Submittal of Unit 2 Cycle 21 Reload Licensing Documents to Support License Amendment Requesting Application of Advanced Framatome Methodologies (PLA-7861)

ML20100F921
Person / Time
Site:	Susquehanna
Issue date:	04/09/2020
From:	Cimorelli K Susquehanna, Talen Energy
To:	Document Control Desk, Office of Nuclear Reactor Regulation
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ML20100F916	List: PLA-7861, Submittal of Unit 2 Cycle 21 Reload Licensing Documents to Support License Amendment Requesting Application of Advanced Framatome Methodologies (PLA-7861)
References
PLA-7861 ANP-3825NP, Rev 0
Download: ML20100F921 (423)
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Text

Enclosures 1 and 4 Contain Proprietary Information -

Withhold in Accordance with 10 CFR 2.390 Kevin Cimorelli Susquehanna Nuclear, LLC Site Vice President 769 Salem Boulevard Berwick, PA 18603 Tel. 570.542.3795 Fax 570.542.1504 Kevin.Cimorelli@TalenEnergy.com April 9, 2020 Attn: Document Control Desk 10 CFR 50.90 U. S. Nuclear Regulatory Commission Washington, DC 20555-0001 SUSQUEHANNA STEAM ELECTRIC STATION SUBMITTAL OF UNIT 2 CYCLE 21 RELOAD LICENSING DOCUMENTS TO SUPPORT LICENSE AMENDMENT REQUESTING APPLICATION OF ADVANCED FRAMATOME METHODOLOGIES Docket No. 50-387 PLA-7861 and 50-388

Reference:

1) Susquehanna letter to NRC, Proposed Amendment to Licenses NPF-14 and NPF-22: Application of Advanced Framatome Methodologies and TSTF-535 (PLA-7783), dated July 15, 2019 (ADAMS Accession No. ML19196A270).

Pursuant to 10 CFR 50.90, Susquehanna Nuclear, LLC (Susquehanna), submitted, in Reference 1, a request for an amendment to the Technical Specifications (TS) for the Susquehanna Steam Electric Station (SSES), Units 1 and 2, Facility Operating License numbers NPF-14 and NPF-22. The proposed amendment would revise TS 5.6.5.b to allow application of Advanced Framatome Methodologies for determining core operating limits in support of loading Framatome fuel type ATRIUM 11, revise the low pressure safety limit in TS 2.1.1.1 and TS 2.1.1.2, and remove the neutronic methods penalties on Oscillation Power Range Monitor amplitude setpoint and the pin power distribution uncertainty and bundle power correlation coefficient.

In Enclosure 7 to Reference 1, Susquehanna committed to provide certain re-load licensing documents related to Unit 2, Cycle 21 (i.e., the first cycle expected to be loaded with ATRIUM 11 fuel), within 15 days of their approval. This letter provides the first two reports: provides the Unit 2, Cycle 21 Nuclear Fuel Design Report; and Enclosure 4 provides the Unit 2, Cycle 21 Fuel Cycle Design Report. Both reports are submitted for information only to aid in the NRCs review of the license amendment requested in Reference 1.

Document Control Desk PLA-7861 Information provided in Enclosures 1 and 4 is considered proprietary to Framatome. The proprietary information has been denoted therein by brackets. As owners of the proprietary information, Framatome has executed affidavits for the documents which identify the information as proprietary, is customarily held in confidence, and should be withheld from public disclosure in accordance with 10 CPR 2.390. Enclosures 2 and 5 provide non-proprietary versions of Enclosures 1 and 4, respectively. The Framatome affidavits are included as Enclosures 3 and 6.

There are no new or revised regulatory commitments contained in this submittal. This submittal satisfies Regulatory Commitments 7783-1 and 7783-2, as documented in Enclosure 7 to Reference 1.

Should you have any questions regarding this submittal, please contact Ms. Melisa Krick, Manager- Nuclear Regulatory Affairs, at (570) 542-1818.

I declare under penalty of per*ury that the foregoing is true and con-ect.

Executed on: lf

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Enclosures:

1. Framatome Topical Repmi ANP-3825P, "Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Repmi" [Proprietary Information - Withhold from Public Disclosure in accordance with 10 CFR 2.390]

2. Framatome Topical Report ANP-3825NP, "Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report" (Non-Proprietary Version)

3. Framatome Affidavit for ANP-3 825P, "Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report"

4. Framatome Topical Repmi ANP-3826P, "Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Repmi" [Proprietary Information - Withhold from Public Disclosure in accordance with 10 CFR 2.390]

5. Framatome Topical Report ANP-3826NP, "Susquehanna Unit 2 Cycle 21 Fuel Cycle

Document Control Desk PLA-7861 Design Report (Non-Proprietary Version)

6. Framatome Affidavit for ANP-3826P, Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Copy: NRC Region I Ms. L. Micewski, NRC Sr. Resident Inspector Ms. S. Goetz, NRC Project Manager Mr. M. Shields, PA DEP/BRP (w/out Enclosures 1 and 4)

Enclosure 2 of PLA-7861 Framatome Topical Report ANP-3825NP Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report (Non-Proprietary Version)

Controlled Document Susquehanna Unit 2 Cycle 21 ANP-3825NP Revision 0 ATRIUM 11 Fuel Nuclear Fuel Design Report March 2020

© 2020 Framatome Inc.

Controlled Document ANP-3825NP Revision 0 Copyright © 2020 Framatome Inc.

All Rights Reserved ATRIUM is a trademark or registered trademark of Framatome or its affiliates, in the USA or other countries.

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page i Nature of Changes Section(s) or Item Page(s) Description and Justification 1 All Initial Issue

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page ii Contents Page

1.0 INTRODUCTION

..........................................................................................................1-1 2.0 NEUTRONIC DESIGN .................................................................................................2-1 2.1 Neutronic Design Description ............................................................................2-1 2.2 Lattice Control Blade Worths and Kinetics Parameters .....................................2-2 2.3 Enriched Lattice Uncontrolled Reactivities and Isotopic Data ............................2-2 2.4 Criticality Compliance .......................................................................................2-2

3.0 REFERENCES

.............................................................................................................3-1 Appendix A Enriched Lattice Hot Uncontrolled Reactivity and LPF Plots ............................ A-1 Appendix B Enriched Lattice Hot Uncontrolled Reactivity and LPF Tables .......................... B-1 Appendix C Enriched Lattice Isotopic Data Tables .............................................................. C-1 Appendix D Lattice Enrichment Distribution Maps ............................................................... D-1

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page iii List of Tables Table 2.1 Neutronic Design Parameters ...........................................................................2-3 Table 2.2 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 .............................................................................2-9 Table 2.3 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-10 Table 2.4 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-11 Table 2.5 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-12 Table 2.6 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-13 Table 2.7 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-14 Table 2.8 Lattice [ ] Kinetics Parameters at BOL ..............................2-14 Table 2.9 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...........................................................................2-15 Table 2.10 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-16 Table 2.11 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-17 Table 2.12 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-18 Table 2.13 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-19 Table 2.14 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-20 Table 2.15 Lattice [ ] Kinetics Parameters at BOL ..............................2-20 Table 2.16 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...........................................................................2-21 Table 2.17 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-22 Table 2.18 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-23 Table 2.19 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-24

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page iv Table 2.20 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-25 Table 2.21 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-26 Table 2.22 Lattice [ ] Kinetics Parameters at BOL ........................2-26 Table 2.23 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...........................................................................2-27 Table 2.24 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-28 Table 2.25 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-29 Table 2.26 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-30 Table 2.27 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-31 Table 2.28 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-32 Table 2.29 Lattice [ ] Kinetics Parameters at BOL ........................2-32 Table 2.30 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...............................................................2-33 Table 2.31 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon ...................................................................2-34 Table 2.32 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .........................................................2-35 Table 2.33 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment ....................................................2-36 Table 2.34 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ......................................................2-37 Table 2.35 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ....................................................2-38 Table 2.36 Lattice [ ] Kinetics Parameters at BOL .....................2-38 Table 2.37 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...........................................................................2-39 Table 2.38 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-40 Table 2.39 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-41 Table 2.40 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-42

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page v Table 2.41 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-43 Table 2.42 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-44 Table 2.43 Lattice [ ] Kinetics Parameters at BOL ........................2-44 Table 2.44 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...............................................................2-45 Table 2.45 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon ...................................................................2-46 Table 2.46 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .........................................................2-47 Table 2.47 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment ....................................................2-48 Table 2.48 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ......................................................2-49 Table 2.49 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ....................................................2-50 Table 2.50 Lattice [ ] Kinetics Parameters at BOL ......................2-50 Table 2.51 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...............................................................2-51 Table 2.52 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon ...................................................................2-52 Table 2.53 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .........................................................2-53 Table 2.54 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment ....................................................2-54 Table 2.55 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ......................................................2-55 Table 2.56 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ....................................................2-56 Table 2.57 Lattice [ ] Kinetics Parameters at BOL ......................2-56 Table 2.58 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...........................................................................2-57 Table 2.59 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-58 Table 2.60 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-59 Table 2.61 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-60

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page vi Table 2.62 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-61 Table 2.63 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-62 Table 2.64 Lattice [ ] Kinetics Parameters at BOL ..........................2-62 Table 2.65 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...........................................................................2-63 Table 2.66 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-64 Table 2.67 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-65 Table 2.68 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-66 Table 2.69 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-67 Table 2.70 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-68 Table 2.71 Lattice [ ] Kinetics Parameters at BOL ..............................2-68 Table 2.72 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...........................................................................2-69 Table 2.73 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-70 Table 2.74 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-71 Table 2.75 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-72 Table 2.76 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-73 Table 2.77 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-74 Table 2.78 Lattice [ ] Kinetics Parameters at BOL ........................2-74 Table 2.79 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...............................................................2-75 Table 2.80 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon ...................................................................2-76 Table 2.81 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .........................................................2-77 Table 2.82 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment ....................................................2-78

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page vii Table 2.83 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ......................................................2-79 Table 2.84 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ....................................................2-80 Table 2.85 Lattice [ ] Kinetics Parameters at BOL ......................2-80 Table 2.86 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...........................................................................2-81 Table 2.87 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon................................................................................2-82 Table 2.88 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .....................................................................2-83 Table 2.89 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment.................................................................2-84 Table 2.90 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ..................................................................2-85 Table 2.91 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main .................................................................2-86 Table 2.92 Lattice [ ] Kinetics Parameters at BOL ..........................2-86 Table 2.93 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...............................................................2-87 Table 2.94 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon ...................................................................2-88 Table 2.95 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .........................................................2-89 Table 2.96 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment ....................................................2-90 Table 2.97 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ......................................................2-91 Table 2.98 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ....................................................2-92 Table 2.99 Lattice [ ] Kinetics Parameters at BOL .......................2-92 Table 2.100 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...............................................................2-93 Table 2.101 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon ...................................................................2-94 Table 2.102 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .........................................................2-95 Table 2.103 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment ....................................................2-96

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page viii Table 2.104 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ......................................................2-97 Table 2.105 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ....................................................2-98 Table 2.106 Lattice [ ] Kinetics Parameters at BOL .......................2-98 Table 2.107 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 ...............................................................2-99 Table 2.108 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon .................................................................2-100 Table 2.109 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower .......................................................2-101 Table 2.110 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment ..................................................2-102 Table 2.111 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ....................................................2-103 Table 2.112 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ..................................................2-104 Table 2.113 Lattice [ ] Kinetics Parameters at BOL ....................2-104 Table 2.114 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 .........................................................................2-105 Table 2.115 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon..............................................................................2-106 Table 2.116 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower ...................................................................2-107 Table 2.117 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment...............................................................2-108 Table 2.118 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ................................................................2-109 Table 2.119 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ...............................................................2-110 Table 2.120 Lattice [ ] Kinetics Parameters at BOL ......................2-110 Table 2.121 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160 .........................................................................2-111 Table 2.122 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon..............................................................................2-112 Table 2.123 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower ...................................................................2-113 Table 2.124 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment...............................................................2-114

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page ix Table 2.125 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top ................................................................2-115 Table 2.126 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main ...............................................................2-116 Table 2.127 Lattice [ ] Kinetics Parameters at BOL ........................2-116 List of Figures Figure 2.1 Assembly Map ..............................................................................................2-117 Figure 2.2 Assembly Map ..............................................................................................2-118 Figure 2.3 Assembly Map ..............................................................................................2-119 Figure 2.4 Fuel Rod Distribution ....................................................................................2-120 Figure 2.5 Fuel Rod Distribution ....................................................................................2-121 Figure 2.6 Fuel Rod Distribution ....................................................................................2-122 Figure 2.7 Fuel Rod Axial Description ............................................................................2-123 Figure 2.8 Fuel Rod Axial Description ............................................................................2-124

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page x Nomenclature Acronym Definition BOL beginning of life BWR boiling water reactor EVC plenum region in a fuel pin modeled as an evacuated section GWd/MTU gigawatt days per metric ton of initial uranium kg/MTU kilograms per metric ton of initial uranium LHGR linear heat generation rate LPF local peaking factor MCPR minimum critical power ratio MWd/MTU megawatt days per metric ton of initial uranium NRC (United States) Nuclear Regulatory Commission

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 1-1

1.0 INTRODUCTION

This report provides results of the neutronic design analyses performed by Framatome Inc. for the Susquehanna Unit 2 reload batch SUS2-21 ATRIUM 11 boiling water reactor (BWR) fuel assemblies scheduled to be loaded in Cycle 21.

Applicable neutronic design criteria are provided in the approved topical report ANF-89-98(P)(A)

Revision 1 and Supplement 1 (Reference 1). Neutronic design analysis methodology used to determine conformance to design criteria has been reviewed and approved by the NRC in the topical report EMF-2158(P)(A) (Reference 2).

The fuel design includes Framatome Inc. [

] . Mechanical design criteria applicable to the design of these channels have been reviewed and approved by the NRC.

The neutronic design for the fabrication batch includes axially-varying enrichment and gadolinia designs with natural UO2 blankets at the top and bottom of the assembly. The fabrication batch consists of the following fuel assemblies:

• [ ]

• [ ]

• [ ]

Pertinent fuel and reactor core design information associated with this fabrication batch is given in Section 2.0 and in Appendices A through D.

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-1 2.0 NEUTRONIC DESIGN The results of the Susquehanna Unit 2 fabrication batch SUS2-21 ATRIUM 11 neutronic design analyses are presented in this section. The fuel was designed to meet applicable design criteria, as well as reactivity and control requirements. Reactor core loading patterns and the number of assemblies to be loaded will depend upon final cycle energy requirements as specified by the utility. Applicable neutronic design criteria outlined in Reference 1 are summarized below:

• Power Distribution. The local power distribution in the fuel assembly combined with the core power distribution shall result in Linear Heat Generation Rate (LHGR) and Minimum Critical Power Ratio (MCPR) values that are within the limits established for each fuel design.

• Kinetics Parameters. The moderator void reactivity coefficient due to boiling in the active channels and the Doppler fuel temperature reactivity coefficient shall be negative.

The negative void and Doppler reactivity coefficients ensure a negative power coefficient during reactor operation. Additional calculations were performed to show that the assembly average Doppler and void reactivity coefficients remain negative for the life of the assembly. These results demonstrate that the Reference 1 kinetics criteria are met on a bundle average basis.

• Control Blade Reactivity. The design of the fuel assembly and the reactor core loading shall be such that the technical specification shutdown margin requirement is met for all reactor conditions.

2.1 Neutronic Design Description The neutronic design parameters for fabrication batch SUS2-21 are presented in Table 2.1.

The key ATRIUM 11 reload assembly nuclear design characteristics are summarized below:

• The fuel assembly contains [

]

• Each fuel assembly has top and bottom natural uranium blankets.

• The enrichments are designed to yield a local power distribution which results in a balanced design relative to MCPR, LHGR, and other reactor operating requirements, e.g., power peaking.

• Gadolinia (Gd2O3 blended with UO2) rods are designed to control assembly reactivity in order to meet reactivity control requirements in the reactor, e.g. cold shutdown margin.

• The reload batch [ ] designs which vary axially in enrichment and/or gadolinia. The axial distributions of the lattices in the assemblies are shown in

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-2 Figures 2.1, 2.2, and 2.3. The fuel rod distribution and axial descriptions are presented in Figures 2.4 through 2.8. The enrichment and gadolinia distribution maps for each of the reload assembly lattices are displayed in Appendix D.

• The fuel assembly incorporates the Framatome Inc. advanced fuel channel which improves uranium utilization.

2.2 Lattice Control Blade Worths and Kinetics Parameters Beginning of life (BOL) lattice reactivities (k) have been calculated for moderator and fuel conditions ranging from cold to hot operating conditions. From these reactivities, BOL control blade worths and kinetics parameters have been determined based on GE Duralife 160, GE Marathon, GE Original Equipment, and Westinghouse 99 control blades.

Kinetics parameters are calculated for fuel temperature (Doppler), moderator void, and moderator temperature. [

] The results of these calculations are presented in Tables 2.2 through 2.127.

2.3 Enriched Lattice Uncontrolled Reactivities and Isotopic Data The enriched lattice exposure-dependent uncontrolled reactivities [

] are presented graphically in Appendix A, and in tabular format in Appendix B. The enriched lattice exposure-dependent isotopic data [ ] are presented in Appendix C.

2.4 Criticality Compliance The Susquehanna Unit 2 fabrication batch SUS2-21 ATRIUM 11 fuel assemblies satisfy the fuel design critical safety limits established for new and spent fuel storage at the Susquehanna Unit 2 facility per References 3 and 4. Additionally, these reload assemblies conform to the nuclear criticality requirements as provided to the NRC for the Reference 5 shipping container.

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-3 Table 2.1 Neutronic Design Parameters

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-4 Table 2.1 Neutronic Design Parameters (Continued)

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-5 Table 2.1 Neutronic Design Parameters (Continued)

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-6 Table 2.1 Neutronic Design Parameters (Continued)

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-7 Table 2.1 Neutronic Design Parameters (Continued)

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-8 Table 2.1 Neutronic Design Parameters (Continued)

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-9 Table 2.2 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-10 Table 2.3 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-11 Table 2.4 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-12 Table 2.5 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-13 Table 2.6 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-14 Table 2.7 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.8 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-15 Table 2.9 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-16 Table 2.10 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-17 Table 2.11 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-18 Table 2.12 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-19 Table 2.13 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-20 Table 2.14 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.15 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-21 Table 2.16 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-22 Table 2.17 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-23 Table 2.18 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-24 Table 2.19 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-25 Table 2.20 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-26 Table 2.21 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.22 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-27 Table 2.23 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-28 Table 2.24 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-29 Table 2.25 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-30 Table 2.26 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-31 Table 2.27 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-32 Table 2.28 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.29 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-33 Table 2.30 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-34 Table 2.31 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-35 Table 2.32 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-36 Table 2.33 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-37 Table 2.34 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-38 Table 2.35 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.36 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-39 Table 2.37 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-40 Table 2.38 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-41 Table 2.39 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-42 Table 2.40 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-43 Table 2.41 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-44 Table 2.42 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.43 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-45 Table 2.44 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-46 Table 2.45 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-47 Table 2.46 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-48 Table 2.47 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-49 Table 2.48 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-50 Table 2.49 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.50 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-51 Table 2.51 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-52 Table 2.52 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-53 Table 2.53 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-54 Table 2.54 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-55 Table 2.55 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-56 Table 2.56 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.57 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-57 Table 2.58 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-58 Table 2.59 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-59 Table 2.60 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-60 Table 2.61 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-61 Table 2.62 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-62 Table 2.63 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.64 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-63 Table 2.65 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-64 Table 2.66 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-65 Table 2.67 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-66 Table 2.68 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-67 Table 2.69 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-68 Table 2.70 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.71 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-69 Table 2.72 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-70 Table 2.73 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-71 Table 2.74 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-72 Table 2.75 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-73 Table 2.76 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-74 Table 2.77 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.78 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-75 Table 2.79 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-76 Table 2.80 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-77 Table 2.81 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-78 Table 2.82 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-79 Table 2.83 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-80 Table 2.84 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.85 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-81 Table 2.86 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-82 Table 2.87 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-83 Table 2.88 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-84 Table 2.89 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-85 Table 2.90 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-86 Table 2.91 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.92 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-87 Table 2.93 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-88 Table 2.94 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-89 Table 2.95 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-90 Table 2.96 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-91 Table 2.97 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-92 Table 2.98 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.99 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-93 Table 2.100 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-94 Table 2.101 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-95 Table 2.102 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-96 Table 2.103 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-97 Table 2.104 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-98 Table 2.105 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.106 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-99 Table 2.107 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-100 Table 2.108 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-101 Table 2.109 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-102 Table 2.110 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-103 Table 2.111 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-104 Table 2.112 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.113 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-105 Table 2.114 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-106 Table 2.115 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-107 Table 2.116 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-108 Table 2.117 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-109 Table 2.118 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-110 Table 2.119 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.120 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-111 Table 2.121 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Duralife 160

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-112 Table 2.122 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-113 Table 2.123 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Marathon Lower

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-114 Table 2.124 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-115 Table 2.125 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Top

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-116 Table 2.126 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse 99 Main Table 2.127 Lattice [ ] Kinetics Parameters at BOL

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-117 Figure 2.1 Assembly Map

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-118 Figure 2.2 Assembly Map

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-119 Figure 2.3 Assembly Map

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-120 Figure 2.4 Fuel Rod Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-121 Figure 2.5 Fuel Rod Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-122 Figure 2.6 Fuel Rod Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-123 Figure 2.7 Fuel Rod Axial Description

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-124 Figure 2.8 Fuel Rod Axial Description

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 3-1

3.0 REFERENCES

1. ANF-89-98(P)(A) Revision 1 and Supplement 1, Generic Mechanical Design Criteria for BWR Fuel Designs, Advanced Nuclear Fuels Corporation, May 1995.

2. EMF-2158(P)(A), Revision 0, Siemens Power Corporation Methodology for Boiling Water Reactors: Evaluation and Validation of CASMO-4/MICROBURN-B2, Siemens Power Corporation, October 1999.

3. ANP-3764P, Revision 0, Susquehanna Steam Electric Station New Fuel Storage Vault Criticality Safety Analysis for ATRIUM 11

4. ANP-3765P, Revision 0, Susquehanna Steam Electric Station Spent Fuel Storage Pool Criticality Safety Analysis for ATRIUM 11

5. Certificate of Compliance for Radioactive Material Packages, Certificate Number 9372 Revision 2, NRC Docket Number 71-9372, Package Identification Number USA/9372/B(U)F-96

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-1 Appendix A Enriched Lattice Hot Uncontrolled Reactivity and LPF Plots

[ ]

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-2 Figure A.1 [ ] Hot Uncontrolled k Figure A.2 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-3 Figure A.3 [ ] Hot Uncontrolled k Figure A.4 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-4 Figure A.5 [ ] Hot Uncontrolled k Figure A.6 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-5 Figure A.7 [ ] Hot Uncontrolled k Figure A.8 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-6 Figure A.9 [ ] Hot Uncontrolled k Figure A.10 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-7 Figure A.11 [ ] Hot Uncontrolled k Figure A.12 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-8 Figure A.13 [ ] Hot Uncontrolled k Figure A.14 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-9 Figure A.15 [ ] Hot Uncontrolled k Figure A.16 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-10 Figure A.17 [ ] Hot Uncontrolled k Figure A.18 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-11 Figure A.19 [ ] Hot Uncontrolled k Figure A.20 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-12 Figure A.21 [ ] Hot Uncontrolled k Figure A.22 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-13 Figure A.23 [ ] Hot Uncontrolled k Figure A.24 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-14 Figure A.25 [ ] Hot Uncontrolled k Figure A.26 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-15 Figure A.27 [ ] Hot Uncontrolled k Figure A.28 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-16 Figure A.29 [ ] Hot Uncontrolled k Figure A.30 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-1 Appendix B Enriched Lattice Hot Uncontrolled Reactivity and LPF Tables

[ ]

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-2 Table B.1 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-3 Table B.2 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-4 Table B.3 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-5 Table B.4 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-6 Table B.5 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-7 Table B.6 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-8 Table B.7 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-9 Table B.8 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-10 Table B.9 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-11 Table B.10 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-12 Table B.11 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-13 Table B.12 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-14 Table B.13 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-15 Table B.14 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-16 Table B.15 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-17 Table B.16 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-18 Table B.17 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-19 Table B.18 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-20 Table B.19 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-21 Table B.20 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-22 Table B.21 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-23 Table B.22 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-24 Table B.23 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-25 Table B.24 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-26 Table B.25 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-27 Table B.26 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-28 Table B.27 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-29 Table B.28 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-30 Table B.29 [ ] Hot Uncontrolled k

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-31 Table B.30 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-1 Appendix C Enriched Lattice Isotopic Data Tables

[ ]

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-2

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-3

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-4

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-5

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-6

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-7

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-8

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-9

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-10

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-11

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-12

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-13

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-14

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-15

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-16

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-17

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-18

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-19

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-20

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-21

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-22

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-23

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-24

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-25

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-26

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-27

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-28

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-29

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-30

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-31

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-32

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-33

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-34

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-35

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-36

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-37

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-38

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-39

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-40

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-41

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-42

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-43

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-44

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-45

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-46

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-1 Appendix D Lattice Enrichment Distribution Maps

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-2 Figure D.1 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-3 Figure D.2 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-4 Figure D.3 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-5 Figure D.4 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-6 Figure D.5 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-7 Figure D.6 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-8 Figure D.7 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-9 Figure D.8 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-10 Figure D.9 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-11 Figure D.10 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-12 Figure D.11 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-13 Figure D.12 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-14 Figure D.13 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-15 Figure D.14 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-16 Figure D.15 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-17 Figure D.16 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-18 Figure D.17 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-19 Figure D.18 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-20 Figure D.19 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-21 Figure D.20 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-22 Figure D.21 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-23 Figure D.22 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-24 Figure D.23 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-25 Figure D.24 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-26 Figure D.25 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-27 Figure D.26 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-28 Figure D.27 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-29 Figure D.28 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3825NP Revision 0 Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-30 Figure D.29 [ ] Enrichment Distribution

Enclosure 3 of PLA-7861 Framatome Affidavit for ANP-3825P, Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report

AFFIDAVIT

1. My name Is Alan B. Maginnis. I am Manager, Product Licensing, for Framatorne Inc. and as such I am authorized to.execute this Affidavit

2. I am farrlifiar With the criteria applied by Framatome to determine whether certain .Framatome information is proprietary. l am famiiiar with the policies established by Framatome to"ensure the proper appJication of these criteria . .

3.. ram familiar with the Framatome information contained in the report ANP-3845P.; Revision 0; "Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Repart," dated March 2020 and referred to herein as "Document." Information contained in this Document has been classified by Frarnatome as proprietary in accordance with the policies established t>y Framatome for the *ccintrol and protection of proprietary and confidential tnfortnation.

4. This Document contains information ofa proprietary and confidential nature and is of the type customarily held hi confidence by Framatome and not made available to the public. Based on my experience, lam aware that other companies regard information of the kind contained in this Document as proprietary and confidential.

5. This Document has been made avaitable to the U.S. Nucfear Regulatory Commission in confidence vvith the request thatthe information contained in this Document be withheld from public disclosure. The request for withholding of proprietary information is made in accordance with *10 CFR 2.390. .The information for which withholding from disclosure is requestai qualifies under 10 CFR 2.390(a){4)...Trade secrets and commercial or financial informatiOn ...

6. The foJJowing criteria are customarily applied by Framatome to determine whether information shoutct be classified as proprietary=

{a) The information reveals details of Framatome's research and development.

plans and programs or their results.

(b} . Use of the information by a competitor woutd*permit the competitor to significantly reduce its expenditures{ in time or resources, to design, produce, or market a simnarpr()(:fuct or service.

{c) The informatiotl inctudes test data or analytical.* techniques concerning a process, methodology, .or component, the application of which.results in a competitiveadvantage for Framatome.

(d) The information reveals certain distinguishing aspects of a process.

methodology. or compohent, the exclusive use of which provides a competitive advantage for Framatome in product optimization or marketability.

(e) The information is vital to a competitive advantage held by Framatome, would be h~lptur to competitors to Framatome,. and would .fikety cause substantial harm to the competitive position of Framatome.

The inforrnationtn the Document Is.considered p.roprietary f or the reasons set forth in

• • paragraphs6{b),.6(d) and 6(e) abOve.

7. Ill accordance with Framatome's policies governing the protection and control ofinfortnation, proprietary informatiotl contained in this Document have been made avaUable, on a limited basis*.to others outside Framatome,onty as required and under suitable agreement pf'o:vid.lngfornondisclosureand limited use of the information.

8. Framatome poHcy requires that proprietary information be kept in a secured fife or area and distributed on a.need,.to.-know basis.

9.. The foregoing.statements are true and correct to the best of my knowledge, information, and belief;

~fl. ~- . . :- -

Afan Meginnis * . '

STATE OF WASHINGTON )

) ss.

COUNTY OF BENTON )

SUBSCRIBED before me this Z61'vt day of }'i arch , 2020..

Katherine Kerr NOTARY PUB.UC, STATE OF WASHtNGTON MY *coMMtSSJON *EXPiRES: 9/12/2022

Enclosure 5 of PLA-7861 Framatome Topical Report ANP-3826NP Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report (Non-Proprietary Version)

For Information Only Susquehanna Unit 2 Cycle 21 ANP-3826NP Revision 0 Fuel Cycle Design Report March 2020

© 2020 Framatome Inc.

For Information Only ANP-3826NP Revision 0 Copyright © 2020 Framatome Inc.

All Rights Reserved ATRIUM is a trademark or registered trademark of Framatome or its affiliates, in the USA or other countries.

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page i Nature of Changes Section(s) or Item Page(s) Description and Justification 1 All Initial Issue

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page ii Contents Page

1.0 INTRODUCTION

..........................................................................................................1-1 2.0

SUMMARY

...................................................................................................................2-1 3.0 CYCLE 21 FUEL CYCLE DESIGN ...............................................................................3-1 3.1 General Description ..........................................................................................3-1 3.2 Control Rod Patterns and Thermal Limits .........................................................3-1 3.3 Hot Excess Reactivity and Cold Shutdown Margin ............................................3-2

4.0 REFERENCES

.............................................................................................................4-1 Appendix A Susquehanna Unit 2 Cycle 21 Step-through Depletion Summary, Control Rod Patterns and Core Average Axial Power and Exposure Distributions ..................................................................................... A-1 Appendix B Elevation Views of the Susquehanna Unit 2 Cycle 21 Fresh Reload Batch Fuel Assemblies ........................................................................ B-1 Appendix C Susquehanna Unit 2 Cycle 21 Fresh Fuel Locations ........................................ C-1 Appendix D Susquehanna Unit 2 Cycle 21 Radial Exposure and Power Distributions ..................................................................................................... D-1 Appendix E Susquehanna Unit 2 Cycle 20 EOC Projection Control Rod Patterns and Core Average Axial Power and Exposure Distributions ..................................................................................................... E-1

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page iii List of Tables Table 2.1 Energy and Key Results Summary ......................................................................2-2 Table 3.1 Cycle 21 Core Composition and Design Parameters ...........................................3-3 Table 3.5 Hot Operating Target k-eff Versus Cycle Exposure ..............................................3-5 Table 3.6 Cold Critical Target k-eff Versus Cycle Exposure.................................................3-5 Table 3.7 Reactivity Margin Summary .................................................................................3-6 List of Figures Figure 3.1 Reference Loading Pattern ................................................................................3-10 Figure 3.2 Lower Right Quarter Core Layout by Fuel Type .................................................3-12

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page iv Nomenclature Acronym Definition ACE Framatome critical power correlation ARO all rods out BOC beginning of cycle BWR boiling water reactor CSDM cold shutdown margin EOC end of cycle EOFP end of full power capability GWd/MTU gigawatt days per metric ton of initial uranium HEXR hot excess reactivity LHGR linear heat generation rate MCPR minimum critical power ratio MICROBURN-B2 Framatome Inc. advanced BWR core simulator methodology with PPR capability MWd/MTU megawatt days per metric ton of initial uranium PPR Pin Power Reconstruction. The PPR methodology accounts for variation in local rod power distributions due to neighboring assemblies and control state. The local rod power distributions are reconstructed based on the actual flux solution for each statepoint.

R Value the larger of zero or the shutdown margin at BOC minus the minimum calculated shutdown margin in the cycle SLC standby liquid control SPCB Framatome Inc. (formerly Siemens Power Corporation) critical power correlation

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 1-1

1.0 INTRODUCTION

This report documents the Framatome Inc. fuel cycle design and fuel management calculations for the Cycle 21 operation of the Susquehanna Unit 2 BWR. This design analysis utilizes the ATRIUM 10 and ATRIUM 11 fuel design and has been performed with the approved Framatome Inc. neutronics methodology (References 1, 4 and 5). The CASMO-4 lattice depletion code was used to generate nuclear data including cross sections and local power peaking factors. The MICROBURN-B2 three dimensional core simulator code, combined with the application of the applicable critical power correlation, was used to model the core. The following MICROBURN-B2 version 2 modeling features were also used in the analyses supporting this report:

• Pin power reconstruction (PPR) to determine thermal margins

• [ ]

• [ ]

• [ ]

• [ ]

Design results for the Cycle 21 reactor core loading including projected control rod patterns and evaluations of thermal and reactivity margins are presented. The Cycle 21 results are based on Cycle 20 core operational history as summarized in Table 2.1

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 2-1 2.0

SUMMARY

The Cycle 21 fresh batch size [ ] and batch average enrichment [

] were determined to meet the energy requirements provided by Talen Energy (Reference 3). For a complete description of the fresh reload assemblies, see Reference 2.

The loading of the Cycle 21 fuel as described in this report results in a projected Cycle 21 full power energy capability of [ ] . Beyond the full power capability, the cycle has been designed to achieve [ ] additional energy via power coastdown at constant core dome pressure operation.

In order to obtain optimum operating flexibility, the projected control rod patterns for Cycle 21 were developed to be consistent with a conservative margin to thermal limits (References 6, 7, 8, and 9). The cycle design calculations also demonstrate adequate hot excess reactivity and cold shutdown margin throughout the cycle. Key results from the design analysis are summarized in Table 2.1. Table 3.1 summarizes the core composition and the assembly description for Cycle 21 by nuclear fuel type batch. Tables 3.2, 3.3 and 3.4 contain the assumed thermal limits for both the ATRIUM 10 and ATRIUM 11 fuel in the design.

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 2-2 Table 2.1 Energy and Key Results Summary

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-1 3.0 CYCLE 21 FUEL CYCLE DESIGN 3.1 General Description The assembly design for the Cycle 21 SUS2-21 fresh reload fuel for Susquehanna Unit 2 is described in detail in Reference 2. Elevation views of the fresh reload fuel design axial enrichment and gadolinia distributions are shown in Appendix B, Figures B.1 through B.3.

[

] . This loading in conjunction with the control rod patterns presented in Appendix A shows acceptable power peaking and associated margins to limits for projected Cycle 21 operation. The analyses supporting this fuel cycle design were based on the core parameters shown in Table 3.1. Figures 3.1 and 3.2 along with Table 3.1 define the reference loading pattern used in the fuel cycle design. The specific core location of the fresh assemblies in Cycle 21 is provided in Appendix C. Key results for the cycle are summarized in Table 2.1.

3.2 Control Rod Patterns and Thermal Limits Projected control rod patterns for Cycle 21 and resultant key operating parameters including thermal margins are shown in Appendix A. The thermal margins presented in this report were determined using the MICROBURN-B2 3D core simulator PPR model to provide adequate margin to thermal limits from References 6, 7 and 8. A detailed summary of the core parameters resulting from the step-through projection analysis is provided in Tables A.1 and A.2. Limiting results from the step-through are summarized in Table 2.1. The hot operating target k-eff versus cycle exposure which was determined to be appropriate for Cycle 21 is shown in Table 3.5. The k-eff values presented in Appendix A are not bias corrected. Selected exposure and radial power distributions from the design step-through are presented in Appendix D.

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-2 3.3 Hot Excess Reactivity and Cold Shutdown Margin The cycle design calculations demonstrate adequate hot excess reactivity, SLC shutdown margin, and cold shutdown margin throughout the cycle. Key shutdown margin and R-Value results are presented in Table 2.1. The shutdown margin for Cycle 21 is in conformance with the Technical Specification limit of R + 0.38 %k/k at BOC. The shutdown margin was calculated at [ ] The cold target k-eff versus exposure determined to be appropriate for calculation of cold shutdown margin in Cycle 21 is shown in Table 3.6. [

] . Table 3.7 summarizes the Cycle 21 reactivity margins versus cycle exposure, including the SLC shutdown margin for the cycle.

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-3 Table 3.1 Cycle 21 Core Composition and Design Parameters

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-4 Table 3.2 ATRIUM 10 and ATRIUM 11 Assumed MCPR Operating Limit Table 3.3 ATRIUM 10 and ATRIUM 11 Assumed LHGR Limit Table 3.4 ATRIUM 10 and ATRIUM 11 Assumed MAPLHGR Limit

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-5 Table 3.5 Hot Operating Target k-eff Versus Cycle Exposure Table 3.6 Cold Critical Target k-eff Versus Cycle Exposure

• [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-6 Table 3.7 Reactivity Margin Summary

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-7 Table 3.7 Reactivity Margin Summary (continued)

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-8 Table 3.7 Reactivity Margin Summary (continued)

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-9 Table 3.7 Reactivity Margin Summary (continued)

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-10

]

Figure 3.1 Reference Loading Pattern

[

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-11

]

Figure 3.1 Reference Loading Pattern (Continued)

[

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 3-12 Figure 3.2 Lower Right Quarter Core Layout by Fuel Type

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page 4-1

4.0 REFERENCES

1. EMF-2158(P)(A) Revision 0, Siemens Power Corporation Methodology for Boiling Water Reactors: Evaluation and Validation of CASMO-4/MICROBURN-B2, Siemens Power Corporation

2. ANP-3825P, Revision 0, Susquehanna Unit 2 Cycle 21 ATRIUM 11 Fuel Nuclear Fuel Design Report

3. Letter, I. Brisson (Susquehanna) to R. Follett (Framatome), Susquehanna Unit 2 Cycle 21 Reload Design Plan, EML 01384, November 6, 2019. (FS1-0047729 Revision 1.0, Susquehanna Unit 2 Cycle 21 Reload Design Plan, Framatome Inc., January 2, 2020.)

4. EMF-2209(P)(A) Revision 3, SPCB Critical Power Correlation, AREVA

5. ANP-10335P-A, Revision 0, ACE/ATRIUM 11 Critical Power Correlation

6. EMF-3243(P), Revision 0, Susquehanna LOCA MALPHGR Analysis for ATRIUM-10 Fuel and Extended Power Uprate

7. ANP-3416P, Revision 2, Mechanical Design Report for Susquehanna Units 1 and 2 ATRIUM-10 Fuel Assemblies Licensing Report

8. ANP-3784P, Revision 0, Susquehanna Units 1 and 2 LOCA Analysis for ATRIUM 11 Fuel

9. ANP-3745P, Revision 0, ATRIUM 11 Fuel Rod Thermal-Mechanical Evaluation for Susquehanna LAR

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-1 Appendix A Susquehanna Unit 2 Cycle 21 Step-through Depletion Summary, Control Rod Patterns and Core Average Axial Power and Exposure Distributions

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-2 Table A.1 Design Depletion Summary

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-3 Table A.1 Design Depletion Summary (continued)

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-4 Table A.2 Design Depletion Thermal Margin Summary

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-5 Table A.2 Design Depletion Thermal Margin Summary (continued)

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-6 Figure A.1 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-7 Figure A.2 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-8 Figure A.3 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-9 Figure A.4 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-10 Figure A.5 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-11 Figure A.6 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-12 Figure A.7 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-13 Figure A.8 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-14 Figure A.9 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-15 Figure A.10 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-16 Figure A.11 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-17 Figure A.12 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-18 Figure A.13 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-19 Figure A.14 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-20 Figure A.15 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-21 Figure A.16 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-22 Figure A.17 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-23 Figure A.18 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-24 Figure A.19 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-25 Figure A.20 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-26 Figure A.21 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-27 Figure A.22 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-28 Figure A.23 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-29 Figure A.24 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-30 Figure A.25 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-31 Figure A.26 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-32 Figure A.27 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-33 Figure A.28 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-34 Figure A.29 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-35 Figure A.30 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-36 Figure A.31 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-37 Figure A.32 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-38 Figure A.33 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-39 Figure A.34 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-40 Figure A.35 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-41 Figure A.36 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-42 Figure A.37 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-43 Figure A.38 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-44 Figure A.39 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-45 Figure A.40 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-46 Figure A.41 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-47 Figure A.42 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-48 Figure A.43 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-49 Figure A.44 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-50 Figure A.45 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-51 Figure A.46 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-52 Figure A.47 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-53 Figure A.48 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-54 Figure A.49 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-55 Figure A.50 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-56 Figure A.51 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-57 Figure A.52 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-58 Figure A.53 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-59 Figure A.54 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-60 Figure A.55 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-61 Figure A.56 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-62 Figure A.57 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-63 Figure A.58 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-64 Figure A.59 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-65 Figure A.60 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-66 Figure A.61 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-67 Figure A.62 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-68 Figure A.63 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-69 Figure A.64 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-70 Figure A.65 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-71 Figure A.66 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-72 Figure A.67 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-73 Figure A.68 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-74 Figure A.69 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-75 Figure A.70 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-76 Figure A.71 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-77 Figure A.72 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-78 Figure A.73 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-79 Figure A.74 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-80 Figure A.75 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-81 Figure A.76 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-82 Figure A.77 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-83 Figure A.78 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-84 Figure A.79 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-85 Figure A.80 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-86 Figure A.81 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-87 Figure A.82 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-88 Figure A.83 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-89 Figure A.84 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-90 Figure A.85 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-91 Figure A.86 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-92 Figure A.87 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-93 Figure A.88 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-94 Figure A.89 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-95 Figure A.90 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-96 Figure A.91 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-97 Figure A.92 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-98 Figure A.93 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-99 Figure A.94 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-100 Figure A.95 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-101 Figure A.96 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-102 Figure A.97 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-103 Figure A.98 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-104 Figure A.99 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-105 Figure A.100 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-106 Figure A.101 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-107 Figure A.102 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-108 Figure A.103 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-109 Figure A.104 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-110 Figure A.105 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-111 Figure A.106 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page A-112 Figure A.107 Control Rod Pattern and Axial Distributions at [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page B-1 Appendix B Elevation Views of the Susquehanna Unit 2 Cycle 21 Fresh Reload Batch Fuel Assemblies

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page B-2 Figure B.1 Elevation View for the Fresh Fuel Reload Batch SUS2-21

[ ] Fuel Assembly Design

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page B-3 Figure B.2 Elevation View for the Fresh Fuel Reload Batch SUS2-21

[ ] Fuel Assembly Design

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page B-4 Figure B.3 Elevation View for the Fresh Fuel Reload Batch SUS2-21

[ ] Fuel Assembly Design

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page C-1 Appendix C Susquehanna Unit 2 Cycle 21 Fresh Fuel Locations

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page C-2 Table C.1 Reload Fuel Identification and Locations [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page C-3 Table C.2 Reload Fuel Identification and Locations [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page C-4 Table C.3 Reload Fuel Identification and Locations [ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page D-1 Appendix D Susquehanna Unit 2 Cycle 21 Radial Exposure and Power Distributions

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page D-2

] ]

]

]

BOC Exposure Distribution [ EOC Exposure Distribution [

Figure D.2 Figure D.1

[ [

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page D-3

] ]

]

]

Figure D.3 Radial Power Distribution at [

Figure D.4 Radial Power Distribution at [

[ [

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page E-1 Appendix E Susquehanna Unit 2 Cycle 20 EOC Projection Control Rod Patterns and Core Average Axial Power and Exposure Distributions

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page E-2 Figure E.1 Cycle 20 Control Rod Pattern and Axial Distributions at

[ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page E-3 Figure E.2 Cycle 20 Control Rod Pattern and Axial Distributions at

[ ]

For Information Only Framatome Inc. ANP-3826NP Revision 0 Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report Page E-4 Figure E.3 Cycle 20 Control Rod Pattern and Axial Distributions at

[ ]

Enclosure 6 of PLA-7861 Framatome Affidavit for ANP-3826P, Susquehanna Unit 2 Cycle 21 Fuel Cycle Design Report

AFFIDAVIT

1. My name is Atan B. Megirmis. f am Manager, Product licensing. for Framato.metnc. arid as such lam authorized to exeeute this Affidavit.

2. tam familiar withthtH;rit&ria applfed*by Ftamatome to .determine whether certarn Framatome information is proprietar-yc f am familiar with the policies established by Framatome to ~nsure the proper appti'cation oUhese criteria.

3, t am familiar with tbeFramatome information contained in the report ANP~3826P. Revision 0 , '"Susquehanna Unit2 Cycfe 21 FuetCycle DeSign Report," dated Maron !020 and:referred *to herein as*Documeflt," .fnformation contained in this *Document has heen cta.ssified by Framatome as proprietary in accordancewith the policies established by Framatom~ for *th;e*control and*protection of proprietary and confldentiat *tnf<>rmation.

4" *This Oocumentcontains information of a proprietary and confidentiaJ nature and Is oftf1e; type custOmarily held .in ~nfrdence by Framatome and not made available to the pt,~bfic. Based em my experience, l am aware thafotner companies regard information of the*

kind contained.* in this .Documentas proprietary and :eonfidentiat,

5. This Oocumenfhas been made available to the u.s. Nuclear Regulatory Cammis$ion in confidence with the requestthat the information contained in this: Document be wfthhetd from public disclosure. The request for withholding of proprietary information is made lh accotdarict:nfillth 10 CFR 2.390. The information for Whfchwithhotding from disclosure is requested qualifies under 10CFR2.390(a)(4)Trade secrets and commercial or financial

6. The following criteria are customarily applied byFramatome to determine whether information should be*classified as proprietary:

(a) The information reveals details of Framatome's research and devefopment plans and programs or their results.

(b} Use of the information bY a competitor would permit th$ competitor to significantly reduce its expenditures, in time or res.ources, to design, produce, or market a similar product or service.

(c) Thejnformatiorrmcfudes test data or analytical techniques concerning a process, methodo.logy. or component, the application of which resurts in a competitive advantage for Framatome.

(d) The informationreveaJs certaln distinguishing aspects of a process, methodology. or component, the exclusive use of which provides a competitive advantage forFramatome in product optimization or marketability.

(e} The information is vitaf.toacompetitive advantage held by Framatome, would be helpful tO competitors to Framatome. and would tikety cause substantial harm to the competitive- position of Framatome.

Th~ lnfo.rmatk>ri in tht=.rDocument is considered proprietary for the reasons set forth in paragraphs 6(b); 6(d) and 6(e} above.

7. fn accordance with Framatome's policies governing the protection and control qf information, proprietary information contained in this Document have been made available, or.t a limited basts; to others ootsideframatome*onty as required and under suitable agreement providing for nondisclosure and limited use ofthe information.

8. Framatome pofiGy requires that proprietary information be kept in a secured file or area and distributed on a need~to-know basis.

9. Tfleforegoing statements are true and correct to the best of my knowledge, information~ and belief.

STATE OF WASHINGTON )

) ss.

COUNTY OF !lENTON )

,2020.

Katherine Kerr NOTARY PUBliC, STATE OF WASHINGTON MY COMMtSSJON EXPIRES~ 9112/2022