burnup Per Assembly
: i. Array/Classes 6x6A, 6x6B,      Cooling time  18 years and an average 6x6C, 7x7A, and 8x8A            burnup  30,000 MWD/MTU (or MWD/MTIHM).
ii. Array/Class 8x8F              Cooling time  10 years and an average burnup  27,500 MWD/MTU.
iii. Array/Classes 10x10D          Cooling time  10 years and an average and 10x10E                      burnup  22,500 MWD/MTU.
iv. All Other Array/Classes        As specified in Section 2.4.
Certificate of Compliance No. 1014                                          Amendment No. 12 Appendix B-100U                                  2-9
 
Approved Contents 2.0 Table 2.1-1 (page 4 of 8)
Fuel Assembly Limits II. MPC MODEL: MPC-68 (continued)
A. Allowable Contents (continued)
: e. Decay Heat Per Assembly
: i. Array/Classes 6x6A, 6X6B,      115 Watts 6x6C, 7x7A, and 8x8A ii. Array/Class 8x8F              183.5 Watts iii. Array/Classes 10x10D          95 Watts and 10x10E iv. All Other Array/Classes      As specified in Section 2.4.
: f. Fuel Assembly Length
: i. Array/Class 6x6A, 6x6B,        135.0 inches (nominal design) 6x6C, 7x7A, or 8x8A ii. All Other Array/Classes        176.5 inches (nominal design)
: g. Fuel Assembly Width
: i. Array/Class 6x6A, 6x6B,        4.70 inches (nominal design) 6x6C, 7x7A, or 8x8A ii. All Other Array/Classes        5.85 inches (nominal design)
: h. Fuel Assembly Weight
: i. Array/Class 6x6A, 6x6B,        400 lbs, including channels 6x6C, 7x7A, or 8x8A ii. All Other Array/Classes        730 lbs, including channels B. Quantity per MPC: Up to 68 fuel assemblies.
C. Dresden Unit 1 fuel assemblies with one Antimony-Beryllium neutron source are authorized for loading. The Antimony-Beryllium source material shall be in a water rod location.
D. Array/Class 10x10D and 10x10E fuel assemblies in stainless steel channels must be stored in fuel storage locations 19 - 22, 28 - 31, 38 -41, and/or 47 - 50 (see Figure 2.1-4).
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                              2-10
 
Approved Contents 2.0 Table 2.1-1 (page 5 of 8)
Fuel Assembly Limits III. MPC MODEL: MPC-24E A. Allowable Contents
: 1. Uranium oxide, PWR INTACT FUEL ASSEMBLIES listed in Table 2.1-2, with or without NON-FUEL HARDWARE and meeting the following specifications (Note 1):
: a. Cladding Type:                          ZR or Stainless Steel (SS) as specified in Table 2.1-2 for the applicable fuel assembly array/class
: b. Initial Enrichment:                      As specified in Table 2.1-2 for the applicable fuel assembly array/class.
: c. Post-irradiation Cooling Time and Average Burnup Per Assembly:
: i. Array/Classes 14x14D,        Cooling time  8 years and an average 14x14E, and 15x15G            burnup  40,000 MWD/MTU.
ii. All Other Array/Classes      As specified in Section 2.4.
iii. NON-FUEL HARDWARE          As specified in Table 2.1-4.
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                                2-11
 
Approved Contents 2.0 Table 2.1-1 (page 6 of 8)
Fuel Assembly Limits III. MPC MODEL: MPC-24E (continued)
A. Allowable Contents (continued)
: d. Decay Heat Per Fuel Storage Location:
: i. Array/Classes 14x14D,            710 Watts.
14x14E, and 15x15G ii. All other Array/Classes        As specified in Section 2.4.
: e. Fuel Assembly Length:                      176.8 inches (nominal design)
: f. Fuel Assembly Width:                      8.54 inches (nominal design)
: g. Fuel Assembly Weight:                      1,720 lbs (including NON-FUEL HARDWARE) for assemblies that do not require fuel spacers, otherwise, 1,680 lbs (including NON-FUEL HARDWARE)
B. Quantity per MPC: Up to 24 fuel assemblies.
C. One NSA is permitted for loading.
Note 1: Fuel assemblies containing BPRAs, TPDs, WABAs, water displacement guide tube plugs, orifice rod assemblies, or vibration suppressor inserts, with or without ITTRs, may be stored in any fuel storage location. Fuel assemblies containing APSRs or NSAs may only be loaded in fuel storage locations 9, 10, 15, and/or 16 (see Figure 2.1-2). Fuel assemblies containing CRAs, RCCAs, or CEAs may only be stored in fuel storage locations 4, 5, 8 - 11, 14 - 17, 20 and/or 21 (see Figure 2.1-2). These requirements are in addition to any other requirements specified for uniform or regionalized fuel loading.
Certificate of Compliance No. 1014                                          Amendment No. 12 Appendix B-100U                                2-12
 
Approved Contents 2.0 Table 2.1-1 (page 7 of 8)
Fuel Assembly Limits IV. MPC MODEL: MPC-32 A. Allowable Contents
: 1. Uranium oxide, PWR INTACT FUEL ASSEMBLIES listed in Table 2.1-2, with or without NON-FUEL HARDWARE and meeting the following specifications (Note 1):
: a. Cladding Type:                            ZR or Stainless Steel (SS) as specified in Table 2.1-2 for the applicable fuel assembly array/class
: b. Initial Enrichment:                      As specified in Table 2.1-2 for the applicable fuel assembly array/class.
: c. Post-irradiation Cooling Time and Average Burnup Per Assembly:
: i. Array/Classes 14x14D,          Cooling time  9 years and an average 14x14E, and 15x15G            burnup  30,000 MWD/MTU or cooling time  20 years and an average burnup 40,000 MWD/MTU.
ii. All Other Array/Classes      As specified in Section 2.4.
iii. NON-FUEL HARDWARE            As specified in Table 2.1-4.
Certificate of Compliance No. 1014                                          Amendment No. 12 Appendix B-100U                                2-13
 
Approved Contents 2.0 Table 2.1-1 (page 8 of 8)
Fuel Assembly Limits IV. MPC MODEL: MPC-32 (continued)
A. Allowable Contents (continued)
: d. Decay Heat Per Fuel Storage Location:
: i. Array/Classes 14x14D,          500 Watts.
14x14E, and 15x15G ii. All Other Array/Classes      As specified in Section 2.4.
: e. Fuel Assembly Length                      176.8 inches (nominal design)
: f. Fuel Assembly Width                      8.54 inches (nominal design)
: g. Fuel Assembly Weight                      1,720 lbs (including NON-FUEL HARDWARE) for assemblies that do not require fuel spacers, otherwise,  1,680 lbs (including NON-FUEL HARDWARE)
B. Quantity per MPC: Up to 32 fuel assemblies.
C. One NSA is permitted for loading.
Note 1: Fuel assemblies containing BPRAs, TPDs, WABAs, water displacement guide tube plugs, orifice rod assemblies, or vibration suppressor inserts, with or without ITTRs, may be stored in any fuel storage location. Fuel assemblies containing NSAs may only be loaded in fuel storage locations 13, 14, 19 and/or 20 (see Figure 2.1-3). Fuel assemblies containing CRAs, RCCAs, CEAs or APSRs may only be loaded in fuel storage locations 7, 8, 12-15, 18-21, 25 and/or 26 (see Figure 2.1-3). These requirements are in addition to any other requirements specified for uniform or regionalized fuel loading.
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                              2-14
 
Approved Contents 2.0 Table 2.1-2 (page 1 of 5)
PWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)
Fuel Assembly 14x14A        14x14B      14x14C      14x14D        14x14E Array/Class Clad Material              ZR            ZR            ZR        SS            SS Design Initial U 365          412          438      400          206 (kg/assy.) (Note 3)
Initial Enrichment (MPC-24 and 24E          4.6 (24)      4.6 (24)    4.6 (24)  4.0 (24)    5.0 (24) without soluble boron credit) (wt %
235U) 5.0 (24E)    5.0 (24E)  5.0 (24E)  5.0 (24E)    5.0 (24E)
Initial Enrichment (MPC-24, 24E, or 32, with soluble 5.0          5.0          5.0      5.0          5.0 boron credit - see Note 5)
(wt % 235U)
No. of Fuel Rod 179            179          176        180          173 Locations Fuel Rod Clad 0.400        0.417        0.440    0.422      0.3415 O.D. (in.)
Fuel Rod Clad I.D.
0.3514        0.3734      0.3880    0.3890      0.3175 (in.)
Fuel Pellet Dia.
0.3444        0.3659      0.3805    0.3835      0.3130 (in.)(Note 7)
Fuel Rod Pitch (in.)      0.556        0.556        0.580    0.556      Note 6 Active Fuel Length 150          150          150      144          102 (in.)
No. of Guide and/or Instrument          17            17      5 (Note 4)      16            0 Tubes Guide/Instrument Tube Thickness            0.017        0.017        0.038    0.0145        N/A (in.)
Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                                2-15
 
Approved Contents 2.0 Table 2.1-2 (page 2 of 5)
PWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)
Fuel Assembly 15x15A      15x15B      15x15C      15x15D      15x15E      15x15F Array/Class Clad Material            ZR          ZR          ZR          ZR          ZR          ZR Design Initial U
                          < 473      < 473      < 473      < 495      < 495      < 495 (kg/assy.) (Note 3)
Initial Enrichment (MPC-24 and 24E        < 4.1 (24)  < 4.1 (24)  < 4.1 (24)  < 4.1 (24)  < 4.1 (24)  < 4.1 (24) without soluble boron credit)
(wt % 235U)          < 4.5 (24E) < 4.5 (24E) < 4.5 (24E) < 4.5 (24E) < 4.5 (24E) < 4.5 (24E)
Initial Enrichment (MPC-24, 24E, or 32 with soluble          < 5.0      < 5.0      < 5.0      < 5.0      < 5.0      < 5.0 boron credit - see Note 5)(wt % 235U)
No. of Fuel Rod 204        204        204        208        208        208 Locations Fuel Rod Clad
                        > 0.418    > 0.420    > 0.417    > 0.430    > 0.428    > 0.428 O.D. (in.)
Fuel Rod Clad I.D.
                        < 0.3660    < 0.3736    < 0.3640    < 0.3800    < 0.3790    < 0.3820 (in.)
Fuel Pellet Dia.
                        < 0.3580    < 0.3671    < 0.3570    < 0.3735    < 0.3707    < 0.3742 (in.) (Note 7)
Fuel Rod Pitch
                        < 0.550    < 0.563    < 0.563    < 0.568    < 0.568    < 0.568 (in.)
Active Fuel Length
                          < 150      < 150      < 150      < 150      < 150      < 150 (in.)
No. of Guide and/or Instrument          21          21          21          17          17          17 Tubes Guide/Instrument Tube Thickness        > 0.0165    > 0.015    > 0.0165    > 0.0150    > 0.0140    > 0.0140 (in.)
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                                2-16
 
Approved Contents 2.0 Table 2.1-2 (page 3 of 5)
PWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)
Fuel Assembly 15x15G      15x15H      16x16A      16x16B        16x16C Array/ Class Clad Material          SS          ZR          ZR          ZR          ZR Design Initial U
                              < 420        < 495      < 448      < 427        < 426 (kg/assy.)(Note 3)
Initial Enrichment                                        < 4.6 (24)    < 4.6 (24)
                            < 4.0 (24)  < 3.8 (24)  < 4.6 (24)
(MPC-24and 24E without soluble boron credit)                                                < 5.0        < 5.0 (wt % 235U)        < 4.5 (24E)  < 4.2 (24E) < 5.0 (24E)
(24E/24EF)    (24E/24EF)
Initial Enrichment (MPC-24, 24E, or 32 with soluble        < 5.0        < 5.0      < 5.0        < 5.0        < 5.0 boron credit - see Note 5) (wt % 235U)
No. of Fuel Rod 204          208        236          236          235 Locations Fuel Rod Clad
                              > 0.422      > 0.414    > 0.382    > 0.374      > 0.374 O.D. (in.)
Fuel Rod Clad I.D.
                            < 0.3890    < 0.3700    < 0.3350    < 0.3290      < 0.3290 (in.)
Fuel Pellet Dia.
                            < 0.3825    < 0.3622    < 0.3255    < 0.3225      < 0.3225 (in.) (Note 7)
Fuel Rod Pitch
                              < 0.563      < 0.568    < 0.506    < 0.506      < 0.485 (in.)
Active Fuel Length
                              < 144        < 150      < 150      < 150        < 150 (in.)
No. of Guide and/or Instrument        21          17    5 (Note 4)  5 (Note 4)        21 Tubes Guide/Instrument Tube Thickness      > 0.0145    > 0.0140    > 0.0350    > 0.0400      > 0.0157 (in.)
Certificate of Compliance No. 1014                                          Amendment No. 12 Appendix B-100U                                2-17
 
Approved Contents 2.0 Table 2.1-2 (page 4 of 5)
PWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)
Fuel Assembly 17x17A      17x17B      17x17C Array/ Class Clad Material            ZR          ZR          ZR Design Initial U
                                            < 433      < 474      < 480 (kg/assy.)(Note 3)
Initial Enrichment    < 4.0 (24)  < 4.0 (24)  < 4.0 (24)
(MPC-24and 24E without soluble boron credit)
(wt % 235U)          < 4.4 (24E) < 4.4 (24E) < 4.4 (24E)
Initial Enrichment (MPC-24, 24E, or 32 with soluble        < 5.0      < 5.0      < 5.0 boron credit - see Note 5) (wt % 235U)
No. of Fuel Rod 264        264        264 Locations Fuel Rod Clad
                                          > 0.360    > 0.372    > 0.377 O.D. (in.)
Fuel Rod Clad I.D.
                                          < 0.3150    < 0.3310    < 0.3330 (in.)
Fuel Pellet Dia.
                                          < 0.3088    < 0.3232    < 0.3252 (in.) (Note 7)
Fuel Rod Pitch
                                          < 0.496    < 0.496    < 0.502 (in.)
Active Fuel Length
                                            < 150      < 150      < 150 (in.)
No. of Guide and/or Instrument        25          25          25 Tubes Guide/Instrument Tube Thickness        > 0.016    > 0.014    > 0.020 (in.)
Certificate of Compliance No. 1014                                          Amendment No. 12 Appendix B-100U                                2-18
 
Approved Contents 2.0 Table 2.1-2 (page 5 of 5)
PWR FUEL ASSEMBLY CHARACTERISTICS Notes:
: 1. All dimensions are design nominal values. Maximum and minimum dimensions are specified to bound variations in design nominal values among fuel assemblies within a given array/class.
: 2. Deleted.
: 3. Design initial uranium weight is the nominal uranium weight specified for each assembly by the fuel manufacturer or reactor user. For each PWR fuel assembly, the total uranium weight limit specified in this table may be increased up to 2.0 percent for comparison with users fuel records to account for manufacturers tolerances.
: 4. Each guide tube replaces four fuel rods.
: 5. Soluble boron concentration per LCO 3.3.1of Appendix A-100U.
: 6. This fuel assembly array/class includes only the Indian Point Unit 1 fuel assembly.
This fuel assembly has two pitches in different sectors of the assembly. These pitches are 0.441 inches and 0.453 inches.
: 7. Annular fuel pellets are allowed in the top and bottom 12" of the active fuel length.
Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                            2-19
 
Approved Contents 2.0 Table 2.1-3 (page 1 of 5)
BWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)
Fuel Assembly 6x6A        6x6B        6x6C        7x7A    7x7B      8x8A Array/Class Clad Material            ZR          ZR          ZR          ZR      ZR        ZR Design Initial U
                        < 110      < 110      < 110        < 100    < 198    < 120 (kg/assy.) (Note 3)
Maximum
                                  < 2.7 for PLANAR-the UO2 AVERAGE rods.
INITIAL                < 2.7                  < 2.7      < 2.7    < 4.2    < 2.7 See Note ENRICHMENT 4 for MOX (wt.% 235U) rods Initial Maximum Rod Enrichment          < 4.0      < 4.0      < 4.0      < 5.5    < 5.0    < 4.0 (wt.% 235U)
No. of Fuel Rod                  35 or 36 Locations                        (up to 9 35 or 36                  36          49      49    63 or 64 MOX rods)
Fuel Rod Clad
                      > 0.5550  > 0.5625    > 0.5630  > 0.4860  > 0.5630  > 0.4120 O.D. (in.)
Fuel Rod Clad I.D.
                      < 0.5105  < 0.4945    < 0.4990  < 0.4204  < 0.4990  < 0.3620 (in.)
Fuel Pellet Dia.
                      < 0.4980  < 0.4820    < 0.4880  < 0.4110  < 0.4910  < 0.3580 (in.)
Fuel Rod Pitch
                      < 0.710    < 0.710    < 0.740      < 0.631 < 0.738  < 0.523 (in.)
Active Fuel Length
                        < 120      < 120      < 77.5      < 80    < 150    < 120 (in.)
No. of Water Rods 1 or 0      1 or 0        0          0        0      1 or 0 (Note 11)
Water Rod
                          >0          >0          N/A        N/A      N/A      >0 Thickness (in.)
Channel
                      < 0.060    < 0.060    < 0.060      < 0.060 < 0.120  < 0.100 Thickness (in.)
Certificate of Compliance No. 1014                                  Amendment No. 12 Appendix B-100U                              2-20
 
Approved Contents 2.0 Table 2.1-3 (2 of 5)
BWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)
Fuel Assembly 8x8B        8x8C        8x8D      8x8E    8x8F      9x9A Array/Class Clad Material            ZR          ZR          ZR        ZR      ZR        ZR Design Initial U
                        < 192      < 190        < 190    < 190    < 191    < 180 (kg/assy.) (Note 3)
Maximum PLANAR-AVERAGE INITIAL                < 4.2      < 4.2      < 4.2      < 4.2    < 4.0      < 4.2 ENRICHMENT (wt.% 235U)
Initial Maximum Rod Enrichment          < 5.0      < 5.0      < 5.0      < 5.0    < 5.0      < 5.0 (wt.% 235U)
No. of Fuel Rod                                                              74/66 Locations            63 or 64      62      60 or 61      59      64 (Note 5)
Fuel Rod Clad
                      > 0.4840    > 0.4830    > 0.4830  > 0.4930 > 0.4576  > 0.4400 O.D. (in.)
Fuel Rod Clad I.D.
                      < 0.4295    < 0.4250    < 0.4230  < 0.4250 < 0.3996  < 0.3840 (in.)
Fuel Pellet Dia.
                      < 0.4195    < 0.4160    < 0.4140  < 0.4160 < 0.3913  < 0.3760 (in.)
Fuel Rod Pitch
                      < 0.642    < 0.641      < 0.640  < 0.640  < 0.609  < 0.566 (in.)
Design Active
                        < 150      < 150        < 150    < 150    < 150    < 150 Fuel Length (in.)
No. of Water Rods                              1-4                  N/A (Note 11)              1 or 0        2                      5                  2 (Note 7)            (Note 12)
Water Rod
                      > 0.034      > 0.00      > 0.00    > 0.034  > 0.0315    > 0.00 Thickness (in.)
Channel
                      < 0.120    < 0.120      < 0.120  < 0.100  < 0.055  < 0.120 Thickness (in.)
Certificate of Compliance No. 1014                                    Amendment No. 12 Appendix B-100U                            2-21
 
Approved Contents 2.0 Table 2.1-3 (page 3 of 5)
BWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)
Fuel Assembly            9x9B      9x9C        9x9D        9x9E      9x9F      9x9G Array/Class                                              (Note 13) (Note 13)
Clad Material            ZR        ZR          ZR          ZR        ZR        ZR Design Initial U        < 180      < 182      < 182      < 183    < 183      < 164 (kg/assy.)(Note 3)
Maximum                  < 4.2      < 4.2      < 4.2      < 4.0    < 4.0    < 4.2 PLANAR-AVERAGE INITIAL ENRICHMENT (wt.% 235U)
Initial Maximum          < 5.0      < 5.0      < 5.0      < 5.0    < 5.0    < 5.0 Rod Enrichment (wt.% 235U)
No. of Fuel Rod          72        80          79          76        76        72 Locations Fuel Rod Clad        > 0.4330    > 0.4230    > 0.4240    > 0.4170  > 0.4430  > 0.4240 O.D. (in.)
Fuel Rod Clad I.D.    < 0.3810    < 0.3640    < 0.3640    < 0.3640  < 0.3860  < 0.3640 (in.)
Fuel Pellet Dia.      < 0.3740    < 0.3565    < 0.3565    < 0.3530  < 0.3745  < 0.3565 (in.)
Fuel Rod Pitch        < 0.572    < 0.572    < 0.572    < 0.572  < 0.572    < 0.572 (in.)
Design Active Fuel      < 150      < 150      < 150      < 150    < 150      < 150 Length (in.)
No. of Water Rods    1 (Note 6)      1          2          5        5    1 (Note 6)
(Note 11)
Water Rod              > 0.00    > 0.020    > 0.0300    > 0.0120  > 0.0120  > 0.0320 Thickness (in.)
Channel                < 0.120    < 0.100    < 0.100    < 0.120  < 0.120    < 0.120 Thickness (in.)
Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                            2-22
 
Approved Contents 2.0 Table 2.1-3 (page 4 of 5)
BWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)
Fuel Assembly Array/Class        10x10A      10x10B        10x10C  10x10D    10x10E Clad Material                      ZR          ZR          ZR        SS      SS Design Initial U (kg/assy.)
                                    < 188      < 188        < 179    < 125    < 125 (Note 3)
Maximum PLANAR-AVERAGE INITIAL
                                    < 4.2      < 4.2        < 4.2    < 4.0    < 4.0 ENRICHMENT (wt.% 235U)
Initial Maximum Rod
                                    < 5.0      < 5.0        < 5.0    < 5.0    < 5.0 Enrichment (wt.% 235U)
No. of Fuel Rod Locations          92/78      91/83 96      100      96 (Note 8)    (Note 9)
Fuel Rod Clad O.D. (in.)        > 0.4040    > 0.3957    > 0.3780  > 0.3960 > 0.3940 Fuel Rod Clad I.D. (in.)        < 0.3520    < 0.3480    < 0.3294  < 0.3560 < 0.3500 Fuel Pellet Dia. (in.)          < 0.3455    < 0.3420    < 0.3224  < 0.3500 < 0.3430 Fuel Rod Pitch (in.)              < 0.510    < 0.510      < 0.488  < 0.565  < 0.557 Design Active Fuel Length
                                    < 150      < 150        < 150    < 83    < 83 (in.)
No. of Water Rods (Note 11)          2      1 (Note 6)  5 (Note 10)    0        4 Water Rod Thickness (in.)        > 0.0300    > 0.00      > 0.031    N/A    > 0.022 Channel Thickness (in.)          < 0.120    < 0.120      < 0.055  < 0.080  < 0.080 Certificate of Compliance No. 1014                                    Amendment No. 12 Appendix B-100U                            2-23
 
Approved Contents 2.0 Table 2.1-3 (page 5 of 5)
BWR FUEL ASSEMBLY CHARACTERISTICS Notes:
: 1.      All dimensions are design nominal values. Maximum and minimum dimensions are specified to bound variations in design nominal values among fuel assemblies within a given array/class.
: 2.      Not Used.
: 3.      Design initial uranium weight is the nominal uranium weight specified for each assembly by the fuel manufacturer or reactor user. For each BWR fuel assembly, the total uranium weight limit specified in this table may be increased up to 1.5 percent for comparison with users fuel records to account for manufacturer tolerances.
: 4.      < 0.635 wt. % 235U and < 1.578 wt. % total fissile plutonium (239Pu and 241Pu),
(wt. % of total fuel weight, i.e., UO2 plus PuO2).
: 5.      This assembly class contains 74 total rods; 66 full length rods and 8 partial length rods.
: 6.      Square, replacing nine fuel rods.
: 7.      Variable.
: 8.      This assembly contains 92 total fuel rods; 78 full length rods and 14 partial length rods.
: 9.      This assembly class contains 91 total fuel rods; 83 full length rods and 8 partial length rods.
: 10. One diamond-shaped water rod replacing the four center fuel rods and four rectangular water rods dividing the assembly into four quadrants.
: 11. These rods may also be sealed at both ends and contain Zr material in lieu of water.
: 12. This assembly is known as QUAD+. It has four rectangular water cross segments dividing the assembly into four quadrants.
: 13. For the SPC 9x9-5 fuel assembly, each fuel rod must meet either the 9x9E or the 9x9F set of limits for clad O.D., clad I.D., and pellet diameter.
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                                2-24
 
Approved Contents 2.0 Table 2.1-4 NON-FUEL HARDWARE COOLING AND AVERAGE BURNUP (Notes 1, 2, 3, and 8)
Post-              INSERTS          NSA or GUIDE            CONTROL              APSR irradiation              (Note 4)              TUBE            COMPONENT            BURNUP Cooling Time            BURNUP              HARDWARE                  (Note 6)        (MWD/MTU)
(years)            (MWD/MTU)              (Note 5)              BURNUP BURNUP              (MWD/MTU)
(MWD/MTU)
        >3                < 24,635            NA (Note 7)                NA                  NA
        >4                < 30,000              < 20,000                NA                  NA
        >5                < 36,748              < 25,000              < 630,000          < 45,000
        >6                < 44,102              < 30,000                  -              < 54,500
        >7                < 52,900              < 40,000                  -              < 68,000
        >8                < 60,000              < 45,000                  -              < 83,000
        >9                      -                < 50,000                  -              < 111,000
        > 10                    -                < 60,000                  -              < 180,000
        > 11                    -                < 75,000                  -              < 630,000
        > 12                    -                < 90,000                  -                  -
        > 13                    -              < 180,000                  -                  -
        > 14                    -              < 630,000                  -                  -
Notes: 1. Burnups for NON-FUEL HARDWARE are to be determined based on the burnup and uranium mass of the fuel assemblies in which the component was inserted during reactor operation.
: 2. Linear interpolation between points is permitted, except that NSA or Guide Tube Hardware and APSR burnups > 180,000 MWD/MTU and < 630,000 MWD/MTU must be cooled > 14 years and > 11 years, respectively.
: 3. Applicable to uniform loading and regionalized loading.
: 4. Includes Burnable Poison Rod Assemblies (BPRAs), Wet Annular Burnable Absorbers (WABAs), and vibration suppressor inserts.
: 5. Includes Thimble Plug Devices (TPDs), water displacement guide tube plugs, and orifice rod assemblies.
: 6. Includes Control Rod Assemblies (CRAs), Control Element Assemblies (CEAs), and Rod Cluster Control Assemblies (RCCAs).
: 7. NA means not authorized for loading at this cooling time.
: 8. Non-fuel hardware burnup and cooling times are not applicable to ITTRs since they are installed post irradiation.
Certificate of Compliance No. 1014                                                Amendment No. 12 Appendix B-100U                                    2-25
 
Approved Contents 2.0 2.4    Decay Heat, Burnup, and Cooling Time Limits for ZR-Clad Fuel This section provides the limits on ZR-clad fuel assembly decay heat, burnup, and cooling time for storage in the HI-STORM 100 System Model 100U. The method to calculate the limits and verify compliance, including examples, is provided in Chapter 12 of the HI-STORM 100 FSAR.
2.4.1 Uniform Fuel Loading Decay Heat Limits for ZR-clad fuel Table 2.4-1 provides the maximum allowable decay heat per fuel storage location for ZR-clad fuel in uniform fuel loading for each MPC model.
Table 2.4-1 Maximum Allowable Decay Heat per Fuel Storage Location (Uniform Loading, ZR-Clad)
MPC Model              Decay Heat per Fuel Storage Location (kW)
Intact Fuel Assemblies MPC-24                      < 1.266 MPC-24E                      < 1.266 MPC-32                      < 0.949 MPC-68                      < 0.447 Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                              2-26
 
Approved Contents 2.0 2.4.2 Regionalized Fuel Loading Decay Heat Limits for ZR-Clad Fuel (INTACT FUEL only)
The maximum allowable decay heat per fuel storage location for fuel in regionalized loading is determined using the following equations:
Q(X) = 2 x  x Q0 / (1 + Xy) y = 0.23 / X0.1 q2 = Q(X) / (n1 x X +n2) q1 = q2 x X Where:
Q0 = Maximum uniform storage MPC decay heat (34 kW)
              = Penalty Factor (0.894)
X = Inner region to outer region assembly decay heat ratio (0.5 < X < 3) n1 = Number of storage locations in inner region from Table 2.4-2.
n2 = Number of storage locations in outer region from Table 2.4-2.
Table 2.4-2 Fuel Storage Regions per MPC MPC Model                Number of Storage Locations    Number of Storage in Inner Region (Region 1)    Locations in Outer Region (Region 2)
MPC-24 and MPC-24E                            12                      12 MPC-32                                12                      20 MPC-68                                32                      36 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                                2-27
 
Approved Contents 2.0 2.4.3 Burnup Limits as a Function of Cooling Time for ZR-Clad Fuel The maximum allowable fuel assembly average burnup varies with the following parameters:
                $ Minimum fuel assembly cooling time
                $ Maximum fuel assembly decay heat
                $ Minimum fuel assembly average enrichment The maximum allowable ZR-clad fuel assembly average burnup for a given MINIMUM ENRICHMENT is calculated as described below for minimum cooling times between 3 and 20 years using the maximum permissible decay heat determined in Section 2.4.1 or 2.4.2. Different fuel assembly average burnup limits may be calculated for different minimum enrichments (by individual fuel assembly) for use in choosing the fuel assemblies to be loaded into a given MPC.
2.4.3.1 Choose a fuel assembly minimum enrichment, E235.
2.4.3.2 Calculate the maximum allowable fuel assembly average burnup for a minimum cooling time between 3 and 20 years using the equation below.
Bu = (A x q) + (B x q2) + (C x q3) + [D x (E235)2] + (E x q x E235) + (F x q2 x E235) + G Where:
Bu = Maximum allowable average burnup per fuel assembly (MWD/MTU) q=    Maximum allowable decay heat per fuel storage location determined in Section 2.4.1 or 2.4.2 (kW)
E235 =Minimum fuel assembly average enrichment (wt. % 235U)
(e.g., for 4.05 wt.%, use 4.05)
A through G = Coefficients from Tables 2.4-3 and 2.4-4 for the applicable fuel assembly array/class and minimum cooling time Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                              2-28
 
Approved Contents 2.0 2.4.3.3  Calculated burnup limits shall be rounded down to the nearest integer.
2.4.3.4  Calculated burnup limits greater than 68,200 MWD/MTU for PWR fuel and 65,000 MWD/MTU for BWR must be reduced to be equal to these values.
2.4.3.5  Linear interpolation of calculated burnups between cooling times for a given fuel assembly maximum decay heat and minimum enrichment is permitted. For example, the allowable burnup for a cooling time of 4.5 years may be interpolated between those burnups calculated for 4 year and 5 years.
2.4.3.6  Each ZR-clad fuel assembly to be stored must have a MINIMUM ENRICHMENT greater than or equal to the value used in Step 2.4.3.2.
2.4.4 When complying with the maximum fuel storage location decay heat limits, users must account for the decay heat from both the fuel assembly and any NON-FUEL HARDWARE, as applicable for the particular fuel storage location, to ensure the decay heat emitted by all contents in a storage location does not exceed the limit.
Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-29
 
Approved Contents 2.0 Table 2.4-3 (Page 1 of 8)
PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 14x14A Time (years)          A          B          C          D          E        F        G
    >3        19311.5    275.367    -59.0252    -139.41    2851.12 -451.845  -615.413
    >4        33865.9    -5473.03  851.121    -132.739    3408.58 -656.479  -609.523
    >5        46686.2    -13226.9  2588.39    -150.149    3871.87 -806.533  -90.2065
    >6        56328.9    -20443.2  4547.38    -176.815    4299.19 -927.358  603.192
    >7          64136    -27137.5  6628.18    -200.933    4669.22 -1018.94  797.162
    >8        71744.1    -34290.3    9036.9    -214.249    4886.95 -1037.59  508.703
    >9          77262    -39724.2    11061        -228.2    5141.35 -1102.05  338.294
  > 10        82939.8    -45575.6  13320.2    -233.691    5266.25 -1095.94  -73.3159
  > 11          86541    -49289.6  14921.7    -242.092    5444.54  -1141.6  -83.0603
  > 12          91383    -54456.7    17107      -242.881    5528.7  -1149.2  -547.579
  > 13        95877.6    -59404.7    19268      -240.36    5524.35 -1094.72  -933.64
  > 14        97648.3    -61091.6  20261.7    -244.234    5654.56 -1151.47  -749.836
  > 15        102533    -66651.5  22799.7    -240.858    5647.05 -1120.32  -1293.34
  > 16        106216    -70753.8  24830.1      -237.04    5647.63 -1099.12  -1583.89
  > 17        109863    -75005    27038      -234.299    5652.45 -1080.98  -1862.07
  > 18        111460    -76482.3  28076.5    -234.426    5703.52 -1104.39  -1695.77
  > 19        114916    -80339.6  30126.5      -229.73    5663.21 -1065.48  -1941.83
  > 20        119592    -86161.5  33258.2    -227.256    5700.49 -1100.21  -2474.01 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-30
 
Approved Contents 2.0 Table 2.4-3 (Page 2 of 8)
PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 14x14B Time (years)        A          B          C          D          E        F        G
    >3        18036.1    63.7639  -24.7251    -130.732    2449.87 -347.748  -858.192
    >4        30303.4    -4304.2    598.79    -118.757    2853.18 -486.453  -459.902
    >5        40779.6    -9922.93    1722.83    -138.174    3255.69 -608.267  245.251
    >6        48806.7    -15248.9    3021.47    -158.69    3570.24 -689.876  833.917
    >7        55070.5    -19934.6    4325.62    -179.964    3870.33 -765.849  1203.89
    >8        60619.6    -24346    5649.29    -189.701    4042.23 -795.324  1158.12
    >9        64605.7    -27677.1    6778.12    -205.459    4292.35 -877.966  1169.88
  > 10        69083.8    -31509.4    8072.42    -206.157    4358.01 -875.041  856.449
  > 11        72663.2    -34663.9    9228.96    -209.199    4442.68 -889.512  671.567
  > 12        74808.9    -36367    9948.88    -214.344    4571.29 -942.418  765.261
  > 13        78340.3    -39541.1    11173.8      -212.8    4615.06 -957.833  410.807
  > 14        81274.8    -42172.3    12259.9    -209.758    4626.13 -958.016    190.59
  > 15        83961.4    -44624.5    13329.1    -207.697    4632.16 -952.876  20.8575
  > 16        84968.5    -44982.1    13615.8    -207.171    4683.41 -992.162    247.54
  > 17        87721.6    -47543.1    14781.4    -203.373    4674.3 -988.577  37.9689
  > 18        90562.9    -50100.4    15940.4    -198.649    4651.64 -982.459  -247.421
  > 19        93011.6    -52316.6    17049.9    -194.964    4644.76  -994.63  -413.021
  > 20        95567.8    -54566.6    18124      -190.22    4593.92 -963.412  -551.983 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-31
 
Approved Contents 2.0 Table 2.4-3 (Page 3 of 8)
PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 14x14C Time (years)        A          B          C          D          E      F          G
    >3        18263.7    174.161    -57.6694    -138.112    2539.74 -369.764  -1372.33
    >4        30514.5  -4291.52    562.37    -124.944    2869.17 -481.139  -889.883
    >5          41338    -10325.7    1752.96    -141.247    3146.48 -535.709  -248.078
    >6        48969.7  -15421.3    2966.33    -163.574    3429.74 -587.225  429.331
    >7        55384.6  -20228.9    4261.47    -180.846    3654.55 -617.255  599.251
    >8        60240.2  -24093.2    5418.86    -199.974    3893.72 -663.995  693.934
    >9          64729    -27745.7    6545.45    -205.385    3986.06 -650.124  512.528
  > 10        68413.7  -30942.2    7651.29    -216.408    4174.71 -702.931  380.431
  > 11        71870.6  -33906.7    8692.81    -218.813    4248.28 -704.458  160.645
  > 12        74918.4    -36522    9660.01    -218.248    4283.68 -696.498  -29.0682
  > 13        77348.3  -38613.7    10501.8    -220.644    4348.23 -702.266  -118.646
  > 14        79817.1  -40661.8    11331.2    -218.711    4382.32 -710.578  -236.123
  > 15        82354.2  -42858.3    12257.3    -215.835    4405.89 -718.805  -431.051
  > 16        84787.2  -44994.5    13185.9    -213.386    4410.99 -711.437  -572.104
  > 17        87084.6  -46866.1    14004.8    -206.788    4360.3 -679.542  -724.721
  > 18        88083.1  -47387.1    14393.4    -208.681    4420.85 -709.311  -534.454
  > 19        90783.6  -49760.6    15462.7    -203.649    4403.3 -705.741  -773.066
  > 20        93212    -51753.3    16401.5    -197.232    4361.65 -692.925  -964.628 Certificate of Compliance No. 1014                                    Amendment No. 12 Appendix B-100U                              2-32
 
Approved Contents 2.0 Table 2.4-3 (Page 4 of 8)
PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                Array/Class 15x15A/B/C Time (years)        A          B          C          D          E        F        G
    >3        15037.3    108.689    -18.8378    -127.422    2050.02 -242.828  -580.66
    >4        25506.6  -2994.03    356.834      -116.45    2430.25 -350.901  -356.378
    >5        34788.8  -7173.07    1065.9    -124.785    2712.23 -424.681  267.705
    >6        41948.6  -11225.3    1912.12    -145.727    3003.29 -489.538  852.112
    >7        47524.9  -14770.9    2755.16    -165.889    3253.9  -542.7  1146.96
    >8        52596.9  -18348.8    3699.72      -177.17    3415.69 -567.012  1021.41
    >9        56055.4  -20837.1    4430.93    -192.168    3625.93 -623.325  1058.61
  > 10        59611.3  -23402.1    5179.52    -195.105    3699.18 -626.448  868.517
  > 11        62765.3  -25766.5    5924.71      -195.57    3749.91 -627.139  667.124
  > 12        65664.4  -28004.8    6670.75      -195.08    3788.33 -628.904  410.783
  > 13        67281.7  -29116.7    7120.59    -202.817    3929.38 -688.738  492.309
  > 14        69961.4  -31158.6    7834.02    -197.988    3917.29 -677.565  266.561
  > 15        72146    -32795.7    8453.67    -195.083    3931.47 -681.037  99.0606
  > 16        74142.6  -34244.8    9023.57    -190.645    3905.54 -663.682  10.8885
  > 17        76411.4  -36026.3    9729.98    -188.874    3911.21 -663.449  -151.805
  > 18        77091    -36088    9884.09    -188.554    3965.08  -708.55  59.3839
  > 19        79194.5  -37566.4    10477.5    -181.656    3906.93  -682.4  -117.952
  > 20        81600.4  -39464.5    11281.9    -175.182    3869.49 -677.179  -367.705 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-33
 
Approved Contents 2.0 Table 2.4-3 (Page 5 of 8)
PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                              Array/Class 15x15D/E/F/H Time (years)        A          B          C          D          E      F          G
    >3        14376.7    102.205    -20.6279    -126.017    1903.36 -210.883  -493.065
    >4        24351.4  -2686.57    297.975    -110.819    2233.78 -301.615  -152.713
    >5        33518.4  -6711.35    958.544      -122.85    2522.7 -371.286  392.608
    >6          40377    -10472.4    1718.53    -144.535    2793.29 -426.436  951.528
    >7        46105.8  -13996.2    2515.32    -157.827    2962.46 -445.314  1100.56
    >8        50219.7  -16677.7    3198.3    -175.057    3176.74 -492.727  1223.62
    >9        54281.2  -19555.6    3983.47    -181.703    3279.03 -499.997  1034.55
  > 10        56761.6  -21287.3    4525.98    -195.045    3470.41 -559.074    1103.3
  > 11        59820    -23445.2    5165.43    -194.997    3518.23 -561.422    862.68
  > 12        62287.2  -25164.6    5709.9    -194.771    3552.69 -561.466  680.488
  > 13        64799    -27023.7    6335.16    -192.121    3570.41 -561.326  469.583
  > 14        66938.7  -28593.1    6892.63    -194.226    3632.92 -583.997  319.867
  > 15        68116.5  -29148.6    7140.09    -192.545    3670.39 -607.278  395.344
  > 16        70154.9  -30570.1    7662.91    -187.366    3649.14 -597.205  232.318
  > 17        72042.5  -31867.6    8169.01    -183.453    3646.92 -603.907  96.0388
  > 18        73719.8  -32926.1    8596.12    -177.896    3614.57 -592.868  46.6774
  > 19        75183.1  -33727.4    8949.64    -172.386    3581.13 -586.347  3.57256
  > 20        77306.1    -35449    9690.02    -173.784    3636.87 -626.321  -205.513 Certificate of Compliance No. 1014                                    Amendment No. 12 Appendix B-100U                              2-34
 
Approved Contents 2.0 Table 2.4-3 (Page 6 of 8)
PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 16X16A Time (years)        A          B          C          D          E        F        G
    >3        16226.8    143.714    -32.4809    -136.707    2255.33 -291.683  -699.947
    >4        27844.2  -3590.69    444.838    -124.301    2644.09 -411.598  -381.106
    >5        38191.5  -8678.48    1361.58    -132.855    2910.45 -473.183  224.473
    >6        46382.2  -13819.6    2511.32    -158.262    3216.92 -532.337  706.656
    >7        52692.3    -18289    3657.18    -179.765    3488.3 -583.133  908.839
    >8        57758.7  -22133.7    4736.88    -199.014    3717.42  -618.83  944.903
    >9        62363.3  -25798.7    5841.18    -207.025    3844.38 -625.741  734.928
  > 10        66659.1  -29416.3    6993.31    -216.458    3981.97 -642.641  389.366
  > 11        69262.7  -31452.7    7724.66    -220.836    4107.55 -681.043  407.121
  > 12        72631.5  -34291.9    8704.8    -219.929    4131.5 -662.513  100.093
  > 13        75375.3  -36589.3    9555.88    -217.994    4143.15 -644.014  -62.3294
  > 14        78178.7  -39097.1    10532      -221.923    4226.28 -667.012  -317.743
  > 15        79706.3    -40104    10993.3    -218.751    4242.12 -670.665  -205.579
  > 16        82392.6  -42418.9    11940.7    -216.278    4274.09 -689.236  -479.752
  > 17        84521.8  -44150.5    12683.3    -212.056    4245.99 -665.418  -558.901
  > 18        86777.1  -45984.8    13479      -204.867    4180.8 -621.805  -716.366
  > 19        89179.7  -48109.8    14434.5    -206.484    4230.03 -648.557    -902.1
  > 20        90141.7  -48401.4    14702.6    -203.284    4245.54 -670.655  -734.604 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-35
 
Approved Contents 2.0 Table 2.4-3 (Page 7 of 8)
PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                            Array/Class 17x17A/16x16B/C Time (years)        A          B          C          D          E        F        G
    >3        15985.1    3.53963  -9.04955    -128.835    2149.5 -260.415  -262.997
    >4        27532.9    -3494.41  428.199    -119.504    2603.01  -390.91  -140.319
    >5        38481.2    -8870.98  1411.03    -139.279    3008.46 -492.881  388.377
    >6        47410.9    -14479.6  2679.08      -162.13    3335.48 -557.777  702.164
    >7        54596.8    -19703.2  4043.46    -181.339    3586.06 -587.634    804.05
    >8        60146.1    -24003.4  5271.54    -201.262    3830.32 -621.706  848.454
    >9        65006.3    -27951    6479.04    -210.753    3977.69 -627.805    615.84
  > 10        69216    -31614.7  7712.58    -222.423    4173.4  -672.33  387.879
  > 11        73001.3    -34871.1  8824.44    -225.128    4238.28 -657.259  101.654
  > 12        76326.1    -37795.9  9887.35    -226.731    4298.11  -647.55  -122.236
  > 13        78859.9    -40058.9  10797.1    -231.798    4402.14 -669.982  -203.383
  > 14        82201.3    -43032.5  11934.1    -228.162    4417.99  -661.61  -561.969
  > 15        84950    -45544.6  12972.4    -225.369    4417.84 -637.422  -771.254
  > 16        87511.8    -47720    13857.7    -219.255    4365.24 -585.655  -907.775
  > 17        90496.4    -50728.9    15186      -223.019    4446.51 -613.378  -1200.94
  > 18        91392.5    -51002.4  15461.4    -220.272    4475.28 -636.398  -1003.81
  > 19        94343.9    -53670.8  16631.6    -214.045    4441.31 -616.201  -1310.01
  > 20        96562.9    -55591.2  17553.4    -209.917    4397.67 -573.199  -1380.64 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-36
 
Approved Contents 2.0 Table 2.4-3 (Page 8 of 8)
PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 17x17B/C Time (years)        A          B          C          D          E        F        G
    >3          14738    47.5402    -13.8187    -127.895    1946.58 -219.289  -389.029
    >4        25285.2  -3011.92    350.116      -115.75    2316.89  -319.23  -220.413
    >5        34589.6  -7130.34    1037.26    -128.673    2627.27  -394.58  459.642
    >6        42056.2  -11353.7    1908.68    -150.234    2897.38 -444.316  923.971
    >7        47977.6  -15204.8    2827.4    -173.349    3178.25  -504.16  1138.82
    >8          52924    -18547.6    3671.08    -183.025    3298.64 -501.278  1064.68
    >9        56465.5  -21139.4    4435.67    -200.386    3538  -569.712  1078.78
  > 10        60190.9  -23872.7    5224.31    -203.233    3602.88 -562.312  805.336
  > 11        63482.1  -26431.1    6035.79    -205.096    3668.84 -566.889  536.011
  > 12        66095    -28311.8    6637.72    -204.367    3692.68 -555.305  372.223
  > 13        67757.4  -29474.4    7094.08    -211.649    3826.42 -606.886  437.412
  > 14        70403.7  -31517.4    7807.15    -207.668    3828.69 -601.081    183.09
  > 15        72506.5  -33036.1    8372.59    -203.428    3823.38 -594.995  47.5175
  > 16        74625.2  -34620.5    8974.32    -199.003    3798.57 -573.098  -95.0221
  > 17        76549    -35952.6    9498.14    -193.459    3766.52 -556.928  -190.662
  > 18        77871.9  -36785.5    9916.91    -195.592    3837.65  -599.45  -152.261
  > 19        79834.8  -38191.6    10501.9      -190.83    3812.46 -589.635  -286.847
  > 20        81975.5  -39777.2    11174.5    -185.767    3795.78 -595.664  -475.978 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-37
 
Approved Contents 2.0 Table 2.4-4 (Page 1 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 7x7B Time (years)        A          B          C          D          E        F        G
    >3        26409.1    28347.5    -16858    -147.076    5636.32 -1606.75  1177.88
    >4        61967.8  -6618.31  -4131.96    -113.949    6122.77 -2042.85  -96.7439
    >5        91601.1  -49298.3    17826.5    -132.045    6823.14 -2418.49  -185.189
    >6          111369  -80890.1    35713.8    -150.262    7288.51  -2471.1  86.6363
    >7          126904    -108669    53338.1    -167.764    7650.57 -2340.78  150.403
    >8          139181    -132294    69852.5    -187.317    8098.66 -2336.13  97.5285
    >9          150334    -154490    86148.1    -193.899    8232.84 -2040.37  -123.029
  > 10        159897    -173614    100819    -194.156    8254.99 -1708.32  -373.605
  > 11        166931    -186860    111502    -193.776    8251.55 -1393.91  -543.677
  > 12        173691    -201687    125166    -202.578    8626.84  -1642.3  -650.814
  > 13        180312    -215406    137518    -201.041    8642.19 -1469.45  -810.024
  > 14        185927    -227005    148721    -197.938      8607.6 -1225.95  -892.876
  > 15        191151    -236120    156781    -191.625    8451.86  -846.27  -1019.4
  > 16        195761    -244598    165372    -187.043    8359.19 -572.561  -1068.19
  > 17        200791    -256573    179816      -197.26    8914.28 -1393.37  -1218.63
  > 18        206068    -266136    188841    -187.191    8569.56 -730.898  -1363.79
  > 19        210187    -273609    197794    -182.151    8488.23 -584.727  -1335.59
  > 20        213731    -278120    203074    -175.864    8395.63 -457.304  -1364.38 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-38
 
Approved Contents 2.0 Table 2.4-4 (Page 2 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 8x8B Time (years)        A          B          C          D          E        F        G
    >3        28219.6    28963.7  -17616.2    -147.68    5887.41 -1730.96  1048.21
    >4        66061.8  -10742.4  -1961.82    -123.066    6565.54 -2356.05  -298.005
    >5        95790.7  -53401.7    19836.7    -134.584    7145.41 -2637.09  -298.858
    >6          117477  -90055.9    41383.9    -154.758    7613.43 -2612.69  -64.9921
    >7          134090    -120643    60983    -168.675      7809    -2183.3  -40.8885
    >8          148186    -149181    81418.7    -185.726    8190.07 -2040.31  -260.773
    >9          159082    -172081    99175.2    -197.185    8450.86 -1792.04  -381.705
  > 10        168816    -191389    113810    -195.613    8359.87 -1244.22  -613.594
  > 11        177221    -210599    131099      -208.3      8810  -1466.49  -819.773
  > 12        183929    -224384    143405    -207.497    8841.33 -1227.71  -929.708
  > 13        191093    -240384    158327      -204.95    8760.17 -811.708  -1154.76
  > 14        196787    -252211    169664    -204.574    8810.95 -610.928  -1208.97
  > 15        203345    -267656    186057    -208.962    9078.41 -828.954  -1383.76
  > 16        207973    -276838    196071    -204.592    9024.17 -640.808  -1436.43
  > 17        213891    -290411    211145    -202.169    9024.19  -482.1  -1595.28
  > 18        217483    -294066    214600    -194.243    8859.35 -244.684  -1529.61
  > 19        220504    -297897    219704    -190.161    8794.97 -10.9863  -1433.86
  > 20        227821    -318395    245322    -194.682    9060.96 -350.308  -1741.16 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-39
 
Approved Contents 2.0 Table 2.4-4 (Page 3 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 8x8C/D/E Time (years)        A          B          C          D          E        F        G
    >3        28592.7    28691.5  -17773.6    -149.418    5969.45 -1746.07  1063.62
    >4        66720.8  -12115.7    -1154      -128.444    6787.16 -2529.99  -302.155
    >5        96929.1  -55827.5    21140.3    -136.228    7259.19 -2685.06  -334.328
    >6          118190  -92000.2    42602.5    -162.204    7907.46 -2853.42  -47.5465
    >7          135120    -123437    62827.1    -172.397    8059.72 -2385.81  -75.0053
    >8          149162    -152986    84543.1    -195.458    8559.11 -2306.54  -183.595
    >9          161041    -177511    103020      -200.087    8632.84  -1864.4  -433.081
  > 10        171754    -201468    122929      -209.799    8952.06 -1802.86  -755.742
  > 11        179364    -217723    137000      -215.803    9142.37 -1664.82  -847.268
  > 12        186090    -232150    150255      -216.033    9218.36 -1441.92  -975.817
  > 13        193571    -249160    165997      -213.204    9146.99 -1011.13  -1119.47
  > 14        200034    -263671    180359      -210.559    9107.54 -694.626  -1312.55
  > 15        205581    -275904    193585      -216.242    9446.57 -1040.65  -1428.13
  > 16        212015    -290101    207594      -210.036    9212.93 -428.321  -1590.7
  > 17        216775    -299399    218278      -204.611    9187.86 -398.353  -1657.6
  > 18        220653    -306719    227133      -202.498    9186.34 -181.672  -1611.86
  > 19        224859    -314004    235956      -193.902    8990.14  145.151  -1604.71
  > 20        228541    -320787    245449      -200.727    9310.87 -230.252  -1570.18 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-40
 
Approved Contents 2.0 Table 2.4-4 (Page 4 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 9x9A Time (years)        A          B          C          D            E        F        G
    >3        30538.7    28463.2  -18105.5    -150.039    6226.92 -1876.69  1034.06
    >4        71040.1  -16692.2    1164.15    -128.241    7105.27 -2728.58  -414.09
    >5          100888  -60277.7    24150.1    -142.541    7896.11 -3272.86  -232.197
    >6          124846    -102954    50350.8    -161.849    8350.16 -3163.44  -91.1396
    >7          143516    -140615    76456.5    -185.538    8833.04 -2949.38  -104.802
    >8          158218    -171718    99788.2    -196.315    9048.88 -2529.26  -259.929
    >9          172226    -204312    126620    -214.214    9511.56 -2459.19  -624.954
  > 10        182700    -227938    146736    -215.793    9555.41 -1959.92  -830.943
  > 11        190734    -246174    163557    -218.071    9649.43  -1647.5  -935.021
  > 12        199997    -269577    186406    -223.975    9884.92 -1534.34  -1235.27
  > 13        207414    -287446    204723    -228.808    10131.7 -1614.49  -1358.61
  > 14        215263    -306131    223440    -220.919    9928.27 -988.276  -1638.05
  > 15        221920    -321612    239503    -217.949    9839.02 -554.709  -1784.04
  > 16        226532    -331778    252234    -216.189    9893.43 -442.149  -1754.72
  > 17        232959    -348593    272609    -219.907    10126.3  -663.84  -1915.3
  > 18        240810    -369085    296809    -219.729    10294.6 -859.302  -2218.87
  > 19        244637    -375057    304456    -210.997    10077.8 -425.446  -2127.83
  > 20        248112    -379262    309391    -204.191    9863.67  100.27  -2059.39 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-41
 
Approved Contents 2.0 Table 2.4-4 (Page 5 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 9x9B Time (years)        A          B          C          D          E        F        G
    >3        30613.2    28985.3    -18371    -151.117    6321.55 -1881.28    988.92
    >4        71346.6  -15922.9  631.132    -128.876    7232.47 -2810.64  -471.737
    >5          102131  -60654.1  23762.7    -140.748      7881.6 -3156.38  -417.979
    >6          127187    -105842  51525.2    -162.228      8307.4 -2913.08  -342.13
    >7          146853    -145834  79146.5    -185.192    8718.74 -2529.57  -484.885
    >8          162013    -178244    103205    -197.825    8896.39 -1921.58  -584.013
    >9          176764    -212856    131577      -215.41    9328.18 -1737.12  -1041.11
  > 10        186900    -235819    151238      -218.98    9388.08 -1179.87  -1202.83
  > 11        196178    -257688    171031    -220.323    9408.47  -638.53  -1385.16
  > 12        205366    -280266    192775    -223.715    9592.12 -472.261  -1661.6
  > 13        215012    -306103    218866    -231.821    9853.37 -361.449  -1985.56
  > 14        222368    -324558    238655    -228.062    9834.57  3.47358  -2178.84
  > 15        226705    -332738    247316    -224.659    9696.59  632.172  -2090.75
  > 16        233846    -349835    265676    -221.533    9649.93  913.747  -2243.34
  > 17        243979    -379622    300077    -222.351    9792.17  1011.04  -2753.36
  > 18        247774    -386203    308873    -220.306    9791.37  1164.58  -2612.25
  > 19        254041    -401906    327901      -213.96    9645.47  1664.94  -2786.2
  > 20        256003    -402034    330566    -215.242    9850.42  1359.46  -2550.06 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-42
 
Approved Contents 2.0 Table 2.4-4 (Page 6 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 9x9C/D Time (years)        A          B          C          D          E        F        G
    >3        30051.6    29548.7  -18614.2    -148.276    6148.44 -1810.34    1006
    >4        70472.7  -14696.6  -233.567    -127.728    7008.69 -2634.22  -444.373
    >5          101298  -59638.9    23065.2    -138.523    7627.57 -2958.03  -377.965
    >6          125546    -102740    49217.4    -160.811    8096.34 -2798.88  -259.767
    >7          143887    -139261    74100.4    -184.302    8550.86 -2517.19  -275.151
    >8          159633    -172741    98641.4    -194.351    8636.89 -1838.81  -486.731
    >9          173517    -204709    124803    -212.604    9151.98 -1853.27  -887.137
  > 10        182895    -225481    142362    -218.251    9262.59 -1408.25  -978.356
  > 11        192530    -247839    162173    -217.381    9213.58 -818.676  -1222.12
  > 12        201127    -268201    181030    -215.552    9147.44 -232.221  -1481.55
  > 13        209538    -289761    203291    -225.092    9588.12 -574.227  -1749.35
  > 14        216798    -306958    220468    -222.578    9518.22 -69.9307  -1919.71
  > 15        223515    -323254    237933    -217.398    9366.52  475.506  -2012.93
  > 16        228796    -334529    250541    -215.004    9369.33  662.325  -2122.75
  > 17        237256    -356311    273419    -206.483    9029.55  1551.3  -2367.96
  > 18        242778    -369493    290354    -215.557    9600.71  659.297  -2589.32
  > 19        246704    -377971    302630    -210.768    9509.41  1025.34  -2476.06
  > 20        249944    -382059    308281    -205.495    9362.63  1389.71  -2350.49 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-43
 
Approved Contents 2.0 Table 2.4-4 (Page 7 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 9x9E/F Time (years)        A          B        C          D          E        F        G
    >3        30284.3    26949.5  -16926.4    -147.914    6017.02 -1854.81  1026.15
    >4        69727.4  -17117.2    1982.33    -127.983    6874.68 -2673.01  -359.962
    >5        98438.9    -58492    23382.2    -138.712    7513.55 -3038.23  -112.641
    >6          119765  -95024.1    45261    -159.669    8074.25 -3129.49  221.182
    >7          136740    -128219    67940.1    -182.439    8595.68 -3098.17  315.544
    >8          150745    -156607    88691.5    -193.941    8908.73 -2947.64  142.072
    >9          162915    -182667    109134      -198.37    8999.11  -2531  -93.4908
  > 10        174000    -208668    131543    -210.777    9365.52 -2511.74  -445.876
  > 11        181524    -224252    145280    -212.407    9489.67 -2387.49  -544.123
  > 12        188946    -240952    160787      -210.65      9478.1 -2029.94  -652.339
  > 13        193762    -250900    171363    -215.798    9742.31 -2179.24  -608.636
  > 14        203288    -275191    196115    -218.113      9992.5 -2437.71  -1065.92
  > 15        208108    -284395    205221    -213.956    9857.25 -1970.65  -1082.94
  > 16        215093    -301828    224757    -209.736    9789.58 -1718.37  -1303.35
  > 17        220056    -310906    234180    -201.494    9541.73 -1230.42  -1284.15
  > 18        224545    -320969    247724    -206.807    9892.97 -1790.61  -1381.9
  > 19        226901    -322168    250395    -204.073    9902.14 -1748.78  -1253.22
  > 20        235561    -345414    276856    -198.306    9720.78 -1284.14  -1569.18 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-44
 
Approved Contents 2.0 Table 2.4-4 (Page 8 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 9x9G Time (years)        A          B          C          D          E        F        G
    >3        35158.5    26918.5  -17976.7    -149.915    6787.19 -2154.29  836.894
    >4        77137.2  -19760.1    2371.28    -130.934    8015.43 -3512.38  -455.424
    >5          113405  -77931.2    35511.2    -150.637    8932.55 -4099.48  -629.806
    >6          139938    -128700    68698.3    -173.799    9451.22 -3847.83  -455.905
    >7          164267    -183309    109526    -193.952    9737.91 -3046.84  -737.992
    >8          182646    -227630    146275    -210.936    10092.3  -2489.3  -1066.96
    >9          199309    -270496    184230    -218.617    10124.3 -1453.81  -1381.41
  > 10        213186    -308612    221699    -235.828    10703.2 -1483.31  -1821.73
  > 11        225587    -342892    256242    -236.112    10658.5 -612.076  -2134.65
  > 12        235725    -370471    285195    -234.378    10604.9  118.591  -2417.89
  > 13        247043    -404028    323049      -245.79    11158.2 -281.813  -2869.82
  > 14        253649    -421134    342682    -243.142    11082.3  400.019  -2903.88
  > 15        262750    -448593    376340    -245.435    11241.2  581.355  -3125.07
  > 16        270816    -470846    402249    -236.294    10845.4  1791.46  -3293.07
  > 17        279840    -500272    441964    -241.324    11222.6  1455.84  -3528.25
  > 18        284533    -511287    458538    -240.905    11367.2  1459.68  -3520.94
  > 19        295787    -545885    501824    -235.685    11188.2  2082.21  -3954.2
  > 20        300209    -556936    519174    -229.539      10956  2942.09  -3872.87 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-45
 
Approved Contents 2.0 Table 2.4-4 (Page 9 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                Array/Class 10x10A/B Time (years)        A          B        C          D          E      F          G
    >3        29285.4    27562.2    -16985    -148.415    5960.56 -1810.79  1001.45
    >4        67844.9    -14383  395.619    -127.723    6754.56 -2547.96  -369.267
    >5        96660.5  -55383.8  21180.4      -137.17      7296.6 -2793.58  -192.85
    >6          118098    -91995    42958    -162.985    7931.44 -2940.84  60.9197
    >7          135115    -123721  63588.9    -171.747    8060.23 -2485.59  73.6219
    >8          148721    -151690  84143.9      -190.26    8515.81 -2444.25  -63.4649
    >9          160770    -177397    104069    -197.534      8673.6 -2101.25  -331.046
  > 10        170331    -198419    121817    -213.692    9178.33 -2351.54  -472.844
  > 11        179130    -217799    138652      -209.75    9095.43 -1842.88  -705.254
  > 12        186070    -232389    151792    -208.946    9104.52 -1565.11  -822.73
  > 13        192407    -246005    164928    -209.696      9234.7 -1541.54  -979.245
  > 14        200493    -265596    183851    -207.639    9159.83 -1095.72  -1240.61
  > 15        205594    -276161    195760    -213.491    9564.23 -1672.22  -1333.64
  > 16        209386    -282942    204110    -209.322    9515.83 -1506.86  -1286.82
  > 17        214972    -295149    217095    -202.445    9292.34  -893.6  -1364.97
  > 18        219312    -302748    225826    -198.667    9272.27 -878.536  -1379.58
  > 19        223481    -310663    235908    -194.825      9252.9 -785.066  -1379.62
  > 20        227628    -319115    247597    -199.194    9509.02 -1135.23  -1386.19 Certificate of Compliance No. 1014                                    Amendment No. 12 Appendix B-100U                              2-46
 
Approved Contents 2.0 Table 2.4-4 (Page 10 of 10)
BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)
Cooling                                  Array/Class 10x10C Time (years)          A        B            C          D          E        F        G
    >3        31425.3    27358.9    -17413.3    -152.096    6367.53 -1967.91  925.763
    >4          71804  -16964.1      1000.4    -129.299    7227.18 -2806.44  -416.92
    >5          102685  -62383.3    24971.2    -142.316      7961  -3290.98  -354.784
    >6          126962    -105802    51444.6    -164.283    8421.44 -3104.21  -186.615
    >7          146284    -145608    79275.5    -188.967    8927.23 -2859.08  -251.163
    >8          162748    -181259    105859    -199.122    9052.91 -2206.31  -554.124
    >9          176612    -214183    133261      -217.56    9492.17 -1999.28  -860.669
  > 10        187756    -239944    155315      -219.56    9532.45  -1470.9  -1113.42
  > 11        196580    -260941    174536    -222.457    9591.64 -944.473  -1225.79
  > 12        208017    -291492    204805    -233.488    10058.3 -1217.01  -1749.84
  > 13        214920    -307772    221158    -234.747    10137.1  -897.23  -1868.04
  > 14        222562    -326471    240234    -228.569    9929.34  -183.47  -2016.12
  > 15        228844    -342382    258347    -226.944    9936.76  117.061  -2106.05
  > 16        233907    -353008    270390    -223.179    9910.72  360.39  -2105.23
  > 17        244153    -383017    304819    -227.266    10103.2  380.393  -2633.23
  > 18        249240    -395456    321452    -226.989    10284.1  169.947  -2623.67
  > 19        254343    -406555    335240    -220.569    10070.5  764.689  -2640.2
  > 20        260202    -421069    354249    -216.255    10069.9  854.497  -2732.77 Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              2-47
 
Design Features 3.0 3.0    DESIGN FEATURES 3.1    Site 3.1.1  Site Location The HI-STORM 100 Cask System is authorized for general use by 10 CFR Part 50 license holders at various site locations under the provisions of 10 CFR 72, Subpart K.
3.2    Design Features Important for Criticality Control 3.2.1    MPC-24
: 1.      Flux trap size:  1.09 in.
10
: 2.        B loading in the neutron absorbers:  0.0267 g/cm2 (Boral) and 0.0223 g/cm2 (METAMIC) 3.2.2  MPC-68
: 1.      Fuel cell pitch:  6.43 in.
10
: 2.        B loading in the neutron absorbers:  0.0372 g/cm2 (Boral) and 0.0310 g/cm2 (METAMIC) 3.2.3  MPC-24E
: 1. Flux trap size:
: i. Cells 3, 6, 19, and 22:  0.776 inch ii. All Other Cells:  1.076 inches 10
: 2.      B loading in the neutron absorbers:  0.0372 g/cm2 (Boral) and 0.0310 g/cm2 (METAMIC) 3.2.4  MPC-32
: 1. Fuel cell pitch:  9.158 inches 10
: 2.      B loading in the neutron absorbers:  0.0372 g/cm2 (Boral) and 0.0310 g/cm2 (METAMIC) 3.2.5  Not Used Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                                3-1
 
Design Features 3.0 DESIGN FEATURES 3.2    Design features Important for Criticality Control (contd) 3.2.6  Fuel spacers shall be sized to ensure that the active fuel region of intact fuel assemblies remains within the neutron poison region of the MPC basket with water in the MPC.
3.2.7  The B4C content in METAMIC shall be  33.0 wt.%.
3.2.8  Neutron Absorber Tests Section 9.1.5.3 of the HI-STORM 100 FSAR is hereby incorporated by reference into the HI-STORM 100 CoC. The minimum 10B for the neutron absorber shall meet the minimum requirements for each MPC model specified in Sections 3.2.1 through 3.2.4 above.
3.3    Codes and Standards The American Society of Mechanical Engineers Boiler and Pressure Vessel Code (ASME Code), 1995 Edition with Addenda through 1997, is the governing Code for the HI-STORM 100 System MPCs, OVERPACKs, and TRANSFER CASKs, as clarified in Specification 3.3.1 below, except for Code Sections V and IX. The ASME Code paragraphs applicable to the 100U VVM are listed in Table 3-2. The latest effective editions of ASME Code Sections V and IX, including addenda, may be used for activities governed by those sections, provided a written reconciliation of the later edition against the 1995 Edition, including addenda, is performed by the certificate holder. American Concrete Institute (ACI) 349-85 is the governing Code for plain concrete as clarified in Appendix 1.D of the Final Safety Analysis Report for the HI-STORM 100 Cask System.
3.3.1  Alternatives to Codes, Standards, and Criteria Table 3-1 of Appendix B to CoC-1014 lists approved alternatives to the ASME Code for the design of the MPCs and TRANSFER CASKs of the HI-STORM 100U System.
3.3.2  Construction/Fabrication Alternatives to Codes, Standards, and Criteria Proposed alternatives to the ASME Code, Section III, 1995 Edition with Addenda through 1997 including modifications to the alternatives allowed by Specification 3.3.1 may be used on a case-specific basis when authorized by the Director of the Office of Nuclear Material Safety and Safeguards or designee. The request for such alternative should demonstrate that:
: 1. The proposed alternatives would provide an acceptable level of quality and safety, or (continued)
Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                              3-2
 
Design Features 3.0 DESIGN FEATURES 3.3.2    Construction/Fabrication Alternatives to Codes, Standards, and Criteria (contd)
: 2. Compliance with the specified requirements of the ASME Code, Section III, 1995 Edition with Addenda through 1997, would result in hardship or unusual difficulty without a compensating increase in the level of quality and safety.
Requests for alternatives shall be submitted in accordance with 10 CFR 72.4.
(continued)
Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                                3-3
 
Design Features 3.0 DESIGN FEATURES Table 3-1: Not Used Certificate of Compliance No. 1014                    Amendment No. 12 Appendix B-100U                            3-4
 
Design Features 3.0 Table 3-2 Applicable Code Paragraphs for Underground VVMs Item                      Code      Explanation and Applicability Paragraph
: 1.      Definition of primary and secondary NF-1215 members
: 2.      Jurisdictional boundary            NF-1133        The intervening elements are termed interfacing SSCs in this FSAR.
: 3.      Certification of Material          NF-2130(b) and  Materials shall be certified to the (c)            applicable Section II of the ASME Code or equivalent ASTM Specification.
: 4.      Heat treatment of material          NF-2170 and NF-2180
: 5.      Storage of welding material        NF-2400
: 6.      Structural Analysis of Interfacing  ACI 318-05      The VVM Interface Pad and Support SSCs                                                Foundation are reinforced concrete structures. Loadings come from the external environment and from the VVM. Sections of the Code that may reasonably be applied to subterranean application are applicable.
: 7.      Welding procedure                  Section IX
: 8.      Welding material                    Section II
: 9.      Loading conditions                  NF-3111
: 10.      Allowable stress values            NF-3112.3
: 11.      Rolling and sliding supports        NF-3424
: 12.      Differential thermal expansion      NF-3127
: 13.      Stress analysis                    NF-3143        Provisions for stress analysis for NF-3380        Class 3 plate and shell supports and NF-3522        for linear supports are applicable for NF-3523        CEC shells and CLOSURE LID.
: 14.      Cutting of plate stock              NF-4211 NF-4211.1
: 15.      Forming                            NF-4212
: 16.      Forming tolerance                  NF-4221        Applies to the CEC Divider Shell and CEC Container Shell
: 17.      Fitting and Aligning Tack Welds    NF-4231 NF-4231.1
: 18.      Alignment                          NF-4232
: 19.      Storage of Welding Materials        NF-4411
: 20.      Cleanliness of Weld Surfaces        NF-4412        Applies to structural and non-structural welds Certificate of Compliance No. 1014                                            Amendment No. 12 Appendix B-100U                                    3-5
 
Design Features 3.0 Table 3-2 (continued)
Applicable Code Paragraphs for Underground VVMs Item                Code Paragraph          Explanation and Applicability
: 21.      Backing Strips, Peening            NF-4421              Applies to structural and non-NF-4422              structural welds
: 22.      Pre-heating and Interpass          NF-4611              Applies to structural and non-Temperature                        NF-4612              structural welds NF-4613
: 23.      Non-Destructive Examination        NF-5360              Invokes Section V
: 24.      NDE Personnel Certification        NF-5522                                  -
NF-5523 NF-5530 All references to the ASME Code refer to applicable sections of the 1995 edition with addenda through 1997, except for Code Sections V and IX, where the latest effective editions of ASME Code Sections V and IX, including addenda, may be used, provided a written reconciliation of the later edition against the 1995 Edition, including addenda, is performed by the certificate holder.
Certificate of Compliance No. 1014                                                  Amendment No. 12 Appendix B-100U                                    3-6
 
Design Features 3.0 DESIGN FEATURES (continued) 3.4    Site-Specific Parameters and Analyses Site-specific parameters and analyses that will require verification by the system user are, as a minimum, as follows:
: 1.      The temperature of 80o F is the maximum average yearly temperature.
: 2.      The allowed temperature extremes, averaged over a 3-day period, shall be greater than -40o F and less than 125o F.
: 3.      The analyzed flood condition of 15 fps water velocity and a height of 125 feet of water (full submergence of the loaded cask) are not exceeded.
: 4.      The potential for fire and explosion shall be addressed, based on site-specific considerations. The user shall demonstrate that the site-specific potential for fire is bounded by the fire conditions analyzed by the Certificate Holder, or an analysis of the site-specific fire considerations shall be performed.
: 5.      The resultant zero period acceleration at the top of the grade and at the elevation of the Support Foundation Pad (SFP) at the host site (computed by the Newmarks rule as the sum of A+0.4*B+0.4*C, where A, B, C denote the free field ZPAs in the three orthogonal directions in decreasing magnitude, i.e., A  B C) shall be less than or equal to 1.3 and 1.228, respectively.
: 6.      a.      The criteria used to qualify the protection of the reactor building base mat foundation at the nuclear plant shall also be used to insure that sub-grade supporting the SFP shall not violate the plants acceptance criteria for the potential of liquefaction.
: b.      The depth averaged densities and strain compatible shear wave velocities in the different regions of the subgrade shall meet the minimum requirements of Table 3-4.
: 7.      The moment and shear capacities of the ISFSI Structures shall meet the structural requirements under the load combinations in Table 3-3.
: 8.      Radiation Protection Space (RPS) as defined in Subsection 5.7.9 of Appendix A-100U, is intended to ensure that the subgrade material in and around the lateral space occupied by the VVMs remains essentially intact under all service conditions including during an excavation activity adjacent to the RPS.
: 9.      The Support Foundation Pad (mat) for a VVM array established in any one construction campaign shall be of monolithic construction, to the extent practicable, to maximize the physical stability of the underground installation.
(continued)
Certificate of Compliance No. 1014                                              Amendment No. 12 Appendix B-100U                                    3-7
 
Design Features 3.0 TABLE 3-3 LOAD COMBINATIONS FOR THE TOP SURFACE PAD, VVM INTERFACE PAD, SUPPORT FOUNDATION PAD, AND THE RETAINING WALL PER ACI-318 (2005)
Load Combination LC-1                                        1.4D LC-2                                    1.2D + 1.6L LC-3                                    1.2D + E + L where:
D:      Dead Load including long-term differential settlement effects.
L:      Live Load E:      DBE for the Site Table 3-4 Values of Principal Design Parameters for the Underground ISFSI Thickness of the Support Foundation Pad,                              33 inch (nominal)
Thickness of the VVM Interface Pad, inch                              34 (nominal)
Thickness of the Top Surface Pad, inch                                30 (nominal)
Thickness of Retaining Wall, inch (nominal)                          24 Rebar Size* (min.) and Layout* (max)                #11 @ 9" each face, each direction Rebar Concrete Cover (top and bottom)*, inch            per 7.7.1 of ACI 318 (2005)
Compressive Strength of Concrete*, psi                              4500 Shear Wave Velocity in the Subgrade lateral to                      500 the VVM, fps (nominal)
Shear Wave Velocity in the Subgrade Below                            485 the Support Foundation Pad, fps (nominal)
* Applies to Support Foundation Pad, VVM Interface Pad, Top Surface Pad and Retaining Wall (continued)
Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                            3-8
 
Design Features 3.0 DESIGN FEATURES (continued) 3.4    Site-Specific Parameters and Analyses (continued)
: 10. Prior to an excavation activity contiguous to an RPS, a seismic qualification of the ISFSI in the structurally most vulnerable configuration (i.e., maximum amount of earth removed) shall be performed to verify that the stability of the SFP, the TSP and the shielding material within the RPS, with or without the Retaining Wall, is maintained. If a Retaining Wall is not installed in any side of the ISFSI then an Excavation Exclusion Zone shall be established inside which excavation is prohibited by performing an appropriate SSI analysis.
: 11. In cases where engineered features (i.e., berms and shield walls) are used to ensure that the requirements of 10 CFR 72.104(a) are met, such features are to be considered important to safety and must be evaluated to determine the applicable quality assurance category.
: 12. LOADING OPERATIONS, TRANSPORT OPERATIONS, and UNLOADING OPERATIONS shall only be conducted with working area ambient temperatures 0o F.
: 13. For those users whose site-specific design basis includes an event or events (e.g., flood) that result in the blockage of any VVM inlet or outlet air ducts for an extended period of time (i.e, longer than the total Completion Time of LCO 3.1.2),
an analysis or evaluation may be performed to demonstrate adequate heat removal is available for the duration of the event. Adequate heat removal is defined as fuel cladding temperatures remaining below the short term temperature limit. If the analysis or evaluation is not performed, or if fuel cladding temperature limits are unable to be demonstrated by analysis or evaluation to remain below the short term temperature limit for the duration of the event, provisions shall be established to provide alternate means of cooling to accomplish this objective.
: 14. Users shall establish procedural and/or mechanical barriers to ensure that during LOADING OPERATIONS and UNLOADING OPERATIONS, either the fuel cladding is covered by water, or the MPC is filled with an inert gas.
Certificate of Compliance No. 1014                                              Amendment No. 12 Appendix B-100U                                    3-9
 
Design Features 3.0 DESIGN FEATURES (continued) 3.5    Not Used (continued)
Certificate of Compliance No. 1014      Amendment No. 12 Appendix B-100U                    3-10
 
Design Features 3.0 DESIGN FEATURES (continued) 3.6    Forced Helium Dehydration System 3.6.1    System Description Use of a forced helium dehydration (FHD) system, (a closed-loop system) is an alternative to vacuum drying the MPC for moderate burnup fuel (<
45,000 MWD/MTU) with lower MPC heat load and mandatory for drying MPCs containing one or more high burnup fuel assemblies or higher MPC heat load as indicated in Appendix A-100U Table 3-1. The FHD system shall be designed for normal operation (i.e., excluding startup and shutdown ramps) in accordance with the criteria in Section 3.6.2.
3.6.2    Design Criteria 3.6.2.1    The temperature of the helium gas in the MPC shall be at least 15oF higher than the saturation temperature at coincident pressure.
3.6.2.2    The pressure in the MPC cavity space shall be  60.3 psig (75 psia) during drying. Backfill pressures shall be as described in Appendix A.
3.6.2.3    The hourly recirculation rate of helium shall be  10 times the nominal helium mass backfilled into the MPC for fuel storage operations.
3.6.2.4    The partial pressure of the water vapor in the MPC cavity will not exceed 3 torr. The limit is met if the gas temperature at the demoisturizer outlet is verified by measurement to remain  21oF for a period of 30 minutes or if the dew point of the gas exiting the MPC is verified by measurement to remain  22.9oF for  30 minutes.
3.6.2.5    The condensing module shall be designed to de-vaporize the recirculating helium gas to a dew point  120oF.
3.6.2.6    The demoisturizing module shall be configured to be introduced into its helium conditioning function after the condensing module has been operated for the required length of time to assure that the bulk moisture vaporization in the MPC (defined as Phase 1 in FSAR Appendix 2.B) has been completed.
3.6.2.7    The helium circulator shall be sized to effect the minimum flow rate of circulation required by these design criteria.
3.6.2.8    The pre-heater module shall be engineered to ensure that the temperature of the helium gas in the MPC meets these design criteria.
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                                3-11
 
Design Features 3.0 (continued)
DESIGN FEATURES (continued) 3.6    Forced Helium Dehydration System (continued) 3.6.3    Fuel Cladding Temperature A steady-state thermal analysis of the MPC under the forced helium flow scenario shall be performed using the methodology described in HI-STORM 100 FSAR Section 4.4, with due recognition of the forced convection process during FHD system operation. This analysis shall demonstrate that the peak temperature of the fuel cladding, under the most adverse condition of FHD system operation, is below the peak cladding temperature limit for normal conditions of storage for the applicable fuel type (PWR or BWR) and cooling time at the start of dry storage.
3.6.4    Pressure Monitoring During FHD Malfunction During an FHD malfunction event, described in HI-STORM 100 FSAR Chapter 11 as a loss of helium circulation, the system pressure must be monitored to ensure that the conditions listed therein are met.
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                              3-12
 
Design Features 3.0 DESIGN FEATURES (continued) 3.7    Deleted Certificate of Compliance No. 1014      Amendment No. 12 Appendix B-100U                    3-13
 
Design Features 3.0 DESIGN FEATURES (continued) 3.8    Combustible Gas Monitoring During MPC Lid Welding and Cutting During MPC lid-to-shell welding and cutting operations, combustible gas monitoring of the space under the MPC lid is required, to ensure that there is no combustible mixture present.
Certificate of Compliance No. 1014                                      Amendment No. 12 Appendix B-100U                            3-14
 
Design Features 3.0 DESIGN FEATURES (continued) 3.9      Corrosion Mitigation Measures The HI-STORM 100U VVM CEC Container Shell and Bottom Plate shall be protected from corrosion damage due to the corrosivity of the surrounding environment using the following means:
Implementation and Requirements of Corrosion Mitigation Measures Surrounding                            Corrosion Mitigation Measures Environments Corrosivity              Coating      Concrete Encasement      Cathodic Protection (see note iv)          (see note i)        (see note ii)            (see note iii)
Choice of either concrete encasement or Mild                    Required cathodic protection; or both Aggressive              Required              Optional                Required Notes:
: i. An exterior surface preservative (coating) applied on the CEC in accordance with the acceptance criteria set forth in the FSAR.
ii. Concrete encasement of the CEC external surfaces to establish a high pH buffer around the CEC metal mass in accordance with the requirements set forth in the FSAR.
iii. An impressed current cathodic protection system (ICCPS) in accordance with the design criteria set forth in the FSAR.
iv. Surrounding environment corrosivity is categorized as either mild or aggressive in accordance with the requirements set forth in the FSAR.
Certificate of Compliance No. 1014                                          Amendment No. 12 Appendix B-100U                                  3-15
 
Design Features 3.0 DESIGN FEATURES (continued) 3.10    Periodic Corrosion Inspections for Underground Systems HI-STORM 100U VVM ISFSIs not employing an impressed current cathodic protection system shall be subject to visual and UT inspection of at least one representative VVM to check for significant corrosion of the CEC Container Shell and Bottom Plate at an interval not to exceed 20 years. The VVM chosen for inspection is not required to be in use or to have previously contained a loaded MPC. The VVM considered to be most vulnerable to corrosion degradation shall be selected for inspection. If significant corrosion is identified, either an evaluation to demonstrate sufficient continued structural integrity (sufficient for at least the remainder of the licensing period) shall be performed or the affected VVM shall be promptly scheduled for repair or decommissioning.
Through wall corrosion shall not be permitted without promptly scheduling for repair or decommissioning. Promptness of repair or decommissioning shall be commensurate with the extent of degradation of the VVM but shall not exceed 3 years from the date of inspection.
If the representative VVM is determined to require repair or decommissioning, the next most vulnerable VVM shall be selected for inspection. This inspection process shall conclude when a VVM is found that does not require repair or decommissioning. Since the last VVM inspected is considered more prone to corrosion than the remaining un-inspected VVMs, the last VVM inspected becomes the representative VVM for the remaining VVMs.
Inspections Visual Inspection: Visual inspection of the inner surfaces of the CEC Container Shell and Bottom Plate for indications of significant or through wall corrosion (i.e., holes).
UT Inspection: The UT inspection is performed on the inside surfaces of the CEC. A minimum of 16 data points shall be obtained, 4 near the top, 4 near the mid-height and 4 near the bottom of the CEC Container Shell all approximately 0, 90, 180, and 270 degrees apart; and 4 on the CEC Bottom Plate near the CEC Container Shell approximately 0, 90, 180, and 270 degrees apart. Locations where visual inspection has identified potentially significant corrosion shall also receive UT inspection.
Locations suspected of significant corrosion may receive further UT inspection to determine the extent of corrosion.
Inspection Criteria General wall thinning exceeding 1/8 in depth and local pitting exceeding 1/4" in depth are conditions of significant corrosion.
Certificate of Compliance No. 1014                                        Amendment No. 12 Appendix B-100U                              3-16}}

Latest revision as of 13:12, 21 October 2019

Enclosure 5: Proposed CoC 1014 Amendment 12 Appendix B:-100U (Memorandum to K. Morgan-Butler User Need for Rulemaking for the Holtec Hi-Storm 100 Cask System, Amendment No. 12)
ML18087A061
Person / Time
Site: Holtec
Issue date: 12/12/2018
From: John Mckirgan
Spent Fuel Licensing Branch
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Download: ML18087A061 (66)


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PROPOSED CERTIFICATE OF COMPLIANCE NO. 1014 APPENDIX B-100U APPROVED CONTENTS AND DESIGN FEATURES FOR THE HI-STORM 100 CASK SYSTEM (MODEL NO. 100U ADDITION)

TABLE OF CONTENTS 1.0 DEFINITIONS ........................................................................................................ 1-1 2.0 APPROVED CONTENTS ...................................................................................... 2-1 2.1 Fuel Specifications and Loading Conditions ...................................................... 2-1 2.2 Violations ........................................................................................................... 2-2 2.3 Not Used ........................................................................................................... 2-2 2.4 Decay Heat, Burnup, and Cooling Time Limits for ZR-Clad Fuel..................... 2-25 3.0 DESIGN FEATURES ............................................................................................. 3-1 3.1 Site .................................................................................................................... 3-1 3.2 Design Features Important for Criticality Control ............................................... 3-1 3.3 Codes and Standards ........................................................................................ 3-2 3.4 Site Specific Parameters and Analyses ............................................................. 3-7 3.5 Not Used ......................................................................................................... 3-10 3.6 Forced Helium Dehydration System ................................................................ 3-11 3.7 Deleted ............................................................................................................ 3-13 3.8 Combustible Gas Monitoring During MPC Lid Welding and Cutting ................ 3-14 3.9 Corrosion Mitigation Measures ........................................................................ 3-15 3.10 Periodic Corrosion Inspections for Underground Systems .............................. 3-16 Table 3-1 Not Used ................................................................................................. 3-4 Table 3-2 Applicable Code Paragraphs for Underground VVMs ............................. 3-5 Table 3-3 Load Combinations for the Top Surface Pad, VVM Interface Pad, Support Foundation Pad, and the Retaining Wall Per ACI-318 (2005)................. 3-8 Table 3-4 Values of Principal Design Parameters for the Underground ISFSI ....................................................................................................... 3-8 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 1-1

Definitions 1.0 1.0 Definitions Refer to Appendix A for Definitions.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 1-1

Approved Contents 2.0 2.0 APPROVED CONTENTS 2.1 Fuel Specifications and Loading Conditions 2.1.1 Fuel To Be Stored In The HI-STORM SFSC System Model 100U

a. INTACT FUEL ASSEMBLIES, and NON-FUEL HARDWARE meeting the limits specified in Table 2.1-1 and other referenced tables may be stored.
b. For MPCs partially loaded with stainless steel clad fuel assemblies, all remaining fuel assemblies in the MPC shall meet the decay heat generation limit for the stainless steel clad fuel assemblies.
c. For MPCs partially loaded with array/class 6x6A, 6x6B, 6x6C, 7x7A, or 8x8A fuel assemblies, all remaining ZR clad INTACT FUEL ASSEMBLIES in the MPC shall meet the decay heat generation limits for the 6x6A, 6x6B, 6x6C, 7x7A and 8x8A fuel assemblies.
d. All BWR fuel assemblies may be stored with or without ZR channels with the exception of array/class 10x10D and 10x10E fuel assemblies, which may be stored with or without ZR or stainless steel channels.

2.1.2 Uniform Fuel Loading Any authorized fuel assembly may be stored in any fuel storage location, subject to other restrictions related to NON-FUEL HARDWARE specified in the CoC.

(continued)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-1

Approved Contents 2.0 2.0 Approved Contents 2.1 Fuel Specifications and Loading Conditions (contd) 2.1.3 Regionalized Fuel Loading Users may choose to store fuel using regionalized loading in lieu of uniform loading to allow higher heat emitting fuel assemblies to be stored than would otherwise be able to be stored using uniform loading.

Regionalized loading is limited to those fuel assemblies with ZR cladding.

Figures 2.1-1 through 2.1-4 define the regions for the MPC-24, MPC-24E, MPC-32, MPC-68 models, respectively1. Fuel assembly burnup, decay heat, and cooling time limits for regionalized loading are specified in Section 2.4.2. Fuel assemblies used in regionalized loading shall meet all other applicable limits specified in Tables 2.1-1 through 2.1-3.

2.2 Violations If any Fuel Specifications or Loading Conditions of 2.1 are violated, the following actions shall be completed:

2.2.1 The affected fuel assemblies shall be placed in a safe condition.

2.2.2 Within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, notify the NRC Operations Center.

2.2.3 Within 30 days, submit a special report which describes the cause of the violation, and actions taken to restore compliance and prevent recurrence.

2.3 Not Used 1

These figures are only intended to distinguish the fuel loading regions. Other details of the basket design are illustrative and may not reflect the actual basket design details.

The design drawings should be consulted for basket design details.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-2

Approved Contents 2.0 Figure 2.1-1 Fuel Loading Regions - MPC-24 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-3

Approved Contents 2.0 Figure 2.1-2 Fuel Loading Regions - MPC-24E Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-4

Approved Contents 2.0 Figure 2.1-3 Fuel Loading Regions - MPC-32 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-5

Approved Contents 2.0 Figure 2.1-4 Fuel Loading Regions - MPC-68 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-6

Approved Contents 2.0 Table 2.1-1 (page 1 of 8)

Fuel Assembly Limits I. MPC MODEL: MPC-24 A. Allowable Contents

1. Uranium oxide, PWR INTACT FUEL ASSEMBLIES listed in Table 2.1-2, with or without NON-FUEL HARDWARE and meeting the following specifications (Note 1):
a. Cladding Type: ZR or Stainless Steel (SS) as specified in Table 2.1-2 for the applicable fuel assembly array/class.
b. Initial Enrichment: As specified in Table 2.1-2 for the applicable fuel assembly array/class.
c. Post-irradiation Cooling Time and Average Burnup Per Assembly:
i. Array/Classes Cooling time 8 years and an average 14x14D,14x14E, and burnup 40,000 MWD/MTU.

15x15G ii. All Other Array/Classes Cooling time and average burnup as specified in Section 2.4.

ii. NON-FUEL HARDWARE As specified in Table 2.1-4.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-7

Approved Contents 2.0 Table 2.1-1 (page 2 of 8)

Fuel Assembly Limits I. MPC MODEL: MPC-24 (continued)

A. Allowable Contents (continued)

d. Decay Heat Per Fuel Storage Location:
i. Array/Classes 14x14D, 710 Watts 14x14E, and 15x15G ii. All Other Array/Classes As specified in Section 2.4.
e. Fuel Assembly Length: 176.8 inches (nominal design)
f. Fuel Assembly Width: 8.54 inches (nominal design)
g. Fuel Assembly Weight: 1720 lbs (including NON-FUEL HARDWARE) for assemblies that do not require fuel spacers, otherwise 1680 lbs (including NON-FUEL HARDWARE)

B. Quantity per MPC: Up to 24 fuel assemblies.

C. One NSA is authorized for loading into the MPC-24.

Note 1: Fuel assemblies containing BPRAs, TPDs, WABAs, water displacement guide tube plugs, orifice rod assemblies, or vibration suppressor inserts, with or without ITTRs, may be stored in any fuel storage location. Fuel assemblies containing APSRs or NSAs may only be loaded in fuel storage locations 9, 10, 15, and/or 16. Fuel assemblies containing CRAs, RCCAs, CEAs may only be stored in fuel storage locations 4, 5, 8 - 11, 14 - 17, 20 and/or 21 (see Figure 2.1-1). These requirements are in addition to any other requirements specified for uniform or regionalized fuel loading.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-8

Approved Contents 2.0 Table 2.1-1 (page 3 of 8)

Fuel Assembly Limits II. MPC MODEL: MPC-68 A. Allowable Contents

1. Uranium oxide or MOX BWR INTACT FUEL ASSEMBLIES listed in Table 2.1-3, with or without channels and meeting the following specifications:
a. Cladding Type: ZR or Stainless Steel (SS) as specified in Table 2.1-3 for the applicable fuel assembly array/class
b. Maximum PLANAR-AVERAGE As specified in Table 2.1-3 for the INITIAL ENRICHMENT: applicable fuel assembly array/class.
c. Initial Maximum Rod Enrichment As specified in Table 2.1-3 for the applicable fuel assembly array/class.
d. Post-irradiation Cooling Time and Average Burnup Per Assembly
i. Array/Classes 6x6A, 6x6B, Cooling time 18 years and an average 6x6C, 7x7A, and 8x8A burnup 30,000 MWD/MTU (or MWD/MTIHM).

ii. Array/Class 8x8F Cooling time 10 years and an average burnup 27,500 MWD/MTU.

iii. Array/Classes 10x10D Cooling time 10 years and an average and 10x10E burnup 22,500 MWD/MTU.

iv. All Other Array/Classes As specified in Section 2.4.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-9

Approved Contents 2.0 Table 2.1-1 (page 4 of 8)

Fuel Assembly Limits II. MPC MODEL: MPC-68 (continued)

A. Allowable Contents (continued)

e. Decay Heat Per Assembly
i. Array/Classes 6x6A, 6X6B, 115 Watts 6x6C, 7x7A, and 8x8A ii. Array/Class 8x8F 183.5 Watts iii. Array/Classes 10x10D 95 Watts and 10x10E iv. All Other Array/Classes As specified in Section 2.4.
f. Fuel Assembly Length
i. Array/Class 6x6A, 6x6B, 135.0 inches (nominal design) 6x6C, 7x7A, or 8x8A ii. All Other Array/Classes 176.5 inches (nominal design)
g. Fuel Assembly Width
i. Array/Class 6x6A, 6x6B, 4.70 inches (nominal design) 6x6C, 7x7A, or 8x8A ii. All Other Array/Classes 5.85 inches (nominal design)
h. Fuel Assembly Weight
i. Array/Class 6x6A, 6x6B, 400 lbs, including channels 6x6C, 7x7A, or 8x8A ii. All Other Array/Classes 730 lbs, including channels B. Quantity per MPC: Up to 68 fuel assemblies.

C. Dresden Unit 1 fuel assemblies with one Antimony-Beryllium neutron source are authorized for loading. The Antimony-Beryllium source material shall be in a water rod location.

D. Array/Class 10x10D and 10x10E fuel assemblies in stainless steel channels must be stored in fuel storage locations 19 - 22, 28 - 31, 38 -41, and/or 47 - 50 (see Figure 2.1-4).

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-10

Approved Contents 2.0 Table 2.1-1 (page 5 of 8)

Fuel Assembly Limits III. MPC MODEL: MPC-24E A. Allowable Contents

1. Uranium oxide, PWR INTACT FUEL ASSEMBLIES listed in Table 2.1-2, with or without NON-FUEL HARDWARE and meeting the following specifications (Note 1):
a. Cladding Type: ZR or Stainless Steel (SS) as specified in Table 2.1-2 for the applicable fuel assembly array/class
b. Initial Enrichment: As specified in Table 2.1-2 for the applicable fuel assembly array/class.
c. Post-irradiation Cooling Time and Average Burnup Per Assembly:
i. Array/Classes 14x14D, Cooling time 8 years and an average 14x14E, and 15x15G burnup 40,000 MWD/MTU.

ii. All Other Array/Classes As specified in Section 2.4.

iii. NON-FUEL HARDWARE As specified in Table 2.1-4.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-11

Approved Contents 2.0 Table 2.1-1 (page 6 of 8)

Fuel Assembly Limits III. MPC MODEL: MPC-24E (continued)

A. Allowable Contents (continued)

d. Decay Heat Per Fuel Storage Location:
i. Array/Classes 14x14D, 710 Watts.

14x14E, and 15x15G ii. All other Array/Classes As specified in Section 2.4.

e. Fuel Assembly Length: 176.8 inches (nominal design)
f. Fuel Assembly Width: 8.54 inches (nominal design)
g. Fuel Assembly Weight: 1,720 lbs (including NON-FUEL HARDWARE) for assemblies that do not require fuel spacers, otherwise, 1,680 lbs (including NON-FUEL HARDWARE)

B. Quantity per MPC: Up to 24 fuel assemblies.

C. One NSA is permitted for loading.

Note 1: Fuel assemblies containing BPRAs, TPDs, WABAs, water displacement guide tube plugs, orifice rod assemblies, or vibration suppressor inserts, with or without ITTRs, may be stored in any fuel storage location. Fuel assemblies containing APSRs or NSAs may only be loaded in fuel storage locations 9, 10, 15, and/or 16 (see Figure 2.1-2). Fuel assemblies containing CRAs, RCCAs, or CEAs may only be stored in fuel storage locations 4, 5, 8 - 11, 14 - 17, 20 and/or 21 (see Figure 2.1-2). These requirements are in addition to any other requirements specified for uniform or regionalized fuel loading.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-12

Approved Contents 2.0 Table 2.1-1 (page 7 of 8)

Fuel Assembly Limits IV. MPC MODEL: MPC-32 A. Allowable Contents

1. Uranium oxide, PWR INTACT FUEL ASSEMBLIES listed in Table 2.1-2, with or without NON-FUEL HARDWARE and meeting the following specifications (Note 1):
a. Cladding Type: ZR or Stainless Steel (SS) as specified in Table 2.1-2 for the applicable fuel assembly array/class
b. Initial Enrichment: As specified in Table 2.1-2 for the applicable fuel assembly array/class.
c. Post-irradiation Cooling Time and Average Burnup Per Assembly:
i. Array/Classes 14x14D, Cooling time 9 years and an average 14x14E, and 15x15G burnup 30,000 MWD/MTU or cooling time 20 years and an average burnup 40,000 MWD/MTU.

ii. All Other Array/Classes As specified in Section 2.4.

iii. NON-FUEL HARDWARE As specified in Table 2.1-4.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-13

Approved Contents 2.0 Table 2.1-1 (page 8 of 8)

Fuel Assembly Limits IV. MPC MODEL: MPC-32 (continued)

A. Allowable Contents (continued)

d. Decay Heat Per Fuel Storage Location:
i. Array/Classes 14x14D, 500 Watts.

14x14E, and 15x15G ii. All Other Array/Classes As specified in Section 2.4.

e. Fuel Assembly Length 176.8 inches (nominal design)
f. Fuel Assembly Width 8.54 inches (nominal design)
g. Fuel Assembly Weight 1,720 lbs (including NON-FUEL HARDWARE) for assemblies that do not require fuel spacers, otherwise, 1,680 lbs (including NON-FUEL HARDWARE)

B. Quantity per MPC: Up to 32 fuel assemblies.

C. One NSA is permitted for loading.

Note 1: Fuel assemblies containing BPRAs, TPDs, WABAs, water displacement guide tube plugs, orifice rod assemblies, or vibration suppressor inserts, with or without ITTRs, may be stored in any fuel storage location. Fuel assemblies containing NSAs may only be loaded in fuel storage locations 13, 14, 19 and/or 20 (see Figure 2.1-3). Fuel assemblies containing CRAs, RCCAs, CEAs or APSRs may only be loaded in fuel storage locations 7, 8, 12-15, 18-21, 25 and/or 26 (see Figure 2.1-3). These requirements are in addition to any other requirements specified for uniform or regionalized fuel loading.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-14

Approved Contents 2.0 Table 2.1-2 (page 1 of 5)

PWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)

Fuel Assembly 14x14A 14x14B 14x14C 14x14D 14x14E Array/Class Clad Material ZR ZR ZR SS SS Design Initial U 365 412 438 400 206 (kg/assy.) (Note 3)

Initial Enrichment (MPC-24 and 24E 4.6 (24) 4.6 (24) 4.6 (24) 4.0 (24) 5.0 (24) without soluble boron credit) (wt %

235U) 5.0 (24E) 5.0 (24E) 5.0 (24E) 5.0 (24E) 5.0 (24E)

Initial Enrichment (MPC-24, 24E, or 32, with soluble 5.0 5.0 5.0 5.0 5.0 boron credit - see Note 5)

(wt % 235U)

No. of Fuel Rod 179 179 176 180 173 Locations Fuel Rod Clad 0.400 0.417 0.440 0.422 0.3415 O.D. (in.)

Fuel Rod Clad I.D.

0.3514 0.3734 0.3880 0.3890 0.3175 (in.)

Fuel Pellet Dia.

0.3444 0.3659 0.3805 0.3835 0.3130 (in.)(Note 7)

Fuel Rod Pitch (in.) 0.556 0.556 0.580 0.556 Note 6 Active Fuel Length 150 150 150 144 102 (in.)

No. of Guide and/or Instrument 17 17 5 (Note 4) 16 0 Tubes Guide/Instrument Tube Thickness 0.017 0.017 0.038 0.0145 N/A (in.)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-15

Approved Contents 2.0 Table 2.1-2 (page 2 of 5)

PWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)

Fuel Assembly 15x15A 15x15B 15x15C 15x15D 15x15E 15x15F Array/Class Clad Material ZR ZR ZR ZR ZR ZR Design Initial U

< 473 < 473 < 473 < 495 < 495 < 495 (kg/assy.) (Note 3)

Initial Enrichment (MPC-24 and 24E < 4.1 (24) < 4.1 (24) < 4.1 (24) < 4.1 (24) < 4.1 (24) < 4.1 (24) without soluble boron credit)

(wt % 235U) < 4.5 (24E) < 4.5 (24E) < 4.5 (24E) < 4.5 (24E) < 4.5 (24E) < 4.5 (24E)

Initial Enrichment (MPC-24, 24E, or 32 with soluble < 5.0 < 5.0 < 5.0 < 5.0 < 5.0 < 5.0 boron credit - see Note 5)(wt % 235U)

No. of Fuel Rod 204 204 204 208 208 208 Locations Fuel Rod Clad

> 0.418 > 0.420 > 0.417 > 0.430 > 0.428 > 0.428 O.D. (in.)

Fuel Rod Clad I.D.

< 0.3660 < 0.3736 < 0.3640 < 0.3800 < 0.3790 < 0.3820 (in.)

Fuel Pellet Dia.

< 0.3580 < 0.3671 < 0.3570 < 0.3735 < 0.3707 < 0.3742 (in.) (Note 7)

Fuel Rod Pitch

< 0.550 < 0.563 < 0.563 < 0.568 < 0.568 < 0.568 (in.)

Active Fuel Length

< 150 < 150 < 150 < 150 < 150 < 150 (in.)

No. of Guide and/or Instrument 21 21 21 17 17 17 Tubes Guide/Instrument Tube Thickness > 0.0165 > 0.015 > 0.0165 > 0.0150 > 0.0140 > 0.0140 (in.)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-16

Approved Contents 2.0 Table 2.1-2 (page 3 of 5)

PWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)

Fuel Assembly 15x15G 15x15H 16x16A 16x16B 16x16C Array/ Class Clad Material SS ZR ZR ZR ZR Design Initial U

< 420 < 495 < 448 < 427 < 426 (kg/assy.)(Note 3)

Initial Enrichment < 4.6 (24) < 4.6 (24)

< 4.0 (24) < 3.8 (24) < 4.6 (24)

(MPC-24and 24E without soluble boron credit) < 5.0 < 5.0 (wt % 235U) < 4.5 (24E) < 4.2 (24E) < 5.0 (24E)

(24E/24EF) (24E/24EF)

Initial Enrichment (MPC-24, 24E, or 32 with soluble < 5.0 < 5.0 < 5.0 < 5.0 < 5.0 boron credit - see Note 5) (wt % 235U)

No. of Fuel Rod 204 208 236 236 235 Locations Fuel Rod Clad

> 0.422 > 0.414 > 0.382 > 0.374 > 0.374 O.D. (in.)

Fuel Rod Clad I.D.

< 0.3890 < 0.3700 < 0.3350 < 0.3290 < 0.3290 (in.)

Fuel Pellet Dia.

< 0.3825 < 0.3622 < 0.3255 < 0.3225 < 0.3225 (in.) (Note 7)

Fuel Rod Pitch

< 0.563 < 0.568 < 0.506 < 0.506 < 0.485 (in.)

Active Fuel Length

< 144 < 150 < 150 < 150 < 150 (in.)

No. of Guide and/or Instrument 21 17 5 (Note 4) 5 (Note 4) 21 Tubes Guide/Instrument Tube Thickness > 0.0145 > 0.0140 > 0.0350 > 0.0400 > 0.0157 (in.)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-17

Approved Contents 2.0 Table 2.1-2 (page 4 of 5)

PWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)

Fuel Assembly 17x17A 17x17B 17x17C Array/ Class Clad Material ZR ZR ZR Design Initial U

< 433 < 474 < 480 (kg/assy.)(Note 3)

Initial Enrichment < 4.0 (24) < 4.0 (24) < 4.0 (24)

(MPC-24and 24E without soluble boron credit)

(wt % 235U) < 4.4 (24E) < 4.4 (24E) < 4.4 (24E)

Initial Enrichment (MPC-24, 24E, or 32 with soluble < 5.0 < 5.0 < 5.0 boron credit - see Note 5) (wt % 235U)

No. of Fuel Rod 264 264 264 Locations Fuel Rod Clad

> 0.360 > 0.372 > 0.377 O.D. (in.)

Fuel Rod Clad I.D.

< 0.3150 < 0.3310 < 0.3330 (in.)

Fuel Pellet Dia.

< 0.3088 < 0.3232 < 0.3252 (in.) (Note 7)

Fuel Rod Pitch

< 0.496 < 0.496 < 0.502 (in.)

Active Fuel Length

< 150 < 150 < 150 (in.)

No. of Guide and/or Instrument 25 25 25 Tubes Guide/Instrument Tube Thickness > 0.016 > 0.014 > 0.020 (in.)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-18

Approved Contents 2.0 Table 2.1-2 (page 5 of 5)

PWR FUEL ASSEMBLY CHARACTERISTICS Notes:

1. All dimensions are design nominal values. Maximum and minimum dimensions are specified to bound variations in design nominal values among fuel assemblies within a given array/class.
2. Deleted.
3. Design initial uranium weight is the nominal uranium weight specified for each assembly by the fuel manufacturer or reactor user. For each PWR fuel assembly, the total uranium weight limit specified in this table may be increased up to 2.0 percent for comparison with users fuel records to account for manufacturers tolerances.
4. Each guide tube replaces four fuel rods.
5. Soluble boron concentration per LCO 3.3.1of Appendix A-100U.
6. This fuel assembly array/class includes only the Indian Point Unit 1 fuel assembly.

This fuel assembly has two pitches in different sectors of the assembly. These pitches are 0.441 inches and 0.453 inches.

7. Annular fuel pellets are allowed in the top and bottom 12" of the active fuel length.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-19

Approved Contents 2.0 Table 2.1-3 (page 1 of 5)

BWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)

Fuel Assembly 6x6A 6x6B 6x6C 7x7A 7x7B 8x8A Array/Class Clad Material ZR ZR ZR ZR ZR ZR Design Initial U

< 110 < 110 < 110 < 100 < 198 < 120 (kg/assy.) (Note 3)

Maximum

< 2.7 for PLANAR-the UO2 AVERAGE rods.

INITIAL < 2.7 < 2.7 < 2.7 < 4.2 < 2.7 See Note ENRICHMENT 4 for MOX (wt.% 235U) rods Initial Maximum Rod Enrichment < 4.0 < 4.0 < 4.0 < 5.5 < 5.0 < 4.0 (wt.% 235U)

No. of Fuel Rod 35 or 36 Locations (up to 9 35 or 36 36 49 49 63 or 64 MOX rods)

Fuel Rod Clad

> 0.5550 > 0.5625 > 0.5630 > 0.4860 > 0.5630 > 0.4120 O.D. (in.)

Fuel Rod Clad I.D.

< 0.5105 < 0.4945 < 0.4990 < 0.4204 < 0.4990 < 0.3620 (in.)

Fuel Pellet Dia.

< 0.4980 < 0.4820 < 0.4880 < 0.4110 < 0.4910 < 0.3580 (in.)

Fuel Rod Pitch

< 0.710 < 0.710 < 0.740 < 0.631 < 0.738 < 0.523 (in.)

Active Fuel Length

< 120 < 120 < 77.5 < 80 < 150 < 120 (in.)

No. of Water Rods 1 or 0 1 or 0 0 0 0 1 or 0 (Note 11)

Water Rod

>0 >0 N/A N/A N/A >0 Thickness (in.)

Channel

< 0.060 < 0.060 < 0.060 < 0.060 < 0.120 < 0.100 Thickness (in.)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-20

Approved Contents 2.0 Table 2.1-3 (2 of 5)

BWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)

Fuel Assembly 8x8B 8x8C 8x8D 8x8E 8x8F 9x9A Array/Class Clad Material ZR ZR ZR ZR ZR ZR Design Initial U

< 192 < 190 < 190 < 190 < 191 < 180 (kg/assy.) (Note 3)

Maximum PLANAR-AVERAGE INITIAL < 4.2 < 4.2 < 4.2 < 4.2 < 4.0 < 4.2 ENRICHMENT (wt.% 235U)

Initial Maximum Rod Enrichment < 5.0 < 5.0 < 5.0 < 5.0 < 5.0 < 5.0 (wt.% 235U)

No. of Fuel Rod 74/66 Locations 63 or 64 62 60 or 61 59 64 (Note 5)

Fuel Rod Clad

> 0.4840 > 0.4830 > 0.4830 > 0.4930 > 0.4576 > 0.4400 O.D. (in.)

Fuel Rod Clad I.D.

< 0.4295 < 0.4250 < 0.4230 < 0.4250 < 0.3996 < 0.3840 (in.)

Fuel Pellet Dia.

< 0.4195 < 0.4160 < 0.4140 < 0.4160 < 0.3913 < 0.3760 (in.)

Fuel Rod Pitch

< 0.642 < 0.641 < 0.640 < 0.640 < 0.609 < 0.566 (in.)

Design Active

< 150 < 150 < 150 < 150 < 150 < 150 Fuel Length (in.)

No. of Water Rods 1-4 N/A (Note 11) 1 or 0 2 5 2 (Note 7) (Note 12)

Water Rod

> 0.034 > 0.00 > 0.00 > 0.034 > 0.0315 > 0.00 Thickness (in.)

Channel

< 0.120 < 0.120 < 0.120 < 0.100 < 0.055 < 0.120 Thickness (in.)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-21

Approved Contents 2.0 Table 2.1-3 (page 3 of 5)

BWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)

Fuel Assembly 9x9B 9x9C 9x9D 9x9E 9x9F 9x9G Array/Class (Note 13) (Note 13)

Clad Material ZR ZR ZR ZR ZR ZR Design Initial U < 180 < 182 < 182 < 183 < 183 < 164 (kg/assy.)(Note 3)

Maximum < 4.2 < 4.2 < 4.2 < 4.0 < 4.0 < 4.2 PLANAR-AVERAGE INITIAL ENRICHMENT (wt.% 235U)

Initial Maximum < 5.0 < 5.0 < 5.0 < 5.0 < 5.0 < 5.0 Rod Enrichment (wt.% 235U)

No. of Fuel Rod 72 80 79 76 76 72 Locations Fuel Rod Clad > 0.4330 > 0.4230 > 0.4240 > 0.4170 > 0.4430 > 0.4240 O.D. (in.)

Fuel Rod Clad I.D. < 0.3810 < 0.3640 < 0.3640 < 0.3640 < 0.3860 < 0.3640 (in.)

Fuel Pellet Dia. < 0.3740 < 0.3565 < 0.3565 < 0.3530 < 0.3745 < 0.3565 (in.)

Fuel Rod Pitch < 0.572 < 0.572 < 0.572 < 0.572 < 0.572 < 0.572 (in.)

Design Active Fuel < 150 < 150 < 150 < 150 < 150 < 150 Length (in.)

No. of Water Rods 1 (Note 6) 1 2 5 5 1 (Note 6)

(Note 11)

Water Rod > 0.00 > 0.020 > 0.0300 > 0.0120 > 0.0120 > 0.0320 Thickness (in.)

Channel < 0.120 < 0.100 < 0.100 < 0.120 < 0.120 < 0.120 Thickness (in.)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-22

Approved Contents 2.0 Table 2.1-3 (page 4 of 5)

BWR FUEL ASSEMBLY CHARACTERISTICS (Note 1)

Fuel Assembly Array/Class 10x10A 10x10B 10x10C 10x10D 10x10E Clad Material ZR ZR ZR SS SS Design Initial U (kg/assy.)

< 188 < 188 < 179 < 125 < 125 (Note 3)

Maximum PLANAR-AVERAGE INITIAL

< 4.2 < 4.2 < 4.2 < 4.0 < 4.0 ENRICHMENT (wt.% 235U)

Initial Maximum Rod

< 5.0 < 5.0 < 5.0 < 5.0 < 5.0 Enrichment (wt.% 235U)

No. of Fuel Rod Locations 92/78 91/83 96 100 96 (Note 8) (Note 9)

Fuel Rod Clad O.D. (in.) > 0.4040 > 0.3957 > 0.3780 > 0.3960 > 0.3940 Fuel Rod Clad I.D. (in.) < 0.3520 < 0.3480 < 0.3294 < 0.3560 < 0.3500 Fuel Pellet Dia. (in.) < 0.3455 < 0.3420 < 0.3224 < 0.3500 < 0.3430 Fuel Rod Pitch (in.) < 0.510 < 0.510 < 0.488 < 0.565 < 0.557 Design Active Fuel Length

< 150 < 150 < 150 < 83 < 83 (in.)

No. of Water Rods (Note 11) 2 1 (Note 6) 5 (Note 10) 0 4 Water Rod Thickness (in.) > 0.0300 > 0.00 > 0.031 N/A > 0.022 Channel Thickness (in.) < 0.120 < 0.120 < 0.055 < 0.080 < 0.080 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-23

Approved Contents 2.0 Table 2.1-3 (page 5 of 5)

BWR FUEL ASSEMBLY CHARACTERISTICS Notes:

1. All dimensions are design nominal values. Maximum and minimum dimensions are specified to bound variations in design nominal values among fuel assemblies within a given array/class.
2. Not Used.
3. Design initial uranium weight is the nominal uranium weight specified for each assembly by the fuel manufacturer or reactor user. For each BWR fuel assembly, the total uranium weight limit specified in this table may be increased up to 1.5 percent for comparison with users fuel records to account for manufacturer tolerances.
4. < 0.635 wt. % 235U and < 1.578 wt. % total fissile plutonium (239Pu and 241Pu),

(wt. % of total fuel weight, i.e., UO2 plus PuO2).

5. This assembly class contains 74 total rods; 66 full length rods and 8 partial length rods.
6. Square, replacing nine fuel rods.
7. Variable.
8. This assembly contains 92 total fuel rods; 78 full length rods and 14 partial length rods.
9. This assembly class contains 91 total fuel rods; 83 full length rods and 8 partial length rods.
10. One diamond-shaped water rod replacing the four center fuel rods and four rectangular water rods dividing the assembly into four quadrants.
11. These rods may also be sealed at both ends and contain Zr material in lieu of water.
12. This assembly is known as QUAD+. It has four rectangular water cross segments dividing the assembly into four quadrants.
13. For the SPC 9x9-5 fuel assembly, each fuel rod must meet either the 9x9E or the 9x9F set of limits for clad O.D., clad I.D., and pellet diameter.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-24

Approved Contents 2.0 Table 2.1-4 NON-FUEL HARDWARE COOLING AND AVERAGE BURNUP (Notes 1, 2, 3, and 8)

Post- INSERTS NSA or GUIDE CONTROL APSR irradiation (Note 4) TUBE COMPONENT BURNUP Cooling Time BURNUP HARDWARE (Note 6) (MWD/MTU)

(years) (MWD/MTU) (Note 5) BURNUP BURNUP (MWD/MTU)

(MWD/MTU)

>3 < 24,635 NA (Note 7) NA NA

>4 < 30,000 < 20,000 NA NA

>5 < 36,748 < 25,000 < 630,000 < 45,000

>6 < 44,102 < 30,000 - < 54,500

>7 < 52,900 < 40,000 - < 68,000

>8 < 60,000 < 45,000 - < 83,000

>9 - < 50,000 - < 111,000

> 10 - < 60,000 - < 180,000

> 11 - < 75,000 - < 630,000

> 12 - < 90,000 - -

> 13 - < 180,000 - -

> 14 - < 630,000 - -

Notes: 1. Burnups for NON-FUEL HARDWARE are to be determined based on the burnup and uranium mass of the fuel assemblies in which the component was inserted during reactor operation.

2. Linear interpolation between points is permitted, except that NSA or Guide Tube Hardware and APSR burnups > 180,000 MWD/MTU and < 630,000 MWD/MTU must be cooled > 14 years and > 11 years, respectively.
3. Applicable to uniform loading and regionalized loading.
4. Includes Burnable Poison Rod Assemblies (BPRAs), Wet Annular Burnable Absorbers (WABAs), and vibration suppressor inserts.
5. Includes Thimble Plug Devices (TPDs), water displacement guide tube plugs, and orifice rod assemblies.
6. Includes Control Rod Assemblies (CRAs), Control Element Assemblies (CEAs), and Rod Cluster Control Assemblies (RCCAs).
7. NA means not authorized for loading at this cooling time.
8. Non-fuel hardware burnup and cooling times are not applicable to ITTRs since they are installed post irradiation.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-25

Approved Contents 2.0 2.4 Decay Heat, Burnup, and Cooling Time Limits for ZR-Clad Fuel This section provides the limits on ZR-clad fuel assembly decay heat, burnup, and cooling time for storage in the HI-STORM 100 System Model 100U. The method to calculate the limits and verify compliance, including examples, is provided in Chapter 12 of the HI-STORM 100 FSAR.

2.4.1 Uniform Fuel Loading Decay Heat Limits for ZR-clad fuel Table 2.4-1 provides the maximum allowable decay heat per fuel storage location for ZR-clad fuel in uniform fuel loading for each MPC model.

Table 2.4-1 Maximum Allowable Decay Heat per Fuel Storage Location (Uniform Loading, ZR-Clad)

MPC Model Decay Heat per Fuel Storage Location (kW)

Intact Fuel Assemblies MPC-24 < 1.266 MPC-24E < 1.266 MPC-32 < 0.949 MPC-68 < 0.447 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-26

Approved Contents 2.0 2.4.2 Regionalized Fuel Loading Decay Heat Limits for ZR-Clad Fuel (INTACT FUEL only)

The maximum allowable decay heat per fuel storage location for fuel in regionalized loading is determined using the following equations:

Q(X) = 2 x x Q0 / (1 + Xy) y = 0.23 / X0.1 q2 = Q(X) / (n1 x X +n2) q1 = q2 x X Where:

Q0 = Maximum uniform storage MPC decay heat (34 kW)

= Penalty Factor (0.894)

X = Inner region to outer region assembly decay heat ratio (0.5 < X < 3) n1 = Number of storage locations in inner region from Table 2.4-2.

n2 = Number of storage locations in outer region from Table 2.4-2.

Table 2.4-2 Fuel Storage Regions per MPC MPC Model Number of Storage Locations Number of Storage in Inner Region (Region 1) Locations in Outer Region (Region 2)

MPC-24 and MPC-24E 12 12 MPC-32 12 20 MPC-68 32 36 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-27

Approved Contents 2.0 2.4.3 Burnup Limits as a Function of Cooling Time for ZR-Clad Fuel The maximum allowable fuel assembly average burnup varies with the following parameters:

$ Minimum fuel assembly cooling time

$ Maximum fuel assembly decay heat

$ Minimum fuel assembly average enrichment The maximum allowable ZR-clad fuel assembly average burnup for a given MINIMUM ENRICHMENT is calculated as described below for minimum cooling times between 3 and 20 years using the maximum permissible decay heat determined in Section 2.4.1 or 2.4.2. Different fuel assembly average burnup limits may be calculated for different minimum enrichments (by individual fuel assembly) for use in choosing the fuel assemblies to be loaded into a given MPC.

2.4.3.1 Choose a fuel assembly minimum enrichment, E235.

2.4.3.2 Calculate the maximum allowable fuel assembly average burnup for a minimum cooling time between 3 and 20 years using the equation below.

Bu = (A x q) + (B x q2) + (C x q3) + [D x (E235)2] + (E x q x E235) + (F x q2 x E235) + G Where:

Bu = Maximum allowable average burnup per fuel assembly (MWD/MTU) q= Maximum allowable decay heat per fuel storage location determined in Section 2.4.1 or 2.4.2 (kW)

E235 =Minimum fuel assembly average enrichment (wt. % 235U)

(e.g., for 4.05 wt.%, use 4.05)

A through G = Coefficients from Tables 2.4-3 and 2.4-4 for the applicable fuel assembly array/class and minimum cooling time Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-28

Approved Contents 2.0 2.4.3.3 Calculated burnup limits shall be rounded down to the nearest integer.

2.4.3.4 Calculated burnup limits greater than 68,200 MWD/MTU for PWR fuel and 65,000 MWD/MTU for BWR must be reduced to be equal to these values.

2.4.3.5 Linear interpolation of calculated burnups between cooling times for a given fuel assembly maximum decay heat and minimum enrichment is permitted. For example, the allowable burnup for a cooling time of 4.5 years may be interpolated between those burnups calculated for 4 year and 5 years.

2.4.3.6 Each ZR-clad fuel assembly to be stored must have a MINIMUM ENRICHMENT greater than or equal to the value used in Step 2.4.3.2.

2.4.4 When complying with the maximum fuel storage location decay heat limits, users must account for the decay heat from both the fuel assembly and any NON-FUEL HARDWARE, as applicable for the particular fuel storage location, to ensure the decay heat emitted by all contents in a storage location does not exceed the limit.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-29

Approved Contents 2.0 Table 2.4-3 (Page 1 of 8)

PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 14x14A Time (years) A B C D E F G

>3 19311.5 275.367 -59.0252 -139.41 2851.12 -451.845 -615.413

>4 33865.9 -5473.03 851.121 -132.739 3408.58 -656.479 -609.523

>5 46686.2 -13226.9 2588.39 -150.149 3871.87 -806.533 -90.2065

>6 56328.9 -20443.2 4547.38 -176.815 4299.19 -927.358 603.192

>7 64136 -27137.5 6628.18 -200.933 4669.22 -1018.94 797.162

>8 71744.1 -34290.3 9036.9 -214.249 4886.95 -1037.59 508.703

>9 77262 -39724.2 11061 -228.2 5141.35 -1102.05 338.294

> 10 82939.8 -45575.6 13320.2 -233.691 5266.25 -1095.94 -73.3159

> 11 86541 -49289.6 14921.7 -242.092 5444.54 -1141.6 -83.0603

> 12 91383 -54456.7 17107 -242.881 5528.7 -1149.2 -547.579

> 13 95877.6 -59404.7 19268 -240.36 5524.35 -1094.72 -933.64

> 14 97648.3 -61091.6 20261.7 -244.234 5654.56 -1151.47 -749.836

> 15 102533 -66651.5 22799.7 -240.858 5647.05 -1120.32 -1293.34

> 16 106216 -70753.8 24830.1 -237.04 5647.63 -1099.12 -1583.89

> 17 109863 -75005 27038 -234.299 5652.45 -1080.98 -1862.07

> 18 111460 -76482.3 28076.5 -234.426 5703.52 -1104.39 -1695.77

> 19 114916 -80339.6 30126.5 -229.73 5663.21 -1065.48 -1941.83

> 20 119592 -86161.5 33258.2 -227.256 5700.49 -1100.21 -2474.01 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-30

Approved Contents 2.0 Table 2.4-3 (Page 2 of 8)

PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 14x14B Time (years) A B C D E F G

>3 18036.1 63.7639 -24.7251 -130.732 2449.87 -347.748 -858.192

>4 30303.4 -4304.2 598.79 -118.757 2853.18 -486.453 -459.902

>5 40779.6 -9922.93 1722.83 -138.174 3255.69 -608.267 245.251

>6 48806.7 -15248.9 3021.47 -158.69 3570.24 -689.876 833.917

>7 55070.5 -19934.6 4325.62 -179.964 3870.33 -765.849 1203.89

>8 60619.6 -24346 5649.29 -189.701 4042.23 -795.324 1158.12

>9 64605.7 -27677.1 6778.12 -205.459 4292.35 -877.966 1169.88

> 10 69083.8 -31509.4 8072.42 -206.157 4358.01 -875.041 856.449

> 11 72663.2 -34663.9 9228.96 -209.199 4442.68 -889.512 671.567

> 12 74808.9 -36367 9948.88 -214.344 4571.29 -942.418 765.261

> 13 78340.3 -39541.1 11173.8 -212.8 4615.06 -957.833 410.807

> 14 81274.8 -42172.3 12259.9 -209.758 4626.13 -958.016 190.59

> 15 83961.4 -44624.5 13329.1 -207.697 4632.16 -952.876 20.8575

> 16 84968.5 -44982.1 13615.8 -207.171 4683.41 -992.162 247.54

> 17 87721.6 -47543.1 14781.4 -203.373 4674.3 -988.577 37.9689

> 18 90562.9 -50100.4 15940.4 -198.649 4651.64 -982.459 -247.421

> 19 93011.6 -52316.6 17049.9 -194.964 4644.76 -994.63 -413.021

> 20 95567.8 -54566.6 18124 -190.22 4593.92 -963.412 -551.983 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-31

Approved Contents 2.0 Table 2.4-3 (Page 3 of 8)

PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 14x14C Time (years) A B C D E F G

>3 18263.7 174.161 -57.6694 -138.112 2539.74 -369.764 -1372.33

>4 30514.5 -4291.52 562.37 -124.944 2869.17 -481.139 -889.883

>5 41338 -10325.7 1752.96 -141.247 3146.48 -535.709 -248.078

>6 48969.7 -15421.3 2966.33 -163.574 3429.74 -587.225 429.331

>7 55384.6 -20228.9 4261.47 -180.846 3654.55 -617.255 599.251

>8 60240.2 -24093.2 5418.86 -199.974 3893.72 -663.995 693.934

>9 64729 -27745.7 6545.45 -205.385 3986.06 -650.124 512.528

> 10 68413.7 -30942.2 7651.29 -216.408 4174.71 -702.931 380.431

> 11 71870.6 -33906.7 8692.81 -218.813 4248.28 -704.458 160.645

> 12 74918.4 -36522 9660.01 -218.248 4283.68 -696.498 -29.0682

> 13 77348.3 -38613.7 10501.8 -220.644 4348.23 -702.266 -118.646

> 14 79817.1 -40661.8 11331.2 -218.711 4382.32 -710.578 -236.123

> 15 82354.2 -42858.3 12257.3 -215.835 4405.89 -718.805 -431.051

> 16 84787.2 -44994.5 13185.9 -213.386 4410.99 -711.437 -572.104

> 17 87084.6 -46866.1 14004.8 -206.788 4360.3 -679.542 -724.721

> 18 88083.1 -47387.1 14393.4 -208.681 4420.85 -709.311 -534.454

> 19 90783.6 -49760.6 15462.7 -203.649 4403.3 -705.741 -773.066

> 20 93212 -51753.3 16401.5 -197.232 4361.65 -692.925 -964.628 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-32

Approved Contents 2.0 Table 2.4-3 (Page 4 of 8)

PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 15x15A/B/C Time (years) A B C D E F G

>3 15037.3 108.689 -18.8378 -127.422 2050.02 -242.828 -580.66

>4 25506.6 -2994.03 356.834 -116.45 2430.25 -350.901 -356.378

>5 34788.8 -7173.07 1065.9 -124.785 2712.23 -424.681 267.705

>6 41948.6 -11225.3 1912.12 -145.727 3003.29 -489.538 852.112

>7 47524.9 -14770.9 2755.16 -165.889 3253.9 -542.7 1146.96

>8 52596.9 -18348.8 3699.72 -177.17 3415.69 -567.012 1021.41

>9 56055.4 -20837.1 4430.93 -192.168 3625.93 -623.325 1058.61

> 10 59611.3 -23402.1 5179.52 -195.105 3699.18 -626.448 868.517

> 11 62765.3 -25766.5 5924.71 -195.57 3749.91 -627.139 667.124

> 12 65664.4 -28004.8 6670.75 -195.08 3788.33 -628.904 410.783

> 13 67281.7 -29116.7 7120.59 -202.817 3929.38 -688.738 492.309

> 14 69961.4 -31158.6 7834.02 -197.988 3917.29 -677.565 266.561

> 15 72146 -32795.7 8453.67 -195.083 3931.47 -681.037 99.0606

> 16 74142.6 -34244.8 9023.57 -190.645 3905.54 -663.682 10.8885

> 17 76411.4 -36026.3 9729.98 -188.874 3911.21 -663.449 -151.805

> 18 77091 -36088 9884.09 -188.554 3965.08 -708.55 59.3839

> 19 79194.5 -37566.4 10477.5 -181.656 3906.93 -682.4 -117.952

> 20 81600.4 -39464.5 11281.9 -175.182 3869.49 -677.179 -367.705 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-33

Approved Contents 2.0 Table 2.4-3 (Page 5 of 8)

PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 15x15D/E/F/H Time (years) A B C D E F G

>3 14376.7 102.205 -20.6279 -126.017 1903.36 -210.883 -493.065

>4 24351.4 -2686.57 297.975 -110.819 2233.78 -301.615 -152.713

>5 33518.4 -6711.35 958.544 -122.85 2522.7 -371.286 392.608

>6 40377 -10472.4 1718.53 -144.535 2793.29 -426.436 951.528

>7 46105.8 -13996.2 2515.32 -157.827 2962.46 -445.314 1100.56

>8 50219.7 -16677.7 3198.3 -175.057 3176.74 -492.727 1223.62

>9 54281.2 -19555.6 3983.47 -181.703 3279.03 -499.997 1034.55

> 10 56761.6 -21287.3 4525.98 -195.045 3470.41 -559.074 1103.3

> 11 59820 -23445.2 5165.43 -194.997 3518.23 -561.422 862.68

> 12 62287.2 -25164.6 5709.9 -194.771 3552.69 -561.466 680.488

> 13 64799 -27023.7 6335.16 -192.121 3570.41 -561.326 469.583

> 14 66938.7 -28593.1 6892.63 -194.226 3632.92 -583.997 319.867

> 15 68116.5 -29148.6 7140.09 -192.545 3670.39 -607.278 395.344

> 16 70154.9 -30570.1 7662.91 -187.366 3649.14 -597.205 232.318

> 17 72042.5 -31867.6 8169.01 -183.453 3646.92 -603.907 96.0388

> 18 73719.8 -32926.1 8596.12 -177.896 3614.57 -592.868 46.6774

> 19 75183.1 -33727.4 8949.64 -172.386 3581.13 -586.347 3.57256

> 20 77306.1 -35449 9690.02 -173.784 3636.87 -626.321 -205.513 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-34

Approved Contents 2.0 Table 2.4-3 (Page 6 of 8)

PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 16X16A Time (years) A B C D E F G

>3 16226.8 143.714 -32.4809 -136.707 2255.33 -291.683 -699.947

>4 27844.2 -3590.69 444.838 -124.301 2644.09 -411.598 -381.106

>5 38191.5 -8678.48 1361.58 -132.855 2910.45 -473.183 224.473

>6 46382.2 -13819.6 2511.32 -158.262 3216.92 -532.337 706.656

>7 52692.3 -18289 3657.18 -179.765 3488.3 -583.133 908.839

>8 57758.7 -22133.7 4736.88 -199.014 3717.42 -618.83 944.903

>9 62363.3 -25798.7 5841.18 -207.025 3844.38 -625.741 734.928

> 10 66659.1 -29416.3 6993.31 -216.458 3981.97 -642.641 389.366

> 11 69262.7 -31452.7 7724.66 -220.836 4107.55 -681.043 407.121

> 12 72631.5 -34291.9 8704.8 -219.929 4131.5 -662.513 100.093

> 13 75375.3 -36589.3 9555.88 -217.994 4143.15 -644.014 -62.3294

> 14 78178.7 -39097.1 10532 -221.923 4226.28 -667.012 -317.743

> 15 79706.3 -40104 10993.3 -218.751 4242.12 -670.665 -205.579

> 16 82392.6 -42418.9 11940.7 -216.278 4274.09 -689.236 -479.752

> 17 84521.8 -44150.5 12683.3 -212.056 4245.99 -665.418 -558.901

> 18 86777.1 -45984.8 13479 -204.867 4180.8 -621.805 -716.366

> 19 89179.7 -48109.8 14434.5 -206.484 4230.03 -648.557 -902.1

> 20 90141.7 -48401.4 14702.6 -203.284 4245.54 -670.655 -734.604 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-35

Approved Contents 2.0 Table 2.4-3 (Page 7 of 8)

PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 17x17A/16x16B/C Time (years) A B C D E F G

>3 15985.1 3.53963 -9.04955 -128.835 2149.5 -260.415 -262.997

>4 27532.9 -3494.41 428.199 -119.504 2603.01 -390.91 -140.319

>5 38481.2 -8870.98 1411.03 -139.279 3008.46 -492.881 388.377

>6 47410.9 -14479.6 2679.08 -162.13 3335.48 -557.777 702.164

>7 54596.8 -19703.2 4043.46 -181.339 3586.06 -587.634 804.05

>8 60146.1 -24003.4 5271.54 -201.262 3830.32 -621.706 848.454

>9 65006.3 -27951 6479.04 -210.753 3977.69 -627.805 615.84

> 10 69216 -31614.7 7712.58 -222.423 4173.4 -672.33 387.879

> 11 73001.3 -34871.1 8824.44 -225.128 4238.28 -657.259 101.654

> 12 76326.1 -37795.9 9887.35 -226.731 4298.11 -647.55 -122.236

> 13 78859.9 -40058.9 10797.1 -231.798 4402.14 -669.982 -203.383

> 14 82201.3 -43032.5 11934.1 -228.162 4417.99 -661.61 -561.969

> 15 84950 -45544.6 12972.4 -225.369 4417.84 -637.422 -771.254

> 16 87511.8 -47720 13857.7 -219.255 4365.24 -585.655 -907.775

> 17 90496.4 -50728.9 15186 -223.019 4446.51 -613.378 -1200.94

> 18 91392.5 -51002.4 15461.4 -220.272 4475.28 -636.398 -1003.81

> 19 94343.9 -53670.8 16631.6 -214.045 4441.31 -616.201 -1310.01

> 20 96562.9 -55591.2 17553.4 -209.917 4397.67 -573.199 -1380.64 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-36

Approved Contents 2.0 Table 2.4-3 (Page 8 of 8)

PWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 17x17B/C Time (years) A B C D E F G

>3 14738 47.5402 -13.8187 -127.895 1946.58 -219.289 -389.029

>4 25285.2 -3011.92 350.116 -115.75 2316.89 -319.23 -220.413

>5 34589.6 -7130.34 1037.26 -128.673 2627.27 -394.58 459.642

>6 42056.2 -11353.7 1908.68 -150.234 2897.38 -444.316 923.971

>7 47977.6 -15204.8 2827.4 -173.349 3178.25 -504.16 1138.82

>8 52924 -18547.6 3671.08 -183.025 3298.64 -501.278 1064.68

>9 56465.5 -21139.4 4435.67 -200.386 3538 -569.712 1078.78

> 10 60190.9 -23872.7 5224.31 -203.233 3602.88 -562.312 805.336

> 11 63482.1 -26431.1 6035.79 -205.096 3668.84 -566.889 536.011

> 12 66095 -28311.8 6637.72 -204.367 3692.68 -555.305 372.223

> 13 67757.4 -29474.4 7094.08 -211.649 3826.42 -606.886 437.412

> 14 70403.7 -31517.4 7807.15 -207.668 3828.69 -601.081 183.09

> 15 72506.5 -33036.1 8372.59 -203.428 3823.38 -594.995 47.5175

> 16 74625.2 -34620.5 8974.32 -199.003 3798.57 -573.098 -95.0221

> 17 76549 -35952.6 9498.14 -193.459 3766.52 -556.928 -190.662

> 18 77871.9 -36785.5 9916.91 -195.592 3837.65 -599.45 -152.261

> 19 79834.8 -38191.6 10501.9 -190.83 3812.46 -589.635 -286.847

> 20 81975.5 -39777.2 11174.5 -185.767 3795.78 -595.664 -475.978 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-37

Approved Contents 2.0 Table 2.4-4 (Page 1 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 7x7B Time (years) A B C D E F G

>3 26409.1 28347.5 -16858 -147.076 5636.32 -1606.75 1177.88

>4 61967.8 -6618.31 -4131.96 -113.949 6122.77 -2042.85 -96.7439

>5 91601.1 -49298.3 17826.5 -132.045 6823.14 -2418.49 -185.189

>6 111369 -80890.1 35713.8 -150.262 7288.51 -2471.1 86.6363

>7 126904 -108669 53338.1 -167.764 7650.57 -2340.78 150.403

>8 139181 -132294 69852.5 -187.317 8098.66 -2336.13 97.5285

>9 150334 -154490 86148.1 -193.899 8232.84 -2040.37 -123.029

> 10 159897 -173614 100819 -194.156 8254.99 -1708.32 -373.605

> 11 166931 -186860 111502 -193.776 8251.55 -1393.91 -543.677

> 12 173691 -201687 125166 -202.578 8626.84 -1642.3 -650.814

> 13 180312 -215406 137518 -201.041 8642.19 -1469.45 -810.024

> 14 185927 -227005 148721 -197.938 8607.6 -1225.95 -892.876

> 15 191151 -236120 156781 -191.625 8451.86 -846.27 -1019.4

> 16 195761 -244598 165372 -187.043 8359.19 -572.561 -1068.19

> 17 200791 -256573 179816 -197.26 8914.28 -1393.37 -1218.63

> 18 206068 -266136 188841 -187.191 8569.56 -730.898 -1363.79

> 19 210187 -273609 197794 -182.151 8488.23 -584.727 -1335.59

> 20 213731 -278120 203074 -175.864 8395.63 -457.304 -1364.38 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-38

Approved Contents 2.0 Table 2.4-4 (Page 2 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 8x8B Time (years) A B C D E F G

>3 28219.6 28963.7 -17616.2 -147.68 5887.41 -1730.96 1048.21

>4 66061.8 -10742.4 -1961.82 -123.066 6565.54 -2356.05 -298.005

>5 95790.7 -53401.7 19836.7 -134.584 7145.41 -2637.09 -298.858

>6 117477 -90055.9 41383.9 -154.758 7613.43 -2612.69 -64.9921

>7 134090 -120643 60983 -168.675 7809 -2183.3 -40.8885

>8 148186 -149181 81418.7 -185.726 8190.07 -2040.31 -260.773

>9 159082 -172081 99175.2 -197.185 8450.86 -1792.04 -381.705

> 10 168816 -191389 113810 -195.613 8359.87 -1244.22 -613.594

> 11 177221 -210599 131099 -208.3 8810 -1466.49 -819.773

> 12 183929 -224384 143405 -207.497 8841.33 -1227.71 -929.708

> 13 191093 -240384 158327 -204.95 8760.17 -811.708 -1154.76

> 14 196787 -252211 169664 -204.574 8810.95 -610.928 -1208.97

> 15 203345 -267656 186057 -208.962 9078.41 -828.954 -1383.76

> 16 207973 -276838 196071 -204.592 9024.17 -640.808 -1436.43

> 17 213891 -290411 211145 -202.169 9024.19 -482.1 -1595.28

> 18 217483 -294066 214600 -194.243 8859.35 -244.684 -1529.61

> 19 220504 -297897 219704 -190.161 8794.97 -10.9863 -1433.86

> 20 227821 -318395 245322 -194.682 9060.96 -350.308 -1741.16 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-39

Approved Contents 2.0 Table 2.4-4 (Page 3 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 8x8C/D/E Time (years) A B C D E F G

>3 28592.7 28691.5 -17773.6 -149.418 5969.45 -1746.07 1063.62

>4 66720.8 -12115.7 -1154 -128.444 6787.16 -2529.99 -302.155

>5 96929.1 -55827.5 21140.3 -136.228 7259.19 -2685.06 -334.328

>6 118190 -92000.2 42602.5 -162.204 7907.46 -2853.42 -47.5465

>7 135120 -123437 62827.1 -172.397 8059.72 -2385.81 -75.0053

>8 149162 -152986 84543.1 -195.458 8559.11 -2306.54 -183.595

>9 161041 -177511 103020 -200.087 8632.84 -1864.4 -433.081

> 10 171754 -201468 122929 -209.799 8952.06 -1802.86 -755.742

> 11 179364 -217723 137000 -215.803 9142.37 -1664.82 -847.268

> 12 186090 -232150 150255 -216.033 9218.36 -1441.92 -975.817

> 13 193571 -249160 165997 -213.204 9146.99 -1011.13 -1119.47

> 14 200034 -263671 180359 -210.559 9107.54 -694.626 -1312.55

> 15 205581 -275904 193585 -216.242 9446.57 -1040.65 -1428.13

> 16 212015 -290101 207594 -210.036 9212.93 -428.321 -1590.7

> 17 216775 -299399 218278 -204.611 9187.86 -398.353 -1657.6

> 18 220653 -306719 227133 -202.498 9186.34 -181.672 -1611.86

> 19 224859 -314004 235956 -193.902 8990.14 145.151 -1604.71

> 20 228541 -320787 245449 -200.727 9310.87 -230.252 -1570.18 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-40

Approved Contents 2.0 Table 2.4-4 (Page 4 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 9x9A Time (years) A B C D E F G

>3 30538.7 28463.2 -18105.5 -150.039 6226.92 -1876.69 1034.06

>4 71040.1 -16692.2 1164.15 -128.241 7105.27 -2728.58 -414.09

>5 100888 -60277.7 24150.1 -142.541 7896.11 -3272.86 -232.197

>6 124846 -102954 50350.8 -161.849 8350.16 -3163.44 -91.1396

>7 143516 -140615 76456.5 -185.538 8833.04 -2949.38 -104.802

>8 158218 -171718 99788.2 -196.315 9048.88 -2529.26 -259.929

>9 172226 -204312 126620 -214.214 9511.56 -2459.19 -624.954

> 10 182700 -227938 146736 -215.793 9555.41 -1959.92 -830.943

> 11 190734 -246174 163557 -218.071 9649.43 -1647.5 -935.021

> 12 199997 -269577 186406 -223.975 9884.92 -1534.34 -1235.27

> 13 207414 -287446 204723 -228.808 10131.7 -1614.49 -1358.61

> 14 215263 -306131 223440 -220.919 9928.27 -988.276 -1638.05

> 15 221920 -321612 239503 -217.949 9839.02 -554.709 -1784.04

> 16 226532 -331778 252234 -216.189 9893.43 -442.149 -1754.72

> 17 232959 -348593 272609 -219.907 10126.3 -663.84 -1915.3

> 18 240810 -369085 296809 -219.729 10294.6 -859.302 -2218.87

> 19 244637 -375057 304456 -210.997 10077.8 -425.446 -2127.83

> 20 248112 -379262 309391 -204.191 9863.67 100.27 -2059.39 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-41

Approved Contents 2.0 Table 2.4-4 (Page 5 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 9x9B Time (years) A B C D E F G

>3 30613.2 28985.3 -18371 -151.117 6321.55 -1881.28 988.92

>4 71346.6 -15922.9 631.132 -128.876 7232.47 -2810.64 -471.737

>5 102131 -60654.1 23762.7 -140.748 7881.6 -3156.38 -417.979

>6 127187 -105842 51525.2 -162.228 8307.4 -2913.08 -342.13

>7 146853 -145834 79146.5 -185.192 8718.74 -2529.57 -484.885

>8 162013 -178244 103205 -197.825 8896.39 -1921.58 -584.013

>9 176764 -212856 131577 -215.41 9328.18 -1737.12 -1041.11

> 10 186900 -235819 151238 -218.98 9388.08 -1179.87 -1202.83

> 11 196178 -257688 171031 -220.323 9408.47 -638.53 -1385.16

> 12 205366 -280266 192775 -223.715 9592.12 -472.261 -1661.6

> 13 215012 -306103 218866 -231.821 9853.37 -361.449 -1985.56

> 14 222368 -324558 238655 -228.062 9834.57 3.47358 -2178.84

> 15 226705 -332738 247316 -224.659 9696.59 632.172 -2090.75

> 16 233846 -349835 265676 -221.533 9649.93 913.747 -2243.34

> 17 243979 -379622 300077 -222.351 9792.17 1011.04 -2753.36

> 18 247774 -386203 308873 -220.306 9791.37 1164.58 -2612.25

> 19 254041 -401906 327901 -213.96 9645.47 1664.94 -2786.2

> 20 256003 -402034 330566 -215.242 9850.42 1359.46 -2550.06 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-42

Approved Contents 2.0 Table 2.4-4 (Page 6 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 9x9C/D Time (years) A B C D E F G

>3 30051.6 29548.7 -18614.2 -148.276 6148.44 -1810.34 1006

>4 70472.7 -14696.6 -233.567 -127.728 7008.69 -2634.22 -444.373

>5 101298 -59638.9 23065.2 -138.523 7627.57 -2958.03 -377.965

>6 125546 -102740 49217.4 -160.811 8096.34 -2798.88 -259.767

>7 143887 -139261 74100.4 -184.302 8550.86 -2517.19 -275.151

>8 159633 -172741 98641.4 -194.351 8636.89 -1838.81 -486.731

>9 173517 -204709 124803 -212.604 9151.98 -1853.27 -887.137

> 10 182895 -225481 142362 -218.251 9262.59 -1408.25 -978.356

> 11 192530 -247839 162173 -217.381 9213.58 -818.676 -1222.12

> 12 201127 -268201 181030 -215.552 9147.44 -232.221 -1481.55

> 13 209538 -289761 203291 -225.092 9588.12 -574.227 -1749.35

> 14 216798 -306958 220468 -222.578 9518.22 -69.9307 -1919.71

> 15 223515 -323254 237933 -217.398 9366.52 475.506 -2012.93

> 16 228796 -334529 250541 -215.004 9369.33 662.325 -2122.75

> 17 237256 -356311 273419 -206.483 9029.55 1551.3 -2367.96

> 18 242778 -369493 290354 -215.557 9600.71 659.297 -2589.32

> 19 246704 -377971 302630 -210.768 9509.41 1025.34 -2476.06

> 20 249944 -382059 308281 -205.495 9362.63 1389.71 -2350.49 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-43

Approved Contents 2.0 Table 2.4-4 (Page 7 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 9x9E/F Time (years) A B C D E F G

>3 30284.3 26949.5 -16926.4 -147.914 6017.02 -1854.81 1026.15

>4 69727.4 -17117.2 1982.33 -127.983 6874.68 -2673.01 -359.962

>5 98438.9 -58492 23382.2 -138.712 7513.55 -3038.23 -112.641

>6 119765 -95024.1 45261 -159.669 8074.25 -3129.49 221.182

>7 136740 -128219 67940.1 -182.439 8595.68 -3098.17 315.544

>8 150745 -156607 88691.5 -193.941 8908.73 -2947.64 142.072

>9 162915 -182667 109134 -198.37 8999.11 -2531 -93.4908

> 10 174000 -208668 131543 -210.777 9365.52 -2511.74 -445.876

> 11 181524 -224252 145280 -212.407 9489.67 -2387.49 -544.123

> 12 188946 -240952 160787 -210.65 9478.1 -2029.94 -652.339

> 13 193762 -250900 171363 -215.798 9742.31 -2179.24 -608.636

> 14 203288 -275191 196115 -218.113 9992.5 -2437.71 -1065.92

> 15 208108 -284395 205221 -213.956 9857.25 -1970.65 -1082.94

> 16 215093 -301828 224757 -209.736 9789.58 -1718.37 -1303.35

> 17 220056 -310906 234180 -201.494 9541.73 -1230.42 -1284.15

> 18 224545 -320969 247724 -206.807 9892.97 -1790.61 -1381.9

> 19 226901 -322168 250395 -204.073 9902.14 -1748.78 -1253.22

> 20 235561 -345414 276856 -198.306 9720.78 -1284.14 -1569.18 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-44

Approved Contents 2.0 Table 2.4-4 (Page 8 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 9x9G Time (years) A B C D E F G

>3 35158.5 26918.5 -17976.7 -149.915 6787.19 -2154.29 836.894

>4 77137.2 -19760.1 2371.28 -130.934 8015.43 -3512.38 -455.424

>5 113405 -77931.2 35511.2 -150.637 8932.55 -4099.48 -629.806

>6 139938 -128700 68698.3 -173.799 9451.22 -3847.83 -455.905

>7 164267 -183309 109526 -193.952 9737.91 -3046.84 -737.992

>8 182646 -227630 146275 -210.936 10092.3 -2489.3 -1066.96

>9 199309 -270496 184230 -218.617 10124.3 -1453.81 -1381.41

> 10 213186 -308612 221699 -235.828 10703.2 -1483.31 -1821.73

> 11 225587 -342892 256242 -236.112 10658.5 -612.076 -2134.65

> 12 235725 -370471 285195 -234.378 10604.9 118.591 -2417.89

> 13 247043 -404028 323049 -245.79 11158.2 -281.813 -2869.82

> 14 253649 -421134 342682 -243.142 11082.3 400.019 -2903.88

> 15 262750 -448593 376340 -245.435 11241.2 581.355 -3125.07

> 16 270816 -470846 402249 -236.294 10845.4 1791.46 -3293.07

> 17 279840 -500272 441964 -241.324 11222.6 1455.84 -3528.25

> 18 284533 -511287 458538 -240.905 11367.2 1459.68 -3520.94

> 19 295787 -545885 501824 -235.685 11188.2 2082.21 -3954.2

> 20 300209 -556936 519174 -229.539 10956 2942.09 -3872.87 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-45

Approved Contents 2.0 Table 2.4-4 (Page 9 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 10x10A/B Time (years) A B C D E F G

>3 29285.4 27562.2 -16985 -148.415 5960.56 -1810.79 1001.45

>4 67844.9 -14383 395.619 -127.723 6754.56 -2547.96 -369.267

>5 96660.5 -55383.8 21180.4 -137.17 7296.6 -2793.58 -192.85

>6 118098 -91995 42958 -162.985 7931.44 -2940.84 60.9197

>7 135115 -123721 63588.9 -171.747 8060.23 -2485.59 73.6219

>8 148721 -151690 84143.9 -190.26 8515.81 -2444.25 -63.4649

>9 160770 -177397 104069 -197.534 8673.6 -2101.25 -331.046

> 10 170331 -198419 121817 -213.692 9178.33 -2351.54 -472.844

> 11 179130 -217799 138652 -209.75 9095.43 -1842.88 -705.254

> 12 186070 -232389 151792 -208.946 9104.52 -1565.11 -822.73

> 13 192407 -246005 164928 -209.696 9234.7 -1541.54 -979.245

> 14 200493 -265596 183851 -207.639 9159.83 -1095.72 -1240.61

> 15 205594 -276161 195760 -213.491 9564.23 -1672.22 -1333.64

> 16 209386 -282942 204110 -209.322 9515.83 -1506.86 -1286.82

> 17 214972 -295149 217095 -202.445 9292.34 -893.6 -1364.97

> 18 219312 -302748 225826 -198.667 9272.27 -878.536 -1379.58

> 19 223481 -310663 235908 -194.825 9252.9 -785.066 -1379.62

> 20 227628 -319115 247597 -199.194 9509.02 -1135.23 -1386.19 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-46

Approved Contents 2.0 Table 2.4-4 (Page 10 of 10)

BWR Fuel Assembly Cooling Time-Dependent Coefficients (ZR-Clad Fuel)

Cooling Array/Class 10x10C Time (years) A B C D E F G

>3 31425.3 27358.9 -17413.3 -152.096 6367.53 -1967.91 925.763

>4 71804 -16964.1 1000.4 -129.299 7227.18 -2806.44 -416.92

>5 102685 -62383.3 24971.2 -142.316 7961 -3290.98 -354.784

>6 126962 -105802 51444.6 -164.283 8421.44 -3104.21 -186.615

>7 146284 -145608 79275.5 -188.967 8927.23 -2859.08 -251.163

>8 162748 -181259 105859 -199.122 9052.91 -2206.31 -554.124

>9 176612 -214183 133261 -217.56 9492.17 -1999.28 -860.669

> 10 187756 -239944 155315 -219.56 9532.45 -1470.9 -1113.42

> 11 196580 -260941 174536 -222.457 9591.64 -944.473 -1225.79

> 12 208017 -291492 204805 -233.488 10058.3 -1217.01 -1749.84

> 13 214920 -307772 221158 -234.747 10137.1 -897.23 -1868.04

> 14 222562 -326471 240234 -228.569 9929.34 -183.47 -2016.12

> 15 228844 -342382 258347 -226.944 9936.76 117.061 -2106.05

> 16 233907 -353008 270390 -223.179 9910.72 360.39 -2105.23

> 17 244153 -383017 304819 -227.266 10103.2 380.393 -2633.23

> 18 249240 -395456 321452 -226.989 10284.1 169.947 -2623.67

> 19 254343 -406555 335240 -220.569 10070.5 764.689 -2640.2

> 20 260202 -421069 354249 -216.255 10069.9 854.497 -2732.77 Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 2-47

Design Features 3.0 3.0 DESIGN FEATURES 3.1 Site 3.1.1 Site Location The HI-STORM 100 Cask System is authorized for general use by 10 CFR Part 50 license holders at various site locations under the provisions of 10 CFR 72, Subpart K.

3.2 Design Features Important for Criticality Control 3.2.1 MPC-24

1. Flux trap size: 1.09 in.

10

2. B loading in the neutron absorbers: 0.0267 g/cm2 (Boral) and 0.0223 g/cm2 (METAMIC) 3.2.2 MPC-68
1. Fuel cell pitch: 6.43 in.

10

2. B loading in the neutron absorbers: 0.0372 g/cm2 (Boral) and 0.0310 g/cm2 (METAMIC) 3.2.3 MPC-24E
1. Flux trap size:
i. Cells 3, 6, 19, and 22: 0.776 inch ii. All Other Cells: 1.076 inches 10
2. B loading in the neutron absorbers: 0.0372 g/cm2 (Boral) and 0.0310 g/cm2 (METAMIC) 3.2.4 MPC-32
1. Fuel cell pitch: 9.158 inches 10
2. B loading in the neutron absorbers: 0.0372 g/cm2 (Boral) and 0.0310 g/cm2 (METAMIC) 3.2.5 Not Used Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-1

Design Features 3.0 DESIGN FEATURES 3.2 Design features Important for Criticality Control (contd) 3.2.6 Fuel spacers shall be sized to ensure that the active fuel region of intact fuel assemblies remains within the neutron poison region of the MPC basket with water in the MPC.

3.2.7 The B4C content in METAMIC shall be 33.0 wt.%.

3.2.8 Neutron Absorber Tests Section 9.1.5.3 of the HI-STORM 100 FSAR is hereby incorporated by reference into the HI-STORM 100 CoC. The minimum 10B for the neutron absorber shall meet the minimum requirements for each MPC model specified in Sections 3.2.1 through 3.2.4 above.

3.3 Codes and Standards The American Society of Mechanical Engineers Boiler and Pressure Vessel Code (ASME Code), 1995 Edition with Addenda through 1997, is the governing Code for the HI-STORM 100 System MPCs, OVERPACKs, and TRANSFER CASKs, as clarified in Specification 3.3.1 below, except for Code Sections V and IX. The ASME Code paragraphs applicable to the 100U VVM are listed in Table 3-2. The latest effective editions of ASME Code Sections V and IX, including addenda, may be used for activities governed by those sections, provided a written reconciliation of the later edition against the 1995 Edition, including addenda, is performed by the certificate holder. American Concrete Institute (ACI) 349-85 is the governing Code for plain concrete as clarified in Appendix 1.D of the Final Safety Analysis Report for the HI-STORM 100 Cask System.

3.3.1 Alternatives to Codes, Standards, and Criteria Table 3-1 of Appendix B to CoC-1014 lists approved alternatives to the ASME Code for the design of the MPCs and TRANSFER CASKs of the HI-STORM 100U System.

3.3.2 Construction/Fabrication Alternatives to Codes, Standards, and Criteria Proposed alternatives to the ASME Code,Section III, 1995 Edition with Addenda through 1997 including modifications to the alternatives allowed by Specification 3.3.1 may be used on a case-specific basis when authorized by the Director of the Office of Nuclear Material Safety and Safeguards or designee. The request for such alternative should demonstrate that:

1. The proposed alternatives would provide an acceptable level of quality and safety, or (continued)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-2

Design Features 3.0 DESIGN FEATURES 3.3.2 Construction/Fabrication Alternatives to Codes, Standards, and Criteria (contd)

2. Compliance with the specified requirements of the ASME Code,Section III, 1995 Edition with Addenda through 1997, would result in hardship or unusual difficulty without a compensating increase in the level of quality and safety.

Requests for alternatives shall be submitted in accordance with 10 CFR 72.4.

(continued)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-3

Design Features 3.0 DESIGN FEATURES Table 3-1: Not Used Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-4

Design Features 3.0 Table 3-2 Applicable Code Paragraphs for Underground VVMs Item Code Explanation and Applicability Paragraph

1. Definition of primary and secondary NF-1215 members
2. Jurisdictional boundary NF-1133 The intervening elements are termed interfacing SSCs in this FSAR.
3. Certification of Material NF-2130(b) and Materials shall be certified to the (c) applicable Section II of the ASME Code or equivalent ASTM Specification.
4. Heat treatment of material NF-2170 and NF-2180
5. Storage of welding material NF-2400
6. Structural Analysis of Interfacing ACI 318-05 The VVM Interface Pad and Support SSCs Foundation are reinforced concrete structures. Loadings come from the external environment and from the VVM. Sections of the Code that may reasonably be applied to subterranean application are applicable.
7. Welding procedure Section IX
8. Welding material Section II
9. Loading conditions NF-3111
10. Allowable stress values NF-3112.3
11. Rolling and sliding supports NF-3424
12. Differential thermal expansion NF-3127
13. Stress analysis NF-3143 Provisions for stress analysis for NF-3380 Class 3 plate and shell supports and NF-3522 for linear supports are applicable for NF-3523 CEC shells and CLOSURE LID.
14. Cutting of plate stock NF-4211 NF-4211.1
15. Forming NF-4212
16. Forming tolerance NF-4221 Applies to the CEC Divider Shell and CEC Container Shell
17. Fitting and Aligning Tack Welds NF-4231 NF-4231.1
18. Alignment NF-4232
19. Storage of Welding Materials NF-4411
20. Cleanliness of Weld Surfaces NF-4412 Applies to structural and non-structural welds Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-5

Design Features 3.0 Table 3-2 (continued)

Applicable Code Paragraphs for Underground VVMs Item Code Paragraph Explanation and Applicability

21. Backing Strips, Peening NF-4421 Applies to structural and non-NF-4422 structural welds
22. Pre-heating and Interpass NF-4611 Applies to structural and non-Temperature NF-4612 structural welds NF-4613
23. Non-Destructive Examination NF-5360 InvokesSection V
24. NDE Personnel Certification NF-5522 -

NF-5523 NF-5530 All references to the ASME Code refer to applicable sections of the 1995 edition with addenda through 1997, except for Code Sections V and IX, where the latest effective editions of ASME Code Sections V and IX, including addenda, may be used, provided a written reconciliation of the later edition against the 1995 Edition, including addenda, is performed by the certificate holder.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-6

Design Features 3.0 DESIGN FEATURES (continued) 3.4 Site-Specific Parameters and Analyses Site-specific parameters and analyses that will require verification by the system user are, as a minimum, as follows:

1. The temperature of 80o F is the maximum average yearly temperature.
2. The allowed temperature extremes, averaged over a 3-day period, shall be greater than -40o F and less than 125o F.
3. The analyzed flood condition of 15 fps water velocity and a height of 125 feet of water (full submergence of the loaded cask) are not exceeded.
4. The potential for fire and explosion shall be addressed, based on site-specific considerations. The user shall demonstrate that the site-specific potential for fire is bounded by the fire conditions analyzed by the Certificate Holder, or an analysis of the site-specific fire considerations shall be performed.
5. The resultant zero period acceleration at the top of the grade and at the elevation of the Support Foundation Pad (SFP) at the host site (computed by the Newmarks rule as the sum of A+0.4*B+0.4*C, where A, B, C denote the free field ZPAs in the three orthogonal directions in decreasing magnitude, i.e., A B C) shall be less than or equal to 1.3 and 1.228, respectively.
6. a. The criteria used to qualify the protection of the reactor building base mat foundation at the nuclear plant shall also be used to insure that sub-grade supporting the SFP shall not violate the plants acceptance criteria for the potential of liquefaction.
b. The depth averaged densities and strain compatible shear wave velocities in the different regions of the subgrade shall meet the minimum requirements of Table 3-4.
7. The moment and shear capacities of the ISFSI Structures shall meet the structural requirements under the load combinations in Table 3-3.
8. Radiation Protection Space (RPS) as defined in Subsection 5.7.9 of Appendix A-100U, is intended to ensure that the subgrade material in and around the lateral space occupied by the VVMs remains essentially intact under all service conditions including during an excavation activity adjacent to the RPS.
9. The Support Foundation Pad (mat) for a VVM array established in any one construction campaign shall be of monolithic construction, to the extent practicable, to maximize the physical stability of the underground installation.

(continued)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-7

Design Features 3.0 TABLE 3-3 LOAD COMBINATIONS FOR THE TOP SURFACE PAD, VVM INTERFACE PAD, SUPPORT FOUNDATION PAD, AND THE RETAINING WALL PER ACI-318 (2005)

Load Combination LC-1 1.4D LC-2 1.2D + 1.6L LC-3 1.2D + E + L where:

D: Dead Load including long-term differential settlement effects.

L: Live Load E: DBE for the Site Table 3-4 Values of Principal Design Parameters for the Underground ISFSI Thickness of the Support Foundation Pad, 33 inch (nominal)

Thickness of the VVM Interface Pad, inch 34 (nominal)

Thickness of the Top Surface Pad, inch 30 (nominal)

Thickness of Retaining Wall, inch (nominal) 24 Rebar Size* (min.) and Layout* (max) #11 @ 9" each face, each direction Rebar Concrete Cover (top and bottom)*, inch per 7.7.1 of ACI 318 (2005)

Compressive Strength of Concrete*, psi 4500 Shear Wave Velocity in the Subgrade lateral to 500 the VVM, fps (nominal)

Shear Wave Velocity in the Subgrade Below 485 the Support Foundation Pad, fps (nominal)

  • Applies to Support Foundation Pad, VVM Interface Pad, Top Surface Pad and Retaining Wall (continued)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-8

Design Features 3.0 DESIGN FEATURES (continued) 3.4 Site-Specific Parameters and Analyses (continued)

10. Prior to an excavation activity contiguous to an RPS, a seismic qualification of the ISFSI in the structurally most vulnerable configuration (i.e., maximum amount of earth removed) shall be performed to verify that the stability of the SFP, the TSP and the shielding material within the RPS, with or without the Retaining Wall, is maintained. If a Retaining Wall is not installed in any side of the ISFSI then an Excavation Exclusion Zone shall be established inside which excavation is prohibited by performing an appropriate SSI analysis.
11. In cases where engineered features (i.e., berms and shield walls) are used to ensure that the requirements of 10 CFR 72.104(a) are met, such features are to be considered important to safety and must be evaluated to determine the applicable quality assurance category.
12. LOADING OPERATIONS, TRANSPORT OPERATIONS, and UNLOADING OPERATIONS shall only be conducted with working area ambient temperatures 0o F.
13. For those users whose site-specific design basis includes an event or events (e.g., flood) that result in the blockage of any VVM inlet or outlet air ducts for an extended period of time (i.e, longer than the total Completion Time of LCO 3.1.2),

an analysis or evaluation may be performed to demonstrate adequate heat removal is available for the duration of the event. Adequate heat removal is defined as fuel cladding temperatures remaining below the short term temperature limit. If the analysis or evaluation is not performed, or if fuel cladding temperature limits are unable to be demonstrated by analysis or evaluation to remain below the short term temperature limit for the duration of the event, provisions shall be established to provide alternate means of cooling to accomplish this objective.

14. Users shall establish procedural and/or mechanical barriers to ensure that during LOADING OPERATIONS and UNLOADING OPERATIONS, either the fuel cladding is covered by water, or the MPC is filled with an inert gas.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-9

Design Features 3.0 DESIGN FEATURES (continued) 3.5 Not Used (continued)

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-10

Design Features 3.0 DESIGN FEATURES (continued) 3.6 Forced Helium Dehydration System 3.6.1 System Description Use of a forced helium dehydration (FHD) system, (a closed-loop system) is an alternative to vacuum drying the MPC for moderate burnup fuel (<

45,000 MWD/MTU) with lower MPC heat load and mandatory for drying MPCs containing one or more high burnup fuel assemblies or higher MPC heat load as indicated in Appendix A-100U Table 3-1. The FHD system shall be designed for normal operation (i.e., excluding startup and shutdown ramps) in accordance with the criteria in Section 3.6.2.

3.6.2 Design Criteria 3.6.2.1 The temperature of the helium gas in the MPC shall be at least 15oF higher than the saturation temperature at coincident pressure.

3.6.2.2 The pressure in the MPC cavity space shall be 60.3 psig (75 psia) during drying. Backfill pressures shall be as described in Appendix A.

3.6.2.3 The hourly recirculation rate of helium shall be 10 times the nominal helium mass backfilled into the MPC for fuel storage operations.

3.6.2.4 The partial pressure of the water vapor in the MPC cavity will not exceed 3 torr. The limit is met if the gas temperature at the demoisturizer outlet is verified by measurement to remain 21oF for a period of 30 minutes or if the dew point of the gas exiting the MPC is verified by measurement to remain 22.9oF for 30 minutes.

3.6.2.5 The condensing module shall be designed to de-vaporize the recirculating helium gas to a dew point 120oF.

3.6.2.6 The demoisturizing module shall be configured to be introduced into its helium conditioning function after the condensing module has been operated for the required length of time to assure that the bulk moisture vaporization in the MPC (defined as Phase 1 in FSAR Appendix 2.B) has been completed.

3.6.2.7 The helium circulator shall be sized to effect the minimum flow rate of circulation required by these design criteria.

3.6.2.8 The pre-heater module shall be engineered to ensure that the temperature of the helium gas in the MPC meets these design criteria.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-11

Design Features 3.0 (continued)

DESIGN FEATURES (continued) 3.6 Forced Helium Dehydration System (continued) 3.6.3 Fuel Cladding Temperature A steady-state thermal analysis of the MPC under the forced helium flow scenario shall be performed using the methodology described in HI-STORM 100 FSAR Section 4.4, with due recognition of the forced convection process during FHD system operation. This analysis shall demonstrate that the peak temperature of the fuel cladding, under the most adverse condition of FHD system operation, is below the peak cladding temperature limit for normal conditions of storage for the applicable fuel type (PWR or BWR) and cooling time at the start of dry storage.

3.6.4 Pressure Monitoring During FHD Malfunction During an FHD malfunction event, described in HI-STORM 100 FSAR Chapter 11 as a loss of helium circulation, the system pressure must be monitored to ensure that the conditions listed therein are met.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-12

Design Features 3.0 DESIGN FEATURES (continued) 3.7 Deleted Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-13

Design Features 3.0 DESIGN FEATURES (continued) 3.8 Combustible Gas Monitoring During MPC Lid Welding and Cutting During MPC lid-to-shell welding and cutting operations, combustible gas monitoring of the space under the MPC lid is required, to ensure that there is no combustible mixture present.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-14

Design Features 3.0 DESIGN FEATURES (continued) 3.9 Corrosion Mitigation Measures The HI-STORM 100U VVM CEC Container Shell and Bottom Plate shall be protected from corrosion damage due to the corrosivity of the surrounding environment using the following means:

Implementation and Requirements of Corrosion Mitigation Measures Surrounding Corrosion Mitigation Measures Environments Corrosivity Coating Concrete Encasement Cathodic Protection (see note iv) (see note i) (see note ii) (see note iii)

Choice of either concrete encasement or Mild Required cathodic protection; or both Aggressive Required Optional Required Notes:

i. An exterior surface preservative (coating) applied on the CEC in accordance with the acceptance criteria set forth in the FSAR.

ii. Concrete encasement of the CEC external surfaces to establish a high pH buffer around the CEC metal mass in accordance with the requirements set forth in the FSAR.

iii. An impressed current cathodic protection system (ICCPS) in accordance with the design criteria set forth in the FSAR.

iv. Surrounding environment corrosivity is categorized as either mild or aggressive in accordance with the requirements set forth in the FSAR.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-15

Design Features 3.0 DESIGN FEATURES (continued) 3.10 Periodic Corrosion Inspections for Underground Systems HI-STORM 100U VVM ISFSIs not employing an impressed current cathodic protection system shall be subject to visual and UT inspection of at least one representative VVM to check for significant corrosion of the CEC Container Shell and Bottom Plate at an interval not to exceed 20 years. The VVM chosen for inspection is not required to be in use or to have previously contained a loaded MPC. The VVM considered to be most vulnerable to corrosion degradation shall be selected for inspection. If significant corrosion is identified, either an evaluation to demonstrate sufficient continued structural integrity (sufficient for at least the remainder of the licensing period) shall be performed or the affected VVM shall be promptly scheduled for repair or decommissioning.

Through wall corrosion shall not be permitted without promptly scheduling for repair or decommissioning. Promptness of repair or decommissioning shall be commensurate with the extent of degradation of the VVM but shall not exceed 3 years from the date of inspection.

If the representative VVM is determined to require repair or decommissioning, the next most vulnerable VVM shall be selected for inspection. This inspection process shall conclude when a VVM is found that does not require repair or decommissioning. Since the last VVM inspected is considered more prone to corrosion than the remaining un-inspected VVMs, the last VVM inspected becomes the representative VVM for the remaining VVMs.

Inspections Visual Inspection: Visual inspection of the inner surfaces of the CEC Container Shell and Bottom Plate for indications of significant or through wall corrosion (i.e., holes).

UT Inspection: The UT inspection is performed on the inside surfaces of the CEC. A minimum of 16 data points shall be obtained, 4 near the top, 4 near the mid-height and 4 near the bottom of the CEC Container Shell all approximately 0, 90, 180, and 270 degrees apart; and 4 on the CEC Bottom Plate near the CEC Container Shell approximately 0, 90, 180, and 270 degrees apart. Locations where visual inspection has identified potentially significant corrosion shall also receive UT inspection.

Locations suspected of significant corrosion may receive further UT inspection to determine the extent of corrosion.

Inspection Criteria General wall thinning exceeding 1/8 in depth and local pitting exceeding 1/4" in depth are conditions of significant corrosion.

Certificate of Compliance No. 1014 Amendment No. 12 Appendix B-100U 3-16