Text

Supplement to Request for License Amendment Regarding Application of Advanced Framatome Methodologies
	ML19077A293
Person / Time
Site:	Brunswick
Issue date:	03/18/2019
From:	William Gideon; Duke Energy Progress
To:	; Document Control Desk, Office of Nuclear Reactor Regulation
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ML19077A292	List: RA-19-0139, Supplement to Request for License Amendment Regarding Application of Advanced Framatome Methodologies;
References
	RA-19-0139 ANP-3759NP, Rev 0
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William R. Gideon Vice President Brunswick Nuclear Plant P.O. Box 10429 Southport, NC 28461 Enclosures 1 and 3 Contain Proprietary Information o: 910.832.3698 Withhold in Accordance with 10 CFR 2.390 March 18, 2019 Serial: RA-19-0139 10 CFR 50.90 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-0001

Subject:

Brunswick Steam Electric Plant, Unit Nos. 1 and 2 Renewed Facility Operating License Nos. DPR-71 and DPR-62 Docket Nos. 50-325 and 50-324 Supplement to Request for License Amendment Regarding Application of Advanced Framatome Methodologies

Reference:

Letter from William R. Gideon (Duke Energy) to the U.S. Nuclear Regulatory Commission Document Control Desk, Request for License Amendment Regarding Application of Advanced Framatome Methodologies, dated October 11, 2018, ADAMS Accession Number ML18284A395.

Ladies and Gentlemen:

By letter dated October 11, 2018 (i.e., Reference), Duke Energy Progress, LLC (Duke Energy),

submitted a license amendment request (LAR) for the Brunswick Steam Electric Plant (BSEP),

Unit Nos. 1 and 2. The proposed license amendment revises Technical Specification 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.

As committed to in the subject LAR, the BSEP Unit 1 Cycle 23 Fuel Cycle Design Report (i.e.,

ANP-3759P) and the BSEP Unit 1 Cycle 23 Fuel Bundle Design Report (i.e., ANP-3758P) are being transmitted to the NRC for information. These reports are included in Enclosures 1 and 3, respectively.

Enclosures 1 and 3 contain information considered proprietary to Framatome. The proprietary information in these reports has been denoted by brackets. As owner of the proprietary information, Framatome has executed the affidavit contained in Enclosure 5 which identifies the information as proprietary, is customarily held in confidence, and should be withheld from public disclosure in accordance with 10 CFR 2.390. Enclosures 2 and 4 provide the non-proprietary versions of these reports.

U.S. Nuclear Regulatory Commission Page 2 of 3 Please refer any questions regarding this submittal to Mr. Jerry Pierce, Manager - Nuclear Support Services, at (910) 832-7931.

I declare, under penalty of perjury, that the foregoing is true and correct. Executed on March 18, 2019.

William R. Gideon SBY/sby

Enclosures:

1: ANP-3759P, Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report, Revision 0

[Proprietary Information - Withhold from Public Disclosure in Accordance with 10 CFR 2.390]

2: ANP-3759NP, Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report, Revision 0

3. ANP-3758P, Brunswick Unit 1 Cycle 23 A TRIUM-11 Fuel Nuclear Fuel Design Report, Revision 0 [Proprietary Information - Withhold from Public Disclosure in Accordance with 10 CFR 2.390]

4: ANP-3758NP, Brunswick Unit 1 Cycle 23 A TRIUM-11 Fuel Nuclear Fuel Design Report, Revision 0 5: Affidavit for ANP-3759P, Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report, Revision 0, and ANP-3758P, Brunswick Unit 1 Cycle 23 ATRIUM-11 Fuel Nuclear Fuel Design Report, Revision 0

U.S. Nuclear Regulatory Commission Page 3 of 3 cc (with all Enclosures):

U. S. Nuclear Regulatory Commission, Region II ATTN: Ms. Catherine Haney, Regional Administrator 245 Peachtree Center Ave, NE, Suite 1200 Atlanta, GA 30303-1257 U. S. Nuclear Regulatory Commission ATTN: Mr. Gale Smith, NRC Senior Resident Inspector 8470 River Road Southport, NC 28461-8869 U. S. Nuclear Regulatory Commission ATTN: Mr. Andrew Hon (Mail Stop OWFN 8G9A) 11555 Rockville Pike Rockville, MD 20852-2738 U.S. Nuclear Regulatory Commission ATTN: Mr. Dennis J. Galvin (Mail Stop OWFN 8B1A) 11555 Rockville Pike Rockville, MD 20852-2738 cc (with Enclosures 2, 4, and 5 only):

Chair - North Carolina Utilities Commission (Electronic Copy Only) 4325 Mail Service Center Raleigh, NC 27699-4300 swatson@ncuc.net Mr. W. Lee Cox, III, Section Chief (Electronic Copy Only)

Radiation Protection Section North Carolina Department of Health and Human Services 1645 Mail Service Center Raleigh, NC 27699-1645 lee.cox@dhhs.nc.gov

RA-19-0139 Enclosure 2 ANP-3759NP, Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report, Revision 0

Controlled Document 0414-12-F04 (Rev. 003, 09/17/2018)

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle 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-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page ii Contents Page

1.0 INTRODUCTION

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

SUMMARY

..................................................................................................................... 2-1 3.0 CYCLE 23 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 BRUNSWICK UNIT 1 CYCLE 23 STEP-THROUGH DEPLETION

SUMMARY

, CONTROL ROD PATTERNS AND CORE AVERAGE AXIAL POWER AND EXPOSURE DISTRIBUTIONS ......................................................................................... A-1 APPENDIX B ELEVATION VIEWS OF THE BRUNSWICK UNIT 1 CYCLE 23 FRESH RELOAD BATCH FUEL ASSEMBLIES .................................... B-1 APPENDIX C BRUNSWICK UNIT 1 CYCLE 23 FRESH FUEL LOCATIONS ................... C-1 APPENDIX D BRUNSWICK UNIT 1 CYCLE 23 RADIAL EXPOSURE AND POWER DISTRIBUTIONS .......................................................................... D-1

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page iii List of Tables Table 2.1 Brunswick Unit 1 Cycle 23 Energy and Key Results Summary ............................... 2-2 Table 2.2 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Assembly ID Range by Nuclear Fuel Type .............................................................................................................. 2-3 Table 2.3 Assumed ATRIUM 11 MCPR Operating Limit ......................................................... 2-3 Table 2.4 Assumed ATRIUM 11 LHGR Limit .......................................................................... 2-4 Table 2.5 Assumed ATRIUM 11 APLHGR Limit ...................................................................... 2-4 Table 3.1 Cycle 23 Core Composition and Design Parameters .............................................. 3-3 Table 3.2 Brunswick Unit 1 Cycle 23 Hot Operating Target k-eff Versus Cycle Exposure ...... 3-4 Table 3.3 Brunswick Unit 1 Cycle 23 Cold Critical Target k-eff Versus Cycle Exposure ......... 3-4 Table 3.4 Brunswick Unit 1 Cycle 23 Reactivity Margin Summary .......................................... 3-5 List of Figures Figure 2.1 Brunswick Unit 1 Cycle 23 Design Step-through k-eff versus Cycle Exposure ...... 2-5 Figure 2.2 Brunswick Unit 1 Cycle 23 Design Margin to Thermal Limits versus Cycle Exposure ............................................................................................................... 2-5 Figure 3.1 Brunswick Unit 1 Cycle 23 Reference Loading Pattern .......................................... 3-6 Figure 3.2 Brunswick Unit 1 Cycle 23 Upper Left Quarter Core Layout by Fuel Type ............. 3-7 Figure 3.3 Brunswick Unit 1 Cycle 23 Upper Right Quarter Core Layout by Fuel Type .......... 3-8 Figure 3.4 Brunswick Unit 1 Cycle 23 Lower Left Quarter Core Layout by Fuel Type ............. 3-9 Figure 3.5 Brunswick Unit 1 Cycle 23 Lower Right Quarter Core Layout by Fuel Type ........ 3-10

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page iv Nomenclature Acronym Definition

[] Square brackets enclose information that is proprietary to Framatome.

ACE Framatome critical power correlation [

]

BOC beginning of cycle BOL beginning of life BWR boiling water reactor CSDM cold shutdown margin EOC end of cycle EOFP end of full power capability FFTR final feedwater temperature reduction 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 NEOC near end of cycle (MCPR limit exposure breakpoint)

NRC (United States) Nuclear Regulatory Commission 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

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 1-1

1.0 INTRODUCTION

Framatome Inc. has performed a fuel cycle design evaluation for the Brunswick Unit 1 reactor.

This design uses fresh ATRIUM 11 and co-resident ATRIUM 10XM fuel assemblies in the MELLLA+ operating domain. This analysis has been performed with the approved Framatome neutronic modeling methodology (Reference 1). This analysis has also used the Reference 2 - 3 critical power methodology. The CASMO-4 lattice depletion code was used to generate nuclear data including cross section libraries and local power peaking factors. The MICROBURN-B2 three dimensional core simulator code, combined with the ACE critical power correlation, was used to model the core. The MICROBURN-B2 pin power reconstruction (PPR) model was used to determine the thermal margins presented in this report. Design results including projected control rod patterns and evaluations of thermal and reactivity margins are presented in this report. The Cycle 23 results are based on Cycle 22 core operational history as summarized in Table 2.1.

The following MICROBURN-B2 version 2 modeling features were also used in the analyses supporting this document:

Control Blade Boron (10B) Depletion

Explicit neutronic treatment of spacer grids

Explicit modeling of PLFR plenums

Explicit modeling of the water rod flow

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 2-1 2.0

SUMMARY

The Cycle 23 fresh batch size [ ] and batch average enrichment [

] were determined to meet the energy requirements provided by Duke Energy (Reference 4). For a complete description of the fresh reload assemblies, see Reference 5.

The loading of the Cycle 23 fuel as described in this report results in a projected Cycle 23 full power energy capability (including FFTR) of 1,964+/-30 GWd (19,344+/-300 MWd/MTU). Beyond the full power capability, the cycle has been designed to achieve 40.9 GWd additional energy via Constant Pressure Power Coastdown operation.

In order to obtain optimum operating flexibility, the projected control rod patterns for Cycle 23 were developed to be consistent with a conservative margin to thermal limits (Reference 6).

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 2.2 summarizes the assembly identification range by nuclear fuel type batch for the Cycle 23 design. Table 2.3, Table 2.4 and Table 2.5 contain the assumed thermal limits for this design. Figures 2.1 and 2.2 provide a summary of the cycle design step-through projection.

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 2-2 Table 2.1 Brunswick Unit 1 Cycle 23 Energy and Key Results Summary Cycle Energy, GWd (Cycle Exposure, MWd/MTU)

Cycle 22

Core follow through January 2019 790 (7,774)

Best estimate depletion to Nominal EOC 22 1,961 (19,291)

Short window EOC 22 1,917 (18,860)

Long window EOC 22 1,985 (19,521)

Cycle 23

EOFP Energy (including FFTR) 1,964+/-30 (19,344+/-300)

Constant Pressure Power Coastdown Energy 41 (403)

EOC Energy 2,005+/-30 (19,748+/-300)

Key Results BOC CSDM, %k/k (based on short EOC 22) 1.23 Minimum CSDM, %k/k (based on short EOC 22) 1.23 Cycle Exposure of Minimum CSDM, MWd/MTU (short basis) 0 Moderator Temperature of Minimum CSDM, °F (short basis) 68 Cycle R Value, %k/k (short basis) 0.00 Minimum SLC SDM, %k/k (based on short EOC 22) 1.26 Cycle Exposure of Minimum SLC SDM, MWd/MTU (short basis) 0 BOC HEXR, %k/k (based on nominal EOC 22) 1.88 Maximum HEXR, %k/k (based on nominal EOC 22) 2.03 Cycle Exposure of Maximum HEXR, MWd/MTU (nominal basis) 9,350 Minimum MAPLHGR Margin, % 9.8 Exposure of Minimum MAPLHGR Margin, MWd/MTU 18,150 Minimum LHGR Margin, % 8.0 Exposure of Minimum LHGR Margin, MWd/MTU 19,150 Minimum CPR Margin, % 5.0 Exposure of Minimum CPR Margin, MWd/MTU 2,500

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 2-3 Table 2.2 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Assembly ID Range by Nuclear Fuel Type Table 2.3 Assumed ATRIUM 11 MCPR Operating Limit

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 2-4 Table 2.4 Assumed ATRIUM 11 LHGR Limit Table 2.5 Assumed ATRIUM 11 APLHGR Limit

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 2-5 1.010 1.005 k-eff 1.000 0.995 Target Cycle 23 0.990 0 2 4 6 8 10 12 14 16 18 20 22 Cycle Exposure (GWd/MTU)

Figure 2.1 Brunswick Unit 1 Cycle 23 Design Step-through k-eff versus Cycle Exposure 1.0 Fraction to Thermal Limits 0.9 0.8 MCPR 0.7 LHGR APLHGR 0.6 0 2 4 6 8 10 12 14 16 18 20 22 Cycle Exposure (GWd/MTU)

Figure 2.2 Brunswick Unit 1 Cycle 23 Design Margin to Thermal Limits versus Cycle Exposure

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-1 3.0 CYCLE 23 FUEL CYCLE DESIGN 3.1 General Description The assembly design for the Cycle 23 BRK1-23 fresh reload fuel for Brunswick Unit 1 is described in detail in Reference 5. Elevation views of the fresh reload fuel design axial enrichment and gadolinia distributions are shown in Appendix B, Figures B.1 through B.3. The loading pattern generally maintains eighth core symmetry and uses a scatter load fuel management scheme. 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 23 operation. The analyses supporting this fuel cycle design were based on the core parameters shown in Table 3.1. Figures 3.1 through 3.5, 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 23 is provided in Appendix C. Key results for the cycle are summarized in Table 2.1. Exposure limits have been checked using the long cycle N-1 and long cycle N energy window. It has been confirmed that no rod-averaged exposure exceeds 60 GWd/MTU.

3.2 Control Rod Patterns and Thermal Limits Projected control rod patterns for Cycle 23 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. 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 and in Figure 2.2. The thermal margins presented in this report are based on the assumed thermal limits shown in Table 2.3, Table 2.4, & Table 2.5 and are subject to revision pending the completion of the cycle thermal-mechanical and safety analyses. The hot operating target k-eff versus cycle exposure which was determined to be appropriate for Cycle 23 is shown in Table 3.2. The k-eff and margin to limits results from the design cycle depletion are presented graphically in Figure 2.1 and Figure 2.2. The k-eff values presented in Figure 2.1 and in Appendix A are not bias corrected. Selected exposure and radial power distributions from the design step-through are presented in Appendix D. The maximum core exit void fraction for the design step-through was determined to be 88.7%. The radial peaking factor does not exceed 1.60 for ATRIUM 11 fuel or 1.59 for ATRIUM 10XM fuel.

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 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 23 is in conformance with the Technical Specification limit of R + 0.38 %k/k at BOC. The cold target k-eff versus exposure determined to be appropriate for calculation of cold shutdown margin in Cycle 23 is shown in Table 3.3. The core hot excess reactivity was calculated at full power with all rods out, 77.0 Mlb/hr core flow, with equilibrium xenon. Table 3.4 summarizes the Cycle 23 reactivity margins versus cycle exposure, including the SLC shutdown margin for the cycle. Cold shutdown margin calculations have also been performed at temperatures above 68 °F to determine the shutdown margin at the most reactive temperature.

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-3 Table 3.1 Cycle 23 Core Composition and Design Parameters Number of Fuel Assemblies in Core 560 Total Number of Fresh Assemblies [ ]

Total Core Mass, MTU 101.54 Rated Thermal Power Level, MWt 2,923 Rated Core Flow, Mlb/hr 77.0 Reference Pressure, psia 1,045*

Reference Inlet Subcooling, Btu/lbm 21.3

Value is representative of MICROBURN-B2 input for dome pressure at rated conditions and varies depending on core state point.

Value is typically determined by MICROBURN-B2 using a heat balance method based on nominal feedwater temperature and other parameters identified in the cycle specific plant parameters document.

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-4 Table 3.2 Brunswick Unit 1 Cycle 23 Hot Operating Target k-eff Versus Cycle Exposure Cycle Exposure Hot Operating (MWd/MTU) k-eff*

0.0 1.001 4,000.0 0.9995 9,000.0 0.9995 13,000.0 1.0005 18,000.0 1.0005 19,300.0 0.9995 EOC 0.9995 Table 3.3 Brunswick Unit 1 Cycle 23 Cold Critical Target k-eff Versus Cycle Exposure Cycle Exposure Cold Critical (MWd/MTU) k-eff*

0.0 0.9925 6,000.0 0.989 EOC 0.989

Values are linearly interpolated between cycle exposure points.

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-5 Table 3.4 Brunswick Unit 1 Cycle 23 Reactivity Margin Summary Cold Shutdown SLC Cold Shutdown Hot Excess Cycle Exposure Margin* Margin Reactivity (MWd/MTU) (% k/k) (% k/k) (% k/k) 0 1.23 1.26 1.88 250 1.50 1.53 1.78 1,250 1.96 1.82 1.70 2,100 2.10 1.82 1.80 3,000 2.23 1.79 1.90 4,000 2.38 1.77 1.96 5,250 2.54 1.73 1.96 6,700 2.52 1.77 1.96 7,400 2.49 1.79 1.97 8,400 2.35 1.79 2.00 9,350 2.11 1.77 2.03 10,200 1.98 1.80 2.01 11,200 1.91 1.89 1.99 12,600 1.95 2.15 1.95 14,000 2.06 2.53 1.89 15,650 1.89 3.18 1.63 17,000 1.37 3.81 1.12 17,700 1.29 4.14 0.68 17,950 1.30 4.28 0.50 18,150 1.29 4.38 0.37 18,350 1.31 4.49 0.21 18,550 1.31 4.59 0.07 18,851 1.33 4.76 --

19,000 1.35 4.86 --

19,150 1.38 4.95 --

19,344 1.40 5.08 --

20,698 1.91 6.25 --

Based on short window EOC 22. Values for cold shutdown margin are shown in bold font if the most reactive temperature is greater than 68 °F.

Based on short window EOC 22, calculated at 360.8 °F ARO conditions.

Based on nominal EOC 22.

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-6 Figure 3.1 Brunswick Unit 1 Cycle 23 Reference Loading Pattern

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-7 Figure 3.2 Brunswick Unit 1 Cycle 23 Upper Left Quarter Core Layout by Fuel Type

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-8 Figure 3.3 Brunswick Unit 1 Cycle 23 Upper Right Quarter Core Layout by Fuel Type

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-9 Figure 3.4 Brunswick Unit 1 Cycle 23 Lower Left Quarter Core Layout by Fuel Type

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page 3-10 Figure 3.5 Brunswick Unit 1 Cycle 23 Lower Right Quarter Core Layout by Fuel Type

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 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, October, 1999.

2. ANP-10298(P) Revision 1, ACE/ATRIUM 10XM Critical Power Correlation, AREVA, March 2014.

3. ANP-10335P-A, Revision 0, ACE/ATRIUM 11 Critical Power Correlation, Framatome Inc., May 2018

4. FS1-0040620 Revision 1.0, BRK1-23 RSD Transmittal Revision 1 NF18-73, October 2018.

5. ANP-3758P, Revision 0, Nuclear Fuel Design Report Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel, March 2019.

6. FS1-0040610, Revision 1.0, Brunswick Unit 1 Cycle 23 Target K-Effective and Thermal Limit Selection, October 2018.

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-1 Appendix A Brunswick Unit 1 Cycle 23 Step-through Depletion Summary, Control Rod Patterns and Core Average Axial Power and Exposure Distributions

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-2 Table A.1 Brunswick Unit 1 Cycle 23 Design Depletion Summary Total Total Inlet Core Core Cycle Control Core Core Ref. Sub- Core Maximum Maximum Exposure Calculated Rod Power Flow Pressure Cooling Void Minimum LHGR APLHGR (GWd/MT) K-eff Density MWt (Mlb/hr) (psia) (Btu/lb) Fraction CPR (kW/ft) (kW/ft) 0.000 1.00103 5.11 2923.0 66.99 1044.68 24.94 0.543 1.502 12.31 9.67 0.250 1.00098 5.11 2923.0 70.07 1044.71 23.72 0.530 1.538 11.68 9.31 0.750 1.00085 5.11 2923.0 73.92 1044.74 22.34 0.519 1.576 11.55 9.24 1.250 1.00065 5.11 2923.0 72.38 1044.73 22.87 0.525 1.568 11.73 9.32 1.750 1.00038 5.11 2923.0 70.07 1044.71 23.72 0.532 1.555 12.03 9.51 2.100 1.00018 5.11 2923.0 68.53 1044.69 24.32 0.538 1.544 12.26 9.65 2.101 1.00031 6.20 2923.0 71.61 1044.72 23.15 0.517 1.453 11.38 9.16 2.500 1.00023 6.20 2923.0 70.46 1044.71 23.57 0.521 1.453 11.57 9.11 3.000 0.99999 6.20 2923.0 69.30 1044.70 24.02 0.526 1.453 11.75 9.13 3.500 0.99979 6.20 2923.0 67.91 1044.69 24.56 0.531 1.452 11.83 9.23 4.000 0.99956 6.20 2923.0 66.99 1044.68 24.94 0.534 1.453 11.85 9.28 4.400 0.99957 6.20 2923.0 66.99 1044.68 24.94 0.534 1.459 11.83 9.29 4.800 0.99953 6.20 2923.0 66.99 1044.68 24.94 0.533 1.465 11.81 9.28 4.801 0.99950 6.27 2923.0 67.76 1044.69 24.63 0.527 1.501 11.74 9.46 5.250 0.99949 6.27 2923.0 67.76 1044.69 24.63 0.526 1.507 11.63 9.39 5.700 0.99946 6.27 2923.0 67.76 1044.69 24.63 0.525 1.511 11.56 9.33 6.200 0.99947 6.27 2923.0 67.76 1044.69 24.63 0.523 1.512 11.47 9.35 6.700 0.99955 6.27 2923.0 67.76 1044.69 24.63 0.522 1.512 11.38 9.39 7.100 0.99952 6.27 2923.0 67.38 1044.68 24.78 0.522 1.506 11.33 9.42 7.400 0.99949 6.27 2923.0 66.99 1044.68 24.94 0.522 1.500 11.37 9.48 7.401 0.99952 6.30 2923.0 68.14 1044.69 24.47 0.526 1.513 11.44 9.35 7.900 0.99947 6.30 2923.0 67.76 1044.69 24.63 0.526 1.519 11.43 9.49 8.400 0.99949 6.30 2923.0 67.38 1044.68 24.78 0.526 1.520 11.47 9.68 8.850 0.99952 6.30 2923.0 66.99 1044.68 24.94 0.525 1.518 11.51 9.81 9.350 0.99955 6.30 2923.0 66.61 1044.68 25.10 0.524 1.516 11.44 9.85 9.351 0.99954 6.60 2923.0 67.38 1044.68 24.79 0.520 1.532 11.53 9.91 9.700 0.99963 6.60 2923.0 67.38 1044.68 24.79 0.518 1.531 11.30 9.76 10.200 0.99988 6.60 2923.0 67.76 1044.69 24.63 0.512 1.532 10.89 9.47 10.700 0.99998 6.60 2923.0 67.76 1044.69 24.63 0.507 1.526 10.40 9.08 11.200 1.00012 6.60 2923.0 67.76 1044.69 24.63 0.500 1.518 9.81 8.60 11.700 1.00026 6.60 2923.0 67.76 1044.69 24.63 0.492 1.510 9.47 8.23 12.100 1.00036 6.60 2923.0 67.76 1044.69 24.63 0.485 1.506 9.20 8.03 12.101 1.00037 5.26 2923.0 68.53 1044.69 24.32 0.506 1.493 10.91 9.54 12.600 1.00043 5.26 2923.0 68.92 1044.70 24.17 0.495 1.486 9.95 8.73 13.100 1.00053 5.26 2923.0 69.45 1044.70 23.96 0.483 1.480 9.12 8.03 13.600 1.00054 5.26 2923.0 69.68 1044.70 23.87 0.473 1.470 9.11 7.56 14.000 1.00050 5.26 2923.0 70.07 1044.71 23.72 0.464 1.465 9.25 7.67 14.400 1.00055 5.26 2923.0 70.84 1044.71 23.43 0.454 1.463 9.36 7.76 14.850 1.00053 5.26 2923.0 72.00 1044.73 23.01 0.443 1.464 9.46 7.85 14.851 1.00058 5.29 2923.0 72.76 1044.73 22.74 0.441 1.455 9.46 8.28 15.200 1.00053 5.29 2923.0 74.31 1044.75 22.21 0.432 1.495 9.47 8.26 15.650 1.00046 5.29 2923.0 76.61 1044.77 21.45 0.419 1.545 9.44 8.24 16.100 1.00053 5.29 2923.0 80.08 1044.80 20.40 0.404 1.604 9.40 8.29 16.101 1.00052 5.08 2923.0 75.85 1044.76 21.69 0.409 1.552 9.39 8.31 16.550 1.00050 5.08 2923.0 80.08 1044.80 20.40 0.393 1.606 9.29 8.31 16.551 1.00053 4.84 2923.0 75.07 1044.75 21.94 0.399 1.547 9.51 8.53 17.000 1.00045 4.84 2923.0 80.46 1044.80 20.29 0.382 1.571 9.67 8.74 17.001 1.00057 3.68 2923.0 74.31 1044.75 22.20 0.400 1.484 9.87 8.28 17.400 1.00059 3.68 2923.0 80.08 1044.80 20.40 0.383 1.511 10.15 8.53 17.401 1.00059 3.53 2923.0 75.69 1044.76 21.74 0.388 1.480 10.12 8.74 17.700 1.00050 3.53 2923.0 80.46 1044.80 20.29 0.375 1.503 10.31 8.82 17.701 1.00065 2.43 2923.0 75.07 1044.75 21.94 0.392 1.473 10.43 8.89 17.950 1.00055 2.43 2923.0 79.69 1044.80 20.51 0.380 1.508 10.45 8.96 17.951 1.00059 2.34 2923.0 77.77 1044.78 21.08 0.382 1.504 10.44 8.94 18.150 1.00026 2.34 2923.0 80.46 1044.80 20.29 0.375 1.522 10.45 9.00 18.151 1.00041 1.25 2923.0 76.23 1044.76 21.56 0.389 1.520 10.30 8.80 18.350 1.00041 1.25 2923.0 80.46 1044.80 20.29 0.379 1.544 10.32 8.86 18.351 1.00039 0.73 2923.0 77.00 1044.77 21.32 0.388 1.514 10.39 8.84 18.550 0.99994 0.73 2923.0 80.46 1044.80 20.29 0.380 1.545 10.37 8.89 18.551 1.00030 0.00 2923.0 75.85 1044.76 21.69 0.389 1.505 10.41 8.90 18.654 1.00012 0.00 2923.0 77.77 1044.78 21.09 0.384 1.519 10.42 8.95 18.655 1.00038 0.00 2923.0 76.23 1044.70 23.04 0.381 1.513 10.33 8.87 18.850 1.00021 0.00 2923.0 80.08 1044.70 21.79 0.371 1.540 10.34 8.96 18.851 1.00010 0.00 2923.0 77.00 1044.70 24.87 0.371 1.528 10.20 8.81 19.000 1.00017 0.00 2923.0 80.46 1044.70 23.68 0.362 1.550 10.23 8.90 19.001 0.99989 0.00 2923.0 77.39 1044.70 26.71 0.362 1.541 10.09 8.75 19.150 0.99981 0.00 2923.0 80.46 1044.70 25.58 0.354 1.560 10.12 8.83 19.151 0.99977 0.00 2923.0 78.15 1044.70 28.29 0.353 1.556 9.99 8.71 19.250 0.99982 0.00 2923.0 80.46 1044.70 27.40 0.347 1.570 10.03 8.77 19.251 0.99965 0.00 2923.0 77.00 1044.70 31.16 0.346 1.561 9.86 8.61 19.345 1.00014 0.00 2923.0 80.46 1044.70 29.69 0.338 1.582 9.93 8.70 19.748 0.99946 0.00 2710.2 80.46 1044.70 27.37 0.321 1.687 9.31 8.21 19.800 0.99946 0.00 2696.6 80.46 1044.70 27.22 0.319 1.694 9.28 8.19 20.250 0.99959 0.00 2447.3 80.46 1044.70 24.50 0.299 1.841 8.54 7.66 20.697 0.99937 0.00 2159.0 80.46 1044.70 21.35 0.274 2.049 7.68 7.04

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-3 Table A.2 Brunswick Unit 1 Cycle 23 Design Depletion Thermal Margin Summary Fraction Core Fraction Core Fraction Cycle Control Core of Limiting of Limiting of Exposure Calculated Rod Limiting Limiting LHGR Limiting APLHGR Limiting (GWd/MT) K-eff Density CPR CPR (kW/ft) LHGR (kW/ft) APLHGR 0.000 1.00103 5.109 1.502 0.919 12.31 0.905 9.47 0.820 0.250 1.00098 5.109 1.538 0.897 11.68 0.859 9.31 0.810 0.750 1.00085 5.109 1.576 0.876 11.55 0.849 9.24 0.811 1.250 1.00065 5.109 1.568 0.880 11.73 0.863 9.27 0.821 1.750 1.00038 5.109 1.555 0.888 12.03 0.885 9.42 0.837 2.100 1.00018 5.109 1.544 0.894 12.26 0.901 9.59 0.858 2.101 1.00031 6.204 1.453 0.949 11.38 0.837 8.82 0.797 2.500 1.00023 6.204 1.453 0.950 11.57 0.851 8.97 0.816 3.000 0.99999 6.204 1.453 0.950 11.75 0.864 9.13 0.838 3.500 0.99979 6.204 1.452 0.950 11.83 0.870 9.23 0.855 4.000 0.99956 6.204 1.453 0.950 11.85 0.871 9.28 0.868 4.400 0.99957 6.204 1.459 0.946 11.83 0.870 9.29 0.875 4.800 0.99953 6.204 1.465 0.942 10.17 0.871 9.28 0.881 4.801 0.99950 6.265 1.501 0.919 11.74 0.863 9.29 0.880 5.250 0.99949 6.265 1.507 0.916 11.63 0.855 9.22 0.882 5.700 0.99946 6.265 1.511 0.913 9.62 0.853 9.17 0.884 6.200 0.99947 6.265 1.512 0.913 9.79 0.852 9.13 0.886 6.700 0.99955 6.265 1.512 0.913 9.71 0.853 9.06 0.888 7.100 0.99952 6.265 1.506 0.916 9.65 0.854 9.01 0.890 7.400 0.99949 6.265 1.500 0.920 9.61 0.854 8.98 0.892 7.401 0.99952 6.296 1.513 0.912 9.82 0.845 8.88 0.860 7.900 0.99947 6.296 1.519 0.908 9.72 0.844 8.84 0.864 8.400 0.99949 6.296 1.520 0.908 11.47 0.845 8.79 0.867 8.850 0.99952 6.296 1.518 0.909 11.51 0.857 8.71 0.867 9.350 0.99955 6.296 1.516 0.910 11.44 0.861 8.40 0.863 9.351 0.99954 6.600 1.532 0.901 9.63 0.875 9.06 0.895 9.700 0.99963 6.600 1.531 0.901 9.45 0.864 8.88 0.883 10.200 0.99988 6.600 1.532 0.901 9.10 0.844 8.38 0.862 10.700 0.99998 6.600 1.526 0.904 8.81 0.825 8.06 0.842 11.200 1.00012 6.600 1.518 0.909 9.10 0.808 8.33 0.827 11.700 1.00026 6.600 1.510 0.914 8.90 0.792 8.08 0.809 12.100 1.00036 6.600 1.506 0.916 8.73 0.781 7.99 0.800 12.101 1.00037 5.262 1.493 0.924 8.24 0.864 8.18 0.871 12.600 1.00043 5.262 1.486 0.929 7.74 0.831 7.54 0.819 13.100 1.00053 5.262 1.480 0.933 7.34 0.804 7.13 0.781 13.600 1.00054 5.262 1.470 0.939 7.12 0.778 6.89 0.754 14.000 1.00050 5.262 1.465 0.942 6.89 0.766 7.12 0.747 14.400 1.00055 5.262 1.463 0.944 7.21 0.763 7.07 0.746 14.850 1.00053 5.262 1.464 0.943 8.35 0.771 7.42 0.763 14.851 1.00058 5.292 1.455 0.948 9.04 0.815 8.28 0.826 15.200 1.00053 5.292 1.495 0.923 9.02 0.818 8.26 0.829 15.650 1.00046 5.292 1.545 0.893 9.00 0.823 8.22 0.833 16.100 1.00053 5.292 1.604 0.860 8.95 0.825 8.18 0.835 16.101 1.00052 5.079 1.552 0.889 8.87 0.817 8.12 0.829 16.550 1.00050 5.079 1.606 0.859 8.55 0.820 8.04 0.827 16.551 1.00053 4.836 1.547 0.892 9.43 0.818 8.02 0.821 17.000 1.00045 4.836 1.571 0.891 9.62 0.841 8.56 0.845 17.001 1.00057 3.680 1.484 0.943 8.65 0.847 8.03 0.827 17.400 1.00059 3.680 1.511 0.927 8.75 0.872 8.21 0.852 17.401 1.00059 3.528 1.480 0.946 8.70 0.863 8.16 0.847 17.700 1.00050 3.528 1.503 0.932 8.79 0.884 8.55 0.866 17.701 1.00065 2.433 1.473 0.950 8.87 0.894 8.45 0.888 17.950 1.00055 2.433 1.508 0.929 8.90 0.909 8.51 0.898 17.951 1.00059 2.342 1.504 0.931 8.82 0.901 8.47 0.894 18.150 1.00026 2.342 1.522 0.920 8.85 0.912 8.51 0.902 18.151 1.00041 1.247 1.520 0.921 8.78 0.898 8.33 0.881 18.350 1.00041 1.247 1.544 0.907 8.83 0.912 8.40 0.891 18.351 1.00039 0.730 1.514 0.925 8.71 0.907 8.30 0.881 18.550 0.99994 0.730 1.545 0.906 8.73 0.917 8.58 0.888 18.551 1.00030 0.000 1.505 0.930 9.18 0.902 8.33 0.883 18.654 1.00012 0.000 1.519 0.928 9.21 0.909 8.62 0.889 18.655 1.00038 0.000 1.513 0.932 9.15 0.903 8.30 0.882 18.850 1.00021 0.000 1.540 0.916 9.20 0.917 8.65 0.895 18.851 1.00010 0.000 1.528 0.923 9.09 0.906 8.52 0.881 19.000 1.00017 0.000 1.550 0.910 9.15 0.919 8.61 0.894 19.001 0.99989 0.000 1.541 0.915 9.04 0.908 8.48 0.880 19.150 0.99981 0.000 1.560 0.904 9.10 0.920 8.57 0.892 19.151 0.99977 0.000 1.556 0.906 9.00 0.911 8.45 0.880 19.250 0.99982 0.000 1.570 0.898 9.05 0.920 8.52 0.888 19.251 0.99965 0.000 1.561 0.903 8.93 0.908 8.37 0.873 19.345 1.00014 0.000 1.582 0.891 9.01 0.920 8.47 0.885 19.748 0.99946 0.000 1.687 0.836 8.44 0.879 8.01 0.843 19.800 0.99946 0.000 1.694 0.833 8.41 0.878 7.99 0.842 20.250 0.99959 0.000 1.841 0.766 7.72 0.826 7.41 0.788 20.697 0.99937 0.000 2.049 0.688 6.89 0.754 6.85 0.725

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-4 Cycle: 23 Core Average Exposure: MWd/MTU 16575.3 Exposure: MWd/MTU (GWd) 0.0 ( 0.00 )

Delta E: MWd/MTU, (GWd) 0.0 ( 0.00 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.136 3.332 37 0.794 0.819 3 24 Inlet Subcooling: Btu/lbm -24.94 24 0.315 9.302 38 0.466 0.666 15 6 Flow: Mlb/hr 66.99 ( 87.00 %) 23 0.506 11.772 39 0.558 0.867 17 48 22 0.603 13.976 40 0.599 1.013 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.666 15.473 41 0.921 1.242 39 38 51 -- -- -- -- -- 51 20 0.706 16.578 42 1.124 1.266 27 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.733 17.173 43 1.148 1.294 25 26 43 -- -- -- -- -- 44 -- -- -- -- -- 43 18 0.773 17.855 44 1.118 1.282 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.816 18.319 45 1.219 1.308 39 22 35 -- -- -- -- 10 -- 8 -- 10 -- -- -- -- 35 16 0.874 18.539 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.951 18.641 27 -- -- 44 -- 8 -- 42 -- 8 -- 44 -- -- 27 14 1.004 18.619 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.109 18.710 19 -- -- -- -- 8 -- 8 -- 10 -- -- -- -- 19 12 1.175 19.302 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.226 19.675 11 -- -- -- -- -- 44 -- -- -- -- -- 11 10 1.298 19.342 7 -- -- -- -- -- -- -- -- -- 7 9 1.319 19.647 3 -- -- -- -- -- 3 8 1.349 19.787 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.394 19.855 6 1.453 20.134*

5 1.530 20.016 4 1.614 19.325 Control Rod Density: % 5.11 3 1.682* 17.898 2 1.402 13.795 k-effective: 1.00103 Bottom 1 0.366 3.962 Void Fraction: 0.543 Core Delta-P: psia 19.613 % AXIAL TILT -32.328 -8.632 Core Plate Delta-P: psia 15.064 AVG BOT 8ft/12ft 1.1913 1.0527 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 58.17 Active Channel Flow: Mlb/hr 55.95 Total Bypass Flow (%): 13.2 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00047 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.308 45 39 22 1.502 0.919 45 29 12 9.47 0.820 30.0 42 25 28 5 12.31 0.905 0.0 45 13 32 3 1.305 45 31 14 1.505 0.917 45 39 22 9.67 0.809 26.1 41 13 38 3 12.31 0.905 0.0 45 41 24 3 1.298 45 41 24 1.505 0.917 45 31 14 9.66 0.808 25.9 42 41 22 3 12.30 0.904 0.0 45 31 40 3 1.296 45 29 12 1.508 0.915 45 41 24 9.58 0.801 26.0 42 13 34 3 12.26 0.901 0.0 45 43 22 3 1.294 43 25 26 1.513 0.912 45 27 14 9.39 0.799 28.0 41 37 40 3 12.22 0.898 0.0 45 41 20 3 1.292 45 27 14 1.518 0.909 45 13 28 9.42 0.798 27.5 42 31 42 3 12.21 0.898 0.0 44 13 40 3 1.292 45 39 26 1.528 0.903 45 41 20 9.25 0.797 29.4 42 41 26 4 12.20 0.897 0.0 44 13 36 3 1.291 43 29 24 1.531 0.902 45 43 22 9.47 0.793 26.0 42 33 40 3 12.19 0.896 0.0 45 29 42 3 1.289 45 41 20 1.533 0.900 45 33 12 9.47 0.790 25.7 42 29 40 3 12.15 0.893 0.0 44 35 40 3 1.285 45 33 12 1.542 0.895 44 35 14 9.44 0.790 26.1 42 13 30 3 12.02 0.884 0.0 45 33 12 3

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.1 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 0.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-5 Cycle: 23 Core Average Exposure: MWd/MTU 16825.2 Exposure: MWd/MTU (GWd) 250.0 ( 25.39 )

Delta E: MWd/MTU, (GWd) 250.0 ( 25.39 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.142 3.369 37 0.799 0.823 3 24 Inlet Subcooling: Btu/lbm -23.72 24 0.330 9.389 38 0.467 0.667 15 6 Flow: Mlb/hr 70.07 ( 91.00 %) 23 0.530 11.913 39 0.559 0.870 17 48 22 0.630 14.144 40 0.601 1.016 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.693 15.657 41 0.924 1.243 39 38 51 -- -- -- -- -- 51 20 0.733 16.774 42 1.126 1.270 27 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.758 17.376 43 1.146 1.294 25 26 43 -- -- -- -- -- 44 -- -- -- -- -- 43 18 0.796 18.068 44 1.115 1.278 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.837 18.544 45 1.215 1.303 39 22 35 -- -- -- -- 10 -- 8 -- 10 -- -- -- -- 35 16 0.892 18.778 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.967 18.893 27 -- -- 44 -- 8 -- 42 -- 8 -- 44 -- -- 27 14 1.017 18.884 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.120 18.979 19 -- -- -- -- 8 -- 8 -- 10 -- -- -- -- 19 12 1.183 19.587 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.231 19.971 11 -- -- -- -- -- 44 -- -- -- -- -- 11 10 1.301 19.643 7 -- -- -- -- -- -- -- -- -- 7 9 1.321 19.951 3 -- -- -- -- -- 3 8 1.347 20.098 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.387 20.175 6 1.438 20.467*

5 1.503 20.365 4 1.567 19.692 Control Rod Density: % 5.11 3 1.608* 18.278 2 1.326 14.109 k-effective: 1.00098 Bottom 1 0.345 4.050 Void Fraction: 0.530 Core Delta-P: psia 20.790 % AXIAL TILT -30.285 -8.868 Core Plate Delta-P: psia 16.239 AVG BOT 8ft/12ft 1.1798 1.0540 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 60.95 Active Channel Flow: Mlb/hr 58.66 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00041 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.303 45 39 22 1.538 0.897 45 29 12 9.31 0.810 30.5 42 25 28 5 11.68 0.859 0.8 45 13 32 3 1.301 45 31 14 1.541 0.896 45 39 22 9.28 0.780 26.6 41 13 38 3 11.67 0.858 0.8 45 11 30 3 1.294 43 25 26 1.541 0.896 45 31 14 9.27 0.778 26.4 42 41 22 3 11.67 0.858 0.8 45 31 40 3 1.293 45 41 24 1.544 0.894 45 41 24 8.99 0.778 29.9 42 41 26 4 11.65 0.856 0.8 43 27 28 5 1.291 45 29 12 1.550 0.891 45 27 14 9.19 0.772 26.5 42 13 34 3 11.63 0.855 0.8 45 43 22 3 1.289 43 29 24 1.555 0.887 45 13 28 9.01 0.769 28.4 41 37 40 3 11.59 0.852 0.8 45 41 20 3 1.289 45 27 14 1.563 0.883 45 41 20 9.03 0.769 28.0 42 31 42 3 11.58 0.851 0.8 44 13 40 3 1.288 45 39 26 1.566 0.881 45 43 22 8.82 0.766 30.2 42 27 12 4 11.57 0.851 0.8 44 13 36 3 1.284 45 41 20 1.568 0.880 45 33 12 9.09 0.764 26.5 42 33 40 3 11.57 0.851 0.8 45 29 42 3 1.281 45 33 12 1.577 0.875 44 35 14 8.99 0.763 27.6 42 25 30 4 11.52 0.847 0.8 44 35 40 3

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.2 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 250.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-6 Cycle: 23 Core Average Exposure: MWd/MTU 17325.2 Exposure: MWd/MTU (GWd) 750.0 ( 76.16 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.148 3.447 37 0.796 0.821 3 24 Inlet Subcooling: Btu/lbm -22.34 24 0.344 9.571 38 0.461 0.662 15 6 Flow: Mlb/hr 73.92 ( 96.00 %) 23 0.549 12.206 39 0.554 0.866 17 48 22 0.650 14.491 40 0.596 1.014 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.711 16.040 41 0.921 1.245 39 38 51 -- -- -- -- -- 51 20 0.747 17.177 42 1.127 1.268 27 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.768 17.791 43 1.148 1.294 25 26 43 -- -- -- -- -- 44 -- -- -- -- -- 43 18 0.801 18.503 44 1.116 1.283 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.839 19.000 45 1.219 1.308 39 22 35 -- -- -- -- 10 -- 8 -- 10 -- -- -- -- 35 16 0.890 19.258 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.961 19.400 27 -- -- 44 -- 8 -- 42 -- 8 -- 44 -- -- 27 14 1.009 19.417 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.110 19.517 19 -- -- -- -- 8 -- 8 -- 10 -- -- -- -- 19 12 1.173 20.156 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.222 20.563 11 -- -- -- -- -- 44 -- -- -- -- -- 11 10 1.295 20.243 7 -- -- -- -- -- -- -- -- -- 7 9 1.320 20.559 3 -- -- -- -- -- 3 8 1.350 20.719 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.393 20.816 6 1.446 21.131*

5 1.508 21.059 4 1.559 20.412 Control Rod Density: % 5.11 3 1.577* 19.011 2 1.289 14.712 k-effective: 1.00085 Bottom 1 0.340 4.220 Void Fraction: 0.519 Core Delta-P: psia 22.380 % AXIAL TILT -29.532 -9.280 Core Plate Delta-P: psia 17.826 AVG BOT 8ft/12ft 1.1735 1.0562 Coolant Temp: Deg-F 548.7 In Channel Flow: Mlb/hr 64.40 Active Channel Flow: Mlb/hr 62.03 Total Bypass Flow (%): 12.9 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00049 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.308 45 39 22 1.576 0.876 45 29 12 9.24 0.811 31.5 42 25 28 5 11.55 0.849 2.2 43 27 28 5 1.306 45 31 14 1.580 0.874 45 39 22 8.97 0.783 30.9 42 41 26 4 11.49 0.845 2.2 45 11 30 3 1.299 45 41 24 1.580 0.873 45 31 14 9.14 0.774 27.4 42 41 22 3 11.44 0.841 2.2 45 13 32 3 1.297 45 29 12 1.582 0.872 45 41 24 9.12 0.773 27.5 41 13 38 3 11.43 0.841 2.2 45 43 22 3 1.294 43 25 26 1.589 0.869 45 27 14 8.80 0.771 31.2 42 27 12 4 11.42 0.840 2.2 45 31 40 3 1.293 45 27 14 1.595 0.865 45 13 28 9.07 0.768 27.5 42 13 34 3 11.41 0.839 2.2 45 43 26 4 1.292 45 39 26 1.602 0.861 45 41 20 8.90 0.764 28.9 42 31 42 3 11.39 0.837 2.2 45 41 20 3 1.291 43 29 24 1.603 0.861 45 43 22 8.84 0.762 29.4 41 37 40 3 11.38 0.836 2.2 45 29 42 3 1.290 45 41 20 1.607 0.859 45 33 12 8.88 0.759 28.6 42 25 30 4 11.33 0.833 2.2 44 13 36 3 1.286 45 33 12 1.617 0.853 44 35 14 8.79 0.759 29.6 42 13 30 4 11.31 0.831 2.2 44 13 40 3

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.3 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 750.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-7 Cycle: 23 Core Average Exposure: MWd/MTU 17825.2 Exposure: MWd/MTU (GWd) 1250.0 ( 126.93 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.150 3.527 37 0.790 0.816 3 24 Inlet Subcooling: Btu/lbm -22.87 24 0.346 9.756 38 0.456 0.657 15 6 Flow: Mlb/hr 72.38 ( 94.00 %) 23 0.549 12.503 39 0.548 0.859 17 48 22 0.647 14.843 40 0.590 1.008 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.704 16.425 41 0.916 1.243 39 38 51 -- -- -- -- -- 51 20 0.737 17.581 42 1.125 1.259 27 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.756 18.207 43 1.154 1.294 25 26 43 -- -- -- -- -- 44 -- -- -- -- -- 43 18 0.787 18.936 44 1.121 1.290 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.823 19.453 45 1.228 1.316 39 22 35 -- -- -- -- 10 -- 8 -- 10 -- -- -- -- 35 16 0.871 19.733 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.940 19.900 27 -- -- 44 -- 8 -- 42 -- 8 -- 44 -- -- 27 14 0.986 19.941 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.087 20.048 19 -- -- -- -- 8 -- 8 -- 10 -- -- -- -- 19 12 1.151 20.717 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.203 21.148 11 -- -- -- -- -- 44 -- -- -- -- -- 11 10 1.280 20.839 7 -- -- -- -- -- -- -- -- -- 7 9 1.316 21.167 3 -- -- -- -- -- 3 8 1.356 21.343 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.410 21.461 6 1.475 21.804*

5 1.545 21.762 4 1.600 21.140 Control Rod Density: % 5.11 3 1.612* 19.746 2 1.318 15.312 k-effective: 1.00065 Bottom 1 0.352 4.391 Void Fraction: 0.525 Core Delta-P: psia 21.772 % AXIAL TILT -30.615 -9.674 Core Plate Delta-P: psia 17.219 AVG BOT 8ft/12ft 1.1771 1.0582 Coolant Temp: Deg-F 548.7 In Channel Flow: Mlb/hr 63.01 Active Channel Flow: Mlb/hr 60.66 Total Bypass Flow (%): 12.9 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.316 45 39 22 1.568 0.880 45 29 12 9.27 0.821 32.4 42 25 28 5 11.73 0.863 3.7 45 11 30 3 1.314 45 31 14 1.574 0.877 45 39 22 9.19 0.810 31.8 42 41 26 4 11.72 0.862 3.7 45 43 26 4 1.310 45 41 24 1.575 0.876 45 41 24 9.03 0.797 32.1 42 27 12 4 11.67 0.858 3.7 45 43 22 3 1.308 45 29 12 1.575 0.876 45 31 14 9.32 0.796 28.4 42 41 22 3 11.66 0.858 3.7 45 13 32 3 1.302 45 27 14 1.583 0.872 45 27 14 9.27 0.792 28.5 41 13 38 3 11.61 0.854 3.7 45 41 20 3 1.301 45 39 26 1.589 0.868 45 13 28 9.23 0.789 28.4 42 13 34 3 11.61 0.854 3.7 45 29 42 3 1.298 45 41 20 1.596 0.864 45 41 20 9.08 0.786 29.9 42 31 42 3 11.60 0.853 3.7 43 27 28 5 1.295 45 33 12 1.597 0.864 45 43 22 8.99 0.781 30.3 41 37 40 3 11.60 0.853 3.7 45 27 10 4 1.294 43 25 26 1.601 0.862 45 33 12 8.97 0.781 30.5 42 13 30 4 11.58 0.851 3.7 45 31 40 3 1.293 43 29 24 1.613 0.856 44 35 14 8.98 0.780 30.3 42 29 40 4 11.54 0.848 3.6 44 13 36 3

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.4 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 1,250.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-8 Cycle: 23 Core Average Exposure: MWd/MTU 18325.2 Exposure: MWd/MTU (GWd) 1750.0 ( 177.70 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.151 3.607 37 0.784 0.811 3 24 Inlet Subcooling: Btu/lbm -23.72 24 0.346 9.943 38 0.451 0.652 15 6 Flow: Mlb/hr 70.07 ( 91.00 %) 23 0.546 12.801 39 0.542 0.854 17 48 22 0.642 15.193 40 0.585 1.002 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.696 16.806 41 0.910 1.239 39 38 51 -- -- -- -- -- 51 20 0.727 17.979 42 1.121 1.250 27 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.744 18.615 43 1.159 1.295 29 24 43 -- -- -- -- -- 44 -- -- -- -- -- 43 18 0.772 19.360 44 1.126 1.298 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.806 19.896 45 1.236 1.324 39 22 35 -- -- -- -- 10 -- 8 -- 10 -- -- -- -- 35 16 0.851 20.197 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.918 20.388 27 -- -- 44 -- 8 -- 42 -- 8 -- 44 -- -- 27 14 0.964 20.454 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.063 20.567 19 -- -- -- -- 8 -- 8 -- 10 -- -- -- -- 19 12 1.128 21.267 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.183 21.724 11 -- -- -- -- -- 44 -- -- -- -- -- 11 10 1.265 21.428 7 -- -- -- -- -- -- -- -- -- 7 9 1.311 21.772 3 -- -- -- -- -- 3 8 1.361 21.969 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.427 22.115 6 1.505 22.491*

5 1.584 22.484 4 1.646 21.889 Control Rod Density: % 5.11 3 1.650* 20.498 2 1.349 15.926 k-effective: 1.00038 Bottom 1 0.365 4.569 Void Fraction: 0.532 Core Delta-P: psia 20.854 % AXIAL TILT -31.790 -10.078 Core Plate Delta-P: psia 16.303 AVG BOT 8ft/12ft 1.1813 1.0602 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 60.93 Active Channel Flow: Mlb/hr 58.63 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00050 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.324 45 39 22 1.555 0.888 45 29 12 9.42 0.837 32.8 42 41 26 4 12.03 0.885 5.2 45 43 26 4 1.322 45 31 14 1.562 0.884 45 41 24 9.31 0.832 33.4 42 25 28 5 11.99 0.881 5.2 45 11 30 3 1.320 45 41 24 1.563 0.883 45 39 22 9.26 0.825 33.1 42 27 12 4 11.93 0.877 5.2 45 27 10 4 1.318 45 29 12 1.564 0.882 45 31 14 9.51 0.819 29.3 42 41 22 3 11.91 0.876 5.2 45 43 22 3 1.310 45 27 14 1.572 0.878 45 27 14 9.43 0.813 29.5 41 13 38 3 11.89 0.874 5.2 45 13 32 3 1.308 45 39 26 1.578 0.875 45 13 28 9.41 0.811 29.4 42 13 34 3 11.85 0.872 5.2 45 29 42 3 1.307 45 41 20 1.585 0.871 45 41 20 9.11 0.810 32.8 42 31 12 4 11.85 0.871 5.2 45 41 20 3 1.303 45 33 12 1.585 0.871 45 43 22 9.16 0.804 31.5 42 13 30 4 11.78 0.866 5.1 45 31 40 3 1.298 44 39 18 1.590 0.868 45 33 12 9.17 0.803 31.2 42 29 40 4 11.77 0.866 5.1 44 13 36 3 1.295 44 35 14 1.601 0.862 45 31 10 9.14 0.801 31.3 41 37 40 3 11.68 0.859 5.1 45 33 12 3

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.5 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 1,750.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-9 Cycle: 23 Core Average Exposure: MWd/MTU 18675.1 Exposure: MWd/MTU (GWd) 2100.0 ( 213.24 )

Delta E: MWd/MTU, (GWd) 350.0 ( 35.54 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.150 3.664 37 0.780 0.808 3 24 Inlet Subcooling: Btu/lbm -24.32 24 0.344 10.073 38 0.447 0.649 15 6 Flow: Mlb/hr 68.53 ( 89.00 %) 23 0.542 13.007 39 0.539 0.850 17 48 22 0.636 15.436 40 0.582 0.999 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.689 17.070 41 0.906 1.236 39 38 51 -- -- -- -- -- 51 20 0.718 18.254 42 1.118 1.241 27 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.733 18.896 43 1.162 1.294 29 24 43 -- -- -- -- -- 44 -- -- -- -- -- 43 18 0.761 19.652 44 1.130 1.303 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.793 20.201 45 1.242 1.330 39 22 35 -- -- -- -- 10 -- 8 -- 10 -- -- -- -- 35 16 0.838 20.516 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.903 20.723 27 -- -- 44 -- 8 -- 42 -- 8 -- 44 -- -- 27 14 0.949 20.806 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.048 20.923 19 -- -- -- -- 8 -- 8 -- 10 -- -- -- -- 19 12 1.113 21.646 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.170 22.121 11 -- -- -- -- -- 44 -- -- -- -- -- 11 10 1.255 21.836 7 -- -- -- -- -- -- -- -- -- 7 9 1.308 22.194 3 -- -- -- -- -- 3 8 1.366 22.409 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.440 22.578 6 1.527 22.980 5 1.614 22.999*

4 1.679* 22.425 Control Rod Density: % 5.11 3 1.679 21.035 2 1.372 16.364 k-effective: 1.00018 Bottom 1 0.373 4.697 Void Fraction: 0.538 Core Delta-P: psia 20.257 % AXIAL TILT -32.734 -10.369 Core Plate Delta-P: psia 15.707 AVG BOT 8ft/12ft 1.1851 1.0617 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 59.54 Active Channel Flow: Mlb/hr 57.28 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00042 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.330 45 39 22 1.544 0.894 45 29 12 9.59 0.858 33.5 42 41 26 4 12.26 0.901 6.3 45 43 26 4 1.327 45 31 14 1.550 0.890 45 41 24 9.43 0.846 33.8 42 27 12 4 12.17 0.895 6.3 45 11 30 3 1.327 45 41 24 1.554 0.888 45 39 22 9.33 0.839 34.1 42 25 28 5 12.16 0.894 6.2 45 27 10 4 1.325 45 29 12 1.555 0.888 45 31 14 9.65 0.837 30.1 42 41 22 3 12.09 0.889 6.3 45 43 22 3 1.316 45 27 14 1.563 0.883 45 27 14 9.26 0.829 33.5 42 31 12 4 12.06 0.887 6.2 45 13 32 3 1.314 45 39 26 1.569 0.880 45 13 28 9.54 0.828 30.2 41 13 38 3 12.03 0.885 6.2 45 29 42 3 1.313 45 41 20 1.574 0.877 45 41 20 9.54 0.827 30.1 42 13 34 3 12.02 0.884 6.3 45 41 20 3 1.310 45 33 12 1.575 0.876 45 43 22 9.30 0.822 32.2 42 13 30 4 11.94 0.878 6.2 45 31 40 3 1.303 44 39 18 1.580 0.874 45 33 12 9.30 0.820 31.9 42 29 40 4 11.94 0.878 6.1 44 13 36 3 1.300 44 35 14 1.591 0.867 45 31 10 9.42 0.816 30.1 42 33 40 3 11.86 0.872 6.1 45 43 24 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.6 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 2,100.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-10 Cycle: 23 Core Average Exposure: MWd/MTU 18676.1 Exposure: MWd/MTU (GWd) 2101.0 ( 213.34 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.147 3.664 37 0.786 0.797 3 24 Inlet Subcooling: Btu/lbm -23.15 24 0.337 10.073 38 0.454 0.668 15 6 Flow: Mlb/hr 71.61 ( 93.00 %) 23 0.533 13.008 39 0.551 0.868 17 48 22 0.630 15.436 40 0.588 0.994 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.687 17.071 41 0.919 1.287 15 14 51 -- -- -- -- -- 51 20 0.739 18.255 42 1.112 1.312 35 16 47 -- -- -- -- -- -- -- -- -- 47 19 0.779 18.897 43 1.180 1.353 37 16 43 -- -- -- -- 40 -- 40 -- -- -- -- 43 18 0.824 19.653 44 1.138 1.363 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.866 20.202 45 1.213 1.339 31 14 35 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 35 16 0.915 20.517 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.987 20.724 27 -- -- -- 0 -- 16 -- 16 -- 0 -- -- -- 27 14 1.037 20.807 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.145 20.925 19 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 19 12 1.214 21.647 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.270 22.122 11 -- -- -- -- 40 -- 40 -- -- -- -- 11 10 1.353 21.837 7 -- -- -- -- -- -- -- -- -- 7 9 1.392 22.195 3 -- -- -- -- -- 3 8 1.424 22.410 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.454 22.579 6 1.473 22.981 5 1.488* 23.001*

4 1.466 22.426 Control Rod Density: % 6.20 3 1.409 21.036 2 1.127 16.365 k-effective: 1.00031 Bottom 1 0.303 4.698 Void Fraction: 0.517 Core Delta-P: psia 21.332 % AXIAL TILT -28.888 -10.370 Core Plate Delta-P: psia 16.776 AVG BOT 8ft/12ft 1.1743 1.0617 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 62.37 Active Channel Flow: Mlb/hr 60.06 Total Bypass Flow (%): 12.9 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00044 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.363 44 35 14 1.453 0.949 44 35 14 8.82 0.797 34.6 42 31 12 6 11.38 0.837 5.5 45 29 12 6 1.353 43 37 16 1.512 0.913 45 31 14 8.99 0.778 29.9 42 37 36 8 11.31 0.831 5.4 45 31 10 6 1.343 43 35 18 1.520 0.908 45 27 14 8.36 0.764 35.7 42 25 12 6 11.21 0.824 4.9 44 39 18 8 1.339 45 31 14 1.521 0.907 45 35 12 8.57 0.761 32.7 42 39 20 8 11.21 0.824 5.4 45 29 10 6 1.334 45 33 12 1.521 0.907 45 33 12 8.27 0.752 35.3 42 29 14 6 10.94 0.805 4.3 43 37 20 8 1.334 45 27 14 1.538 0.897 44 39 14 8.45 0.751 32.9 42 33 40 5 10.92 0.803 5.7 44 35 40 5 1.329 43 33 16 1.541 0.896 45 39 22 8.25 0.749 35.1 41 37 14 5 9.71 0.794 37.6 42 31 12 6 1.316 45 35 12 1.551 0.890 45 29 12 8.24 0.732 32.7 42 37 42 4 10.75 0.790 5.7 45 27 10 6 1.312 42 35 16 1.552 0.889 45 41 20 8.34 0.729 31.1 42 35 16 6 10.74 0.790 5.5 45 31 14 6 1.294 43 35 22 1.564 0.882 44 39 18 8.30 0.726 31.1 42 27 38 5 10.71 0.787 5.7 45 27 40 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.7 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 2,101.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-11 Cycle: 23 Core Average Exposure: MWd/MTU 19075.2 Exposure: MWd/MTU (GWd) 2500.0 ( 253.85 )

Delta E: MWd/MTU, (GWd) 399.0 ( 40.51 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.147 3.726 37 0.781 0.794 3 24 Inlet Subcooling: Btu/lbm -23.57 24 0.337 10.218 38 0.450 0.664 15 6 Flow: Mlb/hr 70.46 ( 91.50 %) 23 0.531 13.239 39 0.546 0.864 17 48 22 0.626 15.708 40 0.584 0.990 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.681 17.368 41 0.915 1.283 15 14 51 -- -- -- -- -- 51 20 0.731 18.575 42 1.109 1.307 35 16 47 -- -- -- -- -- -- -- -- -- 47 19 0.769 19.234 43 1.184 1.357 37 16 43 -- -- -- -- 40 -- 40 -- -- -- -- 43 18 0.812 20.009 44 1.143 1.369 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.853 20.575 45 1.220 1.346 31 14 35 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 35 16 0.899 20.908 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.969 21.135 27 -- -- -- 0 -- 16 -- 16 -- 0 -- -- -- 27 14 1.018 21.238 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.124 21.362 19 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 19 12 1.194 22.111 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.253 22.608 11 -- -- -- -- 40 -- 40 -- -- -- -- 11 10 1.339 22.334 7 -- -- -- -- -- -- -- -- -- 7 9 1.387 22.707 3 -- -- -- -- -- 3 8 1.429 22.935 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.469 23.116 6 1.499 23.528 5 1.523* 23.555*

4 1.504 22.973 Control Rod Density: % 6.20 3 1.442 21.560 2 1.151 16.784 k-effective: 1.00023 Bottom 1 0.311 4.819 Void Fraction: 0.521 Core Delta-P: psia 20.892 % AXIAL TILT -29.853 -10.625 Core Plate Delta-P: psia 16.337 AVG BOT 8ft/12ft 1.1776 1.0631 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 61.32 Active Channel Flow: Mlb/hr 59.04 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.369 44 35 14 1.453 0.950 44 35 14 8.97 0.816 35.3 42 31 12 6 11.57 0.851 6.7 45 29 12 6 1.357 43 37 16 1.510 0.914 45 31 14 8.56 0.787 36.4 42 25 12 6 11.50 0.845 6.5 45 31 10 6 1.346 45 31 14 1.517 0.910 45 27 14 8.94 0.779 30.6 42 37 36 8 11.41 0.839 6.5 45 29 10 6 1.345 43 35 18 1.519 0.908 45 35 12 8.45 0.774 36.0 42 29 14 6 11.15 0.820 6.0 44 39 18 8 1.341 45 33 12 1.520 0.908 45 33 12 8.61 0.771 33.6 42 33 40 5 11.09 0.816 7.1 44 35 40 4 1.340 45 27 14 1.539 0.897 44 39 14 8.44 0.768 35.3 41 15 40 4 9.87 0.812 38.4 42 31 12 6 1.335 43 33 16 1.543 0.894 45 39 22 8.56 0.765 33.4 42 39 20 8 10.97 0.806 7.1 45 27 10 5 1.322 45 35 12 1.549 0.891 45 29 12 8.41 0.751 33.4 42 37 42 4 10.92 0.803 6.6 45 31 14 6 1.307 42 35 16 1.552 0.889 45 41 20 8.46 0.745 31.8 42 17 16 5 10.87 0.799 6.8 45 27 40 5 1.297 43 35 22 1.565 0.882 45 27 10 8.44 0.743 31.8 42 27 38 5 10.85 0.798 5.4 43 37 20 8

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.8 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 2,500.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-12 Cycle: 23 Core Average Exposure: MWd/MTU 19575.2 Exposure: MWd/MTU (GWd) 3000.0 ( 304.62 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.146 3.805 37 0.776 0.790 3 24 Inlet Subcooling: Btu/lbm -24.02 24 0.335 10.399 38 0.445 0.660 15 6 Flow: Mlb/hr 69.30 ( 90.00 %) 23 0.528 13.526 39 0.541 0.859 17 48 22 0.620 16.047 40 0.579 0.985 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.673 17.737 41 0.910 1.279 15 14 51 -- -- -- -- -- 51 20 0.721 18.970 42 1.105 1.301 35 16 47 -- -- -- -- -- -- -- -- -- 47 19 0.757 19.649 43 1.188 1.362 37 16 43 -- -- -- -- 40 -- 40 -- -- -- -- 43 18 0.798 20.447 44 1.149 1.375 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.836 21.035 45 1.229 1.353 31 14 35 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 35 16 0.881 21.388 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.949 21.639 27 -- -- -- 0 -- 16 -- 16 -- 0 -- -- -- 27 14 0.997 21.767 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.102 21.899 19 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 19 12 1.173 22.682 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.234 23.208 11 -- -- -- -- 40 -- 40 -- -- -- -- 11 10 1.326 22.951 7 -- -- -- -- -- -- -- -- -- 7 9 1.384 23.345 3 -- -- -- -- -- 3 8 1.436 23.595 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.487 23.798 6 1.530 24.226 5 1.563* 24.266*

4 1.547 23.676 Control Rod Density: % 6.20 3 1.477 22.233 2 1.179 17.321 k-effective: 0.99999 Bottom 1 0.321 4.976 Void Fraction: 0.526 Core Delta-P: psia 20.462 % AXIAL TILT -31.031 -10.959 Core Plate Delta-P: psia 15.908 AVG BOT 8ft/12ft 1.1820 1.0649 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 60.28 Active Channel Flow: Mlb/hr 58.01 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00033 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.375 44 35 14 1.453 0.950 44 35 14 9.13 0.838 36.3 42 31 12 6 11.75 0.864 8.2 45 29 12 6 1.362 43 37 16 1.508 0.915 45 31 14 8.72 0.809 37.3 42 25 12 6 11.70 0.860 8.0 45 31 10 6 1.353 45 31 14 1.515 0.911 45 27 14 8.58 0.792 36.9 42 29 14 6 11.62 0.854 8.0 45 29 10 6 1.349 45 33 12 1.517 0.910 45 35 12 8.77 0.792 34.5 42 33 40 5 10.03 0.832 39.4 42 31 12 6 1.349 43 35 18 1.518 0.909 45 33 12 8.61 0.790 36.2 41 15 40 4 11.26 0.828 8.6 44 35 40 4 1.349 45 27 14 1.540 0.896 44 39 14 8.90 0.782 31.6 42 37 36 8 11.22 0.825 8.5 45 27 10 5 1.341 43 33 16 1.545 0.893 45 39 22 8.59 0.774 34.3 42 37 42 4 11.08 0.815 8.0 45 31 14 6 1.330 45 35 12 1.549 0.891 45 29 12 8.55 0.770 34.3 42 39 20 8 11.07 0.814 7.4 44 39 18 8 1.305 45 29 12 1.552 0.889 45 41 20 8.77 0.765 30.7 42 17 38 4 11.04 0.812 8.2 45 27 14 5 1.301 43 35 22 1.558 0.886 45 27 10 8.57 0.761 32.7 42 27 38 5 11.02 0.810 8.0 45 33 12 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.9 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 3,000.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-13 Cycle: 23 Core Average Exposure: MWd/MTU 20075.2 Exposure: MWd/MTU (GWd) 3500.0 ( 355.39 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.147 3.884 37 0.771 0.786 3 24 Inlet Subcooling: Btu/lbm -24.56 24 0.335 10.579 38 0.441 0.656 15 6 Flow: Mlb/hr 67.91 ( 88.20 %) 23 0.527 13.812 39 0.536 0.854 17 48 22 0.618 16.383 40 0.575 0.980 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.669 18.102 41 0.905 1.275 15 14 51 -- -- -- -- -- 51 20 0.715 19.361 42 1.102 1.296 35 16 47 -- -- -- -- -- -- -- -- -- 47 19 0.749 20.059 43 1.192 1.367 37 16 43 -- -- -- -- 40 -- 40 -- -- -- -- 43 18 0.787 20.879 44 1.154 1.381 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.824 21.487 45 1.237 1.359 31 14 35 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 35 16 0.866 21.859 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.932 22.133 27 -- -- -- 0 -- 16 -- 16 -- 0 -- -- -- 27 14 0.979 22.287 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.084 22.427 19 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 19 12 1.155 23.244 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.219 23.801 11 -- -- -- -- 40 -- 40 -- -- -- -- 11 10 1.314 23.561 7 -- -- -- -- -- -- -- -- -- 7 9 1.381 23.982 3 -- -- -- -- -- 3 8 1.442 24.258 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.502 24.486 6 1.554 24.937 5 1.592* 24.993*

4 1.579 24.396 Control Rod Density: % 6.20 3 1.503 22.919 2 1.199 17.868 k-effective: 0.99979 Bottom 1 0.328 5.137 Void Fraction: 0.531 Core Delta-P: psia 19.928 % AXIAL TILT -31.859 -11.303 Core Plate Delta-P: psia 15.375 AVG BOT 8ft/12ft 1.1847 1.0667 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 59.03 Active Channel Flow: Mlb/hr 56.79 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00048 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.381 44 35 14 1.452 0.950 44 35 14 9.23 0.855 37.2 42 31 12 6 11.83 0.870 9.7 45 29 12 6 1.367 43 37 16 1.506 0.917 45 31 14 8.83 0.827 38.3 42 25 12 6 11.79 0.867 9.5 45 31 10 6 1.359 45 31 14 1.511 0.913 45 27 14 8.87 0.808 35.4 42 33 40 5 11.71 0.861 9.5 45 29 10 6 1.356 45 33 12 1.514 0.911 45 35 12 8.71 0.806 37.1 41 15 40 4 10.13 0.848 40.5 42 31 12 6 1.355 45 27 14 1.515 0.911 45 33 12 8.66 0.806 37.8 42 29 14 6 11.35 0.835 10.0 45 27 10 5 1.353 43 35 18 1.539 0.897 44 39 14 8.70 0.791 35.2 42 37 42 4 11.32 0.832 10.0 44 35 40 4 1.346 43 33 16 1.545 0.893 45 39 22 8.85 0.784 32.5 42 37 36 8 11.16 0.821 9.7 45 21 40 5 1.337 45 35 12 1.548 0.892 45 29 12 8.87 0.780 31.6 42 17 38 4 11.11 0.817 9.3 45 33 12 5 1.313 45 29 12 1.549 0.891 45 27 10 8.40 0.779 37.3 42 33 10 5 11.11 0.817 9.6 45 27 14 5 1.307 45 41 20 1.550 0.890 45 41 20 8.66 0.775 33.6 42 27 38 5 11.06 0.813 9.6 45 35 12 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.10 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 3,500.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-14 Cycle: 23 Core Average Exposure: MWd/MTU 20575.1 Exposure: MWd/MTU (GWd) 4000.0 ( 406.16 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.148 3.963 37 0.766 0.782 3 24 Inlet Subcooling: Btu/lbm -24.94 24 0.336 10.760 38 0.436 0.652 15 6 Flow: Mlb/hr 66.99 ( 87.00 %) 23 0.527 14.099 39 0.532 0.850 17 48 22 0.617 16.718 40 0.570 0.976 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.666 18.466 41 0.900 1.271 15 14 51 -- -- -- -- -- 51 20 0.710 19.749 42 1.099 1.291 35 16 47 -- -- -- -- -- -- -- -- -- 47 19 0.743 20.465 43 1.196 1.372 37 16 43 -- -- -- -- 40 -- 40 -- -- -- -- 43 18 0.780 21.305 44 1.159 1.387 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.815 21.933 45 1.243 1.364 31 14 35 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 35 16 0.856 22.324 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.920 22.620 27 -- -- -- 0 -- 16 -- 16 -- 0 -- -- -- 27 14 0.967 22.798 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.071 22.947 19 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 19 12 1.144 23.799 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.210 24.387 11 -- -- -- -- 40 -- 40 -- -- -- -- 11 10 1.308 24.168 7 -- -- -- -- -- -- -- -- -- 7 9 1.381 24.619 3 -- -- -- -- -- 3 8 1.447 24.924 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.513 25.181 6 1.570 25.657 5 1.611* 25.731*

4 1.598 25.128 Control Rod Density: % 6.20 3 1.518 23.615 2 1.210 18.423 k-effective: 0.99956 Bottom 1 0.333 5.300 Void Fraction: 0.534 Core Delta-P: psia 19.574 % AXIAL TILT -32.403 -11.647 Core Plate Delta-P: psia 15.022 AVG BOT 8ft/12ft 1.1864 1.0684 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 58.20 Active Channel Flow: Mlb/hr 55.99 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00045 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.387 44 35 14 1.453 0.950 44 35 14 9.28 0.868 38.2 42 31 12 6 11.85 0.871 11.2 45 29 12 6 1.372 43 37 16 1.505 0.917 45 31 14 8.90 0.840 39.2 42 25 12 6 11.80 0.868 10.9 45 31 10 6 1.364 45 31 14 1.510 0.914 45 27 14 8.91 0.819 36.3 42 33 40 5 11.74 0.864 10.8 45 29 10 6 1.363 45 33 12 1.513 0.912 45 35 12 8.75 0.817 38.0 41 15 40 4 10.17 0.859 41.6 42 31 12 6 1.361 45 27 14 1.514 0.912 45 33 12 8.70 0.817 38.7 42 29 14 6 11.40 0.838 11.4 45 27 10 5 1.358 43 35 18 1.540 0.896 44 39 14 8.75 0.802 36.1 42 37 42 4 11.32 0.832 11.2 44 35 14 4 1.351 43 33 16 1.542 0.895 45 27 10 8.47 0.792 38.2 42 33 10 5 9.85 0.823 40.3 42 27 12 6 1.343 45 35 12 1.546 0.893 45 39 22 8.91 0.790 32.6 42 17 38 4 11.18 0.822 10.8 45 31 14 6 1.320 45 29 12 1.550 0.891 45 29 12 8.82 0.788 33.4 42 37 36 8 11.17 0.821 10.7 45 33 12 5 1.313 45 41 20 1.550 0.890 45 41 20 8.70 0.785 34.5 42 27 38 5 11.15 0.820 11.0 45 27 14 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.11 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 4,000.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-15 Cycle: 23 Core Average Exposure: MWd/MTU 20975.2 Exposure: MWd/MTU (GWd) 4400.0 ( 446.78 )

Delta E: MWd/MTU, (GWd) 400.0 ( 40.62 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.149 4.026 37 0.763 0.779 3 24 Inlet Subcooling: Btu/lbm -24.94 24 0.338 10.905 38 0.433 0.648 15 6 Flow: Mlb/hr 66.99 ( 87.00 %) 23 0.530 14.328 39 0.528 0.846 17 48 22 0.620 16.987 40 0.567 0.972 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.667 18.756 41 0.897 1.269 15 14 51 -- -- -- -- -- 51 20 0.710 20.058 42 1.097 1.289 35 16 47 -- -- -- -- -- -- -- -- -- 47 19 0.742 20.789 43 1.200 1.376 37 16 43 -- -- -- -- 40 -- 40 -- -- -- -- 43 18 0.778 21.645 44 1.162 1.391 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.812 22.288 45 1.248 1.368 31 14 35 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 35 16 0.852 22.692 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.915 23.006 27 -- -- -- 0 -- 16 -- 16 -- 0 -- -- -- 27 14 0.962 23.204 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.066 23.360 19 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 19 12 1.138 24.239 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.206 24.853 11 -- -- -- -- 40 -- 40 -- -- -- -- 11 10 1.305 24.652 7 -- -- -- -- -- -- -- -- -- 7 9 1.381 25.128 3 -- -- -- -- -- 3 8 1.450 25.458 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.518 25.740 6 1.577 26.237 5 1.618* 26.326*

4 1.604 25.719 Control Rod Density: % 6.20 3 1.520 24.175 2 1.209 18.868 k-effective: 0.99957 Bottom 1 0.333 5.433 Void Fraction: 0.534 Core Delta-P: psia 19.577 % AXIAL TILT -32.520 -11.917 Core Plate Delta-P: psia 15.025 AVG BOT 8ft/12ft 1.1863 1.0698 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 58.20 Active Channel Flow: Mlb/hr 55.99 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00049 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.391 44 35 14 1.459 0.946 44 35 14 9.29 0.875 39.0 42 31 12 6 11.83 0.870 12.4 45 29 12 6 1.376 43 37 16 1.511 0.913 45 31 14 8.92 0.849 39.9 42 25 12 6 10.18 0.866 42.4 42 31 12 6 1.368 45 31 14 1.516 0.910 45 27 14 8.92 0.826 37.1 42 33 40 5 11.77 0.866 11.8 45 31 10 6 1.368 45 33 12 1.518 0.909 45 35 12 8.70 0.824 39.4 42 29 14 6 11.76 0.864 12.0 45 29 10 6 1.365 45 27 14 1.519 0.908 45 33 12 8.75 0.823 38.8 41 15 40 4 11.42 0.840 12.3 45 27 10 5 1.362 43 35 18 1.543 0.894 45 27 10 8.75 0.808 36.9 42 37 42 4 11.31 0.832 12.4 44 35 14 4 1.355 43 33 16 1.547 0.892 44 39 14 8.49 0.799 38.9 42 33 10 5 9.88 0.831 41.1 42 27 12 6 1.348 45 35 12 1.552 0.889 45 39 22 8.91 0.796 33.3 42 17 38 4 9.53 0.821 44.0 42 29 14 6 1.325 45 29 12 1.555 0.887 45 29 12 8.70 0.791 35.2 42 27 38 5 11.16 0.821 11.9 45 31 14 6 1.318 45 27 10 1.556 0.887 45 41 20 8.78 0.791 34.2 42 37 36 8 11.16 0.821 11.9 45 33 12 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.12 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 4,400.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-16 Cycle: 23 Core Average Exposure: MWd/MTU 21375.1 Exposure: MWd/MTU (GWd) 4800.0 ( 487.40 )

Delta E: MWd/MTU, (GWd) 400.0 ( 40.62 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.150 4.090 37 0.759 0.776 3 24 Inlet Subcooling: Btu/lbm -24.94 24 0.340 11.051 38 0.429 0.645 15 6 Flow: Mlb/hr 66.99 ( 87.00 %) 23 0.534 14.559 39 0.524 0.842 17 48 22 0.623 17.257 40 0.563 0.968 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.670 19.048 41 0.893 1.266 15 14 51 -- -- -- -- -- 51 20 0.711 20.368 42 1.095 1.286 35 16 47 -- -- -- -- -- -- -- -- -- 47 19 0.742 21.112 43 1.204 1.380 37 16 43 -- -- -- -- 40 -- 40 -- -- -- -- 43 18 0.778 21.984 44 1.165 1.395 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.811 22.642 45 1.253 1.372 31 14 35 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 35 16 0.850 23.060 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.912 23.390 27 -- -- -- 0 -- 16 -- 16 -- 0 -- -- -- 27 14 0.958 23.608 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.062 23.770 19 -- -- -- 36 -- 6 -- 6 -- 36 -- -- -- 19 12 1.135 24.678 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.203 25.318 11 -- -- -- -- 40 -- 40 -- -- -- -- 11 10 1.302 25.134 7 -- -- -- -- -- -- -- -- -- 7 9 1.380 25.637 3 -- -- -- -- -- 3 8 1.451 25.992 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.520 26.300 6 1.580 26.819 5 1.621* 26.923*

4 1.606 26.311 Control Rod Density: % 6.20 3 1.520 24.736 2 1.208 19.314 k-effective: 0.99953 Bottom 1 0.334 5.565 Void Fraction: 0.533 Core Delta-P: psia 19.576 % AXIAL TILT -32.501 -12.178 Core Plate Delta-P: psia 15.023 AVG BOT 8ft/12ft 1.1856 1.0711 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 58.20 Active Channel Flow: Mlb/hr 55.99 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00040 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.395 44 35 14 1.465 0.942 44 35 14 9.28 0.881 39.8 42 31 12 6 10.17 0.871 43.3 42 31 12 6 1.380 43 37 16 1.517 0.910 45 31 14 8.92 0.855 40.7 42 25 12 6 11.81 0.868 13.1 45 29 42 6 1.372 45 31 14 1.521 0.907 45 27 14 8.91 0.831 37.8 42 33 40 5 11.77 0.865 13.0 45 31 10 6 1.372 45 33 12 1.522 0.906 45 35 12 8.69 0.829 40.1 42 29 14 6 11.74 0.863 13.2 45 29 10 6 1.369 45 27 14 1.525 0.905 45 33 12 8.73 0.827 39.5 41 15 40 4 11.43 0.841 13.4 45 27 10 5 1.366 43 35 18 1.545 0.893 45 27 10 8.73 0.812 37.6 42 37 42 4 9.88 0.837 42.0 42 27 12 6 1.360 43 33 16 1.554 0.888 44 39 14 8.49 0.805 39.6 42 33 10 5 11.29 0.830 13.3 44 17 40 4 1.352 45 35 12 1.557 0.886 45 39 22 8.89 0.800 34.1 42 17 38 4 9.51 0.825 44.7 42 29 14 6 1.330 45 29 12 1.561 0.884 45 29 12 8.68 0.795 35.9 42 27 38 5 9.81 0.823 40.7 42 19 14 5 1.325 45 27 10 1.561 0.884 45 41 20 8.74 0.793 34.9 42 37 36 8 11.14 0.819 13.0 45 19 12 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.13 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 4,800.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-17 Cycle: 23 Core Average Exposure: MWd/MTU 21376.1 Exposure: MWd/MTU (GWd) 4801.0 ( 487.50 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.178 4.091 37 0.748 0.772 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.402 11.051 38 0.421 0.629 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.631 14.560 39 0.509 0.815 17 48 22 0.734 17.258 40 0.552 0.953 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.783 19.048 41 0.873 1.220 39 38 51 -- -- -- -- -- 51 20 0.807 20.368 42 1.120 1.314 29 28 47 -- -- -- -- -- -- -- -- -- 47 19 0.804 21.113 43 1.289 1.431 25 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.812 21.985 44 1.139 1.341 39 36 39 -- -- 42 -- 10 -- 10 -- 42 -- -- 39 17 0.823 22.642 45 1.199 1.290 41 36 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.842 23.060 31 -- -- -- 8 -- 18 -- 38 -- 10 -- -- -- 31 15 0.879 23.391 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.905 23.609 23 -- -- -- 10 -- 38 -- 18 -- 8 -- -- -- 23 13 0.989 23.771 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.048 24.680 15 -- -- 42 -- 10 -- 10 -- 42 -- -- 15 11 1.108 25.319 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.201 25.135 7 -- -- -- -- -- -- -- -- -- 7 9 1.282 25.638 3 -- -- -- -- -- 3 8 1.363 25.994 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.456 26.301 6 1.554 26.820 5 1.622 26.925*

4 1.640* 26.312 Control Rod Density: % 6.27 3 1.556 24.737 2 1.238 19.315 k-effective: 0.99950 Bottom 1 0.343 5.565 Void Fraction: 0.527 Core Delta-P: psia 19.782 % AXIAL TILT -28.356 -12.179 Core Plate Delta-P: psia 15.230 AVG BOT 8ft/12ft 1.1497 1.0711 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 58.94 Active Channel Flow: Mlb/hr 56.72 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00041 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.431 43 25 26 1.501 0.919 43 27 28 9.29 0.880 39.5 41 13 16 5 11.74 0.863 13.1 44 39 40 5 1.419 43 31 28 1.515 0.911 43 23 20 9.31 0.880 39.2 41 37 40 5 11.67 0.858 10.4 44 39 36 5 1.416 43 25 22 1.522 0.907 43 21 26 9.22 0.834 34.7 42 37 36 5 9.80 0.855 45.3 41 13 16 5 1.413 43 19 20 1.525 0.905 43 25 22 9.15 0.829 34.9 42 35 38 5 10.02 0.849 42.0 41 37 40 5 1.410 43 23 20 1.551 0.890 43 19 24 9.00 0.815 34.8 42 21 24 7 11.51 0.846 11.8 43 37 38 5 1.404 43 19 24 1.566 0.881 43 19 20 8.96 0.813 35.0 42 23 22 7 11.33 0.833 13.2 44 35 40 5 1.397 43 17 18 1.578 0.875 43 29 30 8.60 0.809 38.8 42 11 38 5 9.66 0.832 44.0 42 11 38 5 1.375 43 23 24 1.586 0.870 44 13 18 8.93 0.809 34.7 42 17 20 4 9.84 0.831 41.5 42 35 38 5 1.366 43 21 22 1.588 0.869 44 17 14 8.61 0.808 38.6 42 37 42 5 11.29 0.830 10.5 43 15 20 4 1.344 43 35 28 1.600 0.863 43 21 22 8.91 0.806 34.7 42 33 36 4 9.88 0.830 40.9 42 37 36 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.14 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 4,801.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-18 Cycle: 23 Core Average Exposure: MWd/MTU 21825.2 Exposure: MWd/MTU (GWd) 5250.0 ( 533.09 )

Delta E: MWd/MTU, (GWd) 449.0 ( 45.59 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.180 4.177 37 0.745 0.769 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.407 11.247 38 0.418 0.626 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.639 14.869 39 0.506 0.812 17 48 22 0.742 17.617 40 0.549 0.949 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.790 19.433 41 0.870 1.217 39 38 51 -- -- -- -- -- 51 20 0.813 20.764 42 1.118 1.308 19 22 47 -- -- -- -- -- -- -- -- -- 47 19 0.808 21.507 43 1.293 1.430 25 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.815 22.382 44 1.142 1.345 39 36 39 -- -- 42 -- 10 -- 10 -- 42 -- -- 39 17 0.825 23.045 45 1.204 1.294 41 36 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.843 23.469 31 -- -- -- 8 -- 18 -- 38 -- 10 -- -- -- 31 15 0.878 23.806 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.903 24.035 23 -- -- -- 10 -- 38 -- 18 -- 8 -- -- -- 23 13 0.987 24.200 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.046 25.133 15 -- -- 42 -- 10 -- 10 -- 42 -- -- 15 11 1.105 25.799 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.198 25.634 7 -- -- -- -- -- -- -- -- -- 7 9 1.279 26.168 3 -- -- -- -- -- 3 8 1.361 26.557 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.453 26.903 6 1.551 27.463 5 1.619 27.596*

4 1.637* 26.990 Control Rod Density: % 6.27 3 1.551 25.380 2 1.231 19.825 k-effective: 0.99949 Bottom 1 0.342 5.718 Void Fraction: 0.526 Core Delta-P: psia 19.771 % AXIAL TILT -28.027 -12.370 Core Plate Delta-P: psia 15.220 AVG BOT 8ft/12ft 1.1472 1.0717 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 58.94 Active Channel Flow: Mlb/hr 56.73 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00047 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.430 43 25 26 1.507 0.916 43 27 28 9.22 0.882 40.4 41 13 16 5 11.63 0.855 14.0 44 39 40 5 1.420 43 31 28 1.514 0.911 43 23 20 9.25 0.882 40.1 41 37 40 5 9.71 0.853 46.2 41 13 16 5 1.418 43 25 22 1.527 0.904 43 21 26 9.16 0.835 35.6 42 37 36 5 11.57 0.851 11.7 44 39 36 5 1.416 43 19 20 1.527 0.903 43 25 22 9.09 0.830 35.7 42 35 38 5 9.95 0.850 42.9 41 37 40 5 1.412 43 23 20 1.551 0.890 43 19 24 8.90 0.813 35.7 42 21 24 7 11.36 0.835 13.4 43 37 38 5 1.407 43 19 24 1.564 0.882 43 19 20 8.56 0.812 39.6 42 11 38 5 9.59 0.833 44.9 42 11 38 5 1.402 43 17 18 1.580 0.873 43 29 30 8.86 0.811 35.9 42 23 22 7 9.77 0.831 42.4 42 35 38 5 1.377 43 23 24 1.586 0.870 44 13 18 8.57 0.811 39.4 42 37 42 5 9.80 0.829 41.8 42 37 36 5 1.370 43 21 22 1.586 0.870 44 17 14 8.87 0.809 35.6 42 17 20 4 11.24 0.826 14.5 44 35 40 5 1.348 43 35 28 1.596 0.865 43 21 18 8.56 0.807 38.9 42 9 34 4 9.40 0.822 45.5 42 15 12 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.15 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 5,250.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-19 Cycle: 23 Core Average Exposure: MWd/MTU 22275.2 Exposure: MWd/MTU (GWd) 5700.0 ( 578.78 )

Delta E: MWd/MTU, (GWd) 450.0 ( 45.69 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.182 4.264 37 0.740 0.766 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.410 11.445 38 0.414 0.622 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.643 15.182 39 0.502 0.808 17 48 22 0.747 17.981 40 0.545 0.945 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.794 19.821 41 0.866 1.215 39 38 51 -- -- -- -- -- 51 20 0.815 21.163 42 1.116 1.305 19 22 47 -- -- -- -- -- -- -- -- -- 47 19 0.810 21.903 43 1.298 1.431 25 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.817 22.782 44 1.145 1.349 39 36 39 -- -- 42 -- 10 -- 10 -- 42 -- -- 39 17 0.826 23.450 45 1.209 1.299 41 36 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.843 23.878 31 -- -- -- 8 -- 18 -- 38 -- 10 -- -- -- 31 15 0.878 24.222 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.902 24.462 23 -- -- -- 10 -- 38 -- 18 -- 8 -- -- -- 23 13 0.986 24.628 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.044 25.587 15 -- -- 42 -- 10 -- 10 -- 42 -- -- 15 11 1.103 26.279 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.195 26.132 7 -- -- -- -- -- -- -- -- -- 7 9 1.277 26.698 3 -- -- -- -- -- 3 8 1.358 27.121 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.451 27.505 6 1.549 28.106 5 1.618 28.267*

4 1.635* 27.669 Control Rod Density: % 6.27 3 1.548 26.022 2 1.228 20.335 k-effective: 0.99946 Bottom 1 0.341 5.870 Void Fraction: 0.525 Core Delta-P: psia 19.763 % AXIAL TILT -27.828 -12.548 Core Plate Delta-P: psia 15.211 AVG BOT 8ft/12ft 1.1457 1.0723 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 58.95 Active Channel Flow: Mlb/hr 56.74 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00040 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.431 43 25 26 1.511 0.913 43 27 28 9.17 0.884 41.3 41 13 16 5 9.62 0.853 47.1 41 13 16 5 1.423 43 31 28 1.524 0.906 43 23 20 9.20 0.884 41.0 41 37 40 5 9.88 0.851 43.8 41 37 40 5 1.422 43 25 22 1.528 0.903 43 25 22 9.11 0.837 36.4 42 37 36 5 11.56 0.850 15.4 44 39 40 5 1.421 43 19 20 1.529 0.902 43 21 26 9.05 0.833 36.6 42 35 38 5 11.49 0.845 13.0 44 39 36 5 1.415 43 23 20 1.550 0.890 43 19 24 8.52 0.815 40.4 42 11 38 5 9.52 0.833 45.8 42 11 38 5 1.412 43 19 24 1.563 0.883 43 19 20 8.53 0.814 40.2 42 37 42 5 9.71 0.833 43.3 42 35 38 5 1.407 43 17 18 1.581 0.873 43 29 30 8.83 0.812 36.5 42 21 24 7 9.74 0.830 42.7 42 37 36 5 1.381 43 23 24 1.586 0.870 44 13 18 8.82 0.811 36.4 42 17 20 4 11.29 0.830 14.6 43 37 38 5 1.374 43 21 22 1.586 0.870 44 17 14 8.53 0.810 39.7 42 9 34 4 9.34 0.822 46.4 42 15 12 5 1.352 43 35 28 1.599 0.863 43 21 22 8.79 0.810 36.7 42 23 22 7 11.16 0.821 16.0 45 43 26 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.16 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 5,700.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-20 Cycle: 23 Core Average Exposure: MWd/MTU 22775.1 Exposure: MWd/MTU (GWd) 6200.0 ( 629.55 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.184 4.362 37 0.736 0.762 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.414 11.667 38 0.410 0.618 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.651 15.534 39 0.497 0.803 17 48 22 0.755 18.389 40 0.540 0.940 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.800 20.255 41 0.862 1.212 39 38 51 -- -- -- -- -- 51 20 0.821 21.609 42 1.114 1.302 19 22 47 -- -- -- -- -- -- -- -- -- 47 19 0.815 22.346 43 1.304 1.434 25 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.821 23.228 44 1.148 1.353 39 36 39 -- -- 42 -- 10 -- 10 -- 42 -- -- 39 17 0.829 23.900 45 1.214 1.303 41 36 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.844 24.333 31 -- -- -- 8 -- 18 -- 38 -- 10 -- -- -- 31 15 0.878 24.683 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.901 24.936 23 -- -- -- 10 -- 38 -- 18 -- 8 -- -- -- 23 13 0.984 25.104 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.042 26.091 15 -- -- 42 -- 10 -- 10 -- 42 -- -- 15 11 1.100 26.810 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.191 26.684 7 -- -- -- -- -- -- -- -- -- 7 9 1.272 27.285 3 -- -- -- -- -- 3 8 1.353 27.746 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.445 28.172 6 1.544 28.819 5 1.613 29.012*

4 1.632* 28.422 Control Rod Density: % 6.27 3 1.545 26.735 2 1.224 20.899 k-effective: 0.99947 Bottom 1 0.341 6.039 Void Fraction: 0.523 Core Delta-P: psia 19.749 % AXIAL TILT -27.433 -12.731 Core Plate Delta-P: psia 15.198 AVG BOT 8ft/12ft 1.1430 1.0729 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 58.96 Active Channel Flow: Mlb/hr 56.75 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00042 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.434 43 25 26 1.512 0.913 43 27 28 9.13 0.886 41.9 41 37 40 5 9.79 0.852 45.1 41 13 16 5 1.428 43 31 28 1.526 0.904 43 25 22 9.10 0.886 42.3 41 13 16 5 9.80 0.851 44.9 41 37 40 5 1.428 43 25 22 1.528 0.903 43 21 26 9.04 0.839 37.4 42 37 36 5 11.47 0.844 16.8 44 39 40 5 1.427 43 19 20 1.532 0.901 43 23 20 8.99 0.836 37.5 42 35 38 5 11.37 0.836 14.5 44 39 36 5 1.421 43 23 20 1.546 0.893 43 19 24 8.47 0.817 41.3 42 11 38 5 9.64 0.834 44.3 42 35 38 5 1.418 43 19 24 1.559 0.885 43 19 20 8.48 0.816 41.1 42 37 42 5 9.43 0.833 46.8 42 11 38 5 1.413 43 17 18 1.579 0.874 43 29 30 8.51 0.815 40.6 42 41 26 4 9.66 0.831 43.7 42 37 36 5 1.387 43 23 24 1.585 0.871 44 17 14 8.50 0.814 40.6 42 9 34 4 11.20 0.823 16.1 43 37 38 5 1.381 43 21 22 1.585 0.871 44 13 18 8.75 0.812 37.3 42 17 20 4 9.26 0.822 47.4 42 15 12 5 1.358 43 35 28 1.595 0.865 43 21 22 8.74 0.811 37.4 42 21 24 7 11.16 0.821 17.4 45 43 26 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.17 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 6,200.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-21 Cycle: 23 Core Average Exposure: MWd/MTU 23275.1 Exposure: MWd/MTU (GWd) 6700.0 ( 680.32 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.187 4.462 37 0.731 0.757 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.419 11.891 38 0.406 0.613 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.659 15.889 39 0.493 0.798 17 48 22 0.764 18.801 40 0.536 0.935 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.808 20.693 41 0.857 1.209 39 38 51 -- -- -- -- -- 51 20 0.828 22.058 42 1.112 1.300 19 22 47 -- -- -- -- -- -- -- -- -- 47 19 0.821 22.791 43 1.310 1.438 25 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.826 23.676 44 1.151 1.358 39 36 39 -- -- 42 -- 10 -- 10 -- 42 -- -- 39 17 0.832 24.353 45 1.219 1.308 41 36 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.846 24.788 31 -- -- -- 8 -- 18 -- 38 -- 10 -- -- -- 31 15 0.878 25.145 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.900 25.410 23 -- -- -- 10 -- 38 -- 18 -- 8 -- -- -- 23 13 0.982 25.578 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.039 26.594 15 -- -- 42 -- 10 -- 10 -- 42 -- -- 15 11 1.096 27.341 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.185 27.234 7 -- -- -- -- -- -- -- -- -- 7 9 1.264 27.870 3 -- -- -- -- -- 3 8 1.345 28.368 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.438 28.837 6 1.537 29.529 5 1.609 29.754*

4 1.629* 29.173 Control Rod Density: % 6.27 3 1.544 27.447 2 1.222 21.462 k-effective: 0.99955 Bottom 1 0.341 6.208 Void Fraction: 0.522 Core Delta-P: psia 19.735 % AXIAL TILT -26.994 -12.897 Core Plate Delta-P: psia 15.184 AVG BOT 8ft/12ft 1.1399 1.0734 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 58.96 Active Channel Flow: Mlb/hr 56.76 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00044 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.438 43 25 26 1.512 0.913 43 27 28 9.06 0.888 42.9 41 37 40 5 9.71 0.853 46.1 41 13 16 5 1.435 43 25 22 1.523 0.906 43 25 22 9.03 0.888 43.2 41 13 16 5 9.72 0.852 45.9 41 37 40 5 1.434 43 31 28 1.525 0.905 43 21 26 8.98 0.841 38.3 42 37 36 5 11.38 0.837 18.3 44 39 40 5 1.434 43 19 20 1.529 0.903 43 23 20 8.94 0.838 38.5 42 35 38 5 9.57 0.835 45.3 42 35 38 5 1.427 43 23 20 1.541 0.895 43 19 24 8.49 0.820 41.5 42 41 26 4 9.34 0.832 47.8 42 11 38 5 1.426 43 19 24 1.554 0.888 43 19 20 8.41 0.819 42.2 42 11 38 5 9.58 0.831 44.7 42 37 36 5 1.419 43 17 18 1.576 0.876 43 29 30 8.43 0.819 42.0 42 37 42 5 11.26 0.828 15.9 44 39 36 5 1.394 43 23 24 1.579 0.874 44 17 14 8.47 0.819 41.5 42 9 34 4 11.19 0.823 18.1 45 43 28 3 1.389 43 21 22 1.583 0.872 44 13 18 8.69 0.814 38.3 42 17 20 4 9.17 0.822 48.4 42 15 12 5 1.365 43 35 28 1.591 0.867 43 21 22 8.67 0.811 38.2 42 33 36 4 11.11 0.817 17.5 43 37 38 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.18 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 6,700.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-22 Cycle: 23 Core Average Exposure: MWd/MTU 23675.1 Exposure: MWd/MTU (GWd) 7100.0 ( 720.94 )

Delta E: MWd/MTU, (GWd) 400.0 ( 40.62 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.188 4.542 37 0.727 0.754 3 24 Inlet Subcooling: Btu/lbm -24.78 24 0.422 12.072 38 0.402 0.610 15 6 Flow: Mlb/hr 67.38 ( 87.50 %) 23 0.664 16.176 39 0.489 0.794 17 48 22 0.770 19.134 40 0.532 0.931 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.813 21.046 41 0.854 1.207 39 38 51 -- -- -- -- -- 51 20 0.832 22.420 42 1.110 1.298 19 22 47 -- -- -- -- -- -- -- -- -- 47 19 0.824 23.149 43 1.315 1.442 25 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.828 24.037 44 1.153 1.362 39 36 39 -- -- 42 -- 10 -- 10 -- 42 -- -- 39 17 0.834 24.715 45 1.223 1.312 41 36 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.846 25.154 31 -- -- -- 8 -- 18 -- 38 -- 10 -- -- -- 31 15 0.877 25.514 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.898 25.788 23 -- -- -- 10 -- 38 -- 18 -- 8 -- -- -- 23 13 0.979 25.957 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.036 26.994 15 -- -- 42 -- 10 -- 10 -- 42 -- -- 15 11 1.092 27.763 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.179 27.671 7 -- -- -- -- -- -- -- -- -- 7 9 1.258 28.335 3 -- -- -- -- -- 3 8 1.338 28.862 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.432 29.366 6 1.533 30.095 5 1.607 30.347*

4 1.631* 29.775 Control Rod Density: % 6.27 3 1.549 28.017 2 1.226 21.913 k-effective: 0.99952 Bottom 1 0.343 6.344 Void Fraction: 0.522 Core Delta-P: psia 19.573 % AXIAL TILT -26.754 -13.019 Core Plate Delta-P: psia 15.023 AVG BOT 8ft/12ft 1.1381 1.0738 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 58.63 Active Channel Flow: Mlb/hr 56.43 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00044 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.442 43 25 26 1.506 0.916 43 27 28 9.01 0.890 43.7 41 37 40 5 9.65 0.854 46.9 41 13 16 5 1.440 43 25 22 1.517 0.910 43 25 22 8.98 0.890 44.0 41 13 16 5 9.66 0.853 46.7 41 37 40 5 1.439 43 19 20 1.520 0.908 43 21 26 8.94 0.843 39.1 42 37 36 5 9.52 0.836 46.1 42 35 38 5 1.439 43 31 28 1.522 0.907 43 23 20 8.90 0.841 39.2 42 35 38 5 11.33 0.833 19.4 44 39 40 5 1.432 43 23 20 1.534 0.900 43 19 24 8.50 0.827 42.2 42 41 26 4 9.28 0.833 48.6 42 11 38 5 1.431 43 19 24 1.543 0.894 43 19 20 8.46 0.824 42.2 42 9 34 4 9.53 0.832 45.5 42 37 36 5 1.424 43 17 18 1.570 0.879 43 29 30 8.38 0.821 42.9 42 11 38 5 11.28 0.830 18.9 45 43 28 3 1.399 43 23 24 1.571 0.878 44 17 14 8.40 0.821 42.7 42 37 42 5 9.11 0.822 49.1 42 15 12 5 1.394 43 21 22 1.575 0.876 44 13 18 8.66 0.816 39.0 42 17 20 4 11.17 0.822 15.2 44 13 18 4 1.370 43 35 28 1.584 0.871 43 21 22 8.64 0.814 38.9 42 33 36 4 11.12 0.818 18.9 44 45 28 3

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.19 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 7,100.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-23 Cycle: 23 Core Average Exposure: MWd/MTU 23975.2 Exposure: MWd/MTU (GWd) 7400.0 ( 751.40 )

Delta E: MWd/MTU, (GWd) 300.0 ( 30.46 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.189 4.603 37 0.724 0.751 3 24 Inlet Subcooling: Btu/lbm -24.94 24 0.423 12.209 38 0.400 0.608 15 6 Flow: Mlb/hr 66.99 ( 87.00 %) 23 0.667 16.393 39 0.487 0.791 17 48 22 0.773 19.385 40 0.530 0.928 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.816 21.312 41 0.851 1.204 39 38 51 -- -- -- -- -- 51 20 0.835 22.692 42 1.109 1.297 19 22 47 -- -- -- -- -- -- -- -- -- 47 19 0.826 23.419 43 1.319 1.444 25 22 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.830 24.307 44 1.155 1.364 39 36 39 -- -- 42 -- 10 -- 10 -- 42 -- -- 39 17 0.835 24.988 45 1.226 1.314 41 36 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.846 25.428 31 -- -- -- 8 -- 18 -- 38 -- 10 -- -- -- 31 15 0.876 25.790 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.897 26.071 23 -- -- -- 10 -- 38 -- 18 -- 8 -- -- -- 23 13 0.977 26.241 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.033 27.294 15 -- -- 42 -- 10 -- 10 -- 42 -- -- 15 11 1.089 28.079 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.174 27.998 7 -- -- -- -- -- -- -- -- -- 7 9 1.252 28.682 3 -- -- -- -- -- 3 8 1.333 29.232 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.427 29.761 6 1.530 30.518 5 1.607 30.792*

4 1.634* 30.226 Control Rod Density: % 6.27 3 1.555 28.446 2 1.231 22.253 k-effective: 0.99949 Bottom 1 0.344 6.446 Void Fraction: 0.522 Core Delta-P: psia 19.415 % AXIAL TILT -26.622 -13.105 Core Plate Delta-P: psia 14.865 AVG BOT 8ft/12ft 1.1370 1.0740 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 58.29 Active Channel Flow: Mlb/hr 56.10 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.444 43 25 22 1.500 0.920 43 27 28 8.98 0.892 44.2 41 37 40 5 9.61 0.854 47.5 41 13 16 5 1.444 43 25 26 1.511 0.913 43 25 22 8.95 0.892 44.5 41 13 16 5 9.62 0.854 47.3 41 37 40 5 1.443 43 19 20 1.515 0.911 43 21 26 8.90 0.845 39.6 42 37 36 5 9.48 0.837 46.7 42 35 38 5 1.442 43 31 28 1.516 0.910 43 23 20 8.77 0.843 40.9 42 17 16 5 11.37 0.836 19.7 45 43 28 3 1.436 43 23 20 1.527 0.904 43 19 24 8.51 0.833 42.7 42 41 26 4 9.23 0.833 49.2 42 11 38 5 1.435 43 19 24 1.534 0.899 43 19 20 8.47 0.829 42.8 42 9 34 4 9.49 0.833 46.1 42 37 36 5 1.428 43 17 18 1.564 0.882 44 17 14 8.36 0.824 43.5 42 11 38 5 11.28 0.830 20.3 44 39 40 5 1.403 43 23 24 1.565 0.882 43 29 30 8.37 0.823 43.2 42 37 42 5 11.19 0.823 19.8 44 45 28 3 1.399 43 21 22 1.568 0.880 44 13 18 8.64 0.819 39.5 42 17 20 4 9.07 0.823 49.7 42 15 12 5 1.374 43 35 28 1.575 0.876 43 21 22 8.62 0.816 39.5 42 33 36 4 9.34 0.821 46.2 42 41 26 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.20 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 7,400.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-24 Cycle: 23 Core Average Exposure: MWd/MTU 23976.2 Exposure: MWd/MTU (GWd) 7401.0 ( 751.50 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.157 4.603 37 0.745 0.779 3 24 Inlet Subcooling: Btu/lbm -24.47 24 0.353 12.209 38 0.408 0.613 15 6 Flow: Mlb/hr 68.14 ( 88.50 %) 23 0.555 16.394 39 0.496 0.805 17 48 22 0.645 19.386 40 0.542 0.965 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.683 21.313 41 0.872 1.261 39 38 51 -- -- -- -- -- 51 20 0.719 22.693 42 1.082 1.296 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.744 23.420 43 1.229 1.426 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.773 24.308 44 1.187 1.426 39 18 39 -- -- -- 38 -- 0 -- 38 -- -- -- 39 17 0.802 24.989 45 1.281 1.393 39 22 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.841 25.429 31 -- -- 38 -- 6 -- 14 -- 6 -- 38 -- -- 31 15 0.902 25.791 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.948 26.072 23 -- -- 38 -- 6 -- 12 -- 6 -- 38 -- -- 23 13 1.054 26.242 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.128 27.295 15 -- -- -- 38 -- 0 -- 38 -- -- -- 15 11 1.197 28.080 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.293 27.999 7 -- -- -- -- -- -- -- -- -- 7 9 1.374 28.683 3 -- -- -- -- -- 3 8 1.449 29.233 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.525 29.762 6 1.592 30.520 5 1.608* 30.793*

4 1.601 30.228 Control Rod Density: % 6.30 3 1.519 28.447 2 1.202 22.254 k-effective: 0.99952 Bottom 1 0.336 6.446 Void Fraction: 0.526 Core Delta-P: psia 20.020 % AXIAL TILT -32.174 -13.105 Core Plate Delta-P: psia 15.467 AVG BOT 8ft/12ft 1.1816 1.0740 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 59.25 Active Channel Flow: Mlb/hr 57.02 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00039 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.426 44 39 18 1.513 0.912 44 39 18 8.88 0.860 41.7 41 13 38 4 9.82 0.845 43.8 42 19 14 7 1.426 43 37 16 1.524 0.906 45 13 22 9.06 0.857 39.4 42 35 16 7 9.93 0.845 42.4 42 35 16 7 1.404 43 35 18 1.533 0.900 45 13 28 8.91 0.855 40.8 42 33 14 7 9.71 0.844 45.0 42 11 22 7 1.393 45 39 22 1.546 0.893 45 31 14 8.64 0.854 43.7 42 11 32 7 11.44 0.841 15.9 45 31 10 4 1.391 45 41 20 1.564 0.882 45 41 20 8.60 0.851 43.9 42 11 28 6 9.36 0.840 48.5 42 11 38 4 1.390 43 37 20 1.568 0.880 45 41 18 8.82 0.848 41.1 42 13 34 5 11.38 0.837 16.0 45 29 42 4 1.380 45 39 26 1.575 0.876 45 43 28 8.59 0.843 43.0 42 11 38 4 11.37 0.836 18.3 44 13 36 4 1.378 45 41 18 1.584 0.871 45 33 12 8.53 0.841 43.5 42 31 12 5 9.67 0.835 44.2 42 13 20 5 1.366 45 33 12 1.591 0.868 44 39 14 8.97 0.838 38.1 42 15 36 5 11.35 0.835 18.3 45 29 10 4 1.360 45 31 14 1.592 0.867 45 35 12 8.42 0.836 44.2 41 37 14 6 9.31 0.834 48.4 41 13 38 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.21 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 7,401.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-25 Cycle: 23 Core Average Exposure: MWd/MTU 24475.2 Exposure: MWd/MTU (GWd) 7900.0 ( 802.17 )

Delta E: MWd/MTU, (GWd) 499.0 ( 50.67 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.158 4.688 37 0.740 0.774 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.356 12.399 38 0.404 0.609 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.560 16.696 39 0.491 0.799 17 48 22 0.650 19.737 40 0.538 0.959 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.688 21.685 41 0.868 1.256 39 38 51 -- -- -- -- -- 51 20 0.723 23.084 42 1.080 1.292 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.748 23.825 43 1.235 1.431 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.776 24.729 44 1.190 1.430 39 18 39 -- -- -- 38 -- 0 -- 38 -- -- -- 39 17 0.804 25.425 45 1.286 1.396 41 20 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.841 25.881 31 -- -- 38 -- 6 -- 14 -- 6 -- 38 -- -- 31 15 0.901 26.264 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.947 26.569 23 -- -- 38 -- 6 -- 12 -- 6 -- 38 -- -- 23 13 1.051 26.749 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.125 27.838 15 -- -- -- 38 -- 0 -- 38 -- -- -- 15 11 1.192 28.655 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.286 28.594 7 -- -- -- -- -- -- -- -- -- 7 9 1.365 29.313 3 -- -- -- -- -- 3 8 1.440 29.897 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.517 30.462 6 1.587 31.251 5 1.608* 31.533*

4 1.604 30.965 Control Rod Density: % 6.30 3 1.527 29.148 2 1.208 22.808 k-effective: 0.99947 Bottom 1 0.338 6.613 Void Fraction: 0.526 Core Delta-P: psia 19.857 % AXIAL TILT -31.919 -13.356 Core Plate Delta-P: psia 15.304 AVG BOT 8ft/12ft 1.1797 1.0752 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 58.91 Active Channel Flow: Mlb/hr 56.69 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00036 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.431 43 37 16 1.519 0.908 44 39 18 8.84 0.864 42.6 41 13 38 4 9.72 0.844 44.8 42 19 14 7 1.430 44 39 18 1.531 0.901 45 13 22 8.97 0.857 40.3 42 35 16 7 9.62 0.844 46.0 42 11 22 7 1.410 43 35 18 1.540 0.896 45 13 28 8.82 0.855 41.7 42 33 14 7 9.93 0.843 42.2 42 35 38 7 1.396 43 37 20 1.551 0.890 45 31 14 8.56 0.855 44.7 42 11 32 7 9.30 0.842 49.5 42 11 38 4 1.396 45 41 20 1.570 0.879 45 41 20 8.55 0.854 44.8 42 11 28 6 11.43 0.840 17.4 45 31 10 4 1.395 45 39 22 1.572 0.878 45 41 18 8.76 0.851 42.0 42 13 34 5 9.61 0.837 45.2 42 13 20 5 1.383 45 41 18 1.575 0.876 45 43 28 8.57 0.848 43.9 42 11 38 4 11.37 0.836 17.4 45 29 42 4 1.383 45 39 26 1.588 0.869 45 33 12 8.66 0.847 42.6 42 31 12 4 9.25 0.836 49.4 41 13 38 4 1.371 45 33 12 1.591 0.867 44 39 14 8.91 0.840 39.1 42 15 36 5 11.35 0.834 18.9 45 29 10 4 1.363 45 31 14 1.595 0.865 45 35 12 8.36 0.838 45.1 41 37 14 6 11.34 0.834 19.9 45 27 10 3

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.22 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 7,900.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-26 Cycle: 23 Core Average Exposure: MWd/MTU 24975.2 Exposure: MWd/MTU (GWd) 8400.0 ( 852.94 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.160 4.773 37 0.735 0.770 3 24 Inlet Subcooling: Btu/lbm -24.78 24 0.357 12.591 38 0.400 0.605 15 6 Flow: Mlb/hr 67.38 ( 87.50 %) 23 0.564 17.001 39 0.487 0.795 17 48 22 0.655 20.091 40 0.533 0.954 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.691 22.060 41 0.863 1.252 39 38 51 -- -- -- -- -- 51 20 0.726 23.479 42 1.078 1.288 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.750 24.233 43 1.241 1.435 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.778 25.152 44 1.194 1.435 39 18 39 -- -- -- 38 -- 0 -- 38 -- -- -- 39 17 0.805 25.863 45 1.291 1.401 41 20 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.842 26.335 31 -- -- 38 -- 6 -- 14 -- 6 -- 38 -- -- 31 15 0.901 26.738 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.946 27.067 23 -- -- 38 -- 6 -- 12 -- 6 -- 38 -- -- 23 13 1.049 27.256 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.122 28.380 15 -- -- -- 38 -- 0 -- 38 -- -- -- 15 11 1.189 29.230 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.280 29.188 7 -- -- -- -- -- -- -- -- -- 7 9 1.358 29.940 3 -- -- -- -- -- 3 8 1.432 30.559 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.511 31.160 6 1.583 31.981 5 1.606 32.274*

4 1.607* 31.705 Control Rod Density: % 6.30 3 1.533 29.853 2 1.213 23.365 k-effective: 0.99949 Bottom 1 0.340 6.781 Void Fraction: 0.526 Core Delta-P: psia 19.695 % AXIAL TILT -31.735 -13.593 Core Plate Delta-P: psia 15.142 AVG BOT 8ft/12ft 1.1784 1.0764 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 58.57 Active Channel Flow: Mlb/hr 56.36 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00038 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.435 44 39 18 1.520 0.908 44 39 18 8.79 0.867 43.6 41 13 38 4 11.47 0.845 21.3 45 27 10 3 1.435 43 37 16 1.538 0.897 45 13 22 8.51 0.858 45.7 42 11 28 6 9.55 0.845 47.0 42 11 22 7 1.416 43 35 18 1.547 0.892 45 13 28 8.51 0.857 45.6 42 11 32 7 9.25 0.844 50.4 42 11 38 4 1.402 43 37 20 1.557 0.886 45 31 14 8.88 0.856 41.3 42 35 16 7 9.62 0.843 45.8 42 19 14 7 1.401 45 41 20 1.573 0.877 45 41 18 8.75 0.855 42.6 42 33 14 7 9.83 0.842 43.2 42 35 38 7 1.398 45 39 22 1.574 0.877 45 41 20 8.55 0.854 44.8 42 11 38 4 9.47 0.840 47.3 42 31 12 4 1.388 45 41 18 1.574 0.877 45 43 28 8.66 0.854 43.5 42 31 12 4 11.42 0.840 18.8 45 31 10 4 1.386 45 39 26 1.590 0.868 45 33 12 8.71 0.854 42.9 42 13 34 5 9.55 0.839 46.2 42 13 20 5 1.376 45 33 12 1.591 0.867 44 39 14 8.84 0.842 40.0 42 15 36 5 9.19 0.838 50.3 41 13 38 4 1.367 45 31 14 1.597 0.864 45 35 12 8.30 0.840 46.0 41 37 14 6 11.37 0.836 20.3 45 29 10 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.23 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 8,400.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-27 Cycle: 23 Core Average Exposure: MWd/MTU 25425.2 Exposure: MWd/MTU (GWd) 8850.0 ( 898.64 )

Delta E: MWd/MTU, (GWd) 450.0 ( 45.69 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.161 4.850 37 0.731 0.767 3 24 Inlet Subcooling: Btu/lbm -24.94 24 0.360 12.765 38 0.397 0.602 15 6 Flow: Mlb/hr 66.99 ( 87.00 %) 23 0.569 17.278 39 0.483 0.791 17 48 22 0.661 20.413 40 0.530 0.950 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.697 22.400 41 0.860 1.249 39 38 51 -- -- -- -- -- 51 20 0.731 23.836 42 1.076 1.285 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.755 24.602 43 1.244 1.438 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.782 25.534 44 1.197 1.439 39 18 39 -- -- -- 38 -- 0 -- 38 -- -- -- 39 17 0.809 26.259 45 1.296 1.406 41 20 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.845 26.745 31 -- -- 38 -- 6 -- 14 -- 6 -- 38 -- -- 31 15 0.903 27.165 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.946 27.514 23 -- -- 38 -- 6 -- 12 -- 6 -- 38 -- -- 23 13 1.049 27.712 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.121 28.868 15 -- -- -- 38 -- 0 -- 38 -- -- -- 15 11 1.187 29.746 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.275 29.720 7 -- -- -- -- -- -- -- -- -- 7 9 1.352 30.502 3 -- -- -- -- -- 3 8 1.425 31.152 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.503 31.785 6 1.575 32.637 5 1.601 32.939*

4 1.604* 32.371 Control Rod Density: % 6.30 3 1.533 30.488 2 1.214 23.868 k-effective: 0.99952 Bottom 1 0.341 6.933 Void Fraction: 0.525 Core Delta-P: psia 19.527 % AXIAL TILT -31.363 -13.793 Core Plate Delta-P: psia 14.975 AVG BOT 8ft/12ft 1.1760 1.0773 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 58.24 Active Channel Flow: Mlb/hr 56.04 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00037 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.439 44 39 18 1.518 0.909 44 39 18 8.71 0.867 44.4 41 13 38 4 11.51 0.857 22.6 45 27 10 3 1.438 43 37 16 1.544 0.894 45 13 22 8.46 0.861 46.5 42 11 28 6 9.48 0.845 47.9 42 11 22 7 1.420 43 35 18 1.551 0.890 45 13 28 8.45 0.859 46.4 42 11 32 7 11.33 0.843 22.6 44 27 8 3 1.406 43 37 20 1.561 0.884 45 31 14 8.61 0.857 44.3 42 31 12 4 9.16 0.843 51.3 42 11 38 4 1.406 45 41 20 1.572 0.878 45 43 28 8.50 0.857 45.6 42 11 38 4 9.42 0.842 48.1 42 31 12 4 1.401 45 39 22 1.574 0.876 45 41 18 8.79 0.855 42.1 42 35 16 7 9.52 0.841 46.7 42 19 14 7 1.393 45 41 18 1.576 0.876 45 41 20 8.64 0.854 43.7 42 13 34 5 9.61 0.839 45.4 42 35 16 7 1.390 45 39 26 1.589 0.869 44 39 14 8.66 0.854 43.5 42 33 14 7 9.47 0.839 47.1 42 13 20 5 1.381 45 33 12 1.592 0.867 45 33 12 8.35 0.844 45.9 42 33 10 4 11.28 0.838 22.4 45 29 10 4 1.370 45 31 14 1.599 0.863 45 35 12 8.23 0.840 46.8 41 37 14 6 9.21 0.837 50.0 42 11 28 6

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.24 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 8,850.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-28 Cycle: 23 Core Average Exposure: MWd/MTU 25925.2 Exposure: MWd/MTU (GWd) 9350.0 ( 949.41 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.163 4.937 37 0.728 0.764 3 24 Inlet Subcooling: Btu/lbm -25.10 24 0.364 12.960 38 0.393 0.599 15 6 Flow: Mlb/hr 66.61 ( 86.50 %) 23 0.576 17.589 39 0.480 0.787 17 48 22 0.669 20.774 40 0.526 0.946 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.705 22.782 41 0.856 1.245 39 38 51 -- -- -- -- -- 51 20 0.739 24.236 42 1.073 1.281 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.763 25.015 43 1.248 1.439 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.790 25.963 44 1.201 1.443 39 18 39 -- -- -- 38 -- 0 -- 38 -- -- -- 39 17 0.816 26.701 45 1.301 1.411 41 20 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 0.851 27.202 31 -- -- 38 -- 6 -- 14 -- 6 -- 38 -- -- 31 15 0.908 27.641 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 0.951 28.013 23 -- -- 38 -- 6 -- 12 -- 6 -- 38 -- -- 23 13 1.054 28.219 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.125 29.410 15 -- -- -- 38 -- 0 -- 38 -- -- -- 15 11 1.188 30.319 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.274 30.310 7 -- -- -- -- -- -- -- -- -- 7 9 1.347 31.124 3 -- -- -- -- -- 3 8 1.417 31.806 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.493 32.475 6 1.563 33.360 5 1.587 33.673*

4 1.589* 33.107 Control Rod Density: % 6.30 3 1.521 31.192 2 1.206 24.425 k-effective: 0.99955 Bottom 1 0.338 7.102 Void Fraction: 0.524 Core Delta-P: psia 19.347 % AXIAL TILT -30.703 -13.997 Core Plate Delta-P: psia 14.796 AVG BOT 8ft/12ft 1.1724 1.0783 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 57.91 Active Channel Flow: Mlb/hr 55.72 Total Bypass Flow (%): 13.1 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00046 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.443 44 39 18 1.516 0.910 44 39 18 8.40 0.863 47.4 42 11 28 6 11.44 0.861 24.0 45 27 10 3 1.439 43 37 16 1.549 0.891 45 39 22 8.57 0.861 45.3 41 13 38 4 11.29 0.848 23.6 44 25 8 3 1.423 43 35 18 1.555 0.888 45 13 28 8.39 0.860 47.2 42 11 32 7 9.39 0.845 48.9 42 11 22 7 1.411 45 41 20 1.559 0.885 45 31 14 8.51 0.855 45.3 42 31 12 4 9.30 0.839 49.1 42 31 12 4 1.409 43 37 20 1.570 0.879 45 43 28 8.39 0.854 46.5 42 11 38 4 9.14 0.838 50.9 42 11 28 6 1.405 45 39 22 1.573 0.877 45 41 20 8.67 0.851 43.0 42 35 16 7 11.21 0.837 23.0 45 29 10 4 1.398 45 41 18 1.574 0.877 45 41 18 8.52 0.850 44.6 42 13 34 5 9.02 0.837 52.3 42 11 38 4 1.395 45 39 26 1.585 0.871 44 39 14 8.49 0.844 44.4 42 33 14 7 9.34 0.834 48.1 42 13 20 5 1.385 45 33 12 1.592 0.867 45 33 12 8.26 0.842 46.8 42 33 10 4 9.48 0.834 46.4 42 35 16 7 1.375 45 43 26 1.599 0.863 45 35 12 8.13 0.837 47.6 41 37 14 6 11.07 0.832 23.7 45 29 12 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.25 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 9,350.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-29 Cycle: 23 Core Average Exposure: MWd/MTU 25926.1 Exposure: MWd/MTU (GWd) 9351.0 ( 949.51 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.173 4.937 37 0.692 0.706 3 24 Inlet Subcooling: Btu/lbm -24.79 24 0.385 12.960 38 0.378 0.584 15 6 Flow: Mlb/hr 67.38 ( 87.50 %) 23 0.609 17.589 39 0.469 0.774 17 48 22 0.705 20.774 40 0.508 0.904 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.739 22.783 41 0.824 1.207 39 38 51 -- -- -- -- -- 51 20 0.767 24.237 42 1.109 1.295 35 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.778 25.016 43 1.354 1.476 33 24 43 -- -- -- 44 -- 14 -- 44 -- -- -- 43 18 0.795 25.963 44 1.149 1.394 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.812 26.702 45 1.252 1.418 39 22 35 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 35 16 0.838 27.203 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.886 27.642 27 -- -- 10 -- 38 -- 0 -- 38 -- 12 -- -- 27 14 0.922 28.014 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.016 28.220 19 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 19 12 1.082 29.411 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.142 30.320 11 -- -- -- 44 -- 10 -- 44 -- -- -- 11 10 1.225 30.311 7 -- -- -- -- -- -- -- -- -- 7 9 1.300 31.125 3 -- -- -- -- -- 3 8 1.377 31.808 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.467 32.477 6 1.562 33.361 5 1.627 33.675*

4 1.656* 33.108 Control Rod Density: % 6.60 3 1.581 31.194 2 1.219 24.427 k-effective: 0.99954 Bottom 1 0.336 7.102 Void Fraction: 0.520 Core Delta-P: psia 19.656 % AXIAL TILT -29.880 -13.997 Core Plate Delta-P: psia 15.103 AVG BOT 8ft/12ft 1.1622 1.0783 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 58.60 Active Channel Flow: Mlb/hr 56.40 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00042 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.476 43 33 24 1.532 0.901 43 33 24 9.06 0.895 43.7 42 13 34 4 9.63 0.875 50.0 42 9 34 4 1.460 43 29 20 1.539 0.897 45 39 22 8.82 0.892 46.0 42 9 34 4 11.47 0.871 25.0 45 11 34 4 1.456 43 27 22 1.544 0.894 43 29 20 8.74 0.892 46.8 42 11 32 4 11.53 0.870 24.3 45 11 36 4 1.454 43 31 26 1.547 0.892 43 27 22 8.98 0.891 44.0 42 33 40 4 9.81 0.870 47.1 42 13 34 4 1.450 43 31 22 1.565 0.882 43 21 28 8.85 0.889 45.3 41 13 38 4 9.76 0.869 47.7 42 19 14 4 1.449 43 37 24 1.568 0.880 45 31 40 8.64 0.888 47.5 41 37 14 4 9.71 0.861 47.2 42 41 22 4 1.433 43 29 16 1.589 0.868 43 37 24 8.63 0.879 46.5 42 11 38 4 9.27 0.861 52.3 42 11 38 4 1.431 43 29 24 1.590 0.868 45 39 26 9.10 0.873 40.8 42 19 28 7 11.32 0.860 25.1 45 9 36 4 1.418 45 39 22 1.601 0.862 43 31 22 8.68 0.872 45.3 42 31 12 4 11.30 0.860 25.2 45 33 12 4 1.410 43 35 26 1.611 0.857 44 39 18 8.63 0.871 45.7 42 37 12 4 11.38 0.860 24.4 45 35 12 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.26 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 9,351.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-30 Cycle: 23 Core Average Exposure: MWd/MTU 26275.2 Exposure: MWd/MTU (GWd) 9700.0 ( 984.95 )

Delta E: MWd/MTU, (GWd) 349.0 ( 35.44 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.175 5.002 37 0.691 0.705 3 24 Inlet Subcooling: Btu/lbm -24.79 24 0.390 13.106 38 0.377 0.583 15 6 Flow: Mlb/hr 67.38 ( 87.50 %) 23 0.619 17.822 39 0.467 0.773 17 48 22 0.717 21.044 40 0.506 0.902 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.750 23.066 41 0.822 1.205 39 38 51 -- -- -- -- -- 51 20 0.778 24.531 42 1.107 1.292 35 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.789 25.314 43 1.355 1.476 33 24 43 -- -- -- 44 -- 14 -- 44 -- -- -- 43 18 0.806 26.268 44 1.152 1.396 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.822 27.013 45 1.255 1.419 39 22 35 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 35 16 0.847 27.520 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.895 27.969 27 -- -- 10 -- 38 -- 0 -- 38 -- 12 -- -- 27 14 0.930 28.354 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.024 28.564 19 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 19 12 1.088 29.777 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.146 30.705 11 -- -- -- 44 -- 10 -- 44 -- -- -- 11 10 1.227 30.707 7 -- -- -- -- -- -- -- -- -- 7 9 1.298 31.543 3 -- -- -- -- -- 3 8 1.372 32.250 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.458 32.947 6 1.548 33.862 5 1.608 34.195*

4 1.631* 33.637 Control Rod Density: % 6.60 3 1.555 31.698 2 1.198 24.815 k-effective: 0.99963 Bottom 1 0.330 7.217 Void Fraction: 0.518 Core Delta-P: psia 19.622 % AXIAL TILT -28.962 -14.113 Core Plate Delta-P: psia 15.069 AVG BOT 8ft/12ft 1.1574 1.0788 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 58.62 Active Channel Flow: Mlb/hr 56.42 Total Bypass Flow (%): 13.0 (of total core flow)

Total Water Rod Flow (%): 3.3 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.476 43 33 24 1.531 0.901 43 33 24 8.88 0.883 44.4 42 13 34 4 9.45 0.864 50.7 42 9 34 4 1.462 43 29 20 1.536 0.898 45 39 22 8.66 0.882 46.7 42 9 34 4 11.30 0.860 25.3 45 11 36 4 1.455 43 27 22 1.541 0.895 43 29 20 8.57 0.880 47.4 42 11 32 4 11.21 0.858 26.0 45 11 34 4 1.455 43 31 26 1.550 0.890 43 27 22 8.68 0.878 45.9 41 13 38 4 9.62 0.857 47.8 42 13 34 4 1.451 43 37 24 1.566 0.881 45 31 40 8.47 0.877 48.1 41 37 14 4 9.54 0.855 48.4 42 19 14 4 1.451 43 31 22 1.567 0.881 43 21 28 8.78 0.877 44.7 42 33 40 4 9.83 0.851 44.5 42 19 28 7 1.435 43 29 16 1.585 0.871 43 37 24 8.50 0.870 47.2 42 11 38 4 9.53 0.850 47.9 42 41 22 4 1.431 43 29 24 1.586 0.870 45 39 26 8.98 0.867 41.4 42 19 28 7 9.10 0.850 53.0 42 11 38 4 1.419 45 39 22 1.598 0.863 43 31 22 8.54 0.863 45.9 42 31 12 4 11.16 0.850 25.4 45 35 12 4 1.415 43 35 26 1.607 0.859 44 39 18 8.91 0.863 41.7 42 27 20 7 11.09 0.849 26.1 45 9 36 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.27 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 9,700.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-31 Cycle: 23 Core Average Exposure: MWd/MTU 26775.1 Exposure: MWd/MTU (GWd) 10200.0 (1035.72 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.179 5.097 37 0.688 0.704 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.399 13.319 38 0.374 0.580 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.634 18.162 39 0.465 0.770 17 48 22 0.735 21.438 40 0.504 0.899 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.769 23.479 41 0.820 1.202 39 38 51 -- -- -- -- -- 51 20 0.796 24.959 42 1.105 1.288 35 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.808 25.749 43 1.357 1.477 33 24 43 -- -- -- 44 -- 14 -- 44 -- -- -- 43 18 0.824 26.711 44 1.156 1.399 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.841 27.465 45 1.259 1.422 39 22 35 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 35 16 0.865 27.982 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.912 28.443 27 -- -- 10 -- 38 -- 0 -- 38 -- 12 -- -- 27 14 0.946 28.847 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.039 29.062 19 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 19 12 1.102 30.306 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.157 31.261 11 -- -- -- 44 -- 10 -- 44 -- -- -- 11 10 1.233 31.276 7 -- -- -- -- -- -- -- -- -- 7 9 1.299 32.142 3 -- -- -- -- -- 3 8 1.366 32.881 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.443 33.615 6 1.524 34.570 5 1.572 34.928*

4 1.583* 34.378 Control Rod Density: % 6.60 3 1.501 32.402 2 1.156 25.357 k-effective: 0.99988 Bottom 1 0.318 7.378 Void Fraction: 0.512 Core Delta-P: psia 19.714 % AXIAL TILT -27.324 -14.249 Core Plate Delta-P: psia 15.162 AVG BOT 8ft/12ft 1.1491 1.0793 Coolant Temp: Deg-F 548.3 In Channel Flow: Mlb/hr 58.99 Active Channel Flow: Mlb/hr 56.79 Total Bypass Flow (%): 12.9 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00044 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.477 43 33 24 1.532 0.901 43 33 24 8.38 0.862 47.6 42 9 34 4 9.10 0.844 52.2 42 9 34 5 1.464 43 29 20 1.537 0.898 45 39 22 8.57 0.860 45.3 42 13 34 4 10.89 0.838 26.6 45 11 36 4 1.458 43 31 26 1.540 0.896 43 29 20 8.28 0.859 48.3 42 11 32 4 9.56 0.835 45.5 42 19 28 7 1.456 43 27 22 1.557 0.887 43 27 22 8.38 0.855 46.8 41 13 38 4 9.28 0.834 48.7 42 13 20 4 1.454 43 37 24 1.567 0.881 43 31 26 8.17 0.854 49.0 41 37 14 4 10.85 0.834 26.6 45 11 34 4 1.452 43 31 22 1.568 0.880 45 31 40 8.74 0.852 42.4 42 19 28 7 8.71 0.832 54.5 42 11 38 5 1.437 43 29 16 1.583 0.872 45 39 26 8.45 0.851 45.6 42 33 40 4 8.46 0.831 55.6 42 11 32 5 1.432 43 29 24 1.585 0.871 43 37 24 8.23 0.851 48.0 42 11 38 4 9.48 0.830 45.8 42 27 20 7 1.422 45 39 22 1.599 0.863 43 31 22 8.68 0.848 42.6 42 27 20 7 8.59 0.829 55.0 41 37 14 5 1.421 43 35 26 1.604 0.860 44 39 18 8.09 0.845 48.9 42 33 10 5 9.17 0.829 49.4 42 19 14 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.28 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 10,200.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-32 Cycle: 23 Core Average Exposure: MWd/MTU 27275.2 Exposure: MWd/MTU (GWd) 10700.0 (1086.49 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.184 5.194 37 0.686 0.702 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.409 13.536 38 0.372 0.578 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.651 18.511 39 0.462 0.768 17 48 22 0.756 21.842 40 0.501 0.897 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.790 23.903 41 0.818 1.199 39 38 51 -- -- -- -- -- 51 20 0.819 25.399 42 1.103 1.285 35 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.830 26.195 43 1.359 1.479 33 24 43 -- -- -- 44 -- 14 -- 44 -- -- -- 43 18 0.848 27.167 44 1.159 1.401 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.864 27.929 45 1.263 1.424 39 22 35 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 35 16 0.887 28.454 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.934 28.929 27 -- -- 10 -- 38 -- 0 -- 38 -- 12 -- -- 27 14 0.967 29.350 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.061 29.569 19 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 19 12 1.122 30.842 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.173 31.824 11 -- -- -- 44 -- 10 -- 44 -- -- -- 11 10 1.242 31.848 7 -- -- -- -- -- -- -- -- -- 7 9 1.301 32.741 3 -- -- -- -- -- 3 8 1.359 33.509 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.425 34.276 6 1.491 35.265 5 1.527* 35.642*

4 1.521 35.093 Control Rod Density: % 6.60 3 1.434 33.078 2 1.103 25.877 k-effective: 0.99998 Bottom 1 0.304 7.532 Void Fraction: 0.507 Core Delta-P: psia 19.638 % AXIAL TILT -25.334 -14.346 Core Plate Delta-P: psia 15.086 AVG BOT 8ft/12ft 1.1394 1.0797 Coolant Temp: Deg-F 548.3 In Channel Flow: Mlb/hr 59.02 Active Channel Flow: Mlb/hr 56.84 Total Bypass Flow (%): 12.9 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00040 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.479 43 33 24 1.526 0.904 43 33 24 8.06 0.842 48.9 42 9 34 5 8.81 0.825 53.1 42 9 34 5 1.467 43 29 20 1.532 0.901 43 29 20 8.55 0.842 43.3 42 19 28 7 9.35 0.824 46.5 42 19 28 7 1.461 43 31 26 1.532 0.901 45 39 22 8.49 0.837 43.5 42 27 20 7 8.20 0.823 56.5 42 11 32 5 1.457 43 27 22 1.550 0.890 43 27 22 7.92 0.837 50.1 42 11 32 5 8.43 0.823 55.4 42 11 38 5 1.456 43 37 24 1.559 0.885 43 31 26 8.17 0.836 47.0 42 13 34 5 8.31 0.821 55.9 41 37 14 5 1.455 43 31 22 1.564 0.882 45 31 40 7.81 0.830 50.6 41 37 14 5 9.27 0.819 46.7 42 27 20 7 1.439 43 29 16 1.575 0.876 45 39 26 7.82 0.829 50.3 41 13 16 5 8.28 0.818 55.9 42 37 12 5 1.433 43 29 24 1.577 0.875 43 37 24 7.90 0.828 49.3 42 11 38 5 8.35 0.813 55.3 41 13 38 5 1.429 43 35 26 1.591 0.867 43 31 22 7.84 0.826 49.8 42 33 10 5 8.52 0.812 54.4 42 13 34 5 1.424 45 39 22 1.595 0.865 44 39 18 8.03 0.826 47.5 42 33 14 5 8.02 0.812 56.8 42 21 42 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.29 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 10,700.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-33 Cycle: 23 Core Average Exposure: MWd/MTU 27775.2 Exposure: MWd/MTU (GWd) 11200.0 (1137.26 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.190 5.295 37 0.684 0.701 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.422 13.760 38 0.370 0.576 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.675 18.871 39 0.460 0.766 17 48 22 0.784 22.260 40 0.499 0.894 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.819 24.341 41 0.816 1.197 39 38 51 -- -- -- -- -- 51 20 0.849 25.853 42 1.102 1.283 35 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.861 26.655 43 1.361 1.481 33 24 43 -- -- -- 44 -- 14 -- 44 -- -- -- 43 18 0.878 27.637 44 1.161 1.401 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.894 28.408 45 1.265 1.425 39 22 35 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 35 16 0.916 28.941 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.962 29.427 27 -- -- 10 -- 38 -- 0 -- 38 -- 12 -- -- 27 14 0.993 29.865 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.086 30.088 19 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 19 12 1.144 31.390 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.190 32.394 11 -- -- -- 44 -- 10 -- 44 -- -- -- 11 10 1.252 32.426 7 -- -- -- -- -- -- -- -- -- 7 9 1.302 33.341 3 -- -- -- -- -- 3 8 1.349 34.133 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.401 34.928 6 1.451 35.943 5 1.468* 36.333*

4 1.444 35.777 Control Rod Density: % 6.60 3 1.348 33.719 2 1.036 26.370 k-effective: 1.00012 Bottom 1 0.285 7.678 Void Fraction: 0.500 Core Delta-P: psia 19.541 % AXIAL TILT -22.709 -14.397 Core Plate Delta-P: psia 14.990 AVG BOT 8ft/12ft 1.1263 1.0798 Coolant Temp: Deg-F 548.2 In Channel Flow: Mlb/hr 59.07 Active Channel Flow: Mlb/hr 56.90 Total Bypass Flow (%): 12.8 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00044 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.481 43 33 24 1.518 0.909 43 33 24 8.33 0.827 44.2 42 19 28 7 9.10 0.808 47.4 42 19 28 7 1.470 43 29 20 1.522 0.907 43 29 20 8.26 0.823 44.4 42 27 20 7 7.88 0.808 57.3 42 11 32 5 1.464 43 31 26 1.526 0.905 45 39 22 7.75 0.817 49.8 42 9 34 5 8.08 0.807 56.3 42 11 38 5 1.458 43 37 24 1.542 0.895 43 27 22 7.61 0.812 50.9 42 11 32 5 8.15 0.805 55.9 42 43 34 5 1.458 43 27 22 1.550 0.890 43 31 26 7.83 0.808 47.9 42 13 34 5 7.97 0.805 56.7 41 37 14 5 1.457 43 31 22 1.557 0.886 45 31 40 7.49 0.803 51.4 41 37 14 5 9.02 0.804 47.7 42 27 20 7 1.440 43 29 16 1.565 0.882 45 39 26 7.60 0.803 50.1 42 11 38 5 7.94 0.802 56.7 42 37 12 5 1.437 43 35 26 1.568 0.880 43 37 24 7.50 0.803 51.1 41 13 16 5 8.01 0.798 56.2 41 13 38 5 1.434 43 29 24 1.580 0.874 43 31 22 7.53 0.800 50.6 42 33 10 5 8.17 0.796 55.3 42 13 34 5 1.425 45 39 22 1.580 0.873 43 35 28 7.69 0.798 48.3 42 33 14 5 7.70 0.796 57.6 42 21 42 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.30 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 11,200.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-34 Cycle: 23 Core Average Exposure: MWd/MTU 28275.2 Exposure: MWd/MTU (GWd) 11700.0 (1188.03 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.197 5.398 37 0.683 0.700 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.437 13.991 38 0.369 0.574 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.701 19.244 39 0.459 0.765 17 48 22 0.815 22.694 40 0.498 0.892 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.851 24.795 41 0.815 1.195 39 38 51 -- -- -- -- -- 51 20 0.882 26.324 42 1.101 1.280 35 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.895 27.133 43 1.362 1.482 33 24 43 -- -- -- 44 -- 14 -- 44 -- -- -- 43 18 0.913 28.124 44 1.164 1.402 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.928 28.904 45 1.268 1.426 39 22 35 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 35 16 0.948 29.444 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.993 29.941 27 -- -- 10 -- 38 -- 0 -- 38 -- 12 -- -- 27 14 1.023 30.395 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.115 30.619 19 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 19 12 1.169 31.948 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.209 32.973 11 -- -- -- 44 -- 10 -- 44 -- -- -- 11 10 1.263 33.008 7 -- -- -- -- -- -- -- -- -- 7 9 1.303 33.941 3 -- -- -- -- -- 3 8 1.338 34.752 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.374 35.567 6 1.407* 36.602 5 1.403 36.994*

4 1.358 36.422 Control Rod Density: % 6.60 3 1.254 34.318 2 0.962 26.830 k-effective: 1.00026 Bottom 1 0.264 7.814 Void Fraction: 0.492 Core Delta-P: psia 19.434 % AXIAL TILT -19.774 -14.395 Core Plate Delta-P: psia 14.884 AVG BOT 8ft/12ft 1.1117 1.0798 Coolant Temp: Deg-F 548.1 In Channel Flow: Mlb/hr 59.11 Active Channel Flow: Mlb/hr 56.96 Total Bypass Flow (%): 12.8 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00042 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.482 43 33 24 1.510 0.914 43 33 24 8.08 0.809 45.0 42 19 28 7 8.90 0.792 47.5 42 19 28 8 1.472 43 29 20 1.513 0.912 43 29 20 8.01 0.805 45.3 42 27 20 7 7.52 0.788 58.1 42 11 32 5 1.465 43 31 26 1.519 0.908 45 39 22 7.40 0.787 50.6 42 9 34 5 7.71 0.787 57.1 42 11 38 5 1.460 43 37 24 1.535 0.899 43 27 22 7.27 0.783 51.7 42 11 32 5 8.82 0.787 47.9 42 27 20 8 1.458 43 27 22 1.542 0.895 43 31 26 7.47 0.778 48.7 42 13 34 5 7.77 0.785 56.7 42 43 34 5 1.457 43 31 22 1.551 0.890 45 31 40 7.26 0.775 50.9 42 11 38 5 7.60 0.785 57.6 41 37 14 5 1.444 43 35 26 1.555 0.887 45 39 26 7.14 0.773 52.2 41 37 14 5 7.57 0.781 57.6 42 37 12 5 1.442 43 29 16 1.559 0.885 43 37 24 7.16 0.772 51.9 41 13 16 5 7.65 0.778 57.0 41 13 38 5 1.434 43 29 24 1.565 0.882 43 35 28 7.18 0.770 51.4 42 33 10 5 7.80 0.775 56.1 42 13 34 5 1.429 43 27 18 1.570 0.879 43 31 22 7.21 0.766 50.5 42 37 12 5 7.34 0.775 58.4 42 21 42 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.31 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 11,700.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-35 Cycle: 23 Core Average Exposure: MWd/MTU 28675.2 Exposure: MWd/MTU (GWd) 12100.0 (1228.64 )

Delta E: MWd/MTU, (GWd) 400.0 ( 40.62 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.202 5.484 37 0.682 0.700 3 24 Inlet Subcooling: Btu/lbm -24.63 24 0.448 14.181 38 0.367 0.573 15 6 Flow: Mlb/hr 67.76 ( 88.00 %) 23 0.722 19.553 39 0.458 0.764 17 48 22 0.840 23.054 40 0.496 0.890 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.877 25.172 41 0.814 1.193 39 38 51 -- -- -- -- -- 51 20 0.910 26.714 42 1.099 1.278 35 24 47 -- -- -- -- -- -- -- -- -- 47 19 0.923 27.529 43 1.362 1.481 33 24 43 -- -- -- 44 -- 14 -- 44 -- -- -- 43 18 0.942 28.528 44 1.166 1.402 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.957 29.315 45 1.270 1.426 39 22 35 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 35 16 0.976 29.859 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.020 30.364 27 -- -- 10 -- 38 -- 0 -- 38 -- 12 -- -- 27 14 1.047 30.830 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.138 31.054 19 -- -- 44 -- 6 -- 38 -- 6 -- 44 -- -- 19 12 1.190 32.404 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.224 33.443 11 -- -- -- 44 -- 10 -- 44 -- -- -- 11 10 1.271 33.477 7 -- -- -- -- -- -- -- -- -- 7 9 1.303 34.422 3 -- -- -- -- -- 3 8 1.327 35.243 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.350 36.070 6 1.368* 37.113 5 1.348 37.501*

4 1.289 36.910 Control Rod Density: % 6.60 3 1.178 34.766 2 0.902 27.173 k-effective: 1.00036 Bottom 1 0.247 7.916 Void Fraction: 0.485 Core Delta-P: psia 19.346 % AXIAL TILT -17.314 -14.355 Core Plate Delta-P: psia 14.797 AVG BOT 8ft/12ft 1.0996 1.0795 Coolant Temp: Deg-F 548.0 In Channel Flow: Mlb/hr 59.15 Active Channel Flow: Mlb/hr 57.01 Total Bypass Flow (%): 12.7 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00031 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.481 43 33 24 1.506 0.916 43 33 24 7.99 0.800 44.9 42 19 28 8 8.73 0.781 48.3 42 19 28 8 1.471 43 29 20 1.507 0.916 43 29 20 7.88 0.791 45.2 42 27 20 8 8.60 0.772 48.6 42 27 20 8 1.464 43 31 26 1.516 0.910 45 39 22 7.11 0.761 51.2 42 9 34 5 7.22 0.769 58.7 42 11 32 5 1.460 43 37 24 1.529 0.902 43 27 22 6.99 0.757 52.3 42 11 32 5 7.40 0.768 57.8 42 11 38 5 1.457 43 27 22 1.537 0.898 43 31 26 7.16 0.751 49.3 42 13 34 5 7.30 0.766 58.2 41 37 14 5 1.456 43 31 22 1.546 0.893 45 31 40 6.99 0.750 51.5 42 11 38 5 7.46 0.766 57.4 42 43 34 5 1.448 43 35 26 1.547 0.892 45 39 26 7.53 0.749 44.4 42 17 30 8 7.27 0.763 58.2 42 37 12 5 1.442 43 29 16 1.554 0.888 43 37 24 6.85 0.746 52.8 41 37 14 5 7.35 0.759 57.6 41 13 38 5 1.433 43 27 18 1.555 0.887 43 35 28 6.87 0.746 52.5 41 13 16 5 7.49 0.756 56.8 42 13 34 5 1.432 43 29 24 1.565 0.882 43 31 22 7.39 0.745 45.6 42 15 28 8 7.05 0.755 59.0 42 21 42 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.32 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 12,100.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-36 Cycle: 23 Core Average Exposure: MWd/MTU 28676.2 Exposure: MWd/MTU (GWd) 12101.0 (1228.74 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.176 5.484 37 0.701 0.727 3 24 Inlet Subcooling: Btu/lbm -24.32 24 0.393 14.182 38 0.377 0.592 15 6 Flow: Mlb/hr 68.53 ( 89.00 %) 23 0.630 19.554 39 0.469 0.785 17 48 22 0.731 23.055 40 0.509 0.908 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.762 25.172 41 0.843 1.228 15 14 51 -- -- -- -- -- 51 20 0.794 26.715 42 1.058 1.279 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.818 27.530 43 1.241 1.463 35 18 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.851 28.529 44 1.227 1.458 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.882 29.316 45 1.339 1.478 29 12 35 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 35 16 0.914 29.860 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 0.968 30.365 27 -- -- -- 0 -- 6 -- 8 -- 0 -- -- -- 27 14 1.004 30.831 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.101 31.055 19 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 19 12 1.159 32.405 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.199 33.444 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.253 33.478 7 -- -- -- -- -- -- -- -- -- 7 9 1.292 34.423 3 -- -- -- -- -- 3 8 1.328 35.244 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.372 36.071 6 1.424 37.115 5 1.464 37.503*

4 1.477* 36.912 Control Rod Density: % 5.26 3 1.448 34.768 2 1.209 27.174 k-effective: 1.00037 Bottom 1 0.350 7.916 Void Fraction: 0.506 Core Delta-P: psia 19.935 % AXIAL TILT -25.322 -14.355 Core Plate Delta-P: psia 15.389 AVG BOT 8ft/12ft 1.1459 1.0795 Coolant Temp: Deg-F 548.3 In Channel Flow: Mlb/hr 59.71 Active Channel Flow: Mlb/hr 57.51 Total Bypass Flow (%): 12.9 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00034 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.478 45 29 12 1.493 0.924 45 27 10 8.18 0.871 50.8 42 27 42 4 8.24 0.864 58.2 42 25 12 5 1.469 45 27 10 1.522 0.907 45 29 12 7.92 0.837 50.0 42 31 42 4 8.15 0.848 57.9 42 21 12 5 1.463 43 35 18 1.528 0.903 44 35 14 7.50 0.813 52.3 42 11 32 5 10.90 0.845 27.6 45 27 44 3 1.460 43 37 16 1.532 0.901 44 39 18 9.53 0.808 22.7 45 27 10 3 10.64 0.824 27.6 45 29 44 3 1.458 44 35 14 1.544 0.894 45 29 10 7.71 0.808 49.3 42 13 34 5 10.51 0.823 28.7 45 29 12 3 1.458 44 39 18 1.566 0.881 45 27 14 7.40 0.806 52.8 41 37 14 5 7.66 0.816 58.7 42 11 32 5 1.453 43 37 20 1.568 0.880 45 31 14 7.40 0.804 52.5 41 13 16 5 7.77 0.816 58.2 41 37 14 5 1.446 45 33 12 1.576 0.876 45 33 12 7.60 0.801 49.7 42 33 14 5 10.47 0.815 28.2 44 27 46 3 1.445 45 29 10 1.578 0.875 43 35 18 7.45 0.799 51.3 42 29 14 5 7.84 0.814 57.8 42 11 38 5 1.444 45 31 14 1.579 0.874 45 39 22 7.32 0.797 52.7 42 33 44 5 7.95 0.812 57.1 42 29 14 5

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.33 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 12,101.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-37 Cycle: 23 Core Average Exposure: MWd/MTU 29175.1 Exposure: MWd/MTU (GWd) 12600.0 (1279.41 )

Delta E: MWd/MTU, (GWd) 499.0 ( 50.67 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.185 5.581 37 0.700 0.726 3 24 Inlet Subcooling: Btu/lbm -24.17 24 0.412 14.398 38 0.376 0.591 15 6 Flow: Mlb/hr 68.92 ( 89.50 %) 23 0.664 19.904 39 0.468 0.784 17 48 22 0.772 23.462 40 0.508 0.906 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.804 25.598 41 0.842 1.226 15 14 51 -- -- -- -- -- 51 20 0.838 27.158 42 1.058 1.275 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.865 27.987 43 1.243 1.460 35 18 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.899 29.005 44 1.229 1.457 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.930 29.808 45 1.339 1.476 29 12 35 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 35 16 0.961 30.365 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.013 30.885 27 -- -- -- 0 -- 6 -- 8 -- 0 -- -- -- 27 14 1.047 31.369 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.143 31.596 19 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 19 12 1.195 32.972 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.227 34.028 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.270 34.060 7 -- -- -- -- -- -- -- -- -- 7 9 1.296 35.018 3 -- -- -- -- -- 3 8 1.315 35.852 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.338 36.694 6 1.366 37.756 5 1.379* 38.157*

4 1.363 37.565 Control Rod Density: % 5.26 3 1.314 35.403 2 1.089 27.702 k-effective: 1.00043 Bottom 1 0.313 8.080 Void Fraction: 0.495 Core Delta-P: psia 19.939 % AXIAL TILT -21.282 -14.390 Core Plate Delta-P: psia 15.394 AVG BOT 8ft/12ft 1.1262 1.0797 Coolant Temp: Deg-F 548.2 In Channel Flow: Mlb/hr 60.12 Active Channel Flow: Mlb/hr 57.93 Total Bypass Flow (%): 12.8 (of total core flow)

Total Water Rod Flow (%): 3.2 (of total core flow)

Source Convergence 0.00048 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.476 45 29 12 1.486 0.929 45 27 10 7.54 0.819 52.4 42 25 42 5 7.74 0.831 59.0 42 25 12 5 1.467 45 27 10 1.514 0.911 45 29 12 7.28 0.789 52.3 42 31 12 5 7.65 0.814 58.7 42 21 12 5 1.460 43 35 18 1.521 0.907 44 35 14 7.09 0.775 53.1 42 11 32 5 7.24 0.788 59.5 42 11 32 5 1.457 43 37 16 1.525 0.905 44 39 18 7.26 0.768 50.1 42 13 34 5 7.33 0.786 59.0 41 37 14 5 1.457 44 35 14 1.537 0.898 45 29 10 6.97 0.766 53.5 41 37 14 5 7.39 0.784 58.6 42 11 38 5 1.457 44 39 18 1.556 0.887 45 27 14 6.97 0.764 53.3 41 13 16 5 7.05 0.782 60.2 41 31 46 5 1.450 43 37 20 1.560 0.885 45 31 14 7.14 0.759 50.5 42 33 14 5 7.28 0.781 59.0 42 37 12 5 1.445 45 33 12 1.566 0.881 45 33 12 6.91 0.758 53.4 42 33 44 5 7.48 0.779 57.9 42 29 14 5 1.444 45 29 10 1.569 0.880 45 39 22 7.01 0.757 51.9 42 9 34 5 7.51 0.779 57.8 42 33 44 5 1.443 45 31 14 1.571 0.878 45 31 10 7.00 0.757 52.1 42 29 14 5 9.79 0.778 30.6 45 27 44 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.34 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 12,600.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-38 Cycle: 23 Core Average Exposure: MWd/MTU 29675.2 Exposure: MWd/MTU (GWd) 13100.0 (1330.18 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.193 5.682 37 0.699 0.726 3 24 Inlet Subcooling: Btu/lbm -23.96 24 0.430 14.625 38 0.375 0.591 15 6 Flow: Mlb/hr 69.45 ( 90.20 %) 23 0.694 20.273 39 0.467 0.784 17 48 22 0.809 23.891 40 0.506 0.905 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.843 26.046 41 0.842 1.226 15 14 51 -- -- -- -- -- 51 20 0.880 27.626 42 1.057 1.271 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.907 28.470 43 1.243 1.456 35 18 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.943 29.506 44 1.231 1.456 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 0.974 30.326 45 1.340 1.476 29 12 35 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 35 16 1.004 30.895 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.055 31.428 27 -- -- -- 0 -- 6 -- 8 -- 0 -- -- -- 27 14 1.086 31.930 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.180 32.156 19 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 19 12 1.227 33.557 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.250 34.626 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.283 34.651 7 -- -- -- -- -- -- -- -- -- 7 9 1.297 35.616 3 -- -- -- -- -- 3 8 1.300 36.455 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.304 37.303 6 1.312* 38.373 5 1.301 38.774*

4 1.262 38.170 Control Rod Density: % 5.26 3 1.198 35.981 2 0.986 28.180 k-effective: 1.00053 Bottom 1 0.283 8.228 Void Fraction: 0.483 Core Delta-P: psia 20.022 % AXIAL TILT -17.572 -14.357 Core Plate Delta-P: psia 15.478 AVG BOT 8ft/12ft 1.1082 1.0796 Coolant Temp: Deg-F 548.1 In Channel Flow: Mlb/hr 60.66 Active Channel Flow: Mlb/hr 58.48 Total Bypass Flow (%): 12.7 (of total core flow)

Total Water Rod Flow (%): 3.1 (of total core flow)

Source Convergence 0.00040 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.476 45 29 12 1.480 0.933 45 27 10 7.13 0.781 53.2 42 25 42 5 7.34 0.804 59.8 42 25 12 5 1.468 45 27 10 1.508 0.915 45 29 12 6.86 0.755 53.7 42 21 42 6 7.35 0.786 58.9 42 21 12 6 1.456 44 35 14 1.517 0.910 44 35 14 6.68 0.740 54.3 42 11 32 6 7.04 0.764 59.5 42 37 12 6 1.456 43 35 18 1.525 0.905 44 39 18 6.72 0.738 53.5 41 37 14 6 6.91 0.764 60.1 42 11 32 6 1.455 44 39 18 1.531 0.902 45 29 10 6.71 0.736 53.3 41 13 16 6 7.13 0.761 58.8 41 37 14 6 1.454 43 37 16 1.549 0.891 45 27 14 6.89 0.734 50.8 42 13 34 6 7.18 0.758 58.4 42 11 38 6 1.446 43 37 20 1.558 0.885 45 31 14 6.63 0.727 53.4 42 33 44 6 6.68 0.757 61.0 41 31 46 5 1.446 45 29 10 1.560 0.885 45 33 12 6.73 0.727 52.1 42 29 14 6 7.04 0.754 59.0 42 19 44 6 1.445 45 33 12 1.565 0.882 45 31 10 6.69 0.727 52.4 42 19 40 6 7.07 0.751 58.7 42 29 14 5 1.443 45 31 14 1.566 0.881 45 35 12 6.69 0.725 52.3 42 9 34 6 7.16 0.751 58.2 41 13 38 6

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.35 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 13,100.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-39 Cycle: 23 Core Average Exposure: MWd/MTU 30175.1 Exposure: MWd/MTU (GWd) 13600.0 (1380.95 )

Delta E: MWd/MTU, (GWd) 500.0 ( 50.77 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.201 5.788 37 0.699 0.727 3 24 Inlet Subcooling: Btu/lbm -23.87 24 0.447 14.861 38 0.374 0.590 15 6 Flow: Mlb/hr 69.68 ( 90.50 %) 23 0.725 20.658 39 0.466 0.785 17 48 22 0.846 24.340 40 0.506 0.905 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.883 26.516 41 0.842 1.225 15 14 51 -- -- -- -- -- 51 20 0.922 28.116 42 1.056 1.267 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.952 28.976 43 1.242 1.451 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 0.989 30.032 44 1.234 1.455 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.020 30.869 45 1.342 1.477 29 12 35 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 35 16 1.047 31.448 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.096 31.994 27 -- -- -- 0 -- 6 -- 8 -- 0 -- -- -- 27 14 1.124 32.511 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.215 32.734 19 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 19 12 1.256 34.156 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.269 35.234 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.291 35.247 7 -- -- -- -- -- -- -- -- -- 7 9 1.293* 36.213 3 -- -- -- -- -- 3 8 1.281 37.050 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.267 37.896 6 1.255 38.965 5 1.223 39.356*

4 1.165 38.729 Control Rod Density: % 5.26 3 1.089 36.508 2 0.889 28.611 k-effective: 1.00054 Bottom 1 0.255 8.361 Void Fraction: 0.473 Core Delta-P: psia 19.981 % AXIAL TILT -13.792 -14.262 Core Plate Delta-P: psia 15.438 AVG BOT 8ft/12ft 1.0897 1.0792 Coolant Temp: Deg-F 548.0 In Channel Flow: Mlb/hr 60.93 Active Channel Flow: Mlb/hr 58.75 Total Bypass Flow (%): 12.6 (of total core flow)

Total Water Rod Flow (%): 3.1 (of total core flow)

Source Convergence 0.00046 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.477 45 29 12 1.470 0.939 45 27 10 6.89 0.754 53.2 42 25 42 6 7.12 0.778 59.7 42 25 12 6 1.471 45 27 10 1.500 0.920 45 29 12 6.73 0.733 52.7 42 31 12 8 7.03 0.768 59.7 42 21 12 6 1.455 44 35 14 1.510 0.914 44 35 14 6.80 0.722 50.4 41 37 14 9 6.74 0.747 60.2 42 37 12 6 1.453 44 39 18 1.521 0.907 44 39 18 6.77 0.716 50.2 41 13 16 9 6.62 0.747 60.8 42 11 32 6 1.451 43 37 16 1.521 0.907 45 29 10 6.40 0.715 54.9 42 11 32 6 7.29 0.746 57.3 41 37 14 10 1.451 43 35 18 1.539 0.897 45 27 14 6.85 0.715 48.8 42 33 14 9 6.88 0.741 59.2 42 11 38 6 1.449 45 29 10 1.550 0.890 45 33 12 6.79 0.713 49.4 42 13 34 9 6.52 0.740 61.0 41 31 46 6 1.445 45 33 12 1.554 0.888 45 31 14 6.82 0.710 48.6 42 29 14 9 6.76 0.739 59.7 42 19 44 6 1.443 45 27 14 1.556 0.887 45 31 10 6.36 0.704 54.1 42 33 44 6 6.85 0.734 59.0 41 13 38 6 1.442 45 31 14 1.556 0.887 45 35 12 7.22 0.703 42.2 42 35 16 14 6.90 0.731 58.5 42 29 14 6

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.36 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 13,600.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-40 Cycle: 23 Core Average Exposure: MWd/MTU 30575.1 Exposure: MWd/MTU (GWd) 14000.0 (1421.57 )

Delta E: MWd/MTU, (GWd) 400.0 ( 40.62 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.207 5.876 37 0.699 0.728 3 24 Inlet Subcooling: Btu/lbm -23.72 24 0.459 15.056 38 0.374 0.590 15 6 Flow: Mlb/hr 70.07 ( 91.00 %) 23 0.747 20.978 39 0.466 0.785 17 48 22 0.873 24.713 40 0.505 0.905 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.912 26.907 41 0.842 1.224 15 14 51 -- -- -- -- -- 51 20 0.954 28.525 42 1.054 1.262 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 0.985 29.398 43 1.239 1.448 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.024 30.470 44 1.237 1.454 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.055 31.321 45 1.344 1.478 29 12 35 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 35 16 1.081 31.907 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.128 32.462 27 -- -- -- 0 -- 6 -- 8 -- 0 -- -- -- 27 14 1.152 32.990 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.240 33.208 19 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 19 12 1.276 34.645 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.280 35.726 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.294* 35.725 7 -- -- -- -- -- -- -- -- -- 7 9 1.287 36.688 3 -- -- -- -- -- 3 8 1.264 37.519 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.238 38.358 6 1.213 39.420 5 1.166 39.797*

4 1.096 39.146 Control Rod Density: % 5.26 3 1.011 36.895 2 0.821 28.926 k-effective: 1.00050 Bottom 1 0.235 8.458 Void Fraction: 0.464 Core Delta-P: psia 20.039 % AXIAL TILT -10.966 -14.144 Core Plate Delta-P: psia 15.496 AVG BOT 8ft/12ft 1.0760 1.0787 Coolant Temp: Deg-F 547.9 In Channel Flow: Mlb/hr 61.31 Active Channel Flow: Mlb/hr 59.15 Total Bypass Flow (%): 12.5 (of total core flow)

Total Water Rod Flow (%): 3.1 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.478 45 29 12 1.465 0.942 45 27 10 7.12 0.747 49.3 42 25 12 9 6.89 0.766 60.3 42 25 12 6 1.474 45 27 10 1.496 0.923 45 29 12 6.79 0.733 51.9 42 31 12 9 7.26 0.755 57.9 41 37 14 10 1.454 44 35 14 1.509 0.914 44 35 14 7.15 0.724 46.1 41 37 14 14 6.79 0.754 60.3 42 21 12 6 1.452 45 29 10 1.517 0.909 45 29 10 7.35 0.720 42.8 42 35 16 14 7.20 0.742 57.6 41 13 16 10 1.451 44 39 18 1.520 0.908 44 39 18 7.16 0.718 45.1 42 33 14 14 6.42 0.735 61.3 42 11 32 6 1.448 43 37 16 1.533 0.900 45 27 14 7.15 0.717 45.1 41 39 16 14 6.51 0.734 60.8 42 37 12 6 1.446 45 33 12 1.546 0.893 45 33 12 7.47 0.717 40.8 42 37 18 14 6.32 0.729 61.6 41 31 46 6 1.446 43 35 18 1.550 0.890 45 21 14 7.05 0.712 45.9 42 39 20 14 6.65 0.729 59.8 42 11 38 6 1.443 45 27 14 1.551 0.890 45 35 12 6.77 0.709 49.2 42 29 14 9 6.55 0.727 60.2 42 19 44 6 1.442 45 31 14 1.552 0.889 45 31 10 6.61 0.708 51.3 42 11 32 9 6.88 0.721 58.2 42 13 34 8

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.37 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 14,000.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-41 Cycle: 23 Core Average Exposure: MWd/MTU 30975.1 Exposure: MWd/MTU (GWd) 14400.0 (1462.19 )

Delta E: MWd/MTU, (GWd) 400.0 ( 40.62 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.213 5.966 37 0.699 0.729 3 24 Inlet Subcooling: Btu/lbm -23.43 24 0.474 15.257 38 0.373 0.590 15 6 Flow: Mlb/hr 70.84 ( 92.00 %) 23 0.773 21.308 39 0.466 0.786 17 48 22 0.904 25.099 40 0.505 0.906 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.946 27.312 41 0.843 1.224 15 14 51 -- -- -- -- -- 51 20 0.991 28.948 42 1.052 1.258 37 18 47 -- -- -- -- -- -- -- -- -- 47 19 1.023 29.835 43 1.236 1.444 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.063 30.925 44 1.241 1.453 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.093 31.789 45 1.347 1.480 29 12 35 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 35 16 1.117 32.381 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.162 32.943 27 -- -- -- 0 -- 6 -- 8 -- 0 -- -- -- 27 14 1.181 33.481 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.265 33.692 19 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 19 12 1.293 35.141 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.288 36.222 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.294* 36.204 7 -- -- -- -- -- -- -- -- -- 7 9 1.277 37.161 3 -- -- -- -- -- 3 8 1.242 37.981 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.205 38.808 6 1.167 39.859 5 1.106 40.216*

4 1.023 39.537 Control Rod Density: % 5.26 3 0.932 37.253 2 0.752 29.216 k-effective: 1.00055 Bottom 1 0.215 8.548 Void Fraction: 0.454 Core Delta-P: psia 20.243 % AXIAL TILT -7.818 -13.990 Core Plate Delta-P: psia 15.700 AVG BOT 8ft/12ft 1.0602 1.0780 Coolant Temp: Deg-F 547.8 In Channel Flow: Mlb/hr 62.05 Active Channel Flow: Mlb/hr 59.88 Total Bypass Flow (%): 12.4 (of total core flow)

Total Water Rod Flow (%): 3.1 (of total core flow)

Source Convergence 0.00044 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.480 45 29 12 1.463 0.944 45 27 10 7.07 0.746 49.9 42 25 12 9 7.21 0.763 58.5 41 37 14 10 1.478 45 27 10 1.494 0.923 45 29 12 7.29 0.744 46.7 41 37 14 14 6.66 0.752 60.8 42 25 12 6 1.456 45 29 10 1.513 0.912 44 35 14 7.31 0.738 45.8 42 33 14 14 7.16 0.750 58.1 41 13 16 10 1.453 44 35 14 1.515 0.911 45 29 10 7.47 0.737 43.5 42 35 16 14 7.04 0.741 58.3 42 31 12 8 1.449 44 39 18 1.525 0.905 44 39 18 7.29 0.736 45.7 41 39 16 14 8.29 0.734 47.0 42 35 16 15 1.448 45 33 12 1.531 0.901 45 27 14 7.17 0.736 47.3 42 31 12 14 8.23 0.731 47.3 42 37 36 15 1.444 43 37 16 1.544 0.894 45 31 10 7.59 0.733 41.4 42 37 18 14 8.09 0.730 49.3 42 33 14 15 1.444 45 27 14 1.545 0.893 45 33 12 7.19 0.731 46.5 42 39 20 14 7.08 0.727 57.4 41 31 8 10 1.442 45 31 14 1.548 0.891 45 21 14 7.20 0.721 44.9 42 29 14 14 8.18 0.727 47.5 42 35 20 15 1.440 43 35 18 1.549 0.891 45 35 12 7.31 0.719 43.2 42 35 20 15 7.96 0.725 50.2 42 39 20 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.38 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 14,400.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-42 Cycle: 23 Core Average Exposure: MWd/MTU 31425.2 Exposure: MWd/MTU (GWd) 14850.0 (1507.88 )

Delta E: MWd/MTU, (GWd) 450.0 ( 45.69 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.220 6.070 37 0.699 0.730 3 24 Inlet Subcooling: Btu/lbm -23.01 24 0.488 15.490 38 0.373 0.590 15 6 Flow: Mlb/hr 72.00 ( 93.50 %) 23 0.800 21.692 39 0.466 0.787 17 48 22 0.936 25.548 40 0.505 0.908 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.983 27.785 41 0.844 1.223 15 14 51 -- -- -- -- -- 51 20 1.030 29.443 42 1.050 1.256 25 12 47 -- -- -- -- -- -- -- -- -- 47 19 1.064 30.347 43 1.232 1.439 37 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.105 31.456 44 1.246 1.451 35 14 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.135 32.335 45 1.351 1.483 27 10 35 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 35 16 1.156 32.933 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.197 33.501 27 -- -- -- 0 -- 6 -- 8 -- 0 -- -- -- 27 14 1.211 34.047 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.290 34.247 19 -- -- -- -- -- 6 -- 6 -- -- -- -- -- 19 12 1.310* 35.707 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.294 36.783 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.292 36.743 7 -- -- -- -- -- -- -- -- -- 7 9 1.265 37.688 3 -- -- -- -- -- 3 8 1.219 38.491 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.169 39.301 6 1.116 40.332 5 1.042 40.661*

4 0.948 39.946 Control Rod Density: % 5.26 3 0.852 37.623 2 0.683 29.513 k-effective: 1.00053 Bottom 1 0.195 8.639 Void Fraction: 0.443 Core Delta-P: psia 20.599 % AXIAL TILT -4.463 -13.774 Core Plate Delta-P: psia 16.056 AVG BOT 8ft/12ft 1.0435 1.0770 Coolant Temp: Deg-F 547.7 In Channel Flow: Mlb/hr 63.13 Active Channel Flow: Mlb/hr 60.95 Total Bypass Flow (%): 12.3 (of total core flow)

Total Water Rod Flow (%): 3.0 (of total core flow)

Source Convergence 0.00039 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.483 45 27 10 1.464 0.943 45 27 10 7.42 0.763 47.4 41 37 14 14 8.35 0.771 51.7 41 37 14 15 1.482 45 29 12 1.499 0.921 45 29 12 7.55 0.762 45.6 42 25 12 14 8.22 0.759 51.7 41 39 16 15 1.461 45 29 10 1.510 0.914 45 29 10 7.35 0.760 48.0 42 31 12 14 8.30 0.757 50.4 42 27 12 14 1.451 44 35 14 1.521 0.907 44 35 14 7.45 0.758 46.5 42 33 14 14 8.46 0.755 47.8 42 35 16 15 1.448 45 33 12 1.533 0.900 45 27 14 7.66 0.756 43.6 42 35 16 15 8.29 0.754 50.1 42 33 14 15 1.446 44 39 18 1.536 0.899 44 39 18 7.43 0.755 46.4 41 39 16 14 8.12 0.753 52.1 42 31 12 15 1.444 45 27 14 1.540 0.896 45 31 10 7.78 0.752 41.6 42 37 18 15 8.42 0.752 48.1 42 37 36 15 1.440 45 31 14 1.549 0.891 45 19 12 7.32 0.750 47.1 42 39 20 14 8.16 0.748 50.9 42 39 20 15 1.439 43 37 16 1.550 0.890 45 21 14 7.36 0.742 45.6 42 29 14 14 8.27 0.748 49.3 42 29 14 15 1.436 45 31 10 1.551 0.890 45 35 12 7.45 0.737 43.9 42 35 20 15 8.33 0.745 48.2 42 35 20 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.39 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 14,850.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-43 Cycle: 23 Core Average Exposure: MWd/MTU 31426.1 Exposure: MWd/MTU (GWd) 14851.0 (1507.98 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.219 6.070 37 0.681 0.717 3 24 Inlet Subcooling: Btu/lbm -22.74 24 0.487 15.490 38 0.358 0.565 15 6 Flow: Mlb/hr 72.76 ( 94.50 %) 23 0.797 21.693 39 0.444 0.751 17 48 22 0.932 25.549 40 0.486 0.879 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 0.978 27.786 41 0.813 1.183 15 14 51 -- -- -- -- -- 51 20 1.028 29.444 42 1.085 1.310 23 26 47 -- -- -- -- -- -- -- -- -- 47 19 1.064 30.348 43 1.390 1.556 31 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.105 31.457 44 1.196 1.372 39 36 39 -- -- -- -- 6 -- 6 -- -- -- -- 39 17 1.136 32.336 45 1.260 1.361 27 10 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.156 32.934 31 -- -- -- 0 -- -- -- -- -- 6 -- -- -- 31 15 1.197 33.502 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.210 34.048 23 -- -- -- 6 -- -- -- -- -- 0 -- -- -- 23 13 1.288 34.249 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.307* 35.708 15 -- -- -- -- 6 -- 6 -- -- -- -- 15 11 1.291 36.784 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.288 36.744 7 -- -- -- -- -- -- -- -- -- 7 9 1.261 37.689 3 -- -- -- -- -- 3 8 1.216 38.492 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.169 39.302 6 1.119 40.333 5 1.047 40.662*

4 0.956 39.947 Control Rod Density: % 5.29 3 0.861 37.624 2 0.691 29.514 k-effective: 1.00058 Bottom 1 0.198 8.639 Void Fraction: 0.441 Core Delta-P: psia 20.938 % AXIAL TILT -4.622 -13.774 Core Plate Delta-P: psia 16.395 AVG BOT 8ft/12ft 1.0445 1.0770 Coolant Temp: Deg-F 547.7 In Channel Flow: Mlb/hr 63.81 Active Channel Flow: Mlb/hr 61.61 Total Bypass Flow (%): 12.3 (of total core flow)

Total Water Rod Flow (%): 3.0 (of total core flow)

Source Convergence 0.00046 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.556 43 31 26 1.455 0.948 43 21 28 8.28 0.826 44.7 42 29 26 15 9.04 0.815 49.1 42 29 28 15 1.551 43 29 24 1.467 0.941 43 27 28 8.14 0.825 46.2 42 27 26 15 8.88 0.806 49.9 42 25 24 15 1.551 43 25 26 1.476 0.935 43 29 30 8.15 0.820 45.5 42 27 24 15 8.97 0.804 48.4 42 29 22 15 1.542 43 27 22 1.484 0.930 43 29 20 8.09 0.803 44.1 42 31 24 15 8.80 0.802 50.3 42 27 26 15 1.524 43 31 22 1.485 0.929 43 27 22 8.08 0.802 44.2 42 29 22 15 8.94 0.800 48.4 42 31 24 15 1.507 43 29 20 1.514 0.912 43 31 22 7.90 0.781 43.7 42 33 26 15 8.75 0.780 47.9 42 27 20 15 1.483 43 33 24 1.533 0.900 43 19 30 7.89 0.780 43.8 42 27 20 15 8.72 0.777 47.9 42 33 26 15 1.464 43 33 20 1.565 0.882 43 19 20 7.90 0.776 43.1 42 31 20 15 8.69 0.776 48.1 42 21 20 15 1.421 43 17 18 1.599 0.863 43 31 18 7.86 0.773 43.3 42 33 22 15 8.71 0.774 47.4 42 33 22 15 1.416 43 27 18 1.612 0.856 43 27 18 7.52 0.745 43.9 42 35 20 15 8.47 0.755 47.9 42 35 20 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.40 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 14,851.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-44 Cycle: 23 Core Average Exposure: MWd/MTU 31775.2 Exposure: MWd/MTU (GWd) 15200.0 (1543.42 )

Delta E: MWd/MTU, (GWd) 349.0 ( 35.44 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.225 6.154 37 0.683 0.720 3 24 Inlet Subcooling: Btu/lbm -22.21 24 0.501 15.676 38 0.359 0.566 15 6 Flow: Mlb/hr 74.31 ( 96.50 %) 23 0.822 22.000 39 0.445 0.755 17 48 22 0.962 25.908 40 0.488 0.883 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.010 28.163 41 0.816 1.185 15 14 51 -- -- -- -- -- 51 20 1.062 29.841 42 1.081 1.287 23 26 47 -- -- -- -- -- -- -- -- -- 47 19 1.098 30.759 43 1.379 1.532 21 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.139 31.884 44 1.203 1.374 17 14 39 -- -- -- -- 6 -- 6 -- -- -- -- 39 17 1.168 32.774 45 1.266 1.370 27 10 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.185 33.375 31 -- -- -- 0 -- -- -- -- -- 6 -- -- -- 31 15 1.223 33.946 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.231 34.496 23 -- -- -- 6 -- -- -- -- -- 0 -- -- -- 23 13 1.304 34.685 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.317* 36.150 15 -- -- -- -- 6 -- 6 -- -- -- -- 15 11 1.293 37.219 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.284 37.159 7 -- -- -- -- -- -- -- -- -- 7 9 1.249 38.093 3 -- -- -- -- -- 3 8 1.196 38.880 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.140 39.673 6 1.078 40.687 5 0.997 40.991*

4 0.897 40.245 Control Rod Density: % 5.29 3 0.799 37.891 2 0.638 29.728 k-effective: 1.00053 Bottom 1 0.183 8.705 Void Fraction: 0.432 Core Delta-P: psia 21.478 % AXIAL TILT -1.866 -13.578 Core Plate Delta-P: psia 16.935 AVG BOT 8ft/12ft 1.0300 1.0761 Coolant Temp: Deg-F 547.7 In Channel Flow: Mlb/hr 65.23 Active Channel Flow: Mlb/hr 63.01 Total Bypass Flow (%): 12.2 (of total core flow)

Total Water Rod Flow (%): 3.0 (of total core flow)

Source Convergence 0.00042 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.532 43 21 26 1.495 0.923 43 21 28 8.26 0.829 45.3 42 29 26 15 9.02 0.818 49.8 42 29 28 15 1.525 43 29 24 1.512 0.913 43 27 28 8.10 0.827 46.8 42 27 26 15 8.86 0.810 50.6 42 25 24 15 1.523 43 25 26 1.513 0.912 43 29 30 8.13 0.824 46.1 42 27 24 15 8.97 0.809 49.0 42 29 22 15 1.518 43 27 22 1.519 0.908 43 29 20 8.10 0.809 44.7 42 31 24 15 8.94 0.806 49.0 42 31 24 15 1.504 43 31 22 1.521 0.907 43 27 22 8.09 0.809 44.8 42 29 22 15 8.76 0.804 51.0 42 27 26 15 1.489 43 29 20 1.551 0.890 43 21 22 7.92 0.788 44.4 42 27 20 15 8.78 0.787 48.5 42 27 20 15 1.465 43 19 24 1.560 0.885 43 19 30 7.93 0.788 44.3 42 33 26 15 8.74 0.785 48.7 42 21 20 15 1.452 43 19 20 1.590 0.868 43 19 20 7.94 0.784 43.7 42 31 20 15 8.76 0.784 48.2 42 19 28 15 1.416 43 17 18 1.626 0.849 43 21 18 7.90 0.782 43.9 42 33 22 15 8.71 0.782 48.6 42 19 22 15 1.403 43 27 18 1.632 0.845 44 35 14 7.60 0.757 44.5 42 35 20 15 8.55 0.767 48.5 42 35 20 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.41 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 15,200.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-45 Cycle: 23 Core Average Exposure: MWd/MTU 32225.1 Exposure: MWd/MTU (GWd) 15650.0 (1589.11 )

Delta E: MWd/MTU, (GWd) 450.0 ( 45.69 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.233 6.264 37 0.685 0.724 3 24 Inlet Subcooling: Btu/lbm -21.45 24 0.519 15.923 38 0.360 0.568 15 6 Flow: Mlb/hr 76.61 ( 99.50 %) 23 0.855 22.409 39 0.447 0.759 17 48 22 1.001 26.388 40 0.489 0.888 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.052 28.668 41 0.820 1.187 15 14 51 -- -- -- -- -- 51 20 1.106 30.373 42 1.076 1.262 23 26 47 -- -- -- -- -- -- -- -- -- 47 19 1.142 31.307 43 1.365 1.506 21 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.183 32.453 44 1.212 1.376 17 14 39 -- -- -- -- 6 -- 6 -- -- -- -- 39 17 1.210 33.357 45 1.274 1.381 27 10 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.222 33.959 31 -- -- -- 0 -- -- -- -- -- 6 -- -- -- 31 15 1.254 34.532 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.255 35.084 23 -- -- -- 6 -- -- -- -- -- 0 -- -- -- 23 13 1.321 35.256 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.325* 36.724 15 -- -- -- -- 6 -- 6 -- -- -- -- 15 11 1.291 37.780 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.274 37.692 7 -- -- -- -- -- -- -- -- -- 7 9 1.231 38.607 3 -- -- -- -- -- 3 8 1.170 39.371 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.102 40.138 6 1.028 41.124 5 0.934 41.391*

4 0.826 40.602 Control Rod Density: % 5.29 3 0.726 38.207 2 0.576 29.979 k-effective: 1.00046 Bottom 1 0.165 8.783 Void Fraction: 0.419 Core Delta-P: psia 22.324 % AXIAL TILT 1.634 -13.288 Core Plate Delta-P: psia 17.779 AVG BOT 8ft/12ft 1.0113 1.0748 Coolant Temp: Deg-F 547.6 In Channel Flow: Mlb/hr 67.36 Active Channel Flow: Mlb/hr 65.10 Total Bypass Flow (%): 12.1 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00049 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.506 43 21 26 1.545 0.893 43 21 28 8.22 0.833 46.0 42 29 26 15 9.00 0.823 50.6 42 29 28 15 1.497 43 29 24 1.559 0.885 43 29 30 8.07 0.830 47.5 42 27 26 15 8.98 0.815 49.9 42 29 22 15 1.493 43 25 26 1.564 0.882 43 27 28 8.11 0.828 46.8 42 27 24 15 8.84 0.815 51.5 42 27 30 15 1.492 43 27 22 1.565 0.882 43 27 22 8.10 0.816 45.5 42 31 24 15 8.95 0.812 49.8 42 21 30 15 1.480 43 31 22 1.566 0.881 43 29 20 8.09 0.816 45.6 42 29 22 15 8.72 0.806 51.8 42 27 26 15 1.468 43 29 20 1.587 0.869 43 21 22 7.95 0.797 45.2 42 27 20 15 8.80 0.795 49.3 42 27 20 15 1.446 43 19 24 1.595 0.865 43 19 30 7.95 0.796 45.1 42 33 26 15 8.78 0.795 49.5 42 21 20 15 1.439 43 19 20 1.622 0.851 43 19 20 7.97 0.793 44.4 42 31 20 15 8.81 0.794 49.0 42 19 28 15 1.409 43 17 18 1.648 0.837 44 35 14 7.93 0.792 44.6 42 33 22 15 8.76 0.792 49.4 42 19 22 15 1.388 43 27 18 1.651 0.836 44 13 18 7.67 0.769 45.2 42 35 20 15 8.34 0.780 53.1 41 37 14 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.42 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 15,650.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-46 Cycle: 23 Core Average Exposure: MWd/MTU 32675.1 Exposure: MWd/MTU (GWd) 16100.0 (1634.81 )

Delta E: MWd/MTU, (GWd) 450.0 ( 45.69 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.241 6.379 37 0.687 0.729 3 24 Inlet Subcooling: Btu/lbm -20.40 24 0.539 16.180 38 0.360 0.568 15 6 Flow: Mlb/hr 80.08 (104.00 %) 23 0.891 22.836 39 0.448 0.763 17 48 22 1.044 26.888 40 0.490 0.894 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.098 29.195 41 0.823 1.189 15 14 51 -- -- -- -- -- 51 20 1.154 30.926 42 1.070 1.238 23 26 47 -- -- -- -- -- -- -- -- -- 47 19 1.190 31.879 43 1.351 1.481 21 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.229 33.044 44 1.221 1.377 17 14 39 -- -- -- -- 6 -- 6 -- -- -- -- 39 17 1.251 33.960 45 1.283 1.392 27 10 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.257 34.561 31 -- -- -- 0 -- -- -- -- -- 6 -- -- -- 31 15 1.284 35.133 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.276 35.683 23 -- -- -- 6 -- -- -- -- -- 0 -- -- -- 23 13 1.335* 35.833 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.330 37.301 15 -- -- -- -- 6 -- 6 -- -- -- -- 15 11 1.285 38.340 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.260 38.220 7 -- -- -- -- -- -- -- -- -- 7 9 1.210 39.113 3 -- -- -- -- -- 3 8 1.139 39.850 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.060 40.586 6 0.975 41.539 5 0.871 41.766*

4 0.757 40.931 Control Rod Density: % 5.29 3 0.656 38.493 2 0.518 30.206 k-effective: 1.00053 Bottom 1 0.149 8.853 Void Fraction: 0.404 Core Delta-P: psia 23.679 % AXIAL TILT 5.258 -12.956 Core Plate Delta-P: psia 19.132 AVG BOT 8ft/12ft 0.9913 1.0733 Coolant Temp: Deg-F 547.6 In Channel Flow: Mlb/hr 70.52 Active Channel Flow: Mlb/hr 68.21 Total Bypass Flow (%): 11.9 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00048 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.481 43 21 26 1.604 0.860 43 21 28 8.18 0.835 46.8 42 23 28 15 8.95 0.825 51.5 42 29 28 15 1.469 43 23 24 1.615 0.855 43 29 30 8.01 0.831 48.3 42 27 26 15 8.96 0.820 50.7 42 29 22 15 1.465 43 27 22 1.617 0.854 43 27 22 8.06 0.830 47.6 42 27 24 15 8.95 0.819 50.7 42 21 30 15 1.464 43 25 26 1.618 0.853 43 29 20 8.08 0.821 46.3 42 31 24 15 8.81 0.819 52.3 42 27 30 15 1.456 43 31 22 1.623 0.850 43 27 28 8.08 0.820 46.4 42 29 22 15 8.66 0.806 52.6 42 27 26 15 1.447 43 29 20 1.629 0.847 43 21 22 7.95 0.804 45.9 42 27 20 15 8.80 0.803 50.4 42 21 20 15 1.428 43 19 24 1.640 0.842 43 19 30 7.95 0.803 45.8 42 19 26 15 8.51 0.802 53.9 41 37 14 15 1.426 43 19 20 1.656 0.833 43 19 20 7.92 0.801 46.0 42 21 20 15 8.83 0.802 49.9 42 19 28 15 1.403 43 17 18 1.660 0.832 45 27 10 7.90 0.799 46.0 42 19 22 15 8.80 0.801 50.2 42 27 20 15 1.392 45 27 10 1.668 0.828 44 13 18 7.57 0.788 48.6 41 37 14 15 8.79 0.801 50.3 42 19 22 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.43 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 16,100.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-47 Cycle: 23 Core Average Exposure: MWd/MTU 32676.1 Exposure: MWd/MTU (GWd) 16101.0 (1634.91 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.252 6.379 37 0.685 0.728 3 24 Inlet Subcooling: Btu/lbm -21.69 24 0.561 16.180 38 0.360 0.569 15 6 Flow: Mlb/hr 75.85 ( 98.50 %) 23 0.927 22.837 39 0.450 0.766 17 48 22 1.087 26.889 40 0.490 0.897 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.144 29.196 41 0.820 1.185 15 14 51 -- -- -- -- -- 51 20 1.185 30.928 42 1.074 1.238 23 26 47 -- -- -- -- -- -- -- -- -- 47 19 1.208 31.880 43 1.354 1.482 21 28 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.238 33.045 44 1.215 1.376 17 14 39 -- -- -- -- 8 -- 8 -- -- -- -- 39 17 1.252 33.961 45 1.281 1.393 27 10 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.251 34.562 31 -- -- -- 6 -- -- -- -- -- 6 -- -- -- 31 15 1.272 35.134 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.260 35.684 23 -- -- -- 6 -- -- -- -- -- 0 -- -- -- 23 13 1.315* 35.834 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.306 37.302 15 -- -- -- -- 8 -- 8 -- -- -- -- 15 11 1.262 38.341 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.236 38.221 7 -- -- -- -- -- -- -- -- -- 7 9 1.188 39.114 3 -- -- -- -- -- 3 8 1.120 39.851 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.043 40.587 6 0.962 41.540 5 0.862 41.766*

4 0.751 40.931 Control Rod Density: % 5.08 3 0.653 38.494 2 0.516 30.206 k-effective: 1.00052 Bottom 1 0.148 8.853 Void Fraction: 0.409 Core Delta-P: psia 21.834 % AXIAL TILT 6.716 -12.956 Core Plate Delta-P: psia 17.292 AVG BOT 8ft/12ft 0.9786 1.0732 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 66.73 Active Channel Flow: Mlb/hr 64.52 Total Bypass Flow (%): 12.0 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00034 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.482 43 21 28 1.552 0.889 43 21 28 8.12 0.829 46.8 42 23 28 15 8.87 0.817 51.5 42 29 28 15 1.469 43 23 30 1.562 0.883 43 27 22 7.94 0.824 48.3 42 25 28 15 8.89 0.813 50.7 42 21 30 15 1.463 43 25 22 1.571 0.878 43 21 22 8.00 0.823 47.6 42 27 24 15 8.74 0.812 52.3 42 27 30 15 1.462 43 21 32 1.573 0.877 43 29 30 8.02 0.814 46.3 42 21 30 15 8.87 0.812 50.7 42 29 22 15 1.460 43 25 26 1.577 0.875 43 29 20 8.00 0.813 46.4 42 29 22 15 8.59 0.800 52.6 42 25 28 15 1.452 43 23 34 1.582 0.873 43 27 28 7.87 0.798 46.2 42 25 20 15 8.73 0.797 50.4 42 21 20 15 1.432 43 19 30 1.590 0.868 43 19 30 7.89 0.797 45.8 42 19 26 15 8.76 0.796 49.9 42 19 28 15 1.428 43 19 34 1.592 0.867 45 27 10 8.05 0.797 43.8 42 21 20 17 8.73 0.795 50.2 42 27 20 15 1.402 43 17 18 1.593 0.867 43 19 20 7.84 0.793 46.0 42 19 22 15 8.72 0.794 50.3 42 19 22 15 1.393 45 27 10 1.613 0.856 44 17 14 7.50 0.779 48.4 41 13 16 15 8.39 0.791 53.9 41 37 14 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.44 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 16,101.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-48 Cycle: 23 Core Average Exposure: MWd/MTU 33125.1 Exposure: MWd/MTU (GWd) 16550.0 (1680.50 )

Delta E: MWd/MTU, (GWd) 449.0 ( 45.59 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.261 6.502 37 0.687 0.733 3 24 Inlet Subcooling: Btu/lbm -20.40 24 0.581 16.456 38 0.360 0.569 15 6 Flow: Mlb/hr 80.08 (104.00 %) 23 0.964 23.298 39 0.451 0.770 17 48 22 1.131 27.429 40 0.491 0.904 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.192 29.767 41 0.824 1.187 15 14 51 -- -- -- -- -- 51 20 1.233 31.519 42 1.069 1.217 21 30 47 -- -- -- -- -- -- -- -- -- 47 19 1.254 32.482 43 1.339 1.456 21 28 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.281 33.661 44 1.224 1.376 17 14 39 -- -- -- -- 8 -- 8 -- -- -- -- 39 17 1.290 34.583 45 1.290 1.404 25 10 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.282 35.176 31 -- -- -- 6 -- -- -- -- -- 6 -- -- -- 31 15 1.297 35.740 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.277 36.283 23 -- -- -- 6 -- -- -- -- -- 0 -- -- -- 23 13 1.324* 36.406 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.308 37.869 15 -- -- -- -- 8 -- 8 -- -- -- -- 15 11 1.254 38.886 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.222 38.731 7 -- -- -- -- -- -- -- -- -- 7 9 1.167 39.602 3 -- -- -- -- -- 3 8 1.090 40.308 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.003 41.011 6 0.911 41.928 5 0.802 42.111*

4 0.687 41.229 Control Rod Density: % 5.08 3 0.591 38.751 2 0.465 30.409 k-effective: 1.00050 Bottom 1 0.133 8.916 Void Fraction: 0.393 Core Delta-P: psia 23.507 % AXIAL TILT 10.184 -12.565 Core Plate Delta-P: psia 18.962 AVG BOT 8ft/12ft 0.9588 1.0713 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 70.59 Active Channel Flow: Mlb/hr 68.30 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00031 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.456 43 21 28 1.606 0.859 45 27 10 8.04 0.827 47.6 42 23 28 15 8.55 0.820 54.7 41 37 14 15 1.442 43 23 30 1.608 0.858 43 21 28 7.90 0.821 48.5 42 25 30 15 8.56 0.818 54.5 41 13 16 15 1.441 43 21 32 1.620 0.852 43 27 22 7.85 0.821 49.1 42 25 28 15 8.85 0.816 51.5 42 21 30 15 1.437 43 25 32 1.622 0.851 43 21 22 7.97 0.818 47.3 42 23 22 17 8.78 0.815 52.3 42 23 26 15 1.434 43 23 34 1.631 0.846 43 29 20 7.98 0.817 47.1 42 21 30 15 8.80 0.811 51.5 42 29 22 15 1.429 43 25 26 1.635 0.844 43 29 30 8.11 0.809 44.6 42 21 20 17 8.66 0.810 53.2 42 27 30 15 1.416 43 19 34 1.636 0.843 43 19 20 8.05 0.806 45.0 42 25 20 17 8.96 0.806 48.8 42 21 20 17 1.413 43 19 30 1.637 0.843 44 13 36 8.05 0.805 44.8 42 19 22 17 8.91 0.801 48.9 42 19 22 17 1.404 45 25 10 1.641 0.841 43 19 30 8.02 0.802 44.8 42 19 26 17 8.74 0.800 50.7 42 19 28 15 1.393 43 17 36 1.643 0.840 44 17 14 7.64 0.800 49.1 41 13 16 15 8.86 0.797 48.9 42 27 20 17

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.45 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 16,550.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-49 Cycle: 23 Core Average Exposure: MWd/MTU 33126.1 Exposure: MWd/MTU (GWd) 16551.0 (1680.60 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.272 6.503 37 0.685 0.730 3 24 Inlet Subcooling: Btu/lbm -21.94 24 0.603 16.457 38 0.359 0.562 15 6 Flow: Mlb/hr 75.07 ( 97.50 %) 23 1.000 23.299 39 0.446 0.759 17 48 22 1.174 27.431 40 0.490 0.899 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.241 29.769 41 0.820 1.179 39 38 51 -- -- -- -- -- 51 20 1.270 31.520 42 1.073 1.216 31 24 47 -- -- -- -- -- -- -- -- -- 47 19 1.276 32.484 43 1.344 1.450 31 26 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.291 33.662 44 1.216 1.375 39 36 39 -- -- -- -- 8 -- 8 -- -- -- -- 39 17 1.290 34.584 45 1.289 1.401 43 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.275 35.177 31 -- -- -- 8 -- -- -- -- -- 10 -- -- -- 31 15 1.283 35.742 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.259 36.285 23 -- -- -- 8 -- -- -- -- -- 8 -- -- -- 23 13 1.301* 36.408 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.282 37.870 15 -- -- -- -- 8 -- 8 -- -- -- -- 15 11 1.228 38.887 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.197 38.733 7 -- -- -- -- -- -- -- -- -- 7 9 1.143 39.603 3 -- -- -- -- -- 3 8 1.069 40.309 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.987 41.012 6 0.899 41.928 5 0.794 42.112*

4 0.683 41.230 Control Rod Density: % 4.84 3 0.588 38.752 2 0.463 30.410 k-effective: 1.00053 Bottom 1 0.133 8.916 Void Fraction: 0.399 Core Delta-P: psia 21.355 % AXIAL TILT 11.685 -12.564 Core Plate Delta-P: psia 16.816 AVG BOT 8ft/12ft 0.9453 1.0713 Coolant Temp: Deg-F 547.3 In Channel Flow: Mlb/hr 66.11 Active Channel Flow: Mlb/hr 63.93 Total Bypass Flow (%): 11.9 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00046 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.450 43 31 26 1.547 0.892 45 43 26 8.02 0.821 47.1 42 29 28 17 9.43 0.818 44.7 42 37 32 21 1.433 43 23 30 1.553 0.888 43 21 28 8.39 0.821 42.7 42 37 32 20 8.82 0.812 51.3 42 29 28 17 1.433 43 31 22 1.574 0.877 43 27 22 7.96 0.819 47.6 42 31 30 17 8.44 0.810 54.7 41 37 14 15 1.429 43 27 22 1.575 0.876 45 43 30 8.01 0.819 46.9 42 27 24 17 8.75 0.807 51.6 42 27 30 17 1.422 43 25 26 1.579 0.874 43 29 30 7.94 0.817 47.6 42 27 26 17 9.01 0.807 48.4 42 33 32 18 1.422 43 29 20 1.579 0.874 43 29 20 7.94 0.815 47.3 42 23 22 17 8.78 0.807 51.1 42 31 30 18 1.414 43 33 24 1.580 0.873 43 21 22 8.20 0.814 44.2 42 33 32 18 9.37 0.807 43.8 42 39 30 21 1.410 43 33 20 1.583 0.872 44 39 36 8.19 0.814 44.3 42 33 28 18 8.73 0.805 51.5 42 29 22 15 1.401 45 43 28 1.584 0.871 45 27 10 8.15 0.806 43.8 42 35 34 18 9.01 0.804 47.9 42 35 34 18 1.389 43 35 36 1.593 0.866 43 19 30 8.11 0.806 44.2 42 31 34 18 8.97 0.804 48.4 42 33 28 18

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.46 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 16,551.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-50 Cycle: 23 Core Average Exposure: MWd/MTU 33575.1 Exposure: MWd/MTU (GWd) 17000.0 (1726.19 )

Delta E: MWd/MTU, (GWd) 449.0 ( 45.59 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.279 6.635 37 0.688 0.736 3 24 Inlet Subcooling: Btu/lbm -20.29 24 0.623 16.753 38 0.359 0.562 15 6 Flow: Mlb/hr 80.46 (104.50 %) 23 1.036 23.795 39 0.447 0.763 17 48 22 1.217 28.014 40 0.491 0.907 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.288 30.387 41 0.824 1.179 39 38 51 -- -- -- -- -- 51 20 1.317 32.152 42 1.068 1.193 31 24 47 -- -- -- -- -- -- -- -- -- 47 19 1.320 33.118 43 1.329 1.423 21 28 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.330* 34.303 44 1.227 1.374 39 36 39 -- -- -- -- 8 -- 8 -- -- -- -- 39 17 1.323 35.223 45 1.299 1.415 43 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.301 35.801 31 -- -- -- 8 -- -- -- -- -- 10 -- -- -- 31 15 1.304 36.352 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.272 36.882 23 -- -- -- 8 -- -- -- -- -- 8 -- -- -- 23 13 1.308 36.973 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.281 38.426 15 -- -- -- -- 8 -- 8 -- -- -- -- 15 11 1.219 39.417 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.183 39.227 7 -- -- -- -- -- -- -- -- -- 7 9 1.124 40.072 3 -- -- -- -- -- 3 8 1.040 40.746 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.948 41.412 6 0.850 42.290 5 0.739 42.429*

4 0.625 41.500 Control Rod Density: % 4.84 3 0.533 38.984 2 0.419 30.592 k-effective: 1.00045 Bottom 1 0.120 8.972 Void Fraction: 0.382 Core Delta-P: psia 23.510 % AXIAL TILT 14.901 -12.118 Core Plate Delta-P: psia 18.967 AVG BOT 8ft/12ft 0.9263 1.0690 Coolant Temp: Deg-F 547.4 In Channel Flow: Mlb/hr 71.01 Active Channel Flow: Mlb/hr 68.72 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00028 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.423 43 21 28 1.571 0.891 45 43 26 8.56 0.845 43.5 42 37 32 20 9.62 0.841 45.6 42 37 32 21 1.415 45 43 28 1.596 0.877 45 43 30 8.64 0.829 40.7 42 39 30 21 8.57 0.839 55.5 41 37 14 15 1.410 43 21 32 1.610 0.870 45 27 10 8.23 0.825 45.0 42 33 32 18 8.56 0.834 55.3 41 13 16 15 1.404 43 23 30 1.620 0.864 43 21 28 8.01 0.825 47.6 42 31 30 18 9.60 0.833 44.7 42 39 30 21 1.402 43 23 34 1.626 0.861 44 39 36 8.34 0.823 43.5 42 35 34 19 9.33 0.821 46.3 42 35 30 20 1.401 43 25 32 1.626 0.861 45 43 32 8.19 0.821 45.1 42 33 28 18 9.20 0.819 47.6 42 35 34 19 1.394 45 27 10 1.629 0.859 44 45 28 8.42 0.821 42.4 42 35 30 20 9.20 0.817 47.4 42 37 36 18 1.394 43 19 34 1.635 0.856 45 39 26 7.94 0.820 47.9 42 29 28 17 9.04 0.816 49.2 42 33 32 18 1.391 43 19 30 1.636 0.856 44 39 40 7.99 0.820 47.3 42 23 22 18 9.05 0.813 48.7 42 21 20 18 1.390 43 25 26 1.639 0.854 44 35 14 8.32 0.818 43.2 42 37 36 18 8.79 0.812 51.8 42 31 30 18

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.47 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 17,000.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-51 Cycle: 23 Core Average Exposure: MWd/MTU 33576.0 Exposure: MWd/MTU (GWd) 17001.0 (1726.29 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.262 6.636 37 0.693 0.748 3 24 Inlet Subcooling: Btu/lbm -22.20 24 0.582 16.754 38 0.360 0.565 15 6 Flow: Mlb/hr 74.31 ( 96.50 %) 23 0.966 23.796 39 0.448 0.763 17 48 22 1.137 28.015 40 0.493 0.918 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.211 30.389 41 0.826 1.185 15 14 51 -- -- -- -- -- 51 20 1.257 32.154 42 1.059 1.226 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.280 33.120 43 1.265 1.380 19 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.307 34.305 44 1.236 1.398 17 14 39 -- -- -- -- -- 8 -- -- -- -- -- 39 17 1.313 35.224 45 1.348 1.465 43 26 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.302 35.803 31 -- -- -- -- 6 -- -- -- 8 -- -- -- -- 31 15 1.311 36.354 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.284 36.883 23 -- -- -- -- 8 -- -- -- 8 -- -- -- -- 23 13 1.322* 36.974 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.295 38.427 15 -- -- -- -- -- 8 -- -- -- -- -- 15 11 1.235 39.419 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.200 39.228 7 -- -- -- -- -- -- -- -- -- 7 9 1.143 40.073 3 -- -- -- -- -- 3 8 1.065 40.747 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.980 41.413 6 0.892 42.291 5 0.789 42.430*

4 0.680 41.501 Control Rod Density: % 3.68 3 0.587 38.984 2 0.465 30.592 k-effective: 1.00057 Bottom 1 0.134 8.972 Void Fraction: 0.400 Core Delta-P: psia 21.052 % AXIAL TILT 11.595 -12.117 Core Plate Delta-P: psia 16.516 AVG BOT 8ft/12ft 0.9511 1.0690 Coolant Temp: Deg-F 547.2 In Channel Flow: Mlb/hr 65.41 Active Channel Flow: Mlb/hr 63.25 Total Bypass Flow (%): 12.0 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00046 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.465 45 43 26 1.484 0.943 45 9 26 8.03 0.827 47.7 42 11 28 15 8.65 0.847 55.5 41 37 14 15 1.456 45 41 24 1.522 0.920 45 43 24 7.84 0.817 48.7 42 11 32 15 8.64 0.842 55.3 41 13 16 15 1.441 45 43 24 1.522 0.920 45 13 28 7.73 0.816 49.9 41 13 16 15 8.94 0.829 52.2 42 11 28 15 1.433 45 39 26 1.530 0.915 45 11 30 8.00 0.815 46.6 42 33 14 17 8.64 0.822 54.3 42 11 22 15 1.414 45 39 22 1.553 0.901 45 13 22 7.71 0.815 50.1 41 37 14 15 8.37 0.815 55.3 42 19 40 15 1.410 45 43 22 1.556 0.900 45 43 22 8.18 0.812 44.1 42 17 16 17 8.31 0.812 55.5 42 31 12 15 1.409 45 41 20 1.559 0.898 45 21 14 7.91 0.809 46.9 42 39 20 17 8.58 0.812 54.1 42 13 20 15 1.398 44 17 14 1.565 0.895 44 45 28 7.56 0.801 50.3 42 31 12 15 8.75 0.807 51.6 42 13 30 15 1.396 45 21 14 1.567 0.894 45 11 20 7.80 0.801 47.4 42 13 24 15 8.33 0.803 54.9 42 43 20 15 1.396 44 13 18 1.574 0.889 44 35 14 8.02 0.800 44.7 42 21 16 17 8.95 0.802 48.4 42 17 16 17

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.48 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 17,001.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-52 Cycle: 23 Core Average Exposure: MWd/MTU 33975.1 Exposure: MWd/MTU (GWd) 17400.0 (1766.81 )

Delta E: MWd/MTU, (GWd) 399.0 ( 40.51 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.269 6.749 37 0.694 0.752 3 24 Inlet Subcooling: Btu/lbm -20.40 24 0.601 17.008 38 0.359 0.563 15 6 Flow: Mlb/hr 80.08 (104.00 %) 23 1.001 24.222 39 0.447 0.766 17 48 22 1.177 28.516 40 0.493 0.924 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.256 30.924 41 0.828 1.185 15 14 51 -- -- -- -- -- 51 20 1.301 32.709 42 1.055 1.232 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.322 33.685 43 1.255 1.374 15 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.343* 34.880 44 1.244 1.397 17 14 39 -- -- -- -- -- 8 -- -- -- -- -- 39 17 1.343 35.801 45 1.355 1.474 43 26 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.325 36.368 31 -- -- -- -- 6 -- -- -- 8 -- -- -- -- 31 15 1.329 36.908 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.295 37.424 23 -- -- -- -- 8 -- -- -- 8 -- -- -- -- 23 13 1.327 37.485 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.294 38.926 15 -- -- -- -- -- 8 -- -- -- -- -- 15 11 1.227 39.893 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.188 39.669 7 -- -- -- -- -- -- -- -- -- 7 9 1.125 40.490 3 -- -- -- -- -- 3 8 1.039 41.133 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.945 41.767 6 0.848 42.611 5 0.738 42.710*

4 0.627 41.741 Control Rod Density: % 3.68 3 0.536 39.191 2 0.423 30.755 k-effective: 1.00059 Bottom 1 0.122 9.023 Void Fraction: 0.383 Core Delta-P: psia 23.363 % AXIAL TILT 14.581 -11.733 Core Plate Delta-P: psia 18.825 AVG BOT 8ft/12ft 0.9332 1.0671 Coolant Temp: Deg-F 547.3 In Channel Flow: Mlb/hr 70.65 Active Channel Flow: Mlb/hr 68.37 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00024 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.474 45 43 26 1.511 0.927 45 9 26 8.21 0.852 48.4 42 11 28 15 8.75 0.872 56.2 41 37 14 15 1.459 45 11 24 1.554 0.901 45 13 28 8.00 0.840 49.4 42 11 32 15 8.77 0.871 56.1 41 13 16 15 1.448 45 43 24 1.556 0.900 45 43 30 8.16 0.838 47.3 41 13 16 17 9.15 0.854 52.9 42 11 28 15 1.434 45 13 26 1.563 0.896 45 11 30 8.15 0.835 47.1 42 19 14 17 8.79 0.851 55.1 42 11 22 15 1.415 45 43 22 1.589 0.881 45 13 22 8.12 0.834 47.5 41 37 14 17 8.49 0.841 56.0 42 19 40 15 1.412 45 13 22 1.591 0.880 44 45 28 8.09 0.830 47.4 42 13 20 17 8.41 0.837 56.2 42 31 12 15 1.411 45 11 20 1.592 0.880 45 9 22 8.30 0.830 44.8 42 17 16 17 8.68 0.836 54.8 42 13 20 15 1.401 45 27 10 1.604 0.873 45 11 20 8.17 0.821 45.4 42 39 24 17 8.47 0.832 55.7 41 45 22 15 1.397 44 17 14 1.604 0.873 45 21 14 7.94 0.820 47.9 42 31 12 17 8.46 0.829 55.5 42 43 20 15 1.396 44 13 18 1.612 0.868 45 27 10 8.31 0.818 43.2 42 15 18 17 8.90 0.826 52.3 42 13 30 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.49 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 17,400.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-53 Cycle: 23 Core Average Exposure: MWd/MTU 33976.1 Exposure: MWd/MTU (GWd) 17401.0 (1766.91 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.274 6.750 37 0.690 0.748 3 24 Inlet Subcooling: Btu/lbm -21.74 24 0.609 17.009 38 0.358 0.562 15 6 Flow: Mlb/hr 75.69 ( 98.30 %) 23 1.014 24.223 39 0.447 0.764 17 48 22 1.198 28.517 40 0.491 0.919 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.287 30.926 41 0.824 1.181 15 14 51 -- -- -- -- -- 51 20 1.341 32.711 42 1.060 1.231 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.345 33.687 43 1.267 1.377 19 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.355* 34.882 44 1.235 1.393 17 14 39 -- -- -- -- -- 10 -- -- -- -- -- 39 17 1.347 35.803 45 1.350 1.465 9 26 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.323 36.370 31 -- -- -- -- 8 -- -- -- 10 -- -- -- -- 31 15 1.322 36.909 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.283 37.426 23 -- -- -- -- 10 -- -- -- 8 -- -- -- -- 23 13 1.312 37.486 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.277 38.927 15 -- -- -- -- -- 10 -- -- -- -- -- 15 11 1.210 39.894 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.171 39.670 7 -- -- -- -- -- -- -- -- -- 7 9 1.109 40.491 3 -- -- -- -- -- 3 8 1.025 41.134 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.933 41.768 6 0.839 42.612 5 0.732 42.711*

4 0.622 41.742 Control Rod Density: % 3.53 3 0.532 39.191 2 0.420 30.756 k-effective: 1.00059 Bottom 1 0.121 9.023 Void Fraction: 0.388 Core Delta-P: psia 21.490 % AXIAL TILT 15.658 -11.732 Core Plate Delta-P: psia 16.956 AVG BOT 8ft/12ft 0.9239 1.0671 Coolant Temp: Deg-F 547.1 In Channel Flow: Mlb/hr 66.71 Active Channel Flow: Mlb/hr 64.54 Total Bypass Flow (%): 11.9 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00050 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.465 45 9 26 1.480 0.946 45 9 26 8.16 0.847 48.4 42 11 28 15 8.70 0.863 56.1 41 13 16 15 1.455 45 11 24 1.507 0.929 45 13 28 8.74 0.841 41.0 42 19 22 21 8.63 0.861 56.2 41 37 14 15 1.439 45 9 24 1.514 0.925 45 11 30 8.21 0.840 47.1 42 19 14 17 9.79 0.850 44.8 42 19 22 21 1.438 45 13 26 1.519 0.922 45 9 24 8.50 0.838 43.5 42 17 16 18 9.08 0.848 52.9 42 11 28 15 1.414 45 13 22 1.539 0.910 45 13 22 8.17 0.838 47.3 41 13 16 17 8.73 0.846 55.1 42 11 22 15 1.406 45 11 20 1.550 0.903 45 9 22 8.72 0.836 40.7 42 17 24 21 9.70 0.840 44.5 42 17 24 21 1.406 45 9 22 1.552 0.902 45 21 14 8.13 0.835 47.4 42 13 20 17 9.09 0.838 51.5 42 19 14 17 1.399 45 25 10 1.557 0.899 45 27 10 8.10 0.834 47.5 42 11 22 17 9.03 0.834 51.7 42 13 20 17 1.398 45 21 14 1.562 0.896 45 11 20 8.33 0.833 44.9 42 19 18 18 9.58 0.833 44.9 42 25 16 21 1.393 44 17 14 1.575 0.889 45 23 10 8.64 0.832 41.1 42 25 16 21 8.34 0.830 56.2 42 31 12 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.50 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 17,401.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-54 Cycle: 23 Core Average Exposure: MWd/MTU 34275.1 Exposure: MWd/MTU (GWd) 17700.0 (1797.27 )

Delta E: MWd/MTU, (GWd) 299.0 ( 30.36 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.279 6.838 37 0.690 0.752 3 24 Inlet Subcooling: Btu/lbm -20.29 24 0.623 17.207 38 0.357 0.561 15 6 Flow: Mlb/hr 80.46 (104.50 %) 23 1.039 24.557 39 0.446 0.766 17 48 22 1.227 28.911 40 0.491 0.924 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.319 31.350 41 0.825 1.182 15 14 51 -- -- -- -- -- 51 20 1.372 33.153 42 1.057 1.236 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.373 34.129 43 1.259 1.370 19 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.380* 35.327 44 1.241 1.395 7 26 39 -- -- -- -- -- 10 -- -- -- -- -- 39 17 1.366 36.245 45 1.355 1.477 9 26 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.338 36.799 31 -- -- -- -- 8 -- -- -- 10 -- -- -- -- 31 15 1.333 37.326 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.290 37.830 23 -- -- -- -- 10 -- -- -- 8 -- -- -- -- 23 13 1.314 37.865 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.275 39.295 15 -- -- -- -- -- 10 -- -- -- -- -- 15 11 1.204 40.242 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.162 39.993 7 -- -- -- -- -- -- -- -- -- 7 9 1.096 40.795 3 -- -- -- -- -- 3 8 1.006 41.414 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.908 42.021 6 0.808 42.839 5 0.697 42.908*

4 0.586 41.908 Control Rod Density: % 3.53 3 0.499 39.333 2 0.393 30.868 k-effective: 1.00050 Bottom 1 0.113 9.058 Void Fraction: 0.375 Core Delta-P: psia 23.424 % AXIAL TILT 17.690 -11.418 Core Plate Delta-P: psia 18.887 AVG BOT 8ft/12ft 0.9115 1.0655 Coolant Temp: Deg-F 547.2 In Channel Flow: Mlb/hr 71.04 Active Channel Flow: Mlb/hr 68.77 Total Bypass Flow (%): 11.7 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00049 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.477 45 9 26 1.503 0.932 45 9 26 8.55 0.866 46.0 42 11 28 17 8.79 0.884 56.6 41 13 16 15 1.461 45 11 30 1.534 0.913 45 13 28 8.28 0.854 47.8 41 13 16 17 8.70 0.880 56.8 41 37 14 15 1.450 45 9 30 1.542 0.908 45 11 30 8.26 0.854 48.1 42 11 22 17 8.84 0.868 55.6 42 11 22 15 1.441 45 13 26 1.545 0.906 45 9 24 8.29 0.854 47.6 42 19 14 17 9.23 0.867 53.5 42 11 28 15 1.415 45 13 22 1.573 0.890 45 13 22 8.82 0.853 41.6 42 19 22 21 9.88 0.863 45.4 42 19 22 21 1.414 45 9 32 1.576 0.888 45 9 22 8.37 0.853 46.7 42 13 20 18 8.52 0.856 56.5 42 19 40 15 1.410 45 11 34 1.585 0.883 45 27 10 8.59 0.852 44.1 42 17 16 18 9.81 0.854 45.1 42 17 24 21 1.407 45 25 10 1.591 0.880 45 21 14 8.82 0.850 41.2 42 17 24 21 9.29 0.852 51.0 42 13 20 18 1.396 45 21 14 1.592 0.879 45 11 20 8.75 0.846 41.6 42 25 16 21 8.41 0.848 56.7 42 31 12 15 1.395 45 23 10 1.597 0.877 44 45 28 8.48 0.846 44.6 42 13 24 18 9.70 0.848 45.5 42 25 16 21

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.51 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 17,700.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-55 Cycle: 23 Core Average Exposure: MWd/MTU 34276.1 Exposure: MWd/MTU (GWd) 17701.0 (1797.37 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.262 6.838 37 0.675 0.730 3 24 Inlet Subcooling: Btu/lbm -21.94 24 0.581 17.208 38 0.352 0.557 15 6 Flow: Mlb/hr 75.07 ( 97.50 %) 23 0.968 24.558 39 0.443 0.765 17 48 22 1.144 28.912 40 0.483 0.899 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.235 31.351 41 0.813 1.162 15 14 51 -- -- -- -- -- 51 20 1.293 33.154 42 1.065 1.245 25 12 47 -- -- -- -- -- -- -- -- -- 47 19 1.323 34.131 43 1.267 1.448 23 38 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.349 35.329 44 1.225 1.388 17 40 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.352* 36.246 45 1.366 1.483 25 14 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.338 36.800 31 -- -- -- -- 8 -- -- -- 8 -- -- -- -- 31 15 1.341 37.328 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.304 37.832 23 -- -- -- -- 8 -- -- -- 8 -- -- -- -- 23 13 1.333 37.866 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.295 39.297 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.226 40.243 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.185 39.994 7 -- -- -- -- -- -- -- -- -- 7 9 1.121 40.796 3 -- -- -- -- -- 3 8 1.037 41.415 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.946 42.022 6 0.854 42.840 5 0.750 42.909*

4 0.643 41.909 Control Rod Density: % 2.43 3 0.554 39.334 2 0.440 30.868 k-effective: 1.00065 Bottom 1 0.128 9.058 Void Fraction: 0.392 Core Delta-P: psia 21.305 % AXIAL TILT 13.995 -11.417 Core Plate Delta-P: psia 16.775 AVG BOT 8ft/12ft 0.9394 1.0655 Coolant Temp: Deg-F 547.1 In Channel Flow: Mlb/hr 66.13 Active Channel Flow: Mlb/hr 63.96 Total Bypass Flow (%): 11.9 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00049 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.483 45 25 14 1.473 0.950 45 27 10 8.45 0.888 49.5 42 25 42 15 8.87 0.894 56.7 42 31 12 15 1.475 45 25 10 1.489 0.940 45 27 14 8.37 0.876 49.1 42 23 14 15 9.25 0.892 54.9 42 27 12 15 1.473 45 23 12 1.508 0.929 45 21 14 8.49 0.862 46.4 42 25 16 17 9.33 0.878 53.7 42 29 14 15 1.457 45 21 14 1.515 0.924 45 29 44 8.05 0.862 51.2 42 21 42 15 8.71 0.872 56.4 42 19 40 15 1.448 43 23 38 1.518 0.922 45 29 12 8.48 0.858 45.9 42 21 16 17 8.59 0.868 56.8 41 37 14 15 1.445 45 23 10 1.525 0.918 45 9 28 8.26 0.851 47.6 42 19 14 17 8.53 0.858 56.6 41 13 16 15 1.432 45 9 28 1.558 0.899 45 13 28 8.00 0.835 48.9 42 11 28 15 9.13 0.855 53.2 42 27 38 15 1.419 45 11 30 1.559 0.898 45 11 30 8.24 0.834 46.0 42 23 18 17 9.11 0.851 52.9 42 21 38 15 1.411 43 25 36 1.561 0.897 45 9 30 8.22 0.827 45.4 42 17 16 17 8.44 0.845 56.4 41 31 8 15 1.407 45 9 30 1.564 0.895 44 27 46 8.11 0.824 46.4 41 15 40 17 8.53 0.837 55.6 42 11 22 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.52 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 17,701.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-56 Cycle: 23 Core Average Exposure: MWd/MTU 34525.1 Exposure: MWd/MTU (GWd) 17950.0 (1822.66 )

Delta E: MWd/MTU, (GWd) 249.0 ( 25.28 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.266 6.909 37 0.676 0.733 3 24 Inlet Subcooling: Btu/lbm -20.51 24 0.593 17.365 38 0.351 0.555 15 6 Flow: Mlb/hr 79.69 (103.50 %) 23 0.990 24.822 39 0.442 0.766 17 48 22 1.170 29.225 40 0.483 0.904 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.262 31.690 41 0.815 1.163 15 14 51 -- -- -- -- -- 51 20 1.320 33.508 42 1.063 1.243 25 12 47 -- -- -- -- -- -- -- -- -- 47 19 1.346 34.493 43 1.260 1.442 23 38 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.369* 35.697 44 1.230 1.390 25 8 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.368 36.615 45 1.371 1.479 25 40 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.348 37.161 31 -- -- -- -- 8 -- -- -- 8 -- -- -- -- 31 15 1.349 37.680 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.308 38.174 23 -- -- -- -- 8 -- -- -- 8 -- -- -- -- 23 13 1.334 38.187 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.293 39.608 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.221 40.537 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.178 40.266 7 -- -- -- -- -- -- -- -- -- 7 9 1.111 41.052 3 -- -- -- -- -- 3 8 1.022 41.651 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.926 42.237 6 0.829 43.033 5 0.721 43.077*

4 0.613 42.053 Control Rod Density: % 2.43 3 0.526 39.458 2 0.417 30.966 k-effective: 1.00055 Bottom 1 0.121 9.089 Void Fraction: 0.380 Core Delta-P: psia 23.176 % AXIAL TILT 15.688 -11.174 Core Plate Delta-P: psia 18.644 AVG BOT 8ft/12ft 0.9289 1.0643 Coolant Temp: Deg-F 547.3 In Channel Flow: Mlb/hr 70.31 Active Channel Flow: Mlb/hr 68.05 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00031 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.479 45 25 40 1.508 0.929 45 27 10 8.51 0.898 49.9 42 25 42 15 8.90 0.909 57.2 42 31 12 15 1.478 45 25 10 1.529 0.916 45 27 14 8.66 0.885 46.9 42 23 14 17 9.29 0.906 55.4 42 27 12 15 1.473 45 23 42 1.545 0.906 45 29 44 8.11 0.872 51.6 42 21 42 15 8.75 0.886 56.9 42 19 40 15 1.454 45 21 40 1.545 0.906 45 21 14 8.51 0.869 46.8 42 25 16 17 9.34 0.886 54.2 42 29 14 15 1.448 45 23 10 1.546 0.905 45 9 28 8.51 0.865 46.4 42 21 16 17 8.64 0.884 57.2 41 37 14 15 1.445 45 9 28 1.553 0.901 45 29 12 8.33 0.862 48.1 42 19 14 17 8.61 0.876 57.1 41 13 16 15 1.442 43 23 38 1.583 0.884 45 13 28 8.11 0.850 49.3 42 11 28 15 8.55 0.863 56.7 41 21 8 15 1.427 45 11 30 1.585 0.883 45 9 30 8.20 0.839 47.0 42 11 32 17 9.34 0.860 51.5 42 27 38 17 1.419 45 9 30 1.586 0.883 45 11 30 8.22 0.839 46.8 41 15 40 17 9.34 0.859 51.2 42 21 38 17 1.408 45 19 42 1.588 0.881 44 27 46 8.24 0.838 46.5 42 23 18 17 8.62 0.856 56.1 42 11 22 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.53 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 17,950.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-57 Cycle: 23 Core Average Exposure: MWd/MTU 34526.1 Exposure: MWd/MTU (GWd) 17951.0 (1822.76 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.269 6.909 37 0.674 0.733 3 24 Inlet Subcooling: Btu/lbm -21.08 24 0.598 17.366 38 0.350 0.553 15 6 Flow: Mlb/hr 77.77 (101.00 %) 23 0.997 24.823 39 0.441 0.763 17 48 22 1.181 29.226 40 0.482 0.904 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.279 31.691 41 0.812 1.161 15 14 51 -- -- -- -- -- 51 20 1.345 33.510 42 1.066 1.236 25 12 47 -- -- -- -- -- -- -- -- -- 47 19 1.361 34.494 43 1.270 1.442 23 38 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.376* 35.699 44 1.225 1.388 17 40 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.370 36.616 45 1.366 1.476 25 40 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.347 37.163 31 -- -- -- -- 10 -- -- -- 10 -- -- -- -- 31 15 1.344 37.681 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.301 38.175 23 -- -- -- -- 10 -- -- -- 8 -- -- -- -- 23 13 1.325 38.188 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.283 39.609 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.210 40.539 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.168 40.267 7 -- -- -- -- -- -- -- -- -- 7 9 1.101 41.053 3 -- -- -- -- -- 3 8 1.013 41.652 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.919 42.238 6 0.824 43.034 5 0.717 43.078*

4 0.610 42.053 Control Rod Density: % 2.34 3 0.524 39.458 2 0.416 30.967 k-effective: 1.00059 Bottom 1 0.121 9.089 Void Fraction: 0.382 Core Delta-P: psia 22.346 % AXIAL TILT 16.308 -11.173 Core Plate Delta-P: psia 17.816 AVG BOT 8ft/12ft 0.9234 1.0643 Coolant Temp: Deg-F 547.2 In Channel Flow: Mlb/hr 68.59 Active Channel Flow: Mlb/hr 66.37 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00029 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.476 45 25 40 1.504 0.931 45 25 44 8.47 0.894 49.9 42 25 42 15 8.82 0.901 57.2 42 31 12 15 1.470 45 25 44 1.522 0.920 45 9 28 8.64 0.884 46.9 42 23 14 17 9.28 0.899 55.1 42 25 42 15 1.467 45 23 42 1.524 0.919 45 27 14 8.49 0.869 47.1 42 25 38 17 8.72 0.884 56.9 42 19 40 15 1.451 45 21 40 1.537 0.911 45 21 40 8.07 0.868 51.6 42 21 42 15 9.27 0.879 54.2 42 29 14 15 1.446 45 9 28 1.538 0.910 45 29 44 8.54 0.867 46.4 42 21 16 17 8.56 0.876 57.2 41 37 14 15 1.442 43 23 38 1.547 0.905 45 13 28 8.21 0.863 49.5 42 19 40 17 8.58 0.874 57.1 41 13 16 15 1.440 45 23 44 1.550 0.903 45 11 30 8.44 0.858 46.5 42 11 28 17 9.39 0.862 51.2 42 21 38 17 1.433 45 11 30 1.551 0.903 45 29 12 8.27 0.846 47.0 42 11 32 17 9.36 0.862 51.5 42 27 38 17 1.420 45 9 30 1.557 0.899 45 9 30 8.27 0.843 46.6 42 23 36 17 9.36 0.856 50.7 42 11 28 17 1.414 45 13 28 1.583 0.884 44 27 46 8.13 0.842 48.1 42 13 34 17 8.48 0.856 56.8 41 21 8 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.54 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 17,951.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-58 Cycle: 23 Core Average Exposure: MWd/MTU 34725.2 Exposure: MWd/MTU (GWd) 18150.0 (1842.96 )

Delta E: MWd/MTU, (GWd) 199.0 ( 20.21 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.273 6.967 37 0.675 0.736 3 24 Inlet Subcooling: Btu/lbm -20.29 24 0.608 17.495 38 0.350 0.553 15 6 Flow: Mlb/hr 80.46 (104.50 %) 23 1.015 25.041 39 0.441 0.764 17 48 22 1.201 29.484 40 0.482 0.908 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.301 31.971 41 0.813 1.161 15 14 51 -- -- -- -- -- 51 20 1.367 33.804 42 1.064 1.235 27 42 47 -- -- -- -- -- -- -- -- -- 47 19 1.379 34.791 43 1.264 1.437 23 38 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.392* 35.999 44 1.229 1.388 17 40 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.382 36.915 45 1.369 1.474 25 44 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.355 37.453 31 -- -- -- -- 10 -- -- -- 10 -- -- -- -- 31 15 1.350 37.963 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.303 38.447 23 -- -- -- -- 10 -- -- -- 8 -- -- -- -- 23 13 1.324 38.443 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.280 39.855 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.205 40.771 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.161 40.482 7 -- -- -- -- -- -- -- -- -- 7 9 1.092 41.254 3 -- -- -- -- -- 3 8 1.001 41.837 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.903 42.405 6 0.805 43.183 5 0.696 43.208*

4 0.589 42.163 Control Rod Density: % 2.34 3 0.504 39.552 2 0.399 31.042 k-effective: 1.00026 Bottom 1 0.116 9.112 Void Fraction: 0.375 Core Delta-P: psia 23.442 % AXIAL TILT 17.627 -10.969 Core Plate Delta-P: psia 18.910 AVG BOT 8ft/12ft 0.9150 1.0632 Coolant Temp: Deg-F 547.2 In Channel Flow: Mlb/hr 71.03 Active Channel Flow: Mlb/hr 68.76 Total Bypass Flow (%): 11.7 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00046 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.474 45 25 44 1.522 0.920 45 25 44 8.51 0.902 50.3 42 25 42 15 8.85 0.912 57.5 42 31 12 15 1.473 45 25 40 1.532 0.914 45 9 28 8.69 0.891 47.3 42 23 14 17 9.33 0.912 55.5 42 25 42 15 1.468 45 23 42 1.546 0.905 45 27 14 8.40 0.878 49.0 42 21 42 17 8.75 0.894 57.2 42 19 40 15 1.454 45 9 28 1.553 0.901 45 29 44 8.52 0.875 47.5 42 25 38 17 8.77 0.888 56.8 41 15 40 15 1.450 45 21 40 1.559 0.898 45 13 28 8.54 0.874 47.1 42 21 38 17 9.23 0.888 54.8 42 23 40 15 1.444 45 23 44 1.560 0.898 45 21 14 8.55 0.873 46.8 42 11 28 17 8.62 0.887 57.4 41 13 16 15 1.438 45 11 30 1.563 0.896 45 11 30 8.28 0.873 49.9 42 19 40 17 9.48 0.871 51.1 42 11 28 17 1.437 43 23 38 1.567 0.893 45 9 30 8.37 0.860 47.4 42 11 32 17 8.54 0.870 57.1 41 21 8 15 1.428 45 9 30 1.570 0.892 45 29 12 8.34 0.855 47.2 42 13 34 18 9.43 0.870 51.5 42 21 38 17 1.417 45 13 28 1.595 0.878 44 27 46 8.31 0.851 47.1 41 15 40 17 8.68 0.870 56.4 42 11 22 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.55 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,150.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-59 Cycle: 23 Core Average Exposure: MWd/MTU 34726.2 Exposure: MWd/MTU (GWd) 18151.0 (1843.07 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.257 6.967 37 0.663 0.727 3 24 Inlet Subcooling: Btu/lbm -21.56 24 0.571 17.496 38 0.343 0.545 15 6 Flow: Mlb/hr 76.23 ( 99.00 %) 23 0.952 25.042 39 0.431 0.746 17 48 22 1.127 29.485 40 0.473 0.887 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.224 31.972 41 0.799 1.157 15 14 51 -- -- -- -- -- 51 20 1.299 33.805 42 1.076 1.214 25 12 47 -- -- -- -- -- -- -- -- -- 47 19 1.336 34.792 43 1.310 1.432 23 16 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.365 36.000 44 1.208 1.381 13 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.369* 36.916 45 1.352 1.453 27 40 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.353 37.454 31 -- -- -- -- 8 -- -- -- -- -- -- -- -- 31 15 1.356 37.965 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.315 38.449 23 -- -- -- -- -- -- -- -- 6 -- -- -- -- 23 13 1.338 38.444 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.296 39.857 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.223 40.772 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.180 40.483 7 -- -- -- -- -- -- -- -- -- 7 9 1.114 41.255 3 -- -- -- -- -- 3 8 1.028 41.838 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.937 42.406 6 0.846 43.184 5 0.745 43.208*

4 0.641 42.164 Control Rod Density: % 1.25 3 0.556 39.553 2 0.444 31.042 k-effective: 1.00041 Bottom 1 0.129 9.112 Void Fraction: 0.389 Core Delta-P: psia 21.791 % AXIAL TILT 14.293 -10.968 Core Plate Delta-P: psia 17.264 AVG BOT 8ft/12ft 0.9398 1.0632 Coolant Temp: Deg-F 547.2 In Channel Flow: Mlb/hr 67.16 Active Channel Flow: Mlb/hr 64.97 Total Bypass Flow (%): 11.9 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00024 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.453 45 27 40 1.520 0.921 45 9 26 8.33 0.881 50.1 42 27 42 15 8.78 0.898 57.2 42 31 42 15 1.448 45 13 26 1.532 0.914 45 25 10 8.52 0.875 47.3 42 23 14 17 9.11 0.891 55.5 42 25 42 15 1.446 45 11 24 1.540 0.909 45 13 28 8.53 0.870 46.7 42 21 16 17 8.63 0.887 57.4 41 13 16 15 1.445 45 27 44 1.546 0.906 45 13 22 8.51 0.867 46.6 42 13 24 17 8.85 0.887 56.4 42 11 22 15 1.444 45 9 26 1.548 0.905 45 21 14 8.50 0.867 46.7 42 15 22 17 8.85 0.878 56.0 42 13 20 15 1.444 45 29 42 1.549 0.904 45 27 14 8.43 0.863 47.1 42 19 18 17 8.57 0.877 57.3 41 37 40 15 1.440 45 21 14 1.560 0.897 45 29 44 8.17 0.863 50.0 42 11 26 15 9.10 0.875 54.8 42 23 14 15 1.439 45 13 22 1.567 0.894 45 9 24 8.42 0.863 47.2 42 17 20 17 8.90 0.875 55.7 42 19 14 15 1.432 43 23 16 1.568 0.893 45 11 24 8.27 0.861 48.6 42 13 20 17 9.02 0.870 54.9 42 11 28 15 1.424 43 21 18 1.581 0.886 45 29 12 8.28 0.860 48.4 42 19 14 17 9.37 0.861 51.1 42 21 16 17

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.56 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,151.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-60 Cycle: 23 Core Average Exposure: MWd/MTU 34925.0 Exposure: MWd/MTU (GWd) 18350.0 (1863.27 )

Delta E: MWd/MTU, (GWd) 199.0 ( 20.21 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.261 7.022 37 0.663 0.728 3 24 Inlet Subcooling: Btu/lbm -20.29 24 0.581 17.619 38 0.342 0.543 15 6 Flow: Mlb/hr 80.46 (104.50 %) 23 0.971 25.249 39 0.430 0.747 17 48 22 1.149 29.731 40 0.473 0.891 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.247 32.240 41 0.800 1.158 15 14 51 -- -- -- -- -- 51 20 1.321 34.089 42 1.074 1.216 27 42 47 -- -- -- -- -- -- -- -- -- 47 19 1.355 35.084 43 1.304 1.427 29 38 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.382* 36.298 44 1.213 1.380 13 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.381 37.214 45 1.356 1.452 27 40 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.362 37.746 31 -- -- -- -- 8 -- -- -- -- -- -- -- -- 31 15 1.362 38.249 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.318 38.724 23 -- -- -- -- -- -- -- -- 6 -- -- -- -- 23 13 1.340 38.701 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.296 40.106 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.220 41.006 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.176 40.700 7 -- -- -- -- -- -- -- -- -- 7 9 1.107 41.459 3 -- -- -- -- -- 3 8 1.017 42.026 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.921 42.576 6 0.825 43.337 5 0.720 43.343*

4 0.614 42.279 Control Rod Density: % 1.25 3 0.530 39.653 2 0.422 31.121 k-effective: 1.00041 Bottom 1 0.123 9.137 Void Fraction: 0.379 Core Delta-P: psia 23.526 % AXIAL TILT 15.724 -10.778 Core Plate Delta-P: psia 18.998 AVG BOT 8ft/12ft 0.9308 1.0623 Coolant Temp: Deg-F 547.3 In Channel Flow: Mlb/hr 71.00 Active Channel Flow: Mlb/hr 68.72 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00035 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.452 45 27 40 1.544 0.907 45 9 26 8.40 0.891 50.4 42 27 42 15 8.83 0.912 57.6 42 31 42 15 1.452 45 9 26 1.559 0.898 45 25 44 8.58 0.884 47.7 42 23 14 17 9.18 0.906 55.8 42 25 42 15 1.451 45 27 44 1.566 0.894 45 13 28 8.58 0.877 46.9 42 13 24 17 8.68 0.901 57.8 41 13 16 15 1.450 45 13 26 1.575 0.889 45 13 22 8.57 0.877 47.1 42 21 16 17 8.91 0.901 56.8 42 11 22 15 1.450 45 11 24 1.579 0.886 45 21 14 8.51 0.875 47.5 42 11 26 17 8.62 0.891 57.6 41 37 40 15 1.445 45 29 42 1.580 0.886 45 27 14 8.54 0.874 47.0 42 15 22 17 8.88 0.889 56.4 42 13 20 15 1.438 45 13 22 1.585 0.883 45 29 44 8.33 0.870 49.0 42 13 20 17 9.10 0.886 55.3 42 11 28 15 1.438 45 21 14 1.594 0.879 45 9 24 8.33 0.869 48.8 42 19 14 17 9.13 0.886 55.2 42 23 14 15 1.427 43 29 38 1.599 0.875 45 11 24 8.45 0.869 47.5 42 19 18 17 8.93 0.885 56.0 42 19 14 15 1.426 45 9 24 1.609 0.870 45 29 12 8.34 0.869 48.7 42 21 12 17 9.07 0.870 54.7 42 13 24 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.57 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,350.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-61 Cycle: 23 Core Average Exposure: MWd/MTU 34926.1 Exposure: MWd/MTU (GWd) 18351.0 (1863.37 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.250 7.023 37 0.657 0.712 3 24 Inlet Subcooling: Btu/lbm -21.32 24 0.556 17.620 38 0.339 0.537 15 6 Flow: Mlb/hr 77.00 (100.00 %) 23 0.929 25.250 39 0.423 0.731 17 48 22 1.105 29.732 40 0.467 0.866 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.211 32.241 41 0.792 1.139 15 14 51 -- -- -- -- -- 51 20 1.295 34.090 42 1.081 1.229 37 26 47 -- -- -- -- -- -- -- -- -- 47 19 1.338 35.086 43 1.329 1.444 37 24 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.371 36.299 44 1.201 1.365 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.376* 37.216 45 1.347 1.480 39 26 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.363 37.747 31 -- -- -- -- 0 -- -- -- -- -- -- -- -- 31 15 1.366 38.250 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.324 38.726 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.347 38.703 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.303 40.107 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.228 41.007 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.185 40.701 7 -- -- -- -- -- -- -- -- -- 7 9 1.117 41.460 3 -- -- -- -- -- 3 8 1.030 42.026 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.938 42.577 6 0.847 43.338 5 0.745 43.343*

4 0.642 42.280 Control Rod Density: % 0.73 3 0.558 39.653 2 0.446 31.122 k-effective: 1.00039 Bottom 1 0.130 9.137 Void Fraction: 0.388 Core Delta-P: psia 22.128 % AXIAL TILT 14.011 -10.777 Core Plate Delta-P: psia 17.604 AVG BOT 8ft/12ft 0.9436 1.0623 Coolant Temp: Deg-F 547.2 In Channel Flow: Mlb/hr 67.85 Active Channel Flow: Mlb/hr 65.63 Total Bypass Flow (%): 11.9 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.480 45 39 26 1.514 0.925 45 39 26 8.30 0.881 50.4 42 25 12 15 8.71 0.907 57.9 42 31 12 15 1.450 45 41 24 1.534 0.913 45 43 26 8.19 0.879 51.4 42 41 28 15 8.97 0.904 56.7 42 41 28 15 1.449 45 43 26 1.546 0.906 45 27 10 8.57 0.877 47.0 42 39 24 17 9.06 0.901 56.1 42 27 12 15 1.447 45 27 14 1.554 0.901 45 39 22 8.58 0.876 46.9 42 29 14 17 8.53 0.889 58.0 41 37 14 15 1.444 43 37 24 1.556 0.900 45 27 14 8.48 0.869 47.1 42 37 22 17 9.20 0.889 55.0 42 29 14 15 1.441 45 39 22 1.567 0.893 45 43 30 8.54 0.868 46.4 42 37 26 17 8.96 0.884 55.9 42 39 30 15 1.437 45 27 10 1.572 0.890 45 21 14 8.47 0.866 46.9 42 31 16 17 8.79 0.884 56.6 42 41 32 15 1.433 45 29 12 1.581 0.886 45 41 24 8.40 0.863 47.5 42 27 16 17 8.50 0.882 57.8 41 13 16 15 1.426 45 31 14 1.585 0.883 45 29 12 8.37 0.858 47.2 42 35 20 17 8.70 0.876 56.6 42 39 20 15 1.425 43 29 16 1.594 0.878 45 29 44 8.16 0.858 49.5 42 31 12 17 8.80 0.873 56.0 42 19 14 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.58 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,351.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-62 Cycle: 23 Core Average Exposure: MWd/MTU 35125.1 Exposure: MWd/MTU (GWd) 18550.0 (1883.58 )

Delta E: MWd/MTU, (GWd) 199.0 ( 20.21 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.254 7.076 37 0.659 0.715 3 24 Inlet Subcooling: Btu/lbm -20.29 24 0.567 17.740 38 0.339 0.536 15 6 Flow: Mlb/hr 80.46 (104.50 %) 23 0.947 25.453 39 0.423 0.733 17 48 22 1.126 29.973 40 0.467 0.871 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.233 32.506 41 0.794 1.140 15 14 51 -- -- -- -- -- 51 20 1.315 34.373 42 1.079 1.224 37 26 47 -- -- -- -- -- -- -- -- -- 47 19 1.355 35.377 43 1.323 1.438 37 24 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.384 36.598 44 1.205 1.363 39 18 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.386* 37.515 45 1.350 1.478 39 26 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.368 38.040 31 -- -- -- -- 0 -- -- -- -- -- -- -- -- 31 15 1.368 38.537 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.324 39.003 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.345 38.961 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.299 40.357 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.223 41.243 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.178 40.918 7 -- -- -- -- -- -- -- -- -- 7 9 1.109 41.664 3 -- -- -- -- -- 3 8 1.019 42.214 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.924 42.748 6 0.830 43.492*

5 0.726 43.478 4 0.623 42.396 Control Rod Density: % 0.73 3 0.539 39.754 2 0.431 31.202 k-effective: 0.99994 Bottom 1 0.126 9.162 Void Fraction: 0.380 Core Delta-P: psia 23.554 % AXIAL TILT 15.220 -10.591 Core Plate Delta-P: psia 19.028 AVG BOT 8ft/12ft 0.9355 1.0614 Coolant Temp: Deg-F 547.3 In Channel Flow: Mlb/hr 70.99 Active Channel Flow: Mlb/hr 68.70 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00034 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.478 45 39 26 1.545 0.906 45 39 26 8.58 0.888 48.0 42 25 12 17 8.73 0.917 58.2 42 31 12 15 1.453 45 43 26 1.558 0.898 45 43 26 8.21 0.885 51.8 42 41 28 15 8.99 0.915 57.0 42 41 28 15 1.450 45 41 24 1.570 0.892 45 27 10 8.60 0.883 47.4 42 39 24 17 9.08 0.912 56.5 42 27 12 15 1.444 45 27 14 1.583 0.884 45 27 14 8.61 0.883 47.3 42 29 14 17 8.54 0.899 58.3 41 37 14 15 1.441 45 25 10 1.585 0.883 45 39 22 8.49 0.873 47.4 42 37 22 17 9.19 0.897 55.4 42 29 14 15 1.438 43 37 24 1.589 0.881 45 43 30 8.55 0.872 46.7 42 37 26 17 8.54 0.895 58.1 41 13 16 15 1.438 45 39 22 1.599 0.876 45 21 14 8.47 0.870 47.4 42 21 16 17 8.81 0.894 56.9 42 41 32 15 1.433 45 23 12 1.609 0.870 45 29 12 8.41 0.868 47.8 42 27 16 17 8.95 0.892 56.2 42 39 30 15 1.423 45 31 14 1.610 0.870 45 41 24 8.21 0.866 49.9 42 31 12 17 8.69 0.883 57.0 42 39 20 15 1.423 45 43 24 1.613 0.868 45 29 44 8.27 0.864 48.9 42 41 32 17 8.80 0.881 56.4 42 19 14 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.59 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,550.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-63 Cycle: 23 Core Average Exposure: MWd/MTU 35126.1 Exposure: MWd/MTU (GWd) 18551.0 (1883.68 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.254 7.077 37 0.651 0.713 3 24 Inlet Subcooling: Btu/lbm -21.69 24 0.564 17.741 38 0.334 0.526 15 48 Flow: Mlb/hr 75.85 ( 98.50 %) 23 0.941 25.454 39 0.421 0.730 17 48 22 1.118 29.974 40 0.462 0.880 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.225 32.507 41 0.782 1.133 13 38 51 -- -- -- -- -- 51 20 1.308 34.374 42 1.090 1.220 15 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.348 35.379 43 1.359 1.437 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.378 36.599 44 1.188 1.361 13 36 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.380* 37.516 45 1.335 1.470 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.363 38.042 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.363 38.538 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.318 39.004 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.339 38.962 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.292 40.358 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.217 41.244 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.173 40.919 7 -- -- -- -- -- -- -- -- -- 7 9 1.106 41.665 3 -- -- -- -- -- 3 8 1.020 42.215 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.930 42.749 6 0.840 43.492*

5 0.742 43.479 4 0.642 42.396 Control Rod Density: % 0.00 3 0.560 39.754 2 0.449 31.202 k-effective: 1.00030 Bottom 1 0.131 9.163 Void Fraction: 0.389 Core Delta-P: psia 21.639 % AXIAL TILT 14.622 -10.590 Core Plate Delta-P: psia 17.118 AVG BOT 8ft/12ft 0.9386 1.0614 Coolant Temp: Deg-F 547.1 In Channel Flow: Mlb/hr 66.82 Active Channel Flow: Mlb/hr 64.63 Total Bypass Flow (%): 11.9 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.470 45 13 28 1.505 0.930 45 13 28 8.33 0.883 50.4 42 11 28 15 9.18 0.902 55.7 42 11 28 15 1.442 45 11 30 1.526 0.918 45 9 28 8.57 0.880 47.4 42 13 30 17 8.74 0.893 57.2 42 11 22 15 1.438 45 9 28 1.543 0.907 45 13 32 8.51 0.874 47.3 42 15 32 17 8.47 0.891 58.3 42 31 12 15 1.437 43 15 30 1.551 0.903 45 11 30 8.56 0.871 46.5 42 15 28 17 8.93 0.890 56.2 42 25 42 15 1.434 45 13 32 1.576 0.888 45 9 30 8.15 0.870 51.0 42 25 42 15 8.51 0.887 57.9 42 19 40 15 1.420 45 25 40 1.579 0.887 45 25 44 8.25 0.863 49.1 42 13 34 17 9.26 0.882 54.4 42 13 30 15 1.411 45 25 44 1.592 0.879 45 27 14 8.32 0.862 48.3 42 23 40 17 8.38 0.879 58.2 41 13 16 15 1.411 43 17 32 1.593 0.879 45 21 40 8.33 0.862 48.1 42 11 32 17 8.74 0.877 56.5 42 13 34 15 1.411 45 9 30 1.596 0.877 43 15 30 8.35 0.861 47.8 42 17 34 17 8.50 0.877 57.6 41 15 40 15 1.409 45 23 42 1.609 0.870 45 29 44 8.44 0.858 46.5 42 17 30 17 8.92 0.874 55.6 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.60 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,551.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-64 Cycle: 23 Core Average Exposure: MWd/MTU 35228.7 Exposure: MWd/MTU (GWd) 18653.6 (1894.10 )

Delta E: MWd/MTU, (GWd) 102.6 ( 10.42 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.8 Top 25 0.256 7.105 37 0.651 0.715 3 24 Inlet Subcooling: Btu/lbm -21.09 24 0.570 17.803 38 0.334 0.526 15 48 Flow: Mlb/hr 77.77 (101.00 %) 23 0.951 25.560 39 0.421 0.731 17 48 22 1.130 30.099 40 0.462 0.882 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.237 32.645 41 0.783 1.135 13 38 51 -- -- -- -- -- 51 20 1.319 34.521 42 1.089 1.220 15 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.357 35.530 43 1.356 1.437 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.385* 36.754 44 1.190 1.363 13 36 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.385 37.671 45 1.337 1.471 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.366 38.193 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.364 38.685 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.318 39.146 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.338 39.095 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.291 40.486 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.214 41.364 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.170 41.031 7 -- -- -- -- -- -- -- -- -- 7 9 1.102 41.770 3 -- -- -- -- -- 3 8 1.014 42.311 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.923 42.837 6 0.832 43.571*

5 0.732 43.549 4 0.631 42.457 Control Rod Density: % 0.00 3 0.549 39.807 2 0.440 31.244 k-effective: 1.00012 Bottom 1 0.129 9.176 Void Fraction: 0.384 Core Delta-P: psia 22.417 % AXIAL TILT 15.262 -10.494 Core Plate Delta-P: psia 17.895 AVG BOT 8ft/12ft 0.9343 1.0609 Coolant Temp: Deg-F 547.2 In Channel Flow: Mlb/hr 68.56 Active Channel Flow: Mlb/hr 66.33 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00029 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.471 45 13 28 1.519 0.928 45 13 28 8.62 0.889 47.7 42 11 28 17 9.21 0.909 55.8 42 11 28 15 1.445 45 11 30 1.536 0.918 45 9 28 8.61 0.886 47.6 42 13 30 17 8.77 0.899 57.3 42 11 22 15 1.443 45 9 28 1.556 0.906 45 13 32 8.54 0.879 47.5 42 15 32 17 8.95 0.896 56.4 42 25 42 15 1.437 43 15 30 1.563 0.902 45 11 30 8.59 0.875 46.6 42 15 28 17 8.48 0.896 58.4 42 31 12 15 1.436 45 13 32 1.586 0.889 45 9 30 8.17 0.874 51.1 42 25 42 15 8.53 0.893 58.1 42 19 40 15 1.420 45 25 40 1.592 0.886 45 25 44 8.28 0.869 49.3 42 13 34 17 9.28 0.888 54.6 42 13 30 15 1.415 45 9 30 1.608 0.877 45 21 40 8.38 0.868 48.3 42 11 32 17 8.40 0.885 58.3 41 13 16 15 1.414 45 25 44 1.608 0.877 45 27 14 8.35 0.867 48.4 42 23 40 17 8.53 0.884 57.7 41 15 40 15 1.411 43 17 32 1.610 0.876 43 15 30 8.37 0.865 47.9 42 17 34 17 8.76 0.883 56.7 42 13 34 15 1.410 45 23 42 1.620 0.870 45 9 32 8.46 0.862 46.7 42 17 30 17 8.93 0.879 55.7 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.61 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,653.6 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-65 Cycle: 23 Core Average Exposure: MWd/MTU 35229.7 Exposure: MWd/MTU (GWd) 18654.6 (1894.20 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.256 7.105 37 0.653 0.717 3 24 Inlet Subcooling: Btu/lbm -23.04 24 0.570 17.804 38 0.334 0.527 15 48 Flow: Mlb/hr 76.23 ( 99.00 %) 23 0.951 25.561 39 0.421 0.732 17 48 22 1.126 30.101 40 0.463 0.884 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.230 32.646 41 0.784 1.135 13 38 51 -- -- -- -- -- 51 20 1.310 34.523 42 1.089 1.220 15 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.348 35.531 43 1.354 1.437 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.375* 36.755 44 1.190 1.362 13 36 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.375 37.672 45 1.337 1.471 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.357 38.194 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.357 38.686 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.313 39.148 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.334 39.096 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.290 40.487 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.216 41.366 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.174 41.032 7 -- -- -- -- -- -- -- -- -- 7 9 1.110 41.771 3 -- -- -- -- -- 3 8 1.024 42.312 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.934 42.837 6 0.843 43.572*

5 0.741 43.549 4 0.638 42.457 Control Rod Density: % 0.00 3 0.555 39.807 2 0.444 31.245 k-effective: 1.00038 Bottom 1 0.130 9.176 Void Fraction: 0.381 Core Delta-P: psia 21.676 % AXIAL TILT 14.663 -10.493 Core Plate Delta-P: psia 17.143 AVG BOT 8ft/12ft 0.9371 1.0609 Coolant Temp: Deg-F 546.8 In Channel Flow: Mlb/hr 67.21 Active Channel Flow: Mlb/hr 65.02 Total Bypass Flow (%): 11.8 (of total core flow)

Total Water Rod Flow (%): 2.9 (of total core flow)

Source Convergence 0.00028 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.471 45 13 28 1.513 0.932 45 13 28 8.30 0.882 50.5 42 11 28 15 9.15 0.903 55.9 42 11 28 15 1.444 45 11 30 1.533 0.920 45 9 28 8.54 0.879 47.6 42 13 30 17 8.71 0.894 57.3 42 11 22 15 1.442 45 9 28 1.554 0.907 45 13 32 8.47 0.872 47.5 42 15 32 17 8.89 0.890 56.4 42 25 42 15 1.437 43 15 30 1.555 0.907 45 11 30 8.11 0.868 51.1 42 25 42 15 8.43 0.890 58.4 42 31 12 15 1.435 45 13 32 1.579 0.893 45 9 30 8.52 0.868 46.6 42 15 28 17 8.47 0.887 58.1 42 19 40 15 1.419 45 25 40 1.589 0.887 45 25 44 8.22 0.862 49.3 42 13 34 17 9.21 0.881 54.6 42 13 30 15 1.415 45 9 30 1.602 0.880 45 27 14 8.31 0.862 48.3 42 11 32 17 8.36 0.880 58.3 41 13 16 15 1.414 45 25 44 1.604 0.879 43 15 30 8.28 0.860 48.4 42 23 40 17 8.48 0.879 57.7 41 15 40 15 1.410 43 17 32 1.606 0.878 45 21 40 8.30 0.858 47.9 42 17 34 17 8.70 0.877 56.7 42 13 34 15 1.410 45 23 42 1.613 0.874 45 9 32 8.39 0.855 46.7 42 17 30 17 8.87 0.873 55.7 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.62 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,654.6 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-66 Cycle: 23 Core Average Exposure: MWd/MTU 35425.1 Exposure: MWd/MTU (GWd) 18850.0 (1914.04 )

Delta E: MWd/MTU, (GWd) 195.4 ( 19.84 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.260 7.159 37 0.653 0.718 3 24 Inlet Subcooling: Btu/lbm -21.79 24 0.581 17.925 38 0.333 0.527 15 48 Flow: Mlb/hr 80.08 (104.00 %) 23 0.971 25.764 39 0.421 0.733 17 48 22 1.148 30.342 40 0.463 0.886 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.253 32.910 41 0.785 1.136 13 38 51 -- -- -- -- -- 51 20 1.332 34.804 42 1.087 1.221 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.366 35.820 43 1.349 1.432 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.390* 37.050 44 1.194 1.363 13 36 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.386 37.966 45 1.340 1.471 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.364 38.481 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.362 38.966 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.315 39.418 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.335 39.348 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.289 40.731 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.213 41.595 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.171 41.244 7 -- -- -- -- -- -- -- -- -- 7 9 1.104 41.970 3 -- -- -- -- -- 3 8 1.014 42.496 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.918 43.004 6 0.822 43.722*

5 0.716 43.681 4 0.611 42.570 Control Rod Density: % 0.00 3 0.529 39.905 2 0.423 31.323 k-effective: 1.00021 Bottom 1 0.124 9.201 Void Fraction: 0.371 Core Delta-P: psia 23.241 % AXIAL TILT 16.046 -10.309 Core Plate Delta-P: psia 18.708 AVG BOT 8ft/12ft 0.9283 1.0600 Coolant Temp: Deg-F 546.9 In Channel Flow: Mlb/hr 70.69 Active Channel Flow: Mlb/hr 68.43 Total Bypass Flow (%): 11.7 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00030 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.471 45 13 28 1.540 0.916 45 13 28 8.65 0.895 48.1 42 11 28 17 9.20 0.917 56.2 42 11 28 15 1.449 45 9 28 1.556 0.906 45 9 28 8.61 0.889 47.9 42 13 30 17 8.76 0.907 57.7 42 11 22 15 1.447 45 11 30 1.581 0.892 45 11 30 8.51 0.879 47.9 42 15 32 17 8.94 0.904 56.8 42 25 42 15 1.435 45 13 32 1.584 0.890 45 13 32 8.17 0.877 51.5 42 25 42 15 8.54 0.904 58.5 42 31 42 15 1.432 43 15 30 1.602 0.880 45 9 30 8.56 0.875 47.0 42 15 28 17 8.50 0.898 58.5 42 19 40 15 1.421 45 9 30 1.614 0.874 45 25 44 8.40 0.874 48.6 42 11 32 17 8.42 0.894 58.7 41 13 16 15 1.420 45 25 44 1.630 0.865 45 27 14 8.28 0.872 49.7 42 13 34 17 8.53 0.893 58.1 41 15 40 15 1.419 45 25 40 1.635 0.862 45 9 32 8.34 0.869 48.8 42 23 40 17 9.24 0.892 55.0 42 13 30 15 1.412 45 23 42 1.636 0.862 45 21 40 8.33 0.864 48.3 42 17 34 17 8.72 0.888 57.0 42 13 34 15 1.404 43 17 32 1.637 0.861 43 15 30 8.31 0.862 48.3 42 21 38 17 8.89 0.884 56.1 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.63 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,850.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-67 Cycle: 23 Core Average Exposure: MWd/MTU 35426.2 Exposure: MWd/MTU (GWd) 18851.0 (1914.14 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.257 7.159 37 0.657 0.721 3 24 Inlet Subcooling: Btu/lbm -24.87 24 0.575 17.926 38 0.334 0.530 15 48 Flow: Mlb/hr 77.00 (100.00 %) 23 0.958 25.765 39 0.422 0.737 17 48 22 1.132 30.343 40 0.465 0.889 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.235 32.912 41 0.788 1.135 13 38 51 -- -- -- -- -- 51 20 1.313 34.805 42 1.087 1.220 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.347 35.822 43 1.347 1.430 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.372* 37.051 44 1.194 1.360 13 36 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.369 37.968 45 1.339 1.469 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.350 38.482 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.349 38.967 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.306 39.419 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.330 39.350 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.288 40.732 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.217 41.596 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.180 41.245 7 -- -- -- -- -- -- -- -- -- 7 9 1.119 41.971 3 -- -- -- -- -- 3 8 1.033 42.497 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.941 43.005 6 0.846 43.723*

5 0.739 43.681 4 0.632 42.570 Control Rod Density: % 0.00 3 0.547 39.905 2 0.438 31.323 k-effective: 1.00010 Bottom 1 0.128 9.201 Void Fraction: 0.371 Core Delta-P: psia 21.823 % AXIAL TILT 14.601 -10.308 Core Plate Delta-P: psia 17.279 AVG BOT 8ft/12ft 0.9361 1.0600 Coolant Temp: Deg-F 546.3 In Channel Flow: Mlb/hr 67.96 Active Channel Flow: Mlb/hr 65.78 Total Bypass Flow (%): 11.7 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00046 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.469 45 13 28 1.528 0.923 45 13 28 8.52 0.881 48.1 42 11 28 17 9.09 0.906 56.2 42 11 28 15 1.447 45 9 28 1.548 0.911 45 9 28 8.48 0.876 47.9 42 13 30 17 8.66 0.897 57.7 42 11 22 15 1.445 45 11 30 1.569 0.899 45 11 30 8.07 0.866 51.5 42 25 42 15 8.44 0.894 58.5 42 31 42 15 1.432 45 13 32 1.577 0.894 45 13 32 8.39 0.866 47.9 42 15 32 17 8.83 0.893 56.8 42 25 42 15 1.430 43 15 30 1.591 0.886 45 9 30 8.43 0.862 47.0 42 15 28 17 8.41 0.889 58.5 42 19 40 15 1.418 45 9 30 1.604 0.879 45 25 44 8.28 0.861 48.6 42 11 32 17 8.33 0.886 58.7 41 13 16 15 1.417 45 25 44 1.620 0.870 45 27 14 8.17 0.860 49.7 42 13 34 17 8.44 0.883 58.1 41 15 40 15 1.417 45 25 40 1.625 0.868 43 15 30 8.22 0.857 48.8 42 23 40 17 9.12 0.881 55.0 42 13 30 15 1.410 45 23 42 1.625 0.868 45 9 32 8.21 0.851 48.3 42 17 34 17 8.63 0.878 57.0 42 13 34 15 1.401 45 21 40 1.628 0.866 45 21 40 8.19 0.849 48.3 42 21 38 17 8.79 0.873 56.1 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.64 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 18,851.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-68 Cycle: 23 Core Average Exposure: MWd/MTU 35575.1 Exposure: MWd/MTU (GWd) 19000.0 (1929.27 )

Delta E: MWd/MTU, (GWd) 149.0 ( 15.13 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.261 7.201 37 0.656 0.722 3 24 Inlet Subcooling: Btu/lbm -23.68 24 0.585 18.019 38 0.333 0.529 15 48 Flow: Mlb/hr 80.46 (104.50 %) 23 0.976 25.922 39 0.421 0.737 17 48 22 1.153 30.528 40 0.465 0.891 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.257 33.114 41 0.788 1.137 13 38 51 -- -- -- -- -- 51 20 1.333 35.020 42 1.085 1.222 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.365 36.042 43 1.343 1.428 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.387* 37.275 44 1.197 1.362 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.381 38.191 45 1.342 1.470 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.358 38.700 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.356 39.179 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.310 39.624 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.332 39.541 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.289 40.917 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.215 41.771 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.176 41.407 7 -- -- -- -- -- -- -- -- -- 7 9 1.112 42.124 3 -- -- -- -- -- 3 8 1.022 42.638 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.925 43.133 6 0.825 43.838*

5 0.715 43.781 4 0.606 42.655 Control Rod Density: % 0.00 3 0.523 39.979 2 0.417 31.382 k-effective: 1.00017 Bottom 1 0.122 9.219 Void Fraction: 0.362 Core Delta-P: psia 23.229 % AXIAL TILT 15.946 -10.170 Core Plate Delta-P: psia 18.683 AVG BOT 8ft/12ft 0.9278 1.0593 Coolant Temp: Deg-F 546.4 In Channel Flow: Mlb/hr 71.11 Active Channel Flow: Mlb/hr 68.85 Total Bypass Flow (%): 11.6 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00047 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.470 45 13 28 1.550 0.910 45 13 28 8.61 0.894 48.4 42 11 28 17 9.15 0.919 56.5 42 11 28 15 1.453 45 9 28 1.567 0.900 45 9 28 8.55 0.886 48.2 42 13 30 17 8.72 0.909 58.0 42 11 22 15 1.448 45 11 30 1.590 0.887 45 11 30 8.34 0.875 49.3 42 25 42 17 8.89 0.906 57.1 42 25 42 15 1.433 45 13 32 1.602 0.880 45 13 32 8.44 0.874 48.1 42 15 32 17 8.50 0.906 58.8 42 31 42 15 1.428 43 15 30 1.608 0.877 45 9 30 8.36 0.873 48.9 42 11 32 17 8.44 0.899 58.7 42 19 40 15 1.424 45 9 30 1.625 0.868 45 25 44 8.49 0.871 47.3 42 15 28 17 8.39 0.898 58.9 41 13 16 15 1.422 45 25 44 1.643 0.858 45 9 32 8.24 0.870 49.9 42 13 34 17 8.51 0.896 58.3 41 15 40 15 1.417 45 25 40 1.644 0.858 45 27 14 8.28 0.866 49.1 42 23 40 17 9.17 0.892 55.3 42 13 30 15 1.412 45 23 42 1.647 0.856 45 29 44 8.25 0.858 48.6 42 17 34 17 8.67 0.888 57.3 42 13 34 15 1.401 45 21 40 1.651 0.854 43 15 30 8.24 0.857 48.6 42 21 38 17 8.83 0.884 56.4 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.65 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,000.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-69 Cycle: 23 Core Average Exposure: MWd/MTU 35576.2 Exposure: MWd/MTU (GWd) 19001.0 (1929.38 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.257 7.201 37 0.660 0.725 3 24 Inlet Subcooling: Btu/lbm -26.71 24 0.576 18.019 38 0.335 0.532 15 48 Flow: Mlb/hr 77.39 (100.50 %) 23 0.960 25.923 39 0.423 0.740 17 48 22 1.134 30.529 40 0.467 0.893 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.236 33.115 41 0.791 1.135 13 38 51 -- -- -- -- -- 51 20 1.313 35.021 42 1.085 1.219 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.344 36.043 43 1.341 1.424 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.367* 37.276 44 1.198 1.360 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.363 38.192 45 1.340 1.466 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.343 38.701 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.343 39.181 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.301 39.625 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.327 39.542 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.288 40.919 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.220 41.772 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.186 41.408 7 -- -- -- -- -- -- -- -- -- 7 9 1.127 42.125 3 -- -- -- -- -- 3 8 1.042 42.639 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.949 43.134 6 0.851 43.838*

5 0.739 43.782 4 0.629 42.656 Control Rod Density: % 0.00 3 0.543 39.979 2 0.434 31.382 k-effective: 0.99989 Bottom 1 0.127 9.219 Void Fraction: 0.362 Core Delta-P: psia 21.828 % AXIAL TILT 14.371 -10.169 Core Plate Delta-P: psia 17.276 AVG BOT 8ft/12ft 0.9366 1.0593 Coolant Temp: Deg-F 545.9 In Channel Flow: Mlb/hr 68.37 Active Channel Flow: Mlb/hr 66.19 Total Bypass Flow (%): 11.7 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00041 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.466 45 13 28 1.541 0.915 45 13 28 8.48 0.880 48.4 42 11 28 17 9.04 0.908 56.5 42 11 28 15 1.449 45 9 28 1.560 0.904 45 9 28 8.42 0.872 48.2 42 13 30 17 8.62 0.899 58.0 42 11 22 15 1.444 45 11 30 1.582 0.891 45 11 30 8.02 0.864 51.7 42 25 42 15 8.40 0.896 58.8 42 31 42 15 1.430 45 13 32 1.595 0.884 45 13 32 8.31 0.861 48.2 42 15 32 17 8.78 0.895 57.1 42 25 42 15 1.424 43 15 30 1.600 0.881 45 9 30 8.24 0.860 48.9 42 11 32 17 8.35 0.890 58.7 42 19 40 15 1.420 45 9 30 1.616 0.873 45 25 44 8.36 0.857 47.3 42 15 28 17 8.31 0.889 58.9 41 13 16 15 1.419 45 25 44 1.635 0.862 45 27 14 8.12 0.857 49.9 42 13 34 17 8.42 0.887 58.3 41 15 40 15 1.414 45 25 40 1.635 0.862 45 9 32 8.16 0.853 49.1 42 23 40 17 9.05 0.881 55.3 42 13 30 15 1.409 45 23 42 1.639 0.860 45 29 44 8.13 0.846 48.6 42 17 34 17 8.57 0.878 57.3 42 13 34 15 1.399 45 21 40 1.641 0.859 43 15 30 8.12 0.844 48.6 42 21 38 17 8.72 0.873 56.4 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.66 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,001.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-70 Cycle: 23 Core Average Exposure: MWd/MTU 35725.2 Exposure: MWd/MTU (GWd) 19150.0 (1944.51 )

Delta E: MWd/MTU, (GWd) 149.0 ( 15.13 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.261 7.242 37 0.660 0.726 3 24 Inlet Subcooling: Btu/lbm -25.58 24 0.586 18.112 38 0.334 0.531 15 48 Flow: Mlb/hr 80.46 (104.50 %) 23 0.978 26.080 39 0.422 0.740 17 48 22 1.154 30.714 40 0.466 0.895 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.257 33.317 41 0.791 1.137 13 38 51 -- -- -- -- -- 51 20 1.332 35.236 42 1.084 1.222 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.361 36.263 43 1.337 1.423 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.381* 37.499 44 1.201 1.366 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.373 38.414 45 1.343 1.467 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.350 38.918 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.349 39.391 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.304 39.829 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.329 39.733 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.289 41.104 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.218 41.947 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.183 41.572 7 -- -- -- -- -- -- -- -- -- 7 9 1.121 42.280 3 -- -- -- -- -- 3 8 1.031 42.781 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.933 43.263 6 0.830 43.954*

5 0.716 43.882 4 0.606 42.741 Control Rod Density: % 0.00 3 0.521 40.052 2 0.416 31.440 k-effective: 0.99981 Bottom 1 0.122 9.238 Void Fraction: 0.354 Core Delta-P: psia 23.069 % AXIAL TILT 15.628 -10.033 Core Plate Delta-P: psia 18.517 AVG BOT 8ft/12ft 0.9287 1.0586 Coolant Temp: Deg-F 546.0 In Channel Flow: Mlb/hr 71.16 Active Channel Flow: Mlb/hr 68.92 Total Bypass Flow (%): 11.6 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00042 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.467 45 13 28 1.560 0.904 45 13 28 8.57 0.892 48.6 42 11 28 17 9.10 0.920 56.8 42 11 28 15 1.455 45 9 28 1.576 0.895 45 9 28 8.49 0.882 48.5 42 13 30 17 8.67 0.911 58.2 42 11 22 15 1.447 45 11 30 1.598 0.882 45 11 30 8.29 0.872 49.6 42 25 42 17 8.45 0.907 59.0 42 31 42 15 1.430 45 13 32 1.615 0.873 45 9 30 8.32 0.871 49.1 42 11 32 17 8.83 0.907 57.4 42 25 42 15 1.426 45 9 30 1.616 0.872 45 13 32 8.37 0.869 48.4 42 15 32 17 8.36 0.901 59.2 41 13 16 15 1.423 45 25 44 1.634 0.863 45 27 44 8.18 0.866 50.2 42 13 34 17 8.39 0.900 59.0 42 19 40 15 1.423 43 15 30 1.651 0.854 45 9 32 8.41 0.865 47.5 42 15 28 17 8.47 0.899 58.6 41 15 40 15 1.414 45 25 40 1.655 0.852 45 29 44 8.22 0.862 49.3 42 23 40 17 9.10 0.891 55.5 42 13 30 15 1.411 45 23 42 1.657 0.851 45 27 14 8.02 0.854 50.7 42 21 42 17 8.61 0.889 57.6 42 13 34 15 1.399 45 21 40 1.663 0.848 43 15 30 8.18 0.853 48.8 42 17 34 17 8.76 0.883 56.7 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.67 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,150.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-71 Cycle: 23 Core Average Exposure: MWd/MTU 35726.3 Exposure: MWd/MTU (GWd) 19151.0 (1944.61 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.257 7.243 37 0.663 0.729 3 24 Inlet Subcooling: Btu/lbm -28.29 24 0.578 18.113 38 0.335 0.533 15 48 Flow: Mlb/hr 78.15 (101.50 %) 23 0.964 26.081 39 0.423 0.743 17 48 22 1.137 30.715 40 0.468 0.897 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.239 33.319 41 0.793 1.136 13 38 51 -- -- -- -- -- 51 20 1.314 35.237 42 1.083 1.220 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.343 36.264 43 1.336 1.420 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.364* 37.501 44 1.202 1.364 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.358 38.416 45 1.341 1.464 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.337 38.919 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.338 39.393 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.297 39.831 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.326 39.735 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.289 41.105 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.223 41.948 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.193 41.573 7 -- -- -- -- -- -- -- -- -- 7 9 1.136 42.281 3 -- -- -- -- -- 3 8 1.050 42.782 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.954 43.264 6 0.852 43.955*

5 0.736 43.882 4 0.623 42.741 Control Rod Density: % 0.00 3 0.537 40.053 2 0.429 31.441 k-effective: 0.99977 Bottom 1 0.125 9.238 Void Fraction: 0.353 Core Delta-P: psia 21.997 % AXIAL TILT 14.277 -10.032 Core Plate Delta-P: psia 17.437 AVG BOT 8ft/12ft 0.9363 1.0586 Coolant Temp: Deg-F 545.4 In Channel Flow: Mlb/hr 69.11 Active Channel Flow: Mlb/hr 66.93 Total Bypass Flow (%): 11.6 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.464 45 13 28 1.556 0.906 45 13 28 8.45 0.880 48.6 42 11 28 17 9.00 0.911 56.8 42 11 28 15 1.452 45 9 28 1.572 0.897 45 9 28 8.38 0.870 48.5 42 13 30 17 8.59 0.902 58.2 42 11 22 15 1.444 45 11 30 1.595 0.884 45 11 30 7.99 0.863 52.0 42 25 42 15 8.37 0.899 59.0 42 31 42 15 1.428 45 13 32 1.612 0.875 45 9 30 8.21 0.860 49.1 42 11 32 17 8.75 0.898 57.4 42 25 42 15 1.423 45 9 30 1.613 0.874 45 13 32 8.26 0.858 48.4 42 15 32 17 8.29 0.894 59.2 41 13 16 15 1.421 45 25 44 1.629 0.865 45 25 44 8.08 0.855 50.2 42 13 34 17 8.32 0.892 59.0 42 19 40 15 1.420 43 15 30 1.648 0.856 45 9 32 8.30 0.854 47.5 42 15 28 17 8.40 0.891 58.6 41 15 40 15 1.411 45 25 40 1.652 0.854 45 29 44 8.11 0.851 49.3 42 23 40 17 9.00 0.882 55.5 42 13 30 15 1.409 45 23 42 1.653 0.853 45 27 14 7.92 0.844 50.7 42 21 42 17 8.53 0.880 57.6 42 13 34 15 1.397 45 21 40 1.659 0.850 43 15 30 8.07 0.842 48.8 42 17 34 17 8.67 0.874 56.7 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.68 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,151.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-72 Cycle: 23 Core Average Exposure: MWd/MTU 35825.2 Exposure: MWd/MTU (GWd) 19250.0 (1954.66 )

Delta E: MWd/MTU, (GWd) 99.0 ( 10.05 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.260 7.270 37 0.662 0.729 3 24 Inlet Subcooling: Btu/lbm -27.40 24 0.586 18.175 38 0.334 0.533 15 48 Flow: Mlb/hr 80.46 (104.50 %) 23 0.977 26.185 39 0.423 0.743 17 48 22 1.152 30.838 40 0.467 0.899 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.254 33.453 41 0.794 1.137 13 38 51 -- -- -- -- -- 51 20 1.328 35.380 42 1.082 1.222 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.356 36.410 43 1.333 1.419 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.375* 37.648 44 1.204 1.368 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.367 38.563 45 1.343 1.465 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.344 39.063 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.343 39.532 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.300 39.966 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.328 39.862 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.291 41.228 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.223 42.065 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.191 41.682 7 -- -- -- -- -- -- -- -- -- 7 9 1.131 42.384 3 -- -- -- -- -- 3 8 1.042 42.878 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.941 43.351 6 0.835 44.032*

5 0.717 43.949 4 0.604 42.797 Control Rod Density: % 0.00 3 0.519 40.101 2 0.414 31.479 k-effective: 0.99982 Bottom 1 0.121 9.250 Void Fraction: 0.347 Core Delta-P: psia 22.926 % AXIAL TILT 15.264 -9.943 Core Plate Delta-P: psia 18.366 AVG BOT 8ft/12ft 0.9304 1.0581 Coolant Temp: Deg-F 545.5 In Channel Flow: Mlb/hr 71.21 Active Channel Flow: Mlb/hr 68.98 Total Bypass Flow (%): 11.5 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00045 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.465 45 13 28 1.570 0.898 45 13 28 8.52 0.888 48.8 42 11 28 17 9.05 0.920 57.0 42 11 28 15 1.456 45 9 28 1.584 0.890 45 9 28 8.43 0.878 48.6 42 13 30 17 8.63 0.911 58.4 42 11 22 15 1.447 45 11 30 1.606 0.878 45 11 30 8.03 0.869 52.2 42 25 42 15 8.41 0.908 59.2 42 31 42 15 1.428 45 13 32 1.623 0.869 45 9 30 8.28 0.868 49.3 42 11 32 17 8.79 0.907 57.5 42 25 42 15 1.427 45 9 30 1.629 0.866 45 13 32 8.30 0.864 48.6 42 15 32 17 8.34 0.904 59.4 41 13 16 15 1.424 45 25 44 1.642 0.859 45 27 44 8.13 0.863 50.3 42 13 34 17 8.45 0.900 58.8 41 15 40 15 1.419 43 15 30 1.659 0.850 45 9 32 8.35 0.860 47.7 42 15 28 17 8.35 0.900 59.2 42 19 40 15 1.411 45 25 40 1.664 0.848 45 29 44 8.16 0.857 49.5 42 23 40 17 9.04 0.890 55.7 42 13 30 15 1.410 45 23 42 1.669 0.845 45 27 14 7.98 0.851 50.9 42 21 42 17 8.56 0.888 57.8 42 13 34 15 1.397 45 21 40 1.675 0.842 44 7 28 7.88 0.848 51.7 42 19 40 17 8.71 0.882 56.8 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.69 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,250.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-73 Cycle: 23 Core Average Exposure: MWd/MTU 35826.2 Exposure: MWd/MTU (GWd) 19251.0 (1954.76 )

Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.256 7.270 37 0.666 0.732 3 24 Inlet Subcooling: Btu/lbm -31.16 24 0.576 18.176 38 0.335 0.536 15 48 Flow: Mlb/hr 77.00 (100.00 %) 23 0.959 26.186 39 0.424 0.747 17 48 22 1.131 30.840 40 0.469 0.902 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.232 33.455 41 0.797 1.136 13 38 51 -- -- -- -- -- 51 20 1.306 35.381 42 1.081 1.218 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.334 36.411 43 1.331 1.415 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.354* 37.650 44 1.204 1.366 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.348 38.564 45 1.341 1.461 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.327 39.064 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.330 39.534 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.291 39.967 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.323 39.863 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.291 41.230 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.229 42.067 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.203 41.683 7 -- -- -- -- -- -- -- -- -- 7 9 1.149 42.385 3 -- -- -- -- -- 3 8 1.065 42.879 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.968 43.351 6 0.862 44.032*

5 0.742 43.949 4 0.627 42.798 Control Rod Density: % 0.00 3 0.540 40.101 2 0.431 31.480 k-effective: 0.99965 Bottom 1 0.126 9.250 Void Fraction: 0.346 Core Delta-P: psia 21.361 % AXIAL TILT 13.558 -9.942 Core Plate Delta-P: psia 16.792 AVG BOT 8ft/12ft 0.9399 1.0581 Coolant Temp: Deg-F 544.7 In Channel Flow: Mlb/hr 68.13 Active Channel Flow: Mlb/hr 66.00 Total Bypass Flow (%): 11.5 (of total core flow)

Total Water Rod Flow (%): 2.8 (of total core flow)

Source Convergence 0.00043 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.461 45 13 28 1.561 0.903 45 13 28 8.37 0.873 48.8 42 11 28 17 8.93 0.908 57.0 42 11 28 15 1.452 45 9 28 1.574 0.896 45 9 28 8.29 0.863 48.6 42 13 30 17 8.53 0.900 58.4 42 11 22 15 1.442 45 11 30 1.598 0.882 45 11 30 7.93 0.858 52.2 42 25 42 15 8.32 0.897 59.2 42 31 42 15 1.424 45 13 32 1.615 0.873 45 9 30 8.14 0.854 49.3 42 11 32 17 8.68 0.895 57.5 42 25 42 15 1.423 45 9 30 1.621 0.870 45 13 32 8.16 0.849 48.6 42 15 32 17 8.25 0.894 59.4 41 13 16 15 1.421 45 25 44 1.632 0.864 45 27 44 8.00 0.849 50.3 42 13 34 17 8.36 0.891 58.8 41 15 40 15 1.415 43 15 30 1.651 0.854 45 9 32 8.20 0.845 47.7 42 15 28 17 8.25 0.890 59.2 42 19 40 15 1.408 45 25 40 1.655 0.852 45 29 44 8.03 0.843 49.5 42 23 40 17 8.92 0.878 55.7 42 13 30 15 1.407 45 23 42 1.660 0.850 45 27 14 7.85 0.838 50.9 42 21 42 17 8.46 0.878 57.8 42 13 34 15 1.394 45 21 40 1.665 0.847 43 15 30 7.76 0.835 51.7 42 19 40 17 8.60 0.871 56.9 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.70 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,251.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-74 Cycle: 23 Core Average Exposure: MWd/MTU 35919.6 Exposure: MWd/MTU (GWd) 19344.5 (1964.26 )

Delta E: MWd/MTU, (GWd) 93.5 ( 9.50 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.259 7.296 37 0.665 0.732 3 24 Inlet Subcooling: Btu/lbm -29.69 24 0.585 18.234 38 0.334 0.534 15 48 Flow: Mlb/hr 80.46 (104.50 %) 23 0.975 26.284 39 0.423 0.746 17 48 22 1.150 30.955 40 0.468 0.902 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.251 33.581 41 0.796 1.138 13 38 51 -- -- -- -- -- 51 20 1.324 35.515 42 1.081 1.221 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.350 36.548 43 1.329 1.415 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.368* 37.788 44 1.207 1.371 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.360 38.702 45 1.344 1.463 13 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.337 39.198 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.339 39.665 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.298 40.095 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.329 39.983 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.295 41.346 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.231 42.178 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.203 41.787 7 -- -- -- -- -- -- -- -- -- 7 9 1.145 42.484 3 -- -- -- -- -- 3 8 1.054 42.970 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.950 43.434 6 0.838 44.106*

5 0.715 44.012 4 0.600 42.851 Control Rod Density: % 0.00 3 0.514 40.147 2 0.410 31.516 k-effective: 1.00014 Bottom 1 0.120 9.261 Void Fraction: 0.338 Core Delta-P: psia 22.746 % AXIAL TILT 14.873 -9.860 Core Plate Delta-P: psia 18.177 AVG BOT 8ft/12ft 0.9323 1.0577 Coolant Temp: Deg-F 544.9 In Channel Flow: Mlb/hr 71.27 Active Channel Flow: Mlb/hr 69.07 Total Bypass Flow (%): 11.4 (of total core flow)

Total Water Rod Flow (%): 2.7 (of total core flow)

Source Convergence 0.00041 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.463 45 13 28 1.582 0.891 45 13 28 8.47 0.885 49.0 42 11 28 17 9.01 0.920 57.2 42 11 28 15 1.457 45 9 28 1.594 0.885 45 9 28 8.37 0.873 48.8 42 13 30 17 8.60 0.912 58.6 42 11 22 15 1.446 45 11 30 1.617 0.872 45 11 30 8.00 0.867 52.3 42 25 42 15 8.38 0.909 59.4 42 31 42 15 1.428 45 9 30 1.633 0.864 45 9 30 8.23 0.865 49.5 42 11 32 17 8.33 0.907 59.5 41 13 16 15 1.426 45 13 32 1.642 0.859 45 13 32 8.08 0.859 50.5 42 13 34 17 8.75 0.907 57.7 42 25 42 15 1.425 45 25 44 1.652 0.854 45 27 44 8.24 0.858 48.8 42 15 32 17 8.44 0.903 58.9 41 15 40 15 1.415 43 15 30 1.669 0.845 45 9 32 8.28 0.854 47.9 42 15 28 17 8.31 0.900 59.3 42 19 40 15 1.409 45 23 42 1.674 0.842 45 29 44 8.10 0.853 49.6 42 23 40 17 8.99 0.889 55.9 42 13 30 15 1.409 45 25 40 1.683 0.838 45 27 14 7.94 0.848 51.0 42 21 42 17 8.53 0.888 57.9 42 13 34 15 1.397 45 23 44 1.683 0.838 44 7 28 7.83 0.845 51.9 42 19 40 17 8.66 0.881 57.0 42 23 40 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.71 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,344.5 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-75 Cycle: 23 Core Average Exposure: MWd/MTU 36322.5 Exposure: MWd/MTU (GWd) 19747.5 (2005.18 )

Delta E: MWd/MTU, (GWd) 403.0 ( 40.92 ) Axial Profile Edit Radial Power Power: MWt 2710.2 ( 92.72 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.268 7.410 37 0.665 0.734 3 24 Inlet Subcooling: Btu/lbm -27.37 24 0.609 18.493 38 0.333 0.533 15 48 Flow: Mlb/hr 80.46 (104.50 %) 23 1.017 26.720 39 0.422 0.746 17 48 22 1.196 31.469 40 0.468 0.906 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.298 34.140 41 0.797 1.141 13 38 51 -- -- -- -- -- 51 20 1.367 36.105 42 1.078 1.227 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.384 37.148 43 1.322 1.413 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.394* 38.395 44 1.212 1.385 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.378 39.303 45 1.350 1.471 9 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.347 39.782 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.344 40.233 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.299 40.645 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.327 40.499 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.289 41.849 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.221 42.654 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.189 42.233 7 -- -- -- -- -- -- -- -- -- 7 9 1.124 42.906 3 -- -- -- -- -- 3 8 1.026 43.356 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.914 43.780 6 0.797 44.409*

5 0.673 44.270 4 0.562 43.066 Control Rod Density: % 0.00 3 0.481 40.332 2 0.384 31.663 k-effective: 0.99946 Bottom 1 0.112 9.308 Void Fraction: 0.321 Core Delta-P: psia 22.349 % AXIAL TILT 17.435 -9.489 Core Plate Delta-P: psia 17.790 AVG BOT 8ft/12ft 0.9152 1.0558 Coolant Temp: Deg-F 545.1 In Channel Flow: Mlb/hr 71.46 Active Channel Flow: Mlb/hr 69.31 Total Bypass Flow (%): 11.2 (of total core flow)

Total Water Rod Flow (%): 2.7 (of total core flow)

Source Convergence 0.00046 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.471 45 9 28 1.687 0.836 45 13 28 8.01 0.843 49.7 42 11 28 17 8.44 0.879 57.9 42 11 28 15 1.467 45 13 28 1.695 0.832 45 9 28 7.88 0.828 49.5 42 13 30 17 8.03 0.869 59.3 42 11 22 15 1.453 45 11 30 1.717 0.821 45 11 30 7.78 0.823 50.2 42 11 32 17 7.82 0.865 60.1 42 31 42 15 1.441 45 9 30 1.732 0.814 45 9 30 7.72 0.821 50.6 42 25 42 17 7.79 0.864 60.2 41 13 16 15 1.435 45 25 44 1.752 0.805 45 13 32 7.72 0.815 50.0 42 13 34 18 8.18 0.864 58.5 42 25 42 15 1.429 45 13 32 1.757 0.802 45 27 44 7.72 0.811 49.5 42 15 32 17 7.89 0.862 59.6 41 15 40 15 1.414 45 23 42 1.775 0.795 45 9 32 7.76 0.807 48.6 42 15 28 17 7.71 0.855 60.2 42 19 40 15 1.413 43 15 30 1.779 0.793 44 7 28 7.61 0.807 50.3 42 23 40 17 8.38 0.845 56.7 42 13 30 15 1.409 45 25 40 1.780 0.792 45 29 44 7.48 0.806 51.7 42 21 42 17 7.92 0.844 58.8 42 13 34 15 1.407 45 23 44 1.801 0.783 45 27 14 7.36 0.800 52.5 42 19 40 17 7.67 0.841 59.8 41 21 8 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.72 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,747.5 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-76 Cycle: 23 Core Average Exposure: MWd/MTU 36375.2 Exposure: MWd/MTU (GWd) 19800.0 (2010.51 )

Delta E: MWd/MTU, (GWd) 52.5 ( 5.33 ) Axial Profile Edit Radial Power Power: MWt 2696.6 ( 92.25 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.269 7.425 37 0.664 0.734 3 24 Inlet Subcooling: Btu/lbm -27.22 24 0.612 18.528 38 0.332 0.533 15 48 Flow: Mlb/hr 80.46 (104.50 %) 23 1.022 26.778 39 0.422 0.746 17 48 22 1.201 31.537 40 0.467 0.907 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.303 34.215 41 0.797 1.142 13 38 51 -- -- -- -- -- 51 20 1.371 36.183 42 1.078 1.228 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.388 37.227 43 1.321 1.413 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.397* 38.475 44 1.213 1.387 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.380 39.382 45 1.351 1.472 9 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.349 39.858 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.345 40.308 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.300 40.716 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.327 40.567 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.290 41.915 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.220 42.716 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.188 42.291 7 -- -- -- -- -- -- -- -- -- 7 9 1.122 42.960 3 -- -- -- -- -- 3 8 1.022 43.406 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.909 43.824 6 0.791 44.448*

5 0.668 44.303 4 0.557 43.093 Control Rod Density: % 0.00 3 0.477 40.355 2 0.381 31.682 k-effective: 0.99946 Bottom 1 0.111 9.313 Void Fraction: 0.319 Core Delta-P: psia 22.316 % AXIAL TILT 17.749 -9.439 Core Plate Delta-P: psia 17.757 AVG BOT 8ft/12ft 0.9132 1.0556 Coolant Temp: Deg-F 545.1 In Channel Flow: Mlb/hr 71.48 Active Channel Flow: Mlb/hr 69.33 Total Bypass Flow (%): 11.2 (of total core flow)

Total Water Rod Flow (%): 2.7 (of total core flow)

Source Convergence 0.00034 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.472 45 9 28 1.694 0.833 45 13 28 7.99 0.842 49.8 42 11 28 17 8.41 0.878 58.0 42 11 28 15 1.467 45 13 28 1.701 0.829 45 9 28 7.86 0.826 49.6 42 13 30 17 8.00 0.868 59.4 42 11 22 15 1.454 45 11 30 1.723 0.819 45 11 30 7.76 0.822 50.3 42 11 32 17 7.79 0.864 60.2 42 31 42 15 1.442 45 9 30 1.738 0.811 45 9 30 7.70 0.820 50.7 42 25 42 17 8.15 0.863 58.6 42 25 42 15 1.436 45 25 44 1.759 0.802 45 13 32 7.70 0.814 50.1 42 13 34 18 7.75 0.863 60.3 41 13 16 15 1.429 45 13 32 1.764 0.799 45 27 44 7.69 0.809 49.6 42 15 32 17 7.86 0.861 59.7 41 15 40 15 1.415 45 23 42 1.780 0.792 45 9 32 7.73 0.805 48.7 42 15 28 17 7.68 0.853 60.3 42 19 40 15 1.413 43 15 30 1.784 0.790 44 7 28 7.58 0.805 50.4 42 23 40 17 8.35 0.844 56.8 42 13 30 15 1.409 45 25 40 1.787 0.789 45 29 44 7.46 0.804 51.8 42 21 42 17 7.89 0.843 58.9 42 13 34 15 1.408 45 23 44 1.809 0.779 45 27 14 7.34 0.798 52.6 42 19 40 17 7.64 0.840 59.9 41 21 8 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.73 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 19,800.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-77 Cycle: 23 Core Average Exposure: MWd/MTU 36825.1 Exposure: MWd/MTU (GWd) 20250.0 (2056.20 )

Delta E: MWd/MTU, (GWd) 450.0 ( 45.69 ) Axial Profile Edit Radial Power Power: MWt 2447.3 ( 83.73 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.280 7.557 37 0.663 0.736 3 24 Inlet Subcooling: Btu/lbm -24.50 24 0.641 18.831 38 0.331 0.531 15 48 Flow: Mlb/hr 80.46 (104.50 %) 23 1.073 27.290 39 0.421 0.746 17 48 22 1.257 32.137 40 0.466 0.911 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.358 34.867 41 0.797 1.146 13 38 51 -- -- -- -- -- 51 20 1.421 36.868 42 1.075 1.235 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.427* 37.917 43 1.313 1.411 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.427 39.167 44 1.220 1.403 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.401 40.063 45 1.358 1.489 9 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.362 40.516 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.354 40.946 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.303 41.332 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.328 41.143 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.287 42.475 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.213 43.245 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.173 42.783 7 -- -- -- -- -- -- -- -- -- 7 9 1.097 43.420 3 -- -- -- -- -- 3 8 0.986 43.822 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.863 44.192 6 0.739 44.765*

5 0.616 44.569 4 0.510 43.315 Control Rod Density: % 0.00 3 0.436 40.544 2 0.347 31.833 k-effective: 0.99959 Bottom 1 0.102 9.361 Void Fraction: 0.299 Core Delta-P: psia 21.865 % AXIAL TILT 20.843 -8.997 Core Plate Delta-P: psia 17.318 AVG BOT 8ft/12ft 0.8929 1.0533 Coolant Temp: Deg-F 545.4 In Channel Flow: Mlb/hr 71.70 Active Channel Flow: Mlb/hr 69.62 Total Bypass Flow (%): 10.9 (of total core flow)

Total Water Rod Flow (%): 2.6 (of total core flow)

Source Convergence 0.00044 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.489 45 9 28 1.841 0.766 45 13 28 7.41 0.788 50.6 42 11 28 17 7.72 0.826 58.9 42 11 28 15 1.472 45 13 28 1.844 0.765 45 9 28 7.33 0.771 49.6 42 11 32 18 7.33 0.814 60.2 42 11 22 15 1.464 45 11 30 1.864 0.757 45 11 30 7.25 0.770 50.4 42 13 30 17 7.47 0.810 59.4 42 25 42 15 1.458 45 9 30 1.878 0.751 45 9 30 7.13 0.765 51.5 42 25 42 17 7.11 0.810 61.1 41 13 16 15 1.449 45 25 44 1.911 0.738 45 27 44 7.15 0.762 50.9 42 13 34 18 7.13 0.809 61.0 42 31 42 15 1.432 45 13 32 1.913 0.737 45 13 32 7.19 0.754 49.3 42 15 32 18 7.22 0.808 60.5 41 15 40 15 1.421 45 23 42 1.920 0.734 44 7 28 7.01 0.751 51.2 42 21 42 18 7.02 0.797 61.1 42 19 40 15 1.421 45 23 44 1.928 0.731 45 9 32 7.20 0.748 48.6 42 15 28 18 7.28 0.791 59.5 41 7 22 15 1.411 43 15 30 1.934 0.729 45 29 44 7.06 0.748 50.2 42 23 40 18 7.04 0.790 60.6 41 21 8 15 1.410 45 25 40 1.956 0.721 45 7 30 6.89 0.746 52.2 42 19 40 18 7.64 0.790 57.6 42 13 30 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.74 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 20,250.0 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page A-78 Cycle: 23 Core Average Exposure: MWd/MTU 37272.6 Exposure: MWd/MTU (GWd) 20697.5 (2101.64 )

Delta E: MWd/MTU, (GWd) 447.5 ( 45.44 ) Axial Profile Edit Radial Power Power: MWt 2159.0 ( 73.86 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure: psia 1044.7 Top 25 0.293 7.695 37 0.661 0.737 3 24 Inlet Subcooling: Btu/lbm -21.35 24 0.678 19.149 38 0.328 0.528 15 48 Flow: Mlb/hr 80.46 (104.50 %) 23 1.138 27.827 39 0.419 0.744 17 48 22 1.328 32.765 40 0.464 0.915 5 34 2 6 10 14 18 22 26 30 34 38 42 46 50 21 1.427 35.545 41 0.798 1.150 13 38 51 -- -- -- -- -- 51 20 1.481* 37.574 42 1.071 1.244 11 28 47 -- -- -- -- -- -- -- -- -- 47 19 1.475 38.624 43 1.304 1.409 15 30 43 -- -- -- -- -- -- -- -- -- -- -- 43 18 1.462 39.871 44 1.228 1.423 7 28 39 -- -- -- -- -- -- -- -- -- -- -- 39 17 1.424 40.752 45 1.367 1.509 9 28 35 -- -- -- -- -- -- -- -- -- -- -- -- -- 35 16 1.373 41.176 31 -- -- -- -- -- -- -- -- -- -- -- -- -- 31 15 1.358 41.584 27 -- -- -- -- -- -- -- -- -- -- -- -- -- 27 14 1.301 41.945 23 -- -- -- -- -- -- -- -- -- -- -- -- -- 23 13 1.321 41.716 19 -- -- -- -- -- -- -- -- -- -- -- -- -- 19 12 1.274 43.028 15 -- -- -- -- -- -- -- -- -- -- -- 15 11 1.191 43.764 11 -- -- -- -- -- -- -- -- -- -- -- 11 10 1.143 43.262 7 -- -- -- -- -- -- -- -- -- 7 9 1.058 43.865 3 -- -- -- -- -- 3 8 0.937 44.219 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.808 44.537 6 0.684 45.059*

5 0.566 44.813 4 0.468 43.517 Control Rod Density: % 0.00 3 0.399 40.716 2 0.319 31.970 k-effective: 0.99937 Bottom 1 0.094 9.404 Void Fraction: 0.274 Core Delta-P: psia 21.366 % AXIAL TILT 24.477 -8.527 Core Plate Delta-P: psia 16.833 AVG BOT 8ft/12ft 0.8679 1.0508 Coolant Temp: Deg-F 545.9 In Channel Flow: Mlb/hr 71.94 Active Channel Flow: Mlb/hr 69.95 Total Bypass Flow (%): 10.6 (of total core flow)

Total Water Rod Flow (%): 2.5 (of total core flow)

Source Convergence 0.00045 Top Ten Thermal Limits Summary - Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.509 45 9 28 2.049 0.688 45 9 28 6.85 0.725 50.2 42 11 28 18 6.89 0.754 59.8 42 11 28 15 1.478 45 13 28 2.051 0.687 45 13 28 6.67 0.708 50.4 42 11 32 18 6.51 0.740 61.1 42 11 22 15 1.477 45 9 30 2.066 0.682 45 11 30 6.60 0.704 50.8 42 13 30 18 6.65 0.738 60.3 42 25 42 15 1.475 45 11 30 2.080 0.678 45 9 30 6.47 0.697 51.7 42 13 34 18 6.43 0.736 61.3 41 15 40 15 1.465 45 25 44 2.117 0.666 44 7 28 6.46 0.697 51.8 42 25 42 18 6.43 0.735 61.3 42 21 42 15 1.436 45 13 32 2.124 0.664 45 27 44 6.37 0.688 52.0 42 21 42 18 6.30 0.734 61.9 41 13 16 15 1.435 45 23 44 2.278 0.661 42 11 28 6.48 0.686 50.1 42 15 32 18 6.21 0.722 61.9 42 19 40 15 1.428 45 23 42 2.135 0.660 45 13 32 6.38 0.682 51.0 42 23 40 18 6.48 0.721 60.3 41 7 22 15 1.423 44 7 28 2.142 0.658 45 9 32 6.49 0.681 49.4 42 15 28 18 6.32 0.719 61.1 42 9 34 15 1.423 45 9 32 2.147 0.657 45 29 44 6.23 0.681 53.0 42 19 40 18 6.25 0.718 61.4 41 21 8 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction & CPR limit type 3 Figure A.75 Brunswick Unit 1 Cycle 23 Control Rod Pattern and Axial Distributions at 20,697.5 MWd/MTU

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page B-1 Appendix B Elevation Views of the Brunswick Unit 1 Cycle 23 Fresh Reload Batch Fuel Assemblies

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page B-2 Figure B.1 Elevation View for the Brunswick Unit 1 Cycle 24 Fresh Fuel Reload Batch ATRIUM 11 [ ] Fuel Assembly Design

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page B-3 Figure B.2 Elevation View for the Brunswick Unit 1 Cycle 23 Fresh Fuel Reload Batch BRK1-23 ATRIUM 11 [ ] Fuel Assembly Design

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page B-4 Figure B.3 Elevation View for the Brunswick Unit 1 Cycle 23 Fresh Fuel Reload Batch BRK1-23 ATRIUM 11 [ ] Fuel Assembly Design

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page C-1 Appendix C Brunswick Unit 1 Cycle 23 Fresh Fuel Locations

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page C-2 Table C.1 Brunswick Unit 1 Cycle 23 Reload Fuel Identification and Locations ( [ ])

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page C-3 Table C.2 Brunswick Unit 1 Cycle 23 Reload Fuel Identification and Locations ( [ ])

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page C-4 Table C.3 Brunswick Unit 1 Cycle 23 Reload Fuel Identification and Locations ( [ ])

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-1 Appendix D Brunswick Unit 1 Cycle 23 Radial Exposure and Power Distributions

Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-2

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Figure D.1 Brunswick Unit 1 Cycle 23 BOC Exposure Distribution (GWd/MTU)

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Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-3

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Figure D.1 Brunswick Unit 1 Cycle 23 BOC Exposure Distribution (GWd/MTU) (Continued)

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Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-4

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Figure D.2 Brunswick Unit 1 Cycle 23 EOC Exposure Distribution (20.7 GWd/MTU)

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Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-5

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Figure D.2 Brunswick Unit 1 Cycle 23 EOC Exposure Distribution (20.7 GWd/MTU) (Continued)

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Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-6

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Figure D.3 Brunswick Unit 1 Cycle 23 Radial Power Distribution at 0.0 MWd/MTU

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Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-7

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Figure D.3 Brunswick Unit 1 Cycle 23 Radial Power Distribution at 0.0 MWd/MTU (Continued)

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Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-8

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Figure D.4 Brunswick Unit 1 Cycle 23 Radial Power Distribution at 19,344.5 MWd/MTU (EOFP)

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Controlled Document Framatome Inc. ANP-3759NP Revision 0 Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report Page D-9

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Figure D.4 Brunswick Unit 1 Cycle 23 Radial Power Distribution at 19,344.5 MWd/MTU (EOFP) (Continued)

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RA-19-0139 Enclosure 4 ANP-3758NP, Brunswick Unit 1 Cycle 23 ATRIUM-11 Fuel Nuclear Fuel Design Report, Revision 0

Controlled Document 0414-12-F04 (Rev. 003, 09/17/2018)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 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-3758NP Revision 0 Brunswick Unit 1 Cycle 23 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-3758NP Revision 0 Brunswick Unit 1 Cycle 23 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 Original Equipment ...................................................................... 2-9 Table 2.3 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-10 Table 2.4 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-11 Table 2.5 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-12 Table 2.6 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-13 Table 2.7 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-15 Table 2.10 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-16 Table 2.11 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-17 Table 2.12 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-18 Table 2.13 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-19 Table 2.14 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-21 Table 2.17 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-22 Table 2.18 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-23 Table 2.19 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-24 Table 2.20 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-25 Table 2.21 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-27 Table 2.24 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-28

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page iv Table 2.25 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-29 Table 2.26 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-30 Table 2.27 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-31 Table 2.28 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-33 Table 2.31 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-34 Table 2.32 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-35 Table 2.33 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-36 Table 2.34 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-37 Table 2.35 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-39 Table 2.38 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-40 Table 2.39 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-41 Table 2.40 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-42 Table 2.41 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-43 Table 2.42 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-45 Table 2.45 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-46 Table 2.46 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-47 Table 2.47 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-48 Table 2.48 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-49 Table 2.49 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 2-50

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page v Table 2.50 Lattice [ ] Kinetics Parameters at BOL ................................ 2-50 Table 2.51 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment .................................................................... 2-51 Table 2.52 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-52 Table 2.53 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-53 Table 2.54 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-54 Table 2.55 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-55 Table 2.56 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-57 Table 2.59 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-58 Table 2.60 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-59 Table 2.61 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-60 Table 2.62 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-61 Table 2.63 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-63 Table 2.66 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-64 Table 2.67 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-65 Table 2.68 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-66 Table 2.69 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-67 Table 2.70 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-69 Table 2.73 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-70 Table 2.74 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-71

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page vi Table 2.75 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-72 Table 2.76 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-73 Table 2.77 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-75 Table 2.80 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-76 Table 2.81 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-77 Table 2.82 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-78 Table 2.83 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-79 Table 2.84 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-81 Table 2.87 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-82 Table 2.88 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-83 Table 2.89 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-84 Table 2.90 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-85 Table 2.91 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-87 Table 2.94 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-88 Table 2.95 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-89 Table 2.96 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-90 Table 2.97 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-91 Table 2.98 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 2-92 Table 2.99 Lattice [ ] Kinetics Parameters at BOL ................................ 2-92

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page vii Table 2.100 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment .................................................................... 2-93 Table 2.101 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 ...................................................................................... 2-94 Table 2.102 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1.......................................................... 2-95 Table 2.103 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ............................................. 2-96 Table 2.104 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ......................................................... 2-97 Table 2.105 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 ................................................................ 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 Original Equipment .................................................................... 2-99 Table 2.108 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 .................................................................................... 2-100 Table 2.109 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1........................................................ 2-101 Table 2.110 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ........................................... 2-102 Table 2.111 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ....................................................... 2-103 Table 2.112 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 .............................................................. 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 Original Equipment .................................................................. 2-105 Table 2.115 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 .................................................................................... 2-106 Table 2.116 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1........................................................ 2-107 Table 2.117 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ........................................... 2-108 Table 2.118 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ....................................................... 2-109 Table 2.119 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 .............................................................. 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 Original Equipment .................................................................. 2-111 Table 2.122 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 .................................................................................... 2-112 Table 2.123 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1........................................................ 2-113 Table 2.124 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP ........................................... 2-114

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page viii Table 2.125 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP ....................................................... 2-115 Table 2.126 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 .............................................................. 2-116 Table 2.127 Lattice [ ] Kinetics Parameters at BOL .............................. 2-116 List of Figures Figure 2.1 Assembly Type [ ] ............................................................ 2-117 Figure 2.2 Assembly Type [ ] ............................................................ 2-118 Figure 2.3 Assembly Type [ ] ........................................................... 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

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page ix Nomenclature Acronym Definition

[] Square brackets enclose information that is proprietary to Framatome.

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 PLFR part length fuel rod Z4B Zirconium-based alloy proprietary to Framatome Inc.

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 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 Brunswick Unit 1 fabrication batch BRK1-23 ATRIUM 11 boiling water reactor (BWR) fuel assemblies scheduled to be loaded in Cycle 23. The mechanical design parameters for the fuel are from Reference 1 and are shown in Table 2.1.

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

Revision 1 and Supplement 1 (Reference 2). 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 3).

The fuel design includes Framatome Inc. advanced fuel channels. Mechanical design criteria applicable to the design of these channels have been reviewed and approved by the NRC.

Reference 1 provides details of the application of the advanced channel for Brunswick Unit 1.

The fuel design assumes advanced fuel channels made of Zircaloy-4 and/or Z4B with a beta quench treatment.

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 [ ]

assemblies (Reference 7). 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-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-1 2.0 NEUTRONIC DESIGN The results of the Brunswick Unit 1 fabrication batch BRK1-23 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 2 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 2 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 BRK1-23 are presented in Table 2.1.

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

Each fuel assembly has top and bottom natural uranium blankets.

The plenum region above the PLFRs will be explicitly modeled.

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 consists of 3 assembly designs which vary axially in enrichment and/or gadolinia. The axial distributions of the lattices in the assemblies are shown in Figures 2.1, 2.2, and 2.3. The fuel rod distribution and axial descriptions are presented in Figures 2.4 through 2.7. The enrichment and gadolinia distribution maps for each of the reload assembly lattices are displayed in Appendix D.

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-2

The fuel assembly incorporates the Framatome Inc. advanced fuel channel which improves uranium utilization. For D-lattice plants, the fuel assembly is offset 40 mils toward the control blade.

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 Original Equipment, Duralife 160, Westinghouse-ABB CR82M-1, Westinghouse-ABB CR82M-1 HF TIP, Westinghouse-ABB CR99 TIP, and Westinghouse-ABB CR99 control blades. Kinetics parameters are calculated for fuel temperature (Doppler), moderator void, and moderator temperature. The Doppler reactivity was calculated over a fuel temperature range from hot standby to hot operating. The moderator void reactivity was evaluated between the 0% and 40% voided hot operating cases, and the moderator temperature reactivity was calculated from the cold to hot standby condition. The calculations neglect the spacer material and assume zero void in the coolant outside the fuel assembly channel as well as inside the internal water channel. 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 calculated at three void fractions are presented graphically in Appendix A, and in tabular format in Appendix B. The enriched lattice exposure-dependent isotopic data calculated at three void fractions are presented in Appendix C.

2.4 Criticality Compliance The Brunswick Unit 1 fabrication batch BRK1-23 ATRIUM 11 fuel assemblies satisfy the fuel design critical safety limits established for new and spent fuel storage at the Brunswick Unit 1 facility per References 4 and 5. Additionally, these reload assemblies conform to the nuclear criticality requirements as provided to the NRC for the Reference 6 shipping container.

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-3 Table 2.1 Neutronic Design Parameters

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-4 Table 2.1 Neutronic Design Parameters (Continued)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-5 Table 2.1 Neutronic Design Parameters (Continued)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-6 Table 2.1 Neutronic Design Parameters (Continued)

Parameter Design Value Control Blade Data for Westinghouse-ABB CR82M-1 Total span, cm Westinghouse Proprietary Total support span, cm Total thickness, cm Total face-to-face internal dimension, inch B4C rod absorber Number of rods Diameter of rod, cm Diameter of sheath, inch Theoretical density B4C, %

B4C zone span, cm Control Blade Data for Westinghouse-ABB CR82M-1 HF TIP Total span, cm Westinghouse Proprietary Total support span, cm Total thickness, cm Total face-to-face internal dimension, inch Hafnium rod absorber Number of rods Diameter of rod, cm Diameter of sheath, inch Hafnium rod zone span, cm

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-7 Table 2.1 Neutronic Design Parameters (Continued)

Parameter Design Value Control Blade Data for Westinghouse-ABB CR99 TIP Total span, cm Westinghouse Proprietary Total support span, cm Total thickness, cm Total face-to-face internal dimension, inch B4C rod absorber Number of rods Diameter of rod, cm Diameter of sheath, inch Theoretical density B4C, %

B4C zone span, cm Control Blade Data for Westinghouse-ABB CR99 Total span, cm Westinghouse Proprietary Total support span, cm Total thickness, cm Total face-to-face internal dimension, inch B4C rod absorber Number of rods Diameter of rod, cm Diameter of sheath, inch Theoretical density B4C, %

B4C zone span, cm

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-8 Table 2.1 Neutronic Design Parameters (Continued)

Parameter Design Value Core Data*

Number of fuel assemblies in the core 560 Rated thermal power level, MWt 2923.0 Rated core flow, Mlbm/hr 77.00 Inlet subcooling, Btu/lbm 21.3 Dome pressure, psia 1045.0 Boron concentration, PPM 720.0 Intermediate temperature, °F 200.00 Warm temperature, °F 360.00

Some values are representative of rated conditions and may vary depending on the core statepoint.

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-9 Table 2.2 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92137 1.09637 -0.1596 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90804 1.08820 -0.1656 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85765 1.05923 -0.1903 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.85373 1.05445 -0.1904 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.85380 1.05445 -0.1903 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.81623 1.03844 -0.2140 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.77229 1.02081 -0.2434 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-10 Table 2.3 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92090 1.09637 -0.1600 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90764 1.08820 -0.1659 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85725 1.05923 -0.1907 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.85333 1.05445 -0.1907 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.85339 1.05445 -0.1907 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.81537 1.03844 -0.2148 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.77065 1.02081 -0.2451 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-11 Table 2.4 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91571 1.09637 -0.1648 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90244 1.08820 -0.1707 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85087 1.05923 -0.1967 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.84700 1.05445 -0.1967 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.84708 1.05445 -0.1967 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.80802 1.03844 -0.2219 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.76160 1.02081 -0.2539 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-12 Table 2.5 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93767 1.09637 -0.1447 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92512 1.08820 -0.1499 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87855 1.05923 -0.1706 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.87451 1.05445 -0.1706 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.87451 1.05445 -0.1706 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.84053 1.03844 -0.1906 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.80093 1.02081 -0.2154 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-13 Table 2.6 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91329 1.09637 -0.1670 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89982 1.08820 -0.1731 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84716 1.05923 -0.2002 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.84330 1.05445 -0.2003 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.84338 1.05445 -0.2002 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.80268 1.03844 -0.2270 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.75378 1.02081 -0.2616 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-14 Table 2.7 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91151 1.09637 -0.1686 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89798 1.08820 -0.1748 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84493 1.05923 -0.2023 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.84108 1.05445 -0.2024 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.84117 1.05445 -0.2023 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.80005 1.03844 -0.2296 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.75060 1.02081 -0.2647 80% Void Table 2.8 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.05445 1.05923 -0.0045 1.03844 1.05445 -0.0152 1.05923 1.09637 -0.0339

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-15 Table 2.9 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.97979 1.16169 -0.1566 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.96573 1.15364 -0.1629 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90847 1.12049 -0.1892 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.90424 1.11537 -0.1893 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.90432 1.11537 -0.1892 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.85962 1.09453 -0.2146 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.80532 1.07061 -0.2478 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-16 Table 2.10 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.97914 1.16169 -0.1571 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.96517 1.15364 -0.1634 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90795 1.12049 -0.1897 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.90372 1.11537 -0.1898 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.90379 1.11537 -0.1897 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.85865 1.09453 -0.2155 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.80361 1.07061 -0.2494 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-17 Table 2.11 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.97375 1.16169 -0.1618 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.95974 1.15364 -0.1681 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90109 1.12049 -0.1958 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.89691 1.11537 -0.1959 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.89701 1.11537 -0.1958 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.85072 1.09453 -0.2228 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.79405 1.07061 -0.2583 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-18 Table 2.12 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.99779 1.16169 -0.1411 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.98452 1.15364 -0.1466 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.93104 1.12049 -0.1691 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.92668 1.11537 -0.1692 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.92668 1.11537 -0.1692 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.88565 1.09453 -0.1908 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.83586 1.07061 -0.2193 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-19 Table 2.13 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.97110 1.16169 -0.1641 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.95687 1.15364 -0.1706 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.89718 1.12049 -0.1993 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.89302 1.11537 -0.1993 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.89311 1.11537 -0.1993 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.84517 1.09453 -0.2278 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.78594 1.07061 -0.2659 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-20 Table 2.14 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.96909 1.16169 -0.1658 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.95481 1.15364 -0.1724 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.89471 1.12049 -0.2015 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.89057 1.11537 -0.2016 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.89066 1.11537 -0.2015 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.84227 1.09453 -0.2305 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.78245 1.07061 -0.2692 80% Void Table 2.15 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.11537 1.12049 -0.0046 1.09453 1.11537 -0.0187 1.12049 1.16169 -0.0355

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-21 Table 2.16 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93860 1.12073 -0.1625 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92572 1.11425 -0.1692 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87499 1.08892 -0.1965 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87082 1.08383 -0.1965 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87089 1.08383 -0.1965 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82958 1.06735 -0.2228 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.77724 1.04750 -0.2580 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-22 Table 2.17 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93810 1.12073 -0.1630 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92533 1.11425 -0.1696 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87467 1.08892 -0.1968 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87051 1.08383 -0.1968 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87057 1.08383 -0.1968 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82880 1.06735 -0.2235 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.77564 1.04750 -0.2595 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-23 Table 2.18 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93248 1.12073 -0.1680 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91970 1.11425 -0.1746 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86781 1.08892 -0.2031 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86370 1.08383 -0.2031 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86379 1.08383 -0.2030 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82089 1.06735 -0.2309 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76601 1.04750 -0.2687 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-24 Table 2.19 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.95578 1.12073 -0.1472 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.94380 1.11425 -0.1530 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.89725 1.08892 -0.1760 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.89296 1.08383 -0.1761 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.89296 1.08383 -0.1761 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.85550 1.06735 -0.1985 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.80802 1.04750 -0.2286 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-25 Table 2.20 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93021 1.12073 -0.1700 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91720 1.11425 -0.1769 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86420 1.08892 -0.2064 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86011 1.08383 -0.2064 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86019 1.08383 -0.2063 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.81564 1.06735 -0.2358 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.75824 1.04750 -0.2761 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-26 Table 2.21 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92825 1.12073 -0.1718 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91518 1.11425 -0.1787 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86177 1.08892 -0.2086 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.85769 1.08383 -0.2087 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.85777 1.08383 -0.2086 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.81276 1.06735 -0.2385 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.75472 1.04750 -0.2795 80% Void Table 2.22 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.08383 1.08892 -0.0047 1.06735 1.08383 -0.0152 1.08892 1.12073 -0.0284

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-27 Table 2.23 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93065 1.10611 -0.1586 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91749 1.09947 -0.1655 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86667 1.07495 -0.1938 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86258 1.06997 -0.1938 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86265 1.06997 -0.1938 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82119 1.05387 -0.2208 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76782 1.03366 -0.2572 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-28 Table 2.24 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93023 1.10611 -0.1590 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91717 1.09947 -0.1658 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86646 1.07495 -0.1940 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86238 1.06997 -0.1940 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86244 1.06997 -0.1940 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82053 1.05387 -0.2214 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76633 1.03366 -0.2586 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-29 Table 2.25 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92451 1.10611 -0.1642 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91144 1.09947 -0.1710 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85954 1.07495 -0.2004 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.85552 1.06997 -0.2004 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.85560 1.06997 -0.2004 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.81258 1.05387 -0.2290 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.75669 1.03366 -0.2680 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-30 Table 2.26 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94669 1.10611 -0.1441 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93442 1.09947 -0.1501 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.88790 1.07495 -0.1740 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.88369 1.06997 -0.1741 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.88369 1.06997 -0.1741 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.84619 1.05387 -0.1971 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.79786 1.03366 -0.2281 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-31 Table 2.27 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92270 1.10611 -0.1658 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90940 1.09947 -0.1729 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85637 1.07495 -0.2033 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.85235 1.06997 -0.2034 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.85243 1.06997 -0.2033 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.80774 1.05387 -0.2336 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.74924 1.03366 -0.2752 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-32 Table 2.28 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92084 1.10611 -0.1675 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90748 1.09947 -0.1746 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85404 1.07495 -0.2055 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.85004 1.06997 -0.2056 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.85012 1.06997 -0.2055 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.80496 1.05387 -0.2362 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.74581 1.03366 -0.2785 80% Void Table 2.29 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.06997 1.07495 -0.0046 1.05387 1.06997 -0.0150 1.07495 1.10611 -0.0282

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-33 Table 2.30 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90274 1.08035 -0.1644 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88906 1.07315 -0.1715 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83846 1.04869 -0.2005 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83437 1.04366 -0.2005 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83444 1.04366 -0.2005 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79501 1.02973 -0.2279 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74285 1.01135 -0.2655 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-34 Table 2.31 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90236 1.08035 -0.1648 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88881 1.07315 -0.1718 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83833 1.04869 -0.2006 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83425 1.04366 -0.2006 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83431 1.04366 -0.2006 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79443 1.02973 -0.2285 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74145 1.01135 -0.2669 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-35 Table 2.32 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.89675 1.08035 -0.1699 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88319 1.07315 -0.1770 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83160 1.04869 -0.2070 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.82757 1.04366 -0.2071 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.82765 1.04366 -0.2070 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.78668 1.02973 -0.2360 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73202 1.01135 -0.2762 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-36 Table 2.33 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91877 1.08035 -0.1496 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90602 1.07315 -0.1557 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85978 1.04869 -0.1801 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85557 1.04366 -0.1802 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85557 1.04366 -0.1802 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.82014 1.02973 -0.2035 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.77316 1.01135 -0.2355 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-37 Table 2.34 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.89486 1.08035 -0.1717 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88109 1.07315 -0.1790 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.82845 1.04869 -0.2100 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.82443 1.04366 -0.2101 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.82451 1.04366 -0.2100 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.78192 1.02973 -0.2407 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.72467 1.01135 -0.2835 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-38 Table 2.35 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.89300 1.08035 -0.1734 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.87918 1.07315 -0.1807 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.82612 1.04869 -0.2122 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.82212 1.04366 -0.2123 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.82220 1.04366 -0.2122 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.77913 1.02973 -0.2434 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.72122 1.01135 -0.2869 80% Void Table 2.36 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.04366 1.04869 -0.0048 1.02973 1.04366 -0.0134 1.04869 1.08035 -0.0293

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-39 Table 2.37 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90236 1.07395 -0.1598 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88855 1.06673 -0.1670 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83876 1.04367 -0.1963 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83477 1.03879 -0.1964 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83484 1.03879 -0.1963 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79554 1.02603 -0.2246 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74201 1.00830 -0.2641 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-40 Table 2.38 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90200 1.07395 -0.1601 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88832 1.06673 -0.1673 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83868 1.04367 -0.1964 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83469 1.03879 -0.1965 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83475 1.03879 -0.1964 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79502 1.02603 -0.2251 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74067 1.00830 -0.2654 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-41 Table 2.39 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.89670 1.07395 -0.1650 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88300 1.06673 -0.1722 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83228 1.04367 -0.2025 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.82834 1.03879 -0.2026 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.82842 1.03879 -0.2025 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.78757 1.02603 -0.2324 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73144 1.00830 -0.2746 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-42 Table 2.40 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91773 1.07395 -0.1455 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90484 1.06673 -0.1518 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85947 1.04367 -0.1765 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85537 1.03879 -0.1766 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85537 1.03879 -0.1766 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.82024 1.02603 -0.2006 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.77222 1.00830 -0.2341 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-43 Table 2.41 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.89493 1.07395 -0.1667 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88104 1.06673 -0.1741 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.82932 1.04367 -0.2054 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.82539 1.03879 -0.2054 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.82547 1.03879 -0.2054 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.78303 1.02603 -0.2368 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.72427 1.00830 -0.2817 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-44 Table 2.42 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.89315 1.07395 -0.1683 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.87920 1.06673 -0.1758 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.82707 1.04367 -0.2075 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.82316 1.03879 -0.2076 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.82323 1.03879 -0.2075 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.78030 1.02603 -0.2395 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.72084 1.00830 -0.2851 80% Void Table 2.43 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.03879 1.04367 -0.0047 1.02603 1.03879 -0.0123 1.04367 1.07395 -0.0282

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-45 Table 2.44 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91327 1.08519 -0.1584 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90015 1.07886 -0.1656 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85388 1.06074 -0.1950 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84989 1.05587 -0.1951 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84996 1.05587 -0.1950 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81208 1.04582 -0.2235 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75962 1.03154 -0.2636 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-46 Table 2.45 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91289 1.08519 -0.1588 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89990 1.07886 -0.1659 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85378 1.06074 -0.1951 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84980 1.05587 -0.1952 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84986 1.05587 -0.1951 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81152 1.04582 -0.2240 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75821 1.03154 -0.2650 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-47 Table 2.46 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90754 1.08519 -0.1637 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89453 1.07886 -0.1709 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84727 1.06074 -0.2013 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84334 1.05587 -0.2013 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84342 1.05587 -0.2012 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80389 1.04582 -0.2313 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74868 1.03154 -0.2742 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-48 Table 2.47 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92876 1.08519 -0.1442 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91657 1.07886 -0.1504 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87487 1.06074 -0.1752 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.87078 1.05587 -0.1753 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.87078 1.05587 -0.1753 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.83724 1.04582 -0.1994 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.79062 1.03154 -0.2336 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-49 Table 2.48 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90581 1.08519 -0.1653 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89260 1.07886 -0.1726 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84433 1.06074 -0.2040 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84041 1.05587 -0.2041 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84048 1.05587 -0.2040 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79935 1.04582 -0.2357 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74145 1.03154 -0.2812 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-50 Table 2.49 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90401 1.08519 -0.1670 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89075 1.07886 -0.1744 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84205 1.06074 -0.2062 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83814 1.05587 -0.2062 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83822 1.05587 -0.2061 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79657 1.04582 -0.2383 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73793 1.03154 -0.2846 80% Void Table 2.50 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.05587 1.06074 -0.0046 1.04582 1.05587 -0.0095 1.06074 1.08519 -0.0225

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-51 Table 2.51 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92837 1.10682 -0.1612 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91521 1.09887 -0.1671 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86467 1.06903 -0.1912 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.86072 1.06422 -0.1912 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.86079 1.06422 -0.1911 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.82314 1.04771 -0.2143 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.77929 1.02961 -0.2431 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-52 Table 2.52 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92788 1.10682 -0.1617 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91480 1.09887 -0.1675 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86423 1.06903 -0.1916 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.86029 1.06422 -0.1916 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.86035 1.06422 -0.1916 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.82226 1.04771 -0.2152 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.77763 1.02961 -0.2447 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-53 Table 2.53 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92270 1.10682 -0.1663 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90963 1.09887 -0.1722 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85792 1.06903 -0.1975 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.85402 1.06422 -0.1975 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.85410 1.06422 -0.1974 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.81499 1.04771 -0.2221 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.76870 1.02961 -0.2534 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-54 Table 2.54 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94515 1.10682 -0.1461 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93280 1.09887 -0.1511 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.88605 1.06903 -0.1712 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.88198 1.06422 -0.1712 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.88198 1.06422 -0.1712 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.84788 1.04771 -0.1907 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.80829 1.02961 -0.2150 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-55 Table 2.55 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92000 1.10682 -0.1688 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90670 1.09887 -0.1749 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85385 1.06903 -0.2013 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.84996 1.06422 -0.2013 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.85004 1.06422 -0.2013 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.80926 1.04771 -0.2276 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.76045 1.02961 -0.2614 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-56 Table 2.56 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91818 1.10682 -0.1704 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90483 1.09887 -0.1766 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85158 1.06903 -0.2034 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.84771 1.06422 -0.2034 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.84779 1.06422 -0.2034 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.80659 1.04771 -0.2301 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.75724 1.02961 -0.2645 80% Void Table 2.57 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.06422 1.06903 -0.0045 1.04771 1.06422 -0.0155 1.06903 1.10682 -0.0341

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-57 Table 2.58 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.98654 1.17158 -0.1579 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.97264 1.16367 -0.1642 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.91508 1.12937 -0.1897 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.91081 1.12421 -0.1898 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.91089 1.12421 -0.1898 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.86602 1.10266 -0.2146 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.81179 1.07803 -0.2470 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-58 Table 2.59 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.98587 1.17158 -0.1585 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.97205 1.16367 -0.1647 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.91452 1.12937 -0.1902 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.91027 1.12421 -0.1903 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.91033 1.12421 -0.1903 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.86503 1.10266 -0.2155 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.81006 1.07803 -0.2486 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-59 Table 2.60 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.98051 1.17158 -0.1631 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.96667 1.16367 -0.1693 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90773 1.12937 -0.1963 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.90353 1.12421 -0.1963 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.90362 1.12421 -0.1962 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.85718 1.10266 -0.2226 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.80060 1.07803 -0.2574 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-60 Table 2.61 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 1.00499 1.17158 -0.1422 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.99190 1.16367 -0.1476 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.93807 1.12937 -0.1694 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.93368 1.12421 -0.1695 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.93368 1.12421 -0.1695 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.89241 1.10266 -0.1907 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.84258 1.07803 -0.2184 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-61 Table 2.62 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.97756 1.17158 -0.1656 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.96348 1.16367 -0.1720 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90347 1.12937 -0.2000 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.89928 1.12421 -0.2001 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.89937 1.12421 -0.2000 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.85125 1.10266 -0.2280 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.79209 1.07803 -0.2652 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-62 Table 2.63 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.97552 1.17158 -0.1673 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.96139 1.16367 -0.1738 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90096 1.12937 -0.2023 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=932° F 0.89679 1.12421 -0.2023 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=932° F 0.89688 1.12421 -0.2022 0% Void Hot Operating40 TModerator=550° F TFuel=932° F 0.84833 1.10266 -0.2306 40% Void Hot Operating 80 TModerator=550° F TFuel=932° F 0.78859 1.07803 -0.2685 80% Void Table 2.64 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.12421 1.12937 -0.0046 1.10266 1.12421 -0.0192 1.12937 1.17158 -0.0360

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-63 Table 2.65 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94744 1.13334 -0.1640 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93473 1.12704 -0.1706 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.88358 1.10042 -0.1971 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87937 1.09528 -0.1971 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87945 1.09528 -0.1971 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.83783 1.07797 -0.2228 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.78532 1.05714 -0.2571 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-64 Table 2.66 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94692 1.13334 -0.1645 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93431 1.12704 -0.1710 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.88323 1.10042 -0.1974 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87903 1.09528 -0.1974 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87909 1.09528 -0.1974 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.83702 1.07797 -0.2235 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.78369 1.05714 -0.2587 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-65 Table 2.67 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94137 1.13334 -0.1694 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92878 1.12704 -0.1759 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87649 1.10042 -0.2035 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87234 1.09528 -0.2036 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87243 1.09528 -0.2035 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82924 1.07797 -0.2307 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.77420 1.05714 -0.2676 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-66 Table 2.68 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.96519 1.13334 -0.1484 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.95341 1.12704 -0.1541 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90641 1.10042 -0.1763 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.90208 1.09528 -0.1764 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.90208 1.09528 -0.1764 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.86426 1.07797 -0.1983 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.81648 1.05714 -0.2276 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-67 Table 2.69 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93873 1.13334 -0.1717 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92587 1.12704 -0.1785 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87242 1.10042 -0.2072 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86829 1.09528 -0.2072 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86838 1.09528 -0.2072 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82352 1.07797 -0.2361 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76595 1.05714 -0.2754 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-68 Table 2.70 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93673 1.13334 -0.1735 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92381 1.12704 -0.1803 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86995 1.10042 -0.2094 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86584 1.09528 -0.2095 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86592 1.09528 -0.2094 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82060 1.07797 -0.2387 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76241 1.05714 -0.2788 80% Void Table 2.71 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.09528 1.10042 -0.0047 1.07797 1.09528 -0.0158 1.10042 1.13334 -0.0290

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-69 Table 2.72 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94748 1.13120 -0.1624 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93475 1.12507 -0.1692 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.88432 1.09975 -0.1959 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.88018 1.09471 -0.1960 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.88026 1.09471 -0.1959 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.83858 1.07777 -0.2219 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.78506 1.05677 -0.2571 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-70 Table 2.73 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94700 1.13120 -0.1628 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93439 1.12507 -0.1695 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.88405 1.09975 -0.1961 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87992 1.09471 -0.1962 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87998 1.09471 -0.1961 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.83784 1.07777 -0.2226 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.78350 1.05677 -0.2586 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-71 Table 2.74 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94144 1.13120 -0.1678 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92884 1.12507 -0.1744 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87740 1.09975 -0.2022 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87332 1.09471 -0.2022 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87340 1.09471 -0.2022 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.83017 1.07777 -0.2297 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.77410 1.05677 -0.2675 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-72 Table 2.75 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.96479 1.13120 -0.1471 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.95301 1.12507 -0.1529 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90689 1.09975 -0.1754 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.90262 1.09471 -0.1755 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.90262 1.09471 -0.1755 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.86485 1.07777 -0.1976 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.81622 1.05677 -0.2276 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-73 Table 2.76 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93886 1.13120 -0.1700 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92598 1.12507 -0.1770 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87329 1.09975 -0.2059 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86922 1.09471 -0.2060 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86930 1.09471 -0.2059 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82435 1.07777 -0.2351 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76568 1.05677 -0.2754 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-74 Table 2.77 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93691 1.13120 -0.1718 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92398 1.12507 -0.1787 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87087 1.09975 -0.2081 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86681 1.09471 -0.2082 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86690 1.09471 -0.2081 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82148 1.07777 -0.2378 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76217 1.05677 -0.2788 80% Void Table 2.78 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.09471 1.09975 -0.0046 1.07777 1.09471 -0.0155 1.09975 1.13120 -0.0278

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-75 Table 2.79 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92064 1.10682 -0.1682 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90748 1.10025 -0.1752 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85748 1.07528 -0.2026 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85333 1.07017 -0.2026 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85341 1.07017 -0.2026 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81384 1.05560 -0.2290 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.76163 1.03672 -0.2653 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-76 Table 2.80 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92021 1.10682 -0.1686 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90718 1.10025 -0.1755 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85728 1.07528 -0.2027 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85314 1.07017 -0.2028 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85320 1.07017 -0.2027 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81319 1.05560 -0.2296 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.76016 1.03672 -0.2668 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-77 Table 2.81 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91476 1.10682 -0.1735 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90174 1.10025 -0.1804 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85081 1.07528 -0.2087 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84672 1.07017 -0.2088 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84680 1.07017 -0.2087 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80571 1.05560 -0.2367 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75095 1.03672 -0.2757 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-78 Table 2.82 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93801 1.10682 -0.1525 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92582 1.10025 -0.1585 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.88022 1.07528 -0.1814 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.87594 1.07017 -0.1815 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.87594 1.07017 -0.1815 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.84032 1.05560 -0.2039 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.79317 1.03672 -0.2349 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-79 Table 2.83 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91208 1.10682 -0.1759 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89881 1.10025 -0.1831 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84670 1.07528 -0.2126 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84262 1.07017 -0.2126 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84271 1.07017 -0.2125 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79993 1.05560 -0.2422 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74258 1.03672 -0.2837 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-80 Table 2.84 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91013 1.10682 -0.1777 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89680 1.10025 -0.1849 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84427 1.07528 -0.2148 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84021 1.07017 -0.2149 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84030 1.07017 -0.2148 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79706 1.05560 -0.2449 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73905 1.03672 -0.2871 80% Void Table 2.85 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.07017 1.07528 -0.0047 1.05560 1.07017 -0.0136 1.07528 1.10682 -0.0285

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-81 Table 2.86 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91342 1.08896 -0.1612 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89981 1.08200 -0.1684 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84976 1.05821 -0.1970 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84573 1.05327 -0.1970 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84580 1.05327 -0.1970 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80602 1.03972 -0.2248 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75200 1.02116 -0.2636 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-82 Table 2.87 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91303 1.08896 -0.1616 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89954 1.08200 -0.1686 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84963 1.05821 -0.1971 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84561 1.05327 -0.1972 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84566 1.05327 -0.1971 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80545 1.03972 -0.2253 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75061 1.02116 -0.2649 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-83 Table 2.88 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90802 1.08896 -0.1662 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89454 1.08200 -0.1732 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84359 1.05821 -0.2028 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83961 1.05327 -0.2029 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83969 1.05327 -0.2028 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79837 1.03972 -0.2321 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74173 1.02116 -0.2736 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-84 Table 2.89 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92963 1.08896 -0.1463 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91695 1.08200 -0.1525 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87134 1.05821 -0.1766 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.86719 1.05327 -0.1767 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.86719 1.05327 -0.1767 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.83156 1.03972 -0.2002 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.78299 1.02116 -0.2332 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-85 Table 2.90 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90571 1.08896 -0.1683 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89200 1.08200 -0.1756 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83998 1.05821 -0.2062 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83601 1.05327 -0.2063 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83609 1.05327 -0.2062 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79314 1.03972 -0.2372 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73388 1.02116 -0.2813 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-86 Table 2.91 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90388 1.08896 -0.1700 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89011 1.08200 -0.1774 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83767 1.05821 -0.2084 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83372 1.05327 -0.2084 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83380 1.05327 -0.2084 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79037 1.03972 -0.2398 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73041 1.02116 -0.2847 80% Void Table 2.92 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.05327 1.05821 -0.0047 1.03972 1.05327 -0.0129 1.05821 1.08896 -0.0282

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-87 Table 2.93 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92670 1.10289 -0.1598 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91388 1.09694 -0.1669 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86789 1.07875 -0.1955 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.86386 1.07383 -0.1955 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.86393 1.07383 -0.1955 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.82583 1.06337 -0.2234 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.77301 1.04873 -0.2629 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-88 Table 2.94 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92629 1.10289 -0.1601 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91359 1.09694 -0.1671 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86774 1.07875 -0.1956 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.86372 1.07383 -0.1957 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.86378 1.07383 -0.1956 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.82523 1.06337 -0.2240 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.77155 1.04873 -0.2643 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-89 Table 2.95 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92116 1.10289 -0.1648 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90847 1.09694 -0.1718 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86148 1.07875 -0.2014 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85751 1.07383 -0.2014 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85759 1.07383 -0.2014 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81784 1.06337 -0.2309 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.76221 1.04873 -0.2732 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-90 Table 2.96 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94301 1.10289 -0.1450 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93114 1.09694 -0.1512 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.88976 1.07875 -0.1752 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.88561 1.07383 -0.1753 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.88561 1.07383 -0.1753 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.85186 1.06337 -0.1989 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.80486 1.04873 -0.2325 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-91 Table 2.97 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91891 1.10289 -0.1668 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90599 1.09694 -0.1741 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85794 1.07875 -0.2047 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85398 1.07383 -0.2047 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85406 1.07383 -0.2047 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81267 1.06337 -0.2358 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75435 1.04873 -0.2807 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-92 Table 2.98 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91707 1.10289 -0.1685 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90408 1.09694 -0.1758 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85560 1.07875 -0.2069 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85165 1.07383 -0.2069 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85173 1.07383 -0.2068 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80983 1.06337 -0.2384 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75077 1.04873 -0.2841 80% Void Table 2.99 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.07383 1.07875 -0.0046 1.06337 1.07383 -0.0097 1.07875 1.10289 -0.0219

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-93 Table 2.100 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94396 1.12760 -0.1629 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93107 1.12127 -0.1696 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87971 1.09465 -0.1964 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87557 1.08960 -0.1964 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87564 1.08960 -0.1964 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.83346 1.07180 -0.2224 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.77974 1.04997 -0.2574 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-94 Table 2.101 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94348 1.12760 -0.1633 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93071 1.12127 -0.1699 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87945 1.09465 -0.1966 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.87531 1.08960 -0.1967 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.87537 1.08960 -0.1966 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.83274 1.07180 -0.2230 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.77820 1.04997 -0.2588 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-95 Table 2.102 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93795 1.12760 -0.1682 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92519 1.12127 -0.1749 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87284 1.09465 -0.2026 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86876 1.08960 -0.2027 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86884 1.08960 -0.2026 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.82513 1.07180 -0.2301 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76890 1.04997 -0.2677 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-96 Table 2.103 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.96124 1.12760 -0.1475 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.94930 1.12127 -0.1534 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.90220 1.09465 -0.1758 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.89794 1.08960 -0.1759 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.89794 1.08960 -0.1759 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.85961 1.07180 -0.1980 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.81069 1.04997 -0.2279 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-97 Table 2.104 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93535 1.12760 -0.1705 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92232 1.12127 -0.1774 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86871 1.09465 -0.2064 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86464 1.08960 -0.2065 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86473 1.08960 -0.2064 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.81930 1.07180 -0.2356 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.76049 1.04997 -0.2757 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-98 Table 2.105 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93340 1.12760 -0.1722 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92031 1.12127 -0.1792 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86630 1.09465 -0.2086 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=979° F 0.86225 1.08960 -0.2087 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=979° F 0.86233 1.08960 -0.2086 0% Void Hot Operating40 TModerator=550° F TFuel=979° F 0.81645 1.07180 -0.2382 40% Void Hot Operating 80 TModerator=550° F TFuel=979° F 0.75701 1.04997 -0.2790 80% Void Table 2.106 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.08960 1.09465 -0.0046 1.07180 1.08960 -0.0163 1.09465 1.12760 -0.0292

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-99 Table 2.107 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91716 1.10327 -0.1687 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90384 1.09648 -0.1757 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85287 1.07015 -0.2030 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84872 1.06503 -0.2031 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84879 1.06503 -0.2030 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80869 1.04956 -0.2295 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75622 1.02975 -0.2656 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-100 Table 2.108 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91674 1.10327 -0.1691 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90354 1.09648 -0.1760 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85268 1.07015 -0.2032 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84853 1.06503 -0.2033 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84859 1.06503 -0.2032 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80805 1.04956 -0.2301 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75478 1.02975 -0.2670 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-101 Table 2.109 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91131 1.10327 -0.1740 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89813 1.09648 -0.1809 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84625 1.07015 -0.2092 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84216 1.06503 -0.2093 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84224 1.06503 -0.2092 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80065 1.04956 -0.2372 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74568 1.02975 -0.2759 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-102 Table 2.110 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.93450 1.10327 -0.1530 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.92215 1.09648 -0.1590 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.87553 1.07015 -0.1819 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.87125 1.06503 -0.1820 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.87125 1.06503 -0.1820 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.83505 1.04956 -0.2044 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.78755 1.02975 -0.2352 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-103 Table 2.111 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90862 1.10327 -0.1764 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89518 1.09648 -0.1836 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84212 1.07015 -0.2131 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83804 1.06503 -0.2131 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83813 1.06503 -0.2130 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79486 1.04956 -0.2427 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73731 1.02975 -0.2840 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-104 Table 2.112 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90667 1.10327 -0.1782 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89318 1.09648 -0.1854 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83971 1.07015 -0.2153 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83565 1.06503 -0.2154 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83573 1.06503 -0.2153 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79200 1.04956 -0.2454 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73381 1.02975 -0.2874 80% Void Table 2.113 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.06503 1.07015 -0.0048 1.04956 1.06503 -0.0145 1.07015 1.10327 -0.0300

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-105 Table 2.114 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91183 1.08855 -0.1623 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89811 1.08145 -0.1695 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84728 1.05634 -0.1979 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84324 1.05139 -0.1980 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84330 1.05139 -0.1979 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80306 1.03692 -0.2255 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74877 1.01740 -0.2640 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-106 Table 2.115 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91145 1.08855 -0.1627 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89785 1.08145 -0.1698 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84716 1.05634 -0.1980 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.84312 1.05139 -0.1981 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.84318 1.05139 -0.1980 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.80250 1.03692 -0.2261 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.74741 1.01740 -0.2654 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-107 Table 2.116 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90637 1.08855 -0.1674 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89278 1.08145 -0.1745 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.84106 1.05634 -0.2038 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83707 1.05139 -0.2038 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83715 1.05139 -0.2038 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79538 1.03692 -0.2329 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73852 1.01740 -0.2741 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-108 Table 2.117 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92809 1.08855 -0.1474 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91531 1.08145 -0.1536 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86887 1.05634 -0.1775 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.86471 1.05139 -0.1776 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.86471 1.05139 -0.1776 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.82854 1.03692 -0.2010 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.77960 1.01740 -0.2337 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-109 Table 2.118 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90406 1.08855 -0.1695 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.89024 1.08145 -0.1768 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83743 1.05634 -0.2072 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83346 1.05139 -0.2073 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83354 1.05139 -0.2072 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.79014 1.03692 -0.2380 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.73066 1.01740 -0.2818 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-110 Table 2.119 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.90221 1.08855 -0.1712 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.88834 1.08145 -0.1786 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.83512 1.05634 -0.2094 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.83116 1.05139 -0.2095 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.83124 1.05139 -0.2094 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.78736 1.03692 -0.2407 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.72720 1.01740 -0.2852 80% Void Table 2.120 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.05139 1.05634 -0.0047 1.03692 1.05139 -0.0138 1.05634 1.08855 -0.0296

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-111 Table 2.121 Lattice [ ] Control Blade Worths at BOL for Control Blade Type GE Original Equipment kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92796 1.10503 -0.1602 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91519 1.09915 -0.1674 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86936 1.08101 -0.1958 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.86533 1.07609 -0.1959 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.86540 1.07609 -0.1958 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.82738 1.06566 -0.2236 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.77460 1.05106 -0.2630 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-112 Table 2.122 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Duralife 160 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92755 1.10503 -0.1606 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.91491 1.09915 -0.1676 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86922 1.08101 -0.1959 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.86519 1.07609 -0.1960 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.86525 1.07609 -0.1959 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.82678 1.06566 -0.2242 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.77314 1.05106 -0.2644 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-113 Table 2.123 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92237 1.10503 -0.1653 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90972 1.09915 -0.1723 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.86290 1.08101 -0.2018 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85893 1.07609 -0.2018 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85901 1.07609 -0.2017 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81933 1.06566 -0.2311 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.76373 1.05106 -0.2734 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-114 Table 2.124 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR82M-1 HF TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.94434 1.10503 -0.1454 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.93253 1.09915 -0.1516 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.89131 1.08101 -0.1755 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.88716 1.07609 -0.1756 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.88716 1.07609 -0.1756 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.85348 1.06566 -0.1991 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.80650 1.05106 -0.2327 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-115 Table 2.125 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 TIP kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.92012 1.10503 -0.1673 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90725 1.09915 -0.1746 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85935 1.08101 -0.2051 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85539 1.07609 -0.2051 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85547 1.07609 -0.2050 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81414 1.06566 -0.2360 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75586 1.05106 -0.2809 80% Void

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-116 Table 2.126 Lattice [ ] Control Blade Worths at BOL for Control Blade Type Westinghouse-ABB CR99 kControlled kUncontrolled Blade Worth (k/k)

Cold TModerator=68° F TFuel=68° F 0.91827 1.10503 -0.1690 0% Void, No xenon Intermediate TModerator=200° F TFuel=200° F 0.90533 1.09915 -0.1763 0% Void, No xenon Hot Standby TModerator=550° F TFuel=550° F 0.85700 1.08101 -0.2072 0% Void, No xenon Hot OperatingNoXe TModerator=550° F TFuel=1017° F 0.85305 1.07609 -0.2073 0% Void, No xenon Hot Operating0 TModerator=550° F TFuel=1017° F 0.85313 1.07609 -0.2072 0% Void Hot Operating40 TModerator=550° F TFuel=1017° F 0.81129 1.06566 -0.2387 40% Void Hot Operating 80 TModerator=550° F TFuel=1017° F 0.75226 1.05106 -0.2843 80% Void Table 2.127 Lattice [ ] Kinetics Parameters at BOL Kinetics Parameter k k (k/k) 1.07609 1.08101 -0.0046 1.06566 1.07609 -0.0097 1.08101 1.10503 -0.0217

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-117 Figure 2.1 Assembly Type [ ]

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-118 Figure 2.2 Assembly Type [ ]

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-119 Figure 2.3 Assembly Type [ ]

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-120 Figure 2.4 [ ] Fuel Rod Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-121 Figure 2.5 [ ] Fuel Rod Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-122 Figure 2.6 [ ] Fuel Rod Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-123 Figure 2.7 Fuel Rod Axial Description

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-124 Figure 2.7 Fuel Rod Axial Description (Continued)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 2-125 Figure 2.7 Fuel Rod Axial Description (Continued)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page 3-1

3.0 REFERENCES

1. FS1-0031299 Revision 3.0, Brunswick Unit 1 Cycle 23 Reload BRK1-23 ATRIUM 11 Specific Fuel Assembly Mechanical Data for Core Engineering, March 2019.

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

3. 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.

4. ANP-3672P, Revision 0, Brunswick Nuclear Plant New Fuel Storage Vault Criticality Safety Analysis for ATRIUM 11 Fuel, August 2018.

5. ANP-3671P, Revision 0, Brunswick Nuclear Plant Spent Fuel Storage Pool Criticality Safety Analysis for ATRIUM 11 Fuel, December 2018.

6. Certificate of Compliance No. 9372 Revision No. 1 For the Model No. TN-B1 Transportation Package, March 27, 2018.

7. 47-9294473-000, Brunswick Unit 1 Cycle 23 FSDD Response - ATRIUM 11 Fuel, January 2019.

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-1 Appendix A Enriched Lattice Hot Uncontrolled Reactivity and LPF Plots The results in this appendix are based on hot operating and equilibrium xenon conditions.

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-2 1.23 1.18 0%

1.13 40%

80%

Hot Uncontrolled k 1.08 1.03 0.98 0.93 0.88 0.83 0.78 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.1 [ ] Hot Uncontrolled k 1.50 Hot Uncontrolled Local Peaking Factor 1.45 0%

1.40 40%

80%

1.35 1.30 1.25 1.20 1.15 1.10 1.05 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.2 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-3 1.23 1.18 0%

1.13 40%

80%

Hot Uncontrolled k 1.08 1.03 0.98 0.93 0.88 0.83 0.78 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.3 [ ] Hot Uncontrolled k 1.40 Hot Uncontrolled Local Peaking Factor 0%

1.35 40%

1.30 80%

1.25 1.20 1.15 1.10 1.05 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.4 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-4 1.24 1.19 0%

1.14 40%

80%

Hot Uncontrolled k 1.09 1.04 0.99 0.94 0.89 0.84 0.79 0.74 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.5 [ ] Hot Uncontrolled k 1.49 Hot Uncontrolled Local Peaking Factor 1.44 0%

1.39 40%

80%

1.34 1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.6 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-5 1.23 1.18 0%

1.13 40%

80%

Hot Uncontrolled k 1.08 1.03 0.98 0.93 0.88 0.83 0.78 0.73 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.7 [ ] Hot Uncontrolled k 1.40 Hot Uncontrolled Local Peaking Factor 0%

1.35 40%

1.30 80%

1.25 1.20 1.15 1.10 1.05 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.8 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-6 1.31 0%

1.21 40%

80%

Hot Uncontrolled k 1.11 1.01 0.91 0.81 0.71 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.9 [ ] Hot Uncontrolled k 1.34 Hot Uncontrolled Local Peaking Factor 0%

1.29 40%

80%

1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.10 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-7 1.30 0%

1.20 40%

80%

Hot Uncontrolled k 1.10 1.00 0.90 0.80 0.70 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.11 [ ] Hot Uncontrolled k 1.35 Hot Uncontrolled Local Peaking Factor 0%

1.30 40%

80%

1.25 1.20 1.15 1.10 1.05 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.12 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-8 1.30 0%

1.20 40%

80%

Hot Uncontrolled k 1.10 1.00 0.90 0.80 0.70 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.13 [ ] Hot Uncontrolled k 1.34 Hot Uncontrolled Local Peaking Factor 0%

1.29 40%

80%

1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.14 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-9 1.23 1.18 0%

1.13 40%

80%

Hot Uncontrolled k 1.08 1.03 0.98 0.93 0.88 0.83 0.78 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.15 [ ] Hot Uncontrolled k 1.54 Hot Uncontrolled Local Peaking Factor 1.49 0%

1.44 40%

1.39 80%

1.34 1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.16 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-10 1.23 1.18 0%

1.13 40%

80%

Hot Uncontrolled k 1.08 1.03 0.98 0.93 0.88 0.83 0.78 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.17 [ ] Hot Uncontrolled k 1.49 Hot Uncontrolled Local Peaking Factor 1.44 0%

1.39 40%

80%

1.34 1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.18 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-11 1.25 1.20 0%

1.15 40%

80%

Hot Uncontrolled k 1.10 1.05 1.00 0.95 0.90 0.85 0.80 0.75 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.19 [ ] Hot Uncontrolled k 1.54 Hot Uncontrolled Local Peaking Factor 1.49 0%

1.44 40%

1.39 80%

1.34 1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.20 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-12 1.24 1.19 0%

1.14 40%

80%

Hot Uncontrolled k 1.09 1.04 0.99 0.94 0.89 0.84 0.79 0.74 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.21 [ ] Hot Uncontrolled k 1.53 Hot Uncontrolled Local Peaking Factor 1.48 0%

1.43 40%

1.38 80%

1.33 1.28 1.23 1.18 1.13 1.08 1.03 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.22 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-13 1.22 1.17 0%

1.12 40%

80%

Hot Uncontrolled k 1.07 1.02 0.97 0.92 0.87 0.82 0.77 0.72 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.23 [ ] Hot Uncontrolled k 1.48 Hot Uncontrolled Local Peaking Factor 1.43 0%

1.38 40%

80%

1.33 1.28 1.23 1.18 1.13 1.08 1.03 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.24 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-14 1.30 0%

1.20 40%

80%

Hot Uncontrolled k 1.10 1.00 0.90 0.80 0.70 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.25 [ ] Hot Uncontrolled k 1.44 Hot Uncontrolled Local Peaking Factor 1.39 0%

40%

1.34 80%

1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.26 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-15 1.30 0%

1.20 40%

80%

Hot Uncontrolled k 1.10 1.00 0.90 0.80 0.70 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.27 [ ] Hot Uncontrolled k 1.44 Hot Uncontrolled Local Peaking Factor 1.39 0%

40%

1.34 80%

1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.28 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-16 1.24 1.19 0%

1.14 40%

80%

Hot Uncontrolled k 1.09 1.04 0.99 0.94 0.89 0.84 0.79 0.74 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.29 [ ] Hot Uncontrolled k 1.54 Hot Uncontrolled Local Peaking Factor 1.49 0%

1.44 40%

1.39 80%

1.34 1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.30 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-17 1.22 1.17 0%

1.12 40%

80%

Hot Uncontrolled k 1.07 1.02 0.97 0.92 0.87 0.82 0.77 0.72 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.31 [ ] Hot Uncontrolled k 1.48 Hot Uncontrolled Local Peaking Factor 1.43 0%

1.38 40%

80%

1.33 1.28 1.23 1.18 1.13 1.08 1.03 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.32 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-18 1.20 1.15 0%

1.10 40%

80%

Hot Uncontrolled k 1.05 1.00 0.95 0.90 0.85 0.80 0.75 0.70 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.33 [ ] Hot Uncontrolled k 1.44 Hot Uncontrolled Local Peaking Factor 1.39 0%

40%

1.34 80%

1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.34 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page A-19 1.30 0%

1.20 40%

80%

Hot Uncontrolled k 1.10 1.00 0.90 0.80 0.70 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.35 [ ] Hot Uncontrolled k 1.44 Hot Uncontrolled Local Peaking Factor 1.39 0%

40%

1.34 80%

1.29 1.24 1.19 1.14 1.09 1.04 0 10 20 30 40 50 60 70 Lattice Exposure (GWd/MTU)

Figure A.36 [ ] Hot Uncontrolled LPF

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-1 Appendix B Enriched Lattice Hot Uncontrolled Reactivity and LPF Tables The results in this appendix are based on hot operating and equilibrium xenon conditions.

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-2 Table B.1 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.05445 1.03844 1.02081 100. 1.03179 1.01754 1.00234 500. 1.03170 1.01802 1.00330 1000. 1.03581 1.02224 1.00735 1500. 1.04130 1.02751 1.01206 2000. 1.04731 1.03312 1.01687 2500. 1.05362 1.03884 1.02161 3000. 1.06020 1.04465 1.02626 3500. 1.06704 1.05053 1.03083 4000. 1.07407 1.05648 1.03534 4500. 1.08104 1.06239 1.03977 5000. 1.08757 1.06810 1.04408 5500. 1.09343 1.07337 1.04818 6000. 1.09861 1.07813 1.05199 6500. 1.10323 1.08241 1.05546 7000. 1.10738 1.08631 1.05861 7500. 1.11116 1.08987 1.06151 8000. 1.11472 1.09318 1.06420 8500. 1.11816 1.09629 1.06673 9000. 1.12158 1.09929 1.06912 9500. 1.12504 1.10223 1.07140 10000. 1.12860 1.10517 1.07359 10500. 1.13233 1.10818 1.07573 11000. 1.13625 1.11128 1.07784 11500. 1.14040 1.11449 1.07997 12000. 1.14477 1.11781 1.08211 12500. 1.14935 1.12123 1.08427 13000. 1.15410 1.12472 1.08642 13500. 1.15891 1.12820 1.08852 14000. 1.16366 1.13163 1.09055 14500. 1.16821 1.13490 1.09245 15000. 1.17233 1.13795 1.09420 15500. 1.17588 1.14068 1.09577 16000. 1.17866 1.14301 1.09714 16500. 1.18057 1.14486 1.09829 17000. 1.18156 1.14617 1.09919 17500. 1.18165 1.14691 1.09983 18000. 1.18084 1.14706 1.10020 18500. 1.17922 1.14662 1.10027 19000. 1.17693 1.14563 1.10003 19500. 1.17410 1.14410 1.09949 20000. 1.17084 1.14208 1.09863 20500. 1.16727 1.13964 1.09749 21000. 1.16344 1.13685 1.09605 21500. 1.15942 1.13377 1.09435 22000. 1.15527 1.13047 1.09238 22500. 1.15102 1.12700 1.09018 23000. 1.14660 1.12339 1.08776 23500. 1.14217 1.11969 1.08515 24000. 1.13775 1.11590 1.08239 24500. 1.13332 1.11207 1.07949 25000. 1.12890 1.10821 1.07649 25500. 1.12452 1.10428 1.07340 26000. 1.12014 1.10035 1.07025 26500. 1.11575 1.09643 1.06704 27000. 1.11137 1.09250 1.06379 27500. 1.10699 1.08857 1.06052 28000. 1.10261 1.08472 1.05723 28500. 1.09823 1.08087 1.05393 29000. 1.09385 1.07703 1.05062 29500. 1.08947 1.07318 1.04732 30000. 1.08509 1.06933 1.04402 32500. 1.06320 1.05034 1.02764 35000. 1.04132 1.03162 1.01174 37500. 1.01947 1.01316 0.99626 40000. 0.99768 0.99499 0.98121 42500. 0.97602 0.97714 0.96662 45000. 0.95454 0.95964 0.95248 47500. 0.93336 0.94254 0.93884 50000. 0.91257 0.92587 0.92569 52500. 0.89229 0.90969 0.91307 55000. 0.87266 0.89406 0.90097 57500. 0.85380 0.87902 0.88941 60000. 0.83584 0.86463 0.87840 62500. 0.81892 0.85093 0.86794 65000. 0.80312 0.83796 0.85803 67500. 0.78855 0.82577 0.84866 70000. 0.77524 0.81436 0.83985

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-3 Table B.2 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.429 1.425 1.398 100. 1.427 1.423 1.394 500. 1.418 1.417 1.394 1000. 1.408 1.410 1.395 1500. 1.395 1.400 1.394 2000. 1.382 1.390 1.390 2500. 1.367 1.378 1.385 3000. 1.352 1.366 1.379 3500. 1.336 1.354 1.372 4000. 1.320 1.341 1.365 4500. 1.305 1.328 1.357 5000. 1.294 1.315 1.349 5500. 1.284 1.303 1.340 6000. 1.275 1.291 1.332 6500. 1.266 1.280 1.324 7000. 1.258 1.269 1.316 7500. 1.251 1.258 1.308 8000. 1.244 1.250 1.300 8500. 1.236 1.244 1.292 9000. 1.229 1.238 1.284 9500. 1.222 1.232 1.276 10000. 1.215 1.226 1.269 10500. 1.208 1.220 1.261 11000. 1.201 1.214 1.254 11500. 1.194 1.209 1.246 12000. 1.186 1.203 1.239 12500. 1.179 1.197 1.231 13000. 1.172 1.191 1.224 13500. 1.164 1.185 1.216 14000. 1.156 1.179 1.209 14500. 1.147 1.172 1.202 15000. 1.139 1.165 1.194 15500. 1.130 1.159 1.189 16000. 1.122 1.152 1.185 16500. 1.114 1.145 1.180 17000. 1.107 1.139 1.175 17500. 1.101 1.132 1.170 18000. 1.096 1.127 1.166 18500. 1.094 1.121 1.161 19000. 1.094 1.117 1.157 19500. 1.094 1.112 1.153 20000. 1.093 1.109 1.149 20500. 1.092 1.105 1.145 21000. 1.091 1.102 1.142 21500. 1.090 1.099 1.139 22000. 1.089 1.097 1.136 22500. 1.089 1.095 1.133 23000. 1.088 1.093 1.131 23500. 1.088 1.091 1.129 24000. 1.087 1.089 1.127 24500. 1.087 1.087 1.125 25000. 1.086 1.085 1.123 25500. 1.085 1.084 1.121 26000. 1.085 1.083 1.120 26500. 1.084 1.083 1.118 27000. 1.084 1.082 1.117 27500. 1.083 1.081 1.115 28000. 1.082 1.080 1.114 28500. 1.081 1.080 1.113 29000. 1.081 1.079 1.111 29500. 1.080 1.079 1.110 30000. 1.079 1.078 1.109 32500. 1.075 1.075 1.103 35000. 1.072 1.072 1.100 37500. 1.067 1.069 1.098 40000. 1.064 1.066 1.097 42500. 1.060 1.064 1.099 45000. 1.057 1.061 1.105 47500. 1.054 1.059 1.112 50000. 1.051 1.056 1.120 52500. 1.048 1.054 1.129 55000. 1.050 1.053 1.138 57500. 1.050 1.051 1.149 60000. 1.050 1.055 1.159 62500. 1.048 1.069 1.170 65000. 1.045 1.084 1.181 67500. 1.063 1.099 1.191 70000. 1.081 1.113 1.202

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-4 Table B.3 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.11537 1.09453 1.07061 100. 1.08955 1.07059 1.04923 500. 1.08637 1.06816 1.04758 1000. 1.08653 1.06878 1.04851 1500. 1.08784 1.07035 1.05011 2000. 1.08946 1.07213 1.05178 2500. 1.09116 1.07394 1.05337 3000. 1.09292 1.07571 1.05486 3500. 1.09474 1.07748 1.05628 4000. 1.09667 1.07928 1.05766 4500. 1.09871 1.08112 1.05902 5000. 1.10085 1.08303 1.06037 5500. 1.10309 1.08499 1.06173 6000. 1.10544 1.08701 1.06310 6500. 1.10790 1.08910 1.06450 7000. 1.11047 1.09128 1.06595 7500. 1.11318 1.09354 1.06746 8000. 1.11603 1.09588 1.06904 8500. 1.11902 1.09831 1.07067 9000. 1.12216 1.10083 1.07236 9500. 1.12545 1.10345 1.07410 10000. 1.12890 1.10619 1.07588 10500. 1.13255 1.10905 1.07772 11000. 1.13643 1.11206 1.07963 11500. 1.14054 1.11521 1.08159 12000. 1.14489 1.11850 1.08362 12500. 1.14945 1.12189 1.08569 13000. 1.15417 1.12535 1.08777 13500. 1.15895 1.12882 1.08983 14000. 1.16367 1.13221 1.09180 14500. 1.16819 1.13547 1.09366 15000. 1.17229 1.13849 1.09537 15500. 1.17583 1.14121 1.09690 16000. 1.17862 1.14354 1.09823 16500. 1.18057 1.14537 1.09934 17000. 1.18162 1.14669 1.10021 17500. 1.18178 1.14744 1.10083 18000. 1.18108 1.14761 1.10118 18500. 1.17958 1.14720 1.10123 19000. 1.17740 1.14624 1.10097 19500. 1.17467 1.14476 1.10042 20000. 1.17150 1.14279 1.09956 20500. 1.16800 1.14040 1.09841 21000. 1.16423 1.13765 1.09698 21500. 1.16027 1.13461 1.09527 22000. 1.15615 1.13135 1.09332 22500. 1.15192 1.12790 1.09112 23000. 1.14749 1.12432 1.08871 23500. 1.14307 1.12063 1.08612 24000. 1.13864 1.11686 1.08336 24500. 1.13422 1.11303 1.08047 25000. 1.12979 1.10917 1.07747 25500. 1.12540 1.10524 1.07439 26000. 1.12100 1.10130 1.07124 26500. 1.11661 1.09737 1.06803 27000. 1.11221 1.09343 1.06478 27500. 1.10782 1.08950 1.06150 28000. 1.10343 1.08564 1.05821 28500. 1.09904 1.08178 1.05490 29000. 1.09464 1.07792 1.05159 29500. 1.09025 1.07406 1.04828 30000. 1.08586 1.07020 1.04497 30500. 1.08147 1.06639 1.04167 32500. 1.06391 1.05115 1.02852 35000. 1.04197 1.03237 1.01257 37500. 1.02006 1.01386 0.99705 40000. 0.99821 0.99564 0.98196 42500. 0.97649 0.97774 0.96732 45000. 0.95497 0.96020 0.95315 47500. 0.93374 0.94305 0.93947 50000. 0.91291 0.92635 0.92630 52500. 0.89260 0.91013 0.91364 55000. 0.87294 0.89447 0.90152 57500. 0.85406 0.87941 0.88995 60000. 0.83610 0.86500 0.87892 62500. 0.81917 0.85129 0.86844 65000. 0.80338 0.83832 0.85852 67500. 0.78882 0.82612 0.84914 70000. 0.77553 0.81472 0.84032

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-5 Table B.4 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.354 1.358 1.357 100. 1.354 1.359 1.355 500. 1.350 1.357 1.353 1000. 1.345 1.354 1.357 1500. 1.339 1.350 1.358 2000. 1.332 1.345 1.358 2500. 1.324 1.338 1.356 3000. 1.315 1.332 1.353 3500. 1.308 1.325 1.349 4000. 1.301 1.317 1.345 4500. 1.294 1.309 1.340 5000. 1.287 1.301 1.335 5500. 1.280 1.293 1.330 6000. 1.273 1.284 1.324 6500. 1.266 1.276 1.317 7000. 1.259 1.267 1.311 7500. 1.252 1.258 1.304 8000. 1.245 1.250 1.297 8500. 1.238 1.244 1.290 9000. 1.231 1.239 1.283 9500. 1.224 1.233 1.276 10000. 1.217 1.227 1.269 10500. 1.210 1.222 1.262 11000. 1.203 1.216 1.254 11500. 1.196 1.210 1.247 12000. 1.189 1.204 1.240 12500. 1.181 1.199 1.232 13000. 1.174 1.193 1.225 13500. 1.166 1.187 1.218 14000. 1.158 1.180 1.210 14500. 1.149 1.174 1.203 15000. 1.141 1.167 1.195 15500. 1.133 1.160 1.190 16000. 1.124 1.153 1.185 16500. 1.116 1.146 1.180 17000. 1.109 1.140 1.175 17500. 1.103 1.134 1.171 18000. 1.097 1.128 1.166 18500. 1.094 1.123 1.161 19000. 1.094 1.118 1.157 19500. 1.094 1.113 1.153 20000. 1.093 1.110 1.149 20500. 1.092 1.106 1.145 21000. 1.091 1.103 1.142 21500. 1.091 1.100 1.139 22000. 1.091 1.098 1.136 22500. 1.091 1.095 1.133 23000. 1.090 1.093 1.131 23500. 1.090 1.091 1.129 24000. 1.089 1.089 1.127 24500. 1.089 1.087 1.125 25000. 1.088 1.086 1.123 25500. 1.087 1.085 1.121 26000. 1.087 1.084 1.120 26500. 1.086 1.084 1.118 27000. 1.086 1.083 1.117 27500. 1.085 1.082 1.115 28000. 1.084 1.081 1.114 28500. 1.083 1.081 1.113 29000. 1.083 1.080 1.111 29500. 1.082 1.080 1.110 30000. 1.081 1.079 1.109 30500. 1.080 1.078 1.108 32500. 1.078 1.076 1.103 35000. 1.074 1.073 1.100 37500. 1.070 1.071 1.098 40000. 1.066 1.068 1.098 42500. 1.061 1.065 1.099 45000. 1.057 1.062 1.105 47500. 1.054 1.059 1.112 50000. 1.051 1.056 1.120 52500. 1.048 1.054 1.129 55000. 1.050 1.052 1.138 57500. 1.051 1.051 1.148 60000. 1.051 1.055 1.159 62500. 1.049 1.069 1.170 65000. 1.046 1.084 1.180 67500. 1.063 1.098 1.191 70000. 1.081 1.113 1.202

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-6 Table B.5 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.08383 1.06735 1.04750 100. 1.05812 1.04337 1.02595 500. 1.05532 1.04136 1.02475 1000. 1.05604 1.04263 1.02640 1500. 1.05808 1.04501 1.02886 2000. 1.06050 1.04769 1.03148 2500. 1.06308 1.05045 1.03405 3000. 1.06578 1.05325 1.03657 3500. 1.06864 1.05611 1.03904 4000. 1.07168 1.05907 1.04151 4500. 1.07490 1.06213 1.04398 5000. 1.07829 1.06529 1.04648 5500. 1.08183 1.06856 1.04899 6000. 1.08551 1.07192 1.05154 6500. 1.08936 1.07540 1.05414 7000. 1.09340 1.07900 1.05682 7500. 1.09763 1.08273 1.05959 8000. 1.10207 1.08658 1.06243 8500. 1.10671 1.09057 1.06536 9000. 1.11156 1.09469 1.06836 9500. 1.11664 1.09897 1.07144 10000. 1.12199 1.10343 1.07461 10500. 1.12767 1.10810 1.07787 11000. 1.13370 1.11299 1.08125 11500. 1.14011 1.11811 1.08473 12000. 1.14687 1.12342 1.08829 12500. 1.15392 1.12890 1.09189 13000. 1.16113 1.13445 1.09548 13500. 1.16822 1.13996 1.09901 14000. 1.17490 1.14527 1.10240 14500. 1.18081 1.15023 1.10562 15000. 1.18575 1.15466 1.10860 15500. 1.18948 1.15840 1.11131 16000. 1.19190 1.16137 1.11368 16500. 1.19303 1.16349 1.11568 17000. 1.19302 1.16471 1.11726 17500. 1.19204 1.16507 1.11841 18000. 1.19028 1.16463 1.11909 18500. 1.18788 1.16347 1.11932 19000. 1.18499 1.16169 1.11908 19500. 1.18171 1.15938 1.11840 20000. 1.17809 1.15666 1.11731 20500. 1.17420 1.15360 1.11582 21000. 1.17008 1.15029 1.11397 21500. 1.16578 1.14677 1.11179 22000. 1.16137 1.14307 1.10933 22500. 1.15676 1.13923 1.10664 23000. 1.15208 1.13529 1.10374 23500. 1.14740 1.13128 1.10069 24000. 1.14272 1.12721 1.09751 24500. 1.13804 1.12301 1.09423 25000. 1.13336 1.11880 1.09087 25500. 1.12869 1.11464 1.08744 26000. 1.12403 1.11047 1.08397 26500. 1.11936 1.10631 1.08047 27000. 1.11470 1.10214 1.07694 27500. 1.11003 1.09798 1.07341 28000. 1.10532 1.09386 1.06986 30000. 1.08650 1.07740 1.05555 32500. 1.06275 1.05692 1.03813 35000. 1.03877 1.03653 1.02104 37500. 1.01459 1.01624 1.00429 40000. 0.99026 0.99608 0.98788 42500. 0.96586 0.97610 0.97185 45000. 0.94149 0.95636 0.95622 47500. 0.91731 0.93691 0.94102 50000. 0.89349 0.91782 0.92629 52500. 0.87022 0.89920 0.91206 55000. 0.84771 0.88114 0.89836 57500. 0.82620 0.86375 0.88521 60000. 0.80590 0.84711 0.87264 62500. 0.78702 0.83131 0.86066 65000. 0.76971 0.81645 0.84930 67500. 0.75409 0.80258 0.83858 70000. 0.74021 0.78976 0.82849

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-7 Table B.6 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.420 1.423 1.408 100. 1.419 1.422 1.408 500. 1.412 1.417 1.406 1000. 1.404 1.411 1.403 1500. 1.394 1.403 1.399 2000. 1.383 1.394 1.394 2500. 1.372 1.385 1.388 3000. 1.360 1.375 1.381 3500. 1.349 1.365 1.375 4000. 1.336 1.354 1.367 4500. 1.324 1.344 1.360 5000. 1.311 1.333 1.352 5500. 1.298 1.322 1.344 6000. 1.285 1.311 1.336 6500. 1.272 1.299 1.328 7000. 1.259 1.288 1.320 7500. 1.248 1.276 1.311 8000. 1.236 1.265 1.303 8500. 1.224 1.253 1.294 9000. 1.212 1.242 1.286 9500. 1.200 1.230 1.277 10000. 1.188 1.219 1.268 10500. 1.176 1.207 1.259 11000. 1.166 1.196 1.251 11500. 1.159 1.184 1.242 12000. 1.153 1.173 1.233 12500. 1.146 1.161 1.224 13000. 1.139 1.149 1.215 13500. 1.132 1.141 1.206 14000. 1.125 1.134 1.197 14500. 1.118 1.126 1.188 15000. 1.115 1.121 1.179 15500. 1.113 1.119 1.170 16000. 1.111 1.116 1.162 16500. 1.110 1.114 1.153 17000. 1.108 1.112 1.145 17500. 1.107 1.111 1.138 18000. 1.105 1.109 1.131 18500. 1.103 1.107 1.124 19000. 1.102 1.106 1.118 19500. 1.100 1.104 1.114 20000. 1.098 1.103 1.111 20500. 1.096 1.101 1.109 21000. 1.094 1.099 1.108 21500. 1.092 1.098 1.108 22000. 1.090 1.096 1.107 22500. 1.088 1.095 1.106 23000. 1.087 1.093 1.105 23500. 1.086 1.091 1.105 24000. 1.085 1.089 1.104 24500. 1.084 1.087 1.103 25000. 1.083 1.086 1.102 25500. 1.082 1.084 1.101 26000. 1.081 1.082 1.101 26500. 1.081 1.081 1.100 27000. 1.080 1.079 1.099 27500. 1.079 1.077 1.098 28000. 1.078 1.076 1.097 30000. 1.076 1.072 1.094 32500. 1.072 1.069 1.090 35000. 1.067 1.065 1.086 37500. 1.063 1.062 1.083 40000. 1.059 1.059 1.080 42500. 1.056 1.056 1.078 45000. 1.058 1.053 1.076 47500. 1.062 1.050 1.074 50000. 1.065 1.047 1.073 52500. 1.066 1.045 1.073 55000. 1.066 1.044 1.073 57500. 1.065 1.043 1.073 60000. 1.063 1.042 1.074 62500. 1.058 1.041 1.082 65000. 1.052 1.039 1.092 67500. 1.044 1.044 1.101 70000. 1.050 1.059 1.111

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-8 Table B.7 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.06997 1.05387 1.03366 100. 1.04445 1.03004 1.01226 500. 1.04178 1.02822 1.01134 1000. 1.04276 1.02985 1.01342 1500. 1.04508 1.03263 1.01634 2000. 1.04775 1.03566 1.01938 2500. 1.05043 1.03863 1.02227 3000. 1.05310 1.04150 1.02497 3500. 1.05584 1.04434 1.02753 4000. 1.05867 1.04720 1.03002 4500. 1.06161 1.05012 1.03249 5000. 1.06472 1.05312 1.03496 5500. 1.06805 1.05627 1.03747 6000. 1.07164 1.05960 1.04006 6500. 1.07545 1.06311 1.04275 7000. 1.07946 1.06677 1.04553 7500. 1.08363 1.07055 1.04840 8000. 1.08798 1.07444 1.05134 8500. 1.09254 1.07846 1.05435 9000. 1.09734 1.08264 1.05744 9500. 1.10237 1.08700 1.06064 10000. 1.10765 1.09153 1.06393 10500. 1.11318 1.09624 1.06733 11000. 1.11900 1.10114 1.07082 11500. 1.12514 1.10624 1.07440 12000. 1.13166 1.11158 1.07808 12500. 1.13859 1.11713 1.08184 13000. 1.14582 1.12284 1.08566 13500. 1.15314 1.12855 1.08948 14000. 1.16036 1.13409 1.09318 14500. 1.16724 1.13936 1.09666 15000. 1.17345 1.14426 1.09986 15500. 1.17865 1.14864 1.10277 16000. 1.18261 1.15230 1.10536 16500. 1.18524 1.15519 1.10760 17000. 1.18651 1.15730 1.10944 17500. 1.18645 1.15859 1.11087 18000. 1.18519 1.15901 1.11190 18500. 1.18296 1.15859 1.11252 19000. 1.17998 1.15738 1.11275 19500. 1.17646 1.15546 1.11258 20000. 1.17253 1.15294 1.11198 20500. 1.16831 1.14993 1.11095 21000. 1.16389 1.14656 1.10949 21500. 1.15934 1.14290 1.10765 22000. 1.15454 1.13904 1.10546 22500. 1.14974 1.13504 1.10297 23000. 1.14493 1.13094 1.10021 23500. 1.14012 1.12665 1.09724 24000. 1.13530 1.12236 1.09409 24500. 1.13049 1.11808 1.09081 25000. 1.12568 1.11379 1.08741 25500. 1.12087 1.10955 1.08394 26000. 1.11607 1.10532 1.08042 26500. 1.11126 1.10108 1.07687 27000. 1.10646 1.09685 1.07329 27500. 1.10165 1.09261 1.06965 30000. 1.07741 1.07156 1.05163 32500. 1.05294 1.05062 1.03405 35000. 1.02826 1.02978 1.01681 37500. 1.00341 1.00907 0.99994 40000. 0.97844 0.98851 0.98344 42500. 0.95345 0.96817 0.96734 45000. 0.92860 0.94811 0.95167 47500. 0.90404 0.92839 0.93647 50000. 0.87998 0.90910 0.92176 52500. 0.85662 0.89036 0.90757 55000. 0.83420 0.87226 0.89395 57500. 0.81297 0.85490 0.88090 60000. 0.79314 0.83839 0.86846 62500. 0.77490 0.82282 0.85664 65000. 0.75838 0.80825 0.84546 67500. 0.74367 0.79477 0.83494 70000. 0.73075 0.78239 0.82508

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-9 Table B.8 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.361 1.340 1.330 100. 1.361 1.341 1.326 500. 1.356 1.338 1.322 1000. 1.350 1.334 1.318 1500. 1.342 1.328 1.313 2000. 1.334 1.322 1.309 2500. 1.324 1.314 1.304 3000. 1.315 1.307 1.299 3500. 1.305 1.299 1.294 4000. 1.294 1.291 1.289 4500. 1.284 1.282 1.283 5000. 1.273 1.273 1.278 5500. 1.262 1.264 1.273 6000. 1.250 1.255 1.268 6500. 1.241 1.247 1.263 7000. 1.233 1.241 1.257 7500. 1.225 1.234 1.252 8000. 1.218 1.228 1.247 8500. 1.210 1.222 1.242 9000. 1.204 1.215 1.237 9500. 1.199 1.209 1.231 10000. 1.194 1.203 1.226 10500. 1.189 1.197 1.221 11000. 1.183 1.191 1.216 11500. 1.178 1.185 1.211 12000. 1.172 1.179 1.206 12500. 1.166 1.173 1.201 13000. 1.161 1.167 1.196 13500. 1.155 1.160 1.191 14000. 1.151 1.154 1.186 14500. 1.147 1.149 1.181 15000. 1.144 1.146 1.176 15500. 1.141 1.143 1.170 16000. 1.140 1.141 1.165 16500. 1.139 1.139 1.159 17000. 1.138 1.137 1.154 17500. 1.136 1.136 1.148 18000. 1.135 1.134 1.143 18500. 1.133 1.132 1.137 19000. 1.131 1.130 1.132 19500. 1.129 1.129 1.130 20000. 1.126 1.127 1.129 20500. 1.124 1.125 1.128 21000. 1.121 1.123 1.127 21500. 1.118 1.121 1.126 22000. 1.115 1.119 1.125 22500. 1.113 1.117 1.124 23000. 1.112 1.114 1.123 23500. 1.111 1.112 1.122 24000. 1.110 1.110 1.121 24500. 1.109 1.108 1.120 25000. 1.108 1.106 1.119 25500. 1.107 1.104 1.118 26000. 1.106 1.102 1.117 26500. 1.105 1.100 1.116 27000. 1.104 1.098 1.115 27500. 1.103 1.096 1.114 30000. 1.097 1.090 1.109 32500. 1.092 1.086 1.104 35000. 1.086 1.082 1.099 37500. 1.079 1.078 1.095 40000. 1.076 1.073 1.091 42500. 1.077 1.069 1.088 45000. 1.079 1.064 1.086 47500. 1.081 1.060 1.084 50000. 1.081 1.056 1.082 52500. 1.081 1.054 1.081 55000. 1.078 1.054 1.080 57500. 1.074 1.054 1.080 60000. 1.068 1.052 1.081 62500. 1.061 1.050 1.084 65000. 1.053 1.047 1.095 67500. 1.051 1.057 1.106 70000. 1.070 1.073 1.118

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-10 Table B.9 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.04366 1.02973 1.01135 100. 1.01839 1.00607 0.99001 500. 1.01598 1.00452 0.98940 1000. 1.01734 1.00660 0.99199 1500. 1.02013 1.00989 0.99547 2000. 1.02328 1.01345 0.99910 2500. 1.02645 1.01697 1.00258 3000. 1.02966 1.02041 1.00586 3500. 1.03297 1.02386 1.00902 4000. 1.03640 1.02735 1.01213 4500. 1.03999 1.03092 1.01522 5000. 1.04379 1.03462 1.01833 5500. 1.04786 1.03850 1.02149 6000. 1.05223 1.04260 1.02475 6500. 1.05686 1.04691 1.02813 7000. 1.06173 1.05140 1.03163 7500. 1.06679 1.05602 1.03522 8000. 1.07207 1.06079 1.03890 8500. 1.07761 1.06572 1.04267 9000. 1.08343 1.07084 1.04654 9500. 1.08955 1.07618 1.05052 10000. 1.09599 1.08174 1.05464 10500. 1.10276 1.08753 1.05888 11000. 1.10990 1.09355 1.06324 11500. 1.11751 1.09985 1.06773 12000. 1.12567 1.10647 1.07234 12500. 1.13438 1.11341 1.07707 13000. 1.14350 1.12058 1.08190 13500. 1.15265 1.12778 1.08674 14000. 1.16143 1.13484 1.09146 14500. 1.16948 1.14154 1.09595 15000. 1.17627 1.14768 1.10017 15500. 1.18139 1.15300 1.10407 16000. 1.18476 1.15730 1.10758 16500. 1.18648 1.16044 1.11063 17000. 1.18672 1.16242 1.11316 17500. 1.18572 1.16330 1.11514 18000. 1.18375 1.16314 1.11657 18500. 1.18104 1.16203 1.11744 19000. 1.17775 1.16010 1.11774 19500. 1.17401 1.15754 1.11747 20000. 1.16990 1.15449 1.11663 20500. 1.16551 1.15108 1.11528 21000. 1.16093 1.14738 1.11343 21500. 1.15599 1.14347 1.11118 22000. 1.15106 1.13939 1.10856 22500. 1.14612 1.13520 1.10567 23000. 1.14114 1.13092 1.10255 23500. 1.13616 1.12646 1.09926 24000. 1.13119 1.12200 1.09583 24500. 1.12621 1.11753 1.09230 25000. 1.12123 1.11307 1.08869 25500. 1.11621 1.10867 1.08504 26000. 1.11118 1.10426 1.08135 26500. 1.10616 1.09986 1.07765 27500. 1.09611 1.09105 1.07006 30000. 1.07062 1.06906 1.05144 32500. 1.04475 1.04707 1.03318 35000. 1.01850 1.02506 1.01522 37500. 0.99191 1.00307 0.99757 40000. 0.96509 0.98113 0.98024 42500. 0.93817 0.95932 0.96326 45000. 0.91133 0.93773 0.94668 47500. 0.88482 0.91645 0.93053 50000. 0.85888 0.89560 0.91487 52500. 0.83384 0.87534 0.89973 55000. 0.81000 0.85581 0.88517 57500. 0.78768 0.83716 0.87121 60000. 0.76715 0.81952 0.85789 62500. 0.74862 0.80302 0.84525 65000. 0.73221 0.78775 0.83333 67500. 0.71794 0.77379 0.82214 70000. 0.70573 0.76118 0.81169

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-11 Table B.10 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.318 1.309 1.319 100. 1.317 1.304 1.315 500. 1.313 1.300 1.311 1000. 1.309 1.294 1.306 1500. 1.305 1.289 1.301 2000. 1.300 1.283 1.296 2500. 1.294 1.277 1.290 3000. 1.288 1.271 1.285 3500. 1.283 1.265 1.280 4000. 1.277 1.258 1.274 4500. 1.270 1.252 1.269 5000. 1.264 1.245 1.263 5500. 1.258 1.239 1.257 6000. 1.251 1.232 1.252 6500. 1.244 1.226 1.246 7000. 1.237 1.219 1.241 7500. 1.230 1.212 1.235 8000. 1.223 1.206 1.230 8500. 1.216 1.199 1.224 9000. 1.208 1.192 1.219 9500. 1.201 1.186 1.213 10000. 1.193 1.179 1.208 10500. 1.186 1.172 1.202 11000. 1.178 1.165 1.197 11500. 1.170 1.159 1.191 12000. 1.162 1.152 1.186 12500. 1.154 1.145 1.181 13000. 1.146 1.138 1.175 13500. 1.138 1.131 1.170 14000. 1.129 1.124 1.165 14500. 1.121 1.116 1.159 15000. 1.113 1.108 1.153 15500. 1.105 1.102 1.148 16000. 1.105 1.096 1.142 16500. 1.106 1.092 1.136 17000. 1.105 1.092 1.130 17500. 1.103 1.092 1.124 18000. 1.104 1.092 1.118 18500. 1.104 1.092 1.113 19000. 1.103 1.092 1.108 19500. 1.102 1.091 1.104 20000. 1.100 1.090 1.100 20500. 1.098 1.089 1.097 21000. 1.097 1.088 1.096 21500. 1.095 1.087 1.096 22000. 1.093 1.085 1.095 22500. 1.091 1.084 1.095 23000. 1.089 1.082 1.094 23500. 1.088 1.081 1.094 24000. 1.086 1.079 1.093 24500. 1.085 1.077 1.092 25000. 1.083 1.076 1.091 25500. 1.082 1.075 1.091 26000. 1.082 1.074 1.090 26500. 1.081 1.073 1.089 27500. 1.080 1.071 1.087 30000. 1.078 1.069 1.083 32500. 1.076 1.068 1.079 35000. 1.074 1.066 1.076 37500. 1.076 1.064 1.073 40000. 1.082 1.062 1.070 42500. 1.086 1.060 1.068 45000. 1.090 1.058 1.066 47500. 1.091 1.061 1.065 50000. 1.091 1.064 1.064 52500. 1.089 1.065 1.064 55000. 1.085 1.065 1.064 57500. 1.078 1.064 1.064 60000. 1.070 1.061 1.065 62500. 1.061 1.057 1.067 65000. 1.051 1.052 1.069 67500. 1.042 1.046 1.081 70000. 1.060 1.058 1.092

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-12 Table B.11 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.03879 1.02603 1.00830 100. 1.01353 1.00231 0.98693 500. 1.01120 1.00090 0.98651 1000. 1.01282 1.00329 0.98946 1500. 1.01589 1.00695 0.99330 2000. 1.01932 1.01087 0.99729 2500. 1.02277 1.01473 1.00110 3000. 1.02631 1.01854 1.00471 3500. 1.02997 1.02238 1.00821 4000. 1.03378 1.02629 1.01167 4500. 1.03779 1.03031 1.01512 5000. 1.04206 1.03449 1.01861 5500. 1.04666 1.03890 1.02217 6000. 1.05159 1.04356 1.02584 6500. 1.05681 1.04844 1.02965 7000. 1.06227 1.05351 1.03356 7500. 1.06797 1.05873 1.03758 8000. 1.07394 1.06412 1.04168 8500. 1.08021 1.06971 1.04589 9000. 1.08682 1.07554 1.05023 9500. 1.09380 1.08161 1.05470 10000. 1.10116 1.08794 1.05931 10500. 1.10895 1.09453 1.06407 11000. 1.11727 1.10142 1.06895 11500. 1.12622 1.10868 1.07398 12000. 1.13582 1.11632 1.07914 12500. 1.14592 1.12429 1.08444 13000. 1.15604 1.13239 1.08977 13500. 1.16570 1.14036 1.09502 14000. 1.17434 1.14790 1.10004 14500. 1.18142 1.15481 1.10477 15000. 1.18663 1.16075 1.10917 15500. 1.18990 1.16544 1.11315 16000. 1.19143 1.16875 1.11662 16500. 1.19155 1.17076 1.11952 17000. 1.19057 1.17157 1.12181 17500. 1.18870 1.17129 1.12350 18000. 1.18611 1.17004 1.12457 18500. 1.18291 1.16799 1.12501 19000. 1.17921 1.16534 1.12482 19500. 1.17510 1.16221 1.12403 20000. 1.17065 1.15872 1.12267 20500. 1.16596 1.15493 1.12080 21000. 1.16085 1.15092 1.11848 21500. 1.15573 1.14673 1.11579 22000. 1.15062 1.14241 1.11281 22500. 1.14551 1.13800 1.10960 23000. 1.14035 1.13340 1.10622 23500. 1.13519 1.12880 1.10270 24000. 1.13003 1.12420 1.09908 24500. 1.12487 1.11960 1.09539 25000. 1.11971 1.11500 1.09165 25500. 1.11447 1.11045 1.08788 26000. 1.10923 1.10591 1.08408 27500. 1.09351 1.09227 1.07245 30000. 1.06684 1.06947 1.05353 32500. 1.03971 1.04662 1.03494 35000. 1.01213 1.02372 1.01664 37500. 0.98419 1.00081 0.99865 40000. 0.95601 0.97795 0.98099 42500. 0.92777 0.95523 0.96369 45000. 0.89970 0.93274 0.94681 47500. 0.87211 0.91062 0.93038 50000. 0.84532 0.88902 0.91448 52500. 0.81969 0.86812 0.89913 55000. 0.79559 0.84809 0.88438 57500. 0.77336 0.82909 0.87028 60000. 0.75326 0.81127 0.85686 62500. 0.73545 0.79477 0.84417 65000. 0.72000 0.77967 0.83224 67500. 0.70685 0.76604 0.82108 70000. 0.69582 0.75387 0.81070

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-13 Table B.12 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.318 1.307 1.270 100. 1.318 1.308 1.272 500. 1.313 1.304 1.271 1000. 1.306 1.299 1.269 1500. 1.301 1.292 1.266 2000. 1.295 1.285 1.262 2500. 1.289 1.277 1.258 3000. 1.282 1.269 1.253 3500. 1.276 1.260 1.248 4000. 1.269 1.251 1.242 4500. 1.262 1.242 1.236 5000. 1.255 1.232 1.230 5500. 1.247 1.223 1.224 6000. 1.240 1.213 1.217 6500. 1.232 1.203 1.211 7000. 1.224 1.192 1.204 7500. 1.216 1.182 1.197 8000. 1.208 1.172 1.190 8500. 1.199 1.161 1.183 9000. 1.191 1.152 1.176 9500. 1.182 1.146 1.168 10000. 1.174 1.140 1.161 10500. 1.165 1.134 1.153 11000. 1.156 1.128 1.146 11500. 1.147 1.122 1.138 12000. 1.138 1.116 1.133 12500. 1.129 1.110 1.128 13000. 1.120 1.104 1.123 13500. 1.115 1.097 1.118 14000. 1.138 1.091 1.113 14500. 1.152 1.087 1.108 15000. 1.158 1.083 1.102 15500. 1.158 1.084 1.097 16000. 1.156 1.094 1.091 16500. 1.152 1.100 1.088 17000. 1.152 1.102 1.087 17500. 1.151 1.102 1.085 18000. 1.149 1.100 1.084 18500. 1.147 1.099 1.082 19000. 1.144 1.097 1.081 19500. 1.142 1.095 1.080 20000. 1.139 1.093 1.079 20500. 1.137 1.092 1.078 21000. 1.135 1.091 1.077 21500. 1.132 1.090 1.077 22000. 1.129 1.089 1.076 22500. 1.127 1.087 1.075 23000. 1.125 1.086 1.075 23500. 1.122 1.085 1.075 24000. 1.120 1.083 1.074 24500. 1.117 1.082 1.074 25000. 1.115 1.081 1.074 25500. 1.112 1.080 1.074 26000. 1.110 1.079 1.073 27500. 1.102 1.075 1.073 30000. 1.090 1.074 1.071 32500. 1.092 1.072 1.070 35000. 1.096 1.071 1.068 37500. 1.099 1.070 1.067 40000. 1.101 1.072 1.066 42500. 1.103 1.075 1.064 45000. 1.105 1.078 1.063 47500. 1.104 1.079 1.062 50000. 1.101 1.080 1.061 52500. 1.097 1.079 1.060 55000. 1.090 1.077 1.058 57500. 1.081 1.073 1.057 60000. 1.071 1.069 1.055 62500. 1.059 1.063 1.057 65000. 1.048 1.056 1.069 67500. 1.047 1.049 1.081 70000. 1.064 1.061 1.092

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-14 Table B.13 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.05587 1.04582 1.03154 100. 1.03059 1.02198 1.01000 500. 1.02991 1.02211 1.01086 1000. 1.03405 1.02683 1.01569 1500. 1.03981 1.03298 1.02152 2000. 1.04594 1.03936 1.02741 2500. 1.05225 1.04579 1.03314 3000. 1.05886 1.05234 1.03877 3500. 1.06589 1.05912 1.04442 4000. 1.07343 1.06623 1.05015 4500. 1.08152 1.07372 1.05603 5000. 1.09011 1.08154 1.06207 5500. 1.09918 1.08968 1.06827 6000. 1.10879 1.09816 1.07461 6500. 1.11904 1.10705 1.08114 7000. 1.13002 1.11640 1.08787 7500. 1.14175 1.12621 1.09483 8000. 1.15421 1.13647 1.10198 8500. 1.16727 1.14710 1.10930 9000. 1.18039 1.15793 1.11669 9500. 1.19292 1.16860 1.12402 10000. 1.20406 1.17867 1.13113 10500. 1.21330 1.18772 1.13788 11000. 1.22037 1.19537 1.14410 11500. 1.22524 1.20136 1.14962 12000. 1.22816 1.20562 1.15432 12500. 1.22948 1.20823 1.15810 13000. 1.22952 1.20938 1.16090 13500. 1.22845 1.20929 1.16275 14000. 1.22648 1.20819 1.16368 14500. 1.22377 1.20629 1.16376 15000. 1.22046 1.20376 1.16306 15500. 1.21666 1.20072 1.16168 16000. 1.21247 1.19729 1.15971 16500. 1.20799 1.19355 1.15727 17000. 1.20331 1.18955 1.15445 17500. 1.19848 1.18536 1.15134 18000. 1.19336 1.18104 1.14800 18500. 1.18825 1.17662 1.14448 19000. 1.18313 1.17213 1.14083 19500. 1.17802 1.16748 1.13707 20000. 1.17290 1.16284 1.13324 20500. 1.16780 1.15823 1.12935 21000. 1.16270 1.15361 1.12543 21500. 1.15759 1.14900 1.12149 22000. 1.15249 1.14438 1.11754 22500. 1.14739 1.13977 1.11352 25000. 1.12147 1.11690 1.09371 27500. 1.09509 1.09399 1.07437 30000. 1.06823 1.07101 1.05534 32500. 1.04089 1.04798 1.03660 35000. 1.01311 1.02490 1.01815 37500. 0.98496 1.00180 1.00000 40000. 0.95659 0.97876 0.98219 42500. 0.92817 0.95587 0.96475 45000. 0.89995 0.93324 0.94774 47500. 0.87225 0.91099 0.93121 50000. 0.84539 0.88930 0.91521 52500. 0.81975 0.86833 0.89979 55000. 0.79569 0.84827 0.88498 57500. 0.77356 0.82928 0.87083 60000. 0.75360 0.81151 0.85740 62500. 0.73597 0.79509 0.84471 65000. 0.72072 0.78010 0.83280 67500. 0.70775 0.76660 0.82168 70000. 0.69692 0.75458 0.81135

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-15 Table B.14 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.307 1.292 1.257 100. 1.306 1.293 1.258 500. 1.302 1.287 1.256 1000. 1.296 1.280 1.252 1500. 1.289 1.272 1.248 2000. 1.282 1.262 1.242 2500. 1.274 1.252 1.236 3000. 1.266 1.242 1.230 3500. 1.258 1.231 1.223 4000. 1.250 1.220 1.216 4500. 1.241 1.208 1.208 5000. 1.232 1.196 1.201 5500. 1.222 1.184 1.193 6000. 1.213 1.172 1.184 6500. 1.203 1.159 1.176 7000. 1.193 1.149 1.168 7500. 1.183 1.143 1.159 8000. 1.172 1.136 1.150 8500. 1.162 1.128 1.142 9000. 1.151 1.121 1.136 9500. 1.140 1.113 1.130 10000. 1.135 1.105 1.123 10500. 1.152 1.098 1.117 11000. 1.160 1.090 1.110 11500. 1.161 1.088 1.103 12000. 1.160 1.097 1.097 12500. 1.157 1.101 1.090 13000. 1.153 1.102 1.086 13500. 1.150 1.102 1.085 14000. 1.146 1.101 1.083 14500. 1.144 1.100 1.082 15000. 1.142 1.098 1.082 15500. 1.139 1.096 1.081 16000. 1.137 1.095 1.080 16500. 1.135 1.093 1.080 17000. 1.133 1.092 1.079 17500. 1.131 1.091 1.079 18000. 1.129 1.089 1.078 18500. 1.127 1.088 1.078 19000. 1.124 1.087 1.077 19500. 1.122 1.086 1.077 20000. 1.120 1.084 1.077 20500. 1.118 1.083 1.076 21000. 1.116 1.082 1.076 21500. 1.114 1.080 1.076 22000. 1.112 1.079 1.076 22500. 1.110 1.078 1.075 25000. 1.099 1.075 1.074 27500. 1.088 1.073 1.073 30000. 1.081 1.071 1.072 32500. 1.082 1.070 1.070 35000. 1.085 1.068 1.068 37500. 1.088 1.066 1.066 40000. 1.090 1.065 1.065 42500. 1.091 1.066 1.063 45000. 1.093 1.068 1.060 47500. 1.092 1.069 1.059 50000. 1.089 1.070 1.058 52500. 1.085 1.069 1.056 55000. 1.078 1.067 1.055 57500. 1.070 1.064 1.053 60000. 1.060 1.059 1.051 62500. 1.050 1.054 1.058 65000. 1.039 1.048 1.070 67500. 1.046 1.045 1.081 70000. 1.062 1.061 1.093

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-16 Table B.15 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.06422 1.04771 1.02961 100. 1.04133 1.02662 1.01099 500. 1.04064 1.02646 1.01126 1000. 1.04386 1.02976 1.01435 1500. 1.04842 1.03410 1.01814 2000. 1.05350 1.03877 1.02204 2500. 1.05887 1.04357 1.02591 3000. 1.06446 1.04842 1.02970 3500. 1.07025 1.05332 1.03341 4000. 1.07620 1.05824 1.03705 4500. 1.08214 1.06316 1.04062 5000. 1.08774 1.06793 1.04409 5500. 1.09274 1.07235 1.04742 6000. 1.09709 1.07632 1.05052 6500. 1.10086 1.07981 1.05334 7000. 1.10414 1.08290 1.05586 7500. 1.10701 1.08565 1.05811 8000. 1.10958 1.08811 1.06014 8500. 1.11197 1.09036 1.06199 9000. 1.11426 1.09246 1.06369 9500. 1.11653 1.09446 1.06527 10000. 1.11883 1.09642 1.06676 10500. 1.12119 1.09836 1.06817 11000. 1.12364 1.10033 1.06952 11500. 1.12620 1.10233 1.07084 12000. 1.12890 1.10441 1.07215 12500. 1.13174 1.10657 1.07346 13000. 1.13477 1.10883 1.07480 13500. 1.13798 1.11121 1.07617 14000. 1.14139 1.11369 1.07759 14500. 1.14501 1.11626 1.07903 15000. 1.14879 1.11892 1.08050 15500. 1.15272 1.12163 1.08197 16000. 1.15667 1.12434 1.08342 16500. 1.16055 1.12699 1.08481 17000. 1.16417 1.12953 1.08612 17500. 1.16736 1.13187 1.08731 18000. 1.17000 1.13395 1.08837 18500. 1.17193 1.13568 1.08928 19000. 1.17307 1.13698 1.09002 19500. 1.17338 1.13782 1.09057 20000. 1.17291 1.13816 1.09091 20500. 1.17167 1.13798 1.09103 21000. 1.16975 1.13730 1.09090 21500. 1.16728 1.13613 1.09053 22000. 1.16436 1.13449 1.08989 22500. 1.16109 1.13244 1.08899 23000. 1.15754 1.13001 1.08784 23500. 1.15378 1.12728 1.08644 24000. 1.14984 1.12429 1.08481 24500. 1.14577 1.12111 1.08296 25000. 1.14163 1.11776 1.08089 25500. 1.13730 1.11428 1.07862 26000. 1.13296 1.11070 1.07619 26500. 1.12863 1.10705 1.07359 27000. 1.12429 1.10335 1.07086 27500. 1.11996 1.09960 1.06803 28000. 1.11567 1.09578 1.06510 28500. 1.11138 1.09196 1.06210 29000. 1.10708 1.08813 1.05904 29500. 1.10279 1.08431 1.05594 30000. 1.09850 1.08049 1.05280 30500. 1.09420 1.07674 1.04964 31000. 1.08990 1.07298 1.04646 31500. 1.08560 1.06923 1.04327 32000. 1.08130 1.06547 1.04008 32500. 1.07700 1.06172 1.03689 33000. 1.07270 1.05801 1.03370 35000. 1.05548 1.04317 1.02093 37500. 1.03393 1.02484 1.00544 40000. 1.01238 1.00675 0.99035 42500. 0.99088 0.98893 0.97566 45000. 0.96948 0.97140 0.96140 47500. 0.94827 0.95420 0.94759 50000. 0.92732 0.93738 0.93424 52500. 0.90677 0.92097 0.92137 55000. 0.88672 0.90503 0.90899 57500. 0.86731 0.88963 0.89713 60000. 0.84867 0.87481 0.88579 62500. 0.83094 0.86061 0.87497 65000. 0.81423 0.84710 0.86469 67500. 0.79865 0.83431 0.85493 70000. 0.78428 0.82227 0.84571

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-17 Table B.16 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.461 1.474 1.473 100. 1.454 1.468 1.468 500. 1.445 1.460 1.463 1000. 1.435 1.451 1.456 1500. 1.423 1.441 1.449 2000. 1.410 1.430 1.441 2500. 1.397 1.418 1.432 3000. 1.383 1.406 1.422 3500. 1.369 1.394 1.413 4000. 1.355 1.382 1.404 4500. 1.342 1.370 1.394 5000. 1.328 1.358 1.385 5500. 1.318 1.346 1.375 6000. 1.308 1.335 1.366 6500. 1.300 1.324 1.357 7000. 1.291 1.314 1.349 7500. 1.284 1.304 1.340 8000. 1.276 1.294 1.332 8500. 1.269 1.284 1.324 9000. 1.262 1.278 1.316 9500. 1.255 1.273 1.308 10000. 1.248 1.268 1.301 10500. 1.241 1.263 1.293 11000. 1.235 1.257 1.286 11500. 1.229 1.252 1.280 12000. 1.223 1.247 1.276 12500. 1.218 1.242 1.271 13000. 1.212 1.237 1.267 13500. 1.206 1.232 1.263 14000. 1.200 1.227 1.258 14500. 1.194 1.222 1.254 15000. 1.188 1.216 1.250 15500. 1.181 1.211 1.245 16000. 1.174 1.205 1.241 16500. 1.168 1.199 1.236 17000. 1.162 1.193 1.232 17500. 1.156 1.187 1.227 18000. 1.151 1.180 1.222 18500. 1.145 1.173 1.217 19000. 1.140 1.167 1.212 19500. 1.135 1.162 1.207 20000. 1.130 1.157 1.202 20500. 1.126 1.153 1.197 21000. 1.123 1.149 1.192 21500. 1.119 1.145 1.187 22000. 1.116 1.141 1.182 22500. 1.113 1.138 1.178 23000. 1.112 1.135 1.174 23500. 1.110 1.132 1.170 24000. 1.109 1.129 1.166 24500. 1.108 1.127 1.163 25000. 1.106 1.125 1.160 25500. 1.104 1.122 1.157 26000. 1.103 1.120 1.154 26500. 1.101 1.118 1.151 27000. 1.100 1.117 1.149 27500. 1.098 1.115 1.147 28000. 1.096 1.113 1.145 28500. 1.095 1.111 1.143 29000. 1.093 1.110 1.142 29500. 1.092 1.108 1.140 30000. 1.090 1.106 1.139 30500. 1.088 1.104 1.137 31000. 1.086 1.102 1.136 31500. 1.085 1.101 1.134 32000. 1.083 1.099 1.133 32500. 1.081 1.097 1.131 33000. 1.079 1.095 1.130 35000. 1.073 1.089 1.125 37500. 1.064 1.080 1.119 40000. 1.056 1.072 1.113 42500. 1.049 1.064 1.107 45000. 1.043 1.058 1.102 47500. 1.041 1.052 1.100 50000. 1.039 1.048 1.107 52500. 1.037 1.044 1.116 55000. 1.038 1.043 1.126 57500. 1.041 1.042 1.136 60000. 1.043 1.042 1.146 62500. 1.043 1.054 1.157 65000. 1.041 1.069 1.168 67500. 1.045 1.084 1.179 70000. 1.064 1.098 1.190

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-18 Table B.17 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.12421 1.10266 1.07803 100. 1.09827 1.07863 1.05662 500. 1.09461 1.07571 1.05444 1000. 1.09403 1.07558 1.05460 1500. 1.09459 1.07640 1.05545 2000. 1.09546 1.07744 1.05642 2500. 1.09642 1.07852 1.05733 3000. 1.09740 1.07955 1.05816 3500. 1.09841 1.08054 1.05891 4000. 1.09948 1.08154 1.05961 4500. 1.10063 1.08256 1.06028 5000. 1.10188 1.08363 1.06095 5500. 1.10322 1.08476 1.06163 6000. 1.10466 1.08595 1.06232 6500. 1.10618 1.08719 1.06305 7000. 1.10778 1.08848 1.06381 7500. 1.10947 1.08983 1.06462 8000. 1.11124 1.09124 1.06546 8500. 1.11311 1.09272 1.06635 9000. 1.11508 1.09427 1.06729 9500. 1.11715 1.09590 1.06827 10000. 1.11933 1.09761 1.06929 10500. 1.12161 1.09938 1.07035 11000. 1.12401 1.10124 1.07144 11500. 1.12653 1.10317 1.07257 12000. 1.12920 1.10520 1.07373 12500. 1.13204 1.10733 1.07494 13000. 1.13505 1.10958 1.07621 13500. 1.13825 1.11193 1.07753 14000. 1.14165 1.11440 1.07890 14500. 1.14523 1.11697 1.08032 15000. 1.14899 1.11962 1.08176 15500. 1.15289 1.12232 1.08321 16000. 1.15682 1.12502 1.08463 16500. 1.16066 1.12765 1.08600 17000. 1.16424 1.13017 1.08727 17500. 1.16740 1.13250 1.08844 18000. 1.17003 1.13455 1.08947 18500. 1.17196 1.13625 1.09036 19000. 1.17313 1.13753 1.09107 19500. 1.17349 1.13836 1.09158 20000. 1.17309 1.13870 1.09190 20500. 1.17195 1.13853 1.09200 21000. 1.17014 1.13787 1.09185 21500. 1.16776 1.13673 1.09145 22000. 1.16493 1.13514 1.09081 22500. 1.16174 1.13313 1.08990 23000. 1.15825 1.13074 1.08874 23500. 1.15454 1.12805 1.08734 24000. 1.15065 1.12510 1.08571 24500. 1.14661 1.12194 1.08386 25000. 1.14248 1.11862 1.08180 25500. 1.13814 1.11516 1.07954 26000. 1.13381 1.11160 1.07711 26500. 1.12947 1.10796 1.07452 27000. 1.12514 1.10426 1.07180 27500. 1.12080 1.10052 1.06897 28000. 1.11650 1.09675 1.06605 28500. 1.11220 1.09291 1.06305 29000. 1.10789 1.08906 1.05999 29500. 1.10359 1.08521 1.05689 30000. 1.09929 1.08137 1.05375 30500. 1.09498 1.07760 1.05059 31000. 1.09067 1.07384 1.04740 31500. 1.08636 1.07007 1.04421 32000. 1.08205 1.06631 1.04101 32500. 1.07774 1.06254 1.03781 33000. 1.07342 1.05882 1.03461 33500. 1.06911 1.05510 1.03142 35000. 1.05616 1.04393 1.02182 37500. 1.03455 1.02556 1.00627 40000. 1.01295 1.00742 0.99113 42500. 0.99139 0.98955 0.97640 45000. 0.96994 0.97197 0.96210 47500. 0.94868 0.95474 0.94825 50000. 0.92769 0.93787 0.93487 52500. 0.90710 0.92143 0.92197 55000. 0.88702 0.90547 0.90957 57500. 0.86758 0.89004 0.89768 60000. 0.84893 0.87519 0.88632 62500. 0.83119 0.86099 0.87548 65000. 0.81448 0.84746 0.86519 67500. 0.79891 0.83466 0.85542 70000. 0.78456 0.82262 0.84620

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-19 Table B.18 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.406 1.422 1.430 100. 1.401 1.419 1.427 500. 1.396 1.414 1.424 1000. 1.389 1.408 1.420 1500. 1.382 1.402 1.416 2000. 1.373 1.394 1.410 2500. 1.365 1.387 1.404 3000. 1.356 1.379 1.398 3500. 1.347 1.371 1.391 4000. 1.337 1.363 1.385 4500. 1.328 1.355 1.378 5000. 1.319 1.346 1.371 5500. 1.310 1.338 1.365 6000. 1.304 1.329 1.358 6500. 1.297 1.321 1.351 7000. 1.291 1.312 1.344 7500. 1.284 1.303 1.337 8000. 1.278 1.294 1.330 8500. 1.271 1.285 1.323 9000. 1.264 1.279 1.315 9500. 1.257 1.274 1.308 10000. 1.251 1.269 1.301 10500. 1.244 1.264 1.294 11000. 1.238 1.259 1.287 11500. 1.232 1.254 1.281 12000. 1.226 1.249 1.276 12500. 1.220 1.244 1.272 13000. 1.214 1.239 1.268 13500. 1.208 1.234 1.263 14000. 1.202 1.229 1.259 14500. 1.196 1.224 1.255 15000. 1.190 1.218 1.251 15500. 1.184 1.213 1.246 16000. 1.177 1.207 1.242 16500. 1.171 1.201 1.237 17000. 1.165 1.195 1.233 17500. 1.159 1.189 1.228 18000. 1.153 1.182 1.223 18500. 1.148 1.175 1.218 19000. 1.142 1.169 1.213 19500. 1.137 1.163 1.208 20000. 1.133 1.159 1.202 20500. 1.128 1.154 1.197 21000. 1.125 1.150 1.192 21500. 1.121 1.146 1.188 22000. 1.118 1.143 1.183 22500. 1.115 1.139 1.179 23000. 1.114 1.136 1.175 23500. 1.113 1.133 1.171 24000. 1.112 1.131 1.167 24500. 1.110 1.128 1.164 25000. 1.109 1.126 1.160 25500. 1.107 1.124 1.157 26000. 1.106 1.121 1.154 26500. 1.104 1.120 1.152 27000. 1.103 1.118 1.149 27500. 1.101 1.116 1.147 28000. 1.099 1.114 1.146 28500. 1.097 1.112 1.144 29000. 1.096 1.110 1.142 29500. 1.094 1.109 1.141 30000. 1.092 1.107 1.139 30500. 1.090 1.105 1.138 31000. 1.089 1.103 1.136 31500. 1.087 1.102 1.135 32000. 1.086 1.100 1.133 32500. 1.084 1.098 1.132 33000. 1.082 1.096 1.130 33500. 1.080 1.095 1.129 35000. 1.075 1.090 1.125 37500. 1.067 1.081 1.119 40000. 1.059 1.073 1.113 42500. 1.051 1.065 1.107 45000. 1.044 1.059 1.102 47500. 1.041 1.054 1.099 50000. 1.039 1.049 1.107 52500. 1.037 1.045 1.116 55000. 1.039 1.043 1.126 57500. 1.042 1.042 1.136 60000. 1.043 1.041 1.146 62500. 1.043 1.054 1.157 65000. 1.042 1.069 1.168 67500. 1.045 1.083 1.179 70000. 1.064 1.098 1.190

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-20 Table B.19 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.09528 1.07797 1.05714 100. 1.06932 1.05377 1.03545 500. 1.06596 1.05116 1.03361 1000. 1.06581 1.05154 1.03434 1500. 1.06694 1.05301 1.03588 2000. 1.06846 1.05478 1.03762 2500. 1.07012 1.05664 1.03934 3000. 1.07186 1.05849 1.04101 3500. 1.07369 1.06036 1.04261 4000. 1.07565 1.06228 1.04420 4500. 1.07774 1.06428 1.04578 5000. 1.07999 1.06637 1.04737 5500. 1.08238 1.06855 1.04899 6000. 1.08489 1.07082 1.05064 6500. 1.08752 1.07317 1.05234 7000. 1.09026 1.07560 1.05408 7500. 1.09312 1.07810 1.05588 8000. 1.09611 1.08069 1.05773 8500. 1.09925 1.08338 1.05965 9000. 1.10252 1.08617 1.06163 9500. 1.10594 1.08907 1.06366 10000. 1.10950 1.09206 1.06575 10500. 1.11321 1.09516 1.06789 11000. 1.11710 1.09838 1.07009 11500. 1.12118 1.10173 1.07234 12000. 1.12550 1.10523 1.07466 12500. 1.13008 1.10889 1.07706 13000. 1.13495 1.11273 1.07954 13500. 1.14014 1.11675 1.08211 14000. 1.14561 1.12095 1.08476 14500. 1.15137 1.12531 1.08747 15000. 1.15735 1.12980 1.09021 15500. 1.16330 1.13431 1.09294 16000. 1.16901 1.13875 1.09563 16500. 1.17421 1.14302 1.09821 17000. 1.17864 1.14692 1.10067 17500. 1.18215 1.15034 1.10295 18000. 1.18458 1.15316 1.10501 18500. 1.18590 1.15530 1.10680 19000. 1.18617 1.15669 1.10829 19500. 1.18554 1.15732 1.10944 20000. 1.18416 1.15721 1.11024 20500. 1.18216 1.15644 1.11065 21000. 1.17965 1.15508 1.11067 21500. 1.17672 1.15319 1.11030 22000. 1.17344 1.15086 1.10955 22500. 1.16986 1.14817 1.10845 23000. 1.16604 1.14520 1.10702 23500. 1.16200 1.14199 1.10527 24000. 1.15780 1.13858 1.10323 24500. 1.15348 1.13502 1.10093 25000. 1.14896 1.13132 1.09840 25500. 1.14437 1.12751 1.09568 26000. 1.13977 1.12363 1.09280 26500. 1.13518 1.11969 1.08979 27000. 1.13058 1.11560 1.08668 27500. 1.12599 1.11151 1.08348 28000. 1.12141 1.10745 1.08021 28500. 1.11683 1.10338 1.07689 29000. 1.11224 1.09932 1.07352 29500. 1.10766 1.09525 1.07013 30000. 1.10308 1.09119 1.06671 30500. 1.09845 1.08716 1.06328 31000. 1.09382 1.08314 1.05985 32500. 1.07992 1.07106 1.04938 35000. 1.05650 1.05099 1.03236 37500. 1.03281 1.03097 1.01566 40000. 1.00890 1.01103 0.99929 42500. 0.98481 0.99120 0.98323 45000. 0.96064 0.97151 0.96752 47500. 0.93648 0.95203 0.95220 50000. 0.91249 0.93283 0.93729 52500. 0.88884 0.91397 0.92282 55000. 0.86573 0.89555 0.90882 57500. 0.84339 0.87767 0.89533 60000. 0.82202 0.86044 0.88237 62500. 0.80187 0.84394 0.86996 65000. 0.78313 0.82827 0.85813 67500. 0.76596 0.81351 0.84690 70000. 0.75047 0.79973 0.83628

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-21 Table B.20 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.484 1.487 1.477 100. 1.482 1.486 1.477 500. 1.475 1.480 1.474 1000. 1.467 1.474 1.470 1500. 1.457 1.466 1.465 2000. 1.446 1.457 1.459 2500. 1.435 1.448 1.453 3000. 1.424 1.438 1.446 3500. 1.412 1.428 1.438 4000. 1.400 1.417 1.431 4500. 1.388 1.407 1.423 5000. 1.376 1.396 1.415 5500. 1.363 1.385 1.407 6000. 1.350 1.374 1.399 6500. 1.338 1.363 1.390 7000. 1.325 1.352 1.382 7500. 1.312 1.341 1.373 8000. 1.299 1.329 1.364 8500. 1.286 1.318 1.356 9000. 1.273 1.307 1.347 9500. 1.260 1.295 1.338 10000. 1.248 1.284 1.329 10500. 1.237 1.272 1.321 11000. 1.225 1.261 1.312 11500. 1.217 1.250 1.303 12000. 1.209 1.238 1.294 12500. 1.200 1.227 1.285 13000. 1.194 1.216 1.276 13500. 1.189 1.206 1.268 14000. 1.185 1.198 1.259 14500. 1.180 1.190 1.250 15000. 1.176 1.183 1.241 15500. 1.172 1.178 1.232 16000. 1.168 1.175 1.224 16500. 1.165 1.171 1.215 17000. 1.161 1.168 1.206 17500. 1.159 1.165 1.197 18000. 1.156 1.162 1.189 18500. 1.154 1.159 1.182 19000. 1.152 1.156 1.176 19500. 1.150 1.154 1.170 20000. 1.148 1.152 1.165 20500. 1.146 1.149 1.160 21000. 1.144 1.147 1.155 21500. 1.142 1.145 1.152 22000. 1.140 1.143 1.151 22500. 1.138 1.142 1.149 23000. 1.135 1.140 1.148 23500. 1.133 1.138 1.147 24000. 1.130 1.136 1.146 24500. 1.128 1.134 1.145 25000. 1.125 1.132 1.143 25500. 1.123 1.130 1.142 26000. 1.120 1.128 1.141 26500. 1.118 1.125 1.140 27000. 1.115 1.123 1.139 27500. 1.113 1.121 1.138 28000. 1.110 1.119 1.137 28500. 1.107 1.117 1.135 29000. 1.105 1.115 1.134 29500. 1.102 1.113 1.133 30000. 1.099 1.111 1.132 30500. 1.097 1.109 1.131 31000. 1.094 1.107 1.129 32500. 1.087 1.101 1.126 35000. 1.074 1.091 1.120 37500. 1.062 1.082 1.114 40000. 1.051 1.073 1.109 42500. 1.041 1.065 1.105 45000. 1.041 1.058 1.101 47500. 1.045 1.052 1.097 50000. 1.049 1.047 1.094 52500. 1.053 1.043 1.092 55000. 1.055 1.040 1.090 57500. 1.056 1.038 1.088 60000. 1.055 1.038 1.087 62500. 1.054 1.038 1.087 65000. 1.050 1.040 1.087 67500. 1.045 1.042 1.092 70000. 1.039 1.046 1.102

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-22 Table B.21 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.09471 1.07777 1.05677 100. 1.06856 1.05339 1.03494 500. 1.06523 1.05085 1.03319 1000. 1.06523 1.05140 1.03411 1500. 1.06658 1.05312 1.03590 2000. 1.06835 1.05518 1.03790 2500. 1.07021 1.05727 1.03987 3000. 1.07207 1.05929 1.04171 3500. 1.07397 1.06126 1.04342 4000. 1.07593 1.06323 1.04505 4500. 1.07798 1.06523 1.04664 5000. 1.08013 1.06728 1.04822 5500. 1.08241 1.06940 1.04981 6000. 1.08486 1.07164 1.05144 6500. 1.08752 1.07401 1.05313 7000. 1.09038 1.07653 1.05491 7500. 1.09342 1.07920 1.05678 8000. 1.09663 1.08200 1.05875 8500. 1.09999 1.08491 1.06079 9000. 1.10350 1.08792 1.06291 9500. 1.10717 1.09105 1.06509 10000. 1.11103 1.09430 1.06734 10500. 1.11508 1.09770 1.06966 11000. 1.11934 1.10124 1.07205 11500. 1.12383 1.10495 1.07452 12000. 1.12857 1.10881 1.07708 12500. 1.13360 1.11285 1.07971 13000. 1.13896 1.11708 1.08243 13500. 1.14470 1.12152 1.08523 14000. 1.15081 1.12617 1.08813 14500. 1.15720 1.13100 1.09109 15000. 1.16375 1.13594 1.09409 15500. 1.17018 1.14087 1.09708 16000. 1.17618 1.14568 1.09999 16500. 1.18143 1.15017 1.10279 17000. 1.18574 1.15420 1.10544 17500. 1.18888 1.15761 1.10788 18000. 1.19077 1.16030 1.11004 18500. 1.19145 1.16217 1.11189 19000. 1.19111 1.16320 1.11340 19500. 1.18990 1.16342 1.11453 20000. 1.18799 1.16288 1.11525 20500. 1.18550 1.16167 1.11555 21000. 1.18253 1.15986 1.11541 21500. 1.17917 1.15755 1.11487 22000. 1.17548 1.15484 1.11392 22500. 1.17150 1.15181 1.11261 23000. 1.16731 1.14852 1.11094 23500. 1.16295 1.14500 1.10894 24000. 1.15830 1.14131 1.10665 24500. 1.15364 1.13749 1.10411 25000. 1.14899 1.13355 1.10135 25500. 1.14431 1.12955 1.09843 26000. 1.13964 1.12537 1.09536 26500. 1.13496 1.12120 1.09218 27000. 1.13029 1.11702 1.08891 27500. 1.12561 1.11284 1.08557 28000. 1.12091 1.10871 1.08218 28500. 1.11620 1.10458 1.07874 29000. 1.11150 1.10046 1.07527 29500. 1.10679 1.09633 1.07179 30000. 1.10209 1.09220 1.06830 32500. 1.07830 1.07164 1.05065 35000. 1.05422 1.05111 1.03346 37500. 1.02985 1.03064 1.01657 40000. 1.00524 1.01022 0.99999 42500. 0.98045 0.98991 0.98375 45000. 0.95557 0.96974 0.96786 47500. 0.93075 0.94979 0.95236 50000. 0.90614 0.93013 0.93729 52500. 0.88195 0.91085 0.92266 55000. 0.85840 0.89205 0.90852 57500. 0.83572 0.87384 0.89490 60000. 0.81417 0.85632 0.88184 62500. 0.79398 0.83961 0.86934 65000. 0.77534 0.82380 0.85744 67500. 0.75842 0.80897 0.84615 70000. 0.74331 0.79519 0.83550

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-23 Table B.22 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.486 1.471 1.436 100. 1.485 1.470 1.434 500. 1.480 1.465 1.430 1000. 1.473 1.460 1.425 1500. 1.464 1.453 1.420 2000. 1.455 1.445 1.414 2500. 1.445 1.436 1.409 3000. 1.435 1.428 1.403 3500. 1.425 1.419 1.397 4000. 1.414 1.410 1.391 4500. 1.403 1.401 1.385 5000. 1.392 1.392 1.379 5500. 1.381 1.384 1.373 6000. 1.373 1.377 1.367 6500. 1.365 1.369 1.361 7000. 1.356 1.361 1.355 7500. 1.347 1.353 1.349 8000. 1.338 1.345 1.342 8500. 1.329 1.337 1.336 9000. 1.320 1.329 1.330 9500. 1.311 1.321 1.323 10000. 1.302 1.313 1.317 10500. 1.293 1.305 1.310 11000. 1.283 1.296 1.304 11500. 1.274 1.288 1.299 12000. 1.264 1.280 1.294 12500. 1.254 1.271 1.288 13000. 1.245 1.263 1.283 13500. 1.234 1.254 1.277 14000. 1.224 1.246 1.272 14500. 1.214 1.237 1.267 15000. 1.204 1.229 1.261 15500. 1.194 1.220 1.255 16000. 1.184 1.212 1.249 16500. 1.176 1.204 1.243 17000. 1.167 1.196 1.237 17500. 1.160 1.189 1.231 18000. 1.153 1.182 1.224 18500. 1.147 1.175 1.218 19000. 1.142 1.169 1.212 19500. 1.137 1.164 1.205 20000. 1.132 1.159 1.199 20500. 1.128 1.154 1.193 21000. 1.124 1.150 1.188 21500. 1.121 1.146 1.183 22000. 1.117 1.142 1.178 22500. 1.114 1.138 1.174 23000. 1.111 1.135 1.170 23500. 1.108 1.132 1.166 24000. 1.105 1.129 1.163 24500. 1.103 1.126 1.160 25000. 1.100 1.123 1.157 25500. 1.097 1.121 1.154 26000. 1.095 1.118 1.152 26500. 1.092 1.116 1.149 27000. 1.090 1.113 1.147 27500. 1.087 1.111 1.144 28000. 1.084 1.108 1.142 28500. 1.081 1.106 1.140 29000. 1.079 1.103 1.138 29500. 1.076 1.101 1.136 30000. 1.073 1.098 1.134 32500. 1.064 1.086 1.124 35000. 1.059 1.074 1.115 37500. 1.053 1.062 1.106 40000. 1.048 1.052 1.097 42500. 1.050 1.047 1.089 45000. 1.050 1.043 1.081 47500. 1.053 1.040 1.075 50000. 1.055 1.036 1.069 52500. 1.057 1.035 1.064 55000. 1.058 1.034 1.064 57500. 1.057 1.035 1.065 60000. 1.055 1.036 1.067 62500. 1.051 1.036 1.073 65000. 1.046 1.036 1.083 67500. 1.040 1.037 1.093 70000. 1.047 1.052 1.103

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-24 Table B.23 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.07017 1.05560 1.03672 100. 1.04418 1.03127 1.01482 500. 1.04109 1.02896 1.01333 1000. 1.04141 1.02988 1.01465 1500. 1.04315 1.03203 1.01691 2000. 1.04535 1.03456 1.01940 2500. 1.04765 1.03714 1.02187 3000. 1.04998 1.03965 1.02420 3500. 1.05238 1.04214 1.02642 4000. 1.05487 1.04466 1.02857 4500. 1.05748 1.04722 1.03069 5000. 1.06022 1.04986 1.03281 5500. 1.06313 1.05260 1.03494 6000. 1.06626 1.05548 1.03712 6500. 1.06962 1.05853 1.03938 7000. 1.07322 1.06176 1.04174 7500. 1.07704 1.06515 1.04421 8000. 1.08105 1.06870 1.04678 8500. 1.08525 1.07237 1.04945 9000. 1.08964 1.07617 1.05220 9500. 1.09423 1.08011 1.05502 10000. 1.09905 1.08421 1.05793 10500. 1.10413 1.08848 1.06092 11000. 1.10949 1.09295 1.06401 11500. 1.11517 1.09761 1.06719 12000. 1.12121 1.10248 1.07048 12500. 1.12764 1.10759 1.07387 13000. 1.13454 1.11296 1.07737 13500. 1.14185 1.11862 1.08099 14000. 1.14953 1.12457 1.08472 14500. 1.15729 1.13076 1.08856 15000. 1.16488 1.13703 1.09246 15500. 1.17188 1.14321 1.09638 16000. 1.17799 1.14909 1.10024 16500. 1.18294 1.15441 1.10400 17000. 1.18667 1.15898 1.10757 17500. 1.18913 1.16260 1.11085 18000. 1.19044 1.16523 1.11376 18500. 1.19075 1.16685 1.11624 19000. 1.19022 1.16748 1.11823 19500. 1.18896 1.16725 1.11969 20000. 1.18704 1.16630 1.12059 20500. 1.18456 1.16474 1.12092 21000. 1.18160 1.16267 1.12073 21500. 1.17823 1.16018 1.12003 22000. 1.17448 1.15733 1.11887 22500. 1.17044 1.15418 1.11730 23000. 1.16614 1.15078 1.11534 23500. 1.16167 1.14715 1.11307 24000. 1.15686 1.14334 1.11052 24500. 1.15206 1.13939 1.10775 25000. 1.14725 1.13533 1.10480 25500. 1.14241 1.13103 1.10169 26000. 1.13756 1.12674 1.09846 26500. 1.13272 1.12244 1.09513 27000. 1.12787 1.11815 1.09172 27500. 1.12303 1.11385 1.08824 28000. 1.11814 1.10959 1.08471 28500. 1.11324 1.10532 1.08115 29000. 1.10835 1.10106 1.07757 30000. 1.09856 1.09253 1.07020 32500. 1.07367 1.07112 1.05206 35000. 1.04831 1.04964 1.03426 37500. 1.02251 1.02808 1.01668 40000. 0.99631 1.00647 0.99936 42500. 0.96978 0.98485 0.98231 45000. 0.94305 0.96327 0.96557 47500. 0.91629 0.94182 0.94917 50000. 0.88973 0.92060 0.93316 52500. 0.86362 0.89973 0.91757 55000. 0.83826 0.87936 0.90246 57500. 0.81399 0.85962 0.88785 60000. 0.79112 0.84068 0.87381 62500. 0.76996 0.82267 0.86037 65000. 0.75074 0.80574 0.84756 67500. 0.73363 0.79000 0.83543 70000. 0.71867 0.77554 0.82400

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-25 Table B.24 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.429 1.419 1.400 100. 1.428 1.419 1.398 500. 1.422 1.414 1.393 1000. 1.415 1.408 1.389 1500. 1.407 1.401 1.383 2000. 1.398 1.393 1.378 2500. 1.389 1.385 1.372 3000. 1.380 1.377 1.366 3500. 1.370 1.369 1.360 4000. 1.360 1.361 1.355 4500. 1.349 1.354 1.349 5000. 1.340 1.347 1.343 5500. 1.332 1.339 1.337 6000. 1.324 1.332 1.331 6500. 1.316 1.324 1.325 7000. 1.307 1.316 1.318 7500. 1.299 1.309 1.312 8000. 1.290 1.301 1.306 8500. 1.281 1.293 1.300 9000. 1.272 1.285 1.294 9500. 1.263 1.277 1.288 10000. 1.254 1.269 1.283 10500. 1.245 1.261 1.277 11000. 1.236 1.253 1.272 11500. 1.226 1.244 1.267 12000. 1.216 1.236 1.261 12500. 1.207 1.228 1.256 13000. 1.197 1.219 1.250 13500. 1.187 1.211 1.245 14000. 1.176 1.202 1.239 14500. 1.166 1.194 1.234 15000. 1.156 1.185 1.228 15500. 1.147 1.177 1.223 16000. 1.139 1.169 1.217 16500. 1.132 1.162 1.210 17000. 1.125 1.154 1.204 17500. 1.119 1.147 1.198 18000. 1.114 1.141 1.191 18500. 1.110 1.136 1.185 19000. 1.105 1.131 1.178 19500. 1.101 1.127 1.172 20000. 1.097 1.123 1.166 20500. 1.094 1.119 1.161 21000. 1.090 1.115 1.156 21500. 1.087 1.112 1.152 22000. 1.085 1.109 1.147 22500. 1.082 1.106 1.144 23000. 1.080 1.103 1.140 23500. 1.078 1.101 1.137 24000. 1.076 1.098 1.134 24500. 1.074 1.096 1.132 25000. 1.072 1.094 1.129 25500. 1.070 1.092 1.127 26000. 1.068 1.090 1.125 26500. 1.066 1.088 1.123 27000. 1.064 1.086 1.121 27500. 1.062 1.084 1.119 28000. 1.060 1.082 1.117 28500. 1.058 1.080 1.115 29000. 1.056 1.078 1.113 30000. 1.052 1.074 1.110 32500. 1.045 1.064 1.101 35000. 1.042 1.054 1.093 37500. 1.041 1.045 1.085 40000. 1.047 1.038 1.077 42500. 1.052 1.034 1.070 45000. 1.057 1.032 1.063 47500. 1.060 1.033 1.056 50000. 1.062 1.037 1.052 52500. 1.064 1.040 1.048 55000. 1.063 1.043 1.045 57500. 1.061 1.044 1.046 60000. 1.057 1.045 1.047 62500. 1.052 1.044 1.050 65000. 1.046 1.042 1.054 67500. 1.039 1.039 1.065 70000. 1.036 1.036 1.076

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-26 Table B.25 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.05327 1.03972 1.02116 100. 1.02755 1.01559 0.99945 500. 1.02472 1.01364 0.99843 1000. 1.02558 1.01521 1.00052 1500. 1.02789 1.01805 1.00353 2000. 1.03061 1.02122 1.00674 2500. 1.03340 1.02438 1.00985 3000. 1.03625 1.02749 1.01279 3500. 1.03919 1.03060 1.01562 4000. 1.04226 1.03377 1.01838 4500. 1.04548 1.03701 1.02114 5000. 1.04890 1.04036 1.02390 5500. 1.05255 1.04386 1.02669 6000. 1.05649 1.04757 1.02956 6500. 1.06072 1.05150 1.03255 7000. 1.06521 1.05563 1.03565 7500. 1.06994 1.05993 1.03887 8000. 1.07488 1.06439 1.04219 8500. 1.08006 1.06898 1.04560 9000. 1.08549 1.07375 1.04910 9500. 1.09122 1.07871 1.05269 10000. 1.09727 1.08388 1.05641 10500. 1.10368 1.08928 1.06023 11000. 1.11049 1.09492 1.06417 11500. 1.11777 1.10083 1.06823 12000. 1.12557 1.10706 1.07241 12500. 1.13395 1.11363 1.07672 13000. 1.14274 1.12055 1.08116 13500. 1.15165 1.12776 1.08571 14000. 1.16027 1.13507 1.09033 14500. 1.16812 1.14221 1.09493 15000. 1.17481 1.14897 1.09945 15500. 1.18014 1.15502 1.10380 16000. 1.18404 1.16014 1.10790 16500. 1.18658 1.16413 1.11165 17000. 1.18790 1.16695 1.11496 17500. 1.18826 1.16860 1.11779 18000. 1.18782 1.16920 1.12009 18500. 1.18670 1.16893 1.12177 19000. 1.18494 1.16795 1.12283 19500. 1.18259 1.16638 1.12327 20000. 1.17971 1.16430 1.12312 20500. 1.17640 1.16179 1.12245 21000. 1.17269 1.15890 1.12128 21500. 1.16863 1.15570 1.11967 22000. 1.16427 1.15224 1.11766 22500. 1.15967 1.14854 1.11532 23000. 1.15461 1.14463 1.11269 23500. 1.14955 1.14055 1.10983 24000. 1.14448 1.13634 1.10680 24500. 1.13942 1.13204 1.10361 25000. 1.13436 1.12756 1.10029 25500. 1.12924 1.12303 1.09687 26000. 1.12412 1.11851 1.09336 26500. 1.11901 1.11398 1.08978 27000. 1.11389 1.10946 1.08614 27500. 1.10877 1.10493 1.08247 28000. 1.10355 1.10044 1.07878 30000. 1.08267 1.08250 1.06364 32500. 1.05606 1.05998 1.04515 35000. 1.02895 1.03738 1.02693 37500. 1.00140 1.01469 1.00897 40000. 0.97348 0.99198 0.99131 42500. 0.94534 0.96932 0.97395 45000. 0.91718 0.94679 0.95696 47500. 0.88926 0.92450 0.94038 50000. 0.86189 0.90260 0.92425 52500. 0.83541 0.88125 0.90862 55000. 0.81020 0.86062 0.89355 57500. 0.78661 0.84088 0.87906 60000. 0.76498 0.82221 0.86522 62500. 0.74555 0.80475 0.85205 65000. 0.72845 0.78862 0.83960 67500. 0.71371 0.77392 0.82791 70000. 0.70123 0.76068 0.81697

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-27 Table B.26 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.399 1.404 1.398 100. 1.398 1.403 1.397 500. 1.391 1.397 1.394 1000. 1.383 1.391 1.391 1500. 1.373 1.383 1.386 2000. 1.362 1.373 1.380 2500. 1.351 1.364 1.373 3000. 1.339 1.353 1.366 3500. 1.326 1.343 1.359 4000. 1.314 1.332 1.351 4500. 1.307 1.321 1.343 5000. 1.300 1.309 1.335 5500. 1.293 1.298 1.326 6000. 1.286 1.286 1.318 6500. 1.278 1.274 1.309 7000. 1.271 1.262 1.300 7500. 1.263 1.250 1.291 8000. 1.255 1.238 1.282 8500. 1.248 1.226 1.273 9000. 1.240 1.214 1.264 9500. 1.232 1.202 1.255 10000. 1.223 1.190 1.246 10500. 1.215 1.179 1.236 11000. 1.207 1.171 1.227 11500. 1.198 1.165 1.218 12000. 1.190 1.159 1.209 12500. 1.181 1.154 1.199 13000. 1.172 1.148 1.190 13500. 1.163 1.142 1.181 14000. 1.154 1.135 1.172 14500. 1.145 1.129 1.162 15000. 1.136 1.122 1.153 15500. 1.139 1.116 1.143 16000. 1.138 1.109 1.134 16500. 1.135 1.103 1.125 17000. 1.132 1.098 1.116 17500. 1.131 1.092 1.107 18000. 1.129 1.088 1.099 18500. 1.126 1.084 1.094 19000. 1.124 1.080 1.089 19500. 1.121 1.077 1.084 20000. 1.119 1.075 1.084 20500. 1.117 1.073 1.084 21000. 1.115 1.072 1.083 21500. 1.112 1.072 1.083 22000. 1.110 1.070 1.082 22500. 1.108 1.069 1.082 23000. 1.106 1.068 1.082 23500. 1.103 1.067 1.081 24000. 1.101 1.066 1.081 24500. 1.098 1.065 1.080 25000. 1.096 1.063 1.079 25500. 1.094 1.062 1.079 26000. 1.091 1.061 1.078 26500. 1.089 1.061 1.077 27000. 1.086 1.060 1.077 27500. 1.084 1.059 1.076 28000. 1.082 1.059 1.075 30000. 1.072 1.058 1.072 32500. 1.072 1.057 1.069 35000. 1.076 1.056 1.066 37500. 1.080 1.055 1.063 40000. 1.082 1.055 1.061 42500. 1.086 1.059 1.059 45000. 1.089 1.062 1.057 47500. 1.090 1.065 1.056 50000. 1.089 1.067 1.056 52500. 1.087 1.068 1.055 55000. 1.083 1.067 1.056 57500. 1.076 1.065 1.057 60000. 1.068 1.063 1.058 62500. 1.059 1.059 1.059 65000. 1.050 1.054 1.064 67500. 1.044 1.048 1.074 70000. 1.052 1.050 1.085

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-28 Table B.27 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.07383 1.06337 1.04873 100. 1.04802 1.03909 1.02678 500. 1.04687 1.03868 1.02704 1000. 1.05030 1.04261 1.03100 1500. 1.05540 1.04801 1.03602 2000. 1.06093 1.05372 1.04120 2500. 1.06663 1.05949 1.04625 3000. 1.07259 1.06535 1.05120 3500. 1.07890 1.07139 1.05613 4000. 1.08567 1.07772 1.06112 4500. 1.09293 1.08438 1.06624 5000. 1.10068 1.09137 1.07151 5500. 1.10889 1.09867 1.07693 6000. 1.11756 1.10627 1.08249 6500. 1.12678 1.11420 1.08820 7000. 1.13664 1.12253 1.09409 7500. 1.14723 1.13130 1.10018 8000. 1.15851 1.14051 1.10649 8500. 1.17044 1.15014 1.11300 9000. 1.18276 1.16012 1.11966 9500. 1.19493 1.17026 1.12642 10000. 1.20636 1.18023 1.13316 10500. 1.21635 1.18957 1.13973 11000. 1.22453 1.19788 1.14599 11500. 1.23073 1.20485 1.15176 12000. 1.23499 1.21028 1.15689 12500. 1.23753 1.21409 1.16126 13000. 1.23865 1.21635 1.16476 13500. 1.23853 1.21724 1.16735 14000. 1.23738 1.21699 1.16902 14500. 1.23535 1.21579 1.16982 15000. 1.23261 1.21384 1.16980 15500. 1.22929 1.21129 1.16904 16000. 1.22550 1.20826 1.16763 16500. 1.22135 1.20485 1.16566 17000. 1.21693 1.20114 1.16323 17500. 1.21233 1.19719 1.16045 18000. 1.20759 1.19306 1.15738 18500. 1.20258 1.18881 1.15410 19000. 1.19757 1.18446 1.15064 19500. 1.19257 1.18005 1.14704 20000. 1.18756 1.17552 1.14335 20500. 1.18256 1.17097 1.13957 21000. 1.17757 1.16641 1.13575 21500. 1.17257 1.16186 1.13189 22000. 1.16758 1.15730 1.12800 22500. 1.16258 1.15275 1.12411 25000. 1.13728 1.13027 1.10444 27500. 1.11150 1.10774 1.08526 30000. 1.08522 1.08512 1.06636 32500. 1.05842 1.06241 1.04771 35000. 1.03111 1.03961 1.02931 37500. 1.00333 1.01672 1.01118 40000. 0.97520 0.99381 0.99334 42500. 0.94685 0.97095 0.97582 45000. 0.91849 0.94823 0.95867 47500. 0.89040 0.92577 0.94194 50000. 0.86288 0.90371 0.92567 52500. 0.83630 0.88224 0.90993 55000. 0.81103 0.86151 0.89476 57500. 0.78745 0.84172 0.88019 60000. 0.76587 0.82302 0.86628 62500. 0.74653 0.80558 0.85307 65000. 0.72956 0.78950 0.84061 67500. 0.71497 0.77487 0.82890 70000. 0.70264 0.76174 0.81799

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-29 Table B.28 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.378 1.383 1.376 100. 1.376 1.381 1.375 500. 1.368 1.374 1.371 1000. 1.357 1.365 1.366 1500. 1.345 1.355 1.360 2000. 1.331 1.344 1.352 2500. 1.317 1.332 1.344 3000. 1.305 1.319 1.335 3500. 1.297 1.307 1.326 4000. 1.289 1.293 1.317 4500. 1.280 1.280 1.307 5000. 1.271 1.266 1.297 5500. 1.262 1.253 1.287 6000. 1.253 1.238 1.277 6500. 1.243 1.224 1.267 7000. 1.233 1.210 1.257 7500. 1.223 1.196 1.246 8000. 1.213 1.181 1.235 8500. 1.202 1.166 1.225 9000. 1.192 1.156 1.214 9500. 1.181 1.148 1.203 10000. 1.170 1.141 1.192 10500. 1.160 1.133 1.181 11000. 1.151 1.125 1.170 11500. 1.142 1.118 1.159 12000. 1.137 1.112 1.149 12500. 1.135 1.106 1.139 13000. 1.132 1.100 1.130 13500. 1.128 1.096 1.121 14000. 1.127 1.092 1.114 14500. 1.125 1.088 1.106 15000. 1.123 1.086 1.100 15500. 1.121 1.085 1.094 16000. 1.119 1.084 1.091 16500. 1.117 1.083 1.089 17000. 1.114 1.082 1.088 17500. 1.112 1.081 1.088 18000. 1.110 1.079 1.087 18500. 1.108 1.078 1.086 19000. 1.106 1.076 1.086 19500. 1.104 1.075 1.085 20000. 1.102 1.073 1.084 20500. 1.100 1.071 1.084 21000. 1.098 1.070 1.083 21500. 1.095 1.068 1.082 22000. 1.093 1.067 1.081 22500. 1.091 1.065 1.081 25000. 1.081 1.058 1.077 27500. 1.070 1.055 1.073 30000. 1.061 1.054 1.069 32500. 1.060 1.053 1.065 35000. 1.064 1.053 1.062 37500. 1.067 1.052 1.059 40000. 1.070 1.051 1.057 42500. 1.072 1.049 1.055 45000. 1.074 1.052 1.054 47500. 1.075 1.054 1.053 50000. 1.075 1.056 1.052 52500. 1.073 1.056 1.052 55000. 1.069 1.056 1.052 57500. 1.063 1.055 1.053 60000. 1.056 1.052 1.055 62500. 1.048 1.048 1.056 65000. 1.039 1.044 1.064 67500. 1.041 1.039 1.074 70000. 1.051 1.050 1.085

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-30 Table B.29 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.08960 1.07180 1.04997 100. 1.06350 1.04749 1.02821 500. 1.05991 1.04471 1.02626 1000. 1.05951 1.04491 1.02688 1500. 1.06040 1.04621 1.02832 2000. 1.06171 1.04785 1.02996 2500. 1.06312 1.04955 1.03158 3000. 1.06451 1.05117 1.03309 3500. 1.06592 1.05272 1.03449 4000. 1.06737 1.05426 1.03580 4500. 1.06888 1.05581 1.03706 5000. 1.07047 1.05739 1.03831 5500. 1.07214 1.05902 1.03955 6000. 1.07393 1.06071 1.04082 6500. 1.07587 1.06249 1.04213 7000. 1.07798 1.06439 1.04350 7500. 1.08027 1.06643 1.04495 8000. 1.08274 1.06860 1.04648 8500. 1.08535 1.07090 1.04811 9000. 1.08810 1.07330 1.04981 9500. 1.09097 1.07580 1.05158 10000. 1.09398 1.07840 1.05340 10500. 1.09712 1.08110 1.05527 11000. 1.10041 1.08392 1.05721 11500. 1.10387 1.08685 1.05920 12000. 1.10750 1.08990 1.06125 12500. 1.11133 1.09308 1.06337 13000. 1.11537 1.09640 1.06556 13500. 1.11965 1.09987 1.06782 14000. 1.12421 1.10350 1.07015 14500. 1.12910 1.10732 1.07257 15000. 1.13435 1.11134 1.07507 15500. 1.13997 1.11557 1.07765 16000. 1.14589 1.11996 1.08029 16500. 1.15192 1.12444 1.08297 17000. 1.15780 1.12892 1.08562 17500. 1.16327 1.13327 1.08822 18000. 1.16809 1.13735 1.09071 18500. 1.17196 1.14102 1.09306 19000. 1.17474 1.14413 1.09523 19500. 1.17634 1.14657 1.09715 20000. 1.17682 1.14828 1.09880 20500. 1.17633 1.14920 1.10016 21000. 1.17506 1.14937 1.10120 21500. 1.17313 1.14884 1.10188 22000. 1.17066 1.14769 1.10219 22500. 1.16774 1.14597 1.10212 23000. 1.16444 1.14376 1.10165 23500. 1.16081 1.14116 1.10081 24000. 1.15691 1.13823 1.09964 24500. 1.15276 1.13505 1.09813 25000. 1.14843 1.13164 1.09631 25500. 1.14375 1.12804 1.09420 26000. 1.13907 1.12430 1.09183 26500. 1.13440 1.12043 1.08924 27000. 1.12972 1.11648 1.08646 27500. 1.12504 1.11237 1.08353 28000. 1.12035 1.10822 1.08048 28500. 1.11566 1.10407 1.07733 29000. 1.11097 1.09993 1.07409 29500. 1.10628 1.09578 1.07078 30000. 1.10159 1.09163 1.06743 30500. 1.09684 1.08753 1.06404 31000. 1.09209 1.08343 1.06062 31500. 1.08735 1.07933 1.05719 32500. 1.07785 1.07113 1.05017 35000. 1.05382 1.05065 1.03295 37500. 1.02951 1.03023 1.01610 40000. 1.00496 1.00986 0.99956 42500. 0.98023 0.98960 0.98336 45000. 0.95542 0.96949 0.96751 47500. 0.93066 0.94959 0.95205 50000. 0.90610 0.92997 0.93701 52500. 0.88194 0.91073 0.92242 55000. 0.85842 0.89196 0.90830 57500. 0.83575 0.87377 0.89471 60000. 0.81420 0.85627 0.88165 62500. 0.79399 0.83956 0.86917 65000. 0.77531 0.82374 0.85727 67500. 0.75835 0.80889 0.84599 70000. 0.74318 0.79509 0.83534

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-31 Table B.30 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.491 1.475 1.440 100. 1.490 1.475 1.438 500. 1.484 1.470 1.434 1000. 1.478 1.465 1.429 1500. 1.470 1.458 1.424 2000. 1.461 1.451 1.419 2500. 1.452 1.443 1.413 3000. 1.442 1.435 1.408 3500. 1.432 1.426 1.402 4000. 1.422 1.418 1.397 4500. 1.412 1.409 1.391 5000. 1.401 1.400 1.385 5500. 1.390 1.392 1.380 6000. 1.382 1.384 1.374 6500. 1.374 1.377 1.368 7000. 1.365 1.370 1.362 7500. 1.357 1.362 1.356 8000. 1.349 1.354 1.350 8500. 1.340 1.347 1.344 9000. 1.332 1.339 1.338 9500. 1.323 1.331 1.331 10000. 1.314 1.324 1.325 10500. 1.306 1.316 1.319 11000. 1.297 1.308 1.313 11500. 1.288 1.300 1.307 12000. 1.279 1.292 1.302 12500. 1.270 1.284 1.296 13000. 1.260 1.276 1.291 13500. 1.251 1.268 1.286 14000. 1.242 1.260 1.281 14500. 1.232 1.252 1.276 15000. 1.222 1.244 1.270 15500. 1.213 1.235 1.265 16000. 1.203 1.227 1.260 16500. 1.193 1.219 1.255 17000. 1.183 1.211 1.249 17500. 1.174 1.203 1.243 18000. 1.165 1.195 1.238 18500. 1.157 1.187 1.232 19000. 1.150 1.180 1.225 19500. 1.144 1.173 1.219 20000. 1.138 1.167 1.213 20500. 1.133 1.161 1.206 21000. 1.128 1.155 1.200 21500. 1.123 1.150 1.194 22000. 1.119 1.145 1.188 22500. 1.115 1.141 1.183 23000. 1.111 1.137 1.178 23500. 1.107 1.133 1.173 24000. 1.104 1.129 1.168 24500. 1.101 1.126 1.164 25000. 1.098 1.123 1.160 25500. 1.095 1.120 1.157 26000. 1.092 1.117 1.154 26500. 1.090 1.114 1.151 27000. 1.087 1.111 1.148 27500. 1.084 1.109 1.145 28000. 1.081 1.106 1.142 28500. 1.079 1.104 1.140 29000. 1.076 1.101 1.138 29500. 1.074 1.099 1.135 30000. 1.071 1.096 1.133 30500. 1.070 1.094 1.131 31000. 1.069 1.091 1.129 31500. 1.068 1.089 1.127 32500. 1.066 1.084 1.123 35000. 1.060 1.072 1.114 37500. 1.054 1.060 1.105 40000. 1.052 1.052 1.096 42500. 1.053 1.048 1.088 45000. 1.054 1.044 1.081 47500. 1.057 1.041 1.074 50000. 1.060 1.037 1.068 52500. 1.062 1.036 1.065 55000. 1.062 1.037 1.065 57500. 1.061 1.039 1.065 60000. 1.059 1.040 1.067 62500. 1.055 1.040 1.072 65000. 1.050 1.039 1.082 67500. 1.044 1.037 1.093 70000. 1.047 1.052 1.103

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-32 Table B.31 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.06503 1.04956 1.02975 100. 1.03909 1.02529 1.00792 500. 1.03572 1.02273 1.00620 1000. 1.03560 1.02325 1.00720 1500. 1.03684 1.02495 1.00906 2000. 1.03854 1.02702 1.01116 2500. 1.04034 1.02916 1.01325 3000. 1.04214 1.03122 1.01522 3500. 1.04400 1.03324 1.01708 4000. 1.04592 1.03527 1.01886 4500. 1.04792 1.03733 1.02061 5000. 1.05002 1.03943 1.02235 5500. 1.05224 1.04160 1.02408 6000. 1.05461 1.04385 1.02584 6500. 1.05715 1.04621 1.02765 7000. 1.05990 1.04873 1.02954 7500. 1.06286 1.05140 1.03151 8000. 1.06602 1.05423 1.03360 8500. 1.06935 1.05719 1.03577 9000. 1.07285 1.06028 1.03804 9500. 1.07649 1.06348 1.04038 10000. 1.08030 1.06680 1.04278 10500. 1.08427 1.07025 1.04524 11000. 1.08844 1.07383 1.04778 11500. 1.09282 1.07755 1.05038 12000. 1.09744 1.08143 1.05307 12500. 1.10232 1.08548 1.05583 13000. 1.10751 1.08970 1.05868 13500. 1.11304 1.09412 1.06162 14000. 1.11897 1.09877 1.06466 14500. 1.12535 1.10368 1.06780 15000. 1.13215 1.10887 1.07106 15500. 1.13922 1.11435 1.07442 16000. 1.14635 1.12003 1.07789 16500. 1.15322 1.12577 1.08142 17000. 1.15953 1.13141 1.08495 17500. 1.16501 1.13678 1.08844 18000. 1.16940 1.14163 1.09183 18500. 1.17263 1.14576 1.09506 19000. 1.17469 1.14904 1.09805 19500. 1.17567 1.15141 1.10070 20000. 1.17574 1.15282 1.10298 20500. 1.17505 1.15333 1.10484 21000. 1.17372 1.15302 1.10622 21500. 1.17179 1.15204 1.10711 22000. 1.16933 1.15051 1.10747 22500. 1.16641 1.14851 1.10732 23000. 1.16310 1.14609 1.10672 23500. 1.15943 1.14334 1.10568 24000. 1.15545 1.14029 1.10425 24500. 1.15120 1.13699 1.10245 25000. 1.14674 1.13346 1.10034 25500. 1.14189 1.12974 1.09794 26000. 1.13703 1.12587 1.09531 26500. 1.13218 1.12186 1.09250 27000. 1.12732 1.11777 1.08952 27500. 1.12247 1.11350 1.08642 28000. 1.11759 1.10919 1.08320 28500. 1.11271 1.10488 1.07989 29000. 1.10783 1.10056 1.07650 29500. 1.10295 1.09625 1.07306 30000. 1.09807 1.09194 1.06956 30500. 1.09310 1.08767 1.06604 31000. 1.08813 1.08340 1.06249 32500. 1.07322 1.07059 1.05156 35000. 1.04793 1.04917 1.03374 37500. 1.02220 1.02767 1.01621 40000. 0.99606 1.00612 0.99894 42500. 0.96960 0.98455 0.98194 45000. 0.94293 0.96303 0.96524 47500. 0.91623 0.94164 0.94888 50000. 0.88972 0.92047 0.93291 52500. 0.86364 0.89965 0.91735 55000. 0.83831 0.87930 0.90226 57500. 0.81403 0.85959 0.88769 60000. 0.79115 0.84065 0.87366 62500. 0.76995 0.82264 0.86023 65000. 0.75068 0.80569 0.84742 67500. 0.73350 0.78992 0.83529 70000. 0.71847 0.77542 0.82385

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-33 Table B.32 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.433 1.423 1.404 100. 1.432 1.423 1.401 500. 1.427 1.418 1.397 1000. 1.420 1.413 1.393 1500. 1.413 1.406 1.388 2000. 1.404 1.399 1.382 2500. 1.396 1.392 1.377 3000. 1.387 1.384 1.371 3500. 1.377 1.376 1.366 4000. 1.368 1.368 1.360 4500. 1.358 1.361 1.355 5000. 1.348 1.354 1.349 5500. 1.340 1.347 1.343 6000. 1.333 1.340 1.338 6500. 1.325 1.333 1.332 7000. 1.317 1.325 1.326 7500. 1.309 1.318 1.320 8000. 1.301 1.310 1.314 8500. 1.293 1.303 1.308 9000. 1.284 1.295 1.302 9500. 1.276 1.288 1.296 10000. 1.267 1.280 1.291 10500. 1.259 1.273 1.286 11000. 1.250 1.265 1.280 11500. 1.241 1.257 1.275 12000. 1.232 1.249 1.270 12500. 1.223 1.242 1.265 13000. 1.214 1.234 1.259 13500. 1.205 1.226 1.254 14000. 1.196 1.218 1.249 14500. 1.186 1.210 1.244 15000. 1.176 1.202 1.239 15500. 1.166 1.193 1.233 16000. 1.157 1.185 1.228 16500. 1.147 1.178 1.223 17000. 1.139 1.171 1.217 17500. 1.131 1.164 1.211 18000. 1.124 1.156 1.205 18500. 1.117 1.149 1.199 19000. 1.112 1.142 1.193 19500. 1.107 1.135 1.186 20000. 1.102 1.129 1.180 20500. 1.098 1.124 1.174 21000. 1.094 1.120 1.168 21500. 1.090 1.116 1.162 22000. 1.086 1.112 1.157 22500. 1.083 1.108 1.152 23000. 1.080 1.105 1.147 23500. 1.077 1.101 1.143 24000. 1.074 1.098 1.139 24500. 1.072 1.096 1.135 25000. 1.070 1.093 1.132 25500. 1.068 1.090 1.129 26000. 1.066 1.088 1.126 26500. 1.063 1.086 1.124 27000. 1.061 1.084 1.121 27500. 1.059 1.082 1.119 28000. 1.057 1.080 1.117 28500. 1.055 1.078 1.115 29000. 1.053 1.076 1.113 29500. 1.051 1.074 1.111 30000. 1.049 1.072 1.109 30500. 1.048 1.070 1.107 31000. 1.048 1.068 1.105 32500. 1.046 1.062 1.100 35000. 1.044 1.053 1.092 37500. 1.045 1.044 1.084 40000. 1.051 1.038 1.076 42500. 1.056 1.035 1.069 45000. 1.061 1.033 1.062 47500. 1.065 1.036 1.056 50000. 1.067 1.040 1.052 52500. 1.068 1.044 1.048 55000. 1.068 1.046 1.045 57500. 1.065 1.048 1.047 60000. 1.062 1.048 1.048 62500. 1.056 1.047 1.051 65000. 1.050 1.045 1.054 67500. 1.043 1.042 1.065 70000. 1.036 1.038 1.076

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-34 Table B.33 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.05139 1.03692 1.01740 100. 1.02563 1.01278 0.99569 500. 1.02244 1.01047 0.99434 1000. 1.02271 1.01149 0.99593 1500. 1.02438 1.01371 0.99838 2000. 1.02648 1.01628 1.00105 2500. 1.02865 1.01888 1.00366 3000. 1.03085 1.02140 1.00612 3500. 1.03312 1.02390 1.00845 4000. 1.03547 1.02643 1.01071 4500. 1.03794 1.02901 1.01295 5000. 1.04053 1.03165 1.01519 5500. 1.04328 1.03437 1.01743 6000. 1.04623 1.03723 1.01971 6500. 1.04941 1.04025 1.02205 7000. 1.05284 1.04346 1.02450 7500. 1.05652 1.04687 1.02707 8000. 1.06041 1.05043 1.02975 8500. 1.06449 1.05413 1.03252 9000. 1.06874 1.05795 1.03537 9500. 1.07319 1.06190 1.03830 10000. 1.07784 1.06600 1.04130 10500. 1.08273 1.07026 1.04437 11000. 1.08788 1.07469 1.04754 11500. 1.09332 1.07932 1.05079 12000. 1.09912 1.08415 1.05414 12500. 1.10530 1.08920 1.05759 13000. 1.11195 1.09450 1.06114 13500. 1.11910 1.10011 1.06481 14000. 1.12675 1.10605 1.06860 14500. 1.13471 1.11234 1.07252 15000. 1.14277 1.11889 1.07654 15500. 1.15049 1.12550 1.08064 16000. 1.15743 1.13198 1.08472 16500. 1.16332 1.13812 1.08875 17000. 1.16800 1.14366 1.09266 17500. 1.17140 1.14834 1.09637 18000. 1.17359 1.15199 1.09980 18500. 1.17468 1.15458 1.10286 19000. 1.17489 1.15610 1.10551 19500. 1.17437 1.15664 1.10771 20000. 1.17323 1.15633 1.10939 20500. 1.17150 1.15536 1.11051 21000. 1.16922 1.15384 1.11104 21500. 1.16642 1.15185 1.11102 22000. 1.16320 1.14944 1.11050 22500. 1.15961 1.14668 1.10951 23000. 1.15567 1.14361 1.10810 23500. 1.15142 1.14028 1.10629 24000. 1.14690 1.13671 1.10415 24500. 1.14217 1.13293 1.10172 25000. 1.13716 1.12897 1.09904 25500. 1.13201 1.12485 1.09617 26000. 1.12686 1.12061 1.09314 26500. 1.12170 1.11612 1.08997 27000. 1.11655 1.11163 1.08669 27500. 1.11140 1.10714 1.08331 28000. 1.10622 1.10266 1.07985 28500. 1.10104 1.09819 1.07632 29000. 1.09586 1.09371 1.07274 29500. 1.09068 1.08924 1.06912 30000. 1.08550 1.08476 1.06547 32500. 1.05911 1.06239 1.04686 35000. 1.03220 1.03993 1.02871 37500. 1.00483 1.01738 1.01081 40000. 0.97707 0.99478 0.99320 42500. 0.94906 0.97220 0.97589 45000. 0.92098 0.94973 0.95892 47500. 0.89308 0.92748 0.94235 50000. 0.86565 0.90557 0.92620 52500. 0.83904 0.88417 0.91055 55000. 0.81360 0.86344 0.89543 57500. 0.78972 0.84356 0.88089 60000. 0.76773 0.82471 0.86696 62500. 0.74788 0.80702 0.85369 65000. 0.73035 0.79063 0.84113 67500. 0.71517 0.77565 0.82930 70000. 0.70227 0.76212 0.81823

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-35 Table B.34 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.397 1.401 1.394 100. 1.396 1.400 1.394 500. 1.389 1.395 1.391 1000. 1.382 1.389 1.389 1500. 1.373 1.382 1.384 2000. 1.363 1.373 1.379 2500. 1.352 1.364 1.373 3000. 1.341 1.355 1.366 3500. 1.329 1.345 1.359 4000. 1.318 1.334 1.352 4500. 1.306 1.324 1.345 5000. 1.300 1.313 1.337 5500. 1.293 1.302 1.329 6000. 1.287 1.291 1.321 6500. 1.280 1.280 1.313 7000. 1.273 1.269 1.304 7500. 1.266 1.258 1.296 8000. 1.259 1.246 1.288 8500. 1.252 1.235 1.279 9000. 1.244 1.223 1.270 9500. 1.237 1.212 1.262 10000. 1.229 1.200 1.253 10500. 1.222 1.189 1.244 11000. 1.214 1.178 1.235 11500. 1.206 1.170 1.226 12000. 1.198 1.164 1.218 12500. 1.190 1.159 1.209 13000. 1.182 1.154 1.200 13500. 1.174 1.148 1.192 14000. 1.166 1.143 1.183 14500. 1.157 1.137 1.174 15000. 1.149 1.131 1.166 15500. 1.140 1.125 1.157 16000. 1.132 1.119 1.148 16500. 1.133 1.113 1.139 17000. 1.134 1.107 1.130 17500. 1.132 1.101 1.122 18000. 1.128 1.095 1.117 18500. 1.128 1.090 1.111 19000. 1.127 1.084 1.106 19500. 1.124 1.080 1.101 20000. 1.122 1.076 1.096 20500. 1.119 1.074 1.091 21000. 1.116 1.072 1.087 21500. 1.114 1.071 1.082 22000. 1.112 1.070 1.079 22500. 1.109 1.069 1.079 23000. 1.107 1.068 1.078 23500. 1.105 1.067 1.078 24000. 1.102 1.066 1.077 24500. 1.100 1.065 1.077 25000. 1.097 1.063 1.077 25500. 1.095 1.062 1.076 26000. 1.092 1.061 1.076 26500. 1.090 1.060 1.075 27000. 1.087 1.058 1.074 27500. 1.085 1.057 1.074 28000. 1.083 1.057 1.073 28500. 1.080 1.056 1.072 29000. 1.078 1.056 1.072 29500. 1.075 1.055 1.071 30000. 1.073 1.055 1.070 32500. 1.072 1.054 1.067 35000. 1.076 1.053 1.064 37500. 1.079 1.052 1.061 40000. 1.082 1.054 1.059 42500. 1.086 1.058 1.057 45000. 1.089 1.062 1.055 47500. 1.090 1.065 1.054 50000. 1.090 1.067 1.054 52500. 1.088 1.068 1.054 55000. 1.084 1.068 1.054 57500. 1.078 1.066 1.055 60000. 1.071 1.064 1.057 62500. 1.062 1.060 1.058 65000. 1.053 1.056 1.061 67500. 1.043 1.050 1.072 70000. 1.051 1.047 1.083

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-36 Table B.35 [ ] Hot Uncontrolled k Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.07609 1.06566 1.05106 100. 1.05022 1.04133 1.02907 500. 1.04902 1.04085 1.02925 1000. 1.05236 1.04468 1.03310 1500. 1.05739 1.04998 1.03802 2000. 1.06284 1.05561 1.04310 2500. 1.06848 1.06130 1.04807 3000. 1.07437 1.06708 1.05293 3500. 1.08060 1.07304 1.05777 4000. 1.08728 1.07927 1.06267 4500. 1.09445 1.08583 1.06769 5000. 1.10211 1.09273 1.07286 5500. 1.11022 1.09992 1.07818 6000. 1.11878 1.10742 1.08364 6500. 1.12789 1.11523 1.08924 7000. 1.13763 1.12345 1.09503 7500. 1.14806 1.13209 1.10101 8000. 1.15921 1.14117 1.10721 8500. 1.17100 1.15067 1.11360 9000. 1.18321 1.16053 1.12016 9500. 1.19533 1.17059 1.12683 10000. 1.20676 1.18053 1.13351 10500. 1.21683 1.18990 1.14005 11000. 1.22514 1.19830 1.14631 11500. 1.23149 1.20539 1.15211 12000. 1.23593 1.21097 1.15730 12500. 1.23866 1.21495 1.16176 13000. 1.23993 1.21738 1.16536 13500. 1.23996 1.21841 1.16805 14000. 1.23891 1.21828 1.16984 14500. 1.23698 1.21718 1.17074 15000. 1.23432 1.21531 1.17083 15500. 1.23106 1.21283 1.17015 16000. 1.22732 1.20986 1.16882 16500. 1.22322 1.20649 1.16692 17000. 1.21884 1.20282 1.16455 17500. 1.21427 1.19890 1.16181 18000. 1.20956 1.19480 1.15879 18500. 1.20458 1.19057 1.15553 19000. 1.19960 1.18624 1.15210 19500. 1.19461 1.18186 1.14853 20000. 1.18963 1.17734 1.14485 20500. 1.18465 1.17280 1.14110 21000. 1.17968 1.16826 1.13729 21500. 1.17470 1.16373 1.13344 22000. 1.16973 1.15919 1.12957 22500. 1.16475 1.15465 1.12568 25000. 1.13957 1.13224 1.10606 27500. 1.11390 1.10978 1.08691 30000. 1.08773 1.08724 1.06804 32500. 1.06104 1.06460 1.04940 35000. 1.03383 1.04185 1.03102 37500. 1.00614 1.01902 1.01290 40000. 0.97807 0.99615 0.99506 42500. 0.94977 0.97330 0.97754 45000. 0.92142 0.95059 0.96038 47500. 0.89330 0.92811 0.94362 50000. 0.86571 0.90602 0.92732 52500. 0.83901 0.88448 0.91153 55000. 0.81357 0.86366 0.89630 57500. 0.78978 0.84375 0.88167 60000. 0.76795 0.82491 0.86769 62500. 0.74834 0.80731 0.85440 65000. 0.73109 0.79106 0.84185 67500. 0.71623 0.77625 0.83006 70000. 0.70365 0.76294 0.81904

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page B-37 Table B.36 [ ] Hot Uncontrolled LPF Exposure 0.00 Void 0.40 Void 0.80 Void MWd/MTU History History History

0. 1.373 1.376 1.369 100. 1.371 1.375 1.368 500. 1.363 1.368 1.364 1000. 1.352 1.359 1.360 1500. 1.340 1.349 1.353 2000. 1.327 1.338 1.346 2500. 1.313 1.326 1.338 3000. 1.300 1.314 1.329 3500. 1.292 1.302 1.321 4000. 1.284 1.289 1.312 4500. 1.275 1.276 1.302 5000. 1.267 1.262 1.293 5500. 1.258 1.248 1.283 6000. 1.248 1.235 1.273 6500. 1.239 1.221 1.263 7000. 1.229 1.206 1.252 7500. 1.219 1.192 1.242 8000. 1.209 1.178 1.232 8500. 1.199 1.163 1.221 9000. 1.188 1.151 1.211 9500. 1.178 1.144 1.200 10000. 1.167 1.137 1.189 10500. 1.157 1.129 1.178 11000. 1.147 1.122 1.167 11500. 1.138 1.115 1.157 12000. 1.135 1.108 1.146 12500. 1.132 1.102 1.137 13000. 1.129 1.097 1.127 13500. 1.126 1.092 1.119 14000. 1.124 1.088 1.111 14500. 1.122 1.085 1.104 15000. 1.120 1.084 1.097 15500. 1.118 1.083 1.092 16000. 1.116 1.082 1.088 16500. 1.114 1.081 1.087 17000. 1.112 1.080 1.086 17500. 1.110 1.078 1.086 18000. 1.108 1.077 1.085 18500. 1.106 1.076 1.084 19000. 1.104 1.074 1.084 19500. 1.101 1.072 1.083 20000. 1.099 1.071 1.082 20500. 1.097 1.069 1.082 21000. 1.095 1.068 1.081 21500. 1.093 1.066 1.080 22000. 1.091 1.065 1.079 22500. 1.089 1.063 1.079 25000. 1.078 1.055 1.075 27500. 1.068 1.053 1.071 30000. 1.058 1.051 1.067 32500. 1.057 1.050 1.063 35000. 1.061 1.050 1.060 37500. 1.064 1.049 1.057 40000. 1.066 1.048 1.055 42500. 1.068 1.047 1.053 45000. 1.071 1.049 1.052 47500. 1.072 1.051 1.051 50000. 1.072 1.053 1.050 52500. 1.070 1.054 1.050 55000. 1.067 1.054 1.051 57500. 1.061 1.053 1.052 60000. 1.055 1.051 1.053 62500. 1.047 1.047 1.055 65000. 1.038 1.043 1.062 67500. 1.040 1.038 1.073 70000. 1.049 1.048 1.083

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-1 Appendix C Enriched Lattice Isotopic Data Tables The results in this appendix are based on hot operating and equilibrium xenon conditions.

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-2 Table C.1 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-3 Table C.2 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-4 Table C.3 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-5 Table C.4 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-6 Table C.5 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-7 Table C.6 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-8 Table C.7 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-9 Table C.8 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-10 Table C.9 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-11 Table C.10 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-12 Table C.11 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-13 Table C.12 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-14 Table C.13 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-15 Table C.14 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-16 Table C.15 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-17 Table C.16 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-18 Table C.17 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-19 Table C.18 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-20 Table C.19 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-21 Table C.20 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-22 Table C.21 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-23 Table C.22 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-24 Table C.23 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-25 Table C.24 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-26 Table C.25 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-27 Table C.26 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-28 Table C.27 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-29 Table C.28 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-30 Table C.29 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-31 Table C.30 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-32 Table C.31 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-33 Table C.32 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-34 Table C.33 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-35 Table C.34 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-36 Table C.35 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-37 Table C.36 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-38 Table C.37 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-39 Table C.38 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-40 Table C.39 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-41 Table C.40 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-42 Table C.41 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-43 Table C.42 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-44 Table C.43 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-45 Table C.44 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-46 Table C.45 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-47 Table C.46 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-48 Table C.47 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-49 Table C.48 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-50 Table C.49 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-51 Table C.50 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-52 Table C.51 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-53 Table C.52 [ ] Exposure-Dependent 0% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-54 Table C.53 [ ] Exposure-Dependent 40% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page C-55 Table C.54 [ ] Exposure-Dependent 80% Void Isotopics (kg/MTU Initial)

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-1 Appendix D Lattice Enrichment Distribution Maps

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-2 Figure D.1 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-3 Figure D.2 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-4 Figure D.3 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-5 Figure D.4 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-6 Figure D.5 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-7 Figure D.6 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-8 Figure D.7 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-9 Figure D.8 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-10 Figure D.9 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-11 Figure D.10 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-12 Figure D.11 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-13 Figure D.12 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-14 Figure D.13 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-15 Figure D.14 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-16 Figure D.15 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-17 Figure D.16 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-18 Figure D.17 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-19 Figure D.18 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-20 Figure D.19 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-21 Figure D.20 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-22 Figure D.21 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-23 Figure D.22 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-24 Figure D.23 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-25 Figure D.24 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-26 Figure D.25 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-27 Figure D.26 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-28 Figure D.27 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-29 Figure D.28 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-30 Figure D.29 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-31 Figure D.30 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-32 Figure D.31 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-33 Figure D.32 [ ] Enrichment Distribution

Controlled Document Framatome Inc. ANP-3758NP Revision 0 Brunswick Unit 1 Cycle 23 ATRIUM 11 Fuel Nuclear Fuel Design Report Page D-34 Figure D.33 [ ] Enrichment Distribution

RA-19-0139 Enclosure 5 Affidavit for ANP-3759P, Brunswick Unit 1 Cycle 23 Fuel Cycle Design Report, Revision 0, and ANP-3758P, Brunswick Unit 1 Cycle 23 ATRIUM-11 Fuel Nuclear Fuel Design Report, Revision 0

v t e Letter Sequence Supplement
EPID:L-2018-LLA-0273, Plant, Units 1 and 2 -Proprietary Request for Additional Information (Approved, Closed)
Initiation Request, Request Acceptance... Supplement, Supplement, Supplement Administration Questions 18 October 2019 9 October 2019 Answers 29 May 2019 18 June 2019 17 October 2019 Results Approval Other:
MONTHYEAR2019-10-09 [Table View]

RA-19-0139, Supplement to Request for License Amendment Regarding Application of Advanced Framatome Methodologies

Text

Subject:

Reference:

Enclosures:

1.0 INTRODUCTION

SUMMARY

4.0 REFERENCES

SUMMARY

1.0 INTRODUCTION

SUMMARY

4.0 REFERENCES

1.0 INTRODUCTION

3.0 REFERENCES

1.0 INTRODUCTION

3.0 REFERENCES

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