Text

Enclosure 7 and 9 to BSEP 09-0034 - ANP-2727(NP), Rev. 0, Brunswick, Unit 2, Cycle 19 Fuel Cycle Design, and Areva Affidavit Re Withholding ANP-2771(P), Rev. 0 from Public Disclosure
	ML090970246
Person / Time
Site:	Brunswick
Issue date:	06/30/2008
From:	; AREVA, AREVA NP
To:	; Office of Nuclear Reactor Regulation
References
	BSEP 09-0034 ANP-2727(NP), Rev 0, ANP-2771(P), Rev 0
	Download: ML090970246 (103)
	v • d • e

BSEP 09-0034 Enclosure 7 AREVA Report AREVA Report ANP-2727(NP), Revision 0, Brunswick Unit 2 Cycle 19 Fuel Cycle Design, dated June 2008

'I AN'Pe2727(N P)Revision 0: Brunswick Unit 2 Cycle 19 Fuel Cycle Design June 2008 AR EV V:A AREVA NP Inc.ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design sip AREVA NP Inc.Copyright

Revision 0 Page i Brunswick Unit 2 Cycle 19 Fuel Cycle Design Nature of Changes Item Page 1. All Description and Justification This is the initial release.AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page~ii Brunswick Unit 2 Cycle 19 Fuel Cycle Design Contents 1.0 Introduction

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1-1 2.0 Sum mary ...................................................................................

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2-1 3.0 Cycle 19 Fuel Cycle Design .....................................................................................

3-1 3.1 General Description

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3-1 3.2 Control Rod Patterns and Thermal-Lim its ..........................................................

3-1 3.3 Hot Excess Reactivity and Cold Shutdown Margin ............................................

3-2 4.0 References

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4-1 Appendix A Appendix B Appendix C Appendix D Brunswick Unit 2 Cycle 19 Step-through Depletion Summary, Control Rod Patterns and Core Average Axial Power and Exposure Distributions

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A-1 Elevation Views of the Brunswick Unit 2 Cycle 19 Fresh Reload Batch Fuel Assem blies ................................................................................

B-1 Brunswick Unit 2 Cycle 19 Fresh Fuel Locations

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C-1 Brunswick Unit 2 Cycle 19 Radial Exposure and Power Distributions

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D-1 Tables 2.1 Brunswick Unit 2 Cycle. 19 Energy and Key Results Summary......................................

2-2 2.2 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Assembly ID Range by Nuclear Fuel Type .........................................................................................................

2-3 2.3 Assumed Rated Power MCPR Operating Limits for the Brunswick Unit 2 Cycle 19 Design ................................................................

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2-3 3.1 Cycle 19 Core Composition and Design Parameters

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3-3 3.2 Brunswick Unit 2 Cycle 19 Hot Operating Target k-eff Versus Cycle E xposure ........................................................................................................................

3-4 3.3 Brunswick Unit 2 Cycle 19 Cold Critical Target k-eff Versus. Cycle E xposure ........................................................................................................................

3-4 3.4 Brunswick Unit 2 Cycle 19 Reactivity Margin Summary .................................................

3-5 AREVA NP Inc.

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Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page iii Figures 2.1 Brunswick Unit 2 Cycle 19 Design Step-through k-eff versus Cycle E xposure ........................................................................................................................

2-4 2.2 Brunswick Unit 2 Cycle 19 Design Margin to Thermal Limits versus Cycle E xposure ........................................................................................................................

2-4 3.1 Brunswick Unit 2 Cycle 19 Reference Loading Pattern .................................................

3-6 3.2 Brunswick Unit 2 Cycle 19 Upper Left Quarter Core Layout by Fuel Type .........

3-7 3.3 Brunswick Unit 2 Cycle 19 Upper Right Quarter Core Layout by Fuel Type ..................

3-8 3.4 Brunswick Unit 2 Cycle 19 Lower Left Quarter Core Layout by Fuel Type ....................

3-9 3.5 Brunswick Unit 2 Cycle 19 Lower Right Quarter Core Layout by Fuel Type ......:........

3-10 AREVA NP Inc.

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Revision 0 Page iv Brunswick Unit.2 Cycle 19 Fuel Cycle Design Nomenclature APLHGR BOC BOL BWR CSDM EFPD EOC EOFP FFTR GWd/MTU HEXR LHGR MAPLHGR MCPR MICROBURN-B2 MWd/MTU PPR R Value SLC SPCB average planar linear heat generation rate beginning of cycle beginning of life boiling water reactor cold shutdown margin effective full power day end of cycle end of full power capability final feedwater temperature reduction gigawatt days per metric ton of initial uranium hot excess reactivity linear heat generation rate maximum fraction to the APLHGR limit minimum critical power ratio AREVA advanced BWR core simulator methodology with PPR capability megawatt days per metric ton of initial uranium 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.

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

ANP-2727(NP)

Revision 0 Page 1-1 Brunswick Unit 2 Cycle 19 Fuel Cycle Design 1.0 Introduction AREVA NP Inc.* has performed fuel cycle design and fuel management calculations for the Cycle. 19 operation of the Brunswick Unit 2 BWR. These analyses have been performed with the approved AREVA neutronics methodology (References 1 and 2). The CASMO-4 lattice depletion code was used to generate nuclear data including cross sections and local power peaking factors. The MICROBURN-B2 three dimensional core simulator code, combined with the application of the SPCB 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 for the Cycle 19 reactor core loading including projected control rod patterns and evaluations of thermal and reactivity margins are presented.

The Cycle 19 results are based on Cycle 18 core operational history as summarized in Table 2.1* AREVA NP is an AREVA and Siemens company.AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page 2-1 2.0 Summary The Cycle 19 fresh batch size (238 assemblies) and batch average enrichment

[3 were determined to meet the energy requirements provided by Progress Energy (References 4, 5, and 6). For a complete description of the fresh reload assemblies, see Reference

3. The loading of the Cycle 19 fuel as described in this report results in a projected Cycle 19 full power energy capability (including FFTR) of 1,891+/-30 GWd (18,929+/-300 MWd/MTU).

Beyond the full power capability, the cycle has been designed to achieve 41 GWd additional energy via constant pressure power coastdown operation.

In order to obtain optimum operating flexibility, the projected control rod patterns for Cycle 19 were developed to be consistent with a conservative margin to thermal limits. The rated power MCPR limits assumed for the design of Cycle 19 are presented in Table 2.3. 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 19 design. Figures 2.1 and 2.2 provide a summary of the cycle design step-through projection.

AREVA NP Inc.

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Revision 0 Page 2-2 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table 2.1 Brunswick Unit 2 Cycle 19 Energy and Key Results Summary Cycle Energy, GWd (Cycle Exposure, MWd/MTU)Cycle 18 o Core follow through April 4, 2008 1,013 (10,100)o Best estimate depletion to Nominal EOC 18 1,926 (19,208)o Short window EOC 18 1,882 (18,770)Long window EOC 18 1,982 (19,761)Cycle 19* EOFP Energy (including FFTR) 1,891+/-30 (18,929+/-300) o constant pressure power coastdown Energy 41(410)= EOC Energy 1,932+/-30 (19,338+/-300)

Key Results BOC CSDM, %Ak/k (based on short EOC 18 and 68 OF) 1.04 Minimum CSDM, %Ak/k (based on short EOC 18) 1.04 Cycle Exposure of Minimum CSDM, MWd/MTU (short basis) 0 Cycle R Value, %Ak/k (short basis) 0.00 Minimum SLC SDM, %Ak/k (based on short EOC 18) 2.07 Cycle Exposure of Minimum SLC SDM, MWd/MTU (short basis) 0 BOC HEXR, %Ak/k (based on nominal EOC 18) 1.54 Maximum HEXR, %Ak/k (based on nominal EOC 18) 2.36 Cycle Exposure of Maximum HEXR, MWd/MTU (nominal basis) 12,500 Minimum MAPLHGR Margin, % 9.2 Exposure of Minimum MAPLHGR Margin, MWd/MTU 10,000 Minimum LHGR Margin, % 9.2 Exposure of Minimum LHGR Margin, MWd/MTU 15,950 Minimum CPR Margin, % 7.4 Exposure of Minimum CPR Margin, MWd/MTU 17,101 AREVA NP Inc.

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Revision 0 Page 2-3 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table 2.2 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Assembly ID Range by Nuclear Fuel Type Nuclear Number of Assembly ID Fuel Type Assemblies Range 10 12 JLS584-JLS682 11 23 JLS721-JLS767 12 40 JLS773-JLS812 14 144 JLZ101-JLZ244 15 64 JLZ245-JLZ308 16 39 J LZ309-JLZ347 30 84 B19001-B19084 31 104 B19085-B19188 32 50 B19189-B19238 Table 2.3 Assumed Rated Power MCPR Operating Limits for the Brunswick Unit 2 Cycle 19 Design Cycle Exposure Assumed MCPR (MWd/MTU)

Operating Limit 0.0 1.35 16000.0 1.40 18350.5 1.45 AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page 2-4 Brunswick Unit 2 Cycle 19 Fuel Cycle Design 1.010 1.005 ,' 1.000 0.995 0.990 A Cycle e19t 0 2 4 6 8 10 12 14 16 18 20 22 Cycle Exposure (GWdlMTU)Figure 2.1 Brunswick Unit 2 Cycle 19 Design Step-through k-eff versus Cycle Exposure 1.0 E:i 0.9 0.8 0 0 S0.7 0.6 0 2 4 6 8 10 12 14 Cycle Exposure (GWd/MTU)16 18 20 22 Figure 2.2 Brunswick Unit 2 Cycle 19 Design Margin to Thermal Limits versus Cycle Exposure AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page 3-1 3.0 Cycle 19 Fuel Cycle Design 3.1 General Description The assembly design for the Cycle 19 BRK2-19 fresh reload fuel for Brunswick Unit 2 is described in detail in Reference

3. Elevation views of the fresh reload fuel design axial enrichment and gadolinia distributions are shown in Appendix B, Figures B.1 through B.3.Except for the center control cell, the loading pattern essentially maintains quarter core symmetry within a scatter load fuel management scheme. This loading in conjunction with the control rod patterns presented in Appendix A shows acceptable powee peaking and associated margins to limits for projected Cycle 19 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 19 is provided in Appendix C. Key results for the cycle are summarized in Table 2.1.Exposure limits have been checked based on the long Cycle 18 energy window and Cycle 19 operation to 692 EFPD. It has been confirmed that no rod average exposure exceeds 60 GWd/MTU and that the maximum nodal average exposure of the lattice specific APLHGR limits are not exceeded.3.2 Control Rod Patterns and Thermal Limits Projected control rod patterns for Cycle 19 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. The MCPR margins presented in this report are based on assumed limits (see Table 2.3) and are subject to change pending the completion of the safety analyses calculations.

The final MCPR limit values will be reported in the Reload Safety Analysis Report.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 hot operating target k-eff versus cycle exposure which was determined to be appropriate for Cycle 19 is shown in Table 3.2. The k-eff and margin to limits results from the design cycle depletion are presented graphically in Figures 2.1 and 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.AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design 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 19 is in conformance with the Technical Specification limit of R + 0.38 %Ak/k at BOC. The cold target k-eff versus exposure determined to be appropriate for calculation of cold shutdown margin in Cycle 19 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 19 reactivity margins versus cycle exposure, including the SLC shutdown margin for the cycle.In addition, BOC cold shutdown margin was evaluated to be 1.00% Ak/k at a cold temperature of 55OF.AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page 3-3 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table 3.1 Cycle 19 Core Composition and Design Parameters Cycle Nuclear. Number of Fuel Description Loaded Fuel Type Assemblies GE-14 GE14-PlODNAB413-16GZ 17 10 12 GE-14 GE14-P1ODNAB425-3G7/14G6/1G2 17 11 23 GE-14 GE14-P1ODNAB439-12G6 17 12 40 GE-14 GE14-PlODNAB407-16GZ 18 14 144 GE-14 GE14-P1ODNAB425-18GZ 18 15 64 GE-14 GE14-P10DNAB439-12G6 18 16 39 ATRI UMTM_10*l:

] 19 30 84 ATRIUM-10[

] 19 31 104 ATRIUM-10 J 19 32 50 Number of Fuel Assemblies in Core 560 Total Number of Fresh Assemblies 238 Total Core Mass, MTU 99.91 Rated Thermal Power Level, MWt 2,923 Rated Core Flow, Mlb/hr 77.0 Reference Pressure, psia 1,045t Reference Inlet Subcooling, Btu/Ibm 22.0** ATRIUM is a trademark of AREVA NP.t 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.AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page 3-4 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table 3.2 Brunswick Unit 2 Cycle 19 Hot Operating Target k-eff Versus Cycle Exposure Cycle Exposure Hot Operating (MWd/MTU) k-eff*0.0 1.0025 8,000.0 0.9950 13,000.0 0.9950 16,500.0 0.9985 22,000.0 0.9985 Table 3.3 Brunswick Unit 2 Cycle 19 Cold Critical Target k-eff Versus Cycle Exposure Cycle Exposure Cold Critical (MWd/MTU) k-eff*0.0 0.9960 8,500.0 0.9905 22,000.0 0.9905* Values are linearly interpolated between cycle exposure points.AREVA NP Inc.

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Revision 0 Page 3-5 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table 3.4 Brunswick Unit 2 Cycle 19 Reactivity Margin Summary Cold Shutdown SLC Cold Shutdown Hot Excess Cycle Exposure Margin* Margint Reactivity*(MWd/MTU)

(% Ak/k) (% Ak/k) (% Ak/k)0 1.04 2.07 1.54 200 1.19 2.23 1.51 2,000 1.50 2.48 1.49 4,000 1.49 2.73 1.56 6,000 1.61 2.96 1.66 8,000 1.65 3.08 1.89 10,000 1.70 3.07 2.10 11,000 1.70 3.01 2.23 12,000 1.68 2.94 2.33 12,500 1.63 2.92 2.36 13,000 1.60 2.92 2.33 14,000 1.52 3.01 2.14 15,000 1.34 3.29 1.82 15,950 1.27 3.67 1.37 16,950 1.21 4.26 0.85 18,000 1.21 4.95 0.17 18,350 1.22 5.16 -0.07 18,929 1.26 5.42 -0.47 19,338 1.31 5.62 -20,245 1.44 6.06 --t t-Based on short window EOC 18 at 68 TF.Based on short window EOC 18, calculated at 360.8 TF ARO conditions.

Based on nominal EOC 18 and the rated core flow rate.AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page 3-6 1 3 5 9 11 13 15 17 19 21 23 25 52 50 48 A46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 JLS793 JTLS600 JLS779 JLS774 JTLZ239 JLS803 JLS808 JLS797 JLS736 JLS766 JLS757 JLZ339 JLZ265 JLZ325 JLZ281 JLZ249 JLZ307 JLZ283 JLZ330 JLZ267.LZ337 JLS749 JLS731 JLS748 JLS795 J1LZ344 B19031 B19033 B19037 B19039 B19041 B19043 B19045 B19047 B19049 B19053 JLZ346 JLS775 JLS760 JLS799 JLS746 JLZ313 JLZ320 B19023 B19029 JLZ297 B19034 JLZ153 B19127 3LZI85 JLZ187 B19141 JLZ155 B19050 JTLZ299 B19055 B19057 JLZ318 JLZ315 JLS601 JLS734 JLS798 JLZ245 B19021 B19024 JLZ289 B19103 JLZ257 B19119 JLZ133 B19209 B19214 JLZ135 B19147 JLZ259 B19161 JLZ291 B19058 B19063 JLZ251 JLZ311 JLS804 JLS645 JLZ324 B19017 B19191 JLZ303 B19097 JLZ213 B19113 JLZ157 B19205 JLZ229 JLZ129 B19219 JLZ163 B19155 JLZ215 B19171 JLZ235 B19233 B19065 JLZ322 JTLS655 JLS584 JLs789 JLZ340.B19011 B19012 B19018 JLZ285 JLZ237 B19091 B19025 JLZ269 JLZ273 B19098 B19104 JLZI05 JLZ110 B19114 819203 JLZI69 JLZ141 B19206 B19210 JLZ221 B19215 JLZ132 JLZ143 B19220 B19223 JLZ171 JLZ131 B19156 B19162 JLZ107 JLZ275 B19172 B19059 JLZ271 JLZ294 B19179 B19066 JLZ287 B19069 B19070 JLS809 JLZ342 JLS805 JLS777 J3LZ335 B19001 JLZ293 B19087 JLZ209 B19095 JLZ101 B19105 JLZ201 B19120 JLZ121 B19133 B19137 JLZ123 B19148 JLZ203 B19163 JLZI103 B19177 JLZ211 B19183 JLZ302 B19075 JLZ333 JLS791 JLS752 JLS807 JTLZ261 JLZ327 B19002 B19003 819013 JLZ149 JLZ253 B19088 B19092 JLZ161 JLZ233 B19195 B19099 JLZ165 JLZ197 B19106 B19201 JLZ113 JLZI17 B19121 B19128 JLZ241 JLZ177 B19134 JLZ179 B19138 B19142 JLZ243 JLZI19 B19149 B19225 JLZ115 JLZ199 B19164 B19173 JLZ167 JLZ111 B19229 B19180 JLZ159 JLZ255 B19184 B19071 TLZI,51 B19076 B19077 JLZ263 JLZ309 JLS673 JLS750 JLS790 JLZ277 B19004 B19085 JLZ137 B19192 JLZ145 B19199 JLZ125 B19115 JLZ205 B19129 JLZ193 JLZ195 B19143 JLZ207 B19157 JLZ127 B19227 JLZ147 B19234 JLZ139 B19187 B19078 JLZ279 JLS773 JLS787 JLZ305 B19005 JLZ181 B19189 JLZ225 B19196 JLZ217 B19107 JLZ173 B19122 JLZ194 B19211 JLZ23i JTLZ191 B19150 JLZ175 B19165 JLZ219 B19230 J-LZ227 B19237 JLZI83 819079 JLZ247 TLS801 Figure 3.1 Brunswick Unit 2 Cycle 19 Reference Loading Pattern 27 29 31 33 35 37 39 41 43 45 47. 49 51 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 JLS782 JLS778 JLZ246 JLZ286 B19006 B19007 JLZI82 B19086 B19190 JLZ138 J-LZ226 B19193 B19197 JLZ146 JLZ218 B19200 B19108 JLZ126 J3LZ174 B19116 B19123 JLZ234 JLZ196 B19130 JLz223 JLz189 B19216 JLZ190 JLZ192 B19144 B19151 JLZ208 JLZ176 B19158 B19166 JLZ128 JLz220 B19228 B19231 JLZ148 JLZ228 B19235 B19238 JLZ140 JTLZ184 B19188 B19080 B19081 JLZ308 JLZ280 JLS794 JLS806 JLS792 JLZ326 B19008 JLZ150 B19089 JLZ158 B19198 JLZ166 B19109 JLZ114 B19124 JLZ242 B19135 B19139 JLZ244 B19152 JLZI16 B19167 JLZ168 B19232 JLZ164 B19185 JLZ156 B19082 JLZ328 JLS682 JLS776 JLS730 JLZ262 JLZ334 B19009 B19010 B19014 JLZ301 JLZ254 B19090 B19093 JLZ210 JILZ109 B19096 B19100 JLZI02 JLZ198 B19110 B19202 JLZ202 JLZ118 B19125 B19131 JLZ122 JLZ178 B19136 JLZ180 B19140 B19145 JLZ124 JLZ120 B19153 B19226 JLZ204 JLZ200 B19168 B19174 JLZ104 JLZ236 B19178 B19181 JLZ212 JLZ256 B19186 B19072 JLZ296 B19083 B19084 JLZ264 JLZ332 JLS751 JLS754 31LS724 JLZ341 B19015 JLZ278 B19094 JLZ270 B19101 JLZI06 B19117 JLZI170 B19207 JTLZ222 JLZ224 B19221 JLZ172 B19159 JLZ108 B19175 JLZ272 B19182 JLZ288 B19073 JLZ343 JLS663 J-LS646 JLS602 B19016 JLZ323 B19019 B19020 JLZ295 B19194 B19026 JLZ240 JLZ274 B19102 B19111 JLZ214 JLZ130 B19118 B19204 JLZ162 JLZ142 B19208 B19212 JLZ230 B19217 JLZ232 JrLZ144 B19222 B19224 JLZ160 JLZ112 B19160 B19169 JLZ216 JLZ276 B19176 B19060 JLZ206 JLZ304 B19236 B19067 B19068 B19074 JLZ321 JLS812 JLS745 JLS741 3LZ310 JLZ250 B19022 B19027 JLZ282 B19112 JLZ258 B19126 3.LZ134 B19213 B19218 JLZ136 B19154 JLZ260 B19170 JLZ292 B19061 B19064 JLZ248 JLZ312 JLS740 JLS721 JLZ314 JLS780 JLZ319 JLS767 B19028 JLS781 B19030 JLZ345 JLZ298 B19032 B19035 B19036 JLZ154 B19038 B19132 B19040 JLZ186 B19042 JLZ188 B19044 B19146 B19046 JLZ152 B19048 B19051 B19052 JLZ300 B19054 B19056 1LZ347 B19062 JLS796 JLZ317 JLS726 JLZ316 JLS785 JLS786 JLS732 JLZ338 J.LZ266 JLZ329 JLZ290 JLZ306 JLZ252 JLZ284 JLZ331 3.LZ268 JLZ336 JLS591 JLS761 JLS788 JLS783 JLZ238 JLS784 JLS802 JLS811 JLS800 JLS810 JLS664 Figure 3.1 Brunswick Unit 2 Cycle 19 Reference Loading Pattern (Continued)

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Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page 3-7 1 3 .5 7 9 1i 13 15 17 19 21 23 25 52 12 11 12 12 12 36.8 33.6 32.6 33.0 30.3 50 Nuclear Fuel Type 10 16 15 16 15 15 BOC Sxposure (GWd/MTU) 34.3 19.9. 20.0 16.8 19.2 18.3 48 11 10 12 16 30 30 30 30 30 38.3 32.5 33.5 18.1 0.0 0.0. 0.0 0.0 0.0 46 11 12 16 30 30 15 30 14 31 14 36.1 21.8 17.2 0.0 0.0 21.6 0.0 22.7 0.0 23.1 44 11 16 15 30 30 15 31 15 31 14 32 39.1 17.7 19.4 0.0 0:0 21.0 0.0 21.6 0.0 22.9 0.0 42 11 16 30 32 14 31 14 31 14 32 14 35.4 17.5 0.0 0.0 23.5 0.0 22.8 0.0 22.6 0.0 23.4 40 12 30 30 15 30 15 31 14 32 14 32 32.9 0.0' 0.0 22.5 0.0 22.4 0.0 23.4 0.0 23.3 0.0 38. 11 16 30 15 31 15 31 14 31 14 32 14 35.6 18.1 0.0 20.9 0.0 21.7 0.0 22.1 0.0 22.8 0.0 23.4 36 12 16 30 15 31 14 31 14 31 14 31 14 31 38.7 20.0 0.0 21.8 0.0 22.3 0.0 22.1 0.0 23.2 0.0 22.9 0.0 34 10 15 30 30 15 31 14 31 14 32 14 31 14 33.3 19.6 0.0 0.0 21.3 0.0 21.8 0.0 23.6 0.0 22.5 0.0 21.6 32 12 16 30 14 31 14 32 14 31 14 31 14 31 31.5 17.2 0.0 23.3 0.0 22.3 0.0 22.6 0.0 22.7 0.0 23.7 0.0 30 12 15 30 31 14 32 14 32 14 31ý 14 31 14 31.6 18.7, 0.0 0.0 22.8 0.0 23.2 0.0 22.4 0.0 23.3 0.0 23.2 28 14 15 30 14 32 14 32 14 31 14 31 14 32 23.6 19.6 0.0 22.8 0.0 23.6 0.0 23.3 0.0 21.6 0.0 23.4 0.0 No. Per Fuel Type Description Cycle Loaded Quarter core 10 GE14-Pl0DNAB413-16GZ 17 3 11 GE14-PIODNAB425-3G7/14G6/1G2 17 6 12 GE14-PIODNAB439-12G6 17 10 14 GE14-PlODNAB407-16GZ 18 36 15 GE14-PIODNAB425-18GZ 18 16 16 GE14-P10DNAB439-12G6 18 9 30 [ ] 19 21 31 [ ] 19 26 32 [ ] 19 13 Figure 3.2 Brunswick Unit 2 Cycle 19 Upper Left Quarter Core Layout by Fuel Type AREVA NP Inc.

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Revision 0 Page 3-8 Brunswick Unit 2 Cycle 19 Fuel Cycle Design 52 50 48 46 44 42 40 38 36 34 32 30 28 27 12 30.1 15 19.3 30 0.0 14 22.9 32 0.0 14 23.2 32 0.0 14 23.2 31 0.0 14 21.4 31 0.0 14 23.2 14 23.4 29 12 32.8 15 20.9 30 0.0 31 0.0 14 22.6 32 0.0 14 23.1 32 0.0 14 22.7 31 0.0 14 23.2 31 0.0 14 23.4 31 12 31.0 16 16.8 30 0.0 14 22.6 31 0.0 14 22.2 32 0.0 14 22.5 31 0.0* 14 22.4.31 0.0 14 23.2 31 0.0 33 12 34.1 15 19.5 30 0.0 30 0.0 15 21.1 31 0.0 14 21.9 31 0.0 14 23.1 32 0.0 14 22.5 31 0.0 14 21.3 35 11 37.5 16 19.9 30 0.0 15 22.5 31 0.0 14 22.5 31 0.0 14 22.1 31 0.0 14 23.4 31 0.0 14 22.4 31 0.0 37 39 41 43 45 47 49 51 11 35.8 16 18.0 30 0.0 15 18.9 31 0.0 15 22.0 31 0.0 14 22.1 31 0.0 14 22.5 32 0.0 14 23.2 10 34.0 30 0.0 30 0.0 15 21.5 30 0.0 15 21.6 31 0.0 14 22.5 32 0.0 14 23.1 32 0.0 10 35.6 16 17.4 30 0.0 32 0.0 14 23.4 31 0.0 14 22.2 31 0.0 14 22.4 32 0.0 14 23.5 Nuclear Fuel Type BOC Exposure (GWd/MTU)11 40.6 16 11 17.4 36.5 15 16 12 19.5 17.7 40.5 30 16 11 0.0 17.4 36.7 30 30 12 0.0 0.0 34.4 15 30 16 11 18.6 0.0 17.9 34.8 31 15 30 16 0.0 21.7 0.0 20.2 15 30 30 15 21.2 0.0 0.0 19.6 31 14 30 16 0.0 22.9 0.0 16.9 14 31 30 15 22.7 0.0 0.0 20.8 32 14 30 15 0.0 22.6 0.0 18.2 11 40.1 12 31.8 12 30.8 14 23.5 12 30.1 Fuel Type Description 10 11 12 14 15 16 30 31 32 GE14-PlODNAB413-16GZ GE14-PlODNAB425-3G7/14G6/IG2 GE14-PlODNAB439-12G6 GE14-PlODNAB407-16GZ GE14-PlODNAB425-18GZ GEI4-PIODNAB439-12G6

[ I[ I Cycle Loaded 17 17 17 18 18 18 19.19 19 No. Per Quarter core 2 7 9 37 16 10 21 26 12 Figure 3.3 Brunswick Unit 2 Cycle 19 Upper Right Quarter Core Layout by Fuel Type AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page 3-9 1 3 5 7 9 11 13 15 17 19 21 23 25 26 12 15 30 14 32 14 32 14 31 14 31 14 14 29.9 18.2 0.0 22.8 0.0 22.6 0.0 22.5 0.0 21.5 0.0 23.5 23.8 24 12 15 30 31 14 32 14 32 14 31 14 31 14 31.3 18.8 0.0 0.0 22.7 0.0 23.2 0.0 22.4 0.0 23.3 0.0 23.3 22 12 16 30 14 31 14 32 14 31 14 31 14 31 29.5 16.9 0.0 23.2 0.0 22.6 0.0 22.7 0.0 22.7 0.0 23.7 0.0 20 11 15 30 30 15 31 14 31 14 32 14 31 14 37.6 19.6 0.0 0.0 21.3 0.0 22.6 0.0 23.7 0.0 22.4 0.0 21.4 18 11 16 30 15 31 14 31 14 31 14 31 14 31 39.9 20.0 0.0 21.8 0.0 22.4 0.0 22.1 0.0 23.2 0.0 22.9 0.0 16 11 16 30 15 31 15 31 14 31 14 32 14 36.5 18.1 0.0 21.0 0.0 21.8 0.0 22.2 0.0 22.6 0.0 23.3 14 12 30 30 14 30 15 31 14 32 14 32 34.3 0.0 0.0 23.3 0.0 22.0 0.0 21.9 0.0 23.4 0.0 12 11 16 30 32 15 31 14 31 14 32 14 35.8 17.3 0.0 0.0 21.5 0.0 22.6 0.0 22.4 0.0 23.3 10 12 16 15 30 30 15 31 15 31 14 32 39.2 17.7 19.6 0.0 0.0 20.7 0.0 21.2 0.0 22.9 0.0 8 10 16 16 30 30 15 30 14 31 14 32.4 17.5 17.5 0.0 0.0 22.4 0.0 22.7 0.0 22.9 6 12 10 12 16 30 30 30 30 30 39.2 32.2 33.8 17.9 0.0 0.0 0.0 0.0 0.0 4 Nuclear Fuel Type 12 16 15 16 15 15 BOC Exposure (GWd/MTU) 39.4 20.1 19.6 17.7 18.8 19.2 2 12 10 11 12 12 39.2 32.2 26.9 33.1 30.0 No. Per Fuel Type Description Cycle Loaded Quarter core 10 GE14-PlODNAB413-16GZ 17 3 11 GEl4-PlODNAB425-3G7/14G6/IG2 17 5 12 GE14-PlODNAB439-12G6 17 11 14 GE14-P1ODNAB407-16GZ 18 36 15 GE14-PJODNAB425-18GZ 18 16 16 GE14-P1ODNAB439-12G6 18 10 30 [ 1 19 21 31 [ ] 19 26 32 [ 3 19 12 Figure 3.4 Brunswick Unit 2 Cycle 19 Lower Left Quarter Core Layout by Fuel Type AREVA NP Inc, ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page 3-10 27 29 31 33 35 37 39 41 43 45. 47 49 51 26 32 14 31 14 31 14 32 14 32 14 30 15 12 0.0 23.3 0.0 21.3 0.0 23.2 0.0 23.5 0.0 22.6 0.0 19.5 29.6 24 14 31 14 31 14 32 14 32 14 31 30 15 12 23.2 0.0 23.1 0.0 22.3 0.0 23.1 0.0 22.7 0.0 0.0 18.5 31.0 22 31 14 31 14 31 14 32 14 31 14 30 16 12 0.0 23.4 0.0 22.6 0.0 22.5 0.0 22.2 0.0 22.5 0.0 16.5 33.5 20 14 31 14 32 14 31 14 31 15 r30 30 15 12 21.4 0.0 22.4 0.0 23.4 0.0 21.9 0.0 21.1 0.0 0.0 19.4 33.9 18 31 14 31 14 31 14 31 14 31 15 30 16 10 0.0 22.8 0.0 23.0 0.0 22.1 0.0 22.2 0.0 21.6 0.0 20.2 37.5 16 14 32 14 31 14 31 15 31 15 30 16 10 23.2 0.0 22.6 0.0 22.2 0.0 21.6 0.0 20.7 0.0 17.9 34.7 14 32 14 32 14 31 15 30 14 30 30 12 0.0 23.2 0.0 23.1 0.0 22.1 0.0 23.6 0.0 0.0 31.3 12 14 32 14 31 14 31 15 32 30 16 11 23.1 0.0 22.4 0.0 22.5 0.0 22.3 0.0 0.0 17.7 34.5 10 32 14 31 15 31 15 30 30 15 16 12 0.0 22.6 0.0 21.2 0.0 20.8 0.0 0.0 19.2 17.6 40.0 8 14 31 14 30 15 30 30 16 16 12 22.9 0.0 23.0 0.0 21.4 0.0 0.0 17.5 17.6 39.4 6 30 30 30 30 30 16 12 11 11 0.0 0.0 0.0 0.0 0.0 17.8 32.6 39.8 40.2 4 15 15 16 15 16 10 Nuclear Fuel Type 18.1 19.0 17.0 19.6 20.2 31.5 BOC Exposure (GWd/MTU)2 12 12 10 11 11 30.0 30.5 32.4 40.7 40.7 No. Per Fuel Type Description Cycle Loaded Quarter core 10 GE14-PlODNAB413-16GZ 17 4 11 GEl4-PlODNAB425-3G7/14G6/IG2 17 5 12 GEI4-PlODNAB439-12G6 17 10 14 GE14-PlODNAB407-16GZ 18 35 15 GE14-PlODNAB425-18GZ 18 16 16 GE14-PlODNAB439-12G6 18 10 30 [ ] 19 21 31 [ 1 19 26 32 [ ] 19 13 Figure 3.5 Brunswick Unit 2 Cycle 19 Lower Right Quarter Core Layout by Fuel Type AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design 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. EMF-2209(P)(A)

Revision 2, SPCB Critical Power Correlation, Framatome ANP, September 2003.3. ANP-2724(P)

Revision 0, Nuclear Fuel Design Report Brunswick Unit 2 Cycle 19 ATRIUM-IO Fuel, May 2008 (103-2724P-000).

4. 38-9070066-000, E. J. Geyer (Progress Energy) to T. E. Millsaps (AREVA), "B2C19 Energy Utilization Plan," NF-08-010, January 10, 2008.5. FAB08-2239, R. J. Desteese (AREVA) to E. J. Geyer (Progress Energy), "Responses to Progress Energy's Comments on the Brunswick Unit 2 Cycle 19 FSDD Response," April 4, 2008.6. 38-9080299-000, R. Thomas (Progress Energy) to R. J. DeSteese (AREVA), "B2C1 9 Calc Plan Owner Review Comments," May 2008.AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page A-i Brunswick Unit 2 Cycle 19 Fuel Cycle Design Appendix A Brunswick Unit 2 Cycle 19 Step-through Depletion Summary, Control Rod Patterns and Core Average Axial Power and Exposure Distributions AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design. Page A-2 Table A.1 Brunswick Unit 2 Cycle 19 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/ib) Fraction CPR (kW/ft) (kW/ft)0.000 1.00253 6.93 2923.0 78.15 1044.50 21.30 0.499 1.529 11.91 8.36 0.200 1.00233 6.93 2923.0 78.15 1044.49 21.31 0.497 1.536 11.62 8.19 0.500 1.00167 6.93 2923.0 80.46 1044.53 20.62 0.487 1.561 11.26 8.04 1.000 1.00160 6.93 2923.0 80.46 1044.53 20.61 0.485 1.552 11.11 8.09 1.500 1.00117 6.93 2923.0 78.15 1044.50 21.31 0.488 1.537 10.90 8.12 2.000 1.00086 6.93 2923.0 77.00 1044.48 21.67 0.488 1.532 10.71 8.17 2.500 1.00063 6.93 2923.0 76.23 1044.46 21.92 D.487 1.531 10.52 8.20 3.000 0.99927 7.24 2923.0 79.69 1044.52 20.84 0.487 1.545 11.26 8.56 3.500 0.99894 7.24 2923.0 78.54 1044.50 21.19 0.487 1.543 11.12 8.56 4.000 0.99855 7.24 2923.0 77.77 1044.49 21.43 0.487 1.541 11.01 8.57 4.500 0.99824 7.24 2923.0 77.00 1044.48 21.67 0.487 1.541 10.89 8.59 5.000 0.99795 7.24 2923.0 76.23 1044.46 21.92 0.487 1.540 10.78 8.62 5.500 0.99733 7.66 2923.0 78.93 1044.51 21.07 0.483 1.670 10.37 8.45 6.000 0.99687 7.66 2923.0 77.39 1044.48 21.55 0.485 1.663 10.27 8.52 6.500 0.99660 7.66 2923.0 76.23 1044.46 21.92 0.487 1.639 10.19 8.60 7.000 0.99591 8.03 2923.0 78.54 1044.50 21.19 0.484 1.651 10.35 9.88 7.500 0.99541 8.03 2923.0 76.23 1044.46 21.92 0.489 1.614 10.38 9.04 8.000 0.99500 7.60 2923.0 78.54 1044.50 21.19 0.497 1.537 10.78 9.21 8.500 0.99499 7.60 2923.0 77.39 1044.48 21.55 0.500 1.525 10.80 9.41 9.000 0.99508 7.60 2923.0 76.23 1044.46 21.92 0.504 1.514 11.00 9.67 9.500 0.99506 7.85 2923.0 77.77 1044.49 21.43 0.504 1.515 11.37 10.11 10.000 0.99507 7.85 2923.0 76.23 1044.46 21.92 0.509 1.500 11.60 10.40 10.500 0.99506 10.10 2923.0 78.93 1044.51 21.07 0.473 1.543 10.48 9.06 11.000 0.99500 10.10 2923.0 77.00 1044.48 21.67 0.478 1.521 10.37 9.05 11.500 0.99501 10.43 2923.0 78.54 1044.50 21.19 0.472 1.505 9.95 8.83 12.000 0.99505 10.43 2923.0 77.00 1044.48 21.67 0.474 1.486 9.91 8.76 12.500 0.99524 10.43 2923.0 76.23 1044.46 21.92 0.471 1.472 9.88 8.82 13.000 0.99500 9.06 2923.0 76.23 1044.46 21.93 0.492 1.539 10.37' 9.36 13.500 0.99544 9.06 2923.0 77.39 1044.48 21.56 0.482 1.540 9.68 8.74 14.000 0.99594 9.06 2923.0 79.31 1044.51 20.96 0.469 1.544 8.98 8.17 14.300 0.99619 9.06 2923.0 80.46 1044.53 20.62 0.460 1.544 8.76 7.98 14.700 0.99676 8.64 2923.0 78.54 1044.50 21.20 0.455 1.519 9.61 8.65 15.000 0.99704 8.64 2923.0 80.46 1044.53 20.62 0.445 1.534 9.63 8.70 15.500 0.99750 8.64 2923.0 80.46 1044.53 20.62 0.431 1.513 9.76 9.00 15.950 0.99788 8.33 2923.0 80.46 1044.53 20.62 0.420 1.492 10.04 9.17 16.300 0.99839 5.23 2923.0 80.46 1044.53 20.62 0.456 1.545 9.25 8.50 16.550 0.99862 4.93 2923.0 80.46 1044.53 20.62 0.447 1.546 9.14 8.39 16.750 0.99851 4.81 2923.0 80.46 1044.53 20.62 0.441 1.542 9.08 8.34 16.950 0.99857 4.56 2923.0 80.46 1044.53 20.62 0.434 1.535 8.99 8.25 17.100 0.99853 4.44 2923.0 80.46 1044.53 20.62 0.430 1.535 8.97 8.22 17.101 0.99853 4.26 2923.0 77.62 1044.49 21.47 0.434 1.512 9.31 8.55 17.300 0.99845 4.26 2923.0 80.46 1044.53 20.62 0.425 1.538 9.40 8.64 17.550 0.99855 1/3.28 2923.0 80.46 1044.53 20.62 0.430 1.537 9.32 8.59 17.725 0.99842 3.04 2923.0 80.46 1044.53 20.62 0.424 1.534 9.38 8.66 18.000 0.99872 1.22 2923.0 80.46 1044.53 20.62 0.435 1.563 8.68 8.08 18.200 0.99864 0.97 2923.0 80.46 1044.53 20.62 0.429 1.554 8.66 8.06 18.350 0.99907 0.00 2923.0 80.46 1044.53 20.62 0.432 1.582 8.65 8.04 18.575 0.99904 0.00 2923.0 80.46 1038.61 24.23 0.416 1.609 8.56 7.95 18.775 0.99909 0.00 2923.0 80.46 1033.41 27.53 0.402 1.634 8.48 7.90 18.900 0.99906 0.00 2923.0 78.93 1028.78 31.22 0.393 1.644 8.43 7.86 18.929 0.99939 0.00 2923.0 80.46 1028.79 30.57 0.388 1.657 8.46 7.89 19.338 0.99911 0.00 2758.2 80.46 1028.79 28.71 0.369 1.743 8.08 7.48 19.790 0.99900 0.00 2550.7 80.46 1028.79 26.38 0.346 1.848 7.63 6.95 20.245 0.99901 0.00 2337.9 80.46 1028.79 23.99 0.322 1.977 7.24 6.52 AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page A-3 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table A.2 Brunswick Unit 2 Cycle 19 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 1.00253 0.200 1.00233 0.500 1.00167 1.000 1.00160 1.500 1.00117 2.000 1.00086 2.500 1.00063 3.000 0.99927 3.500 0.99894 4.000 0.99855 4.500 0.99824 5.000 0.99795 5.500 0.99733 6.000 0.99687 6.500 0.99660 7.000 0.99591 7.500 0.99541 8.000 0.99500 8.500 0.99499 9.000 0.99508 9.500 0.99506 10.000 0.99507 10.500 0.99506 11.000 0.99500 11.500 0.99501 12.000 0.99505 12.500 0.99524 13.000 0.99500 13.500 0.99544 14.000 0.99594 14.300 0.99619 14.700 0.99676 15.000 0.99704 15.500 0.99750 15.950 0.99788 16.300 0.99839 16.550 0.99862 16.750 0.99851 16.950 0.99857 17.100, 0.99853 17.101 0.99853 17.300 0.99845 17.550 0.99855 17.725 0.99842 18.000 0.99872 18.200 0.99864 18.350 0.99907 18.575 0.99904 18.775 0.99909 18.900 0.99906 18.929 0.99939 19.338 '0.99911 19.790 0.99900 20.245 0.99901 6.934 6.934 6.934 6.934 6.934 6.934 6.934 7.238 7.238 7.238 7.238 7.238 7.664 7.664 7.664 8.029 8.029 7.603 7.603 7.603 7.847 7.847 10.097 10.097 10.432 10.432 10.432 9.063 9.063 9.063 9.063 8.637 8.637 8.637 8.333 5.231 4.927 4.805 4.562 4.440 4.258 4.258 3.285 3.041 1.217 0.973 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.529 1.536 1.561 1.552 1.537 1.532 1.531 1.545 1.543 1.541 1.541 1.540 1.670 1.663 1.639 1.651 1.614 1.537 1.525 1.514 1.515 1.500 1.543 1.521 1.505 1.486 1.472 1.539 1.540 1.544 1.544 1.519 1.534 1.513 1.492 1.545 1.546 1.542 1.535 1.535 1.512 1.538 1.537 1.534 1.563 1.554 1.582 1.609 1.634 1.644 1.657 1.743 1.848 0.883 0.879 0.865 0.870 0.878 0.881 0.882 0.874 0.875 0.876 0.876 0.877 0.809 0.812 0.824 0.818 0.837 0.878 0.885 0.8 92 0.891 0.900 0.875 0.888 0.897 0.909 0.917 0.877 0.876 0.874 0.874 0.889 0.880 0 892 0.905 0.906 0.906 0.908 0.912 0.912 0.926 0.910 0.911 0.913 0.896 0.901 0.885 0.901 0.887 0.882 0.875 0.832 0.785 11.91 0.888 11.62 0.867 11.26 0.840 11.11 0.829 10.90 0.813 10.71 0.799 9.04 0.799 11.26 0.840 11.12 0.830 11.01 0.821 10.89 0.813 9.08 0.810 10.37 0.774 8.01 0.773 8.13 0.778 8.28 0.799 8.31 0.810 8.09 0.827 8.14 0.840 8.21 0.856 8.40 0.885 8.46 0.901 9.48 0.862 9.35 0.859 8.97 0.837-.93 0.842 8.93 0.850 7.81 0.850 7.16 0.815 7.01 0.792 7.04 0.784 8.27 0.859 8.28 0.865 8.60 0.888 8.84 0.908 7.68' 0.834 7.68 0.825 7.73 0.823 7.74 0.827 7.77 0.834 8.12 0.875 8.20 0.886 7.98 0.868 8.03 0.877 7.46 0.827 7.48 0.833 7.36 0.821 7.30 0.818 7.25 0.816 7.17 0.815 7.20 0.819 6.92 0.788 6.49 0.745 6.03 0.699 8.11 7.99 7.99 8.07 8.08 8.08 8.08 8.41 8.33 8.25 8.18 8.12 7.49 7.45 7.42 7.52 7.57 7.70 7.76 7.84 8.02 8.10 8.48 8.37 8.13 8.10 8.11 7.26 6.86 6.70 6.97 7.83 7.86 7.83 8.10 7.32 7.28.7.32 7.34 7.36 7.70 7.78 7.58 7.65 7.12 7.18 7.08 7.03 6.98 6.93 6.96 6.67 6.24 0.781 0.771 0.764 0.773 0.776 0.779 0.781 0.813 0.809.0.807 0.806.0.805 0.771 0.773 0.775 0.795 0.806 0.838 0.850 0.865 0.892 0.908 0.852 0.848 0.831 0.835 0.843 0.854 0.813 0.780 0.773 0.845 0. 852 0.873.0.898 0.813 0.803 0.807 0.811 0.816 0.842 0.853 0.852 0.861 0.800 0.809 0.799 0.796 0.794 0.789.0.793 0.788 0.773 0.000 1.977 0.734 5.88 0.753 AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-4 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 0.0 ( 0.00 0.0 ( 0.00 2923.0 (100.00 %)1044.5-21.30 79.15 (101.50 %)Core Average Exposure:

MWd/MTU 14121.2 1 3 5 7 9 11 3 5 .--.--- 28 --7 9 .. 28 16 --11---------

13 ---------14 --15---------

17 .28 16 --19 21 .. .. .- 28B 23 25 IR: 2 6 10 14 18 22 13 14 16 14 26 15 17 19-- 28 ---- 16 ---- 14-- 16 --28 30 34 38 21 23 25 51 47 43 39 28 ..35--31 27--23 28 ..19 15 11 7 3 42 46 50 Axial Profile N(PRA) Power Exposure Top 25 0.106 2.334 24 0.367 6.821 23 0.512 9.617 22 0.622 12.124 21 0.718 13.762:JR 20 0.803 14.621 19 0.881 14.996 18 -0.951 15.093 17 1.004 15.057 16 1.057 14.059 15 1.109 14.226 14 1.213 14.380 13 1.264 14.839 12 1.305 15.320 ii 1.325 15.761 10 1.317 16.186 9 1.324 16.624 8 1.343 17.160 7 1.368 17.740 6 1.388 18.287 5 1.389* 18.646*4 1.341 18.416 3 1.189 16.701 2 0.880 12.494 Bottom 1 0.224 3.420 Edit Radial Power Zone Avg. Max. IR JR 10 0.527 0.629 39 48 11 0.495 0.603 21 2 12 0.584 0.735 9 46 14 1.120 1.239 11 26 15 1.013 1.191 39 16 16 0.851 0.958 49 32 30 1.051 1.214 13 14-31 1.101 1.185 37 38 32 1.138 1.205 41 24 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 6.93 1.00253 0.499 30.639 26.089 548.5 65.22 16.6-0.0 0.00044% AXIAL TILT -21.273 -11.344 AVG BOT 8ft/12ft 1.1470 1.0535 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)65.22 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT 1.239 14 1.228 14 1.214 30 1.213 14 1.212 14 1.207 14 1.205 14 1.205 32 1.204 14 1.202 32 IR JR 11 26 27 42 13 14 43 24 39 24 29 44 29 40 41 24 41 22 43 26 Value 1.529 1.541 1.546 1.550 1.552 1.556 1.561 1.566 1.567 1.574 MCPR Margin FT 0.883 32 0.876 32 0.873 31 0.871 32 0.870 31 0.868 32 0.865 14 0.862 31 0.862 31 0.858 14 IR JR 43 28 27 44 43 22 11 30 45 30 29 12 43 30 21 44 29 46 11 26 APLHGR Value Margin Exp. FT 8.11 0.781 28.9 14 7.99 0.771 29.3 14 8.03 0.769 28.3 14 7.87 0.762 29.7 14 7.88 0.759 28.9 14 7.81 0.753 29.0 14 7.81 0.745 21.7 15 7.79 0.744 21.8 15 7.44 0;732 29.0 15 7.88 0.729 22.9 14 IR JR K 7 28 5 25 8 5 11 26 5 27 42 5 9 30 5 29 44 5 43 34 12 33 10 12 13 12 5 41 18 12 Value Margin 11.91 0.888 11.79 0.880 11.65 0.870 11.57 0.864 11.52 0.860 11.47 0.856 11.41 0.852 11.34 0.846 11.34 0.846 11.20 0.836 LHGR Exp. FT 0.0 32 0.0 32 0.0 32 0.0 31 0.0 32.0.0 32 0.0 31 0.0 32 0.0 30 0.D 30 IR JR 43 28 27 44 11 30 45 30 29 12 13 28 29 46 27 14 5 28 5 30 K 5 5 5 4 5 5 5 5 4 4* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.1 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 0.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision.

0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-5 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 200.0 ( 19.98 200.0 ( 19.98-2923.0 (100.00 %)1044.51-21.31 78.15 (101.50 %)Core Average Exposure:

MWd/MTU 14321.2 1 1 3 5 7 9 --13 15 17 --19 21 23 25 IR: 2 3 5 7 9 11 13 15 17 19 21 23 25-.28-- 28 -- 16 14-- 28 -- 16-.28 6 10 14 18 22..28- .. .. ..14 -- 16 28 ....16 -- 14 14 -- 16 28 ......28 --------26 30 34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.108 2.360 24 0.373 6.900 23 0.521 9.728 22 0.631 12.258 21 0.728 13.917:JR 20 0.814 14.794 19 0.892 15..186 18 0.961 15.298 17 1.014 15.274 16 1.067 14.278 15 1.119 14.455 14 1.224 14.608 13 1.274 15.077 12 1.314 15.566 11 1.333 16.010 10 1.323 16.434 9 1.327 16.874 8 1.342 17.413 7 1.359 17.998 6 1.371* 18.549 5 1.364 18.908*4 1.309 18.669 3 1.157 .16.925 2 0.856 12.660 Bottom 1 0.217 3.463 Edit Zone 10 12 14 15 16 30.31 32 Radial Power Avg. Max. IR JR 0.528 0.630 39 48 0.497 0.604 21 2 0.586 0.737 9 46 1.121 1.239 11,26 1.015 1.193 39'16 0.853 0.960 49 32 1.048 1.210 13 14 1.099 1.183 37 38 1.135 1.202 41 24 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 6.93 1.00233 0.497 30.592 26.042 548.5 65.24 16.5-0.0 0.00038% AXIAL TILT -20.323 -11.397 AVG BOT 8ft/12ft 1.1424 1.0542 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)65.24 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.239 14 11 26 1.228 14 27 42 1.213 14 39 24 1.213 14 43 30 1.210 30 13 14 1.207 14 29 44 1.206 14 29 40 1.205 14 41 22 1.202 32 41 24 1.200 14 31 42 MCPR Value Margin FT 1.536 0.879 32 1.548 0.872 32 1.551 0.870 31 1.556 0.867 32 1.558 0.866 31 1.560 0.865 14 1.562 0.864 32 1.571 0.859 31 1.573 0.858 31 1.573 0.858 14 IR JR 43 28 27 44 43 22 11 30 45 30 43 30 29 12 21 44 29 46 29 44 APLHGR Value Margin Exp. FT 7.99 0.771 29.3 14 7.87 0.761 29.7 14 7.90 0.759 28.7 14 7.88 0.752 22.0 15 7.75 0.752 30.0 14 7.87 0.751 22.1 15 7.75 0.748 29.2 14 7.69 0.742 29.3 14 7.95 0.737 23.3 14 7.93 0.735 23.4 14 IR JR K 7 28 5 25 8 5 11. 26 5 43 34 12 27 42 5 33 10 12 9 30 5 29 44 5 41 18 12 35 12 12 Value 11.62 11.51 11.37 11.29 11.25 11.19 11.14 11.06 11.05 10.92 LHGR Margin Exp. FT 0.867 0.5 32 0.859 0.5 32 0.849 0.5 32 0.842 0.5 31 0.840 0.5 32 0.835 0.5 32 0.831, 0.5 31 0.826 0.5 32 0.825 0.5 30 0.815 0.5 30 IR JR 43 28 27 44 11 30 45 30 29 12 13 28 29 46 27 14 5 28 5 30 K 5 5 5 5 5 5 5 5 5 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.2 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 200.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-6 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 500.0 ( 49.95 300.0 C 29.97 2923.0 (100.00 %1044.5-20.62 80.46 (104.50 %1 3 5 7 9 11 13 15 17 19 21 23 25 1 -- --,3 5 7-. -. .- 28 7--------

2 7 9 --.. 28 -- 16 11---------

13 14 15---17 .28 16 19 21 .. .. ..- 28 23 25 IR: 2 6 10 14 18 Control Rod Density: k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: p Coolant Temp: Deg-F In Channel Flow: Mlb/Total Bypass Flow (%)Total Water Rod Flow Source Convergence 28 14 -- 16 --16 14 14 -- 16 --.. 28 --28 28 N(PRA Top 25 24)" 23 22 21 51 :JR 20 47 19 43 18 39 17 35 16 31 15 27 14 23 13 19 12 15 11 11 10 7 9 3 8 7 5 4 3 2 Bottom 1 Core Average Exposure:

MWd/MTU 14621.2 Axial Profile Power Exposure 0.112 2.401 0.386 7.020 0.538 9.896 0.650 12.462 0.747 14.153 0.832 15.058 0.910 15.475 0.978 15.610 1.030 15.602 1.083 14.609 1.135 14.803 1.241 14.954 1.291 15.437 1.331 15.937 1.348" 16.387 1.333 16.808 1.332 17.249 1.338 17.792 1.344 18.382 1.343 18.937 1.320 19.294" 1.254 19.039 1.101 17.252 0.815 12.902 0.208 3.525 Edit Radial Power Zone Avg. Max. IR JR 10 0.528 0.630 39 48 11 0.496 0.604 21 2 12 0.585 0.738 9 46 14, 1.122 1.238 11 26 15 1.018 1.196 39 16 16 0.855 0.962 49 32 30 1.047 1.209 39 40 31 1.098 1.182 37 38 32 1.133 1.200 41 24 22 26 30 34 38 42 46 50 6.93 1.00167 0.487 31.935 sia 27.384 548.5 hr 67.29 Active 16.4 (of tot (%): -0.0 (of tot 0.00047% AXIAL TILT -18.672 -11.455 AVG BOT 8ft/12ft 1.1341 1.0551 Channel Flow: Mlb/hr al core flow)al core flow)67.29 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.238 14 11 26 1.228 14 27 42 1.213 14 43 24 1.213 14 39 24 1.209.30 39 40 1.208 14 29 44 1.206 14 29 40 1.206 14 41 22 1.201 14 31 42 1.200 32 41 24 Value 1.561 1.574 1.575 1.577 1.583 1.584 1.588 1.591 1.594 1.596 MCPR Margin FT 0.865 32 0.858 32 0.857 31 0.856 14 0.853.32 0.853 31 0.850 32 0.849 14 0.847 14 0.846 31 IR JR 43 28 27 44 43 22 43 30 11 30 45 30 29 12, 29 44 11 26 21 44 APLHGR Value Margin Exp. FT 7.99 0.764 22.5 15 7.98 0.763 22.6 15 7.80 0.755 29.8 14 8.04 0.748 23.8 14 8.02 0.747 23.9 14 7.67 0.745 30.2 14 7.69 0.742 29.2 14 7.61 0.737 29.8 14 7.56 0.731 29.7 14 7.49 0.726 29.8 14 IR JR K 43 34 12 33 10 12 7 28 5 41 18 12 35 12 12 25 8 5 11 26 5 27 42 6 9 30 5 29 44 5 Value 11.26 11.15 11.00 10.94 10.87 10.81 10.78 10.73 10.68 10.59 Margin 0.840 0.832 0.821 0.816 0.811 0.806 0.805 0.800 0.797 0.790 LHGR Exp. FT 1.3 32 1.3 32 1.3 32 1.3 31 1.3 32 1.2 32 1.2 31.1.2 30 1.2 32 1.2 30 IR JR 43 28 27 44 11 30 45 30 29 12 13 28 29 46 5 28 27 14 5 30 K 5 5 5 5 5 5 5 5 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.3 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-7 Cycle: Exposure:

MWd/MTU (GWd).Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr Core Average Exposure:

MWd/MTU 15121.3 1000.0 ( 99.91 500.0 ( 49.96 2923.0 (100.00 %)1044.5-20.61 80.46 (104.50 %)1 3 5 7 9 11 13 15 17 19 21 23 1 3 5 --------28 28-7 9 .. 28 -- 16 -- 14 -- 16 28 --13 14 16 14 15 17 ..28 16 -- 14 16 28 --19 21 28 -.....23 25 IR: 2 6 10 14 18 22 26 30 34 38 42 46 25 51 47 43 39-- 35 31 27 23-- 19 15 11 7 3 50 Axial Profile N(PRA) Power Exposure Top 25 0.114 2.470 24 0.390 7.228 23 0.542 10.185 22 0.653 12.813 21 0.749 14.556:JR 20 0.834 15.507 19 0.913 15.966 18 0.983 16.137 17 1.037 16.158 16 1.091 15.170 15 1.145 15.390 14 1.255 15.539 13 1.305 16.045 12 1.343 16.564 11 1.356* 17.022 10 1.338 17.436 9 1.331 17.876 8 1.334 18.422 7 1.337 19.016 6 1.333 19.569 5 1.306 19.916*4 1.234 19.630 3 1.078 17.771 2 0.795 13.286 Bottom 1 0.205 3.625 Edit Radial Power Zone Avg. Max. IR JR 10 0.524 0.627 39 48 11 0.493 0.599 21 2 12 0.581 0.733 9 46 14 1.120 1.236 11 26 15 1.018 1.196 39 38 16 0.852 0.959 49 32 30 1.048 1.214 39 40 31 1.102 1.187 37 38 32 1.138 1.206 41 24 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 6.93 1.00160 0.485 31.914 27.364 548.4 67.30 16.4-0.0 0.00039% AXIAL TILT -18.084 -11.490 AVG BOT 8ft/12ft 1.1323 1.0562 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.30 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT 1.236 14 1.225 14 1.214 30 1.212 14 1.211 14 1.206 32 1.206 14 1.205 14 1.204 14 1.202 32 IR JR 11 26 27 42 39 40 43 24 39 24 41 24 29 44 41 22 29 40 43 26 Value 1.552 1.564 1.566 1.572 1.574 1.575 1.579 1.587 1.587 1.590 MCPR Margin FT 0.870 32 0.863 31 0.862 32 0.859 14 0.858 31 0.857 32 0.855 32 0.851 14 0.850 31 0.849 14 IR JR 43 28 43 22 27 44 43 30 45 30 11 30 29 12 29 44 21 44 11 26 APLHGR Value Margin Exp. FT 8.07 0.773 23.4 15 8.06 0.772 23.4 15 8.09 0.757 24.6 14 8.07 0.755 24.7 14 7.69 0.749 30.6 14 7.57 0.739 31.0 14 7.64 0.738 29.4 14 7.52 0.733 30.6 14 7.49 0.727 30.1 14 7.44 0.722 30.1 14 IR JR K 43 34 12 33 10 12 41 18 12 35 12 12 7 28 5 25 8 5 11 26 6 27 42 6 43 24 6 23 10 6 Value 11. 11 10.99 10.86 10.79 10.73 10.67 10.64 9.24 10.60 10.60 LHGR Margin Exp. FT 0.829 2.5 32 0.820 2.5 32 0.810 2.5 32 0.805 2.5 31 0.801 2.5 32 0.796 2.4 32 0.794 2.4 31 0.794 31.5 15 0.791 2.3 31 0.791 2.4 30 IR JR 43 28 27 44 11 30 45 30 29 12 13 28 29 46 43 20 11 20 5 28 K 5 5.5 5 5 5 5 12 12 5* LHGR calculated with pin-power reconstruction" CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.4 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 1,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-8 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 1500.0 ( 149.87 500.0 ( 49.96 2923.0 (100.00 1044.5-21.31 78.15 (101.50)Core Average Exposure:

MWd/MTU 15621.2 1 3 5 7 9 11 13 15 17 19 21 23 25 1 3 - 28 -- --7 9 .. 28 16 14 11 13 14 16 15 17 ..28 16 -- 14 19 21 28 23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:, Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 28- .. .. ..-- 16 -- 28 ....-- 14-- 16 -- 28 ....28 30 34 38 42 46 50 6.93 1.00117 0.488 30.472 25.923 548.4 65.31 Active 16.4 (of tol-0.0 (of tol 0.00039 Axial Profile N(PRA) Power Exposure Top 25 0.116 2.541 24 0.396 7.437 23 0.550 10.476 22 0.661 13.165 21 0.757 14.960 51 :JR 20 0.842 15.957 47 19 0.920 16.458 43 19 0.989 16.668 39 17 1.043 16.717 35 16 1.097 15.735 31 15 1.151 15.983 27 14 1.261 16.130 23 13 1.311 16.660 19 12 1.347 17.197 15 11 1.359" 17.661 11 10 1.338 18.066 7 9 1.329 18.503 3 8 1.328 19.051 7 1.327 19.645 6 1.319 20.197 5 1.290 20.531*4 1.218 20.212 3 1.062 18.279 2 0.785 13.660 Bottom 1 0.203 3.722% AXIAL TILT -17.401 -11.504 AVG BOT Bft/12ft 1.1288 1.0573 Edit Radial Power Zone Avg. Max. IR JR 10 0.522 0.625 39 48 11 0.490 0.596 21 2 12 0.578 0.730 9 46 14 1.117 1.231 11 26 15 1.016 1.194 39 38 16 0.848 0.954 49 32 30 1.050 1.217 39 40 31 1.107 1.192 37 38 32 1.142 1.210 41 24 Channel Flow: Mlb/hr tal core flow)tal core flow)65.31 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.231 14 11 26 1.220 14 27 42 1.217 30 39 40 1.210 32 41 24 1.207 14 39 24 1.207 14 43 24 1.205 32 43 26 1.204 32 29 42 1.201 14 41 22 1.201 14 29 44 MCPR Value Margin FT 1.537 0.878 32 1.550 0.871 31 1.551 0.870 32 1.559 0.866 31 1.561 0.865 32 1.562 0.864 14 1.565 0.863 32 1.575 0.857 31 1.576 0.857 31 1.578 0.856 14 IR JR 43 28 43 22 27 44 45 30 11 30 43 30 29 12 21 44 29 46 29 44 APLHGR Value Margin Exp. FT 8.08 0.776 24.2 15 8.06 0.775 24.3 15 8.08, 0.759 25.4 14 8.06 0.758 25.5 14 7.56 0.741 31.4 14 7.53 0.732 30.2 14 7.44 0.731 31.7 14 7.42 0.727 31.4 14 7.39 0.721 30.9 14 7.34 0.716 30.9 14 IR JR K 43 34 12 33 10 12 41 36 12 35 12 12 7 28 5 11 26 6 25 8 5 27 42 6 43 24 6 23 10 6 Value 10.90 10.79 10.66 9.17 9.06 10.59 10.55 10.54 10.54 10.48 LHGR Margin Exp. FT 0.813 3.8 32 0.805 3.7 32 0.796 3.7 32 0.795 32.5 15 0.791 33.1 15 0.791 3.7 31 0.788 3.5 31 0.787 3.6 32 0.786 3.5 31 0.782 3.6 32 IR JR 43 28 27 44 11 30 43 20 19 44 45 30 11 20 29 12 19 12 13 28 K 5 5 5 12 12 5 12 6 12 6* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.5 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 1,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-9 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)P6wer: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 2000.0 ( 199.82 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.67 77.00 (100.00 %)Core Average Exposure:

MWd/MTU 16121.2 1 3 5 7 9 1 -3 5 -------- 28 7 9 28 16 11 13 14 15 17 28 16 19 21 .--.-- --28 23 25 IR: 2 6 10 14 18 11 22 13 15 17 19 21 23 25.. 28 --------14 -- 16 28 ....16 -- 14 14 -- 16 28 ......- .. .. ..26 30 34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.119 2.613* -24 0.405 7.650 23 0.562 10.772 22 0.672 13.522 21 0.767 15.368:JR 20 0.851 16.411 19 0.927 16.954 18 0.995 17.201 17 1.048 17.280 16 1.102 16.302 15 1.155 16.579 14 1.267 16.724 13 1.316 17.277 12 1.351 17.832 11 1.360- 18.301 10 1.337 18.696 9 1.325 19.129 8 1.321 19.676 7 1.317 20.271 6 1.306 20.819 5 1.274 21.139*4 1.200 20.785 3 1.047 18.779 2 0.775 14.030 Bottom 1 0.202 3.819 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.519 0.623 39 48 0.487 0.592 21 2 0.574 0.726 9 46 1.114 1.226 11 26 1.014 1.193 39 38 0.846 0.951 49 32 1.052 1.221 39 40 1.111 1.196 37 38 1.147 1.214 41 24 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 6.93 1.00086 0.488 29.747 25.199 548.3 64.32 16.5-0.0 0.00040% AXIAL TILT -16.652 -11.496 AVG BOT Bft/12ft 1.1246 1.0582 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)64.32 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.226 14 11 26 1.221 30 39 40 1.216 14 27 42 1.214 32 41 24 1.209 32 43 26 1.208 32 29 42 1.204 14 39 24 1.203 14 43 24 1.201 32 27 44 1.199 32 39 26 MCPR Value Margin FT 1.532 0.881 32 1.545 0.874 31 1.547 0.873 32 1.554 0.869 31 1.556 0.867 32 1.560 0.865 32 1.561 0.865 14 1.571 0.860 31 1.571 0.859 31 1.575 0.857 30 IR JR 43 28 43 22 27 44 45 30 11 30 29 12 43 30 21 44 29 46 39 14 APLHGR Value Margin Exp. FT 8.08 0.779 25.1 15 8.07 0.778 25.1 15 8.07 0.762 26.2 14 8.04 0.761 26.4 14 7.44 0.733 32.2 14 7.36 0.727 32.4 14 7.38 0.725 31.8 14 7.32 0.722 32.1 14 7.62 0.717 25.5 14 7.29 0.716 31.7 14 IR JR K 43 34 12 33 10 12 41 36 12 35 12 12 7 28 5 41 26 6 25 8 6 27 42 6 41 22 12 43 24 6 LHGR Value Margin Exp. FT 10.71 0.799 5.0 32 9.11 0.797 33.4 15 8.99 0.792 34.1 15 10.59 0.791 4.9 32 10.51 0.785 4.6 31 10.50 0.784 4.6 31 10.48 0.782 4.9 32 10.41 0.777 4.8 31 10.38 0.775 4.8 32 10.32 0.770 4.7 32 IR JR K 43 28 5 43 20 12 19 44 12 27 44 5 11 20. 12 19 12 12 11 30 5 45 30 5 29 12 6 13 28 6* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.6 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 2,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0.Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-10 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lb Flow: Mlb/hr 13 5 7 9 11 1 3 5 ....- .28 --7 9 .. 28 16 --11-----------

13 14 --15 17 ..28 16 --19 21 -- -----28 --23 25 IR: 2 6 10 14 18 22 19 2500.0 ( 249.78 500.0 ( 49.96 2923.0 (100.00%)1044.5 m -21.92 76.23 ( 99.00 %)13 15 17 19 21 23 25 51 47.. 28 -------- 43 39 14 -- 16 -- 28 .... 35--31 16 -- 14 27--23 14 -- 16 -- 28 ..19 15..28- ... ..- 11 7 3 26 30 34 38 42 46 50 N (PRA)Top 25 24 23 22 21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Bottom 1 Core Average Exposure:

MWd/MTU 16621.2 Axial Profile Edit Radial Power Power Exposure Zone Avg. Max. IR JR 0.123 2.687 10 0.517 0.621 39 48 0.415 7.868 11 0.484 0.588 21 2.0.574 11.074 12 0.571 0.723 9 46 0.683 13.884 14 1.111 1.222 11 26 0.777 15.782 15 1.012 1.191 39 38 0.860 16.870 16 0.843 0.947 49 32 0.935 17.455 30 1.054 1.225 39 40 1.002 17.739 31 1.116 1.201 37 38 1.054 17.845 32 1.151 1.219 41 24 1.106 16.873 1.159 17.177 1.272 17.321 1.320 17.897 1.353 18.468 1.361* 18.941 1.336 19.326 1.321 19.754 1.314 20.298 1.307 20.891 1.293 21.434 1.258 21.739*1.182 21.351 1.030 19.273 0.764 14.395 0.200 3.916 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow %): Total Water Rod Flow (%): Source Convergence 6.93 1.00063 0.487 29.259 24.712 548.3% AXIAL TILT -15.870 -11.465 AVG BOT Bft/12ft 1.1201 1.0589 63.67 Active Channel Flow: Mlb/hr 16.5 (of total core flow)-0.0 (of total core flow)0.00047 63.67 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.225 30 39 40 1.222 14 11 26 1.219 32 41 24 1.213 32 43 26 1.212 32 29 42 1.212 14 27 42 1.205 32 27 10 1.204 32 39 26 1.201 31 37 38 1.200 14 39 24 MCPR Value Margin FT 1.531 0.882 32 1.545 0.874 31 1.546 0.873 32 1.553 0.870 31 1.556 0.867 32 1.559 0.866 32 1.565 0.863 14 1.570 0.860 31 1.571 0.85931 1.572 0.859 30 IR JR 43 28 43 22 27 44 45 30 11 30 29 12 43 30 29 46 21 44 39 14 APLHGR Value Margin Exp. FT 8.08 0.781 25.9 15 8.06 0.779 26.0 15 8.04 0.764 27.1 14 8.02 0.763 27.2 14 7.33 0.727 33.0 14 7.33 0.723 32.3 14 7.29 0.721 32.5 14 7.61 0.719 26.3 14 7.30 0.718 32.0 14 7.37 0.716 27.4 15 IR JR K 43 34 12 33 10 12 41 36 12 35 12 12 7 28 5 41 26 7 25 8 6 41 22 12 25 12 7 37 14 12 Value 9.04 8.91 10.52 10.45 10.44 10.41 10.31 10.24 10.23 8.67 LHGR Margin Exp. FT 0.799 34.4 15 0.793 35.0 15 0.785 6.1 32 0.780 5.8 31 0.779 5.8 31 0.777 6.1 32 0.769 5.9 32 0.764 5.9 32 0.763 6.0 31 0.760 33.4 14 IR JR K 43 20 12 19 44 12 43 28 5 11 20 12 19 12 12 27 44 5 11 30 6 29 12 6 45 30 5 35 12 12* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.7 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 2,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page A-11 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 3000.0 ( 299.73 499.0 ( 49.86 2923.0 (100.00 %)1044.5-20.84 79.69 (103.50 6)Core Average Exposure:

MWd/MTU 17121.3 1 3 5 7 9 11 13 15 17 19 21 23 25 1 3 5- -14* 7 9 14 -- 22 --13 --- ----- 32 -- 14 --15---------------------

17 ......-14 -- 22 --19 21 14 23 25",IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 14 22 14 14 32 .. ..22 14 14 51 47 43 39 35 31-- 27 23-19 15 11 7 N (PP Top 2 2 2 2 2:JR 2 Bottom Axial Profile LA) Power Exposure:5 0.130 2.766:4 0.438 8.098:3 0.602 11.391:2 0.710 14.260 1 0.799 16.206:0 0.872 17.335.9 0.933 17.953 8 0.981 18.264.7 1.005 18.384.6 1.049 17.414.5 1.091 17.740.4 1.184 17.877.3 1.209 18.466.2 1.240 19.052.1 1.273 19.542.0 1.304 19.942 9 1.328 20.382 8 1.341 20.934 7 1.351 21.533 6 1.353* 22.078 5 1.334 22.375*4 1.273 21.958 3 1.127 19.810 2 0.847 14.798 1 0.225 4.023 Edit Radial Power Zone Avg. Max. IR JR 10 0.510 0.617 39 48 11 0.479 0.571 49 38 12 0.559 0.722 9 46 14 1.107.1.238 35 24 15 1.021 1.214 43 34 16 0.840 0.970 49 32 30 1.053 1.229 39 40 31 1.139 1.271 35 26 32 1.123 1.242 43 26 30 34 38 42 46 50 7.24 0.99927 0.487 31.435 26.885 548.5 66.64 Active 16.4 (of tot-0.0 (of tot 0.00049 3% AXIAL TILT -17.663 -11.491 AVG BOT Bft/12ft 1.1176 1.0595 Channel Flow: Mlb/hr al core flow)al core flow)66.64 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.271 31 35 26 1.252 31 33 30 1.249 31 43 32 1.242 32 43 26 1.241 32 41 24 1.241 31 27 32 1.238 14 35 24 1.234 31 35 32 1.231 14 11 26 1.229 30 39 40 MCPR Value Margin FT 1.545 0.874 32 1.565 0.863 14 1.577 0.856 31 1.579 0.855 14 1.593 0.847 32 1.596 0.846 14 1.596 0.846 31 1.617 0.835 31 1.637 0.825 32 1.637 0.824 14 IR JR 43 28 43 30 45 30 11 26 11 30 45 28 35 28 43 32 37 30 11 22 APLHGR Value Margin Exp. FT 8.41 0.813 29.4 14 8.00 0.797 30.6 15 7.69 0.784 33.4 15 7.80 0.775 33.3 14 7.77 0.775 33.8 14 7.82 0.772 29.5 15 7.90 0.768 30.4 14 8.21 0.76B 27.1 14 7.50 0.765 33.5 15 7.39 0.764 35.0 15 IR JR K 37 28 10 43 34 5 39 42 5 45 22 5 7 28 5 43 38 5 41 26 10 31 20 15 37 40 5 11 40 5 Value Margin 11.26 0.840 11.13 0.831 11.12 0.830 11.05 0.825 10.95 0.817 9.42 0.810 10.82 0.808 10.79 0.805 10.79 0.805 10.78 0.805 LHGR Exp. FT 6.7 32 6.9 31 5.3 31 7.1 31 7.4 32 31.5 14 5.7 30 7.0 30 5.4 31 5.3 31 IR JR 13 28 43 22 43 36 45 30 43 28 37 28 45 20 5.28 35 28 35 44 K 10 5 5 5 5 10 5 5 10 5* LHGR calculated with pin-power reconstruction" CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.8 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 3,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-12 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 3500.0 ( 349.69 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.19 78.54 (102.00 %)Core Average Exposure:.MWd/MTU 17621.3 1 3 5 7 9 11 13 15 17 19 21 23 25 1 3 5 14 7 9 .. .. ..-14 22 --13 .. .. ..-32 14 --15-----17 .. .. ..- 14 22 --19 21 14 23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 14 22 -- 14 -...14 -- 32 ....22 -- 14 ....14------------

51 47 43 39-- 35 31-- 27 23-- 19 15 11-7 N (PRA)Top 25 24 23 22 21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Axial Profile Power Exposure 0.135 2.847 0.451 8.333 0.617 11.715 0.724 14.643 0.812 16.637 0.884 17.806 0.943 18.457 0.989 18.793 1.011 18.927 1.053 17.957 1.094 18.305 1.187 18.434 1.211 19.036 1.241 19.636 1.271 20.141 1.300 20.556 1.322 21.008 1.333 21.566 1.341* 22.170 1.340 22.715 1.319 23.003*1.255 22.558 1.110 20.341 0.835 15.198 0.222 4.131-16.771 -11.491 1.1120 1.0599/hr 65.66 Edit Radial Power Zone Avg. Max. IR 10 0.507 0.615 39 11 0.476 0.567 49 12 0.556 0.718 9 14 1.104 1.234 35 15 1.019 1.210" 43 16 0.837 0.965 49 30 1.055 1.232 39 31 1.143 1.273 35 32 1.128 1.246 43 JR 48 38 46 24 34 32 40 26 26 30 34 38 42 46 50 3 7.24 0.99894 Bottom 1 0.487 30.692 % AXIAL TILT 26.143 AVG BOT Bft/12ft 548.4 65.66 Active Channel Flow: Mlb/16.4 (of total core flow)-0.0 (of total core flow)0.00050 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.273 31 35 26 1.256 31 33 30 1.251 31 43 32 1.246 32 43 26 1.245 32 41 24 1.244 31 27 32 1.238 31 35 32 1.234 14 35 24 1.232 30 39 40 1.228 32 37 24 MCPR Value Margin FT 1.543 0.875 32 1.569 0.860 14 1.575 0.857 31 1.584 0.852 14 1.593 0.848 32 1.601 0.843 14 1.606 0.841 31 1.612 0.838 31 1.635 0.825 32 1.640 0.823 31ýIR JR 43 28 43 30 45 30 11 26 11 30 45 28 35 28 43 32 37 30 27 32 Value 8.33 7.87 7.58 7.70 7.66 8.17 7.83 7.70 8.09 7.59 APLHGR Margin Exp. FT 0.809 30.3 14 0.789 31.4 15 0.778 34.2 15 0.771 34.1 14 0.770 34.6 14 0.770 27.9 14 0.766 31.2 14 0.766 30.3 15 0.765 28.4 14 0.760 34.1 14 IR JR K 37 28 10 43 34 5 39 42 5 45 22 5 7 28 5 31 20 15 41 26 10 43 38 5 29 18 15 43 24 6 Value Margin 11.12 0.830 10.94 0.816 10.90 0.814 10.86 0.811 9.32 0.808 10.77 0.804 10.63 0.794 10.63 0.794 10.63 0.793 8.60 0.793 LHGR Exp. FT 7.9 32 8.2 31 6.5 31 8.3.31 32.5 14 8.6 32 6.6 31 8.1 30 6.9 30 38.5 15 IR JR K 13 28 10 43 22 5 43 36 5 45 30 5 37 28 10 43 28 5 35 28 10 5 28 5 45 20 5 43 20 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.9 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 3,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-13 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 14 7 9 -------- 14 -- 22 --11 13 -------- 32 -- 14 --15 17 -------- 14 22 --19 21 14 --23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-F: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 19 4000.0 ( 399.64 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.43"77.77 (101.00 %)5 17 19 21 23 25 51 47 Core Average Exposure:

MWd/MTU 18121.3 31.=14----------- - 14--. .. ..-14 -- 32--. .. ..-22 -- 14--. .. ..-14 30 34 38 42 46 50 7.24 0.99855 0.487 30.199 25.651 548.4 65.01 Active 16.4 (of tot-0.0 (of tot 0.00046 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.139 2.930 24 0.462 8.576 23 0.630 12.047 22 0.736 15.034 21 0.823 17.075:JR 20 0.893 18.283 19 0.951 18.966 18 0.995 19.326 17 1.016 19.472 16 1.056 18.502 15 1.095 18.871 14 1.188 18.993 13 1.211 19.606 12 1.239 20.221 11 1.268 20.740 10 1.296 21.169 9 1.317 21.631 8 1.326 22.194 7 1.333* 22.802 6 1.331 23.347 5 1.307 23.625*4 1.243 23.149 3 1.097 20.864 2 0.826 15.591 Bottom 1 0.221 4.237 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.505 0.613 39 48 0.473 0.563 49 38 0.553 0.715 9 46 1.102 1.231 35 24 1.016 1.207 43 34 0.833 0.960 49 32 1.057 1.235 39 40 1.147 1.277 35 26 1.133 1.251- 43 26% AXIAL TILT -16.065 -11.466 AVG BOT Bft/12ft 1.1074 1.0601 Channel Flow: Mlb/hr tal core flow)tal core flow)65.01 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT 1.277 31 1.260 31 1.256 31 1.251 32 1.251 32 1.247 31 1.242 31 1.235 30 1.233 32 1.232 31 IR JR 35 26 33 30 43 32 43 26 41 24 27 32 35 22 39 40.137 24 45 24 MCPR Value Margin FT 1.541 0.876 32 1.574 0.858 14 1.575 0.857 31 1.589 0.849 14 1.593 0.847 32 1.593 0.847 31 1.605 0.841 14 1.608 0.840 31 1.619 0.834 32 1.625 0.831 31 IR JR 43 28 43 30 45 30 11 26 11 30 35 26 45 28 43 32 37 30 27 32 Value 8.25 7.78 7.50 8.12 7.62 7.58 8.04 7.78 7.62 7.53 APLHGR Margin Exp. FT 0.807 31.2 14 0.785 32.3 15 0.775 35.0 15 0.771 28.8 14 0.769 34.9 14 0.768 35.4 14 0.766 29.2 14 0.766 32.0 14 0.762 31.1 15 0.759 34.9 14 IR JR K 37 28 10 43 34 5 39 42 5 31 20 15 45 22 5 7 28 5 29 18 15 41 26 10 43 38 5 43 24 6 Value Margin 11.01 0.821 9.23 0.809 10.79 0.805 10.73 0.801 10.72 0.800 10.64 0.794 8.55 0.791 8.47 0.789 10.52 0.785 10.51 0.784 LHGR Exp. FT 9.1 32 33.4 14 9.4 31 7.7 31 9.5 31 9.7 32 38.8 14 39.4 15 9.3 30 7.8 31 IR JR 13 28 37 28 43 22 43 36 45 30 43 28 11 28 43 20 5 28 35 28 K 10 I0 5 5 5 5 10 5 5 10* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.10 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 4,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-14 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 1-3 5 14 7 9 .. .. ..- 14 22 13 -------- 32 14 15- -----17 .. .. ..- 14 22 19 21 14 23 25 IR: 2 6 10 14 18 22 13 26 19 4500.0 500.0 2923.0 1044.5-21.67 77.00 15 17 19 14 22 -- 14 14 -- 32 22 -- 14 14 30 34 38 449.60 49.96 (100.00 %)(100.00 %)21 23 25 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Core Average Exposure:

MWd/MTU 18621.2 Axial Profile N(PRA) Power Exposure Top 25 0.143 3.017 24 0.473 8.825 23 0.643 12.386 22 0.748 15.432 21 0.833 17.519:JR 20 0.902 18.764 19 0.958 19.479 18 1.000 19.863 17 1.019 20.020 16 1.057 19.049 15 1.095 19.438 14 1.187 19.553 13 1.210 20.177 12 1.237 20.804 11 1.265 21.337 10 1.291 21.779 9 1.312 22.252 8 1.321 22.819 7 1.327* 23.430 6 1.323 23.974 5 1.299 24.241*4 1.233 23.734 3 1.087 21.381 2 0.819 15.980 Bottom 1 0.220 4.342 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.502 0.611 39 48 0.470 0.559 49 38 0.550 0.711 9 46 1.100 1.227 35 24 1.013 1.203 43 34 0.830 0.955 49 32 1.058 1.239 39 40 1.152 1.281 35 26 1.138 1.257 43 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 7.24 0.99824 0.487 29.713 25.166 548.4 64.36 16.4-0.0 0.00050 ,% AXIAL TILT -15.450 -11.424 AVG BOT 8ft/12ft 1.1032 1.0603 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)64.36 Top Ten Thermal Limits Summary -Sorted.by Margin Power Value FT 1.281 31 1.264 31 1.260 31 1.257 32 1.256 32 1.251 31 1.247 31 1.239 32 1.239 30 1.236 31 IR JR 35 26 33 30 43 32 43 26 41 24 27 32 35 22 37 24 39 40 45 24 Value 1.541 1.575 1.577 1.579 1.594 1.595 1.603 1.604 1.610 1.610 MCPR Margin FT 0.876 32 0.857 31 0.856 31 0.855 14 0.847 32 0.846 14 0.842 32 0.842 31 0.839 31 0.838 14 IR JR 43 28 45 30 35 26 43 30 11 30 11 26 37 30 43 32 27 32 45 28 APLHGR Value Margin Exp. FT 8.18 0.806 32.1 14 7.70 0.783 33.1 15 7.43 0.773 35.8 15 8.07 0.772 29.7 14 7.99 0.768 30.1 14 7.55 0.767 35.7 14 7.52 0.767 36.2 14 7.73 0.766 32.9 14 7.54 0.759 31.9-15 7.47 0.759 35.6 14 IR JR K 37 28 I0 43 34 5 39 42 5 31 20 15 29 18 15 45 22 5 7 28 5 41 26 10 43 38 5 43 24 6 LHGR Value Margin Exp. FT 10.89 0.813 10.3 32 9.15 0.809 34.4 14 10.65 0.795 10.5 31 8.48 0.792 39.7 14 10.58 0.790 10.7 31 10.58 0.789 8.9 31 8.36 0.785 40.2 15 10.51 0.784 10.9 32 10.41 0.777 10.4 30 10.38 0.775 8.9 31 IR JR K 13 28 10 37 28 10 43 22 5 11 28 10 45 30 5 43 36 5 43 20 5 43 28 5 5 28 5 35 28 10* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.11 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 4,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-15 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 5000.0 C 499.55 500.0 49.96 2923.0 (100.00 %)1044.5-21.92 76.23 ( 99.00 %)Core Average Exposure:.MWd/MTU 19121.3 1 3 5 7 9 11 5 14 7 9 .. .. ..- 14 22 13 .. .. ..-32 14 15------17 -------- 14 22 19 21 14 23 25 IR: 2 6 10 14 18 22 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F.In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 13 15 17 19 21 23 25-- 14 22 -- 14-- .....-- 14 -- 32-.. .. ..-- 22 -- 14-.. .. ..14------------

26 30 34 38 42 46 50 7.24 0.99795 0.487 29.234.24.687 548.3 63.70 Active 16.4 (of tot-0.0 (of tot 0.00030 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile NJ(PRA) Power Exposure Top 25 0.147 3.105 24 0.484 9.079 23 0.656 12.732 22 0.759 15.835 21 0.842 17.968:JR 20 0.910 19.251 19 0.965 19.996 18 1.005 20.403 17 1.022 20.570 16 1.057 19.596 15 1.093 20.004 14 1.185 20.112 13 1.207 20.746 12 1.233 21.387 11 1.261 21.933 10 1.287 22.387 9 1.307 22.870 8 1.316 23.442 7 1.321* 24.055 6 1.317 24.597 5 1.292 24.852*4 1.225 24.315 3 1.079 21.893 2 0.813 16.366 Bottom 1 0.219 4.447 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.499 0.608 39 48 0.467 0.555. 49 38 0.546 0.707 9 46 1.098 1.224 35 24 1.010 1.200 43 34 0.826 0.950 49 32 1.060 1.242 39 40 1.157 1.285 35 26 1.144 1.263 43 26% AXIAL TILT -14.896 -11.367 AVG BOT 8ft/12ft 1.0991 1.0603 Channel Flow: Mlb/hr tal core flow)tal core flow)63.70 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.285 31 35 26 1.269 31 33 30 1.265 31 43 32 1.263 32 43 26 1.263 32 41 24 1.255 31 27 32 1.253 31 35 22 1.246 32 37 24 1.242 30 39 40 1.240 31 45 24 Value 1.540 1.560 1.575 1.583 1.587 1.595 1.595 1.599 1.600 1.610 MCPR Margin FT 0.877 32.0.865 31 0.857 31 0.853 14 0.851 32 0.847 31 0.846 32 0.844 31 0.844 14 0.839 31 IR JR 43 28 35 26 45 30 43 30 37 30 27 32 11 30 43 32 11 26 19 30 Value 8.12 7.63 8.01 7.37 7.94 7.47 7.50 7.70 7.43 7.47 APLHGR Margin Exp. FT 0.805 32.9 14 0.781 33.9 15 0.773 30.5 14 0.772 36.6 15 0.769 30.9 14 0.768 37.0 14 0.768 36.5 14.0.768 33.7 14 0.760 36.4 14 0.757 32.7 15 IR JR K 37 28 10 43 34 5 31 20 15 39 42 5 29 18 15 7 28 5 45 22 5 41 26 10 43 24 6 43 38 5 LHGR Value Margin Exp. FT 9.08 0.810 35.3 14 10.78 0.805 11.5 32 8.42 0.794 40.6 14 10.53 0.786 11.7 31 8.27 0.784 41.1 15 10.47 0.781 11.9 31 10.44 0.779 10.1 31 10.41 0.777 12.1 32 8.32 0.774 39.4 14 7.92 0.773 43.7 15 IR JR 37 28 13 28 11 28 43 22 43 20 45 30 43 36 43 28 45 22 13 12 K 10 10 10 5 5 5 5 5 5 6* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3" Thermal limit file: Figure A.12 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 5,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-16 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flowý Mlb/hr.19 5500.0 ( 549.51 499.0 ( 49.86 2923.0 (100.00 %)1044.5-21.07 78.93 (102.50 %)Core Average Exposure:

MWd/MTU 19621.2 1 3 5 7 9 11 13 15 17 19 1 3 5 7 ..24 --9 11 --13 15 17 19 21 23 25 IR: 2..16 --16..24 --6 10 14 18 16 10 10 16-- 16 -- 24-- 10 -- 16-- 10 -- 16-- 16 -- 24 21 23 25 51 47 43..-- 39 35-- -27-- -19..-- 15 11 7 Axial Profile N(PRA) Power Exposure Top 25 0.153 3.198 24 0.503 9.344 23 0.679 13.091 22 0.779 16.250 21 0.857 18.426:JR 20 0.915 19.741 19 0.956 20.509 18 0.998 20.939 17 1.032 21.126 16 1.053 20.142 15 1.081 20.566 14 1.171 20.665 13 1.198 21.313 12 1.212 21.960 11 1.230 22.515 10 1.254 22.981 9 1.279 23.475 8 1.302 24.058 7 1.320 24.679 6 1.325* 25.223 5 1.306 25.470*4 1.243 24.903 3 1.099 22.413 2 0.829 16.758 Bottom 1 0.224 4.554 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max'. IR JR 0.513 0.625 39 48 0.477 0.580 21 2 0.562 0.711 9 46 1.079 1.175 41 36 1.019 1.203 43 34 0.845 0.947 49 32 1.089 1.217 45 34 1.161 1.250 43 32 1.093 1.225 43 28 22 26 30 34 38 42 46 50 3 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 7.66 0.99733 0.483 30.835 26.286 548.4 66.05 16.3-0.0 0.00034% AXIAL TILT -14.482 -11.300 AVG BOT 8ft/12ft 1.0944 1.0602 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)66.05 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.250 31 43 32 1.241 31 41 34 1.238 31 31 44 1.233 31 33 42 1.227 31 45 30 1.225 32 43 28 1.225 31 43 36 1.221 31 39 36 1.220 31 35 36 1.217 30 45 34 MCPR Value Margin FT 1.670 0.809 31 1.674 0.807 30 1.686 0.801 31 1.694 0.797 32 1.695 0.797 31 1.703 0.793 31 1.704 0.792 31 1.706 0.791 31 1.70B 0.791 31 1.709 0.790 32 IR JR 45 30 45 20 43 36 43 26 43 22 35 44 39 36 29 46 31 10 11 30 APLHGR Value Margin Exp. FT 7.49 0.771 34.7 15 7.38 0.763 37.6 14 7.46 0.763 33.8 15 7.38 0.761 37.3 14 7.62 0.749 31.0 15 7.56 0.744 31.3 15 7.18 0.744 37.8 14 7.28 0.744 36.3 14 7.22 0.744 37.2 14 7.19 0.731 35.8 14 IR JR 43 34 45 26 33 44 45 22 37 14 39 16 43 24 31 46 25 8 29 44 K 5 5 5 5 15 15 5 5 5 5 Value 10.37 8.07 8.18 10.29 10.26 8.11 10.24 10.18 10.18 10.16 LHGR Margin Exp: FT 0.774 10.6 31 0.772 41.9 15 0.768 40.3 14 0.768 12.8 31 0.766 13.2 32 0.765 40.6 14 0.764 13.0 31 0.760 12.6 30 0.760 11.1 31 0.758 12.5 30 IR JR 21 44 43 20 45 22 43 22 43 28 45 28 45 30 47 26 29 46 47 24 K 5 5 5 5 5 5 5 5 5 5" LHGR calculated with pin-power reconstruction" CPR calculated with pin-power reconstruction

& CPR limit type 3" Thermal limit file: Figure A.13 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 5,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-17 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm-Flow: Mlb/hr 19 6000.0 ( 599.46 500.0 ( 49.96 2923.0 (100.00.%)

1044.5-21.55 77.39 (100.50 %)Core Average Exposure:

MWd/MTO 20121.2 1 3 5 7 9 11 13 15 17 19 1 3 5 7 .. 24 16 16 24 9 11ii ..... 16 10 10 16 13--- ------15 -------- 16 10 10 16 17--- --------19 ..24 16 16 24 21 23 25 IR: 2 6 10 14 18 22 26 30 34 38 21 23 25 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.156 3.293.24 0.513 9.615 23 0.690 13.456 22 0.788 16.670 21 0.864 18.888:JR 20 0.920 20.234 19 0.960 21.025 18 1.000 21.478 17 1.031 21.683 16 1.051 20.687 15 1.076 21.125 14 1.165 21.217 13 1.192 21.877 12 1.205 22.531 11 1.223 23.095 10 1.248 23.572 9 1.273 24.078 8 1.297 24.672 7 1.316 25.301 6 1.323* 25.848 5 1.306 26.085*4 1.244 25.489 3 1.100 22.930 2 0.831 17.149 Bottom 1 0.225 4.661 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.510 0.622 39 48 0.473 0.575 21 2 0.558 0.707 9 46 1.077 1.171 41 36 1.015 1.198 43 34 0.840 0.942 49 32 1.090 1.219 45 34 1.166 1,255 43 32 1.099 1.232 43 28 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 7.66 0.99687 0.485 29.894 25.346 548.4 64.72 16.4-0.0 0.00041% AXIAL TILT -14.177 -11.225 AVG BOT 8ft/12ft 1.0914 1.0600 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)64.72 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.255 31 43 32 1.246 31 41 34 1.242 31 31 44 1.237 31 33 42 1.232 32 43 28 1.232 31 45 30 1.228 31 43 36 1.225 31 39 36 1.224 31 35 36 1.219 30 45 34 MCPR Value Margin FT 1.663 0.812 31 1.664 0.811 32 1.668 0.810 30 1.668 0.809 31 1.679 0.804 31 1.679 0.804 31 1.683 0.802 32 1.687 0.800 31 1.688 0.800 31 1.688 0.800 31 IR JR 45 30 43 26 45 20 43 32 43 36 39 36 11 30 35 36 35 40 31 44 Value 7.45 7.37 7.36 7.42 7.17 7.55 7.19 7.25 7.48 7.15 APLHGR Margin Exp. FT 0.773 35.5 15 0.768 38.3 14 0.764 38.0 14 0.763 34.6 15 0.749 38.6 14 0.746 31.8 15 0.746 37.9 14 0.746 37.1 14 0.742 32.1 15 0.732 36.5 14 IR JR K 43 34 5 45 26 5 45 22 5 33 44 5 43 24 5 37 14 15 25 8 5 31 46 5 39 16 15 29 44 5 Value 8.01 8.15 8.09 10.27 10.22 10.21 7.71 10.17 10.15 7.62 LHGR Margin Exp. FT 0.773 42.8 15 0.773 41.1 14 0.770 41.4 14 0.767 11.7 31 0.763 14.0 31 0.762 14.3 32 0.759 44.6 14 0.759 14.1 31 0.757 13.7 30 0.756 45.2 15 IR JR K 43 20 5 45 22 5 45 28 5 21 44 5 43 22 5 43 28 5 43 30 5 45 30 5 47 26 5 45 36 6* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.14 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 6,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-18 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/Ibm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 7 .. 24 16 --9 11 16 10 --13-----15 .. .. ..-16 10 --17-----19 ..24 16 --21 23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%).Total Water Rod Flow (%): Source Convergence 19 6500.0 ( 649.42 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.92 76.23 ( 99.00 %)Core Average Exposure:

MWd/MTU 20621.3 15 16 10 10 16 30 17 19 21 23 25-- 24 -- ----16 ---------- 16-- ------24 34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.160 3.390 24 0.524 9.891 23 0.701 13.827 22 0.797 17.095 21 0.872 19.354:JR 20 0.926 20.731 19 0.964 21.543 18 1.002 22.017 17 1.b31 22.239 16 1.048 21.231 15 1.072 21.683 14 i.160 21.766 13 1.185 22.439 12 1.198 23.099 11 1.217 23.671 10 1.241 24.159 9 1.268 24.678 8 1.293 25.283 7 1.313 25.921 6 1.321" 26.471 5 1.305 26.700*4 1.245 26.075 3 1.100 23.449 2 0.831 17.540 Bottom 1 0.226 4.769 Edit Radial Power Zone Avg. Max. IR JR 10 0.507 0.619 39 48 11 0.470 0.571 21 2 12 0.554 0.702 9 46 14 1.075 1.168 43 30 15 1.011 1.195 43 34 16 0.835 0.936 49 32 30 1.092 1.222 45 34 31 1.171 1.260 43 32 32 1.106 1.240 43 28 7.66 0.99660 0.487 29.195 % AXIAL TILT -13.24.648 AVG BOT 8ft/12ft 1.0 548.4 63.72 Active Channel Flow: Mlb/hr 16.4 (of total core flow)-0.0 (of total core flow)0.00046.859 -11.146)883 1.0597 63.72 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.260 31 43 32 1.250 31 41 34 1.246 31 31 44 1.241 31 33 42 1.240 32 43 28 1.237 31 45 30 1.231 31 43 36 1.230 31 35 36 1.229 31 39 36 1.222 30 45 34 MCPR Value Margin FT 1.639 0-824 32 1.645 0.821 31 1.659 0.814 31 1.660 0.813 31 1.662 0.812 32 1.664 0.811 30 1.665 0.811 31 1.666 0.810 31 1.666 0.810 31 1.669 0.809 32 IR JR 43 26 43 32 39 36 45 30 11 30 45 20 35 36 35 40 31 44*25 10 APLHGR Value Margin Exp. FT 7.42 0.775 36.3 15 7.37 0.773 39.1 14 7.35 0.769 38.8 14 7.37 0.764 35.3 15 7.17 0.754 39.3 14 7.17 0.749 38.7 14 7.22 0.749 37.8 14 7.48 0.744 32.6 15 7.42 0.740 32.9 15 7.13 0.735 37.3 14 IR JR K 43 34 5 45 26 5 45 22 5 33 44 5 43 24 5 25 8 5 31 46 5 37 14 15 39 16 15 29 44 5 Value 8.13 8.07 7.95 7.69 10.19 10.17 10.16 7.57 7.77 10.13 LHGR Margin Exp. FT 0.778 41.9 14 0.775 42.3 14 0.775 43.6 15 0.764 45.4 14 0.760 12.8 31 0.759 15.4 32 0.758 15.1 31 0.757 46.0 15 0.756 43.5 15 0.756 14.8 30 IR JR 45 22 45 28 43 20 43 30 21 44 43 28 43 22 45 36 33 44 47 26 K 5 5 5 5 5 5 5 6 5 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.15 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 6,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-19 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/Ibm Flow: Mlb/hr 19 7000.0 ( 699.37 499.0 ( 49.86 2923.0 (100.00 %)1044.5-21,19 78.54 (102.00 %)Core Average Exposure:

MWd4MTU 21121.3 1 3 5 7 9 11 13 15 1 3 5 7 ..22 14 14 9 9--------0-----

i0 13---------

15 -------- 14 10 10 17-----19 ..22 14 14 21 23 25 IR: 2 6 10 14 18 22 26 30 17 19 21 23 25 51 47 43 22 39--35 14 31--27 14 ---------

23-_19-- 22 -.15 11 7 3 34 38 42 46 50 Axial Profile N(PRA) Power Exposure Top 25 0.168 3.492 24 0.547 10.180 23 0.729 14.214 22 0.821 17.534 21 0.889 19.831:JR 20 0.935 21.233'19 0.960 22.060 18 0.980 22.546 17 0.986 22.772 16 1.011 21.756 15 1.039 22.224 14 1.124 22.299 13 1.145 22.982 12 1.173 23.655 11 1.204 24.242 10 1.239 24.746 9 1.273 25.281 8 1.305 25.900 7 1.330 26.549 6 1.343* 27.103 5 1.330 27.325*4 1.269 26.670 3 1.123 23.974 2 0.848 17.937 Bottom 1 0.231 4.878 Edit Radial Power Zone Avg. Max. IR JR 10 0.506 0.618 39 48 11 0.468 0.570 21 2 12 0.553 0.700 9 46 14 1.,071 1.171 43 30 15 1.008 1.195 43 34 16 0.836 0.940 49 32 30 1.100 1.234 45 34 31 1.174 1.270 43 32 32 1.105"1.253 43 28 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 8.03 0.99591 0.484 30.599 % AXIAL TILT -14.26.050 AVG BOT Bft/12ft 1.1 548.4 65.72 Active.Channel Flow: Mlb/hr 16.3 (of total core flow)-0.0 (of total core flow)0.00050.590 -11.084 0865 1.0594 65.72 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.270 31 43 32 1.254 31 31 44 1.254 31 41 34 1.253 32 43 28 1.252 31 45 30 1.244 31 33 42 1.238 31 43 36 1.234 30 45 34 1.230 32 27 10 1.229 31 23 8 MCPR Value Margin FT 1.651 0.818 32 1.658 0.814 31 1.681 0.803 31 1.682 0.803 32 1.685 0.801 32 1.688 0.800 31 1.692 0.798 31 1.693 0.797 31 1.693 0.797 31 1.695 0.797 31 IR JR 43 26 43 32 31 44 25 10 11 30 39 36 43 36 45 30 35 36 35 40 APLHGR Value.Margin Exp. FT 7.52 0.795 39.9 14 7.54 0.793 37.0 15 7.49 0.790 39.6 14 7.48 0.780.36.1 15 7.31 0.775 40.1 14 7.30 0.768 39.4 14 7.34 0.767 38.6 14 7.25 0.752 38.0 14 6.94 0.749 40.0 15 7.09 0.737 35.7 15 IR JR 45 26 43 34 45 22 33 44 43 24 25 8 31 46 29 44 45 36 43 38 K 5 5 5 5 5 5 5 5 5 5 LHGR Value Margin Exp. FT 8.28 0.799 42.8 14 8.23 0.797 43.1 14 8.05 0.792 44.5 15 7.84 0.786 46.2 14 7.58 0.774 47.8 15 10.35 0.772 16.5 32 7.86 0.772 44.3 15 10.32 0.770 15.9 30 8.06 0.770 41.8 14 10.31 0.769 16.2 31 IR JR 45 22 45 28 43 20 43 30 45 36 43 28 33 44 47 26 31 46 43 22 K 5 5 5 5 5 5 5 5 5 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.16 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 7,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-20 Cycle: Exposure:

MWd/MTO (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 7500.0 749.33 500.0 49.96 2923.0 (100.00 %)1044.5-21.92 76.23 ( 99.00 %)Core Average Exposure:

MWd/MTU 21621.3 1 3 5 7 9 II 1 -- --3 5 7 22 14 9 11i -.. .. .14 10 13------15 14 10 17------19 -.22 14 21 23 25 IR: 2 6 10 14 18 22 13 15 17 19 21 23 25-- 14 -- 22 ....-- 10 -- 14-.. .. ..--10-- 14 ---------- 14 -- 22 --..26 30 34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.171 3.596 2.4 0.554 10.474.23 0.737 14.606 22 0.826 17.977 21 0.892 20.311:JR 20 0.936 21.737 19 0.959 22.577 18 0.977 23.074 17 0.982 23.305 16 1.004 22.279 15 1.030 22.761 14 1.114 22.829 13 1.135 23.522 12 1.163 24.208 11 1.194 24.810 10 1.230 25.330 9 1.266 25.880 S. 1.300 26.515 7 1.330 27.176 6 1.347* 27.736 5 1.339 27.951*4 1.283 27.268 3 1.137 24.503.2 0.859 18.336 Bottom 1 0.235 4.989 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.502 0.616 39 48 0.465 0.566 21 2 0.549 0.696 9 46 1.069 1.169 43 30 1.004 1.191 43 34 0.831 0.934 49 32 1.101 1.237 45 34 1.179 1.276 43 32 1.112 1.262 43 28 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 8.03 0.99541 0.489 29.218 24.671 548.4 63.72 16.4-0.0 0.00040% AXIAL TILT -14.662 -11.021 AVG BOT 8ft/12ft 1.0853 1.0591 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)63.72 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.276 31 43 32 1.262 32 43 28 1.259 31 41 34 1.258 31 45 30 1.258 31 31 44 1.248 31 33 42 1.242 31 43 36 1.237 32 27 10 1.237 30 45 34 1.234 31 23 8 Value 1.614 1.623 1.646 1.647 1.652 1.657 1.660 1.661 1.663 1.672 MCPR Margin FT 0.837 32 0.832 31 0.820 32 0.82031 0.817 32 0.815 31 0.813 31 0.813 31 0.812 31 0.808 32 IR JR 43 26 43 32 25 10 31 44 11 30 39 36 43 36 35 36 35 40 29 12 APLHGR Value Margin Exp. FT 7.57 0.806 40.7 14 7.53 0.BO0 40.4 14 7.55 0.800 37.8 15 7.36 0.786 40.9 14 7.47 0.785 36.9 15 7.32 0.776 40.2 14 7.36 0.774 39.4 14 7.27 0.760 38.8 14 6.96 0.756 40.7 15 7.11 0.743 36.4 15 IR JR 45 26 45 22 43 34 43 24 33 44 25 8 31 46 29 44 45 36 43 38 K 5 5 5 5 5 5 5 5 5 5 Value 8.31 8.27 8.04 7.87 7.58 8.06 8.04 7.84 10.3B 10.36 LHGR Margin Exp. FT 0.810 43.6 14 0.809 44.0 14 0.799 45.3 15 0.797 47.0 14 0.782 48.5 15 0.778 42.6 14 0.777 42.8 14 0.777 45.1 15 0.775 17.6 32 0.773 17.0 30 IR JR 45 22 45 28 43 20 43 30 45 36 31 46 27 46 33 44 43 28 47 26 K 5 5 5 5 5 5 5 5 5 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.17 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 7,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle19 Fuel Cycle Design Page A-21 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 8000.0 ( 799.28 499.0 ( 49.86 2923.0 (100.00 %)1044.5-21.19 78.54 (102.00 %)Core Average Exposure:

MWd/MTU 22121.3 1 3 5 7 9 11 13 15 1 3 5 7-8 10 --9 11 ..20 -- 10 ------- -----15 20 10-.. .. ..17- -----19 8 10 --21 23 25 IR: 2 6 10 14 18 22 26 30 17 19 21 23 25 10 -- 20 ....10 -- 20 ....34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 N (PRA Top 25 24 23 22 21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Axial Profile Power Exposure 0.156 3.691 0.506 10.743 0.669 14.963 0.744 18.377 0.795 20.738 0.821 22.180 0.839 23.030 0.869 23.545 0.908 23.797 0.954 22.777 0.996 23.281 1.089 23.346 1.135 24.061 1.184 24.770 1.232 25.394 1.280 25.937 1.328 26.509 1.372 27.163 1.411 27.840 1.438 28.410 1.440* 28.625*1.390 27.916 1.241 25.082 0.943 18.776 0.259 5.111 Edit Radial Power Zone Avg. Max. IR JR 10 0.491 0.606 39 48 11 0.455 0.549 21 2 12 0.533 0.694 9 46 14 1.072 1.287 27 28 15 1.004 1.180 39 38 16 0.818 0.895 31 50 30 1.097 1.272 39 40 31 1.180 1.383 27 22 32 1.141 1.387 27 26 Control Rod Density: %k-effective:

Void Fraction: 'Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass.Flow

(%): Total Water Rod Flow (%): Source Convergence 7.60 0.99500 Bottom 1 0.497 30.900 % AXIAL TILT -21.26.351 AVG BOT 8ft/12ft 1.1 548.5 65.58 Active Channel Flow: Mlb/hr 16.5 (of total core flow)-0.0 (of total core flow)0.00032.658 -11.122 1285 1.0597 65.58 Top Ten Thermal Limits Summary -Sorted by Margin Power'Value FT IR JR 1.387 32 27 26 1.383 31 27'22 1.370 31 29 24 1.318 31 29 20 1.312 31 31 26 1.287 14 27 28 1.279 14 27 30 1.273 31 39 36 1.272 30 39 40 1.268 31 41 38 MCPR Value Margin FT 1.537 0.878 32 1.553 0.869 31 1.561 0.865 31 1.586 0.851 14 1.607 0.840 14 1.633 0.827 14 1.641 0.823 14 1.644 0.821 31 1.646 0.820 31 1.670 0.808 14 IR JR 27 26 27 32 29 24 27 28 27 30 29 28 27 20 31 26 29 34 29 22 APLHGR Value Margin Exp. FT 7.70 0.838 40.7 15 7.87 0.833 37.7 15 7.48 0.823 42.0 15 7.66 0.821 39.1 15 7.74 0.820 40.2 14 7.66 0.819 41.0 14 7.50 0.812 42.2 14 7.69 0.811 37.4 15 7.69 0.810 39.6 14 7.66 0.807 37.2 15 IR JR 39 42 33 44 11 40 39 38 31 46 25 8 41 40 37 44 29 44 43 38 K 5.5 5 5 5 5 5 5 5 5 LHGR Value Margin Exp. FT 8.09 0.827 47.8 15 8.24 0.824 46.0 15 8.08 0.823 47.5 14 8.17 0.819 46.1 14 8.14 0.819 46.4 14 8.39 0.818 43.7 14 8.13 0.818 46.4 15 8.18 0.816 45.6 14 7.85 0.814 49.0 15 7.78 0.813 49.7 15 IR JR K 13 12 5 33 44 5 21 46 5 27 28 6 29 44 5 27 46 5 13 38 5 41 40 5 35'46 5 11 40 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.18 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 8,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-22 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 8500.0 500.0 2923.0 1044.5-21.55 CoreAverage Exposure:

MWd/MTU 22621.3 849.24 49.96 (100.00 %)Axial Profile N(PRA) Power Exposure Top 25 0.158 3.789 24 0.512 11.015 Edit Radial Power Zone Avg. Max. IR JR 10 0.487 0.603 39 48 11 0.451 0.544 21 2 77.39 (100.50 %)1 3 5 7 9 11 --13 15 --17 19 21 23 25 IR: 2 3 5 7 9 11 13 15 17 19 21 23 25 8-- 20 -- 10-- 20 -- 10 8-- 10 -- 8 ---.10 ---10 ---- 10 -- 8 --20 ....20 ....51 47 43 39 35 31 27 23 19 15 11 7 3 23 0.674 22 0.747 21 0.796:JR 20 0.821 19 0.836 18 0.865 17 0.902 16 0.946 15 0.987 14 1.078 13 1.124 12 1.173 11 -1.222 10 1.272 9 1.323 8 1.371 7 1.415 6 1.447 5 1.454*4 1.406 3 1.255 2 0.953 Bottom 1 0.263 15.323 18.778 21.167 22.623 23.483 24.014 24.287 23.271 23.797 23.859 24.595 25.328 25.974 26.540 27.135 27.809 28.505 29.088 29.303*28.571 25.667 19.220 5.235 12 14 15 16 30 31 32 0.528 0.689 1.069 1.278 0.999 1.176 0.813 0.890 1.100 1.276 1.185 1.387 1.148 1.389 9 46 27 28 39 38 31 50'39 40 27 22 27 26 6 10 14 18 22 26 30 34 38 42 46 50 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 7.60 0.99499 0.500 30.213 25.664 548.5 64.57 16.6-0.0 0.00033% AXIAL TILT -21.906 -11.220 AVG BOT Bft/12ft 1.1284 1.0602 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)64.57 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.389 32 '27 26 1.387 31 27 22.1.373 31 29 24 1.323 31 29 20 1.315 31 31 26 1.278 14 27 28 1.278 31 39 36 1.276 30 39 40 1.273 31 41 38 1.272 14 27 30 MCPR Value Margin FT 1.525 0.885 32 1.536 0.879 31 1.546 0.873 31 1.599 0.844 14 1.618 0.834 14 1.627 0.830 31 1.628 0.829 31 1.646 0.820 14 1.646 0.820 14 1.668 0.809 31 IR JR 27 26 27 32 29 24 27 28 27 30 31 26 29 34 29 28 27 20 39 36 APLHGR Value Margin Exp. FT 7.76 0.850 41.5 15 7.91 0.843 38.6 15 7.52 0.834 42.8 15 7.80 0.833 41.0 14 7.73 0.833 41.8 14 7.69 0.830 39.9 15 7.55 0.824 43.0 14 7.75 0.823 40.4 14 7.73 0.821 38.2 15 7.70 0.817 38.0 15 IR JR 39 42 33 44 11 40 31 46 25 8 39 38 41 40 29 44 37 44 43 38 K 5 5 5 5 5 5.5 5 5 5 Value 8.1'4 8.51 8.26 8.19 8.45 8.23 8.14 7.88 7.80 8.40 LHGR Margin Exp. FT 0.840 48.7 15 0.837 44.4 14 0.834 46.8 15 0.832 47-.3 14 0.832 44.6 14 0.828 46.5 14 0.826 47.2 15 0.825 49.9 15 0.823 50.5 15 0.821 43.8 15 IR JR 13 12 31 46 33 44 29 44 27 46 41 40 13 38 35 46 11 40 37 44 K 5 5 5 5" 5 5 5 5 5 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.19 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 8,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page A-23 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 7 ---- 8 -- Ic 9 11 .. .. 20 -- 10 .. ..13- -----15 ..20 -- 10 .. ..17- -----19 ---- 8 -- 10 21 23 25 IR:*2 6 10 14 18 22 2E Control Rod Density: 8 k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (M): 'Source Convergence 1 19 9000.0 ( 899.19 500.0 ( 49.96.2923.0 (100.00 0)1044.5-21.92 76.23 ( 99.00 %)5 17 19 21 23 25 51 47 43-8 .. .. ..- 39--35-10 -- 20 ..31--27-10 -- 20 ..23 19-8---------

15 11 7 Axial Profile N(PRA) Power Exposure Top 25 0.159 3.887.... 24 0.514 11.291 Edit Radial Power Zone Avg. Max. IR JR 10 0.483 0.599 39 48 11 0.446 0.539 21 2 23 0.675 22 0.745 21 0.793:JR 20 0.816 19 0.831 18 0.858 17 0.894 16 0.936 15 0.975 14 1.065 13 1.111 12 1.161 11 1.212 10 1.265 9 1.319 8 1.373 7 1.422 6 1.461 5 1.474" 4 1.430 3 1.277 2 0.968 Bottom 1 0.267 15.685.19.181 21.597 23.066 23.934 24.481 24.773 23.760 24.307 24.366 25.125 25.880 26.550 27.139 27.758 28.455 29.171 29.770 29.988*29.234 26.258 19.669 5.360 12 14 15 16 30 31 32 0.523 0.684 1.067 1.270 0.995 1.172 0.808 0.884 1.103 1.280 1.190 1.393 1.155 1.392 9 46 27 28 39 38 3i 50 39 40 27 22 27 26 Core Average Exposure:

MWd/MTU 23121.4 30 34 38 42 46 50 3 7.60 0. 99508 0.504 29.547 24.999 548.5 63.56 16.6-0.0 0.00027% AXIAL TILT -22.466 -11.320 AVG BOT 8ft/12ft 1.1301 1.0608 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)63.56 Top.Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.393 31 27 22 1.392 32 27 26 1.377 31 29 24 1.328 31 29 20 1.319 31 31 26 1.283 31 39 36 1.280 30. 39 40 1.278 31 41 38 1.274 31 31 22 1.270 14 27 28 Value 1.514 1.521 1.532 1.608 1.611 1.613 1.625 1.649 1.651 1.654 MCPR Margin FT 0.892 32 0.888 31 0.881 31 0.840 14 0.838 31 0.837 31 0.831 14 0.819 14 0.818 31 0.816 14 IR JR 27 26 27 32 29 24 27 28 29 34 31 26 27 24 27 20 39 36 29 28 APLHGR Value Margin Exp. FT IR JR 7.84 0.865 42.3 15 39 42 7.98 0.857 39.4 15 33 44 7.83 0.850 42.6 14 25 8 7.89 0.849 41.8. 14 31 46 7.60 0.849 43.6 15 11 40 7.75 0.843 40.7 15 39 38 7.84 0.840 41.2 14. 29 44 7.64 0.839 43.8 14 41 40 7.80 0.835 39.0 15 37 44 7.77 0.830 38.8 15 43 38 K 5 5 5-5 5 5 5 5 5 5 Value 8.21 8.59 8.28 8 .54 8.31 8.30 8.19 7.93 7.85 8.46 LHGR Margin Exp. FT 0.856 49.5 15 0.853 45.3 14 0.849 48.1 14 0.849 45.4 14 0.848 47.6 15 0.844 47.4 14 0.839 48.1 15 0.839 50.7 15 0.836 51.3 15 0.834 44.7 15 IR JR 13 12 31 46 29 44 27 46 33 44 41 40 13 38 35 46 11 40 37 44 K 5 5 5 5 5 5 5 5 5.5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.20 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 9,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-24 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd).Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 1 -3 5--------

7 8 9 11 16 10 13- -----15 16 10 17- -----19 8 21 23 25 IR: 2 6 10 14 18 11 13 1-- 10 --- 10 -22 26 3 19 9500.0 ( 949.15 499.0 ( 49.86 2923.0 (100.00 %)1044.5-21.43 77.77 (101.00 %)5 17 19 21 23 25 51 47 43 8- -.. .. .. -35-10 -- 16 ..31--27-10 -- 16 ..23 19-8------------15 11 7 3 0 34 38 42 46 50 N (PRA Top 25 24 23 22.21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Axial Profile Power Exposure 0.163 3.988 0.525 11.573 0.687 16.056 0 754 19.591 0.797 22.030 0.814 23.509 0.820 24.381 0.838 24.938 0.860 25.243 0.884 24.225 0.921 24.791 1.022 24.855 1.080 25.640 1.140 26.423 1.201 27.121 1.263 27.738 1.326 28.384 1.389 29.108 1.447 29.849 1.494 30.465 1.514" 30.690*1.473 29.913 1.317 26.865 0.997 20.129 0.275 5.489 Core Average.Exposure:

MWd/MTU 23621.3 Edit Radial Power Zone Avg. Max. IR JR 10 0.481 0.601 39 48 11 0.442 0.540 21 2 12' 0.518 0.682 9 46 14 1.064 1.273 27 28 15 0.992 1.170 39 38 16 0.804 0.890 31 50 30 1.107 1.291 39 40 31 1.197 1.412 27.22 32 1.157 1.408 27 26 Control.Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 7.85 0.99506 Bottom 1 0.504 30.531 % AXIAL TILT -24 25.981 AVG BOT Bft/12ft 1.548.6.64.87 Active Channel Flow: Mib/hr 16.6 (of total core flow)-0.0 (of total core flow)0.00043.041 -11.445 1319 1.0613 64.87 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.412 31 27 22 1.408 32. 27 26 1.393 31 29 24 1.347 31 29 20 1.332 31 31 26 1.291 30 39 40 1.288 31 31 22 1.284 31 39 36 1.283 31 41 38 1.273 14 27 28 MCPR Value Margin FT 1.515 0.891 32 1.517 .0.890 31 1.531 0.882 31 1.606 0.841 31 1.617 0.835 31 1.625 0.831 140.824 14 1.657 0.815 14 1.661 0.813 31 1.674 0.806 30 IR JR 27 26 27 32 29 24 29 20 31 26 27 28 27 24 27 20 31 22 139 40 APLHGR Value Margin Exp. FT 8.02 0.892 43.2 15 8.17 0.884 40.3 15 8.03 0.880 43.5 14 8.09 0.878 42.6 14 7.78 0.876 44.4 15 8.05 0.869 42.0 14 7.92 0.868 41.615 7.81 0.866 44.6 14 7.98 0.861 39.9 15 7.94 0.854 39.6 15 IR JR 39 42 33 44 25 8 31 46 11 40 29 44 39 38 41 40 37 44 43 38 K 5 5 5 5 5 5 5 5 5 5 LHGR Value Margin Exp. FT 8.40 0.885 50.4 15 8.80 0.883 46.2.14 8.49 0.879 49.0 14 8.41 0.879 49.7 14 8.48 0.874 48.5 15 8.48 0.871 48.2 14 8.10 0.865 51.5 15 8.35 0.864 48.9 15 8.01 0.861 52.1 15 8.63 0.860 45.6 15 IR JR 13 12 31 46 29 44 27 46 33 44 41 40 35 46 13 38 11 40 37 44 K 5 5 5 5 5 5 5 5 5 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.21 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 9,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-25 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 7 -------- 8 10 9 7 11 ..16 10 .. ..13- -----15 ..16 10 .. ..17- ------- --- 10 21 23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 19 10000.0 C 999.10 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.92 76.23 ( 99.00 %)Core Average Exposure:

MWd/MTU 24121.3 15 30 17 19 21 23 25 10 -- 16 ....10 -- 16 ....34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.163 4.089 24 0.523 11.855 23 0.683 16.426 22 0.748 19.998 21 0.789 22.460:JR 20 0.806 23.948 19 0.811 24.824 18 0.828 25.390 17 0.848 25.707 16 0.872 24.682 15 0.907 25.268 14 1.008 25.336 13 1.066 26.149 12 1.127 26.960 11 1.189 27.686 10 1.255 28.333 9 1.322 29.009 8 1.390 29.763 7 .1.456 30.530 6 1.511 31.169.5 1.539" 31.403*4 1.506 30.607 3 1.350 27;485 2 1.022 20.598 Bottom 1 0.283 5.620 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.477 0.598 39 48 0.438 0.535 21 2 0.513 0.677 9 46 1.061 1.264 27 28 0.987 1.167 39 38 0.799 0.884 31 50 1.110 1.296 39 40 1.202 1.417 27 22 1.165 1.412 27 26 7.85 0.99507 0.509 29.644 % AXIAL TILT -24, 25.096 AVG BOT 8ft/12ft 1.1 548.6 63.52 Active Channel Flow: Mlb/hr 16.7 (of total core flow)-0.0 (of total core flow)0.00035.919 -11.581.355 1.0618 63.52 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.417 31 27 22 1.412 32 27 26 1.397 31 29 24 1.353 31 29 20 1.336 31 31 26 1.296 30 39 40 1.294 31 31 22 1.290 31 39 36 1.288 31 41 38 1.279 31 27 18 MCPR Value Margin FT 1.500 0.900 31 1.502 0.899 32 1.516 0.891 31 1.585 0.852 31 1.602 0.843 31 1.629 0.828 14 1.640 0.823 14 1.644 0.821 31 1.653 0.817 30 1.654 0.816 14 IR JR 27 32 27 26 29 24 29 20 31 26 27 28 27 24 31 22 39 40 27 20 APLHGR Value Margin Exp. FT 8.10 0.908 44.0 15 8.25 0.900 41.1 15 8.11 0.896 44.3 14 8.17 0.895 43.5 14 7.86 0.893 45.3 15 8.14 0.887 42.9 14 7.99 0.883 42.4 15 7.89 0.882 45.4 14 8.06 0.876 40.7 15 8.00 0.868 40.5 15 IR JR 39 42.33 44 25 8 31 46 11 40 29 44 39 38 41 40 37 44 43 38 K 5 5 5 5 5 5 5 5 5 5 Value 8.46 8.88 8.57 8.49 8.55 8.55 8.17 8.42 8.07 11.60 LHGR Margin Exp. FT 0.901 51.3 15 0.900 47.1 14 0.898 49.9 14 0.897 50.6 14 0.890 49.4 15 0.887 49.1 14 0.881 52.4 15 0.880 49.8 15 0.877 52.9 15 0.875 20.2 30 IR JR 13 12 31 46 29 44 27 46 33 44 41 40 35 46 13 38 11 40 33 46 K 5 5 5 5 5 5 5 5 5 4* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.22 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 10,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-26 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 1I 1-3-- ----- 22 --7 9 22 0 21 13 ..12 28 - ------17 22 0 21 19 21 .--.-- --22 --1 23 25 IR: 2 6 10 14 18 22 2i Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 3 2 8 2 19 10500.0 (1049.10 499.0 ( 49.86 2923.0 (100.00 %)1044.5-21.07.78.93 (102.50 %)15 17 19 21 23 25 51 47-22 .. .. ..- 43 39-- 0 -- 22 -. 35--- -- --31-28 12 -. 27--- --- - 0 -- 22 ..19 15-22 .. .. ..- 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.165 4.192 24 0.531 12.141 23 0.701 16.804 22 0.786 20.424 21 0.855 22.924:JR 20 0.913 24.444 19 0.965 25.348 18 1.010 25.939 17 1.057 26.282 16 1.103 25.260 15 1.142 25.866 14 1.233 25.924 13 1.233 26.736 12 1.238 27.550 11 1.242 28.276 10 1.239 28.920 9 1.251 29.600 8 1.272 30.361 7 1.294 31.136 6 1.304* 31.777 5 1.283 31.997" 4 1.202 31.160 3 1.028 27.956 2 0.750 20.942 Bottom 1 0.203 5.715 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.474 0.591 39 48 0.439 0.522. 21 2 0.513 0.684 9 46 1.070 1.209 31 24 0.959 1.161 39 38 0.797 0.875 49 32 1.100 1.3i7 39 40 1.216 1.356 27 22 1.165 1.319 37 24 Core Average Exposure:

MWd/MTU 24621.3 6 30 34 38 42 46 50 10.10 0.99506 0.473 30.790 26.241 548.3 66.11 16.2-0.0 0.00048% AXIAL TILT -11.972 -11.446 AVG BOT 8ft/12ft 1.0882 1.0615 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)66.11 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT 1.356 31 1.355 31 1.350 31 1.349 31 1.341 31 1.336 31 1.319 32 1.317 30 1.307 32 1.284 32 IR JR 27 22 31 26 29 24 33 24 29 20 31 22 37 24 39 40 29 38 39 22 Value 1.543 1.543 1.568 1.580.1.581 1.587 1.607 1.614 1.630 1.634 MCPR Margin FT 0.875 31 0.875 31 0.861 31 0.855 31 0.854 31 0.851 31 0.840 30 0.837 32 0.828 32 0.826 32 IR JR 27 32 31 26 31 22 33 24 29 24 29 20 39 40 37 30 29 38 39 22 APLHGR Value Margin Exp. FT 8.48 0.852 34.4 14 8.47 0.851 34.5 14 7.05 0.797 44.8 15 6.80 0.778 46.0 15 7.53 0.776 37.1 14 7.54 0.776 37.0 14 6.83 0.770 46.2 14 7.52 0.764 35.7 14 6.87 0.759 42.4 15 7.47 0.758 35.7 14 IR JR K 33 26 12 27 20 12 39 42 5 11 40 5 29 22 12 31 24 12 41 40 5 35 24 12 39 38 6 29 18 12 Value 9.48 9.46 8.35 7.45 8.27 8.06 8.08 10.48 8.03 10.47 LHGR Margin Exp. FT 0.862 37.1 14 0.860 37.1 14 0.803 42.4 14 0.801. 52.0 15 0.792 42.1 14 0.790 44.0 14 0.787 43.7 14 0.782 16.1 31 0.7B2 43.6 14 0.781 15.9 31 IR JR K 27 20 12 19 28 12 35 30 12 13 12 5 29 36 12 37 28 12 29 22 12 35 26 12 21 30 12 27 18 12* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3" Thermal limit file: Figure A.23 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 10,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-27 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/Ibm Flow: Mlb/hr 19 11000.0 (1099.00 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.67 77.00 (100.00 %(1 3 5 7 9 11 13 15 17 19 21 23 25 1 3 5 .. .. ..- 22 --7 9 .. 22 -- 0 --13 ..12 28 - -- --17 ..22 0 --19 21 ------ 22 --23 25 IR: 2 6 10 14 18 22 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 12 -- 22----...28 -- 0 -- 22 -...8 -- 28 12 ....28 -- 0 22 ....12 22----...26 30 34 38 42 46 50 10.10 5 4 4 3 2 1 N (PRA: Top 25 24 23 22 21 51 :JR 20 47 19 43 18 39 17 35 16 31 15 27 14 23 13 19 12 15 11 I1 10 7 9 3 8 7 6 5 4 3 2 Bottom 1 Axial Profile Power Exposure 0.166 4.294 0.532 12.427 0.700 17.181 0.784 20.848 0.853 23.386 0.911 24.937 0.962 25.869 1.006 26.484 1.052 26.852 1.096 25.831 1.133 26.457 1.223 26.505 1.223 27.317 1.229 28.133 1.235 28.861 1.234 29.504 1.247 30.189 1.271 30.960 1.296, 31.745 1.310* 32.391 1.295 32.601" 1.220 31.726 1.049 28.441 0.766 21.296 0.208 5.812 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.471 0.588 39 48 0.435 0.517 21 2 0.508 0.679 9 46 1.068 1.206 31 24 0.955 1.157 39 38 0.792 0.869 49 32 1.101 1.319 39 40 1.222'1.362 27 22 1.173 1.330 37 24 Core Average Exposure:

MWd/MT0 25121.3 0.99500 0.478 29.649 % AXIAL TILT -12.25.101 AVG BOT 8ft/12ft 1.0 548.3 64.43 Active Channel Flow: Mlb/hr 16.3 (of total core flow)-0.0 (of total core flow)0.00043.373 -11.333 3893 1.0612 64.43 Top Ten Thermal Limits Summary -Sorted by Margin.Power Value FT IR JR 1.362 31 27 22 1.362 31 31 26 i.357 31 29 24 1.356 31 33 24 1.349 31 29 20ý1.344 31 31 22 1.330 32 37 24.1.319 30 39 40 1.317 32 29 38 1.294 32 39 22 MCPR.Value Margin FT 1.521 0.888 31 1.522 0.887 31 1.544 0.875 31 1.553 0.869 31 1.557 0.867 31 1.560 0.865 31 1.584 0.852 32 1.585 0.852 30 1.600 0.844 32 1.606 0.841 32 IR JR 27 32 31 26 31 22 33 24 29 24 29 20 37 30 39 40 29 38 39 22 APLHGR Value Margin Exp. FT 8.37 0.848 35.3 14 9.36 0.847 35.4 14 7.02 0.800 45.5 15 6.80 0.784 46.7 15 6.80 0.773 46.9 14 7.45 0.773 37.9 14 7.45 0.772 37.8 14 6.82 0.763 43.8 15 6.78 0.762 44.2 15 7.44 0.762 36.5 14 IRJR K 33 26 12 27 20 12 39 42 5 11 40 5 4140 5 29 22 12 31 24 12 39 38 5 37 40 5 35 24 12 Value 9.35 9.33 7.41 8.25 8.16 7.98 7.97 7.19 7.93 7.96 LHGR Margin Exp. FT 0.859 38.0 14 0.857 38.1 14 0.804 52.8 15 0.801 43.2 14 0.790 42.9 14 0.789 44.9 14 0.785 44.5 14 0.780 52.8 14 0.779 44.4 14 0.779 44.0 14 IR JR K 27 20 12 19 28 12 13 12 5 35 30 12 29 36 12 37 28 12 29 22 12 11.14 5 21 30 12 27 3B 12* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.24 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 11,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-28 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibi Flow; Mlb/hr 1 3 5 7 9 11 I 15 3 5------------20--

7 9 ... 2 20 -- 0 --13 ....- 12 -- 26 --15-----------------

11 .. .20 -- 0 --10 21------------20

--2:9 25 I?.: 2 6 10 14 18 22 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 19 11500.0 (1149.00 499.0 ( 49.86 2923.0 (100.00 %)1044.5 m -21.19 78.54 (102.00 %)13 15 17 19 21 23 25 51 47 12 -- 20 .. .. ..- 43 39 26 -- 0 -- 20 ..35--. -.... .31 10 -- 26 -- 12-- -- 27--.. -.--.- .. 2 3 26 -- 0 20 19 15 12 -- 20 ......-11 7 3 26 30 34 38 42 46 50 Core Average Exposure:

MWd/MTU 25621.4 Axial Profile N(PRA) Power Exposure Top 25 0.175 4.403 24 0.563 12.729 23 0.739 17.579 22 0.825 21.293 21 0.896 23.869:JR 20 0.954 25.451 19 1.000 26.408 18 1.035 27.042 17 1,068 27.428 16 1.094 26.397 15 1.109 27.031 14 1.168 27.055 13 1.176 27.872 12 1.184 28.691 11 1.185 29.420 10 1.201 30.070 9 1.228 30.769 8 1.260 31.555 7 1.290 32.355 6 1.307* 33.009 5 1.293 33.211*4 1.221 32.301 3 1.053 28.934 2 0.768' 21.655 Bottom 1 0.208 5.911 Edit Radial Power Zone Avg. Max. IR JR 10 0.468 0.584 39 48 11 0.432 0.513 21 2 12 0.505 0.675 9 46 14 1.067 1.210 31 24 15 0.948 1.152 39 38 16 0.788 0.866 49 32 30 1.103 1.320 39 40 31 1.225 1.375 31 26 32 1.184 1.341 37 24 10.43 0.99501 0.472 30.515 25.966 548.3 65.80 16.2-0.0 0.00050% AXIAL TILT -10.797 -11.200 AVG BOT 8ft/12ft 1.0722 1.0606 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)65.80 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.375 31 31 26 1.375 31 29 24 1.375 31 27 22 1.366 31 33 24 1.359 31 29 20 1.359 31 31 22 1.341 32 37 24 1.329 32 29 38 1.320 30 39 40 1.302 32 39 22 MCPR Value Margin FT 1.505 0,897 31 1.505 0.897 31 1.528 0.883 31 1.533 0.881 31 1.542 0.875 31 1.549 0.872 31 1.575 0,857 32 1.591 0.848 30 1.592 0.848 32 1.601 0.843 32 IR JR 31 26 27 32 31 22 29 24 33 24 29 20 37 30 39 40 29 38 39 22 APLHGR Value Margin Exp. FT 8.13 0.831 36.6 14 8.08 0.830 37.1 14 6.95 0.797 46.2 15 6.75 0.784 47.4 15 6.73 0.771 47.6 14 7.31 0.765 39.1 14 7.33 0.764 38.6 14 6.78 0.764 44.6 15 6.74 0.764 44.9 15 6.66 0.758 47.1 14 IR JR K 33 26 15 27 20 15 39 42 5 11 40 5 41 40 5 29 22 15 31 24 15 39 38 5 37 40 5 13 42 5 LHGR Value Margin Exp. FT 8.97 0.837 39.6 14 8.97 0.834 39.3 14 7.32 0.802 53.6 15 8.01 0.783 44.0 14 7.11 0.779 53.5 14 6.92 0.776 55.5 15 7.78 0.772 45.3 14 7.78 0.772 45.2 14 7.82 0.771 44.7 14 6.94 0.765 54.1 14 IR JR K 27 20 15 19 28 15 13 12 5 35 30 15 11 14 5 11 40 5 29 22 15 37 28 15 29 36 15 13 42 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.25 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 11,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page A-29 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 ------ 20 -- 12 7 9 .. 20 -- 0 -- 26 11------------

13 ..12 -- 26 -- 10 15- --------17 20 0 26 19 21 .. .. ..- 20 12 19 12000.0 (1198.90 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.67 77.00 (100.00 %)Core Average Exposure:

MWd/MTU 26121.3 15 17 19-- 20 ---- 0 --P -- 26 --- 20 --21 23 25 20 ....12 ....20 ....51 47 43 39 35 31 27 23 19 15 11 7 3 N (P1 Top:JR Bottom Axial Profile RA) Power Exposure 25 0.177 4.512 24 0.566 13.031 23 0.742 17.976 22 0.829 21.738 21 0.901 24.353 20 0.960 25.966 19 1.007 26.947 18 1.043 27.600 17 1.076 28.004 16 1.101 26.963 15 1.115 27.606 14 1.174 27.605 13 1.181 28.425 12 1.189 29.249 11 1.188 29.978 10 1.202 30.636 9 1.227 31.347 8 1.254 32.148 7 1.280 32.963 6 1.292* 33.625 5 1.276 33.821*4 1.207 32.876 3 1.045 29.430 2 0.762 22.017 1 0.207 6.010 Edit Radial Power Zone Avg. Max. IR JR 10 0.465 0.582 39 48 11 0.429 0,509 21 2 12 0.501 0.671 9 46 14 1.065 1.207 31 24 15 0.944 1.148 39 38 16 0.784 0.860 49 32 30 1.103 1.321 39 40 31 1.230 1.382 31 26 32 1.191 1.349 37 24 25 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 10.43 0.99505 0.474 29.570 25.022 548.3 64.48 16.3-0.0 0.00028% AXIAL TILT -10.241 -11.073 AVG BOT Bft/12ft 1.0696 1.0600 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)64.48 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.382 31 31 26 1.381 31 29 24 1.380 31 27 22 1.373 31 33. 24 1.367 31 29 20 1.365 31 31 22 1.349 32 37 24 1.339 32 29 38 1.321 30 39 40 1.310 32 39 22 MCPR Value Margin FT 1.486 0.909 31 1.488 0.907 31 1.508 0.896 31 1.512 0.893 31 1.518 0.889 31 1.524 0.886 31 1.549 0.872 32 1.564 0.863 32 1.571 0.859 30 1.576 0.856 32 IR JR 31 26 27 32 31 22 29 24 33 24 29 20 37 30 29 38 39 40 39 22 APLHGR Value Margin Exp. FT 8.10 0.835 37.5 14 8.05 0.834 38.0 14 6.76 0.782 47.0 15 6.60 0.772 48.1 15 7.29 0.769 39.9 14 7.32 0.768 39.4 14 7.32 0.761 38.4 14 6.55 0.756.48.3 14 6.69 0.755 44.5 15 6.65 0.754 45.0 15 IR JR K 33 26 15 27 20 15 39 42 5 11 40 5 29 22 15 31 24 15 35 24 15 41 40 5 39 38 6 37 40 6 LHGR Value Margin Exp. FT 8.93 0.842 40.5 14 8.93 0.839 40.3 14 8.00 0.790 44.8 14 7.11 0.786 54.4 15 7.79 0.779 46.0 14 7.81 0.777 45.5 14 7.75 0.777 46.1 14 7.72 0.770 45.7 14 7.72 0.769 45.6 14 7.26 0.764 50.3 14 IR JR K 27 20 15 19 28 15 35 30 15 13 12 5 37 28 15 29 36 15 29 22 15 27 38 15 21 30 15 11 14 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.26 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 12,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit2 Cycle 19 Fuel Cycle Design Page A-30 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 12500.0 (1248.90 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.92 76.23 ( 99.00 %)Core Average Exposure:

MWd/MTU 26621.3 1 3 5 7 9 11 1 -3 5 .. .. ..- 20 7 9 20 0: 11 13 ..12 -- 26 15--------------

17 ..20 0 19 21 .. .. ..- 20 23 25 IR: 2 6 10 14 18 Control Rod Density: k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: p Coolant Temp: Deg-F In Channel Flow: Mlb/Total Bypass Flow (%)Total Water Rod Flow Source Convergence 13 12 26 10 26 12 15 17 19 20-- 0 ---- 26 ---- 0 --20 21 23 25 20 ....12 ....20 ....51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.180 4.621 24 0.576 13.336 23 0.754 18.375 22 0.844 22.186 21 0.918 24.839:JR 20 0.979 26.484 19 1.027 27.491 18 1.062 28.163 17 1.094 28.584 16 1.118 27.533 15 1.130 28.183 14 1.187 28.158 13 1.192 28.982 12 1.197 29.809 11 1.193 30.538 10 1.202 31.202 9 1.220 31.925 8 1.240 32.739 7 1.256 33.566 6 1.260* 34.233 5 1.239 34.422*4 1.171 33.445 3 1.016 29.922 2 0.742 22.376 Bottom 1 0.202 6.109 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.462 0.579 39 48 0.426 0.505 21 2 0.498 0.667 9 46 i.063 1.203 31 24 0.941 1.145 39 38 0.780 0.855 49 32 1.103 1.320 39 40 1.236 1.387 31 26 1.19.6 1.356 37 24 22 26 30 34 38 42 46 50 10.43 0.99524 0.471 29.055 24.507 548.2 63.84 16.3-0.0 0.00049% AXIAL TILT -8.691 -10.939 AVG BOT Bft/12ft 1.0615 1.0594 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)63.84 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.387 31 31 26.1.385 31 29 24 1.384 31 27 22 1.379 31 33 24 1.373 31 29 20 1.370 31 31 22 1.356 32 37 24 1.347 32 29 38 1.320 30 39 40 1.316 32 39 22 Value 1.472 1.475 1.492 1.497 1.498 1.505 1.527 1.541 1.555 1.557 MCPR Margin FT 0.917 31 0.915 31 0.905 31 0.902 31 0.901 31 0.897 31 0.884 32 0.876 32 0.868 30 0.867 32 IR JR 31 26 27 22 31 22 29 24 33 24 29 20 37 30 29 38 39 40 39 22 APLHGR Value Margin Exp. FT 8.11 0.843 38.3 14 8.06 0.842 38.8 14 7.31 0.776 40.6 14 7.34 0.776 40.1 14 7.36 0.771 39.1 14 7.18 0.762 40.5 14 7.08 0.759 41.5 14 6.48 0.756 47.8 15 7.09 0.751 40.2 14 6.41 0.749 47.9 15 IR JR K 33 26 15 27 20 15 29 22 15 31 24 15 35 24 15 29 18 15 37 28 15 13 12 5 27 16 15 11 40 6 Value 8.93 8.94 8.03 7.83 7.84 7.76 7.76 7.73 6.91 7.44 LHGR Margin Exp. FT 0.850 41.4 14 0.848 41.2 14 0.800 45.6 14 0.791 46.8 14 0.788 46.3 14 0:785 46.9 14 0.782 46.5 14 0.777 46.4 14 0.762 54.1 15 0.747 46.2 14 IR JR K 27 20 15 19 28 15 35 30 15 37 28 15 29 36 15 29 22 15 27 38 15 21 30 15 13 12 6 29 28 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.27 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 12,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-31.Cycle: Exposure:

MWd/MTU (GWd)-Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ib Flow: Mlb/hr 1 3 5 7 9 1 -3 5 7 9 .. .. ..- 12 --11 -- --i -..... 8 --15 17 12 19 21 23 25 IR: 2 6 10 14 18 11 12 8 14 8 12 22 19 13000.0 (1298.80 499.0 ( 49.86 2923.0 (100.00 %)1044.5 m -21.93 76.23 ( 99.00 %)13 15 17 19 21 23 25 51 47 S12 43 39 S8 -- 12 -------- 35-31-- 14 -- 8-- ----.-- 27-~23-- 8 -- 12 -------- 19 15--12 11 7 3 26 30 34 38 42 46 50 9.06 N (PRA)Top 25 24 23 22 21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Axial Profile Power Exposure 0.193 4.738 0.616 13.659 0.793 18.792 0.863 22.639 0.903 25.313 0.909 26.960 0.907 27.965 0.892 28.629 0.886 29.048 0.897 27.985 0.924 28.649 1.021 28.628 1.074 29.477 1.129 30.333 1.185 31.090 1.239 31.783 1.290 32.534 1.333 33.375 1.368 34ý225 1.392 34.911 1.398* 35.108*1.366 34.118 1.235 30.530 0.929 22.833 0.257 6.237-18.037 -11.000 1.0906 1.0594/hr 63.66 Core Average Exposure:

MWd/MTU 27121.4 Edit Radial Power Zone Avg. Max. IR JR 10 0.470 0.594 39 48 11 0.432 0.515 49 38 12 0.503 0.674 9 46 14 1.028 1.161 43 30 15 0.990 1.175 37 40 16 0.797 0.895 49 32 30 1.146 1.348 39 40 31 1.210 1.353 43 32 32 1.195 1.332 43 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F'In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 0.99500 Bottom 1 0.492 29.348 % AXIAL TILT 24.800 AVG BOT Bft/12ft 548.4 63.68 Active Channel Flow: Mlb/16.5 (of total core flow)-0.0 (of total core flow)0.00041 Top Ten ThermalLimits Summary -Sorted by Margin Power Value FT IR JR 1.353 31 43 32 1.348 30 39 40 1.346 31 35 40 1.332 32 43 26 1.330 31 37 42 1.321 31 45 30 1.313 32 41 24 1.313 31 43 36 1.306 31 41 34 1.305 31 41 38 MCPR Value Margin FT 1.539 0.877 31 1.540 0.876 30 1.552 0.870 32 1.553 0.870 31 1.582 0.854 31 1.610 0.839 30 1.616 0.835 32 1.617 0.835 31 1.622 0.832 31 1.625 0.831 31 IR JR 43 32 39 40 43 26 35 40 43 36 45 20 41 30 35 32 45 30 33 24 APLHGR Value Margin Exp. FT 7.26 0.854 48.6 15 7.52 0.849 44.7 15 7.09 0.843 49.6 15 7.25 0.840 47.2 15 7.21 0.829 47.9 14 7.14 0.826 47.1 15 7.06 0.823 49.3 14 7.11 0.821 46.9 15 7.00 0.821 49.8 14 7.19 0.819 47.1 14 IR JR 13 12 9 20 11 40 15 14 45 22 9 38 13 42 15 10 41 40 9 24 K 5 5 5 5 5 5 5 5 5 5 Value 7.81 7.45 7.85 7.50 7.39 7.67 7.81 7.62 7.15 7.76 LHGR Margin Exp. FT 0.850 53.0 15 0.848 56.6 15 0.841 51.7 14 0.839 55.3 15 0.836 56.1 15 0.832 52.7 14 0.827 50.8 15 0.827 52.9 14 0.825 57.7 15 0.824 51.0 14 IR JR 43 20 13 12 45 22 37 14 45 36 11 14 43 38 13 42 11 40 9 24 K 5 5 5 5 5 5 5 5 5 5* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.28 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 13,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-32 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow:'Mlb/hr 1 3 5 7 9 11 13 1 3 --- ----5 12 --7 9 .. 12 -- 8 --11 13 .. .. ..- 8 -- 14 - -------17 .... ..-12 -- 8 --19 21 ------------

12 23 25-IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 19 13500.0 (1348.80 500.0 ( 49.96 2923.0 (100.00 %)1044.5-21.56 77.39 (100.50 %)Core Average Exposure:

MWd/MTU 27621.3 15 12 8 14 8 12 30 17 19 21 23 25-- 12 -- ------- 8---------

-- 12-------34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 N (PRA Top 25 24 23 22 21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Axial Profile Power Exposure 0.199 4.858-0.635 13.990 0.817 19.219 0.892 23.105 0.935 25.800 0.943 27.451 0.942 28.455 0.926 29.110 0.919 29.526 0.929 28.449 0.955 29,127 1.051 29.108 1.102 29.983 1.153 30.865 1.202 31.648 1.247 32.366 1.286 33.142 1.314 34.004 1.331 34.870 1.336* 35.567 1.327 35.767*1.286 34.762 1.160 31.112 0.872 23.271 0,241 6.360 Edit Radial Power Zone Avg. Max. IR JR 10 0.467 0.592 39 48'11 0.430 0.512 49. 38 12 0.501 0.671 9 46 14 1.027 1.156 43 30 15 0.987 1.172 37 40 16 0.794 0.890 49 32 30 1.146 1.347 39 40 31 1.214 1.351 43 32 32 1.199 1.329 43 26 9.06 0.99544 Bottom 1 0.482 29.919 % AXIAL TILT -15, 25.371 AVG BOT Bft/12ft 1.0 548.4 64.75 Active Channel Flow: Mlb/hr 16.3 (of total core flow)-0.0 (of total core flow)0.00041.117 -11.016 0761 1.0592 64.75 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.351 31 43 32 1.349 31 35 40 i.347 30 39 40 1.330 31 37 42 1.329 32 43 26 1.317 31 45 30 1.313 31 43 36 1.312 32 41 24 1.308 31 37 38 1.308 31 41 34 MCPR Value Margin FT 1.540 0.876 31 1.541 0.876 30 1.550 0.871 31 1.556 0.868 32 1.580 0.855 31 1.610 0.839 30 1.614 0.836 31 1.618 0.834 32 1.621 0.833 31 1.626 0.831 31 IR JR 43 32 39 40 35 40 43 26 43 36 45 20 35 32 41 30 33 24 45 30 APLHGR Value Margin Exp. FT 6.86 0.813 49.4 15 7.12 0.810 45.4 15 6.70 0.804 50.3 15 6.92 0.803 47.3 15 6.75 0.788 47.8 15 6.78 0.786 48.6 14 6.68 0.786 50.0 14 6.72 0.784 47.8 15 6.67 0.782 49.6 14 6.82 0.779 47.4 14 IR JR 13 12 9 34 11 40 15 14 9 38 45 22 13 42 15 44 41 40 9 24 K 5 5 5 6 5 5 5 5 6 6 Value 7.16 7.36 7.20 7.48 7.07 7.36 7.31 7.41 6.87 7.42 LHGR Margin Exp. FT 0.815 56.6 15 0.811 54.0 15 0.808 55.5 15 0.800 51.7 14 0.799 56.1 15 0.797 52.6 14 0.792 52.8 14 0.788 51.2 14 0.788 57.2 15 0.788 51.0 15 IR JR 13 12 43 20 37 14 45 22 45 36 11 14 13 42 9 24'11 40 43 38 K 6 6 6 6 6 6 6 6 6 6* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.29 Brunswick'Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 13,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-33 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 14000.0 (1398.70 500.0 ( 49.96 2923.0 (100.00 %)1044.5 7-20.96 79.31 (103.00 %)Core Average Exposure:

MWd/MTU 28121.4 1 3 5 7 9 11 3 5 12 7 9 12 8 11-----------

13 8 14 15 ----17 ---------

12 8 19 21 12 23 25 IR: 2 6 10 14 18 22 13 15 17 19 12 ---- 8 -- 12-- 14 -- 8-- 8 -- 12 12 26 30 34 38 21 23 25 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.206 4.982 24 0.659 14.332 23 0.847 19.658 22 0.928 23.586 21 0.974 26.304:JR 20 0.983 27.960 19 0.982 28.963 18 0.965 29.610 17 0.957 30.022 16 0.965 28.930 15 0.989 29.621 14 1.086 29.603 13 1.133 30.502 12 1.180 31.408 11 1.220 32.214 10 1.255 32.954 9 1.279 33.748 8 1.290* 34.623 7 1.288 35.497 6 1.273 36.196 5 1.246 36.392*4 1.194 35.368 3 1.072 31.658 2 0.806 23.681 Bottom 1 0.222 6.474 Edit Radial Power Zone Avg. Max. IR JR 10 0.465 0.590 39 48 11 0.428 0.509 49 38 12 0.498 0.669 9 46 14 1.026.1.151 43 30 15 0.985 1.170 37 40 16 0.792 0.886 49 32 30 1.146 1.346 39 40 31 1.217 1.352 35 40 32 1.202 1.325 43 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 9.06 0.99594 0.469 30.942 26.394 548.4 66.50 16.2-0.0 0.00037% AXIAL TILT -11.665 -10.979 AVG BOT 8ft/12ft 1.0587 1.0588 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)66.50 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.352 31 35 40 1.349 31 43 32 1.346 30 39 40 1.330 31 37 42 1.325 32 43 26 1.313 31 43 36 1.313 31 45 30 1.311 31 37 38 1.310 32 41 24 1.309 31 41 34 Value 1.544 1.547 1.554 1.566 1.583 1.615 1.618 1.625 1.626 1.630 MCPR Margin FT 0.874 30 0.873 31 0.869 31 0.862* 32 0.853 31 0.836 30 0.835 31 0.831 31 0,830 32 0.828 31 IR JR 39 40 43 32 35 40 43 26 43 36 45 20 35 22 33 24 41 30 37 38 Value 6.70 6.70 6.77 6.55 6.90 6.60 6.41 6.48 6.46 6.44 APLHGR Margin Exp. FT 0.780 47.5 15 0.773 46.8 15 0.772 45.6 15 0.770 48.6 15 0.763 44.7 14 0.754 47.4 14 0.753 49.9 14 0.753 49.0 14 0.752 47.7 15 0.750 47:7 15 IR JR 13 12 15 14 9 20 11 40 29 28 45 22 13 42 41 40 9 38 15 44 K 7 7 6 7 20 7 6 7 6 6 LHGR Value Margin Exp. FT 7.01 0.792 56.0 15 7.04 0.786 55.1 15 7.26 0.785 52.5 15 6.91 0.775 55.4 15 7.28 0.772 51.0 14 7.30 0.772 50.7 14 7.19 0.770 51.8 14 7.07 0.767 52.8 14 6.72 0.765 56.6 15 7.11 0.765 52.1 14 IR JR 13 12 37 14 43 20 45 36 45 22 29 28 11 14 43 30 11 40 13 42 K 7 7 8 7 7 20 7 8 7 7* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.30 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 14,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-34 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 12 7 9 .. .. ..-12 8 --11 13 -------- 8 14 --15------17 .. .. ..-12 8 --19 21 12 --23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 19 14300.0 (1428.70 300.0 ( 29.97 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 28421.4 15 12 8 14 8 12 30 17 19 21 23 25 51 47 43 39 12 ---------

35--31-- 8 .. .. ..-27--23 12 ---------

19 15 11 7 3 34 38 42 46 50 Axial Profile N(PRA) Power Exposure Top 25 0.210 5.059 24 0.674 14.545 23 0.866 19.931 22 0.951 23.887 21 1.000 26.620:JR 20 1.010 28.278 19 1.009 29.281 18 0.991 .29.922 17 0.982 30.332 16 0.989 29.230 15 1.012 29.929 14 1.108 29.910 13 1.153 30.822 12 1.195 31.741, 11 1.231 32.559 10 1.258 33.309 9 1.273 34.109 8 1.273" 34.987 7 1.259 35.861 6 1.232 36.556 5 1.194 36.744*4 1.136 35.705 3 1.017 31.961 2 0.764 23.909 Bottom 1 0.211 6.538 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.464 0.590 39 48 0.427 0.508 49 38 0.497 0.668 9 46 1.025 1.148 43 30 0.985 1.170 37 40 0.791 0.884 49 32 1.147 1.346 39 40 1.218 1.353 35 40 1.203 1.323 43 26 9.06 0.99619 0.460 31.558 27.009 548.3 67.55 16.0-0.0 0.00041% AXIAL TILT -9.389 -10.920 AVG BOT 8ft/12ft 1.0472 1.0584 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.55 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.353 31 35 40 1.347 31 43 32 1.346 30 39 40 1.330 31 37 42 1.323 32 43 26 1.313 31 43 36 1.312 31 37 38 1.311 31 45 30 1.309 31 41 34 1.308 32 41 24 MCPR Value Margin FT 1.544 0.874 30 1.550 0.871 31 1.555 0.868 31 1.570 0.860 32 1.584 0.852 31 1.616 0.836 30 1.620 0.833 31 1.628 0.829 31 1.630 0.828 32 1.630 0.828 31 IR JR 39 40 43 32 35 40 43 26 43 36 45 20 35 22 33 24 41 30 37 38 APLHGR Value Margin Exp. FT 6.97 0.773 45.1 14 6.67 0.766 46.4 15 6.66 0.761 45.8 15 6.80 0.758 43.4 15 6.40 0.757 49.0 15 6.58 0.743 46.4 14 6.45 0.741 47.9 14 6.57 0.741 46.1 14 6.36 0.740 49.0 14 6.60 0.739 45.5 14 IR JR K 29 28 20 13 12 8 37 40 8 9 20 8 11 40 7 45 22 8 41 40 8 9 24 8 13 42 7 7 28 9 Value 7.04 7.36 7.05 7.15 6.93 7.13 7.28 7.09 7.17 6.75 LHGR Margin Exp'. FT 0.784 54.9 15 0.782 51.1 14 0.779 54.2 15 0.777 53.0 15 0.766 54.3 15 0.764 51.8 14 0.763 49.9 14 0.761 51.9 14 0.757 50.6 14 0.757 55.5 15 IR JR K 13 12 8 29 28 20 37 14 8 43 20 8 45 36 8 27 28 20 45 22 8 43 30 9 11 14 8 11 40 8* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.31 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 14,300.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-35 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet.Subcooling:

Btu/lbm Flow: Mlb/hr 19 14700.0 (1468.70 399.0 ( 39.86 2923.0 (100.00 %)1044.5-21.20 78.54 (102.00 %)Core Average Exposure:

MWd/MTU 28821.5 1 3 5 7 9 11 1 -3 5 12 7 9 -------- 12 8 11 13 10 26 15-----17 12 8 19 21 -----------

12 23 25 IR: 2 6 10 14 18 22 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 13 15 17 19 21 23 25 12-- 8 -- 12 ---------- 26 -- 0-- --.------ 8 -- 12 ---------- 1-- ---- -----12 26 30 34 38 42 46 50 8.64 0.99676 0.455 30.273 25.726 548.2 65.94 Active 51 47 43 39 35 31 27 23 19 15 11 7 3 N (PE Top:JR Bottom Axial Profile RA) Power Exposure 25 0.210 5.159 24 0.670 14.824 23 0.863 20.290 22 0.955 24.284 21 1.012 27.041 20 1.035 28.708 19 1.039 29.713 18 1.030 30.352 17 1.035 30.764 16 1.052 29.652 15 1.079 30.364 14 1.180 30.344 13 1.219 31.272 12 1.247 32.204 11 1.258 33.029 t0 1.264" 33.784 9 1.258 34.587 8 1.239 35.463 7 1.206 36.331 6 1.163 37.015 5 1.111 37.189*4 1.047 36.129 3 0.934 32.341 2 0.702 24.195 1 0.194 6.618 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.455 0.579 39 48 0.420 0.500 49 38 0.489 0.656 9 46 1.037 1.161 33 26 0.969 1.152 37 40 0.778 0.871 49 32 1.130 1.325 39 40 1.233 1.362 33 24 1.209 1.322 27 26% AXIAL TILT -6.156 -10.810 AVG BOT 8ft/12ft 1.0378 1.0578 channel Flow: Mlb/hr 65.94 16.0 (of total core flow)-0.0 (of total core flow)0.00042 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.362 31 .33 24 1.336 31 35 40 1.334 31 29 24 1.334 31 43 32 1.328 31 35 22 1.325 30 39 40 1.322 32 27 26 1.320 31 35 26 1.314 32 43 26 1.309 31 37 42 MCPR Value Margin FT 1.519 0.889 31 1.534 0.880 31 1.537 0.878 30 1.541 0.876 31 1.547 0.873 32 1.549 0.872 31 1.563 0.864 31 1.565 0.862 32 1.572 0.859 31 1.574 0.858 31 IR JR 33 24 43 32'39 40 29 24 43 26 35 40 35 22 27 26 35 28 43 36 APLHGR Value Margin Exp. FT 7.83 0.845 42.2 14 7.45 0.805 42.3 14 7.01 0.765 43.3 14 7.03 0.762 42.7 14 7.08 0.754 40.9 14 6.54 0.745 45.5 15 6.54 0.742 45.1 15 6.68 0.740 42.7 15 6.29 0.735 47.9 15 6.84 0.730 41.1 14 IR JR K 29 28 15 25 26 15 27 24 15 31 24 15 33 26 15 13 12 9 37 40 9 43 34 9 11 40 8 37 2821 LHGR Value Margin Exp. FT 8.27 0.859 49.2 14 8.04 0.847 50.4 14 7.67 0.795 49.0 14.7.62 0.794 49.4 14 7.71 0.786 47.6 14 6.95 0.766 54.0 15 7.06 0.762 52.4 15 6.96 0.761 53.4 15 6.85 0.749 53.4 15 7.04 0.748 51.1 14 IR JR K 29 28 15 27 28 15 21 30 15 27 30 15 19 28 15 13 12 9 43 20 9 37 14 9 45 36 9 43 30 10* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3" Thermal limit file: Figure A.32 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 14,700.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-36 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 15000.0 (1498.70 300.0 ( 29.97 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 29121.5 1 3 5 7 9-11 15 19 21 23 25 IR: 1 3 5 7 9 11 13 15 17 19 21 23 25-12 12 12 8 -- 8 -- 12-............-10 -- 26 -- 26 -- 10--....... .. .. 12 -- 8 -- 8 -- 12-.. .. ..12 12 2 6 10 14 18 22 26 30 34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.214 5.238 24 0.686 15.040 23 0.884 20.569 22 0.980 24.593 21 1.039 27.368:JR 20 1.062 29.043 19 1.066 30.050 18 1.056 30.685 17 1.060 31.099 16 1.076 29.979 15 1.102 30.699 14 1.202 30.678 13 1.238 31.617 12 1.262 32.556 11 1.267- 33.384 10 1.265 34.141 9 1.251 34.943 8 1.221 35.813 7 1.177 36.672 6 1.121 37.344 5 1.059 37.503*4 0.989 36.425 3 0.878 32.605 2 0.661 24.393 Bottom 1 0.182 6.674 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.455 0.579 39 48 0.419 0.499 49 38 0.488 0.656 9 46 1.036 1.156 33 26 0.970 1.152 37 40 0.778 0.870 49 32 1.132 1.327 39 40 1.234 1.358 33 24 1.209 1.315 27 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 8.64 0. 99704 0.445 31.351 26.804 548.2 67.66 15.9-0.0 0.00044% AXIAL TILT -3.811 -10.697 AVG BOT 8ft/12ft 1.0259 1.0571 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.66 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.358 31 33 24 1.338 31 35 40 1.333 31 43 32 1.328 31 29 24 1.327 30 39 40 1.326 31 35 22 1.317* 31 35 26 1.315 32 27 26 1.313 32 43 26 1.311 31 37 42 Value 1.534 1.543 1.544 1.557 1.558 1.559 1.576 1.581 1.587 1.587 MCPR Margin FT 0.880 31 0.875 30 0.875 31 0.867 31 0.866 31 0.866 32 0.857 31 0.854 31 0.851 32 0.851 31 IR JR 33 24 39 40 43 32 35 40 29 24 43 26 35 22 43 36 27 26 35 28 APLHGR Value Margin Exp. FT 7.86 0.852 42.5 14 7.47 0.811 42.8 14 7.04 0.772 43.8 14 7.08 0.771 43.1 14 7.13 0.763 41.3 14 6.97 0.746 41.5 14 6.51 0.745 45.9 15 6.50 0.741 45.5 15 6.63 0.738 43.1 15 6.36 0.734 46.9 15 IR JR 29 26 25 26 27 24 31 24 33 26 37 28 13 12 37 40 43 34 11 40 K 15 15 15 15 15 21 9 9 9 9 Value Margin 8.28 0.865 8.06 0.854 7.72 0.805 7.65 0.801 7.77 0.796 7.03 0.766 7.11 0.762 7.03 0.761 7.42 0.754 7.02 0.751 LHGR Exp. FT 49.7 14 50.9 14 49.5 14 49.9 14 48.0 14 53.2 15 51.9 15 52.6 15 47.3 14 51.6 14 IR JR K 29 28 15 27 28 15 21 30 15 27 30 15 19 28 15 13 12 10 43 20 10 37 14 10 37 28 21 43 30 10* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.33 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 15,000.0 MWdlMTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-37 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 7 .. 10 14 --9 11-i .....14 12 --13------15 .. .. ..-14 12 --17---19 1. 10 14 --21 23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow 9%): Source Convergence 19 15500.0 (1548.60 499.0 ( 49.86 2923.0 (100.00 %)1044.5-20.62 86.46 (104.50 %)Core Average Exposure:

MWd/MTU 29621.4 15 14 12 12 14 30 17 19 21 23 25 51 47 43-- 10 ..39--35-- 14 .. .. ..- 31--27-- 14 .. .. ..- 23 19--10---- 15 11 7 3 34 38 42 46 50 Axial Profile N(PRA) Power Exposure Top 25 0.231 5.376 24 0.739 15.422 23 0.954 21.063 22 1.068 25.146 21 1.142 27.960:JR 20 1.181 29.655 19 1.181 30.662 18 1.158 31.286 17 1.119 31.680 16 1.102 30.528 15 1.104 31.250 14 1.184 31.217 13 1.205 32.169 12 1.221 33.119 11 1.227* 33.955 10 1.221 34.715 9 1.199 35.514 8 1.162 36.376 7 1.108 37.218 6 1.044 37.869 5 0.975 38.004*4 0.904 36.897 3 0.801 33.026 2 0.604 24.711 Bottom 1 0.167 6.762 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max.- IR JR 0.451 0.566 39 48 0.412 0.509 21 2 0.491 0.623 9 46 1.053 1.156 29 44 0.933 1.143 33 44 0.768 0.861 31 50 1.115 1.263 33 46 1.250 1.344 31 44 1.212 1.342 27 44 B. 64.0.99750 0.431 31.112 % AXIAL TILT 2 26.565 AVG BOT 8ft/12ft 0.!548.0 67.79 Active Channel Flow: Mlb/hr 15.8 (of total core flow)-0.0 (of total core flow)0.00045.225 -10.437 9827 1.0556 67.79 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value'Margin Exp. FT I1 1.344 31 31 44 1.513 0.892 31 31 10 7.83 0.873 45.5 14 29 1.342 32 27 44 1.514 0.892 32 27 10 7.91 0.871 44.4 14 31 1.320 32 43 28 1.524 0.886 32 43 26 7.73 0.851 44.2 14 39 1.319 31 43 32 1.526 0.884 31 43 32 7.71 0.846 43.9 14 37 1.318 31 27 36 1.547 0.872 31 27 36 7.72 0.842 43.4 14 31 1.317 32 29 42 1.549 0.872 31 35 28 7.61 0.836 44.0 14 29 1.317 31 33 42 1.558 0.867 32 29 12 7.49 0.822 44.1 14 35 1.315 31 35 28 1.559 0.866 31 35 36 7.37 0.818 45.1 14 33 1.313 31 35 36 1.564 0.863 32 27 14 7.45 0.818 44.0 14 31 1.311 32 33 34 1.567 0.862 31 29 20 7.39 0.818 44.7 14 37* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: JR K 22 20* 24 20* 24 19 22 19 16 19 14 19 24 20 22 20 20 20 26 19 Value 8.60 8.62 8.46 8.40 8.40 8.40 8.09 7.99 8.02 7.97 LBGR Margin Exp. FT 0.888 48.6 14 0.881 47.9 14 0.862 47.5 14, 0.861 48.0 14 0.851 47.0 14 0.851 47.0 14 0.850 50.2 14 0.847 50.9 14 0.843 50.2 14 0.843 50.7 14 IR JR K 29 22 20 31 24 20 39 24 19 37 22 20 31 16 19 29 14 19 35 30 20 37 28 19 21 20 20 29 36 20 Figure A.34 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 15,500.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-38 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 15950.0 (1593.60 449.0 ( 44.86 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 30071.5 1 3 5 7 9 11 13 15 17 19 21 23 1 3 5 7 9 ii 15 17 19 21 23 25 IR:.. 12 -- 16 ---- 16 -- 12 ---- 16 -- 12 --.. 10 -- 16 --2 6 10 14 18 22 26 16 -- 10 --12 -- 16 --25 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.234 5.504 24 0.749 15.774-23 0.969 21.517 22 1.092 25.659 21 1.176 28.513:JR 20 1.227 30.232 19 1.243* 31.249 18 1.232 31.867 17 1.210 32.251 16 1.172 31.059 15 1.156 31.774 14 1.223 31.723 13 1.230 32.679 12 1.231 33.633 11 1.223 34.469 10 1.203 35.225 9 1.167 36.015 8 1.115 36.860 7 1.048 37.680 6 0.971 38.305 5 0.893 39.412*4 0.817 37.276 3 0.721 33.362 2 0.545 24.965 Bottom 1 0.151 6.834 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.449 0.561 39 48 0.411 0.505- 21 2 0.489 0.627 9 46 1.052 1.153 29 10 0.933 1.144 33 10 0.765 0.858 31 4 1.114 1.263 33 8 1.249 1.346 31 10 1.222,1.342 25 44 12 -- 16----...16 -- 12 ....30 34 38 42 46 50 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 8.33 0.99788 0.420 30.959 26.413 547.9 67.87 15.7-0.0 0.00043% AXIAL TILT 6.724 -10.132 AVG BOT 8ft/12ft 0.9610 1.0539 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.87 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.346 31 31 10 1.342 32 25 44 1.324 32 29 12 1.323 31 33 12 1.322 31 35 18 1.316 31 43 22 1.314 32 43 26 1.314 31 27 18 1.311 31 41 20 1.310 32 33 20 Value 1.492 1.501 1.517 1.519 1.527 1.530 1.539 1.540 1.541 1.542 MCPR Margin FT 0.905 31 0.900 32 0.890 31 0.889 32 0.884 31 0.882 32 0.877 31 0.876 31 0.876 32 0.875 31 IR JR 31 10 27 10 43 22 43 26 35 18 29 12 27 18 21 36 27 14 37 20 APLHGR I Value Margin Exp. FT IR JR K 8.10 0.898 45.0 14 39 24 18 8.07 0.891 44.7 14 37 22 19 8.10 0.890 44.1 14 31 16 19 8.06 0.889 44.5 14 29 14 18 7.86 0.883 46.2 14 29 22 20 7.92 0.880 45.1 14 31 24 20 7.68 0.856 45.5 14 37 26 19 7.72 0.852 44.4 14 35 24 19 7.62 0.848 45.4 14 29 18 19 7.62 0.846 45.1 14 27 16 19 Value'8.84 8.83 8.86 8.79 8.38 8.43 8.27 8.29 8.18 8.18 LHGR Margin Exp. FT 0.908 48.2 14 0.906 48.1 14 0.903 47.5 14 0.900 48.0 14 0.899 51.9 14 0.893 50.7 14 0.885 51.7 14 0.882 51.2 14 0.875 51.6 14 0.872 51.3 14 IR JR K 39 24 18 37 22 19 29 14 18 21 38 19 29 22 20 21 30 20 37 28 19 35 24 19 29 36 19 27 38 19* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.35 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 15,950.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-39 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 16300.0 (1628.50 349.0 ( 34.87 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 30421.5 1 3 5 7 9 11 13 15 17 19 21 23 1 3 5 7 10--------

9 11 0 --13---15-0 --17---19 ... 10 21 -- ----- --23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 10 0 25 51 47 43 39 35 31 27 N (PB Top:JR Bottom Axial Profile RA) Power Exposure 25 0.164 5.572 24 0.524 15.962 23 0.681 21.762 22 0.777 25.939 21 0.852 28.820 20 0.910 30.562 19 0.957 31.596 18 1.011 32.235 17 1.065 32.640 16 1.123 31.453 15 1.176 .32.188 14 1.295 32.140 13 1.336 33.112 12 1.358 34.076 11 1.361* 34.915 10 1.347 35.670 9 1.316 36.453 8 1.269 37.287 7 1.212 38.093 6 1.154 38.703 5 1.103 38.798*4 1.057 37.649 3 0.976 33.710 2 0.761 25.235 1 0.215 6.911 Edit Radial Power Zone Avg. Max. IR JR 10 0.431 0.544 39 48 11 0.393 0.491 21 2 12 0.470 0.596 9 46 14 1.068 1.198 29 40 15 0.909 1.145 33 44 16 0.741 0.840 31 50 30 1.092 1.254 33 46 31 1.229 1.372 31 44 32 1.332 1.412 27 40 0---10---30 34 38 42 46 50 5.23 0.99839 0.456 31.718 27.171 548.2 67.49 Active 16.1 (of tot-0.0 (of tot 0.00023 23 19 15 11 7 3% AXIAL TILT -10.958 -10.108 AVG BOT 8ft/12ft 1.0907 1.0540 Channel Flow: Mlb/hr tal core flow)tal core flow)67.49 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.412 32 27 40 1.411 32 29 42 1.393 32 31 40 1.387 32 29 38 1.385 32 13 28 1.373 32 27 44 1.372 31 31 44 1.367 32 13 32 1.364 32 15 30 1.360 32 11 30 Value 1.545 1.547 1.567 1.571 1.574 1.580 1.597 1.601 1.602 1.604 MCPR Margin FT 0.906 32 0.905 32 0.894 32 0.891 32 0.890 31 0.886 32 0.877 32 0.875 31 0.874 31 0.873 31 IR JR 27 14 29 42 29 38 27 44 31 44 21 14 13 28 27 36 33 42 33 38 Value 7.32 7.28 7.29 7.29 7.04 7.04 7.00 6.93 7.00 6.95 APLHGR Margin Exp. FT 0.813 44.8 14 0.802 43.9 14 0.798 43.4 14 0.793 42.8 14 0.787 45.4 14 0.784 45.1 14 0.778 44.8 14 0.776 43.7 15 0.774 44.4 14 0.773 44.9 14 IR JR K 25 42 11 29 40 11 29 44 11 31 42 11 25 38 10 11 28 12 13 24 11 33 44 10 31 38 11 9 24 11 Value 7.68 7.75 7.67 7.49 7.67 7.45 7.50 7.57 7.36.7.40 LHGR Margin Exp. FT 0.834 52.9 14 0.823 51.0 14 0.822 51.9 14 0.819 53.4 15 0.816 51.2 14 0.812 53.1 14 ,'0.805 51.9 14 0.804 51.1 14 0.800 52.9 15 0.795 52.0 14 IR JR K 27 12 11 29 44 11 21 12 11 19 44 10'29 14 11 11 28 12 27 38 11 27 46 11 43 20 11 21 46 ii* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.36 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 16,300.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-40 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:'

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 3 19 16550.0 (1653.50 249.0 ( 24.88 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)15 17 19 21 23 25 51 47 43 12---- 39--35 0 31--- -- -- 27 8 23 19 10 -- 15 11 7 3.Axial Profile N(PRA) Power Exposure Top 25 0.179 5.625 24 0.574 16.110 5 7 9 13 15 17 19 21 23 25 IR: 2 8 --..-- 12 6 10 14 18 0 --Core Average Exposure:

MWd/MTU 30671.4 23 0.744 22 0.846 21 0.920 JR 20 0.972 19 1.015 1B 1.056 17 1.099 16 1.148 15 1.191 14 1.302 13 1. 33 12 1.346-11 1.341 10 1.319 9 1.281 8 1.227 7 1.163 6 1.098 5 1.039 4 0.989 3 0.910 2 0.709 Bottom 1 0.200 21.954 26.158 29.058 30.814 31.860 32.511 32.929 31.744 32.491 32.443 33.423 34.391 35.232 35.983 36.759 37.582 38.374 38.971 39.055*37.896 33.937 25.412 6.962 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.430 0.546 39 48 0.392 0.489 21 2 0.468 0.594 9 46 1.069 1.191 29 40 0.909 1.142 33 44 0.739 0.837 31 50 1.090 1.251 33 46 1.234 1.366 31 44 1.326 1.403 27 40 22 26 30 34 38 42 46 50 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence.

4.93 0.99862 0.447 31.543 % AXIAL TILT -6, 26.997 AVG BOT Bft/12ft 1.0 548.1 67.58 Active Channel Flow: Mlb/hr 16.0 (of total core flow)-0.0 (of total core flow)0.00024.664 -10.052 0633 1.0538 67.58 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.403 32 27 40 1.403 32 29 42 1.387 32 31 40 1.381 32 23 38 1.375 32 13 28 1.366 31 31 44 1.365 32 27 44 1.359 32 15 30 1.358 31 33 38 1.358 32 13 32 MCPR Value Margin FT 1.546 0.906 32 1.552 0.902 32 1.558 0.899 31 1.566 0.894 32 1.569 0.893 32 1.578 0.887 32 1.581 0.885 31 1.581 0.885 31 1.582 0.885 32 1.588 0.882 31 IR JR 29 12 27 14 31 44 25 10 31 40 29 16 33 42 33 38 13 28 37 34 APLHGR Value Margin Exp. FT 7.28 0.803 44.1 14 7.16 0.791 44.3 14 7.19 0.790 43.7 14 7.07 0.786 45.2 14 7.18 0.784 43.1 14 6.93 0.775 45.4 14 7.02 0.775 44.4 14 6.87 0.768 43.7 15 6.93 0.768 44.8 14 6.88 0.764 44.8 14 IRJR K 25 42 12 29 40 11 29 44 11 41 28 15 31 42 11 25 38 11 13 24 15 33 44 11 43 30 15 31 38 11 Value 7.68 7.77 7.54 7.45 7.66 7.42 7.60 7.37 7.33 7.31 LHGR Margin Exp. FT 0.825 52.0 14 0.815.50.0 14 0.813 52.3 14 0.808 52.8 15 0.807 50.4 14 0.805 52.8 14 0.797 50.1 14 0.794 52.3 14 0.789 52.2 15 0.789 52.4 14 IR JR K 27 12 12 29 44 12 21 12 11 19 44 11 29 14 12 11 28 15 27 46 12'27 38 11 43 20 12 21 46 11* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.37 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 16,550.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-41 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 16750.0 (1673.50 199.0 ( 19.88 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 30871.4 1 3 5 7 9-11 15 17 19 21 23 25 IR: 1 3 5 7 9..12..14 2 6 10 14 18 11 13 15 17 19 21 23 25 14 8 -- 0 0 -- 8 12 22 26 30 34 38 42 46 50% 4.81 0.99851 0.441 31.441 sia 26.896 548.1 hr 67.63 Active 15.9 (of to (%): -0.0 (of to 0.00041 51 47 43 39 35 31 27 23 19 15 11 7 3 N (PRA)Top 25 24 23 22 21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Bottom 1% AXIAL TILT Axial Profile Power Exposure 0.185 5.670 0.592 16.233 0.768 22.114 0.875 26.342 0.953 29.259 1.011 31.027 1.059 32.084 1.099 32.744 1.132 33.169 1.171 31.983 1.206 32.738 1.310 32.687 1.334 33.673 1.340* 34.643 1.329 35.482 1.301 36.230 1.257 36.998 1.199 37.811 1.131 38.592 1.061 39.176 0.999 39.249*0.947 38.081 0.869 34.108 0.679 25.546 0.192 7.000 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power.Avg. Max. IR JR 0.432 0.549 39 48 0.394 0.489 21 2 0.469 0.599 9 46 1.065 1.185 31 42 0.914 1.141 33 44 0.742 0.837 31 50 1.094 1.251 33 46 1.233 1.364 31 44 1.320 1.396 29 42 Control Rod Density: k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: p Coolant Temp: Deg-F In Channel Flow: Mlb/Total Bypass Flow (%)Total Water Rod Flow Source Convergence

-3 AVG BOT 8ft/12ft 1.(Channel Flow: Mlb/hr tal core flow)tal core flow).983 -9.984 0473 1.0536 67.63 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.396 32 29 42 1.394 32 27 40 1.382 32 31 40 1.372 32 23 38 1.365 32 13 28 1.364 31 31 44 1.359 32 27 44 1.357 31 33 38 1.354 31 33 42 1.354 31 37 34 Value 1.542 1.549 1.552 1.562 1.563 1.568 1.569 1.577 1.577 1.584 MCPR Margin FT 0.908 32 0.904 31 0.902 32 0.896 32 0.896 32 0.893 31 0.892 31 0.888 31 0.888 32 0.884 32 IR JR 29 12 31 44 27 14 25 10 31 14 33 42 33 38 37 34 29 16 13 28 Value 7.32 7.20 7.10 7.27 7.24 7.07 6.97 6.95 6.90 7.09 APLHGR Margin Exp. FT 0.807 44.3 14 0.793 44.2 14 0.792 45.5 14 0.790 42.8 14 0.787 42.9 14 0.782 44.7 14 0.775 45.1 14 0.772 45.1 14 0.770 45.5 14 0.766 42.8 15 IR JR K 25 12 15 23 14 15 41 28 15 23 10 15 21 12 15 13 24 15 43 30 15 41 32 15 25 16 15 37 40 19 LHGR Value Margin Exp. FT 7.73 0.823 51.3 14 7.73 0.814 50.3 14 7.64 0.812 51.1 14 7.45 0.811 53.2 14 7.65 0.805 50.2 14 7.49 0.804 52.0 15 7.56 0.797 50.4 14 7.42 0.792 51.5 14 7.41 0.791 51.4 14 7.37 0.790 51.7 14 IR JR K 27 12 15.29 44 12 21 12 15 11 28 15 29 14 15 19 44 12 27 46 12 13 30 15 43 30 15 27 38 12* LHGR calculated with pin-power reconstruction" CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.38 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 16,750.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-42 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 16950.0 (1693.50 199.0 ( 19.89 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 31071.4 Axial Profile N(PRA) Power Exposure Top 25 0.199 5.718 24 0.637 16.366 Edit Radial Power Zone Avg. Max. IR JR 10 0.430 0.548 39 48 11 0.393 0.487 21 2 1 3 5 7 9 11 13 15 17 19 21 23 25 1 -- __3 5 7 .. 12 9 11 8 13---15 8------------

17- --19 ..14 21 23 25 IR: 2 6 10 14 18 22 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence 14 ---- 8-- ---- ----- 8-----12 --26 30 34 38 42 51 47 43-- 39 35 31 27 23 19-- 15 11 7 3 46 50 23 22 21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Bottom 1 0.823 0.934 1.007 1.053 1.092 1.123 1.148 1.182 1.211 1.309 1.327 1.328*1.312 1.280 1.232 1.169 1.097 1.023 0.957 0.902 0.826 0.645 0.182 22.286 26.537 29.470 31.249 32.314 32.982 33.413 32.224 32.986 32.932 33.922 34.893 35.730 36.472 37.232 38.034 38.803 39.375 39.436*38.258 34.271 25.673 7.036 12 14 15 16 30 31 32 0.467 0.596 1.069 1.181 0.910 1.136 0.739 0.833 1.089 1.246 1.239 1.359 1.317 1.390 9 46 29 40 33 44 31 50 33 46 33 38 29 42 4.56 0.99857 0.434* 31.319 26.774 548.0 67.70 15.9-0.0 0.00041% AXIAL TILT -0.991 -9.898 AVG BOT 8ft/12ft 1.0272 1.0533 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.70 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.390 32 29 42 1.389 32 27 40 1.378 32 31 40 1.373 32 29 38 1.359 31 33 38 1.359 32 13 26 1.357 31 31 44 1.356 31 37 34 1.352 31 31 36 1.352 32 27 44 Value 1.535 1.535 1.540 1.541 1.549 1.555 1.557 1.559 1.561 1.569 MCPR Margin FT 0.912 32 0.912 32 0.909 31 0.908 32 0.904 31 0.900 32 0.899 31 0.898 31 0.897 32 0.892 32 IR JR 29 42 27 40 31 44 31 40 33 38 27 44 37 34 33 42 29 38 13 26 APLHGR Value Margin Exp. FT 7.34 0.811 44.6 14 7.22 0.797 44.5 14 7.30 0.795 43.1 14 7.09 0.794 45.8 14 7.27 0.792 43.2 14 7.27 0.789 43.1 15 7.24 0.786 43.2 15 7.07 0.785 45.0 14 7.00 0.778 45.0 14 6.95 0.775 45.4 14 IR JR K 25 12 15 23 14 15 23 10 15 41 28 15 21 12 15 15 14 19 39 38 19 13 24 15 9 24 15 41 32 15 LHGR Value Margin Exp. FT 7.74 0.827 51.6 14 7.66 0.817 51.4 14 7.44 0.814 53.5 14 7.79 0.812 49.5 14 7.66 0.808 50.5 14 7.59 0..800 50.5 15 7.42 0.800 52.3 15 7.54 0.798 50.8 15 7.41 0.794 51.8 14 7.41 0.794 51.7 14 IR JR K 27 12 15 21 12 15 11 28 15 29 44 15 29 14 15 15 14 19 19 44 12 39 38 19 13 30 15 43 30 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.39 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 16,950.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-43 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 17100.0 (1708.50 149.0 ( 14.89 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTO 31221.5 1 3 5 7 9 11 13 15 17 19 21 23 25 13 3 5 7 9 13 15 17 19 21 23 25 IR: 2 14 8 10 14 51 47 43 14---- 39-35--100 31-27-- 8 23 19 14 ..15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.203 5.756 24 0.650 16.469 23 0.841 22.420 22 0.956 26.689 21 1.034 29.635:JR 20 1.085 31.422 19 1.122 32.494 18 1.153 33.166 17 1.170 33.600 16 1.197 32.409 15 1.220 33.174 14 1.313 33.117 13 1.326* 34.109 12 1.323 35.080 11 1.302 35.914 10 1.267 36.652 9 1.216 37.405 8 1.150 38.199 7 1.075 38.957 6 0.997 39.518 5 0.929 39.571*4 0.872 38.385 3 0.797 34.387 2 0.624* 25.764 Bottom 1 0.176 7'062 Edit Radial Power Zone Avg. Max. IR JR 10 0.430 0.545 39 48 11 0.393 0.485 21 2 12 0.467 0.602 9 46 14 1.068 1.175 29 40 15 0.911 1.130 33 44 16 0.739 0.830 31 50 30 1.090 1.240 33 46 31 1.240 1.354 33 38 32 1.313 1.383, 27 40 6 10 14 18 22 26 30 34 38 42 46 50 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate belta-P: psia Coolant Tamp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 4.44 0.99853 0.430 31.247 26.703 548.0 67.74 15.8-0.0 0.00039% AXIAL TILT 0.914 -9.822 AVG BOT Bft/12ft 1.0154 1.0529 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.74 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.383 32 27 40 1.382 32 29 42 1.371 32 31 40 1.367 32 29 38 1.354 31 33 38 1.352 32 13 26 1.351 31 31 44 1.350 31 31 36 1.350 31 37 34 1.346 32 27 44 Value 1.535 1.536 1.541 1.542 1.547 1.555 1.556 1.559 1.561 1.568 MCPR Margin FT 0.912 32 0.911 32 0.908 31 0.908 32 0.905 31 0.901 32 0.900 31 0.898 32 0.897 31 0.893 31 IR JR 27 40 29 42 31 44 31 40 33 38 27 44 37 34 29 38 33 42 31 36 Value 7.36 7.23 7.32 7.35 7.09 7.32 7.28 7.08 7.01 6.94 APLHGR Margin Exp. FT 0.816 44.8 14 0.801 44.7 14 0.799 43.3 14 0.799 43.3 15 0.797 46.2 14 0.796 43.5 15 0.796 43.4 14 0.788 45.2 14 0.780 45.2 14 0.778.46.0 14 IR JR K 25 42 15.23 14 15 23 10 15 15 14 19 11 28 15 39 38 19 21 12 15 13 24 15 9 24 15 25 16 15 LHGR Value Margin Exp. FT 7.77 0.834 51.8 14 7.77 0.828 51.3 15 7.67 0.821 51.6 14 7.46 0.819 53.7 14 7.61 0.817 52.0 15 7.81 0.817 49.8 14 7.70 0.815 50.8 14 7.45 0.801 52.0 14 7.47 0.800 51.7 15 7.41 0.796 52.0 14 IR JR K 27 12 15 37 14 19.21 12 15 11 28 15 13 38 19 29 44 15 29 14 15 13 30 15 19 44 15 43 30 15*.LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.40 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 17,100.0 MWdlMTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page A-44 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/Ib: Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 7 9 11.. -- 16-1i0 19 17101.0 (1708.60 1.0 ( 0.10 2923.0 (100.00 %)1044.5 m -21.47 77.62 (100.80 %)13 15 17 19 21 23 25 51 47 43 16 ..39--35--10 31--27-- 10-23 19 16 -.15 11 7 3 26 30 34 38 42 46 50 4.26 Axial Profile N(PRA) Power Exposure Top 25 0.203 5.756 24 0.646 16.470 23 0.837 22.420 22 0.955 26.690 21 1.038 29.636:JR 20 1.097 31.423 19 1.135 32.495 18 1.172 33.167 17 1.197 33.601 16 1.213 32.410 15 1.228 33.175 14 1.315 33.118 13 1.322* 34.110 12 1.315 35.081 11 1.292 35.915 10 1.256 36.653 9 1.204 37.406 8 1.139 38.200 7 1.065 38.958 6 0.990 39.519 5 0.923 39.572*4 0.867 38.386 3 0.794 34.388 2 0.621 25.764 Bottom 1 0.176 7.062 Edit Zone 10 11 12 14 15 16 30 31 32 Core Average Exposure:

MWd/MTU 31222.4 Radial Power Avg. Max. IR JR 0.430 0.546 39 48 0.393 0.483 21 2 0.466 0.603 9 46 1.068 1.170 29 40 0.913 1.126 33 44 0.738 0.825 31 50 1.088 1.234 33 46 1.243 1.353 33 38 1.310 1.376 27 40 15 -10 17 19 ..16 21 23 25 IR: 2 6 10 14 18 22 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (M)Source Convergence 0.99853 0.434 29.510 24.967 547.9 65.27 15.9-0.0 0.00041% AXIAL TILT 1.660 -9.822 AVG BOT 8ft/12ft 1.0114 1.0529 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)65.27 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.376 32 27 40 1.375 32 29 42 1.367 32 31 40 1.363 32 29 38 1.353 31 33 38 1.351 31 15 34 1.347 31 31 36 1.347 32 13 28 1.343 31 31 44 1.339 32 13 32 MCPR Value Margin FT 1.512 0.926 32 1.516 0.924 32 1.518 0.922 32 1.520 0.921 31 1.521 0.920 31 1.529 0.916 31 1.536 0.911 32 1.536 0.911 32 1.537 0.911 31 1.539 0.909 31 IR JR 27 40 29 12 31 40 33 38 31 44 37 34 29 38 27 44 33 42 35 36 Value 7.70 7.61 7.35 7.23 7.30 7.29 7.09 7.09 6.96 6.99 APLHGR Margin Exp. FT 0.842 44.0 15 0.835 44.4 15.0.814 44.8 14 0.801 44.7 14 0.797 43.4 14 0.797 43.4 14 0.796 46.2 14 0.788 45.2 14 0.779 45.7 14 0.779 45.2 14 IR JR K 37 14 18 39 16 18 25 42 15 23 14 15 23 10 15 21 12 15 11 28 15 13 24 15 11 22 15 9 24 15 LHGR Value Margin Exp. FT 8.12 0.875 52.2 15 7.97 0.863 52.6 15 7.76 0.832 51.9 14 7.69 0.822 51.6 14 7.45 0.818 53.7 14 7.71 0.816 50.8 14 7.78 0.814 49.8 14 7.49 0.803 51.8 15 7.46 0.802 52.0 14 7.54 0.801 51.2 14 IR JR K 37 14 18 13 38 18 27 12 15 21 12 15 11 28 15 29 14 15 29 44 15 19 44 15 13 30 15 35 38 18" LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.41 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 17,101.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-45 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 17300.0 (1728.40 199.0 ( 19.88 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTJ 31421.4 1 3 5 7 9 11 13 15 17 19 21 23 25 1 3 5 7 ..16 9 11 10 13---15 10 17---19 ..16 21 23 25 IR: 2 6 10 14 18 22-16 ....-10 10-616 30 3 26 30 34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.207 5.806 24 0.661 16.608 23 0.856 22.600 22 0.976 26.895 21 1.059 29.859:JR 20 1.117 31.659 19 1.154 32.739 18 1.188 33.419 17 1.212 33.859 16 1.226 32.660 15 1.239 33.428 14 1.324 33.364 13 1.329* 34.358 12 1.318 35.327 11 1.292 36.157 10 1.252 36.888 9 1.196 37.632 8 1.126 38.413 7 1.047 39.158 6 0.966 39.705 5 0.894 39.745*4 0.835 38.549 3 0.762 34.537.2 0.597 25.881 Bottom 1 0.169 7.096 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.431 0.547 39 48 0.3940.483 21 2 0.466 0.605 9 46 1.066 1.168 31 42 0.915 1.127 33 44 0.740 0.827 31 50 1.092 1.238 33 46 1.242 1.351 33 38 1.308 1.374 29 42 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 4.26 0.99845 0.425 31.165 26. 621 547.9 67.78 15.8-0.0 0.00041% AXIAL TILT 3.223 -9.709 AVG B0T Bft/12ft 1.0026 1.0524 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.78 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.374 32 29 42 1.373 32 2740 1.364 32 31 40 1.358 32 29 38 1.351 31 33 38 1.348 31 15 34 1.345 31 31 44 1.343 31 31 36 1.342 32 13 28 1.339 31 33 42 MCPR Value Margin FT 1.538 0.910 32 1.538 0.910 32 1.540 0.909 31 1.542 0.908 32 1.543 0.907 31 1.552 0.902 31 1.556 0.900 31 1.557 0.899 32 1.563 0.896 31 1.563 0.896 32 IR JR 27 40 29 12 31 44 31 40 33 38 15 34 33 42 27 44 35 36 29 38 APLHGR Value Margin Exp. FT 7.78 0.853 44.3 15 7.67 0.847 45.0 15 7.40 0.823 45.1 14 7.28 0.808 45.0 14 7.38 0.808 43.7 14 7.35 0.806 43.8 14 7.12 0.802 46.5 14 7.12 0.794 45.5 14 7.04 0.786.45.5 14 7.00 0.785 46.0 14 IR JR K 37 14 18 13 16 18 25 42 15 23 14 15 23 10 15 21 12 15 11 28 15 13 24 15 9 24 15 11 22 15 Value 8.20 8.04 7.82 7.74 7.49 7.85 7.76 7.57 7.62 7.73 LHGR Margin Exp. FT 0.886 52.5 15 0.874 53.0 15-0.841 52.2 14 0.831 51.9 14 0.825 54.0 14 0.825 50.1 14 0.824 51.1 14 0.813 52.1 15 0.813 51.5 14 0.812 50.1 15 IR JR K 37 14 18 13 38 18 27 12 15 21 12 15 11 28. 15 29 44 15 29 14 15 19 44 15 35 38 18 13 12 18* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.42 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 17,300.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-46 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 17550.0 (1753.40 249.0 ( 24.88 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 31671.5 1 3 5 7 9 11 13 15 17 19 21 23 1 3 5 7 9 11 13 15 17 19 21 23 25 IR:-- 0 -- 18 25 18 18 2 6 10 14 18 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.189 5.863 24 0.602 16.765 23 0.782 22.803 22 0.898 27.130 21 0.987 30.118:JR 20 1.059 31.937 19 1.122 33.035 18 1.180 33.732 17 1.226 34.184 16 1.265 32.983 15 1.278 33.755 14 1.363 33.682 13 1.365* 34.677 12 1.351 35.644 11 1.320 36.468 10 1.276 37.190 9 1.216 37.921 8 1.143 38.686 7 1.061 39.413 6 0.980 39.943 5 0.909 39.967*4 0.852 38.760 3 0.783 34.731 2 0.619 26.034 Bottom 1 0.176 7.140 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.434 0.558 39 48 0.397 0.477 21 2 0.465 0.623 9 46 1.042 1.167 33 40 0.955 1.161 37 40 0.747 0.819 31 50 1.118 1.332 39 40 1.241 1.373 37 38 1.276 1.361 31 40-- 0-- 18-----------

22 26 30 34 38 42 46 50 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 3.28 0.99855 0.430 31.268 26.724 548.0 67.72 15.8-0.0 0.00032% AXIAL TILT 1.123 -9.590 AVG BOT 8ft/12ft 1.0251 1.0520 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.72 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.373 31 37 38 1.372 31 33 38 1.369 31 35 40 1.361 32 31 40 1.360 31 17 36 1.360 31 33 42 1.358 31 13 36 1.357 32 29 42 1.346 32 27 40 1.340 31 31 44 MCPR Value Margin FT 1.537 0.911 30 1.540 0.909 31 1.543 0.907 31 1.543 0.907 31 1.545 0.906 31 1.553 0.901 31 1.561 0.897 31 1.569 0.892 31 1.572 0.991 32 1.580' 0.886 32 IR JR 39 40 35 40 35 36 33 38 37 38 39 36 33 42 31 44 31 40 29 42 APLHGR Value Margin Exp. FT 7.58 0.852 46.2 14 7.38 0.832 46.5 14 7.37 0.823 45.5 14 7.42 0.816 44.1 14 7.28 0.816 45.9 15 7.30 0.814 45.4 14 7.23 0.811 45.9 15 7.30 0.811 45.0 14 7.29 0.809 44.9 14 7.35 0.808 44.0 14 IR JR K 17 24 17 19 22 17 25 42 15 21 12 15 37 40 15 23 14 15 39 38 15 33 40 15 35 38 15 23 10 15 Value 7.98 8.16 7.73 7.80 7.78 7.64 7.77 7.50 7.64 7.81 LHGR Margin Exp. FT 0.868 53.0 14 0.851 49.5 14 0.849 53.8 15 0.842 52.3 14 0.841 52.6 14 0.838 53.7 15 0.830 51.5 14 0.826 54.0 14 0.825 52.5 15 0.824 50.5 14 IR JR K 35 30 17 19 22 17 37 14 15 21 12 15 27 12 15 13 38 15 29 14 15 35 20 17 19 44 15 29 44 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

-& CPR limit type 3* Thermal limit file: Figure A.43 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 17,550.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-47 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lb Flow: Mlb/hr 1 3 5 7 9 11 1 3 5 7 9 11-- --- 18 --13 15 --18 --17---19 21'23 25 IR: 2 6 10 14 18 22 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%)Total Water Rod Flow (%)Source Convergence 1 19 17725.0 (1770.90 174.0 ( 17.38 2923.0 (100.00 %)1044.5 m -20.62 80.46 (104.50 %)13 15 17 19 21 23 25 5 4 4 3-83 8 -- 18--------3 Core Average Exposure:

MWd/MTU 31846.4 1 7 3 9 5 1 8 -- 18 26 30 34 38 42 46 50 3.04 0.99842 0.424 31.165 26.622 547.9 67.78 Active 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.202 5.906 24 0.643 16.883 23 0.833 22.956 22 0.952 27.306 21 1.036 30.309:JR 20 1.096 32.140 19 1.149 33.248 18 1.199 33.955 17 1.238 34.416 16 1.271 33.211 15 1.277 33.985 14 1.357* 33.905 13 1.355 34.900 12 1.337 35.865 11 1.303 36.683 10 1.256 37.398 9 1.193 38.119 8 1.118 38.87T3 7 1.034 39.587 6 0.949 40.103 5 0.875 40.116*4 0.817 38.899 3 0.749 34.859 2 0.593 26.136 Bottom 1 0.168 7.169 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.432 0.555 39 48 0.395 0.475 .21 2 0.463 0.620 9 46 1.047 1.161 33 40 0.950 1.153 15 14 0.744 0.815 31 50 1.112 1.323 39 40 1.246 1.367 33 38 1.274 1.356 31 40% AXIAL TILT 3.641 -9.491 AVGBOT 8ft/l2ft 1.0073 1.0516 Channel Flow: Mlb/hr 67.78 15.8 (of total core flow)-0.0 (of total core flow)0.00038 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.367 31 )33 38 1.364 31 15 38 1.360 31 35 40 1,356 31 17 36 1.356 32 31 40 1.352 31 "33 42 1.351 32 29 42 1.349 31 13 36 1.344 32 27 40 1.335 32 29 38 Value 1.534 1.537 1.537 1.538 1.546 1.553 1.559 1.560 1.564 1.574 MCPR Margin FT 0.913 31 0.911 31 0.911 30 0.910 31 0.905 31 0.901 31 0.898 32 0.897 31 0.895 31 0.890 32 IR JR 35 36 35 40 39 40 33 38 37 38 13 36 31 40 33 42 31 44 29 42 Value 7.65 7.47 7.36 7.41 7.26 7.29 7.29 7.21 7.35 7.28 APLHGR Margin Exp. FT, 0.861 46.5 14 0.844 46.8 14 0.824 45.7 14 0.817 44.4 14 0.816 46.1 15 0.816 45.7 14 0.811 45.2 14 0.810 46.1 15 0.810 44.3 14 0.809 45.2 14 IR JR K 17 24 17 19 22 17 25 42 15 21 12 15 37 40 15 23 14 15 33 40 15 39 38 15 23 10 15 35 38 15 Value 8.03 8.24 7.70 7.79 7.76 7.61 7.56 7.75 7.62 7.63 LHGR Margin Exp. FT 0.877 53.3 14 0.863 49.8 14 0.849 54.1 15 0.843 52.6 14 0.843 52.9 14 0.838 54.0 15 0.835 54.3 14 0.831 51.8 14 0.829 52.9 14 0.827 52.7 15 IR JR K 35 30 17 19 22 17 37 14 15 21 12 15 27 12 15 13 38 15 35 20 17 29 14 15 37 22 17 19 44 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.44 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 17,725.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-48 Cycle: Exposure:

MWd/MTO (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 18000.0 (1798.40 274.0 ( 27.38 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 32121.4 1 3 5 7 9 1113 15 17 19 21 3 25 1 3 5 7 9-----------------------

51 47 43 39 35 11 --13 15 17 19 21 23 25 IR: 2-- -- 8----------------

6 10 14 18 22 8 31 27 23 19 15 11 7 Axial Profile N(PRA) Power Exposure Top 25 0.186 5.967..24- 0.592 17.051 23 0.767 23.174 22 0.879 27.557 21 0.958 30.583:JR 20 1.016 32.432 19 1.070 33.557 18 1.123 34.281 17 1.171 34.757 16 1.223 33.554 15 1.258 34.339 14 1.359 34.254 13 1.370* 35.253 12 1.361 36.216 11 1.333 37.029 10 1.289 37.733 9 1.230 38.441 8 1.159 39.178 7 1.082 39.874 6 1.008 40.373*5 0.947 40.373 4 0.903 39.146 3 0.844 35.091 2 0.678 26.322 Bottom 1 0.194 7.223% AXIAL TILT -1.807 -9.391 Edit Radial Power Zone. Avg. Max. IR JR 10 0.419 0.539 39 48 11 0.383 0.460 21 2 12 0.449 0.603 9 46 14 1.066 1.155 15 36 15 0.927 1.130 13 38 16 0.724 0.793 31 50 30 1.085 1.293 39 40 31 1.272 1.374 17 36 32 1.276 1.339 19 34 26 30 34 38 42 46 50 3 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 1.22 0.99872 0.435 31.399 26.856 AVG BOT 8ft/12ft 1.0420 1.0512 548.0 67.66 Active Channel Flow: Mlb/hr 67.66 15.9 (of total core flow)-0.0 (of total core flow)0.00044 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT 1.374 31 1.365 31 1.355 31 1.348 31 1.347 31 1.341 31 1.341 31 1.339 32 1.334 31 1.329 31 IR JR 17 36 15 34 33 38 17 32 15 38 21 36 13 36 19 34 35 40 17 28 Value 1.563 1.580 1.585 1.593 1.597 1.598 1.598 1.612 1.617 1.622 MCPR Margin FT 0.896 31 0.886 31 0.883 31 0.879 31 0.877 31 0.876 30 0.876 31 0.869 31 0.866 31 0.863 32 IR JR 17 18 15 34 33 38 37 38 13 36 39 40 35 40 17 32 21 36 19 34 APLHGR Value Margin Exp. FT 7.12 0.800 46.1 14 7.17 0.795 44.8 14 7.05 0.794 46.4 15 7.05 0.792 46.1 14 7.16 0.791 44.5 14 7.08 0.791 45.5 14 6.98 0.790 46,7 15 7.06 0.790 45.7 14 7.13 0.789 44.7 14 7.02 0.787 45.8 14 IR JR K 25 42 15 21 12 15 15 14 15 23 14 15 15 18 15 17 16 15 13 16 15 33 40 15 23 10 15 17 20 15 LHGR Value Margin Exp. FT 7.46 0.827 54.5 15 7.54 0.820 53.1 14 7.40 0.820 54.4 15 7.50 0.819 53.3 14 7.38 0.808 53.6 14 7.48 0.806 52.2 14 7.38 0.806 53.3 14 7.40 0.806 53.2 15 7.38 0.806 53.4 14 7.56 0.804 51.2 14 IR JR K 37 14 15 21 12 15 13 38 15 27 12 15 13 20 15 29 14 15 35 20 15 19 44 15 19 36 15 29 44 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.45 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 18,000.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-49 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm-Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 7 9 11 16 13---15 16 17---19 21, 23 25 IR: 2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%)*Total Water Rod Flow (%): Source Convergence 19 18200.0 (1818.40 199.0 ( 19.88 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)15 17 19 21 23 25 51 47 43 39 35 31 27 23 19 15 11 7 3 30 34 38 42 46 50 Core Average Exposure:

MWd/MTU 32321.5 Axial Profile N(PRA) Power Exposure Top 25 0.192 6.013 24 0.612 17.179 23 0.794 23.340.22 0.911 27.748 21 0.996 30.793:JR 20, 1.062 32.656 19 1.119 33.794 18 1.169 34.529 17 1.210 35.014 16 1.249 33.810 15 1.273 34.600 14 1.364 34.509 13 1.367* 35.509 12 1.351 36.470 11 1.318 37.277 10 1.269 37.973 9 1.206 38.670 8 1.131 39.394 7 1.049 40.076 6 0.970 40.561*5 0.905 40.550 4 0.857 39.315 3 0.799 35.250 2 0.642 26.449 Bottom 1 0.184 7.260 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.416 0.536 39 48 0.381 0.458 21 2 0.446 0.599 9 46 1.071 1.148 33 36 0.921 1.122 15 14 0.720 0.789 31 50 1.079 1.284 39 40 1.278 1.369 17 36 1.274 1.343 19 34 0.97 0.99864 0.429 31.290 26.747 547.9 67.72 15.8-0.0 0.00038% AXIAL TILT 1.140 -9.299 AVG BOT 8ft/12ft 1.0240 1.0509 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.72 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.369 31 17 36 1.358 31 15 34 1.351 31 33 38 1.348 31 21 36 1.347 31 17 32 1.343 32 19 34 1.338 31 15 38 1.331 31 17 28 1.331 31 13 36 1.325 31 35 40 Value 1.554 1.576 1.576 1.588 1.593 1.595 1.596 1.597 1.598 1.598 MCPR Margin FT 0.901 31 0.888 31 0.888 31 0.882 31 0.879 31 0.878 31 0.877 31 0.877 31 0.876 32 0.876 30 IR JR 17 18 33 38 15 20 21 36 37 38 17 32 35 40 13 36 i9 34 39 40 APLHGR Value Margin Exp. FT 7.18 0.809 46.4 14 7.14 0.804 46.4 14 7.21 0.802 45.1 14 7.12 0.800 46.1 14 7.14 0.799 45.8 14 7.13 0.799 45.9 14 7.21 0.799 44.8 14 7.07 0.799 46.7 15 7.11 0.798 45.9 14 7.05 0.796 46.6 14 IR JR K 25 42 15 23 14 15 21 12 15 17 20 15 17 16 15 19 18 15 15 18 15 15 14 15 33 40 15 31 38 15 Value 7.48 7.59 7.55 7.42 7.48 7.46 7.55 7.41 7.42 7.60 LHGR Margin Exp. FT 0.833 54.8 15 0.829 53.4 14 0.828 53.6 14 0.825 54.7 15 0.820 53.7 14 0.818 53.6 14 0.817 52.5 14 0.815 53.9 14 0.812 53.5 15 0.811 51.5 14 IR JR K 37 14 15 21 12 15 27 12 15 13 38 15 19 36 15 35 20 15 29 14 15 13 20 15 19 44 15 29 44 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.46 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 18,200.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page A-50 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ibm Flow: Mlb/hr 19 18350.0 (1833.40 149.0 ( 14.89 2923.0 (100.00 %)1044.5-20.62 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 32471.5 1 3 5 7 9 11 13 15 17 19 21 23 1 3 5 7 9---------------

11---------------

13 15 17 19 21 23 25 IR: 2 6 10 14 18 Control Rod Density: k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: p Coolant Temp: Deg-F In Channel Flow: Mlb/Total Bypass Flow (%)Total Water Rod Flow Source Convergence 25 51 47 43 39 35 31 27 23 19 15 11 7 N (PRA)Top 25 24 23 22 21:JR 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 Axial Profile Power Exposure 0.184 6.047 0.589 17.271 0.764 23.460 0.878 27.886 0.961 30.945 1.026 32.819 1.084 33.966 1.138 34.710 1.186 35.204 1.239 34.000 1.272 34.796 1.370 34.701 1.377- 35.702 1.364 36.662 1.331 37.465 1.284 38.154 1.221 38.843 1.146 39.557 1.066 40.229 0.990 40.705*0.930 40.686 0.890 39.447 0.837 35.374 0.677 26.550 0.195 7.290-1.016 -9.240 1.0390 1.0507 Ahr 67.67 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.408 0.525 39 48 0.373 0.449 21 2 0.437 0.588 9 46 1.085 1.159 21 34 0.904 1.104 15 14 0.707 0.775 31 50 1.060 1.262 13 14 1.296 1.368 21 32 1.270 1.355 19 34 22 26 30 34 38 42 46 50 3 0.00 0.99907 Bottom 1 0.432 31.392 % AXIAL TILT 26.849 AVG BOT 8ft/12ft 548.0 67.67 Active Channel Flow: Mlb/15.9 (of total core flow)-0.0 (of total core flow)0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.368 31 21 32 1.366 31 21 36 1.365 31 23 34 1.360 31 17 36 1.355 32 19 34 1.354 31 25 36 1.353 31 19 30 1.349 31 17 32 1.348 31 21 28 1.345 31 23 30 MCPR Value Margin FT 1.582 0.885 31 1.588 0.882 31 1.594 0.878 31 1.599 0.876 31 1.600 0.875 32 1.600 0.875: 31 1.603 0.873 31 1.607 0:871 31 1.607 0.871 31 1.610 0.869 31 IR JR 17 18 21 36 23 34 33 38 19 34 21 22 15 34 19 30 27 36 17 32 APLHGR Value Margin Exp. FT 7.08 0.799 46.7 14 7.06 0.797 46.6 14 7.09 0.797 46.1 14 7.07 0.796 46.3 14 7.00 0.793 46.9 14 6.92 0.792 47.8 14 7.10 0.791 45.3 14 7.03 0.790 46.1 14 7.10 0.788 45.1 14 7.01 0.788 46.2 14 IR JR K 25 42 15 23 14 15 19 18 15 17 20 15 31 38 15 25 38 15 21 12 15 17 16 15 15 18 15 33 40 15 LHGR Value Margin Exp. FT 7.36 0.821 55.1 15 7.48 0.820 53.6 14 7.43 0.819 54.0 14 7.40 0.814 53.9 14 7.29 0.813 54.9 15 7.38 0.810 53.8 14 7.44 0.807 52.8 14 7.31 0.806 54.1 14 7.29 0.804 54.1 14 7.33 0.804 53.7 14 IR JR K 37 14 15 21 12 15 27 12 15 19 36 15 13 38 15 35 20 15 29 14 15 27 38 15 13 20 15 21 38 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.47- Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 18,350.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-51 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 1 3 5 7 19------------------

21------------------

19 21 23 25 IR: 2 6 10 14 18 22 13 26 19 18575.0 (1855.80 224.0 ( 22.38 2923.0 (100.00 %)1038.6-24.23.80.46 (104.50 %)15 17 19 21 23 25 51 47 43 39 35 31 27 23 19 15 11 7 3 30 34 38 42 46 50 Axial Profile N(PRA) Power Exposure Top 25 0.186 6.097 24 0.594 17.410 23 0.770 23.640 22 0.885 28.094 21 0.966 31.172:JR 20 1.029 33.062 19 1.084 34.223 18 1.136 34.981 17 1.183 35.486 16 1.234 34.283 15 1.268 35.088 14 1.368 34.988 13 1.377* 35.992 12 1.367 36.950 11 1.338 37.748 10 1.292 38.429 9 1.231 39.106 8 1.155 39.806, 7 1.072 40.461 6 0.990 40..921*5 0.924 40.890 4 0.877 39.643 3 0.820 35.559 2 0.663 26.699 Bottom 1 0.191 7.333 Edit Zone 10 11 12 14 15 16 30 31 32 Core Average Exposure:

MWd/MTU 32696.4 Radial Power Avg. Max. IR JR 0.411 0.529 39 48 0.375 0.452 21 2 0.440 0.597 9 46 1.080 1.149 21 34 0.911 1.104 15 14 0.716 0.784 31 50 1.069 1.263 13 14 1.289 1.353 21 36 1.264 1.343 19 34 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 0.00 0.99904 0.416 31.017 26.456 546.6 67.81 15.7-0.0 0. 00050% AXIAL TILT -0.913 -9.154 AVG BOT 8ft/12ft 1.0377 1.0504 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)67.81 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT 1.353 31 1.353 31 1.350 31 1.350 31 1.343 32 1.340 31 1.339 31 1.337 31 1.335 31 1.333 31 IR JR 21 36 21 32 17 36 23 34 19 34 25 36 19 30 17 32 15 34 33 38 Value 1.609 1.619 1.626 1.629 1.630 1.632 1.636 1.641 1.642 1.642 MCPR Margin FT 0.901 31 0.895 31 0.892 31 0.890 31 0.890 31 0.889 32 0.886 31 0.884 31 0.883 31 0.883 31 IR JR 17 18 21 36 19 38 23 34 15 34 19 34 21 22 27 36 19 30 17 32 APLHGR Value Margin Exp. FT IR JR K 7.03 0.796 47.0 14 25 42 15 6.99 0.792 46.9 14' 23 14 15 7.01 0.790 46.5 14 19 18 15 6.98 0.789 46.7 14 17 20 15 7.05 0.789 45.7 14 21 12 15 6.93 0.787 47.2 14 31 38 15 6.84 0.785 48.2 14 25 38 15 6.97 0.785 46.4 14 17 16 15 6.91 0.785 47.2 15 15 14 15 7.03 0.784 45.4 14 15 18 15 Value 7.30 7.42 7.37 7.24 7.32 7.28 7.38 7:27 7.22 7.44 LHGR Margin Exp. FT 0.818 55.4 15 0.816 54.0 14 0.815 54.4 14 0.810 55.3 15 0.808 54.2 14 0.804 54.2 14 0.803 53.1 14 0.800 54.0 15 0.800 54.5 14 0.800 52.1 14 IR JR K 37 14 15 21 12 15 27 12 15 13 38 15 19 36 15 35 20 15 29 14 15 19 44 15 13 20 15 29 44 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3" Thermal limit file: Figure A.48 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 18,575.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-52 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/Ibm Flow: Mlb/hr 19 18775.0 (1875.80 199.0 ( 19.88 2923.0 (100.00 %)1033.4-27.53 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 32896.5 Axial Profile N'(PRA) Power Exposure Top 25 0.187 6.142 24 0.599 17.534 23 0.777 23.801 Edit Radial Power Zone Avg. Max. IR JR 10 0.413 0.532 39 48 11 0.377 0.454 21 2 12 0.443 0.604 9 46 1 3 5 7 9 1 .-3 5 7 9--------------

11---------------

13 15 17 19 21 23 25 IR: 2 6 10 14 18 11 13 15 17 19 21 23 25 51 47 43 39 35 31 27 23 19 15 11 7 3 22 26 30 34 38 42 46 50 22 0.892 21 0.972:JR 20. 1.033 19 1.086 18 1.136 17 1.181 16 1.231 15 1.266 14 1.368 13 1.380*12 1.373 11 1.346 10 1.302 9 1.241 8 1.163 7 1.075 6 0.987 5 0.914 4 0.860 3 0.800 2 0.647 Bottom 1 0.186 28.279 31.375 33.279 34.452 35.221 35.7 37 34.535 35.347 35.244 36.250 37.207 38.001 38.674 39.341 40.028 40.668 41.114*41.071 39.814 35.719 26.829 7.371-9.078 1.0502 67.95 14 15 16 30 31 32 1.076 1.140 0.916 1.104 0.723 0.792 1.076 1.263 1.284 1.342 1.258 1.332 21 34 15 14 31 50 13 14 17 36 19 34 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 0.00 0.99909 0.402 30.676 % AXIAL TILT -0.702 26.098 AVG BOT Bft/12ft 1.0360 545.3 67.95 Active Channel Flow: Mlb/hr 15.6 (of total core flow)-0.0 (of total core flow)0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.342 31 17 36 1.342 31 21 36 1.340 31 21 32 1.337 31 23 34 1.332 32 19 34 1.328 31 25 36 1.327 31 15 34 1.327 31 17 32 1.326 31 19 30 1.325 31 19 16 MCPR Value Margin FT 1.634 0.887 31 1.647 0.880 31 1.650 0.879 31 1.653 0.877 31 1.660 0.873 32 1.660 0.873 31 1.661 0.873 30 1.667 0.870 31 1.668 0.869 31 1.671 0.868 31 IR JR 17 18 21 36 19 38 15 34 19 34 23 34 13 14 15 16 21 22 27 36 APLHGR Value Margin Exp. FT 6.98 0.794 47.3 14 6.94 0.788 47.2 14 7.02 0.787 46.0 14 6.94 0.785 46.8 14 6.88 0.784 47.5 15 7.00 0.784 45.8 14 6.92 0.784 47.0 14 6.86 0.782 47.5 14 6.92 0.782 46.7 14 6.90 0.781 46.8 14 IR JR K 25 42 15 23 14 15 21 12 15 19 18 15 15 14 15 23 10 15 17 20 15 31 38 15 17 16 15 33 40 15 Value 7.25 7.37 7.34 7.20 7.25 7.24 7.32 7.41 7.21 7.17 LHGR Margin Exp. FT 0.816 55.7 15 0.814 54.3 14 0.813 54.5 14 0.809 55.7 15 0.804 54.5 14 0.801 54.3 15 0.800 53.4 14 0.800 52.4 14 0.799 54.5 14 0.797 54.8 14 IR JR K 37 14 15 21 12 15 27 12 15 13 38 12 19 36 15 19 44 15 29 14 15 29 44 15 35 20 15 13 20 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.49 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 18,775.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-53 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 1 3 5 7 9 11 13 1 3 5 7 9 11 13 15is-------------------

17 19 21 23 25 IR:2 6 10 14 18 22 26 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 3 5 19 18899.5 (1888.30 123.5 ( 12.34 2923.0 (100.00 %)1028.8-31.22 78.93 (102.50 %)15 17 19 21 23 25 51 47 43 39 35 31 27 23 19 15 11 7 3 30 34 38 42 46 50 N(PR Top:JR Axial Profile RA) Power Exposure 25 0.186 6.170 24 0.597 17.612 23 0.774 23.902 22 0.888 28.396 21 0.967 31.502 20 1.027 33.414 19 1.078 34.595 18 1.128 35.370 17 1.173 35.893 16 1.224 34.691 15 1.260 35.509 14 1.365 35.403 13 1.381* 36.411 12 1.377 37.368 11 1.354 38.159 10 1.314 38.829 9 1.254 39.489 8 1.176 40.167 7 1.086 40.797 6 0.994 41.233*5 0.916 41.181 4 0.858 39.918 3 0.796 35.817 2 0.644 26.908 1 0.185 7.394 Edit Radial Power Zone Avg. Max. IR JRý10 0.415 0.534 39 48 11 0.379 0.457 21 2 12 0.445 0.611 9 46 14 1.074 1.134 21 34 15 0.9201.103 15 14 16 0.730 0.798 31 50 30 1.082 1.263 13 14 31 1.279 1.335 17 36 32 1.254 1.323 19 34 Core Average Exposure:

MWd/MTU 33021.0 0.00 0.99906 Bottom 0.393 29.478 % AXIAL TILT -1i 24.885 AVG BOT Bft/12ft 1.C 544.0 66.71 Active Channel Flow: Mlb/hr 15.5 (of total core flow)-0.0 (of total core flow)0.00047.211 -9.030 0387 1.0500 66.71 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.335 31 17 36 1.334 31 21 36 1.330 31 21 32 1.328 31 23 34 1.323 32 19 34 1.321 31 15 34 1.319 31 25 36 1.319 31 19 16 1.318 31 17 32 1.317 31 19 30 MCPR Value Margin FT 1.644 0.882 31 1.659 0.874 31 1.659 0.874 31 1.663 0.872 31 1.663 0.872 30 1.672 0.867 32 1.673 0.867 31 1.674 0.866 31 1.679 0.863 31 1.681 0.862 31 IR JR 17 18-21 36 19 38 15 20 13 14 19 34 15 16 23 34 17 14 21 22 APLHGR Value Margin Exp. FT 6.93 0.789 47.5 14-6.87 0.783 47.4 14 6.96 0.782 46.1 14 6.74 0.781 47.2 15 6.96 0.781 46.0 14 6.86 0.778 46.9 14 6.84 0.777 47.1 14 6.86 0.776 46.8 14 6.74 0.776 46.6 15 6.71 0.775 48.8 14 IR JR K 25 42 15 23 14 15 21 12 15 37 40 12 23 10 15 19 18 15 17 20 15 17 16 15 39 38 12 19 40 15 LHGR Value Margin Exp. FT 7.17 0.815 56.5 15 7.19 0.811 55.9 15 7.29 0.809 54.7 14 7.30 0.809 54.4 14 7.16 0.801 55.2 15 7.17 0.797 54.7 14 7.36 0.796 52.6 14 7.25 0.795 53.6 14 7.14 0.793 54.7,14 7.10 0.792 54.9 14 IR JR K 37 14 12 13 38 12 27 12 15 21 12 15 19 44 12 19 36 15 29 44 15 29 14 15 35 20 15 13 20 15* LHGR calculated with pin-power reconstruction

CPR calculated with-pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.50 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 18,899.5 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-54 Cycle:'Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 18928.8 (1891.20 29.3 ( 2.92 2923.0 (100.00 %)1028.8-30.57 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 33050.1 1 3 5 7 9 1 -3 5 7 9 13 15 17 i9 21 23 25 IR: 2 6 10 14 18 11 13 15 22 26 30 17 19 21 23 25 34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.187 6.177 24 0.602 17.631 23 0.780 23.927 22 0.895 28.424 21 0.974 31.533:JR 20 1.034 33.447 19 1.085 34.629 18 1.134 35.406 17 1.179 35.930 16 1.229 34.729 15 1.266 35.547 14 1.371 35.440 13 1.386* 36.449 12 1.382 37.406 11 1.358 38.196 10 1.315 38.865 9 1.253 39.523 8 1.172 40.199 7 1.079 40.827 6 0.984 41.260*5 0.902 41.207 4 0.842 39.942 3 0.780 35.839 2 0.630 26.926 Bottom 1 0.181 7.399 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.415 0.534 39 48 0.379 0.456 21 2 0.444 0.610 9 46 1.073 1.133 21 34 0.920 1.104 15 14 0.730 0.798 31 50 1.082 1.264 13 14 1.279 1.335 17 36 1.254 1.323 19 34 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 0.00 0.99939 0.388 30.372 25.779 544.0 68.06 15.4-0.0 0.00047% AXIAL TILT -0.606 -9.018 AVG BOT 8ft/12ft 1.0356 1.0500 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)68.06 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.335 31 17 36 1.333 31 21 36 1.329 31 21 32 1.327 31 23 34 1.323 32 19 34 1.320 31 15 34 1.319 31 25 36 1.318 31 19 16 1.318 31 17 32 1.316 31 19 30 MCPR Value Margin FT 1.657 0.875 31 1.672 0.867 31 1.673 0.867 31 1.673 0.867 30 1.675 0.866 31 1.684 0.861 31 1.68.6 0.860 32 1.689 0*859 31 1.691 0.858 31 1.695 0.856 31 IR JR 17 18 19 38 21 36 13 14 15 20 15 16 19 34 23 34 17 14 13 36 APLHGR Value Margin Exp. FT 6.96 0.793 47.5 14 6.90 0.786 47.5 14 6.99 0.786 46.2 14 6.99 0.785 46.1 14 6.77 0.784 47.2 15 6.89 0.781 47.0 14 6.87 0.780 47.2 14 6.88 0.779 46.9 14 6.76 0.779 46.7 15 6.73 0.779 48.9 14 IR JR K 25.42 15 23 14 15 21 12 15 23 10 15 37 40 12 19 18 15 17 20 15 17 16 15 39 38 12 19 40 15 Value 7.20 7.22 7.32 7.33 7.19 7.20 7.39 7.28 7.17 7.13 LHGR Margin Exp. FT 0.819 56.6 15 0.815 55.9 15 0.813 54.7 14 0.813 54.5 14 0.805 55.3 15 0.801 54.8 14 0.800 52.6 14 0.799 53.7 14 0.796 54.7 14 0.795,55.0 14 IR JR K 37 14 12 13 38 12 27 12 15 21 12 15 19 44 .12 19 36 15 29 44 15 29 14 15 35 20 15 13 20 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.51 Brunswick Unit 2 Cycle 19 Control Rod Pattern and-Axial Distributions at 18,928.8 MWdlMTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-55 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/ib Flow: Mlb/hr 1 3 5 7 9 11 1 3 5 7 9 11-----------

19 19338.4 (1932.10 409.6 ( 40.92 2758.2 ( 94.36 %)1028.8 m -28.71 80.46 (104.50 %)13 15.17 19 21 23 25 5 4 4 3 3 Core Average Exposure:

MWd/MTU 33459.8 1 7 3 9 5 13 15 17 19 21 23 25 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 0.00 0.99911 0.369 29.947 25.363 544.1 68.32 Active 15.1 (of tot-0.0 (of tot 0.00047 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.199 6.275 24. 0.640 17.905 23 0.829 24.281 22 0.948 28.831 21 1.027 31.975:JR 20 1.083 33.915 19 1.129 35.118 18 1.172 35.916 17 1.211 36.458 16 1.257 35.256'15 1.289 36.089 14 1.391 35.973 13 1.401* 36.987 12 1.389 37.941 11 1.357 38.720 10 1.304 39.370 9 1.231 40.003 8 1.137 40.645 7 1.031 41.234 6 0.924 41.629" 5 0.834 41.542 4 0.769 40.253 3 0.709 36.126 2 0.575 27.158 Bottom 1 0.165 7.466 Edit Zone 10 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.417 0.537 39 48 0.381 0.459 21 2 0.447 0.614 9 46 1.069 1.125 21 34 0.924 1.105 15. 14 0.734 0.803 31 50 1.090 1.268 13 14 1.275 1.329 17 36 1.250 1.313 19 34 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%)Source Convergence

% AXIAL TILT 3.178 -8.815 AVG BOT 8ft/12ft 1.0138 1.0492 Channel Flow: Mlb/hr tal core flow)tal core flow)68.32 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.329 31 17 36 1.324 31 21 36 1.318 31 21 32 1.315 31 23 34 1.314 31 15 34 1.313 31 19 16 1.313 32 19 34 1.309 31 17 32 1.308 31 25 36 1.305 31 19 30 Value 1.743 1.745 1.759 1.763 1.765 1.767 1.772 1.778 1.781 1.786 MCPR " Margin FT 0.832 30 0.831 31 0.824 31 0.822 31 0.822 31 0.821 31 0.818 31 0.815 31 0.814 32 0.812 31 IR JR 13 14 17 18 19 16 15 20 15 16 21 36 17 14 13 36 19 20 19 12 APLHGR Value Margin Exp. FT 6.67 0.788 48.1 14 6.72 0.782 46.7 14 6.71 0.782 46.8 14 6.59 0.781 48.3 15 6.60 0.779 48.1 14 6.53 0.775 48.6 15 6.59 0.774 47.5 14 6.59 0.774 47.6 14 6.45 0.774 49.5 14 6.56 0.773 47.8 14 IR JR K 25 42 15 23 10 15 21 12 15 15 14 15 23 14 15 13 16 15 17 16 15 19 18 15 19 40 15 17 20 15 Value 6.92 7.01 7.02 6.87 6.95 7.10 6.89 6.97 6.85 6.83 LHGR Margin Exp. FT 0.788 56.5 15 0.785 55.3 14 0.785 55.1 14 0.780 56.4 15 0.776 55.2 15 0.774 53.3 14 0.772 55.4 14 0.771 54.3 14 0.767 55.3 14 0.767 55.6 15 IR JR K 37 14 15 27 12 15 21 12 15 13 38 15 19 44 15 29 44 15 19 36 15 29 14 15 35 20 15 13 12 15* LHGR calculated with pin-power reconstruction" CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.52 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 19,338.4 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page A-56 Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 19790.0 (1977.20 451.6 ( 45.12 2550.7 ( 87.26 %)1028.8-26.38 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 33911.4 1 3 5 7 9 11 1 -- __3 5 7 9 13 15 17 19 21 23 25 IR: 2 6 10 14 18 22 13 is 17 19 21 23 25 26 30 34 38 42 46 50 51 47 43 39 35 31 27 23 19 15 11 7 3 Axial Profile N(PRA) Power Exposure Top 25 0.213 6.391 24 0.691 18.228 23 0.893 24.699 22 1.018 29.310 21 1.094 32.492:JR 20 1.143 34.457 19 1.181 35.681 18 1.215 36.497 17 1.247 37.057 16 1.285 35.850 15 1.310 36.696 14 1.407 36.568 13 1.409* 37.585 12 1.388 38.532 11 1.345 39.295 10 1.280 39.920 9 1.194 40.519 8 1.087 41.118 7 0.970 41.660 6 0.856 42.007*5 0.762 41.881 4 0.697 40.565 3 0.641 36.413 2 0.523 27.392 Bottom 1 0.151 7.534 Edit Zone 10 11 12 14 15 16 30 31 32 Radial Power Avg. Max. IR JR 0.419 0.541 39 48 0.383 0.462 21 2 0.450 0.618 9 46 1.064 1.116 33 36 0.928 1.106 15 14 0.740 0.809 31 50.1.099 1.273 13 14 1.270 1.322 17 36 1.245 1.303 19 34 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 0.00 0.99900 0.346 29.450 24.877 544.2 68.62 14.7-0.0 0.00046% AXIAL TILT 7.645 -8.541 AVG BOT 8ft/12ft 0.9867 1.0480 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)68.62 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.322 31 17 36 1.313 31 21 36 1.307 31 15 34 1.307 31 19 16 1.304 31 21 32 1.303 32 19 34 1.303 31 23 34 1.302 31 15 16 1.298 31 17 32 1.296 31 25 36 Value 1.848 1.874 1.884 1.885 1.891 1.893 1.901 1.902 1.903 1.904 MCPR Margin FT 0.785 30 0.774 31 0.770 31 0.769 31 0.767 31 0.766 31 0.763 31 0.762 31 0.762 31 0.762 31 IR JR 13 14 17 18 15 16 19 16 15 20 17 14 13 36 21 36 19 12 21 10 APLHGR Value Margin Exp. FT 6.24 0:773 48.8 14 6.32 0.770 47.4 14 6.29 0.768 47.5 14 6.20 0.768 49.0 15 6.17 0.764 48.7 14 6.14 0.763 49.3 15 6.05 0.760 50.1 14 6.18 0.759 48.2 14 6.23 0.758 47.2 14 6.16 0.757 48.2 14 IR JR K 25 42 15 23 10 15 21 12 15 15 14 15 23 14 15 13 16 15 19 40 15 17 16 15 15 18 15 19 18 15 Value 6.49 6.57 6.58 6.44 6.53 6.66 6.43 6.44 6.53 6.51 LHGR Margin Exp. FT 0.745 57.2 15 0.743 56.0 14 0.742 55.8 14 0.738 57.1 15 0.337 55.9 15 0.734 54.0 14 0.729 56.3 15 0.728 56.1 14 0.728 55.0 14 0.726 55.0 14 IR JR K 37 14 15 27 12 15 21 12 15 13 38 15 19 44 15 29 44 15 13 12 15 19 36 15 29 14 15 21 46 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.53 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 19,790.0 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page A-57 Brunswick Unit 2 Cycle 19 Fuel Cycle Design.Cycle: Exposure:

MWd/MTU (GWd)Delta E: MWd/MTU, (GWd)Power: MWt Core Pressure:

psia Inlet Subcooling:

Btu/lbm Flow: Mlb/hr 19 20245.3 (2022.70 )455.3 ( .45.49 2337.9 ( 79.98 %)1028.8-23.99 80.46 (104.50 %)Core Average Exposure:

MWd/MTU 34366.9 1 3 5 7 9 11 13 15 17 19 2123 25 1 3 5 7 9 11-----------------------

13 15 17 19 21 23 25 IR: 2 6 10 14 18 22 26 51 47 43 39 35 31 27 23 19 15 11 7 3 30 34 38 42 46 50 0.00 Axial Profile N(PRA) Power Exposure Top 25 0.229 6.516 24 0.747 18.580 23 0.964 25.154 22 1.093 29.829 21 1.165 33.047:JR 20 1.207 35.035 19 1.235 36.274 18 1.259 37.105 17. 1.282 37.678 16 1.313 36.462 15 1.331 37.319 14 1.423* 37.175 13 1.416 38.191 12 1.384 39.126 11 1.329 39.868 10 1.251 40.463 9 1.150 41.021 8 1.031 41.573 7 0.905 42.062 6 0.786 42.360*5 0.691 42.193 4 0.626 40.849 3 0.576 36.674 2 0.472 27.605 Bottom 1 0.136 7.597 Edit Radial Power Zone' Avg. Max. IR JR 10 0.422 0.545 39'48 11 0.386 0.465 21. 2 12 0.453 0.622 9 46 14 1.058 1.109 15 36 15 0.934 1.108 15 14 16 0.746 0.815 31 50 30 1.109 1.278 13 14 31 1.265 1.315 17 36 32 1.239 1.291 19 34 Control Rod Density: %k-effective:

Void Fraction: Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%): Total Water Rod Flow (%): Source Convergence 0.99901 0.322 28.968 24.407 544.3 68.92 14.3-0.0 0.00035% AXIAL TILT 12.339 -8.212 AVG BOT 8ft/12ft, 0.9579 1.0465 Active Channel Flow: Mlb/hr (of total core flow)(of total core flow)68.92 Top Ten Thermal Limits Summary -Sorted by Margin Power Value FT IR JR 1.315 31 17 36 1.302 31 21 36 1.300 31 19 16 1.300 31 15 16 1.300 31 15 34 1.292 31 13 36 1.291 31 17 14 1.291 32 19 34 1.290 31 21 32 1.288 31 23 34 Value 1.977 2.028 2.032 2.040 2.040 2.042 2.045 2.045 2.046 2.0418 MCPR Margin FT 0.734 30 0.715 31 0.714 31 0.711 31 0.711 31 0.710 30 0.709 31 0.709 31 0.709 31 0.708 31 IR JR 13 14 15 16 17 18 19 16.17 14 19 46 21 10 13 36 19 12.15 20 Value 5.88 5.79 5.77 5.85 5.72 5.72 5.62 5.77 5.74 5.78 APLHGR Margin Exp. FT 0.753 48.1 14 0.753 49.5 14 0.751 49.7 15 0.750 48.2 14 0.746 50.0 15 0.743 49.4 14 0.741 50.8 14 0.740 48.4 15 0.740 48.8 14 0.739 47.9 14 IR JR K 23 10 15 25 42 15 15 14 15 21 12 15 13 16 15 23 14 15 19 40 15 19 10 15 17 16 15 15 18 15 LHGR Value Margin Exp. FT 6.03 0.699 57.9 15 6.10 0.696 56.7 14.6.11 0.695 56.5 14 6.09 0.693 56.6 15 5.99 0.693 57.8 15 6.20 0.689 54.7 14 6.14 0.689 55.5 15 6.08 0.685 55.7 14 6.05 0.681 55.7 14 5.97 0.681 56.8 14 IR JR K 37 14 15 27 12 15 21 12 15 19 44 15 13 38 15 29 44 15 13 12 17 21 46 15 29 14 15 19 36 15* LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3* Thermal limit file: Figure A.54 Brunswick Unit 2 Cycle 19 Control Rod Pattern and Axial Distributions at 20,245.3 MWd/MTU AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cyclel19 Fuel Cycle Design Page B-1 Appendix B Elevation Views of the Brunswick Unit 2 Cycle 19 Fresh Reload Batch Fuel Assemblies AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page B-2 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Figure B.1 Elevation View for the Brunswick Unit 2 Cycle 19 Fresh Fuel Reload Batch BRK2-19 ATRIUM-10

[ ] Fuel Assembly Design (Fabrication Batch BRK2-19)AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page B-3 Brunswick Unit 2 Cycle 19 Fuel Cycle Design[I Figure B.2 Elevation View for the Brunswick Unit 2 Cycle 19 Fresh Fuel Reload Batch BRK2-19 ATRIUM-10

[ ] Fuel Assembly Design (Fabrication Batch BRK2-19)AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page B-4 Brunswick Unit 2 Cycle 19 Fuel Cycle Design I Figure B.3 Elevation View for the Brunswick Unit 2 Cycle 19 Fresh Fuel Reload Batch BRK2-19 ATRIUM-10

[ ] Fuel Assembly Design (Fabrication Batch BRK2-19)AREVA NP Inc.

I" ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page C-1 Appendix C Brunswick Unit 2 Cycle 19 Fresh Fuel Locations AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page C-2 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table CA Brunswick Unit 2 Cycle 19 Reload Fuel Identification and Locations (Core Coordinates)

Assembly Type: ATRIUM-10 BRK2-19 Bundle

Description:

[Number Loaded: 84 I Fuel Core ID Coord.Fuel Core ID Coord.Fuel Core, ID Coord.Fuel Core ID Coord.B19001 B19002 B19003 B19004 B19005 B19006 B19007 B19008 B19009 B19010 B19011 B19012 B19013 B19014 B19015 B19016 B19017 B19018 B19019 B19020 B19021 17-48 19-48 21-48 23-48 25-48 27-48 29-48 31-48 33-48 35-48 13-46 15-46 19-46 33-46 37-46 39-46 11-44 13-44 39-44 41-44 9-42 B19022 B19023 B19024 B19025 B19026 B19027 B19028 B19029 B19030 B19031 B19032 B19033 B19034 B19035 B19036 B19037 B19038 B19039 B19040 B19041 B19042 43-42 7-40 9-40 13-40 39-40 43-40 45-40 7-38 45-38 5-36 47-36 5-34 7-34 45-34 47-34 5-32 47-32 5-30 47-30 5-28 47-28 B19043 B19044 B19045 B19046 B19047 B19048 B19049 B19050 B19051 B19052 B19053 B19054 B19055 B19056 B19057 B19058 B19059 B19060 B19061 B19062 B19063 5-26 47-26 5-24 47-24 5-22 47-22 5-20 7-20 45-20 47-20 5-18 47-18 7-16 45-16 7-14 9-14'13-14 39-14 43-14 45-14 9-12 B19064 B19065 B19066 B19067 B19068 B19069 B19070 B19071 B19072 B19073 B19074 B19075 B19076 B19077 B19078 B19079 B19080 B19081 B19082 B19083 B19084 43-12 11-10 13-10 39-10 41-10 13- 8 15- 8 19- 8 33- 8 371- 8 39- 8 17- 6.19- 6 21- 6 23- 6 25- 6 27- 6 29- 6 31- 6'33- 6 35- 6 AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page C-3 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table CA Brunswick Unit 2 Cycle 19 Reload Fuel Identification and Locations (Core Coordinates) (Continued)

Assembly Type: ATRIU M-10 BRK2-19 Bundle

Description:

[Number Loaded: 104]Fuel Core ID Coord.Fuel Core ID Coord.Fuel Core ID Coord.Fuel Core ID Coord.B19085 B19086 B19087 B19088 B19089 B19090 B19091 B19092 B19093 B19094 B19095 B19096 B19097 B19098 B19099 B19100 B19101 B19102 B19103 B19104 B19105 B19106 B19107 B19108 B19109 B19110 23-46 29-46 17-44 21-44 31-44 35-44 15-42 19-42 33-42 37-42 17-40 35-40 11-38 15-38-19-38.33-38 37-38 41-38 9-36 13-36 17-36 21-36 25-36 27-36 31-36 35-36 B19111 B19112 B19113 B19114 B19115 B19116 B19117 B19118 B19119 B19120 B19121 B19122 B19123 B19124 B19125 B19126 B19127 B19128 B19129 B19130 B19131 B19132 B19133 B19134 B19135 B19136 39-36 43-36 11-34 15-34 23-34 29-34 37-34 41-34 9-32 17-32 21-32 25-32 27-32 31-32 35-32 43-32 7-30 19-30 23-30 29-30 33-30 45-30 17-28 21-28 31-28 35-28 B19137 B19138 B19139 B19140 B19141 B19142 B19143 B19144 B19145 B19146 B19147 B19148 B19149 B19150 B19151 B19152 B19153 B19154 B19155 B19156 B19157 B19158 B19159 B19160 B19161 B19162 17-26 21-26 31-26 35-26 7-24 19-24 23-24 29-24 33-24 45-24 9-22 17-22 21-22 25-22 27-22 31-22 35-22 43-22 11-20 15-20 23-20 29-20 37-20 41-20 9-18 13-18 B19163 B19164 B19165 B19166 B19167 B19168 B19169 B19170 B19171.B19172 B19173 B19174 B19175 B19176 B19177 B19178 B19179 B19180 B19181 B19182 B19183 B19184 B19185 B19186 B19187 B19188 17-18 21-18 25-18 27-18 31-18 35-18 39-18 43-18 11-16 15-16 19-16 33-16 37-16 41-16 17-14 35-14 15-12 19-12 33-12 37-12 17-10 21-10 31-10 35-10 23- 8 29- 8 AREVA NP Inc.

ANP-2727(NP)

Revision 0 Page C-4 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Table C.1 Brunswick Unit 2 Cycle 19 Reload Fuel Identification and Locations (Core Coordinates) (Continued)

Assembly Type: ATRIUM-t0 BRK2-19 Bundle.

Description:

[. ]Number Loaded: 50 Fuel Core ID Coord.Fuel Core ID Coord.Fuel Core ID Coord.Fuel Core ID Coord.B19189 B19190 B19191 B19192 B19193 B19194 B19195 B19196 B19197 B19198 B19199 B19200 B19201 25-44 27-44 11-42 23-42 29-42 41-42 21-40 25-40 27-40 31-40 23-38 29-38 19-34 B19202 B19203 B19204 B19205 B19206 B19207 B19208 B19209 B19210 B19211 B19212 B19213 B19214 33-34 13-32 39-32 11-30 15-30 37-30 41-30 9-28 13-28 25-28 39-28 43-28 9-26 B19215 B19216 B19217 B19218 B19219 B19220 B19221 B19222 B19223 B19224 B19225 B19226 13-26 27-26 39-26 43-26 11-24 15-24 37-24 41-24 13-22 39-22 19-20 33-20 B19227 B19228 B19229 B19230 B19231 B19232 B19233 B19234 B19235 B19236 B19237 B19238 23-16 29-16 21-14 25-14 27-14 31-14 11-12 23-12 29-12 41-12 25-10 27-10 AREVA NP Inc.

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Page D-1 Appendix D Brunswick Unit 2 Cycle 19 Radial Exposure and Power Distributions AREVA NP Inc.

m z 7)1 3 9 11 13 15 17 19 21 23 25 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 38.659 33.265 31.486 31.640 23.644 29.900 31.294 29.481 37.602 39.874 35.643 19.988 19.605 17.181 18.696 19.575 18.217 18.756 16.935 19.650 20.035 36.513 39.106 35.439 32.917 18.097 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 18.051 34.254 35.783 39.171 36.118 17.662 17.453 0.000 0.000 21.805 0.000 23.252 0.000 22.781 22.819 0.000 23.235 0.000 21.829 0.000 0.000 17.262 17.694 32.440 38.265 21.759 19.422 0.000 0.000 20.890 0.000 21.304 0.000 22.773 0.000 0.000 22.742 0.000 21.341 0.000 20.987 0.000 0.000 19.576 17.541 39.207 32.543 17.223 0.000 0.000 22.457 0.000 22.343 0.000 22.343 0.000 23.648 22.581 0.000 22.630 0.000 22.408 0.000 23.259 0.000 0.000 17.474 32.248 33.515 0.000 0.000 23.535 0.000 21.700 0.000 21.835 0.000 23.160 0.000 0.000 23.170 0.000 22.615 0.000 21.816 0.000.21.530 0.000 0.000 33.846 34.264 18.055 0.000 21.019 0.000 22.400 0.000 22.120 0.000 22.616 0.000 23.304 22.524 0.000 22.732 0.000 22.128 0.000 22.002 0.000 20.699 0.000 17.889 39.400 36.772 19.934 0.000 21.650 0.000 22.834 0.000 22.128 0.000 23.612 0.000 22.358 0.000 0.000 22.419 0.000 23.697 0.000 22.190 0.000 22 566 0.000 22.391 0.000 20.079 39.246 33.592 19.973 0.000 0.000 21.560 0.000 23.388 0.000 23.195 0.000 22.671 0.000 21.568 21.523 0.000 22.665 0.000 23.227 0.000 21.933 0.000 21.223 0.000 0.000 19.616 32.193 32.632 16.848 0.000 22.693 0.000 22.615 0.000 22.768 0.000 22.451 0.000 23.306 0.000 0.000 23.324 0.000 22.435 0.000 22.551 0.000 22.373 0.000 22.715 0.000 17.726 26.877 33.041 19.239 0.000 0.000 22.855 0.000 23.304 0.000 22.935 0.000 23.668 0.000 23.369 23.498 0.000 23.691 0.000 22.868 0.000 23.429 0.000 22.896 0.000 0.000 18.806 33.099 30.254 18.281 0.ooo 23.058 0.000 23.370 0.000 23.385 0.000 21.567 0.000 23.171 0.000 23.781 23.326 0.000 21.396 0.000 23.285 0.000 23.316 0.000 22.930 0.000 19.205 29.962 CO)2 Cn 0-7 C, N)0 F1 CD-n C)CD 09 CD z CD CD (n.-0)Q~Figure D.1 Brunswick Unit 2 Cycle 19 BOC Exposure Distribution (0.0 GWd/MTU) m z p 27 29 31 33 35 37 39 41 43 45 47 49 51 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 30.113 19.279 0.000 22.892 0.000 23.188 0.000 23.181 0.000 21.424 0.000 23.177 23.445 0.000 23.199 0.000 21.387 0.000 23.163 0.000 23.115 0.000 22.876 0.000 18.092 30.006 32.822 20.872 0.000 0.000 22.646 0.000 23.100 0.000 22.726 0.000 23.231 0.000 23.382 23.254 0.000 23.439 0.000 22.791 0.000 23.165 0.000 22.645 0.000 0.000 19.005 30.544 31.042 16.758 0.000 22.628 0.000 22.152 0.000 22.519 0.000 22.422 0.000 23.224 0.000 0.000 23.122 0.000 22.392 0.000 22.552 0.000 22.359 0.000 23.039 0.000 16.971 32.371 34.136 19.500 0.000 0.000 21.130 0.000 21.878 0.000 23.088 0.000 22.518 0.000 21.278 21.264 0.000 22.568 0.000 23.023 0.000 23.143 0.000 21.220 0.000 0.000 19.643 40.681 37.534 19.940 0.000 22.481 0.000 22.484 0.000 22.117 0.000 23.399 0.000 22.353 0.000 0.000 22.333 0.000 23.418 0.000 22.154 0.000 22.517 0.000 21.392 0.000 20.169 40.719 35.757 17.975 0.000 18.910 0.000 21.986 0.000 22.057 0.000 22.505 0.000 23.193 23.155 0.000 22.475 0.000 22.141 0.000 22.120 0.000 20.792 0.000 17.819 31.497 33.989 0.000 0.000 21.481 0.000 21.641 0.000 22.486 0.000 23.123 0.000 0.000 23.079 0.000 21.929 0.000 21.569 0.000 22.289 0.000 0.000 32.571 35.584 17.449.0.000 0.000 23.421 0.000 22.198 0.000 22.421 0.000 23.541 23.515 0.000 22.179 0.000 22.151 0.000 23.554 0.000 0.000 17.462 39.814 40.572 17.413 19.501 0.000 0.000 18.622 0.000 21.163 0.000 22.732 0.000 0.000 22.714 0.000 21.098 0.000 20.747 0.000 0.000 19.233 17.626 40.151 36.495 17.690 17.359 0.000 0.000 21.674 0.000 22.939 0.000 22.560 22.563 0.000 22.531 0.000 21.636 0.000 0.000 17.658 17.591 39.390 40.500 36.713 34.448 17.925 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 17.886 31.267 34.498 40.044 34.799 20.209 19.592 16.864 20.780 18.171 19.477 18.498 16.546 19.419 20.187 34.686 40.139 31.832 30.757 23.451 30.144 29.630 31.017 33.461 33.851 37.504 CO Cj, C~)0 CO ((7-n C: CD C)(7 0 I -z Sn.Figure D.1 Brunswick Unit 2 Cycle 19 BOC Exposure Distribution (0.0 GWd/MTU) (Continued) m z"0 3 11 13 15 17 19 21 23 25 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 46.309 41.928 41.531 42.078 34.909 40.606 41.741 39.653 46.119 47.269 45.530 33.887 35.116 34.107 35.698 36.665 35.362 35.773 33.969 35.095 33.848 46.253 46.532 44.900 44.968 34.407 19.332 20.812 21.679 22.049 22.134 22.148 22.078 21.697 20.791 19.279 34.285 46.172 45.189 46.791 44.494 31.284 33.676 19.045 20.917 41.965 23.103 44.141 23.556 43.981 43.991 23.566 44.128 23.082 41.954 20.884 19.044 33.573 31.460 41.033 45.716 34.754 36.364 20.542 22.122 41.865 22.778 42.647 23.650 44.117 23.311 23.315 44.094 23.634 42.675 22.746 41.939 22.144 20.650 36.637 31.369 46.799 41.809 33.340 20.446 21.871 43.613 23.625 43.315 23..423 43.828 23.560 44.810 43.938 23.559 44.033 23.381 43.330 23.622 44.025 22.010 20.655 33.740 41.656 45.441 18.864 21.962 44.160 23.342 42.919 22.890 42.660 23.182 44.294 23.103 23.106 44.318 23.152 43.299 22.879 43.061 23.445 42.929 22.146 18.999 45.782 43.870 34.167 20.683 41.811 23.494 43.541 23.086 42.694 22.809 43.593 23.223 44.267 43.620 23.220 43.652 22.796 42.730 23.154 43,271 23.659 41.635 20.770 34.017 48.965 44.450 33.662 19.044 41.587 22.483 43.593 23.295 43.093 22.488 43,752 23.290 43.582 23.446 23.444 43.625 23.277 43. 831 22.520 43.215 23,425 43.436 22.577 42.216 19.077 33.809 46.777 42.286 35.213 20.436 22.652 42.497 23.037'44.181 23.185 43.384 22.206 43.591 23.390 42.798 42.720 23.372 43.558 22.208 43.435 23.276 43.069 23.151 42.222 22.702 20.481 34.942 40.861 42.291 33.438 21.208 43.212 22.440 43.124 22.795 43.523 22.825 43.129 22.809 43.795 22.913 22,898 43.798 22.772 43.094 22.854 43.366 22.888 42.969 22.491 43.250 21.257 34.312 37.100 42.965 35.741 21.510 22.875 43.144 22.380 44.011 22.930 43.643 23.049 44.229 22.853 43.786 43.869 22.787 44.211 23.048 43.600 22.966 44.164 22.418 43.205 22.908 21.549 35.403 43.124 40.569 34.976 21.561 43.636 22.597 44.132 22.920 44.297 23.313 42.851 23.845 44.312 22.205 43.923 44.448 23.832 42.682 23.321 44.207 22.932 44.055 22.611 43.545 21.595 35.920 40.386 w U)C 2n 0 C b0 CD-Il C: CD C)0 CD CD-4 0o.P. 0. T Figure D.2 Brunswick Unit 2 Cycle 19 EOC Exposure Distribution (19.3 GWd/MTU) m z"0 27 29 31 33 35 37 39 41 43 45 47 49 51 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 40.468 35.947 21.544 43.506 22.620 43.974 22.953 44.134 23.337 42.709 23.856 44.315 43.631 22.221 44.351 23.863 42.695 23.335 44.093 22.941 43.882 22.617 43.499 21.602 34.849 40.392 42.799 37.209 21.506 22.913 43.016 22.468 43.918 23.019 43.543 23.102 43.831 22.850 43.862 43.733 22.903 44.056 23.101 43.556 22.987 43.953 22.433 42.983 22.902 21.537 35.559 40.714 40.833 33.409 21.254 43.197 22.544 42.823 22.958 43.406 22.925 43.152 22.853 43.770 22.975 22.988 43.717 22.884 43.117 22.900 43.394 22.877 42.930 22.497 43.464 21.210 33.564 41.617 42.921 34.799 20.496 22.743 42.186 23.229 43.103 23.355 43.388 22.295 43.507 23.455 42.570 42.558 23.472 43.588 22.290 43.311 23.280 44.034 23.139 42.257 22.702 20.428 34.778 48.772 45.069 33.685 19.093 42.335 22.667 43.450 23.508 43.219 22.613 43.659 23.371 43.644 23.514 23.518 43.639 23.376 43.660 22.581 43.196 23.418 43.395 22.594 41.394 19.073 33.808 47.951 45.461 34.093 20.774 40.108 23.740 43.318 23.252 42.735 22.898 43.555 23.292 44.229 44.170 23.293 43.504 22.893 42.825 23.198 43.424 23.658 41.714 20.783 34.011 41,293 45.426 18.904 22.142 42.912 23.537 43.003 22.999 43.294 23.253 44.317 23.148 23.149 44.296 23.262 42.830 22.972 42.876 23.466 43.540 22.121 18.959 44.540 44.458 33.587 20.614 22.045 44.273 23.780 43.304 23.525 43.961 23.634 44.775 44.768 23.637 43,763 23.513 43.187 23.695 44.399 21.997 20.615 33.644 48.824 47.849 31.055 36.532.20.674 22.250 40.065 22,952 42.633 23.763 44.145 23.381 23.382 44.136 23.753 42.549 22.858 41.809 22.176 20.636 36.310 31.291 47.511 44.925 31.386 33.637 19.134 21.067 41.989 23.259 43.994 23.669 43.850 43.840 23.667 43.649 23.207 41.887 20.971 19.077 33.914 31.285 47.738 47.950 46.021 46.412 34.322 19.478 20.976 21.835 22.161 22.216 22.213 22.153 21.802 20.904 19.383 34.250 43.516 43.806 47.551 44.842 34.205 35.263 34.011 37.640 35.370 36.585 35.563 33.640 34.991 34.123 44.400 47.780 41.076 41.020 34.671 40.900 40.379 41.467 43.331 42.1 s04 45.114 w 03 2.Cn N)C-)CO-n CO CD CD W.CD z 0)CO :3 z 01C) 0)Figure D.2 Brunswick Unit 2 Cycle 19 EOC Exposure Distribution (19.3 GWd/MTU) (Continued) m z 1 3 52 50 48 46 44 42 40 38 0.562 36 0.453 0.771 34 0.499 0.846 32 0.589 0.945 30 0.617 0.939 28 0.669 0.953 26 0.634 0.950 24 0.617 0.940 22 0.595 0.949 20 0.490 0.840 18 0.434 0.765 16 0.554 14 12 10 8 6 4 2 5 7 9 11 13 15 , 17 19 21 23 25 0 C CD CD-n CD CD 0 CD CE=._0.437 0.533 0.675 0.885 0.956 1.024 1.079 1.109 1.125 1.125 1.110 1.079 1.022"0.952 0.879 0.666 0.529 0.451 0.489 0.766 0.887 0.938 1.015 1.046 1.112 1.131 1.171 1.183 1.182 1.171 1.131 1.111 1.044 1.013 0.938 0.892 0.774 0.502 0.437 0.735 0.915 1.012 1.079 1.092 0.992 1.036 1.175 1.210 1.200 1.200 1.210 1.174 1.036 0.991 1.090 1.081 1.018 0.922 0.778 0.449 0.520 0.881 1.008 1.053 1.135 1.144 1.043 1.050 1.200 1.203 1.226 1.239 1.203 1.194 1.048 1.040 1.144 1.128 1.060 1.019 0.891 0.529 0.670 0.931 1.073 1.121 1.209 1.187 1.171 1.182 1.174 1.208 1.191 1.191 1.210 1.171 1.174 1.170 1.190 1.214 1.148 1.082 0.938 0.672 0.549 0.879 1.009 1.086 1.138 1.180 1.180 1.154 1.148 1.162 1.151 1.150 1.159 1.151 1.158 1.147 1.154 1.184 1.187 1.146 1.093 1.013 0.879 0.556 0.457 0.768 0.950 1.043 0.987 1.033 1.164 1.150 0.917 0.913 1.128 1.134 0.904 0.904 1.134 1.128 0.912 0.918 1.154 1.170 1.038 0.990 1.038 0.952 0.768 0.451 0.505 0.839 1.018 1.107 1.033 1.043 1.158 1.142 0.916 0.892 1.125 1.119 0.913 0.912 1.120 1.125 0.893 0.917 1.147 1.180 1.048 1.034 1.109 1.021 0.845 0.505 0.572 0.592 0.935 0.922 1.072 1.100 1.132 1.165 1.169 1.203 1.190 1.196 1.165 1.200 1.154 1.145 1.124 1.124 1.127 1.117 1.145 1.135 1.135 1.150 1.116 1.127 1.117 1.131 1.139 1.156 1.147 1.137 1.127 1.118 1.126 1.126 1.158 1.147 1.170 1.201 1.196 1.198 1.171 1.204 1.134 1.166 1.074 1.101 0.939 0.927 0.603 0.598 0.618 0.936 1.114 1.172 1.194 1.227 1.185 1.146 0.901 0.910 1.116 1.128 0.916 0.942 1.133 1.117 0.910 0.901 1.146 1.185 1.225 1.194 1.173 1.114 0.940 0.624 Figure D.3 Brunswick Unit 2 Cycle 19 Radial Power Distribution at 0.0 MWd/MTU z CD CD U1. -4

>m "~~0 C 0 M 27 29 31 33 35 37 39 41 43 45 47 49 51 52 0.621 0.596 0.580 0.515 0.444 "n1 50 0.940 0.918 0.938 0.840 0.766 0.552 48 1.114 1.100 1.074 1.019 0.949 0.873 0.629 0.493 0.424 46 1.174 1.166 1.135 1.109 1.036 1.007 0.926 0.877 0.762 0.488 44 1.195 1.207 1.172 1.035 0.990 1.094 1.075 1.011 0.915 0.765 0.438 0 42 1.228 1.200 1.199 1.049 1.039 1.145 1.145 1.056 1.014 0.885 0.520 40 1.187 1.205 1.173 1.182 1.171 1.187 1.214 1.126 1.079 0.937 0.666 38 1.148 1.150 1.161 1.149 1.156 1.185 1.191 1.147 1.103 1.017 0.885 0.571 M 36 0.902 1.131 1.129 0.921 0.921 1.157 1.173 1.045 0.995 1.050 0.960 0.776 0.451 n,.34 0.911 1.121 1.130 0.896 0.917 1.150 1.179 1.052 1.039 1.117 1.031 0.854 0.538 32 1.118 1.141 1.151 1.130 1.131 1.163 1.174 1.199 1.178 1.138 1.086 0.958 0.603 30 1.135 1.158 1.142 1.123 1.137 1.153 1.211 1.204 1.212 1.175 1.114 0.937 0.664 28 0.945 1.136 1,120 0.915 0.906 1.153 1.191 1.227 1.202 1.187 1.128 0.954 0.638 26 0.917 1.130 1.119 0.914 0.905 1.152 1.191 1.229 1.202 1.186 1.128 0.952 0.638 24 1.129 1.152 1.141 1.122 1.138 1.154 1.212- 1.205 1.213 1.175 1.112 0.941 0.617 22 1.116 1.138 1.148 1.129 1.131 1.164 1.176 1.204 1.178 1.142 1.084 0.951 0.579 20 0.911 1.119 1.128 0.895 0.917 1.151 1.185 1.053 1.039 1.116 1.027 0.847 0.520 18 0.901 1.127 1.127 0.920 0.920 1.159 1.173 1.045 0.994 1.048 0.956 0.773 0.449 16 1.146 1.147 1.157 1.145 1.153 1.184 1.191 1.146 1.094 1.016 0.885 0.551 14 1.185 1.203 1.167 1.162 1.167 1.186 1.213 1.131 1.08.0 0.937 0.684 12 1.226 1.197 1.191 1.046 1.036 1.143 1.139 1.057 1.015 0.887 0.517 10 1.193 1.203 1.169 1.035 0.989 1.089 1.078 1.014 0.919 0.767 0.442 8 1.172 1.163 1.125 1.106 1.042 1.011 0.933 0.883 0.765 0.491 6 1.114 1.098 1.068 1.014 0.948 0.880 0.670 0.508 0.433 4 0.936 0.921 0.930 0.827 0.759 0.557 2 0.620 0.604 0.538 0.470 0.427 Figure D.3 Brunswick Unit 2 Cycle 19 Radial Power Distribution at 0.0 MWd/MTU (Continued) z CD 0,g I -

m z-u 5" 1 7 9 11 13 15 17 19 21 23 25 52 50 48 0.323 0.427 46 0.366 0.610 0.780 44 0.319 0.636 0.808 1.059 42 0.428 0.782 1.059 1.139 40 0.555 0.981 1.136 1.033 38 0.437 0.776 1.066 1.017 1.228 36 0.325 0.647 0.976 0.966 1.203 1.065 34 0.375 0.715 1.044 1.159 1.052 1.258 32 0,434 0.777 1.072 0.985 1.217 1.064 30 0.446 0.768 1.081 1.166 1.030 1.228 28 0.473 0.765 1.076 0.984 1.197 1.044 26 0.455 0.774 1.077 0.983 1.198 1.053 24 0.448 0.771 1.083 1.167 1.030 1.228 22 0.441 0.782 1.074 0.986 1.216 1.059 20 0.370 0.712 1.044 1.159 1.052 1.256 18 0.311 0.644 0.974 0.966 1.201 1.063 16 0.432 0.773 1.064 1.013 1.226 14 0.548 0.979 1.134 1.014 12 0.426 0.783 1.060 1.141 10 0.332 0.641 0.809 1.063 8 0.374 0.645 0.785 6 0.331 0.430 4 2 0.340 0.393 0.438 0.448 0.462 0.437 0.660 0.731 0.797 0.786 0.793 0.560 0.784 0.993 1.068 1.103 1.115 1.111 0.984 1.076 0.982 1.188 1.021 1.208 1.017 1.139 1.022 1.219 1.076 1.266 1.073 1.243 1.015 1.232 1.070 1.279 1.097 1.278 1.083 1.263 1.100 1.293 1.097 1.289 1.099 1.282 1.103 1.305 1.117 1.318 1.113 1.297 1.104 1.298 1.122 1.335 1.129 1.333 1.121 1.319 1.106 1.320 1.123 1.323 1.133 1.327 1.121 1.266 1.102 1.318 1.122 1.329 1.109 1.293 1.075 1.276 1.111 1.316 1.110 1.303 1.068 1.254 1.088 1.305 1.119 1.308 1.079 1.247 1.254 1.094 1.305 1.117 1.306 1.072 1.052 1.076 1.275 1.110 1.314 1.107 1.294 1.061 1.265 1.098 1.316 1.120 1.326 1.105 1.289 1.099 1.318 1.121 1.321 1.131 1.324 1.120 1.296 1.121 1.334 1.128 1.332 1.121 1.317 1.102 1.305 1.117 1.318 1.113 1.296 1.102 1.264 1.104 1.295 1.109 1.290 1.097 1.280 1.043 1.235 1.073 1.280 1.100 1.277 1.080 1.142 1.025 1.219 1.077 1.265 1.072 1.241 0.986 1.076 0.977 1.186 1.021 1.207 1.016 0.558 0.783 0.991 1.066 1.101 1.113 1.109 0.434 0.658 0.733 0.794 0.788 0.788 0.332 0.390 0.456 0.450 0.467 w Cn C: CD (0 (D C)(a z) D -,j-u 5.11 CD n.-Figure D.4 Brunswick Unit 2 Cycle 19 Radial Power Distribution at 18,928.8 MWd/MTU (EOFP)

~w 702 m z 0-XD C 0 27 29 31 33 35 37 39 41 43 45 47 49 51-nl 52 0.464 0.448 0.442 0.398 0.331 50 0.787 0.776 0.798 0.733 0.659 0.441 CD 48 1.110 1.113 1.103 1.068 0.993 0.783 0.534 0.409 0.313 C)46 1.017 1.208 1.022 1.188 0.977 1.076 0.982 0.779 0.637 0.369 44 1.244 1.076 1.267 1.078 1.222 1.036 1.141 1.061 0.807 0.637 0.324 CD 42 1.083 1.279 1.102 1.281 1.075 1.235 1.042 1.140 1.059 0.779 0.420 40 1.283 1.101 1.291 1.110 1.-295 1.103 1.263 1.014 1.135 0.979 0.548 CD 38 1.105 1.297 1.115 1.318 1.116 1.304 1.102 1.226 1.030 1.066 0.775 0.438 Cl)36 1.318 1.123 1.332 1.129 1.333 1.120 1.295 1.064 1.202 0.968 0.976 0.646 0.318 34 1.120 1.325 1.130 1.320 1.121 1.316 1.098 1.254 1.050 1.158 1.044 0.717 0.400 32 1.291 1.107 1.325 1.120 1.313 1.097 1.261 1.058 1.213 0.985 1.072 0.782 0.440 30 1.063 1.293 1.106 1.312 1.107 1.270 1.071 1.222 1.025 1.163 1.079 0.759 0.471 28 1.055 1.074 1.304 1.115 1.300 1.084 1.248 1.040 1.192 0.981 1.073 0.772 0.455 26 1.246 1.079 1.306 1.116 1.301 1.084 1.248 1.041 1.192 0.981 1.073 0.761 0.454 24 1.067 1.301 1.110 1.312 1.108 1.271 1.072 1.222 1.026 1.163 1.079 0.768 0.444 22 1.291 1.108 1.326 1.120 1.313 1.097 1.261 1.061 1.213 0.989 1.071 0.779 0.423 20 1.120 1.324 1.130 1.318 1.121 1.315 1.101 1.253. 1.050 1.156 1.041 0.713 0.387 18 1.316 1.120 1.329 1.128 1.330 1.119 1.293 1.061 1.198 0.964 0.972 0.644 0.316 16 1.102 1.294 1.111 1.314 1.113 1.301 1.099 1.222 1.012 1.062 0.773 0.425 14 1.280 1.098 1.286 1.096 1.289 1.100 1.259 1.010 1.131 0.976 0.561 12 1.081 1.275 1.095 1.276 1.069 1.230 1.034 1.136 1.056 0.778 0.423 10 1.241 1.072 1.262 1.076 1.216 1.022 1.138 1.059 0.808 0.636 0.326 8 1.015 1.206 1.014 1.184 0.980 1.074 0.982 0.778 0.636 0.366 6 1.110 1.113 1.099 1.063 0.989 0.784 0.558 0.408 0.315 4 0.795 0.787 0.796 0.725 0.653 0.443 2 0.465 0.458 0.416 0;364 0.314 Figure D.4 Brunswick Unit 2 Cycle 19 Radial Power Distribution at 18,928.8 MWd/MTU (EOFP) (Continued) z W D CD o zu CM C)

ANP-2727(NP)

Revision 0 Brunswick Unit 2 Cycle 19 Fuel Cycle Design Distribution Controlled Distribution Richland R. J. DeSteese, 40 S. W. Evans, 34 R. E. Fowles, 34 K. D. Hartley, 34 T. E. Millsaps, 40 E. E. Riley, 34 E-Mail Notification

0. C.D.G.M.E.D.R.Brown Carr Garrett Tinkler AREVA NP Inc.

BSEP 09-0034 Enclosure 9 AREVA Affidavit Regarding Withholding ANP-2771 (P), Revision 0, from Public Disclosure AFFIDAVIT STATE OF WASHINGTON

)) ss.COUNTY OF BENTON )1. My name is Alan B. Meginnis.

I am Manager, Product Licensing, for AREVA NP Inc. and as such I am authorized to execute this Affidavit.

2. I am familiar with the criteria applied by AREVA NP to determine whether certain AREVA NP information is proprietary.

I am familiar with the policies established by AREVA NP to ensure the proper application of these criteria.3. I am familiar with the AREVA NP information contained in the report ANP-2771(P), Revision 0, entitled "Brunswick Unit 2 Cycle 19 Reload Safety Analysis," dated January 2009 and referred to herein as "Document." Information contained in this Document.has been classified by AREVA NP as proprietary in accordance with the policies established by AREVA NP for the control and protection of proprietary and confidential information.

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

5. This Document has been made available to the U.S. Nuclear Regulatory Commission in confidence with the request that the information contained in this Document be withheld from public disclosure.

The request for withholding of proprietary information is made in accordance with 10 CFR 2.390. The information for which withholding from disclosure is requested qualifies under 10 CFR 2.390(a)(4) "Trade secrets and commercial or financial information." 6. The following criteria are customarily applied by AREVA NP to determine whether information should be classified as proprietary: (a) The information reveals details of AREVA NP's research and development plans and programs or their results.(b) Use of the information by a competitor would permit the competitor to significantly reduce its expenditures, in time or resources, to design, produce, or market a similar product or service.(c) The information includes test data or analytical techniques concerning a process, methodology, or component, the application of which results in a competitive advantage for AREVA NP.(d) The information reveals certain distinguishing aspects of a process, methodology, or component, the exclusive use of which provides a competitive advantage for AREVA NP in product optimization or marketability.(e) The information is vital to a competitive advantage held by AREVA NP, would be helpful to competitors to AREVA NP, and would likely cause substantial harm to the competitive position of AREVA NP.The information in these Documents is considered proprietary for the reasons set forth in paragraphs 6(b), 6(d) and 6(e) above..7. In accordance with AREVA NP's policies governing the protection and control of information, proprietary information contained in this Document have been made available, on a limited basis, to others outside AREVA NP only as required and under suitable agreement providing for nondisclosure and limited use of the information.

8. AREVA NP policy requires that proprietary information be kept in a-secured file or area and distributed on a need-to-know basis.

9. The foregoing statements are true and correct to the best of my knowledge, information, and belief.SUBSCRIBED before me this I " day of ,2009. "Jill-NOTARY% ULIC\ " n -1.- \.,, Susan K. McCoy NOTARY PUBLIC, STATE OF WASHINGTON MY COMMISSION EXPIRES: 1/10/12

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