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ANP-3013(NP), Revision 0, Brunswick Unit 1 Cycle 19 Fuel Cycle Design Mellla+ Operating Domain.
	ML16257A407
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Site:	Brunswick
Issue date:	05/31/2013
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To:	; Office of Nuclear Reactor Regulation
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ML16257A418	List: BSEP 16-0056, ANP-3108(NP), Revision 1, Applicability of Areva BWR Methods to Brunswick Extended Power Flow Operating Domain.; ML16257A404; ML16257A406; ML16257A407; ML16257A408; ML16257A410; ML16257A411;
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ANP-3013NP, Revision 0, Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain, May 2013 BSEP 16-0056 Enclosure 22 AREVA NP Inc. ANP-3013(NP)

Revision 0 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain May 2013 A AREVA AREVA NP Inc. sja Brunswick Unit 1Cycle19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain Nature of Changes Item Page Description and Justification

1. All This is the initial release. AREVA NP Inc. ANP-3013(NP)

Revision 0 Page i Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page ii Contents 1.0 Introduction

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

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 Limits .........................................................

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

3-2 4.0 Special Analyses ..........................................................................................................

4-1 4.1 Hot Standby Boron Worth (HSBW) ...................................................................

4-1 4.2 Voiding in the Channel Bypass Region .............................................................

4-1 5.0 References

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5-1 Appendix A Appendix B Appendix C Appendix D AREVA NP Inc. Brunswick Unit 1 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 1 Cycle 19 Fresh Reload Batch Fuel Assemblies

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B-1 Brunswick Unit 1 Cycle 19 Fresh Fuel Locations

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

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D-1 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain Tables ANP-3013(NP)

Revision 0 Page iii 2.1 Brunswick Unit 1 Cycle 19 Energy and Key Results Summary .....................................

2-2 2.2 Brunswick Unit 1 Cycle 19 Fuel Cycle Design Assembly ID Range by Nuclear Fuel Type ........................................................................................................

2-3 2.3 Assumed MCPR Operating Limits ................................................................................

2-3 2.4 Assumed ATRIUM 10XM LHGR Limits .........................................................................

2-3 3.1 Cycle 19 Core Composition and Design Parameters

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3-3 3.2 Brunswick Unit 1 Cycle 19 Hot Operating Target k-eff versus Cycle .Exposure

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3-4 3.3 Brunswick Unit 1 Cycle 19 Cold Critical Target k-eff versus Cycle Exposure ......................................................................................................................

3-4 3.4 Brunswick Unit 1 Cycle 19 Reactivity Margin Summary .............................. .................

3-5 4.1 Hot Standby Boron Worth Minimum Shutdown Margin .................................................

4-2 4.2 Maximum Bypass Voiding at LPRM Level D ................................................................

.4-2 AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain Figures 2.1 Brunswick Unit 1 Cycle 19 Design Step-Through k-eff versus Cycle ANP-3013(NP)

Revision 0 Page iv Exposure ......................................................................................................................

2-4 2.2 Brunswick Unit 1 Cycle 19 Design Margin to Thermal Limits versus Cycle Exposure ......................................................................................................................

2-4 3.1 Brunswick Unit 1 Cycle 19 Reference Loading Pattern .................................................

3-6 3.2 Brunswick Unit 1 Cycle 19 Upper Left Quarter Core Layout by Fuel Type ....................

3-7 3.3 Brunswick Unit 1 Cycle 19 Upper Right Quarter Core Layout by Fuel Type ..................

3-8 3.4 Brunswick Unit 1 Cycle 19 Lower Left Quarter Core Layout by Fuel Type ....................

3-9 3.5 Brunswick Unit 1 Cycle 19 Lower Right Quarter Core Layout by Fuel Type ................

3-10 AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Pagev ACE APLHGR BOC BOL BWR CSDM EOC EOFP EFW FFTR GWd/MTU HEXR LHGR MCPR MICROBURN-B2 MWd/MTU NRC PLFR PPR R Value SLC SPCB AREVA NP Inc. Nomenclature AREVA NP's advanced critical power correlation

[ ] average planar linear heat generation rate beginning of cycle beginning of life boiling water reactor cold shutdown margin end of cycle end of full power capability extended flow window operating domain (e.g. MELLLA+) final feedwater temperature reduction gigawatt days per metric ton of initial uranium hot excess reactivity linear heat generation rate minimum critical power ratio AREVA NP advanced BWR core simulator methodology with PPR capability megawatt days per metric ton of initial uranium Nuclear Regulatory Commission, U.S. part length fuel rod 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 NP (formerly Siemens Power Corporation) critical power correlation Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 1.0 Introduction ANP-3013(NP)

Revision 0 Page 1-1 MELLLA+ is an EFW operating domain that allows the use of lower flow rates when compared to the MELLLA domain. Specifically, at rated conditions the MELLLA+ domain allows for operation at flows greater than or equal to 85% of the rated core flow. AREVA NP Inc. (AREVA) has performed a fuel cycle design and fuel management calculations for the Cycle 19 operation of the Brunswick Unit 1 in the MELLLA+ operating domain. These analyses have been performed with the approved AREVA neutronics methodology (Reference 1 ). The CASM0-4 lattice depletion code was used to generate nuclear data including cross sections and local power peaking factors. The MICROBURN-82 three dimensional core simulator code, combined with the application of the applicable critical power . correlation, was used to model the core. The MICROBURN-82 pin power reconstruction (PPR) model was used to determine the thermal margins presented in this report. The ACE critical power correlation (Reference

3) was utilized for the ATRIUMŽ 10XM* fuel assemblies while the co-resident ATRIUM-10 fuel assemblies will continue to be monitored with the SPCB correlation (Reference 2). The following MICROBURN-82 modeling features are included in this analysis:

Control blade B-10 depletion

Explicit neutronic treatment of the spacer grids

Explicit modeling of the PLFR plenums

Explicit modeling of the water rod flow 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

ATRIUM is a trademark of AREVA NP. AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 2.0 Summary The Cycle 19 fresh batch size (234 assemblies) and batch average enrichment

[ ANP-3013(NP)

Revision 0 Page 2-1 ] were determined to meet the energy requirements provided by Progress Energy (References 5 through 8). For a complete description of the fresh reload assemblies, see Reference

4. 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 (18,788+/-300 MWd/MTU).

Beyond the full power capability, the cycle has been designed to achieve 38 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 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.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page 2-2 Table 2.1 Brunswick Unit 1Cycle19 Energy and Key Results Summary Cycle Energy, GWd (Cycle Exposure, MWd/MTU) Cycle 18

Core follow through April 19, 2011 1,020 ( 10,205)

Best estimate depletion to Nominal EOC 18 1,903 (19,030)

Short window EOC 18 1,859 (18,592)

Long window EOC 18 1,953 (19,527) Cycle 19

EOFP Energy (including FFTR) 1,891+/-30 (18,788+/-300)

Constant Pressure Power Coastdown Energy 38 (378)

EOC Energy 1,929+/-30 ( 19, 166+/-300) Key Results BOC CSDM, %L\k/k (based on short EOC 18) 1.29 Minimum CSDM, %L\k/k (based on short EOC 18) 1.29 Cycle Exposure of Minimum CSDM, MWd/MTU (short basis) 0 Cycle R Value, %L\k/k (short basis) 0.00 Minimum SLC SDM, %L\k/k (based on short EOC 18) 2.67 Cycle Exposure of Minimum SLC SDM, MWd/MTU (short basis) 0 BOC HEXR, %L\k/k (based on nominal EOC 18) 1.65 Maximum HEXR, %L\k/k (based on nominal EOC 18) 1.93 Cycle Exposure of Maximum HEXR, MWd/MTU (nominal basis) 14,000 Minimum MAPLHGR Margin,% 15.1 Exposure of Minimum MAPLHGR Margin, MWd/MTU 9,000 Minimum LHGR Margin, % 10.4 Exposure of Minimum LHGR Margin, MWd/MTU 9,300 Minimum CPR Margin, % 8.1 Exposure of Minimum CPR Margin, MWd/MTU 7,000 AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page 2-3 Table 2.2 Brunswick Unit 1 Cycle 19 Fuel Cycle Design Assembly ID Range by Nuclear Fuel Type Nuclear Number of Assembly ID Fuel Type Assemblies Range 30 38 A17001-A17152 31 46 A 17153-A 17248 32 80 A 18301-A 18380 33 162 A 18381-A 18542 34 96 A 19601-A 19696 35 138 A 19697-A 19834 Table 2.3 Assumed MCPR Operating Limits Cycle Exposure ATRIUM 10XM ATRIUM-10 (GWd/MTU)

OLM CPR OLM CPR 0.0 1.39 1.48 16.7 1.41 1.54 18.225 1.42 1.55 Table 2.4 Assumed ATRIUM 10XM LHGR Limits Peak Pellet Exposure LHGR (GWd/MTU) kW/ft 0.0 14.1 18.9 14.1 74.4 7.4 AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page 2-4 1.010 ...-------------------------------------.

1.005 --Target 0.995 .a. Cycle 19 0.990 +----r----r----r-----r----r----r---""T----ir----r---r-----1 0 2 4 8 10 12 14 16 18 Cycle Exposure (GWd/MTU)

Figure 2.1 Brunswick Unit 1Cycle19 Design Step-Through k-eff versus Cycle Exposure 20 22 1.0 .....------------------------------------.

J!l *e o.9 ::i iii e GI f:. 0.8 .s c 0 .. ;:; 0.7 II.. \ . '"-..... I .. ' ..........

!. ................

.. -..... "' .. "' * --MCPR . " ..... ---LHGR * * * * * *APLHGR ,.1 /*"

t -I'/ .. : ..

-1 / * . I " -........ "'I I . "*.," j I * '*,

II *

0.6-1---....... --...... ----.----"T----ir----r---...---...,.....--

...... ----.-........ ---1 0 AREVA NP Inc. 2 4 10 12 14 16 18 Cycle Exposure (GWd/MTU)

Figure 2.2 Brunswick Unit 1 Cycle 19 Design Margin to Thermal Limits versus Cycle Exposure 20 22 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 3.0 Cycle 19 Fuel Cycle Design 3.1 General Description ANP-3013(NP)

Revision 0 Page 3-1 The assembly design for the Cycle 19 fresh reload fuel for Brunswick Unit 1 is described in detail in Reference

4. Elevation views of the fresh reload fuel design axial enrichment and gadolinia distributions are shown in Appendix B, Figures B.1 and B.2. The loading pattern maintains full symmetry within a scatter load fuel management scheme. This loading in conjunction with the control rod patterns presented in Appendix A shows acceptable power peaking and associated margins to limits for projected Cycle 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 on the long Cycle 18 energy window and the Cycle 19 operation to 703 EFPD. It has been confirmed that no full-length rod average exposure exceeds 60 GWd/MTU. 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-82 3D core simulator PPR model to provide adequate margin to thermal limits. The thermal limit margins presented in this report are based on assumed thermal limits (See Table 2.3 and 2.4) and are subject to change pending the completion of the thermal-mechanical and safety analyses.

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 (Reference 9). 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. The maximum core exit void for the design step-through was determined to be 88.8%. AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 3.3 Hot Excess Reactivity and Cold Shutdown Margin ANP-3013(NP)

Revision 0 Page 3-2 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 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 (Reference 9). 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. The results in this table meet all applicable Reference 5 acceptance criteria.

BOC cold shutdown margin was evaluated to be 1.29 at a cold temperature of 55 °F. Calculations have been performed at temperatures above 68 °F to determine the shutdown margin at the most reactive temperature.

AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain* ANP-3013(NP)

Revision 0 Page 3-3

t Table 3.1 Cycle 19 Core Composition and Design Parameters Cycle Nuclear Number of Fuel Description Loaded Fuel Type Assemblies ATRIUM-10

[ ] 17 30 38 ATRIUM-10

[ ] 17 31 46 ATRIUM-10

[ ] 18 32 80 ATRIUM-10

[ ] 18 33 162 ATRIUM 10XM [ ] 19 34 96 ATRIUM 10XM [ ] 19 35 138 Number of Fuel Assemblies in Core 560 Total Number of Fresh Assemblies 234 Total Core Mass, MTU 100.66 Rated Thermal Power Level, MW 1 2,923 Rated Core Flow, Mlb/hr 77.0 Reference Pressure, psia 1,045* Reference Inlet Subcooling, Btu/lbm 22.ot Value is representative of MICROBURN-82 input for dome pressure at rated conditions and varies depending on core state point. Value is typically determined by MICROBURN-82 using a heat balance method based on nominal feedwater temperature and other parameters identified in the cycle specific plant parameters document.

AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain Table 3.2 Brunswick Unit 1 Cycle 19 Hot Operating Target k-eff versus Cycle Exposure Cycle Exposure Hot Operating (MWd/MTU) k-eff* 0.0 0.9995 8,000.0 0.9975 14,000.0 0.9975 18,000.0 1.0000 22,000.0 1.0000 ANP-3013(NP)

Revision 0 Page 3-4 Table 3.3 Brunswick Unit 1 Cycle 19 Cold Critical Target k-eff versus Cycle Exposure Cycle Exposure (MWd/MTU) 0.0 6,000.0 22,000.0

Values are linearly interpolated between cycle exposure points. AREVA NP Inc. Cold Critical k-eff' 0.9940 0.9900 0.9900 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page 3-5 Table 3.4 Brunswick Unit 1Cycle19 Reactivity Margin Summary Cold Shutdown SLC Cold Shutdown Hot Excess Cycle Exposure Margin* Margint Reactivity+ (MWd/MTU)

(%

0 1.29§ 2.67 1.65 200 1.58 2.92 1.61 1,000 1.92 3.20 1.42 2,300 2.18 3.44 1.41 3,600 2.28 3.61 1.40 5,500 2.34 3.75 1.44 7,500 2.36 3.87 1.59 9,000 2.41 3.92 1.69 10,000 2.42 3.95 1.75 11,000 2.34 3.98 1.80 12,200 2.16 3.94 1.87 13,000 2.03 3.92 1.92 14,000 1.84 3.92 1.93 15,400 1.55 4.12 1.65 16,700 1.38 4.57 1.03 18,225 1.39 5.27 -0.11 18,788 1.42 5.52 --19, 166 1.49 5.71 --20,414 1.79 6.44 --NOTE: Values are shown in bold if the most reactive temperature is greater then 68 °F.

t :t: § Based on short window EOC 18 and 68 °F. Based on short window EOC 18, calculated at 360.8 °F ARO conditions.

Based on nominal EOC 18. Evaluated at 55 °F which bounds values at 68 °F. AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 1 3 5 7 11 52 50 48 Al 7163 Al7008 46 Al7185 Al 7153 Al8334 44 Al 7168 Al 7002 Al8349 Al9690 42 Al 7102 Al8333 Al9689 Al8350 40 A17019 Al8301 Al8539 Al9681 38 Al 7154 Al8357 Al9657 Al9665 Al9673 36 Al7025 Al8377 Al8309 Al9649 Al9823 Al8439 34 Al 7161 Al8341 Al9633 Al9641 Al8455 Al9799 32 Al7054 Al8317 Al8535 Al9625 Al9795 Al8479 30 Al7001 Al8365 Al9609 Al9617 Al8407 Al9763 28 Al7083 Al8325 A19601 Al8487 Al9759 Al8431 26 Al 7235 Al8332 Al9608 Al84 94 Al9762 Al8438 24 Al 7149 Al8372 Al9616 Al9624 Al8414 Al9766 22 Al7094 Al8324 Al8538 Al9632 A19798 Al8486 20 Al 7243 Al8348 Al9640 Al9648 Al8462 Al9802 18 Al 7125 Al8380 Al8316 Al9656 Al9826 Al8446 16 Al7244 Al8364 A19664 Al9672 Al9680 14 Al7129 Al8308 Al8477 Al9688 12 Al7061 Al8340 Al9696 Al8355 10 Al 7202 Al7245 Al8356 Al9695 8 Al7211 Al 7150 Al8339 6 Al7232 Al7140 4 2 27 29 31 33 35 37 52 Al7024 Al7052 Al 7013 Al7186 Al 7189 50 Al8327 Al8367 Al8343 Al8319 Al8374 Al 7157 48 Al9603 Al9611 Al8497 Al9635 Al8311 Al8359 46 Al8489 Al9619 Al9627 Al9643 Al9651 Al9659 44 Al9792 Al8532 Al9820 Al8457 Al9832 Al9667 42 Al8433 Al9788 Al8514 Al9816 Al8441 Al9675 40 Al9756 Al8401 Al9784 Al8465 Al9812 Al8498 38 Al8425 Al9752 Al8513 Al9780 Al8505 Al9808 36 Al9728 Al8393 Al9748 Al8466 Al9776 Al8506 34 Al8417 Al9724 Al8450 Al9744 Al8385 Al9772 32 Al9708 Al8528 Al9720 Al8481 Al9740 Al8474 30 Al8520 Al9704 Al8409 Al9716 Al8394 Al9736 28 Al9698 Al8524 Al9700 Al8418 Al9712 Al8426 26 Al8476 Al8525 Al9701 Al8419 Al9713 Al8427 24 Al8521 Al9705 Al8529 Al9717 Al8395 Al9737 22 Al9709 Al8452 Al9721 Al8541 Al9741 Al8475 20 Al8420 Al9725 Al8533 Al9745 Al8451 Al9773 18 Al9729 Al8428 Al9749 Al8484 Al9777 Al8507 16 Al8396 Al9753 Al8382 Al9781 Al8508 Al9809 14 Al9757 Al8404 Al9785 Al8468 Al9813 Al8499 12 Al8436 Al9789 Al8516 Al9817 Al8444 Al9678 10 A19793 Al8412 Al9821 Al8460 Al9833 Al9670 8 Al8492 Al9622 A19630 Al9646 Al9654 Al9662 6 Al9606 Al9614 Al8500 Al9638 Al8314 Al8362 4 Al8330 Al8370 Al8346 Al8322 Al8375 Al 7247 2 Al7239 Al 7110 Al7146 Al 7222 Al7134 13 15 17 19 Al7167 Al7179 Al 7126 Al8373 Al8318 Al 7155 Al8358 Al8310 Al9634 Al8302 Al9658 Al9650 Al9642 Al8383 Al9666 Al9831 Al8456 Al9682 Al9674 Al8440 Al9815 Al9827 Al8463 Al9811 Al8495 Al8448 Al9807 Al8504 Al9779 Al9803 Al8503 Al9775 Al8464 Al8511 Al9771 Al8480 Al9743 Al9767 Al8471 Al9739 Al8523 Al8399 Al9735 Al8391 Al9715 Al9731 Al8423 Al9711 Al8415 Al9734 Al8430 Al9714 Al8422 Al8406 Al9738 Al8398 Al9718 Al9770 Al8478 Al9742 Al8542 Al8405 Al9774 Al8454 Al9746 Al9806 Al8510 Al9778 Al8485 A18470 Al9810 Al8509 Al9782 Al9830 Al8502 Al9814 Al8445 Al9687 Al9679 Al8469 Al9818 Al8390 Al9671 Al9834 Al8461 Al8307 Al9663 Al9655 Al9647 Al 7237 Al8363 Al8315 Al9639 Al 7216 Al8376 Al8323 Al7212 Al 7215 39 41 43 45 Al 7204 Al7014 Al 7169 Al8303 Al8335 Al7004 Al7190 Al8473 Al9691 Al8352 Al7003 Al9683 Al8351 Al9692 Al8336 Al9828 Al9684 Al8386 Al8304 Al8449 Al9676 Al9668 Al9660 Al9804 Al8442 Al9824 Al9652 Al8540 Al9800 Al8458 Al9644 Al9768 Al8482 Al9796 Al9628 Al8402 Al9764 Al8410 Al9620 Al9732 Al8434 Al9760 Al8490 Al9733 Al8435 Al9761 Al8491 Al8403 Al9765 Al8411 Al9621 Al9769 Al8483 Al9797 Al9629 Al8388 Al9801 Al8459 Al9645 Al9805 Al8443 Al9825 Al9653 Al8467 Al9677 Al9669 Al9661 Al9829 Al9685 Al8387 Al8305 Al9686 Al8354 Al9693 Al8337 Al8515 Al9694 Al8353 Al 7152 Al8306 Al8338 Al 7151 Al 7214 A17246 Al 7145 Al7203 21 Al7007 Al8342 Al8496 Al9626 Al9819 Al8512 Al9783 Al8381 Al9747 Al8447 Al9719 Al8527 Al9699 Al9702 Al8530 Al9722 Al8534 Al9750 Al8413 Al9786 Al8517 Al9822 Al9631 Al8501 Al8347 Al 7236 47 Al 7199 Al 7156 Al7158 Al8360 Al8312 Al9636 Al8536 Al9612 Al9604 Al9605 Al9613 Al8537 Al9637 Al8313 Al8361 Al7213 Al7128 Al 7233 ANP-3013(NP)

Revision 0 Page 3-6 23 25 Al7043 A17162 Al8366 Al8326 Al9610 Al9602 Al9618 Al8488 Al8408 Al9791 Al9787 Al8432 Al8400 Al9755 Al9751 Al8424 Al8392 Al9727 Al9723 Al8416 Al8531 Al9707 Al9703 Al8519 Al8384 Al8472 Al8526 Al9697 Al9706 Al8522 Al8453 Al9710 Al9726 Al8421 Al8518 Al9730 Al9754 Al8429 Al8389 Al9758 Al9790 Al8437 Al8397 Al9794 Al9623 Al8493 Al9615 Al9607 Al8371 Al8331 Al 7101 Al 7139 49 51 Al 7178 Al8378 Al7028 Al8320 Al 7165 Al8344 Al7059 Al8368 Al7166 Al8328 Al7092 Al8329 Al7070 Al8369 Al 7240 Al8345 Al7099 Al8321 Al 7248 Al8379 Al 7200 Al 7230 Figure 3.1 Brunswick Unit 1Cycle19 Reference Loading Pattern AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 1 3 5 7 9 11 52 50 Nuclear Fuel Type BOC Exposure (GWd/MTU) 48 31 30 36.8 33.9 46 31 31 32 36.3 32.9 21. 3 44 31 30 32 34 38.8 30.9 17. 9 0.0 42 30 32 34 32 34.2 21. 0 0.0 18.1 40 30 32 33 34 32.5 20.7 23.3 0.0 38 31 32 34 34 34 34.9 22.9 0.0 0.0 0.0 36 30 32 32 34 35 33 33.8 22.1 20.7 0.0 0.0 22.1 34 31 32 34 34 33 35 30.2 19.7 0.0 0.0 22.2 0.0 32 30 32 33 34 35 33 32.6 20.3 23.5 0.0 0.0 22.5 30 30 32 34 34 33 35 31. 7 19.4 0.0 0.0 22.5 0.0 28 30 32 34 33 35 33 32.8 19.5 0.0 21. 4 0.0 22.6 Fuel Type Description 30 31 32 33 34 35 13 31 32.3 32 21. 2 33 23.8 34 0.0 35 0.0 33 22.3 35 0.0 33 23.0 35 0.0 33 21. 7 35 0.0 15 17 19 31 31 33.6 33.3 30 32 32 33.9 22.4 20.6 32 32 34 23.0 21.1 0.0 34 34 34 0.0 0.0 0.0 34 35 33 0.0 0.0 23.0 34 33 35 0.0 22.6 0.0 33 35 33 22.4 0.0 22.2 35 33 35 0.0 22.5 0.0 33 35 33 22.0 0.0 22.9 35 33 35 0.0 23.1 0.0 33 35 33 22.0 0. 0 23.2 35 33 35 0.0 22.6 0.0 33 35 33 22.2 0.0 23.1 Cycle Loaded 17 17 18 18 19 19 21 30 31.l 32 19.9 33 23.7 34 0.0 35 0.0 33 23.3 35 0.0 33 23.1 35 0.0 33 22.6 35 0.0 33 22.6 35 0.0 23 30 32.3 32 19.5 34 0.0 34 0.0 33 23.2 35 0.0 33 23.4 35 0.0 33 23.1 35 0.0 33 22.6 35 0.0 33 23.7 ANP-3013(NP)

Revision 0 Page 3-7 25 31 33.0 32 19.7 34 0.0 33 21. 8 35 0.0 33 23.4 35 0.0 33 22.9 35 0.0 33 22.6 35 0.0 33 23.6 33 23.4 No. Per Quarter core 11 10 20 41 24 34 Figure 3.2 Brunswick Unit 1 Cycle 19 Upper Left Quarter Core Layout by Fuel Type AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 27 29 31 33 35 37 52 30 30 30 31 31 31. 9 31. 4 32.5 32.3 33.0 50 32 32 32 32 32 31 20.0 19.8 20.2 20.8 22.7 34.7 48 34 34 33 34 32 32 0.0 0.0 24.0 0.0 21. 2 23.3 46 33 34 34 34 34 34 22.0 0.0 0.0 0.0 0.0 0.0 44 35 33 35 33 35 34 0.0 23.0 0.0 23.3 0. 0 0.0 42 33 35 33 35 33 34 23.6 0.0 23.4 0.0 22.8 0.0 40 35 33 35 33 35 33 0.0 23.5 0.0 23.1 0.0 22.7 38 33 35 33 35 33 35 23.0 0.0 23.6 0.0 22.7 0.0 36 35 33 35 33 35 33 0.0 23.2 0.0 22.9 0.0 22.5 34 33 35 33 35 33 35 22.7 0.0 22.9 0.0 23.8 0.0 32 35 33 35 33 35 33 0.0 22.9 0.0 23.4 o.o 22.4 30 33 35 33 35 33 35 23.7 0.0 23.2 0.0 23.0 0.0 28 35 33 35 33 35 33 0.0 23.5 0.0 23.2 0.0 22.5 Fuel Type Description 30 31 32 33 34 35 39 31 32.4 32 21.3 33 23.8 34 0.0 35 0.0 33 22.6 35 0.0 33 23.7 35 0.0 33 22.2 35 0.0 41 43 45 47 49 Nuclear Fuel Type BOC Exposure (GWd/MTU) 30 31 31. 7 39.0 32 30 31 21. 6 31. 7 38.6 34 32 30 31 0.0 18.2 31.1 39.2 32 34 32 31 18.3 0.0 21. 5 34.6 34 33 32 31 0.0 24.0 21.1 32.6 34 34 34 32 31 0.0 0.0 0.0 23.3 35.3 33 35 34 32 32 22.6 0.0 0.0 21. 2 22.5 35 33 34 34 32 0.0 22.6 0.0 0.0 20.8 33 35 34 33 32 22.9 0.0 0.0 23.9 20.1 35 33 34 34 32 0.0 22.9 0.0 0.0 19. 7 33 35 33 34 32 23.1 0.0 21. 9 0.0 20.0 No. ANP-3013(NP)

Revision 0 Page 3-8 51 30 33.2 31 32.5 30 31. 6 31 29.6 30 32.3 Per Cycle Loaded Quarter core 17 9 17 12 18 20 18 40 19 24 19 35 Figure 3.3 Brunswick Unit 1 Cycle 19 Upper Right Quarter Core Layout by Fuel Type AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 1 3 5 7 9 11 26 31 32 34 33 35 33 32.1 19.7 0.0 21.5 0.0 22.6 24 30 32 34 34 33 35 31. 6 19.4 0.0 0.0 22.5 0.0 22 30 32 33 34 35 33 32.5 20.4 23.5 0.0 0.0 22.4 20 31 32 34 34 33 35 32.7 19.8 0.0 0.0 22.1 0.0 18 30 32 32 34 35 33 33.4 22.2 20.7 0.0 0.0 22.1 16 31 32 34 34 34 34.6 22.9 0.0 0.0 0.0 14 30 32 33 34 32.3 20.7 23.5 0.0 12 30 32 34 32 33.0 21. 2 0.0 17.9 10 31 31 32 34 39.8 32.4 18.0 0.0 8 31 30 32 39.l 30.9 21. 2 6 31 30 38.9 33.8 4 Nuclear Fuel Type BOC Exposure (GWd/MTU) 2 Fuel Type Description 30 31 32 33 34 35 13 15 17 19 35 33 35 33 0.0 22.0 0.0 22.8 33 35 33 35 21. 7 0.0 22.6 0.0 35 33 35 33 0.0 22.0 0.0 23.2 33 35 33 35 23.4 0.0 22.4 0.0 35 33 35 33 0.0 22.0 0.0 23.1 33 35 33 35 22.4 0.0 22.4 0.0 35 33 35 33 0.0 22.2 0.0 22.7 34 34 33 35 0.0 0.0 22.9 0.0 33 34 35 33 23.7 0.0 0.0 23.1 32 34 34 34 21. 4 0.0 0.0 0.0 31 32 32 34 34.5 22.9 21.2 0.0 31 32 32 36. 8 22.3 20.6 31 31 33.6 32.7 Cycle Loaded 17 17 18 18 19 19 21 35 0.0 33 22.5 35 0.0 33 22.6 35 0.0 33 23.3 35 0.0 33 23.2 35 0.0 34 0.0 33 23.7 32 19.8 31 32.7 23 33 23.2 35 0.0 33 22.3 35 0.0 33 23.0 35 0.0 33 23.8 35 0.0 33 23.1 34 0.0 34 0.0 32 19.4 30 32.1 ANP-3013(NP)

Revision 0 Page 3-9 25 35 0.0 33 23.5 35 0.0 33 22.6 35 0.0 33 22.9 35 0.0 33 23.4 35 0.0 33 21. 7 34 0.0 32 19.7 30 30.8 No. Per Quarter core 9 12 20 40 24 35 Figure 3.4 Brunswick Unit 1 Cycle 19 Lower Left Quarter Core Layout by Fuel Type AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 27 29 31 33 35 37 26 33 33 35 33 35 33 23.9 23.5 0.0 23.3 0.0 22.6 24 33 35 33 35 33 35 23.7 0.0 22.9 0.0 23.0 0.0 22 35 33 35 33 35 33 0.0 22.7 0.0 23.6 0.0 22.4 20 33 35 33 35 33 35 22.8 0.0 23.0 0.0 23.0 0.0 18 35 33 35 33 35 33 0.0 23.1 0.0 23.5 0.0 22.3 16 33 35 33 35 33 35 23.2 0.0 23.2 0.0 22.8 0.0 14 35 33 35 33 35 33 0.0 23.5 0.0 23.2 0.0 22.6 12 33 35 33 35 33 34 23.6 0.0 23.7 0.0 22.8 0.0 10 35 33 35 33 35 34 0.0 23.3 0.0 23.4 0.0 0.0 8 33 34 34 34 34 34 22.0 0.0 0.0 0.0 0.0 0.0 6 34 34 33 34 32 32 0.0 0.0 24.1 0.0 21. 2 23.3 4 32 32 32 32 32 31 20.0 19.7 20.2 20.8 22.7 34.5 2 31 30 30 31 30 32.5 31. 7 30.7 32.6 32.3 Fuel Type Description 30 31 32 33 34 35 39 35 0.0 33 22.2 35 0.0 33 23.8 35 0.0 33 22.8 35 0.0 34 0.0 33 23.3 32 21. 4 31 32.2 41 43 45 47 49 33 35 33 34 32 23.0 0.0 21. 7 0.0 19.8 35 33 34 34 32 0.0 22.9 0.0 0.0 19.7 33 35 34 33 32 22.8 0.0 0.0 23.9 19.9 35 33 34 34 32 0.0 22.6 0.0 0.0 20.6 33 35 34 32 32 22.5 0.0 0.0 21.1 22.4 34 34 34 32 31 0.0 0.0 0.0 23.2 35.6 34 33 32 31 0.0 24.0 21.1 33.1 32 34 32 30 18.3 0.0 21. 3 33.6 34 32 30 31 0.0 18.1 31.5 38.8 32 30 31 21. 6 30.7 38.8 30 31 33.4 39.2 Nuclear Fuel Type BOC Exposure (GWd/MTU)

No. ANP-3013(NP)

Revision 0 Page 3-10 51 30 32.1 31 29.8 30 31. 6 31 32.5 31 34.4 Per Cycle Loaded Quarter core 17 9 17 12 18 20 18 41 19 24 19 34 Figure 3.5 Brunswick Unit 1 Cycle 19 Lower Right Quarter Core Layout by Fuel Type AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 4.0 Special Analyses The following special analyses were performed at customer request. 4.1 Hot Standby Boron Worth (HSBW) ANP-3013(NP)

Revision 0 Page 4-1 AREVA has calculated the Brunswick Unit 1 Equilibrium Cycle margin to criticality at hot standby conditions with the standby liquid control system engaged. The limiting result is presented in Table 4.1 for a moderator boron concentration of 522 ppm. The target k-eff is the average of the hot and cold target k-eff values. As shown, the shutdown margin is greater than 0.4 limit. 4.2 Voiding in the Channel Bypass Region To demonstrate compliance with the NRC's requirement that there be less than 5% bypass voiding around the LPRMs (see Section 5.1.1.5.1 of Reference 10), the bypass void level has been evaluated throughout the equilibrium cycle. The maximum bypass void value applicable to the Cycle 19 design [ ]

t AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page 4-2 Table 4.1 Hot Standby Boron Worth Minimum Shutdown Margin Operating Domain MELLLA+ MELLLA Boron Cycle Target Concentration Exposure*

k-eff k-eff (ppm) (MWd/MTU) 522 14900 0.98868 0.99403 522 16700 0.99459 0.98581 Table 4.2 Maximum Bypass Voiding at LPRM Level D Power(%), Flow(%) Condition

[ Cycle Exposure (GWd/MTU)

Bypass Void (%) ] Shutdown Margin (% b.k/k) 0.53 0.88 NOTE: There is no bypass voiding at LPRM levels A, B, or C.

Cycle exposure at minimum SOM. AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain 5.0 References ANP-3013(NP)

Revision 0 Page 5-1 1. EMF-2158(P)(A)

Revision 0, Siemens Power Corporation Methodology for Boiling Water Reactors:

Evaluation and Validation of CASM0-4/MICROBURN-B2, Siemens Power Corporation, October 1999. 2. EMF-2209(P)(A)

Revision 3, SPCB Critical Power Correlation, AREVA NP, September 2009. 3. ANP-10298(P)(A)

Revision 0, ACEIATRIUM-10XM Critical Power Correlation, AREVA NP, March 2010. 4. ANP-3006(P)

Revision 0, Nuclear Fuel Design Report Brunswick Unit 1Cycle19 ATRIUM 10XM Fuel, AREVA NP, June 2011. . 5. Letter, E. J. Geyer (Progress Energy) to R. J. DeSteese (AREVA), "BRK1-19 Energy Utilization Plan Revision 1," NF11-016, January 25, 2011. (38-9153944-000)

6. Letter, E. J. Geyer (Progress Energy) to R. J. DeSteese (AREVA), "BRK1-19 Energy Utilization Plan Revision 3 (Control Blade Replacement)," NF11-129, May 4, 2011. (38-9161259-000)

7. Letter, E. J. Geyer (Progress Energy) to R. J. DeSteese (AREVA), "BRK1-19 Energy Utilization Plan Revision 4 (Conservative SIL320 Implementation)," NF11-137, May 17, 2011. (38-9161750-000)

8. 51-9152200-001, "Brunswick Unit 1 Cycle 19 Nuclear Design Basis Plan," AREVA NP, February 3, 2011. 9. 12-9151855-000, "Brunswick Unit 1 Cycle 19 Target K-effective Selection," AREVA NP, January 19, 2011. 10. Safety Evaluation by the Office of Nuclear Reactor Regulation Licensing Topical Report NEDC-33006P, General Electric Boiling Water Reactor Maximum Extended Load Line Limit Analysis Plus, General Electric Hitachi Nuclear Energy America, LLC, October 2008. (ADAMS Accession Number ML 081130008).

AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-1 Appendix A Brunswick Unit 1Cycle19 Step-Through Depletion Summary, Control Rod Patterns and Core Average Axial Power and Exposure Distributions AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-2 Table A.1 Brunswick Unit 1 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/lb) Fraction CPR (kW/ft) (kW/ft) 0.000 0.99937 6.42 2923.0 68.14 1044.53 24.46 0.538 1. 614 12.43 9. 64 0.200 0.99930 6. 42 2923.0 68.53 1044.53 24.31 0.533 1. 618 12.10 9.41 0.500 0.99922 6. 42 2923. 0 72. 76 1044.59 22.74 0.517 1. 656 11. 69 9.09 1.000 0.99913 6. 42 2923.0 73.92 1044.61 22.33 0.513 1. 651 11. 64 9.12 1.500 0.99903 6. 42 2923.0 73.15 1044.60 22.59 0.512 1. 643 11. 47 9.06 2.000 0.99891 6. 42 2923.0 72.50 1044.59 22.83 0.510 1. 635 11.29 8.98 2.300 0.99884 6. 42 2923.0 72.19 1044.58 22.94 0.509 1.632 11.19 8. 94 2.600 0.99874 6. 42 2923.0 71. 88 1044.58 23.05 0.508 1. 629 11. 09 8.91 2.601 0.99881 5.66 2923. 0 71.61 1044.58 23.14 0.522 1.583 12.58 9.95 3.100 0. 99871 5.66 2923. 0 70.84 1044.57 23.43 0.520 1.579 12.26 9.78 3.600 0.99856 5.66 2923.0 70.07 1044.55 23. 71 0.519 1.576 12.08 9.72 4.100 0.99840 5.66 2923.0 69.30 1044.54 24.01 0.518 1.569 11.92 9.67 4.600 0.99830 5.66 2923.0 68.53 1044.53 24.31 0.517 1.560 11. 78 9. 67 4.601 0.99833 6.20 2923.0 75.27 1044.62 21. 89 0.503 1.557 11. 94 9.90 5.000 0.99824 6.20 2923.0 74.50 1044.62 22.13 0.504 1.555 11. 88 9.90 5.500 0.99811 6.20 2923.0 73.34 1044.60 22.53 0.504 1. 551 11.80 9.92 6.000 0.99800 6.20 2923.0 72. 00 1044.58 23.00 0.505 1. 544 11. 76 9.97 6.500 0.99787 6.20 2923.0 70. 46 1044.56 23.57 0.508 1.529 11. 75 10.05 7.000 0.99778 6.20 2923. 0 68.92 1044.54 24.16 0.510 1. 516 11. 77 10.17 7.001 0.99778 6.57 2923.0 76.23 1044.64 21. 58 0.500 1.667 12.20 10. 40 7.500 0.99768 6.57 2923. 0 74.50 1044.62 22.13 0.503 1. 646 12.24 10.53 8.000 0.99755 6.57 2923.0 72. 96 1044.59 22.66 0.506 1.625 12.33 10.69 8.500 0.99755 6. 57 2923.0 71. 61 1044.58 23.14 0.509 1.607 12. 40 10.78 9.000 0.99755 6.57 2923.0 70.26 1044.56 23. 64 0.511 1. 591 12. 42 10.77 9.300 0.99756 6.57 2923.0 69. 42 1044.55 23.97 0.512 1.578 12.38 10.77 9.600 0.99756 6.57 2923. 0 68.65 1044.53 24.27 0.512 1.567 12.29 10.71 9.601 0.99750 8.12 2923.0 76.23 1044. 64 21.58 0.481 1. 689 11.18 9. 94 10.000 0.99755 8.12 2923.0 75.00 1044. 62 21. 97 0.482 1. 676 10. 96 9.80 10.500 0.99751 8.12 2923.0 73.34 1044. 60 22.53 0.482 1. 656 10.58 9.51 11.000 0.99752 8.12 2923.0 71. 61 1044. 58 23.14 0.481 1. 633 10.24 9.15 11.350 0.99752 8.12 2923.0 70.19 1044.56 23.67 0.481 1. 614 10.21 9.13 11. 700 0.99750 8.12 2923.0 68. 72 1044.54 24.24 0.480 1.594 10.37 9.31 11. 701 0.99750 7.30 2923.0 73.23 1044.60 22.58 0.494 1. 652 11.34 9.97 12.200 0.99748 7.30 2923.0 71. 69 1044.58 23.11 0.489 1. 622 10. 64 9.36 12.700 0.99748 7.30 2923.0 70.30 1044.56 23.63 0.484 1.595 10 .17 9.01 13.000 0.99748 7.30 2923.0 69.49 1044.55 23.94 0.480 1. 580 10.08 8.97 13.500 0.99751 7.30 2923.0 68.72 1044.54 24.24 0.473 1.564 9.91 9.00 14.000 0.99752 7.30 2923.0 68.26 1044.53 24.42 0.464 1.545 10.04 9.23 14.400 0.99776 7.30 2923.0 68.92 1044.54 24.16 0.455 1. 541 10.25 9.37 14. 401 0.99776 5.47 2923.0 68.14 1044.53 24.47 0.481 1.538 9.50 8.45 14.900 0.99805 5.47 2923.0 70.46 1044.56 23.58 0. 464 1.575 9.90 8.74 15. 4 00 0.99839 5. 47 2923.0 73.92 1044.61 22.34 0. 44 6 1. 613 10.22 8.99 15.900 0.99867 5.47 2923.0 78.54 1044. 67 20.86 0. 426 1.634 10. 49 9.22 15.901 0.99865 4.81 2923.0 69.30 1044.54 24.01 0.437 1.561 10.17 8.95 16.300 0.99895 4.81 2923.0 73.73 1044.60 22.40 0. 419 1.585 10.31 9.07 16.700 0.99907 4.81 2923.0 79.12 1044.68 20.68 0.401 1.604 10. 48 9.24 16.701 0.99914 3.59 2923.0 71.22 1044.57 23.27 0.424 1.560 10.39 9.14 17.200 0.99950 3.59 2923.0 79.69 1044.69 20.51 0.396 1. 603 10.61 9.31 17. 201 0.99950 3.41 2923.0 76.23 1044.64 21. 56 0.401 1.588 10.82 9.91 17. 450 0.99963 3.41 2923.0 80.31 1044. 70 20.33 0.388 1.601 10.99 10.06 17.451 0. 99972 2.19 2923.0 73.65 1044.61 22.41 0. 408 1.555 10.50 9.63 17.750 0.99976 2.19 2923.0 79. 89 1044.69 20. 46 0.390 1.605 10.67 9.76 17. 751 0.99988 1. 03 2923.0 74.31 1044.61 22.19 0.408 1.568 10.54 9.66 18.025 1. 00000 1. 03 2923.0 80.08 1044.69 20. 40 0.391 1. 610 10.67 9.75 18.026 0.99998 0.00 2923.0 75.85 1044.64 21.68 0.408 1. 602 10.08 9.22 18.225 1. 00008 0.00 2923.0 80. 46 1044.70 20.29 0.395 1.637 10.21 9.23 18.226 1. 00007 0.00 2923.0 77. 00 1044.30 24.32 0.392 1. 633 10.03 9.10 18.375 1. 00009 0.00 2923.0 80.39 1044.30 23.17 0.383 1. 656 10.12 9.12 18.376 1. 00004 0.00 2923.0 77.00 1044.30 27 .11 0.380 1. 652 9.96 8.99 18.525 1. 00010 0.00 2923.0 80. 46 1044.30 25.83 0.370 1. 674 10.07 9.03 AREVA NP Inc.

ANP-3013(NP)

Brunswick Unit 1 Cycle 19 Fuel Cycle Design Revision 0 MELLLA+ Operating Domain Page A-3 18.526 1.00010 0.00 2923.0 77. 08 1044.30 29.70 0.368 1. 669 9.91 8.92 18.650 1. 00011 0.00 2923.0 80.27 1044.30 28.40 0.360 1. 690 10.00 8.95 18.651 1. 00011 0.00 2923.0 77.19 1044.30 32.10 0.358 1. 686 9.86 8.85 18.661 1.00012 0.00 2923.0 77. 4 6 1044.30 31. 98 0.358 1. 688 9.86 8.85 18.730 1.00012 0.00 2923.0 79.04 1044.30 31.28 0.353 1.698 9.91 8.87 18.788 1. 00016 0.00 2923.0 80. 4 6 1044.30 30.68 0.349 1. 706 9. 96 8.89 19.166 1.00015 0.00 2722.7 80. 46 1044.30 28.43 0.330 1. 822 9.55 8.41 19.600 1. 00018 0.00 2492.5 80. 46 1044. 30 25. 83 0.308 1. 958 9.02 7.94 20.000 1. 00022 0.00 2266.5 80. 46 1044.30 23.29 0.287 2 .110 8.57 7.51 20.414 1. 00025 0.00 204 6. 4 80. 46 1044.30 20.81 0.265 2.286 8.16 7 .11 AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain Table A.2 Brunswick Unit 1Cycle19 Design Depletion Thermal Margin Summary Fraction Core Fraction Core Cycle Control Core of Limiting of Limiting Exposure Calculated Rod Limiting Limiting LHGR Limiting APLHGR (GWd/MT) K-eff Density CPR CPR (kW/ft) LHGR (kW/ft) 0.000 0.99937 6. 417 1. 639 0.903 12.43 0.882 8.92 0.200 0.99930 6.417 1. 641 0.902 12.10 0.858 8.75 0.500 0.99922 6.417 1.693 0.874 11. 69 0.829 8.43 1. 000 0.99913 6. 417 1.701 0.870 11. 64 0.825 8.37 1.500 0.99903 6. 417 1.701 0.870 11. 47 0.813 8 .11 2.000 0.99891 6.417 1. 700 0.870 11.29 0.801 8.02 2.300 0.99884 6.417 1.702 0.869 11.19 0. 794 7.95 2.600 0.99874 6. 417 1.704 0.869 11. 09 0.787 7.90 2.601 0. 99881 5.657 1. 660 0.892 12.58 0.892 8.78 3.100 0. 99871 5.657 1. 657 0.893 12.26 0.870 8.56 3.600 0.99856 5.657 1.655 0.894 12.08 0.857 8.43 4.100 0.99840 5.657 1.633 0.906 11. 92 0.845 8.32 4.600 0.99830 5.657 1.621 0.913 11.78 0.836 8.22 4.601 0.99833 6.204 1. 557 0.893 11. 94 0.847 8.32 5.000 0.99824 6.204 1. 649 0.897 11. 88 0.842 8.25 5.500 0. 99811 6.204 1. 642 0.901 11. 80 0.837 8.18 6.000 0.99800 6.204 1.632 0.907 11. 76 0.834 8.14 6.500 0.99787 6.204 1. 620 0.913 11. 75 0.833 8 .11 7.000 0.99778 6.204 1. 610 0.919 11. 77 0.835 8.09 7.001 0.99778 6. 569 1. 722 0.859 12.20 0.865 8.64 7.500 0.99768 6.569 1. 704 0.868 12.24 0.868 8.61 8.000 0.99755 6.569 1. 686 0.878 12.33 0.874 8.64 8.500 0.99755 6.569 1. 672 0.885 12.40 0.882 8.64 9.000 0.99755 6.569 1.658 0. 892 12.42 0.893 8.58 9.300 0.99756 6.569 1. 64 6 0.899 12.38 0.896 8.51 9.600 0.99756 6. 569 1.637 0.904 12.29 0.896 8.40 9.601 0.99750 8.120 1.788 0.828 11.18 0.802 9.94 10. 000 0.99755 8.120 1.771 0.836 10.96 0.793 9.80 10.500 0.99751 8.120 1. 74 6 0.848 10.57 0. 779 9.51 11. 000 0.99752 8.120 1. 721 0.860 7.83 0.779 7.05 11. 350 0.99752 8.120 1. 699 o. 871 7.79 0.780 7.01 11. 700 0.99750 8.120 1. 677 0.883 7.74 0.780 6.97 11. 701 0.99750 7.299 1. 652 0.841 11. 23 0.848 9.97 12.200 0.99748 7.299 1. 622 0.857 10.63 0.804 7.31 12.700 0.99748 7.299 1. 595 0.871 7.77 0.793 7.28 13. 000 0.99748 7.299 1. 580 0.880 8.00 0.791 7.23 13.500 0.99751 7.299 1. 663 o. 890 7.63 0.785 7.12 14.000 0.99752 7.299 1. 645 0.900 7.59 0.782 6.94 14. 4 00 0.99776 7.299 1.541 0.902 7.52 0.782 6.88 14. 4 01 0. 99776 5.474 1. 538 0.903 6.73 0.703 6.45 14.900 0.99805 5.474 1. 575 0.882 9.90 0.732 8.74 15.400 0.99839 5.474 1. 613 0. 862 10.22 0. 762 8.99 15.900 0.99867 5.474 1. 634 0.851 10. 49 0.790 9.22 15.901 0.99865 4.805 1. 661 0.891 10.17 0.766 8.95 16.300 0.99895 4.805 1. 585 0.877 10.31 0.783 9.07 16.700 0.99907 4.805 1. 604 0.867 10.44 0.798 7.35 16.701 0.99914 3.589 1.677 0.918 10.36 0. 792 9.14 17.200 0.99950 3.589 1.750 0.880 10.59 0.812 7.29 17.201 0.99950 3.406 1.713 0.899 8.14 0.819 7.71 17.450 0.99963 3.406 1.739 0. 886 8.24 0.833 7.80 17.451 0. 99972 2.190 1.693 0.909 8.03 0.814 7.52 17.750 0.99976 2.190 1. 605 0.878 8.15 0.831 7.61 17.751 0.99988 1. 034 1.690 0. 911 8.07 0.824 7.54 18.025 1.00000 1. 034 1. 751 0. 879 8.16 0.837 7.60 18.026 0.99998 0.000 1.736 0.887 10.05 0.783 9.20 18.225 1. 00008 0.000 1.784 0.863 10.13 0. 793 9.22 18.226 1.00007 0.000 1. 770 0.870 9.99 0.782 9.09 18.375 1.00009 0.000 1. 805 0.859 10.05 0.789 7.09 18.376 1. 00004 0.000 1.789 0.866 9.93 0.779 8.99 AREVA NP Inc. ANP-3013(NP)

Revision 0 Page A-4 Fraction of Limiting APLHGR 0.774 0. 761 0.738 0.738 0.732 0.730 0. 727 0.726 0.800 0. 788 0.782 0.778 0.776 0.785 0.784 0.784 0.787 0.791 0.796 0.824 0.829 0.839 0. 846 0. 849 0.847 0.841 0. 773 0. 767 0.750 0.743 0.743 0.743 0. 802 0. 761 0. 761 0. 760 0.755 0.754 0.752 0. 679 0.696 0. 720 0.744 0. 722 0.736 0.753 0.743 0. 765 0.800 0.813 0.790 0.804 0.803 0.814 0.753 0.757 0.746 0. 752 0.740 ANP-3013(NP)

Brunswick Unit 1 Cycle 19 Fuel Cycle Design Revision 0 MELLLA+ Operating Domain Page A-5 18.525 1.00010 0.000 1. 823 0.850 10.01 0.787 7.04 0.749 18.526 1. 00010 0.000 1. 807 0.858 9.89 0.778 6.93 0.737 18.650 1. 00011 0.000 1. 839 0.843 9.95 0.785 6.99 0.745 18.651 1. 00011 0.000 1. 825 0. 849 9.85 0.777 6. 89 0.734 18.661 1.00012 0.000 1. 688 0.865 9.85 0.778 6.89 0.735 18.730 1.00012 0.000 1. 698 0.860 9.89 0.782 6.86 0.739 18.788 1. 00016 0.000 1. 706 0.856 9. 93 0.786 6.89 0.744 19.166 1.00015 0.000 1. 822 0.805 9.39 0. 749 6.59 0.716 19.600 1.00018 0.000 1. 958 0.761 9.02 0. 706 6.20 0. 678 20.000 1. 00022 0.000 2.110 0.722 8.44 0.666 5.82 0.636 20.414 1.00025 0.000 2.286 0.680 8.10 0.632 5. 43 0.598 AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-6 Cycle: 19 Core Average Exposure:

MWd/MTU 14498.2 Exposure:

MWd/MTU (GWd) 0.0 ( 0.00 ) Delta E: MWd/MTU, (GWd) 0.0 ( 0.00 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100. 00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.5 Top 25 0.112 2.585 30 0.521 0.623 Inlet Subcooling:

Btu/lbm -24.46 24 0.360 7. 941 31 0.482 0.616 Flow: Mlb/hr 68 .14 ( 88.50 %) 23 0.485 10.592 32 0. 861 1.104 22 0.577 11.873 33 1.131 1. 260 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.654 12.975 34 1. 088 1.201 1 51 :JR 20 0.718 13. 763 35 1.171 1.284 3 47 19 0.769 14. 537 5 36 26 36 43 18 0.810 15.068 7 39 17 0.845 15.160 9 36 12 34 12 36 35 16 0.924 15.724 11 31 15 0.989 16.339 13 26 34 10 34 26 27 14 1.048 16.848 15 23 13 1.175 16.488 17 36 12 34 12 36 19 12 1. 248 16.908 19 15 11 1. 293 17.170 21 36 26 36 11 10 1. 341 17.307 23 7 9 1. 397 17.757 25 3 8 1. 433 17.933 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 440 17. 841 6 1. 472 18.278* 5 1.528 18.277 4 1. 535* 17. 404 Control Rod Density: % 6.42 3 1.457 15.570 2 1.119 11. 454 k-effective:

0.99937 Bottom 1 o. 271 3.104 Void Fraction:

0.538 Core Delta-P: psi a 20.355 % AXIAL TILT -30.402 -10. 313 Core Plate Delta-P: psi a 15.826 AVG BOT 8ft/12ft 1.1855 1. 0671 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 59.22 Active Channel Flow: Mlb/hr 56.96 Total Bypass Flow (%): 13.1 (of total core flow) Total Water Rod Flow (%): 3.3 (of total core flow) Source Convergence 0.00035 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 284 35 15 24 1. 639 0.903 33 15 26 8.92 0.774 24.7 33 21 30 4 12.43 0.882 0.0 34 1.267 35 19 30 1. 647 0.898 33 13 30 8.87 0.772 25.2 33 23 32 4 12. 42 0.881 0.0 35 1.266 35 21 28 1. 689 0.876 33 17 30 8.90 0.770 24.4 33 15 32 4 12.39 0.879 0.0 35 1. 266 35 23 30 1. 706 0.867 33 21 30 8.84 0.765 24.4 33 13 30 4 12.35 0.876 0.0 35 1. 262 35 13 32 1. 712 0.865 33 23 22 8.83 0.763 24.3 33 13 38 12.24 0.868 0.0 35 1.260 33 15 26 1. 713 0. 864 33 15 32 8. 72 0.759 25.1 33 21 38 12.24 0. 868 0.0 35 1. 258 35 21 32 1. 715 0.863 33 11 22 8.58 0.753 26.1 33 37 40 12.24 0. 868 0.0 34 1. 258 35 25 32 1.715 0. 863 33 25 38 8.55 0.743 24.9 33 15 28 12.21 0.866 0.0 34 1. 257 35 23 34 1. 614 0.861 35 13 26 8.47 0.743 25.9 33 23 40 12.21 0.866 0.0 35 1. 257 35 23 38 1. 730 0.855 33 13 38 8.37 0.741 26.9 33 25 30 12.18 0. 864 0.0 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

limit file: Figure A.1 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 0.0 MWd/MTU AREVA NP Inc. IR JR 5 14 47 40 11 12 15 26 11 38 15 24 IR JR 11 38 21 32 23 30 15 30 13 40 13 32 11 14 13 12 15 38 23 38 K 4 4 4 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 PageA-7 Cycle: 19 Core Average Exposure:

MWd/MTU 14698.2 Exposure:

MWd/MTU (GWd) 200.0 20.13 ) Delta E: MWd/MTU, (GWd) 200.0 ( 20.13 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psia 1044.5 Top 25 0.115 2.610 30 0.522 0. 624 5 14 Inlet Subcooling:

Btu/lbm -24.31 24 0. 369 8. 017 31 0.483 0.617 47 40 Flow: Mlb/hr 68.53 ( 89.00 %) 23 0. 498 10.695 32 0.863 1.104 11 12 22 0.592 11. 997 33 1.133 1.264 15 26 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0. 671 13 .115 34 1. 084 1.197 11 38 1 51 :JR 20 0.736 13.916 35 1.170 1.283 15 24 3 47 19 0.787 14.701 5 36 26 36 43 18 0.827 15.241 7 39 17 0.861 15.341 9 36 12 34 12 36 35 16 0.940 15. 911 11 31 15 1. 003 16.539 13 26 34 10 34 26 27 14 1. 059 17.060 15 23 13 1.184 16.712 17 36 12 34 12 36 19 12 1. 255 17 .14 6 19 15 11 1. 297 17. 415 21 36 26 36 11 10 1. 342 17.562 23 7 9 1. 395 18.023 25 3 8 1. 427 18.205 IR: 2 6 10 14 18 22 26 30 34 38 42 4 6 50 7 1. 429 18 .115 6 1. 453 18.558 5 1.500* 18.567* 4 1. 497 17.695 Control Rod Density: % 6. 42 3 1. 414 15.847 2 1.087 11. 667 k-effective:

0.99930 Bottom 1 0. 263 3.160 Void Fraction:

0.533 Core Delta-P: psia 20. 4 55 % AXIAL TILT -28.969 -10.524 Core Plate Delta-P: psi a 15.926 AVG BOT 8ft/12ft 1.1780 1. 0682 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 59.58 Active Channel Flow: Mlb/hr 57.32 Total Bypass Flow (%): 13.1 (of total core flow) Total Water Rod Flow (%): 3.3 (of total core flow) Source Convergence 0.00039 Top Ten Thermal Limits Sununary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 283 35 15 24 1. 641 0.902 33 15 26 8.75 0.761 25.l 33 21 30 4 12.10 0.858 0.5 35 21 32 4 1. 267 35 19 30 1. 650 0.897 33 13 30 8.70 0.760 25.6 33 23 32 4 12.08 0.856 0.5 35 23 30 4 1.266 35 21 28 1. 692 0.874 33 17 30 8.71 0.757 24.8 33 15 32 4 12.06 0.855 0.5 34 11 38 1.265 35 23 30 1.709 0.866 33 21 30 8.66 0.751 24.8 33 13 30 4 12.02 0.852 0.5 35 15 30 1. 264 33 15 26 1. 715 0.863 33 23 22 8.62 0.748 24.6 33 13 38 4 11. 91 0.845 0.5 35 13 32 1.261 35 13 32 1. 716 0.862 33 15 32 8.54 0.745 25.5 33 21 38 4 11. 88 0.842 0.5 35 13 40 1. 258 35 21 32 1.719 0.861 33 11 22 8.38 0.738 26.5 33 37 40 4 11. 86 0.841 0.5 34 11 14 1. 258 35 25 32 1. 719 0.861 33 25 38 8.31 0.735 26.9 33 19 26 9 11. 86 0.841 0.5 35 15 38 1.256 35 23 34 1. 618 0.859 35 13 26 8.16 0.734 28.8 33 11 18 8 11. 85 0.840 0.5 35 23 38 1. 255 35 23 38 1.738 0.852 33 13 38 8.37 0.730 25.3 33 15 28 4 11. 83 0.839 0.5 34 .13 12

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.2 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 200.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-8 Cycle: 19 Core Average Exposure:

MWd/MTU 14998.3 Exposure:

MWd/MTU (GWd) 500.0 50.33 ) Delta E: MWd/MTU, (GWd) 300.0 ( 30.20 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.121 2. 648 30 0.520 0.622 Inlet Subcooling:

Btu/lbm -22.74 24 0.390 8.135 31 0.481 0.614 Flow: Mlb/hr 72.76 ( 94.50 %) 23 0.527 10.853 32 0. 863 1.107 22 0.625 12.186 33 1.135 1.266 3 5 7 9 11 13 15 17 19 21 23 25 21 0.706 13.330 34 1. 082 1.196 1 51 :JR 20 o. 770 14.152 35 1.169 1. 282 3 47 19 0.819 14.953 5 36 26 36 43 18 0.857 15.505 7 39 17 0.887 15.616 9 36 12 34 12 36 35 16 0. 964 16.195 11 31 15 1. 023 16.843 13 26 34 10 34 26 27 14 1. 075 17. 380 15 23 13 1.197 17.050 17 36 12 34 12 36 19 12 1. 264 17. 503 19 15 11 1. 302 17. 785 21 36 26 36 11 10 1. 344 17. 94 4 23 7 9 1. 392 18.421 25 3 8 1. 416 18.612 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 408 18.522 6 1. 421 18.972 5 1.451* 18.995* 4 1. 430 18.122 Control Rod Density: % 6. 42 3 1.337 16.250 2 1.024 11.977 k-effective:

0.99922 Bottom 1 0. 249 3.240 Void Fraction:

0. 517 Core Delta-P: psi a 22. 100 % AXIAL TILT -26.355 -10.801 Core Plate Delta-P: psi a 17.569 AVG BOT 8ft/12ft 1.1635 1. 0697 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 63. 43 Active Channel Flow: Mlb/hr 61. 08 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00045 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 282 35 15 24 1. 693 0.874 33 15 26 8.43 0.738 25.7 33 21 30 4 11. 69 0.829 1.3 34 1. 266 33 15 26 1. 701 0.870 33 13 30 8.38 0.736 26.1 33 23 32 4 11. 64 0.826 1. 3 35 1. 265 35 19 30 1. 749 0.846 33 17 30 8.26 0.734 27.5 33 19 26 9 11. 61 0.824 1.3 35 1. 264 35 21 28 1.761 0.841 33 21 30 8.40 0.733 25. 4 33 15 32 4 11.56 0.820 1.3 35 1. 262 35 23 30 1. 656 0.839 35 13 26 8.09 0.731 29.3 33 11 36 8 11. 49 0.815 1.3 34 1.260 35 13 32 1. 770 0.836 33 15 22 8.25 0. 729 26. 8 33 13 38 5 11. 4 6 0.812 1. 3 34 1. 255 35 21 32 1. 770 0.836 33 11 22 8.35 0. 728 25. 4 33 13 30 4 11. 45 0.812 1.3 35 1. 255 35 25 32 1. 773 0.835 33 23 22 8.23 0.727 26.8 33 25 34 9 11. 45 0.812 1. 3 34 1. 254 33 13 30 1. 774 0.834 33 25 38 8.06 0. 722 28.3 33 37 40 5 11. 42 0.810 1.3 35 1. 254 35 23 34 1. 680 0.828 35 15 24 8.22 0.722 26.1 33 21 38 4 11. 39 0.808 1. 2 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.3 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 500.0 MWd/MTU AREVA NP Inc. IR JR 5 14 47 40 11 12 15 26 11 38 15 24 IR JR 11 38 21 32 23 30 15 30 11 14 13 12 13 32 37 12 13 40 15 38 K 5 4 4 4 5 5 4 5 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-9 Cycle: 19 Core Average Exposure:

MWd/MTU 15498.2 Exposure:

MWd/MTU (GWd) 1000.0 ( 100.66 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psia 1044.6 Top 25 0.123 2. 715 30 0.515 0.617 5 14 Inlet Subcooling:

Btu/lbm -22.33 24 0.394 8.341 31 0.476 0.608 13 48 Flow: Mlb/hr 73.92 ( 96. 00 %) 23 0.531 11.132 32 0.859 1.106 11 12 22 0.629 12.519 33 1.134 1.266 15 26 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.710 13.706 34 1. 084 1. 202 11 38 1 51 :JR 20 0.773 14.562 35 1.175 1. 290 15 24 3 47 19 0.823 15.390 5 36 26 36 43 18 0.861 15.962 7 39 17 0.891 16.089 9 36 12 34 12 36 35 16 0. 969 16.681 11 31 15 1.030 17. 359 13 26 34 10 34 26 27 14 1. 082 17.922 15 23 13 1.202 17.619 17 36 12 34 12 36 19 12 1.268 18.105 19 15 11 1. 304 18.404 21 36 26 36 11 10 1. 343 18.583 23 7 9 1. 388 19.083 25 3 8 1. 410 19.286 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 401 19.192 6 1. 413 19.647 5 1.442* 19.684* 4 1. 420 18.802 Control Rod Density: % 6.42 3 1.326 16.885 2 1.018 12. 4 64 k-effective:

0.99913 Bottom 1 0.250 3.366 Void Fraction:

0.513 Core Delta-P: psia 22.576 % AXIAL TILT -25.916 -11.153 Core Plate Delta-P: psi a 18.045 AVG BOT 8ft/12ft 1.1616 1. 0715 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 64.47 Active Channel Flow: Mlb/hr 62.10 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 290 35 15 24 1.701 0.870 33 15 26 8.37 0.738 26.6 33 21 30 4 11. 64 0.825 2.5 34 11 38 5 1. 271 35 19 30 1.712 0.865 33 13 30 8.32 0.736 27.1 33 23 32 4 11. 61 0.823 2.5 35 21 32 4 1.269 35 21 28 1. 651 0.842 35 13 26 8. 21 0.735 28.4 33 19 26 9 11. 57 0.820 2.5 35 23 30 4 1. 268 35 13 32 1.760 0.841 33 17 30 8.34 0.734 26.3 33 15 32 4 11. 53 0.818 2.5 35 15 30 4 1.266 35 23 30 1. 779 0.832 33 21 30 8.19 0.730 27.7 33 13 38 5 11. 44 0. 811 2.5 34 11 14 5 1.266 33 15 26 1.781 0.831 33 11 22 8.00 0.729 30.2 33 11 18 8 11. 42 0.810 2.4 35 13 32 4 1.262 35 13 26 1. 781 0.831 33 15 22 8.28 0.728 26. 3 33 13 30 4 11. 40 0.808 2.5 34 13 12 5 1.261 35 21 32 1. 676 0.829 35 15 24 8.18 0. 728 27.7 33 25 34 9 11. 40 0.808 2.5 34 37 12 5 1.260 35 23 38 1.785 0.829 33 25 38 8.16 0.722 27.0 33 21 38 4 11. 38 0.807 2.5 35 13 40 4 1. 260 35 23 34 1.787 0.828 33 23 22 8.00 0. 722 29.2 33 37 40 5 11.36 0.806 2.4 35 15 38 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

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

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-10 Cycle: 19 Core Average Exposure:

MWd/MTU 15998.2 Exposure:

MWd/MTU (GWd) 1500.0 ( 150.99 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 1044.6 Top 25 0.125 2.783 30 0.511 0.612 Inlet Subcooling:

Btu/lbm -22.59 24 0. 400 8.550 31 0.472 0.604 Flow: Mlb/hr 73.15 ( 95.00 %) 23 0.540 11. 413 32 0.854 1.104 22 0.641 12.855 33 1.132 1. 262 3 5 7 9 11 13 15 17 19 21 23 25 21 0. 723 14.084 34 1. 086 1.205 1 51 :JR 20 0.788 14.975 35 1.181 1.295 3 47 19 0.837 15.829 5 36 26 36 43 18 0.876 16.421 7 39 17 0.905 16.564 9 36 12 34 12 36 35 16 0.983 17.170 11 31 15 1. 041 17. 878 13 26 34 10 34 26 27 14 1.090 18. 4 68 15 23 13 1.206 18.191 17 36 12 34 12 36 19 12 1.268 18.707 19 15 11 1. 300 19.024 21 36 26 36 11 10 1. 336 19.222 23 7 9 1.379 19.743 25 3 8 1.398 19.956 IR: 2 10 14 18 22 26 30 34 38 42 46 50 7 1. 387 19.858 6 1.396 20.319 5 1.422* 20.369* 4 1.398 19.476 Control Rod Density: 6.42 3 1.305 17.515 2 1. 007 12.947 k-effective:

0.99903 Bottom 1 0.250 3.493 Void Fraction:

0.512 Core Delta-P: psia 22.216 % AXIAL TILT -24.783 -11. 470 Core Plate Delta-P: psi a 17.685 AVG BOT 8ft/12ft 1.1557 1. 0732 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 63.80 Active Channel Flow: Mlb/hr 61. 45 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%); 3.2 (of total core flow) Source Convergence 0.00038 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 295 35 15 24 1.701 0.870 33 15 26 8.11 0.732 29.3 33 19 26 9 11. 47 0.813 3.8 34 1. 275 35 19 30 1. 713 0. 864 33 13 30 8.21 0.730 27.5 33 21 30 4 11. 43 0.811 3.7 35 1. 273 35 13 22 1. 643 0.846 35 13 26 8.16 o. 729 28.0 33 23 32 4 11.39 0.808 3.7 35 1. 272 35 21 28 1.761 0.841 33 17 30 8.19 0.726 27.2 33 15 32 4 11.37 0.806 3.7 35 1.268 35 23 30 1. 772 0.835 33 21 30 7.90 0.726 31.1 33 11 18 8 11.28 0.800 3.7 34 1. 267 35 13 26 1. 666 0.834 35 15 24 8.08 0.725 28.6 33 25 20 9 11. 26 0.799 3.6 35 1. 265 35 23 38 1. 779 0.832 33 15 22 8.06 0.724 28.6 33 13 38 5 11. 24 0.797 3.7 34 1. 265 35 21 32 1. 781 0.831 33 11 22 8.13 0.721 27.2 33 13 30 4 11. 24 0.797 3.7 34 1. 264 35 23 34 1.782 0.830 33 23 22 7.87 0.716 30.1 33 37 40 5 11. 22 0. 796 3.6 35 1. 263 35 25 22 1. 783 0.830 33 25 38 8.02 0.716 27.8 33 21 38 4 11. 20 0. 794 3.6 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.5 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 1,500.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 15 26 11 38 15 24 IR JR 11 38 21 32 23 30 15 30 11 14 13 32 37 12 13 12 13 40 15 38 K 5 4 4 4 5 4 5 5 5 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-11 Cycle: 19 Core Average Exposure:

MWd/MTU 16498.2 Exposure:

MWd/MTU (GWd) 2000.0 ( 201. 32 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.129 2.853 30 0.507 0.607 Inlet Subcooling:

Btu/lbm -22.83 24 0. 409 8.761 31 0. 468 0.599 Flow: Mlb/hr 72.50 ( 94.15 %) 23 0.552 11. 699 32 0.850 1.101 22 0.655 13 .196 33 1.130 1. 260 1 3 5 7 11 13 15 17 19 21 23 25 21 0.738 14. 4 70 34 1. 087 1. 209 1 51 :JR 20 0.803 15.395 35 1.187 1.301 3 47 19 0.853 16.275 5 36 26 36 43 18 0.890 16.888 7 39 17 0.919 17.047 9 36 12 34 12 36 35 16 0.995 17. 666 11 31 15 1. 051 18.403 13 26 34 10 34 26 27 14 1. 097 19.018 15 23 13 1.209 18. 764 17 36 12 34 12 36 19 12 1.267 19.310 19 15 11 1. 296 19.643 21 36 26 36 11 10 1. 330 19.857 23 7 9 1. 370 20.399 25 3 8 1. 386 20.620 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 372 20.517 6 1.378 20.982 5 1.401* 21. 045* 4 1.375 20.140 Control Rod Density: % 6.42 3 1.283 18. 135 2 0. 994 13.425 k-effective:

0.99891 Bottom 1 0.248 3.620 Void Fraction:

0.510 Core Delta-P: psia 21.902 % AXIAL TILT -23.583 -11. 732 Core Plate Delta-P: psi a 17. 372 AVG BOT 8ft/12ft 1.14 91 1. 074 6 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 63.23 Active Channel Flow: Mlb/hr 60.90 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00042 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 301 35 15 24 1.700 0. 870 33 15 26 8.02 0.730 30.1 33 19 26 9 11. 29 0.801 5.0 34 1.281 35 19 30 1. 713 0.864 33 13 30 7.99 0.72329.4 33 25 20 9 11. 26 0.799 4.9 35 1.279 35 13 22 1. 635 0.850 35 13 26 7.80 0.723 32.0 33 11 18 8 11. 20 0.795 4. 9 35 1. 277 35 21 28 1. 762 0.840 33 17 30 8.06 0. 722 28.4 33 21 30 4 11. 20 0.794 4.8 35 1.274 35 13 26 1. 763 0.840 33 21 30 8.01 0.721 28.9 33 23 32 4 11.10 0.788 4. 8 34 1. 272 35 23 30 1. 657 0.839 35 15 24 8.04 o. 719 28.1 33 15 32 4 11.10 0.787 4.8 35 1. 271 35 23 38 1. 772 0.835 33 23 22 7.93 o. 717 29.5 33 13 38 5 11.07 0.785 4.9 34 1. 270 35 21 32 1.669 0.833 35 13 32 7.98 0.713 28.1 33 13 30 4 11. 07 0.785 4.8 34 1. 270 35 23 34 1. 778 0.833 33 15 22 7.62 0.710 32.8 33 15 40 5 11. 07 0.785 4.8 35 1.268 35 25 22 1.782 0.830 33 25 38 7.61 0. 710 32.8 33 17 42 8 11. 04 0.783 4. 8 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.6 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 2,000.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 15 26 11 38 15 24 IR JR 11 38 21 32 23 30 15 30 11 14 13 32 37 12 13 12 13 40 15 38 K 5 4 4 4 5 4 5 5

5 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-12 Cycle: 19 Core Average Exposure:

MWd/MTU 16798.2 Exposure:

MWd/MTU (GWd) 2300.0 ( 231. 51 ) Delta E: MWd/MTU, (GWd) 300.0 ( 30.20 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 1044.6 Top 25 0.131 2.895 30 0.505 0.605 Inlet Subcooling:

Btu/lbm -22.94 24 0.416 8.891 31 0. 4 65 0 .597 Flow: Mlb/hr 72.19 ( 93.75 %) 23 0. 561 11. 875 32 0.847 1. 099 22 0.665 13.406 33 1.129 1.258 3 5 7 9 11 13 15 17 19 21 23 25 21 0.749 14. 706 34 1. 088 1.212 1 51 :JR 20 0.814 15.652 35 1.190 1. 305 3 47 19 0. 863 16.548 5 36 26 36 43 18 0.899 17.173 7 39 17 0.927 17. 341 9 36 12 34 12 36 35 16 1. 002 17. 967 11 31 15 1. 057 18.721 13 26 34 10 34 26 27 14 1.100 19.349 15 23 13 1.210 19.109 17 36 12 34 12 36 19 12 1.265 19. 672 19 15 11 1. 293 20.013 21 36 26 36 11 10 1. 324 20.237 23 7 9 1. 363 20.789 25 3 8 1. 378 21. 016 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 363 20.909 ' 6 1.368 21. 376 5 1.389* 21.444* 4 1.362 20.532 Control Rod Density: % 6.42 3 1.271 18.501 2 0.985 13.709 k-effective:

0.99884 Bottom 1 0.247 3.696 Void Fraction:

0.509 Core Delta-P: psia 21. 748 % AXIAL TILT -22.799 -11. 860 Core Plate Delta-P: psi a 17.218 AVG BOT 8ft/12ft 1.1446 1.0753 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 62.96 Active Channel Flow: Mlb/hr 60.65 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00050 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 305 35 15 24 1.702 0.869 33 15 26 7.95 0.727 30.7 33 19 26 9 11.19 0.794 5.7 34 1. 285 35 19 30 1.715 0.863 33 13 30 7.74 0.720 32.5 33 11 18 8 11.16 0. 791 5.6 35 1. 283 35 13 22 1.632 0.852 35 13 26 7.92 o. 720 30.0 33 25 20 9 11.10 0.788 5.5 35 1.279 35 21 28 1. 758 0.842 33 21 30 7.97 0. 718 29.0 33 21 30 4 11.10 0.787 5.6 35 1. 278 35 13 26 1.653 0.841 35 15 24 7.92 0. 716 29.4 33 23 32 4 11. 01 0.781 5.5 35 1.275 35 23 38 1. 763 0.839 33 17 24 7.96 0.715 28.7 33 15 32 4 11. 01 0.781 5.5 34 1.274 35 23 30 1. 767 0.838 33 23 22 7.85 0.714 30.0 33 13 38 5 10.98 0.779 5.5 35 1.273 35 21 32 1. 665 0.835 35 13 32 7.90 0.709 28.6 33 13 30 4 10.97 0.778 5.5 34 1. 273 35 23 34 1.779 0.832 33 15 22 7.55 0.708 33.3 33 17 42 8 10.97 0. 778 5.6 34 1. 271 35 25 22 1.784 0.830 33 11 22 7.55 0.707 33.3 33 15 40 5 10.94 o. 776 5.5 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A. 7 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 2,300.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 15 26 11 38 15 24 IR JR 11 38 21 32 15 30 23 30 13 32 11 14 13 40 13 12 37 12 15 38 K 5 4 4 4 4 5 5 5 5 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision O Page A-13 Cycle: 19 Core Average Exposure:

MWd/MTU 17098.1 Exposure:

MWd/MTU (GWd) 2600.0 ( 261. 71 ) Delta E: MWd/MTU, (GWd) 300.0 ( 30.20 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure*

Zone Avg. Max. IR JR Core Pressure:

psia 1044.6 Top 25 0.133 2.939 30 0.502 0.602 5 14 Inlet Subcooling:

Btu/lbm -23.05 24 0. 421 9.023 31 0. 463 0.594 13 48 Flow: Mlb/hr 71. 88 ( 93.35 %) 23 0.569 12.053 32 0.844 1.097 11 12 22 0.674 13.618 33 1.128 1. 257 15 26 1 3 5 7 11 13 15 17 19 21 23 25 21 0.758 14. 945 34 1.089 1. 214 11 38 1 51 :JR 20 0.823 15.912 35 1.194 1.309 15 24 3 47 19 0. 871 16.824 5 36 26 36 43 18 0.907 17.460 7 39 17 0.934 17. 637 9 36 12 34 12 36 35 16 1. 009 18.270 11 31 15 1. 063 19.041 13 26 34 10 34 26 27 14 1.104 19.682 15 23 13 1.211 19.454 17 36 12 34 12 36 19 12 1.264 20.033 19 15 11 1. 290 20.381 21 36 26 36 11 10 1. 320 20.614 23 7 9 1.357 21.178 25 3 8 1.370 21. 409 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.355 21. 297 6 1.358 21.766 5 1.378* 21. 84 O* 4 1.350 20.921 Control Rod Density: % 6. 42 3 1.259 18. 863 2 0.977 13.989 k-effecti ve: 0.99874 Bottom 1 0.246 3.771 Void Fraction:

0.508 Core Delta-P: psi a 21. 598 % AXIAL TILT -22.099 -11. 970 Core Plate Delta-P: psi a 17. 068 AVG BOT 8ft/12ft 1.1407 1. 0759 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 62.70 Active Channel Flow: Mlb/hr 60.39 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00036 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.309 35 15 24 1.704 0.869 33 15 26 7.90 o. 726 31.2 33 19 26 9 11. 09 0.787 6.4 34 11 38 5 1. 288 35 19 30 1. 716 0.862 33 13 30 7.87 0.719 30.5 33 25 20 9 11. 06 0.785 6.3 35 21 32 4 1. 287 35 13 ,22 1. 629 0.854 35 13 26 7.69 0. 718 33.0 33 11 18 8 11. 01 0.781 6.2 35 15 30 4 1. 283 35 21 28 1.754 0.844 33 21 30 7.89 0. 714 29.5 33 21 30 4 11. 00 0.780 6.2 35 23 30 4 1. 282 35 13 26 1. 757 0.842 33 17 24 7.84 0. 712 29.9 33 23 32 4 10.92 0.774 6.2 35 13 32 4 1.279 35 23 38 1. 650 0.842 35 15 24 7.88 0. 711 29.2 33 15 32 4 10. 91 0. 774 6.2 34 11 14 5 1.277 35 23 30 1. 762 0.840 33 23 22 7.78 o. 711 30.5 33 13 38 5 10.90 0.773 6.2 35 13 40 5 1.277 35 23 34 1.662 0.836 35 13 32 7.50 0.706 33.7 33 17 42 8 10.88 0. 771 6.2 34 13 12 5 1. 277 35 21 32 1. 777 0.833 33 15 22 7.82 0. 705 29.1 33 13 30 4 10.88 0.771 6.3 34 37 12 5 1. 274 35 25 22 1. 785 0. 829 33 11 22 7.49 0.705 33.8 33 15 40 5 10.86 0.770 6.1 35 15 38 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.8 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 2,600.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-14 Cycle: 19 Core Average Exposure:

MWd/MTU 17099 .1 Exposure:

MWd/MTU (GWd) 2601. 0 ( 261. 81 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.133 2.939 30 0.502 0.600 Inlet Subcooling:

Btu/lbm -23.14 24 0.420 9.024 31 0. 463 0.600 Flow: Mlb/hr 71. 61 ( 93.00 %) 23 0.567 12.054 32 0.846 1. 095 22 0. 671 13.619 33 1.126 1.291 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.754 14.946 34 1.101 1.230 1 51 :JR 20 0.819 15.913 35 1.187 1.345 3 47 19 0.868 16. 825 5 34 34 43 18 o. 902 17. 4 61 7 39 17 0.907 17. 638 9 26 14 14 26 35 16 0. 962 18.271 11 31 15 0.999 19.042 13 14 36 36 14 27 14 1.027 19.684 15 23 13 1.118 19.455 17 26 14 14 26 19 12 1.163 20.034 19 15 11 1.187 20.383 21 34 34 11 10 1.220 20.616 23 7 9 1.268 21.179 25 3 8 1. 306 21. 410 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.336 21.299 6 1. 408 21.767 5 1. 493 21.841* 4 1. 523* 20.922 Control Rod Density: % 5.66 3 1. 472 18. 864 2 1.174 13.990 k-effective:

0.99881 Bottom 1 0. 301 3.771 Void Fraction:

0.522 Core Delta-P: psi a 21.618 % AXIAL TILT -24.375 -11. 971 Core Plate Delta-P: psi a 17.088 AVG BOT 8ft/12ft 1.1436 1.0759 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 62. 40 Active Channel Flow: Mlb/hr 60.08 Total Bypass Flow (%): 12.9 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.345 35 25 26 1. 660 0.892 33 25 28 8.78 0.800 30.3 33 9 30 4 12.58 0.892 5.8 34 1. 306 35 23 30 1.583 0.878 35 25 26 8.68 0.777 28.3 33 9 34 4 12.34 0.875 3.4 35 1.291 33 25 28 1.702 0.870 33 25 24 8.30 0.772 32.4 33 7 28 12.30 o. 872 5.6 35 1. 287 35 19 24 1. 747 0.847 33 21 30 8.30 0. 772 32. 5 33 15 40 12.30 0. 872 5.6 34 1. 270 35 25 22 1. 763 0.839 33 19 28 8.43 0.771 30.7 33 11 32 12.23 0.867 5.6 35 1.265 35 17 40 1. 679 0.828 35 23 24 8.38 0. 760 29.8 33 11 28 12.20 0. 865 6.2 34 1.257 35 17 22 1.788 0.828 33 23 28 9.95 0.759 3.0 35 9 28 12.00 0.851 5.6 34 1. 257 33 25 30 1. 685 0.825 35 25 22 8.21 o. 757 31.5 33 17 42 11. 98 0.850 6.2 34 1.246 35 25 40 1. 809 0.818 33 19 22 8 .17 0.751 31.3 33 17 38 11. 97 0.849 4.9 34 1.244 35 19 38 1. 699 0.818 35 19 24 9.82 0.750 4.3 35 9 32 11. 93 0.846 3.5 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.9 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 2,601.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 25 28 15 42 25 26 IR JR 45 30 9 28 9 32 45 22 11 30 37 12 5 26 13 12 45 20 11 34 K 4 4 4 4 4 4 4 4 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-15 Cycle: 19 Core Average Exposure:

MWd/MTU 17598. 2 Exposure:

MWd/MTU (GWd) 3100.0 ( 312.04 ) Delta E: MWd/MTU, (GWd) 499.0 ( 50.23 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Core Pressure:

psia 1044.6 Top 25 0.137 3.012 30 Inlet Subcooling:

Btu/lbm -23.43 24 0.432 9.246 31 Flow: Mlb/hr 70.84 ( 92.00 %) 23 0.582 12.353 32 22 0.688 13. 976 33 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0. 773 15.347 34 1 51 :JR 20 0.837 16.349 35 3 47 19 0.886 17.287 5 34 34 43 18 0.919 17.941 7 39 17 0.923 18.121 9 26 14 14 26 35 16 0.977 18.756 11 31 15 1. 012 19.545 13 14 36 36 14 27 14 1. 037 20.201 15 23 13 1.124 19.986 17 26 14 14 26 19 12 1.165 20.586 19 15 11 1.186 20.946 21 34 34 11 10 1.216 21.195 23 7 9 1.261 21. 781 25 3 8 1. 296 22.030 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.322 21. 933 6 1.389 22.435 5 1. 4 68 22.549* 4 1. 4 91

21. 64 4 Control Rod Density: % 5.66 3 1.437 19.562 ? 1.145 14.547 k-effective:

0. 99871 Bottom 1 0.295 3.924 Void Fraction:

0.520 Core Delta-P: psi a 21. 247 % AXIAL TILT -22.891 -12.191 Core Plate Delta-P: psi a 16. 719 AVG BOT 8ft/12ft 1.1355 1.0768 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 61.73 Active Channel Flow: Mlb/hr 59.44 Total Bypass Flow (%): 12.9 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00047 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR 1. 343 35 25 26 1. 657 0.893 33 25 28 8.56 0.788 31.3 33 9 30 1. 308 35 23 30 1. 672 0.885 33 25 30 8.47 0. 764 29.2 33 9 34 1.292 35 19 24 1. 579 0.880 35 25 26 8.13 0. 763 33.4 33 15 40 1. 282 33 25 28 1.735 0.853 33 21 30 8.24 0.760 31. 6 33 11 32 1. 273 35 25 22 1. 749 0.846 33 19 28 8.08 0.758 33.3 33 7 28 1. 271 35 17 40 1. 660 0.837 35 23 24 9.78 0.747 4.1 35 9 28 1.264 35 17 22 1. 668 0.834 35 25 22 8.16 0.747 30.8 33 11 28 1. 252 35 25 40 1. 778 0.833 33 23 28 8.02 0.746 32.4 33 17 42 1. 250 35 19 38 1. 678 0.829 35 19 24 8.00 0.742 32.2 33 17 38 1. 250 33 25 30 1. 791 0.826 33 19 22 9.70 0.740 5.3 35 9 32

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: K Value 4 12.26 4 12.05 4 12.04 4 12.01 4 11. 97 4 11.93 4 11. 74 11. 70 11. 69 11. 68 0. 498 0.459 0.842 1.124 1.103 1.193 Margin 0.870 0.854 0.854 0.852 0.849 0.846 0.832 0.830 0.829 0.829 Max. 0.596 0.596 1.092 1. 282 1.234 1.343 LHGR Exp. FT 7.1 34 6.9 35 4.7 35 6.9 34 6.8 35 7.5 34 7.4 34 6.2 34 6.8 34 7.4 35 Figure A 10 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 3,100.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 25 28 15 42 25 26 IR JR 45 30 9 32 9 28 45 22 11 30 37 12 13 12 45 20 5 26 13 40 K 4 4 4 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-16 Cycle: 19 Core Average Exposure:

MWd/MTU 18098.1 Exposure:

MWd/MTU (GWd) 3600.0 ( 362. 37 I Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.6 Top 25 0.141 3.088 30 0. 494 0.592 5 14 Inlet Subcooling:

Btu/lbm -23. 71 24 0.443 9. 474 31 0. 456 0.592 13 48 Flow: Mlb/hr 70.07 ( 91.00 %) 23 0.596 12.661 32 0.838 1. 090 11 12 22 0. 703 14.343 33 1.123 1.273 25 28 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.788 15.759 34 1.104 1.238 15 42 1 51 :JR 20 0.852 16.795 35 1.198 1. 342 25 26 3 47 19 0.900 17.759 5 34 34 43 18 0.933 18. 4 32 7 39 17 0.935 18. 613 9 26 14 14 26 35 16 0.987 19.249 11 31 15 1. 020 20.056 13 14 36 36 14 27 14 1. 042 20.724 15 23 13 1.125 20.520 17 26 14 14 26 19 12 1.162 21.140 19 15 11 1.181 21.510 21 34 34 11 10 1. 209 21.773 23 7 9 1. 252 22.381 25 3 8 1. 285 22.646 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.309 22.561 6 1. 375 23.096 5 1. 451 23.246* 4 1.473* 22.352 Control Rod Density: % 5.66 3 1. 417 20.245 2 1.129 15.091 k-effecti ve: 0.99856 Bottom 1 0.292 4.073 Void Fraction:

0.519 Core Delta-P: psi a 20.895 % AXIAL TILT -21.758 -12.358 Core Plate Delta-P: psi a 16. 367 AVG BOT 8ft/12ft 1.128 9 1. 0775 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 61. 06 Active Channel Flow: Mlb/hr 58.79 Total Bypass Flow (%): 12.9 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00042 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.342 35 25 26 1. 655 0.894 33 25 28 8.43 0.782 32.2 33 9 30 12.08 o. 857 8. 4 34 45 30 4 1.311 35 23 30 1. 666 0.888 33 25 30 8.34 0.759 30.2 33 9 34 11. 90 0.844 8.1 35 9 32 1.298 35 19 24 1. 576 0.882 35 25 26 8.02 0.759 34.3 33 15 40 11. 87 0.842 5.6 35 9 28 1. 277 35 25 22 1. 689 0.876 33 21 24 8.13 0.756 32.5 33 11 32 11. 84 0.840 8.2 34 45 22 1. 277 35 17 40 1.700 0.870 33 19 26 7.94 0.750 34.2 33 7 28 11. 83 0.839 8.0 35 11 30 1. 273 33 25 28 1.728 0.857 33 23 28 9. 72 0.742 5.1 35 9 28 11. 78 0.835 8.7 34 37 12 1.270 35 17 22 1. 644 0.845 35 23 24 7.91 0.741 33.3 33 17 42 11. 59 0.822 8.6 34 13 12 1. 258 35 25 40 1.760 0.841 33 19 32 8.02 0.740 31. 7 33 11 28 11.55 0.819 8.7 35 13 40 1.256 35 19 38 1. 653 0.841 35 25 22 9.67 0.738 6.3 35 9 32 11. 54 0.818 7.4 34 45 20 1.251 35 21 22 1. 659 0.838 35 19 24 7.89 0.737 33.0 33 17 38 11. 53 0.818 5.9 35 11 34

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.11 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 3,600.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-17 Cycle: 19 Core Average Exposure:

MWd/MTU 18598.2 Exposure:

MWd/MTU (GWd) 4100. 0 ( 412.70 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.5 Top 25 0.145 3.167 30 0.491 0.588 5 14 Inlet Subcooling:

Btu/lbm -24.01 24 0.452 9.709 31 0. 452 0.588 13 48 Flow: Mlb/hr 69.30 ( 90.00 %) 23 0.608 12.977 32 0.833 1.087 11 12 22 0.716 14. 718 33 1.121 1.265 25 28 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.801 16.180 34 1.106 1.242 15 42 1 51 :JR 20 0.865 17. 249 35 1.204 1.342 25 26 3 47 19 o. 913 18.239 5 34 34 43 18 0.944 18.929 7 39 17 0. 945 19.111 9 26 14 14 26 35 16 0.996 19.747 11 31 15 1. 027 20.570 13 14 36 36 14 27 14 1. 046 21. 24 9 15 23 13 1.125 21. 055 17 26 14 14 26 19 12 1.159 21. 692 19 15 11 1.175 22. 071 21 34 34 11 10 1.202 22.348 23 7 9 1. 243 22.976 25 3 8 1.275 23.257 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.299 23.183 6 1.363 23.750 5 1.438 23.936* 4 1.458* 23.052 Control Rod Density: 5.66 3 1. 401 20.918 2 1.114 15.627 k-effective:

0.99840 Bottom 1 0. 290 4.222 Void Fraction:

0.518 Core Delta-P: psi a 20.551 % AXIAL TILT -20.777 -12.485 Core Plate Delta-P: psi a 16.023 AVG BOT 8ft/12ft 1.1232 1. 0779 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 60.38 Active Channel Flow: Mlb/hr 58.14 Total Bypass Flow (%): 12.9 (of total core flow) Total Water Rod Flow [%): 3.2 (of total core flow) Source Convergence 0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.342 35 25 26 1.633 0.906 33 27 26 8.32 0.778 33.1 33 9 30 4 11. 92 0.845 9.7 34 45 30 4 1. 315 35 23 30 1. 660 0. 892 33 25 30 7.93 0.756 35.2 33 15 40 4 11. 77 0.835 9.3 35 9 32 4 1. 304 35 19 24 1.569 0.886 35 25 26 8.23 0.75531.1 33 9 34 4 11. 73 0.832 6.8 35 9 28 4 1. 283 35 17 40 1. 678 0.882*33 21 24 8.02 0.753 33.4 33 11 32 4 11.71 0.831 9.2 35 11 30 4 1.282 35 25 22 1. 688 0.877 33 19 26 7.81 0.744 35.1 33 7 28 4 11. 70 0.829 9.4 34 45 22 4 1.276 35 17 22 1. 719 0.861 33 23 26 9.67 0.738 6.1 35 9 28 4 11. 64 0.826 10.0 34 37 12 4 1.265 33 25 28 1. 724 0.858 33 17 24 7.81 0.738 34.2 33 17 42 4 11. 47 0.813 9.9 34 13 12 4 1.264 35 25 14 1.630 0.853 35 23 24 9.65 0.737 7.3 35 9 32 4 11. 46 0.813 9.8 35 13 40 4 1.263 35 19 38 1. 640 0.848 35 25 22 7.90 0. 735 32-.5 33 11 26 4 11. 41 0.810 6.7 35 11 34 4 1. 258 35 21 22 1. 747 0.847 33 23 22 7.80 0.735 33.9 33 17 38 4 11. 41 0.809 8.9 34 7 34

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.12 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at-4,100.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013{NP)

Revision 0 Page A-18 Cycle: 19 Core Average Exposure:

MWd/MTU 19098.2 Exposure:

MWd/MTU (GWd) 4 600. 0 ( 4 63. 03 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 104 4. 5 Top 25 0.149 3.247 30 0. 486 0.583 Inlet Subcooling:

Btu/lbm -24.31 24 0.460 9.948 31 0. 448 0.583 Flow: Mlb/hr 68.53 ( 89.00 %) 23 0.618 13.299 32 0.828 1.083 22 0.727 15.100 33 1.119 1. 257 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.813 16. 607 34 1.108 1.246 1 51 :JR 20 0.876 17. 711 35 1.211 1. 344 3 47 19 0.924 18.726 5 34 34 43 18 0.954 19. 432 7 39 17 0.954 19.615 9 26 14 14 26 35 16 1.005 20.249 11 31 15 1. 034 21.088 13 14 36 36 14 27 14 1. 050 21.777 15 23 13 1.125 21. 590 17 26 14 14 26 19 12 1.156 22.243 19 15 11 1.170 22.630 21 34 34 11 10 1.194 22.919 23 7 9 1.234 23. 567 25 3 8 1.266 23.863 IR: 2 6 10 14 18 22 26 30 34 38 42 4 6 50 7 1. 289 23.801 6 1.353 24.398 5 1. 427 24.619* 4 1.445* 23.744 Control Rod Density: % 5.66 3 1.387 21.583 2 1.102 16.156 k-effective:

0.99830 Bottom 1 o.287 4.369 Void Fraction:

0.517 Core Delta-P: psi a 20.214 % AXIAL TILT -19.886 -12.579 Core Plate Delta-P: psi a 15.687 AVG BOT 8ft/12ft 1.1181 1. 0782 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 59.70 Active Channel Flow: Mlb/hr 57.48 Total Bypass Flow (%): 12.9 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.344 35 25 26 1. 621 0.913 33 25 28 8.22 o. 776 34.l 33 9 30 4 11. 78 0.836 11.0 1. 319 35 23 30 1.653 0.895 33 25 30 7.85 0.755 36.1 33 15 40 11. 68 0.828 10.5 1.311 35 19 24 1. 560 0.891 35 25 26 8.14 0.753 32.0 33 9 34 11. 62 0.824 8.0 1.290 35 17 40 1.667 0.888 33 21 24 7.94 0.751 34.3 33 11 32 11. 62 0.824 10.4 1.287 35 25 22 1.677 0.883 33 19 26 7.69 0.740 36. 0 33 7 28 11.58 0.821 10.6 1. 284 35 17 22 1.709 0.866 33 23 26 9.67 0.738 8.3 35 9 32 4 11.52 0.817 11.2 1. 271 35 25 14 1. 711 0.865 33 17 24 9.65 0.737 7.1 35 9 28 4 11. 40 0.808 11.0 1.270 35 19 38 1. 615 0.861 35 23 24 7.73 0.736 35.0 33 17 42 4 11.36 0.806 11.0 1.264 35 21 22 1. 626 0.855 35 19 24 7. 71 0.733 34.8 33 17 38 4 11. 34 0.804 7.9 1.263 35 21 40 1. 626 0.855 35 25 22 7.80 0.731 33.4 33 11 28 4 11.32 0.803 10.0

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.13 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 4,600.0 MWd/MTU AREVA NP Inc. 34 35 35 35 34 34 35 34 35 34 IR JR 5 14 13 48 11 12 25 28 15 42 25 26 IR JR 45 30 9 32 9 28 11 30 45 22 37 12 13 40 13 12 11 34 7 34 K 4 4 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-19 Cycle: 19 Core Average Exposure:

MWd/MTU 19099.1 Exposure:

MWd/MTU (GWd) 4 601. 0 ( 463 .13 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Core Pressure:

psi a 1044.6 Top 25 0.154 3.247 30 0.487 Inlet Subcooling:

Btu/lbm -21. 89 24 0. 478 9.948 31 0.448 Flow: Mlb/hr 75.27 ( 97.75 %) 23 0.642 13. 299 32 0.832 22 0.751 15.101 33 1.117 3 5 7 9 11 13 15 17 19 21 23 25 21 0.832 16.607 34 1.114 1 51 :JR 20 0.888 17.712 35 1.206 3 47 19 0. 923 18.727 5 43 18 0.936 19.433 7 36 14 14 36 39 17 0. 929 19.616 9 35 16 0. 975 20.250 11 12 28 28 12 31 15 1. 002 21. 090 13 27 14 1. 019 21.778 15 12 28 28 12 23 13 1. 098 21.591 17 19 12 1.137 22.244 19 36 14 14 36 15 11 1.164 22.631 21 11 10 1.184 22.920 23 7 9 1.227 23.568 25 3 8 1.268 23.864 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.309 23.802 6 1.377 24.399 5 1.450 24.620* 4 1. 4 63* 23.746 Control Rod Density: % 6.20 3 1.398 21. 585 2 1.107 16.158 k-effective:

0.99833 Bottom 1 0.289 4.369 Void Fraction:

0.503 Core Delta-P: psi a 23.008 % AXIAL TILT -20.268 -12.579 Core Plate Delta-P: psi a 18.477 AVG BOT 8ft/12ft 1.1149 1. 0782 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 65.75 Active Channel Flow: Mlb/hr 63.37 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00049 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin 1. 360 35 25 26 1.557 0.893 35 25 26 8.32 0. 785 34.l 33 9 30 1. 323 35 21 26 1. 675 0.884 33 25 28 8.36 0.777 32.4 33 23 44 1. 320 35 25 22 1.691 0.875 33 23 26 8.20 0. 769 33.4 33 11 26 1. 303 35 19 20 1. 696 0.873 33 25 30 8.33 0. 767 31.5 33 25 42 1. 298 35 17 18 1. 611 0.863 35 21 26 8.28 0. 767 32.0 33 9 34 1. 297 35 23 20 1. 615 0.861 35 25 22 8. 20 0.755 31.5 33 19 44 1.295 35 19 24 1.731 0.855 33 25 20 9.90 0.755 7.1 35 9 28 1.279 35 17 26 1. 743 0. 849 33 19 26 7.85 0.755 36.0 33 7 28 1.278 33 25 28 1. 663 0.836 35 23 20 9.81 0. 749 6.2 35 25 44 1.274 35 25 18 1.777 0.833 33 21 20 7.83 0.747 35.1 33 25 46

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 4 11. 94 0.847 4 11. 94 0.847 4 11. 93 0. 846 4 11. 90 0.844 4 11. 82 0.838 4 11.82 0.838 4 11. 75 0.833 4 11. 74 0.833 4 11. 67 0.828 4 11. 66 0.827 Max. 0.586 0.581 1. 080 1. 278 1.232 1.360 LHGR Exp. FT 8.0 35 11.0 34 9.5 34 7.0 35 10.5 35 7.6 35 9.3 34 10.6 34 10.4 35 7.6 35 Figure A.14 Brunswick Unit 1Cycle19 Control Rod Pattern and Axial Distributions at 4,601.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 25 28 11 16 25 26 IR JR 9 28 45 30 29 4 6 25 44 9 32 21 44 21 46 45 22 11 30 23 42 K 4 4 4 4 4 4 4 4 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-20 Cycle: 19 Core Average Exposure:

MWd/MTU 19498.2 Exposure:

MWd/MTU (GWd) 5000.0 I 503.29 ) Delta E: MWd/MTU, (GWd) 399.0 I 40.16 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.157 3.315 30 0.483 0.582 Inlet Subcooling:

Btu/lbm -22.13 24 0.485 10.150 31 0.445 0.578 Flow: Mlb/hr 74.50 I 96.75 %) 23 0.650 13.570 32 0.828 1. 077 22 0.759 15. 420 33 1.116 1. 272 3 5 7 9 11 13 15 17 19 21 23 25 21 0.840 16.961 34 1.115 1.235 1 51 :JR 20 0. 896 18. 090 35 1. 211 1. 363 3 47 19 0.931 19.120 5 43 18 0. 944 19.832 7 36 14 14 36 39 17 0.936 20.012 9 35 16 0.981 20.643 11 12 28 28 12 31 15 1. 007 21. 4 93 13 27 14 1. 022 22.188 15 12 28 28 12 23 13 1.097 22.008 17 19 12 1.134 22.676 19 36 14 14 36 15 11 1.159 23. 072 21 11 10 1.179 23.370 23 7 9 1.220 24.033 25 3 8 1. 261 24.346 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.302 24.299 6 1.369 24.921 5 1. 442 25.170* 4 1.455* 24.300 Control Rod Density: % 6.20 3 1.389 22 .115 2 1.099 16.577 k-effective:

0.99824 Bottom 1 0.287 4.486 Void Fraction:

0. 504 Core Delta-P: psi a 22.660 AXIAl TILT -19.610 -12.641 Core Plate Delta-P: psi a 18.130 AVG BOT 8ft/12ft 1.1111 1.0782 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 65.07 Active Channel Flow: Mlb/hr 62.71 Total Bypass Flow (%): 12.7 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.363 35 25 26 1. 649 0.897 33 25 28 8.25 0.784 34.8 33 9 30 11. 88 0.842 9.0 35 1.329 35 21 26 1. 555 0.894 35 25 26 8.26 0. 773 33.1 33 23 44 11. 84 0.840 12.0 34 1.326 35 25 22 1. 683 0.879 33 23 26 8.13 0.768 34.1 33 11 26 11. 80 0.837 10.5 34 1. 308 35 19 20 1. 689 0.876 33 25 30 8.22 0.766 32.7 33 9 34 11. 79 0.836 8.0 35 1. 303 35 23 20 1.605 o. 866 35 21 26 8.23 0. 763 32.2 33 25 42 4 11. 77 0.835 11. 4 35 1. 303 35 17 18 1. 609 0.864 35 25 22 9.90 0.756 7.9 35 9 28 4 11. 72 0.831 8.5 35 1. 302 35 19 24 1. 720 0. 861 33 25 20 8.12 0.753 32.2 33 19 44 4 11. 66 0.827 11. 6 34 1.285 35 17 26 1. 731 0.855 33 19 26 7.77 0.752 36.6 33 7 28 4 11. 64 0.825 10.3 34 1. 280 35 25 18 1.652 0.841 35 23 20 9. 79 0.747 9.1 35 9 32 4 11. 62 0.824 11. 4 35 1. 272 33 25 28 1. 759 0.841 33 21 34 9.78 0.746 7.0 35 25 44 4 11.56 0.820 8.6 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.15 Brunswick Unit 1Cycle19 Control Rod Pattern and Axial Distributions at 5,000.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 25 28 11 16 25 26 IR JR 9 28 45 30 29 46 25 44 9 32 21 44 45 22 21 4 6 11 30 23 42 K 4 4 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-21 Cycle: 19 Core Average Exposure:

MWd/MTU 19998.2 Exposure:

MWd/MTU (GWd) 5500.0 ( 553. 62 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 104 4. 6 Top 25 0.160 3. 402 30 0. 479 0.578 Inlet Subcooling:

Btu/lbm -22.53 24 0.492 10.407 31 0. 441 0.574 Flow: Mlb/hr 73.34 ( 95.25 %) 23 0. 659 13.914 32 0.823 1. 073 22 0.769 15.825 33 1.114 1.264 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.851 17. 4 09 34 1.117 1. 240 1 51 :JR 20 0.907 18.568 35 1.218 1.365 3 47 19 0.941 19.616 5 43 18 0.953 20.335 7 36 14 14 36 39 17 0.945 20.511 9 35 16 0.989 21.138 11 12 28 28 12 31 15 1.013 22.001 13 27 14 1. 025 22.703 15 12 28 28 12 23 13 1.096 22.529 17 19 12 1.130 23.215 19 36 14 14 36 15 11 1.152 23.623 21 11 10 1.170 23.930 23 7 9 1. 210 24.613 25 3 8 1.251 24.945 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 291 24.918 6 1.359 25.572 5 1.433 25.855* 4 1. 447* 24.991 Control Rod Density: % 6.20 3 1.381 22.775 2 1.091 17. 099 k-effective:

0. 99811 Bottom 1 0.286 4.632 Void Fraction:

0.504 Core Delta-P: psia 22.149 % AXIAL TILT -18.809 -12.697 Core Plate Delta-P: psi a 17. 619 AVG BOT 8ft/12ft 1.1064 1. 0782 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 64.04 Active Channel Flow: Mlb/hr 61.72 Total Bypass Flow (%): 12.7 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00049 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 365 35 25 26 1. 642 0.901 33 25 28 8.18 0.784 35.7 33 9 30 4 11. 80 0.837 10.3 1. 335 35 21 26 1.551 0.896 35 25 26 8.17 0. 771 34.0 33 23 44 4 11. 74 0.833 13.2 1. 333 35 25 22 1. 671 0.886 33 23 26 8.16 0.767 33.6 33 9 34 4 11. 73 0.832 12.6 1. 315 35 19 20 1. 678 0.882 33 25 30 8.05 0.766 35.0 33 11 26 4 11. 69 0.829 9.2 1. 311 35 23 20 1.597 0.871 35 21 26 8.13 0.761 33.1 33 25 42 11. 68 0.828 11.7 1.310 35 17 18 1. 598 0.870 35 25 22 9.92 0.757 8.9 35 9 28 11. 64 0.825 9.7 1. 310 35 19 24 1. 703 0.869 33 25 20 8.05 0.753 33.1 33 19 44 11.57 0.821 12.8 1. 292 35 17 26 1. 715 0.863 33 19 26 9.84 0.751 10.1 35 9 32 11. 56 0.820 12.6 1. 287 35 25 18 1. 729 0.856 33 21 20 7.69 0.750 37.5 33 7 28 11.53 0.818 11.5 1. 278 35 13 18 1. 636 0.850 35 23 20 9.77 0.746 8.0 35 25 44 11.51 0.816 10.1

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.16 Brunswick Unit 1Cycle19 Control Rod Pattern and Axial Distributions at 5,500.0 MWd/MTU AREVA NP Inc. 35 34 35 35 34 35 34 35 34 35 IR JR 5 14 13 48 11 12 25 28 11 16 25 26 IR JR 9 28 45 30 9 32 25 44 29 46 21 44 45 22 11 30 21 46 11 34 K 4 4 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-22 Cycle: 19 Core Average Expos'ure:

MWd/MTU 20498.1 Exposure:

MWd/MTU (GWd) 6000.0 ( 603.95 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 104 4. 6 Top 25 0.163 3.491 30 0.475 0.573 Inlet Subcooling:

Btu/lbm -23.00 24 0.499 10.668 31 0. 437 0.569 Flow: Mlb/hr 72.00 ( 93.50 %) 23 0.668 14.263 32 0.818 1.069 22 0.778 16.235 33 1.112 1. 257 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.860 17.863 34 1.118 1.244 1 51 :JR 20 0.916 19.051 35 1.224 1. 369 3 47 19 0.950 20.118 5 43 18 0.961 20.843 7 36 14 14 36 39 17 0.953 21.015 9 35 16 0.996 21. 637 11 12 28 28 12 31 15 1. 018 22.512 13 27 14 1.027 23.220 15 12 28 28 12 23 13 1. 094 23.051 17 19 12 1.124 23.753 19 36 14 14 36 15 11 1.144 24.171 21 11 10 1.160 24.486 23 7 9 1.199 25.189 25 3 8 1.239 25.540 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 281 25.532 6 1.349 26.218 5 1.426 26.535* 4 1. 442* 25.679 Control Rod Density: % 6.20 3 1.378 23.431 2 1.088 17.618 k-effective:

0.99800 Bottom 1 0.286 4.777 Void Fraction:

0.505 Core Delta-P: psia 21.568 % AXIAL TILT -18.111 -12.731 Core Plate Delta-P: psi a 17.039 AVG BOT 8ft/12ft 1.1023 1. 0780 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 62.84 Active Channel Flow: Mlb/hr 60.55 Total Bypass Flow (%): 12.7 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 369 35 25 26 1. 632 0.907 33 25 28 8.14 0.787 36.6 33 9 30 4 11. 76 0.834 11.5 35 1. 342 35 21 26 1. 544 0.900 35 25 26 8.10 0. 771 34.9 33 23 44 4 11. 72 0.831 13.9 35 1.340 35 25 22 1. 656 0.894 33 23 26 8.12 0.769 34.5 33 9 34 4 11. 66 0.827 14.4 34 1. 323 35 19 20 1.663 0.890 33 25 24 7.99 0. 768 35.9 33 11 26 4 11. 64 0.825 10.5 35 1.318 35 23 20 1. 581 0.879 35 21 26 9.97 0. 761 10.0 35 9 28 4 11. 59 0.822 10.9 35 1. 318 35 19 24 1. 684 0.879 33 25 20 8. 06 0. 761 34.0 33 25 42 11. 58 0.822 12.9 34 1. 317 35 17 18 1. 582 0.879 35 25 22 9.93 0.758 11.1 35 9 32 11. 55 0.819 13.7 35 1.299 35 17 26 1. 696 0.873 33 19 26 8.00 0.755 34.0 33 19 44 11. 51 0.816 14.0 34 1.295 35 25 18 1. 710 0.865 33 21 20 7.62 0.750 38.3 33 7 28 11.49 0.815 11. 3 35 1. 284 35 13 18 1.617 0.859 35 23 20 9. 80 0.748 9.1 35 25 44 8. 92 0.813 40.3 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.17 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 6,000.0 MWd/MTU-*., AREVA NP Inc. IR JR 5 14 13 48 11 12 25 28 11 16 25 26 IR JR 9 28 9 32 45 30 25 44 21 44 29 46 11 30 45 22 11 34 9 24 K 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-23 Cycle: 19 Core Average Exposure:

MWd/MTU 20998.2 Exposure:

MWd/MTU (GWd) 6500.0 ( 654.28 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.166 3.581 30 0.471 0.569 Inlet Subcooling:

Btu/lbm -23.57 24 0.506 10.932 31 0.433 o. 565 Flow: Mlb/hr 70. 46 ( 91. 50 %) 23 0.676 14. 617 32 0.812 1. 065 22 0.786 16.650 33 l. llO 1.250 3 5 7 9 11 13 15 17 19 21 23 25 21 0.868 18.321 34 1.120 1. 248 1 51 :JR 20 0.924 19.539 35 1.231 1. 372 3 47 19 0.958 20.624 5 43 18 0. 969 21. 356 7 36 14 14 36 39 17 0. 960 21. 523 9 35 16 1. 002 22 .139 11 12 28 28 12 31 15 1. 022 23.025 13 27 14 1. 028 23.738 15 12 28 28 12 23 13 1. 090 23. 571 17 19 12 l. ll 7 24.287 19 36 14 14 36 15 ll 1.134 24. 715 21 ll 10 1.149 25.038 23 7 9 1.187 25.759 25 3 8 1. 227 26.129 IR: 2 10 14 18 22 26 30 34 38 42 46 50 7 1.270 26.141 6 1. 341 26.860 5 1. 421 27. 213* 4 1.442* 26. 364 Control Rod Density: % 6.20 3 1.381 24.085 2 1. 090 18. 135 k-effective:

0.99787 Bottom 1 0.288 4.923 Void Fraction:

0.508 Core Delta-P: psi a 20.920 % AXIAL TILT -17.501 -12.746 Core Plate Delta-P: psi a 16.393 AVG BOT 8ft/12ft 1. 098 6 1. 0778 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 61.47 Active Channel Flow: Mlb/hr 59.21 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00050 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 372 35 25 26 1. 620 0.913 33 25 28 8. ll 0.791 37.5 33 9 30 4 ll. 75 0.833 12.7 35 1. 350 35 21 26 1.529 0.909 35 25 26 8.06 0. 774 35.8 33 23 44 4 11. 74 0.833 15.1 35 1.348 35 25 22 1. 639 0.903 33 23 26 8.09 0.774 35.4 33 9 34 4 11. 62 0.824 15.7 34 1. 331 35 19 20 1. 645 0.899 33 25 24 7.95 0.770 36.8 33 11 26 4 11. 61 0. 823 11. 7 35 1.326 35 19 24 1. 663 0.890 33 25 20 10.05 o. 768 11.0 35 9 28 11. 58 0.821 12.l 35 1.326 35 23 20 1. 563 0.890 35 21 26 10.04 0.766 12.2 35 9 32 11. 56 0.820 14.9 35 1.324 35 17 18 1. 563 0.889 35 25 22 8.02 0.763 34.9 33 25 42 8.88 0.817 41.2 33 1. 307 35 17 26 1. 675 0.883 33 19 26 7.97 0.758 34.8 33 19 44 ll. 52 0.817 14.2 34 1. 303 35 25 18 1. 689 0.876 33 21 20 9. 86 0.753 10.1 35 25 44 11. 50 0.816 12.4 35 1.291 35 13 18 1. 596 0.871 35 23 20 7.58 0.752 39.2 33 7 28 11. 48 0.814 15.2 34

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.18 Brunswick Unit 1Cycle19 Control Rod Pattern and Axial Distributions at 6,500.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 25 28 11 16 25 26 IR JR 9 28 9 32 45 30 25 44 21 44 11 30 9 24 29 46 11 34 45 22 K 4 4 4 4 4 4 4 4

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-24 Cycle: 19 Core Average Exposure:

MWd/MTU 21498.1 Exposure:

MWd/MTU (GWd) 7000.0 ( 704.61 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt *2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Core Pressure:

psi a 1044.5 Top 25 0 .168 3.673 30 0. 466 Inlet Subcooling:

Btu/lbm -24.16 24 0.510 11. 200 31 0.429 Flow: Mlb/hr 68.92 ( 89.50 %) 23 0.680 14.974 32 0.807 22 0.791 17. 069 33 1.107 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.873 18.784 34 1.122 1 51 :JR 20 0.929 20.032 35 1.238 3 47 19 0.963 21.135 5 43 18 0.974 21. 872 7 36 14 14 36 39 17 0.965 22.034 9 35 16 1. 006 22.644 11 12 28 28 12 31 15 1.025 23.541 13 27 14 1. 028 24.256 15 12 28 28 12 23 13 1.086 24.089 17 19 12 1.110 24.818 19 36 14 14 36 15 11 1.125 25.254 21 11 10 1.139 25.584 23 7 9 1.176 26.323 25 3 8 1.217 26.713 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.261 26.744 6 1.335 27. 4 97 5 1. 420 27.888* 4 1. 44 6* 27.049 Control Rod Density: % 6.20 3 1.388 24.741 2 1.095 18.653 k-effective:

0.99778 Bottom 1 0.290 5.069 Void Fraction:

0.510 Core Delta-P: psi a 20.289 % AXIAl TILT -17.102 -12.746 Core Plate Delta-P: psi a 15. 763 AVG BOT 8ft/12ft 1. 0962 1. 0775 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 60.09 Active Channel Flow: Mlb/hr 57.87 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00045 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin 1.376 35 25 26 1. 610 0.919 33 25 28 8.09 0.796 38.4 33 9 30 1.356 35 21 26 1.516 0.917 35 25 26 8.09 0.780 36.3 33 9 34 1. 355 35 25 22 1. 624 0. 911 33 23 26 8.04 0.778 36.7 33 23 44 1. 339 35 19 20 1. 630 0.908 33 25 24 10.17 0.776 13.2 35 9 32 1. 334 35 19 24 1. 644 0.900 33 25 20 10.16 0.776 12.0 35 9 28 1. 334 35 23 20 1. 545 o. 899 35 21 26 7.94 0.775 37.6 '33 11 26 1. 331 35 17 18 1.546 0.899 35 25 22 7.99 0.767 35.8 33 25 42 1. 314 35 17 26 1. 657 0.893 33 19 26 7.97 o. 764 35.7 33 19 44 1. 311 35 25 18 1. 669 0.887 33 21 20 9.95 o. 760 11.1 35 25 44 1. 297 35 13 18 1.576 0.882 35 23 20 7.55 0.755 4 0. 0 33 7 28

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 4 11. 77 0.835 4 11. 77 0.835 4 11. 61 0.824 4 8.86 0.823 4 11. 61 0.823 4 11. 60 0.823 4 11.59 0.822 4 11.54 0.818 4 11. 49 0.815 4 11. 48 0. 814 Max. 0. 564 0.561 1. 060 1.243 1. 253 1. 376 LHGR Exp. FT 13. 9 35 16.3 35 12.9 35 42.2 33 13.3 35 16.9 34 16.1 35 13.6 35 15.4 34 16.4 34 Figure A.19 Brunswick Unit 1Cycle19 Control Rod Pattern and Axial Distributions at 7,000.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 25 28 11 16 25 26 IR JR 9 28 9 32 25 44 9 24 21 44 45 30 11 30 11 34 29 46 45 22 K 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-25 Cycle: 19 Core Average Exposure:

MWd/MTU 21499.2 Exposure:

MWd/MTU (GWd) 7001. 0 ( 704. 71 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.6 Top 25 0.167 3. 673 30 0.471 0.579 5 14 Inlet Subcooling:

Btu/lbm -21. 58 24 0.509 11. 200 31 0. 431 0.569 47 40 Flow: Mlb/hr 76.23 ( 99.00 %) 23 0.678 14.975 32 0.817 1. 077 11 12 22 0.783 17. 070 33 1.100 1.251 13 24 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.854 18.785 34 1.136 1.304 11 16 1 51 :JR 20 0.895 20.033 35 1. 229 1.387 13 26 3 47 19 0.917 21.136 5 43 18 0.920 21. 873 7 14 14 39 17 0.905 22.036 9 35 16 0.943 22.645 11 36 12 36 12 36 31 15 0.962 23.542 13 27 14 0.971' 24.257 15 36 12 36 12 36 23 13 1. 039 24.090 17 19 12 1. 079 24.819 19 14 8 14 15 11 1.119 25.255 21 11 10 1.168 25.585 23 7 9 1.231 26.324 25 3 8 1. 286 26. 714 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.335 26.746 6 1. 402 27.498 5 1. 482 27.889* 4 1. 4 99* 27.050 Control Rod Density: % 6.57 3 1. 431 24.742 2 1.127 18. 654 k-effective:

0.99778' Bottom 1 0.298 5.069 Void Fraction:

0.500 Core Delta-P: psi a 23.447 % AXIAL TILT -20.666 -12.746 Core Plate Delta-P: psi a 18.915 AVG BOT 8ft/12ft 1.1097 1.0775 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 66.62 Active Channel Flow: Mlb/hr 64.22 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00047 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 387 35 13 26 1. 722 0.859 33 13 24 8. 64 0.824 35.l 33 13 38 4 12.20 0.865 13.6 35 13 40 4 1.364 35 13 22 1. 765 0.838 33 25 28 8.30 0. 804 36. 7 33 23 44 4 12.15 0.862 15.9 34 11 38 4 1. 364 35 25 26 1. 768 0.837 33 23 26 8.10 0.800 38.8 33 11 36 12.03 0.853 14.7 35 13 18 4 1. 353 35 11 20 1. 770 0.836 33 11 28 10.40 0.794 11.5 35 13 36 12.01 0.851 13.3 35 21 44 4 1.351 35 13 18 1.667 0.834 35 13 26 8.03 0.786 37.8 33 15 36 11. 96 0.849 13.3 35 15 38 4 1. 351 35 23 24 1. 667 0.834 35 25 26 8.18 0.785 35.7 33 19 44 9.51 0. 846 37.9 33 13 38 4 1.347 35 9 26 1.783 0.830 33 15 26 8.06 0.783 37.0 33 13 20 11. 92 0.845 15.3 34 11 40 4 1. 329 35 21 26 1. 676 0.829 35 9 26 10.23 0. 781 11. 6 35 13 40 11.88 0.842 13.3 35 23 42 1. 327 35 15 20 1.791 0.826 33 23 22 10.20 0. 779 11. 3 35 21 44 11. 85 0.841 13.3 35 9 36 1. 322 35 15 24 1. 792 0.826 33 13 20 10.14 0. 774 11.1 35 25 44 11. 83 0.839 15.4 34 29 4 6

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.20 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 7,001.0 MWd/MTU. ., AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-26 Cycle: 19 Core Average Exposure:

MWd/MTU 21998.1 Exposure:

MWd/MTU (GWd) 7500.0 ( 754.94 ) Delta E: MWd/MTU, (GWd) 499. 0 ( 50.23 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.6 Top 25 0.169 3. 765 30 0. 467 0.574 5 14 Inlet Subcooling:

Btu/lbm -22.13 24 0.514 11. 4 69 31 0. 427 0.564 47 40 Flow: Mlb/hr 74.50 ( 96. 75 %) 23 0.684 15.333 32 0.812 1.072 11 12 22 0.789 17.487 33 1. 098 1. 246 13 24 3 5 7 9 11 13 15 17 19 21 23 25 21 0.860 19.239 34 1.139 1.309 11 16 1 51 :JR 20 0.901 20.509 35 1. 236 1. 392 13 26 3 47 19 0.923 21.624 5 43 18 0.926 22.363 7 14 8 14 39 17 0.910 22.517 9 35 16 0.947 23.120 11 36 12 36 12 36 31 15 0. 965 24.026 13 27 14 0.971 24.746 15 36 12 36 12 36 23 13 1. 034 24.583 17 19 12 1. 071 25.331 19 14 14 15 11 1.108 25.786 21 11 10 1.155 26.139 23 7 9 1.217 26.908 25 3 8 1. 273 27.324 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 324 27.379 6 1.395 28.164 5 1.482 28.592* 4 1. 506* 27.761 Control Rod Density: % 6.57 3 1. 442 25. 421 2 1.135 19.188 k-effective:

0.99768 Bottom 1 0.301 5.221 Void Fraction:

0.503 Core Del ta-P: psi a 22.699 % AXIAL TILT -20.229 -12.820 Core Plate Delta-P: psi a 18 .168 AVG BOT 8ft/12ft 1.1069 1.0774 Coolant Temp: Deg-F 548.6 In Channel Flow: Mlb/hr 65.07 Active Channel Flow: Mlb/hr 62.71 Total Bypass Flow (%): 12.7 (of total core flow) Total Water Rod Flow (%): 3.2 (of total flow) Source Convergence 0.00038 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 392 35 13 26 1. 704 0.868 33 13 24 8.61 0.829 36.1 33 13 38 4 12.24 0.868 14.9 35 13 40 4 1. 370 35 13 22 1. 751 0.845 33 23 26 8.30 0. 811 37.6 33 23 44 4 12.19 0.864 16.7 34 11 38 4 1.365 35 25 26 1. 753 0.844 33 25 28 8.10 0.807 39. 7 33 11 36 4 12.10 0.858 15.9 35 13 18 4 1.359 35 11 20 1. 646 0.844 35 13 26 10.53 0.804 12.6 35 13 36 4 12.07 0.856 14.5 35 21 44 4 1. 358 35 13 18 1. 755 0.844 33 11 28 8.20 0.793 36. 6 33 19 44 9.48 0.852 38.9 33 13 38 4 1. 355 35 23 24 1.653 0.841 35 25 26 8.02 0.792 38.7 33 15 36 12.00 0.851 14.5 35 15 38 4 1. 351 35 9 26 1. 763 0.839 33 15 26 10.37 0.791 12.7 35 13 40 11. 96 0.848 16.6 34 11 40 4 1. 334 35 15 20 1. 771 0.836 33 23 22 10.36 0.791 12.3 35 21 44 11. 93 0.846 14.5 35 23 42 1. 334 35 21 26 1.663 0.836 35 9 26 8.05 0.788 37.9 33 13 20 11. 92 0.846 14.6 35 9 36 1. 328 35 15 24 1. 771 0.836 33 13 20 10.28 0.784 12.1 35 25 44 8. 94 0.842 43.4 33 11 18

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.21 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 7,500.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-27 Cycle: 19 Core Average Exposure:

MWd/MTU 22498.1 Exposure:

MWd/MTU (GWd) 8000.0 ( 805.27 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 ( 100,. 00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 1044.6 Top 25 0.172 3.859 30 0. 4 62 0.570 Inlet Subcooling:

Btu/lbm -22.66 24 0.520 11. 741 31 0. 423 0.560 Flow: Mlb/hr 72. 96 ( 94.75 %) 23 0.691 15.695 32 0.806 1.069 22 0. 796 17.907 33 1. 095 1. 242 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0. 867 19.698 34 1.141 1.315 1 51 :JR 20 0.908 20.990 35 1. 242 1. 398 3 47 19 0.929 22.116 5 43 18 0.930 22.856 7 14 8 14 39 17 0.914 23.003 9 35 16 0.949 23.598 11 36 12 36 12 36 31 15 0.964 24.513 13 27 14 0. 967 25.236 15 36 12 36 12 36 23 13 1. 025 25.075 17 19 12 1.058 25.840 19 14 14 15 11 1.093 26.313 21 11 10 1.138 26.689 23 7 9 1.200 27.487 25 3 8 1.257 27.929 IR: 2 6 10 14 18 22 26 30 34 38 42 4 6 50 7 1.312 28.008 6 1.389 28.827 5 1. 484 29.296* 4 1. 518* 28.476 Control Rod Density: % 6.57 3 1. 460 26.106 2 1.152 19. 727 k-effective:

0.99755 Bottom 1 0:306 5.373 Void Fraction:

0.506 Core Delta-P: psia 22.045 % AXIAL TILT -19.856 -12.880 Core Plate Delta-P: psi a 17.515 AVG BOT 8ft/12ft 1. 104 0 1. 0773 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 63.68 Active Channel Flow: Mlb/hr 61. 36 Total Bypass Flow (%): 12.7 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00044 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 398 35 13 26 1. 686 0.878 33 13 24 8.64 0.839 37.0 33 13 38 4 12.33 0.874 16.1 35 1. 376 35 13 22 1. 625 0.855 35 13 26 8.32 0.820 38.5 33 23 44 4 12.31 0.873 17.9 34 1.367 35 25 26 1. 736 0.852 33 23 26 8 .13 0.818 40.6 33 11 36 4 12. 20 0.865 17.1 35 1.366 35 11 20 1. 736 0.852 33 11 26 10.69 0.816 13.7 35 13 36 4 9.51 0.864 40.0 33 1.366 35 13 18 1. 742 0.849 33 25 28 10.55 0.805 13.8 35 13 40 4 12.16 0.862 15.8 35 1.360 35 23 24 1. 744 0.849 33 15 26 10.54 0.805 13.4 35 21 44 4 12.08 0.857 15.8 35 1.356 35 9 26 1. 641 0.847 35 25 26 8.25 0.805 37.5 33 19 44 4 12.06 0.856 17.8 34 1.341 35 15 20 1. 751 0.845 33 13 20 8.04 0.800 39.6 33 15 36 4 12.03 0.853 15.8 35 1.339 35 21 26 1.752 0.845 33 23 22 8.06 0.796 38.8 33 13 20 4 8.96 0.853 44.4 33 1. 335 35 15 24 1. 650 0.842 35 9 26 10. 43 0.796 13.2 35 25 44 4 11. 99 0.851 15.8 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A22 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 8,000.0 MWd/MTU AREVA NP Inc. IR JR 5 14 47 40 11 12 13 24 11 16 13 26 IR JR 13 40 11 38 13 18 13 38 21 44 15 38 11 40 9 36 11 18 23 42 K 4 4 4 4 4 4 4 4 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-28 Cycle: 19 Core Average Exposure:

MWd/MTU 22998.1 Exposure:

MWd/MTU (GWd) 8500.0 ( 855.60 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.6 Top 25 0.174 3.954 30 0.458 0.566 5 14 Inlet Subcooling:

Btu/lbm -23 .14 24 0.526 12.016 31 0. 420 0.556 47 40 Flow: Mlb/hr 71. 61 ( 93.00 %) 23 0.698 16.061 32 0. 802 1. 065 11 12 22 0.802 18.331 33 1. 093 1. 237 13 24 3 5 7 9 11 13 15 17 19 21 23 25 21 0.873 20.160 34 1.145 1. 322 11 16 1 51 :JR 20 0.914 21.474 35 1. 248 1. 403 13 26 3 47 19 0.934 22.612 5 43 18 0.935 23.353 7 14 14 39 17 0.918 23.490 9 35 16 0.951 24.076 11 36 12 36 12 36 31 15 0.964 24.999 13 27 14 0. 964 25. 724 15 36 12 36 12 36 23 13 1. 018 25. 562 17 19 12 1. 048 26.343 19 14 14 15 11 1. 080 26. 832 21 11 10 1.124 27.230 23 7 9 1.185 28.057 25 3 8 1. 244 28.527 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.302 28.632 6 1.384 29.487 5 1. 485 30.001* 4 1. 526* 29.197 Control Rod Density: % 6.57 3 1. 475 26.799 2 1.165 20.274 k-effective:

0.99755 Bottom 1 0.310 5.529 Void Fraction:

0.509 Core Delta-P: psi a 21.478 % AXIAL TILT -19.486 -12.929 Core Plate Delta-P: psi a 16.950 AVG BOT 8ft/12ft 1.1012 1.0771 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 62. 48 Active Channel Flow: Mlb/hr 60.19 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.403 35 13 26 1. 672 0.885 33 13 24 8. 64 0.846 38.0 33 13 38 4 12.40 0.882 19.2 34 11 38 4 1. 382 35 13 22 1.607 0.865 35 13 26 8.32 0.828 39. 4 33 23 44 4 12.38 0.878 17.4 35 13 40 4 1.373 35 11 20 1.723 0. 859 33 11 26 8.14 0.826 41.5 33 11 36 4 9.51 0.873 41.0 33 13 38 1. 372 35 13 18 1.725 0.858 33 23 26 10.78 0.823 14.8 35 13 36 12.23 0.867 18.4 35 13 18 1. 368 35 25 26 1. 729 0. 856 33 15 26 10. 69 0.816 14.5 35 21 44 12.22 0.866 17.0 35 21 44 1. 363 35 23 24 1.735 0.853 33 13 20 10.69 0.816 14.8 35 13 40 12.14 0.862 19.0 34 11 40 1. 360 35 9 26 1.735 0.853 33 25 28 8.28 0.815 38.4 33 19 44 8.96 0.861 45.4 33 11 18 1.348 35 15 20 1. 631 0.852 35 25 26 10.53 0.808 15.6 34 11 38 12.10 0.858 17. 0 35 15 38 1.343 35 21 26 1. 738 0.852 33 23 22 8.01 0.805 4 0. 4 33 15 36 12 .10 0.858 17. 0 35 9 36 1.340 35 15 24 1. 634 0.850 35 13 22 10.54 0.805 14.3 35 25 44 12.03 0.853 18.6 34 29 46

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.23 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 8,500.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-29 Cycle: 19 Core Average Exposure:

MWd/MTU 23498.1 Exposure:

MWd/MTU (GWd) 9000.0 ( 905.93 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psia 1044.6 Top 25 0.176 4. 050 30 0. 455 0.562 5 14 Inlet Subcooling:

Btu/lbm -23.64 24 0.529 12.295 31 0. 416 0.552 47 40 Flow: Mlb/hr 70.26 ( 91. 25 %) 23 0.702 16.431 32 0. 797 1. 062 11 12 22 0. 806 18.759 33 1. 090 1.232 13 24 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0. 876 20.626 34 1.149 1. 328 11 16 1 51 :JR 20 0.917 21. 961 35 1.253 1. 406 13 26 3 47 19 0.938 23.110 5 43 18 0. 939 23.851 7 14 8 14 39 17 0.921 23.979 9 35 16 0.955 24.556 11 36 12 36 12 36 31 15 0.966 25.485 13 27 14 0.964 26.210 15 36 12 36 12 36 23 13 1.015 26. 04 6 17 19 12 1. 042 26.841 19 14 8 14 15 11 1. 073 27.346 21 11 10 1.117 27. 764 23 7 9 1.178 28.621 25 3 8 1.237 29 .119 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.296 29.251 6 1.380 30.145 5 1. 483 30.706* 4 1. 527* 29.922 *control Rod Density: % 6.57 3 1. 480 27.500 2 1.170 20.827 k-effective:

0.99755 Bottom 1 0.312 5.686 Void Fraction:

0. 511 Core Delta-P: psia 20.919 % AXIAL TILT -19.203 -12.969 Core Plate Delta-P: psi a 16.391 AVG BOT 8ft/12ft 1. 0995 1.0769 Coolant Temp: Deg-F 548.5 In Channel Flow: Mlb/hr 61.27 Active Channel Flow: Mlb/hr 59.02 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00029 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.406 35 13 26 1. 658 0.892 33 13 24 8.58 0.849 38.9 33 13 38 4 12.42 0.893 20.5 34 11 38 4 1.386 35 13 22 1.591 0.874 35 13 26 8.29 0.831 40.4 33 23 44 9. 4 6 0.877 42.0 33 13 38 4 1.379 35 11 20 1. 711 0.865 33 11 26 8.10 0.830 42.4 33 11 36 12.34 0.875 18.7 35 13 40 4 1.378 35 13 18 1. 715 0.863 33 23 26 10.77 0.828 15.9 35 13 36 12.18 0.873 20.2 34 41 40 4 1.369 35 25 26 1. 717 0.862 33 15 26 10.75 0.827 15.9 35 13 40 12.17 0.868 19.6 35 39 36 4 1.367 35 23 24 1. 720 0.861 33 13 20 10.76 0.825 15.6 35 21 44 12.23 0. 867 17.4 35 21 44 3 1. 364 35 9 26 1. 618 0.859 35 13 22 10.63 0.822 16.7 34 11 38 8.91 0.866 4 6. 4 33 11 18 1.353 35 15 20 1. 725 0.858 33 23 22 8.27 0.822 39.3 33 19 44 4 12. 09 0.864 19.8 34 29 46 1. 347 35 21 26 1. 621 0.857 35 25 26 10.58 0.810 15.4 35 25 44 4 12.02 0. 861 20.0 34 9 38 1. 345 35 15 24 1. 729 0.856 33 25 28 7.93 0.804 41. 3 33 15 36 4 12.10 0.858 18.3 35 9 36

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.24 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 9,000.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-30 Cycle: 19 Core Average Exposure:

MWd/MTU 23798.2 Exposure:

MWd/MTU (GWd) 9300.0 ( 936.12 ) Delta E: MWd/MTU, (GWd) 300.0 ( 30.20 ) Axial Profile Edit Radial Power *Power: Mwt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.5 Top 25 0.179 4.109 30 0.453 0.560 Inlet'subcooling:

Btu/lbm -23.97 24 0.536 12. 4 63 31 0. 414 0.550 Flow: Mlb/hr 69. 42 ( 90.15 %) 23 0.710 16.654 32 0.795 1. 060 22 0.814 19.017 33 1.088 1. 230 3 5 7 9 11 13 15 17 19 21 23 25 21 0.885 20.906 34 1.151 1.332 1 51 :JR 20 0.925 22.254 35 1. 256 1. 408 3 47 19 0. 946 23.410 5 43 18 0. 946 24.151 7 14 14 39 17 0.927 24.274 9 35 16 0.959 24.845 11 36 12 36 12 36 31 15 0. 970 25.778 13 27 14 0. 965 2 6. 502 15 36 12 36 12 36 23 13 1. 013 26.336 17 19 12 1. 038 27 .139 19 14 8 14 15 11 1. 067 27.652 21 11 10 1.110 28.083 23 7 9 1.170 28.957 25 3 8 1.230 29. 4 72 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.289 29.621 6 1.373 30.539 5 1.475 31.129* 4 1.520* 30.358 Control Rod Density: % 6.57 3 1.476 27.922 2 1.168 21.161 k-effective:

0.99756 Bottom 1 0.311 5.781 Void Fraction:

0.512 Core Delta-P: psi a 20.556 % AXIAL TILT -18.611 -12.988 Core Plate Delta-P: psi a 16.029 AVG BOT 8ft/12ft 1.0958 1. 0768 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 60.52 Active Channel Flow: Mlb/hr 58.29 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.408 35 13 26 1. 646 0.899 33 13 24 8.51 0.847 39.5 33 13 38 1. 388 35 13 22 1. 578 0.881 35 13 26 8.22 0.829 40.9 33 23 44 1.382 35 11 20 1.700 0.870 33 11 26 10.71 0.828 16.6 35 13 40 1. 381 35 13 18 1. 704 0.869 33 23 26 8.04 0.828 42.9 33 11 36 1. 370 35 25 26 1. 705 0.868 33 15 26 10.64 0.827 17.3 34 11 38 1. 369 35 23 24 1. 707 0. 867 33 13 20 10.72 0.827 16. 3 35 21 44 1. 367 35 9 26 1. 604 0.866 35 13 22 10.69 0. 826 16.6 35 13 36 1. 355 35 15 20 1.712 0. 865 33 23 22 8.23 0.822 39.9 33 19 44 1.349 35 21 26 1. 611 0.863 35 25 26 10.53 0.811 16.0 35 25 44 1. 347 35 15 24 1. 612 0. 862 35 15 24 7.83 0. 798 41. 8 33 15 36

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 4 12.38 0.896 21.3 4 12.14 0.876 21.0 4 9.38 0.876 42.6 4 12.25 0.873 19.5 4 12.06 0.868 20.6 12.06 0.866 20.4 8.84 0.865 46.9 12.19 0.864 18.2 11. 99 0.864 20.8 11. 97 0.858 20.1 Figure A.25 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 9,300.0 MWd/MTU AREVA NP Inc. 34 34 33 35 34 35 33 35 34 34 IR JR 5 14 47 40 11 12 13 24 11 16 13 26 IR JR 11 38 41 40 13 38 13 40 29 46 39 36 11 18 21 44 9 38 21 46 K 4 4 4 4 4 4 4 3 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-31 Cycle: 19 Core Average Exposure:

MWd/MTU 24098.2 Exposure:

MWd/MTU (GWd) 9600.0 ( 966. 32 ) Delta E: MWd/MTU, (GWd) 300.0 ( 30.20 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.5 Top 25 0.180 4.168 30 0. 451 0.559 Inlet Subcooling:

Btu/lbm -24.27 24 0.539 12.633 31 0.413 0.549 Flow: Mlb/hr 68.65 ( 89.15 %) 23 0. 714 16.879 32 0.793 1.058 22 0.818 19.278 33 1. 087 1. 227 1 3 5 7 11 13 15 17 19 21 23 25 21 0.889 21.189 34 1.154 1. 335 1 51 :JR 20 0.930 22.550 35 1. 259 1. 410 3 47 19 0.951 23.713 5 43 18 0.951 24. 4 54 7 14 14 39 17 0.933 24. 571 9 35 16 0. 965 25.135 11 36 12 36 12 36 31 15 0.974 26.071 13 27 14 0.969 26.794 15 36 12 36 12 36 23 13 1. 015 26.625 17 19 12 1. 038 27.435 19 14 14 15 11 1. 067 27.956 21 11 10 1.108 28.399 23 7 9 1.168 29.291 25 3 8 1.227 29.823 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 285 29.988 6 1.367 30.930 5 1. 466 31. 549* 4 1.508* 30.791 Control Rod Density: % 6.57 3 1.465 28.343 2 1.161 21. 4 94 k-effective:

0.99756 Bottom 1 0.310 5.876 Void Fraction:

0.512 Core Delta-P: psia 20.229 % AXIAL TILT -18.168 -12.999 Core Plate Delta-P: psi a 15.703 AVG BOT 8ft/12ft 1.0935 1. 0766 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 59.84 Active Channel Flow: Mlb/hr 57.63 Total Bypass Flow (%): 12.8 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence

0. 00041 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.410 35 13 26 1. 637 0.904 33 13 24 8.40 0.841 40.1 33 13 38 4 12.29 0.896 22.1 34 1. 390 35 13 22 1. 567 0.887 35 13 26 10.61 0.829 18.0 34 11 38 12.07 0.877 21. 7 34 1. 385 35 11 20 1. 691 0.875 33 11 26 10.65 0.828 17.2 35 39 40 9.27 0.871 43.2 33 1. 383 35 13 18 1.695 0.873 33 23 26 10.65 0.826 16.9 35 21 44 12.00 0.869 21. 4 34 1.371 35 23 24 1. 696 0.873 33 15 26 8.13 0.825 41.4 33 23 44 12 .11 0.869 20.2 35 1.370 35 25 26 1. 594 0.872 35 13 22 7.95 0.823 4 3. 4 33 11 36 11. 94 0. 865 21. 4 34 1. 370 35 9 26 1.697 o. 872 33 13 20 10.56 0.821 17.2 35 13 36 8.75 0.861 47.5 33 1. 357 35 15 20 1.702 0. 870 33 23 22 8.17 0.820 4 0. 4 33 19 44 11. 91 0.861 21.1 35 1. 351 35 21 26 1.602 0.868 35 15 24 10.44 0.808 16.7 35 25 44 11. 92 0.859 20.8 34 1.349 35 15 24 1. 604 0. 867 35 25 26 10.35 0. 799 16. 4 35 17 44 12.00 0.857 19.8 35

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.26 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 9,600.0 MWd/MTU AREVA NP Inc. IR JR 5 14 47 40 11 12 13 24 11 16 13 26 IR JR 11 38 41 40 13 38 29 46 13 40 43 38 11 18 39 36 21 46 21 44 K 4 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-32 Cycle: 19 Core Average Exposure:

MWd/MTU 24099.1 Exposure:

MWd/MTU (GWd) 9601. 0 ( 966. 42 ) Delta E: MWd/MTU, (GWd) 1. 0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.179 4.168 30 0. 464 0.566 Inlet Subcooling:

Btu/lbm -21. 58 24 0.540 12.633 31 0.426 0.560 Flow: Mlb/hr 76.23 ( 99.00 %) 23 0.715 16.880 32 0.817 1.104 22 0.813 19.278 33 1. 073 1.202 3 5 7 11 13 15 17 19 21 23 25 21 0. 872 21.190 34 1.179 1.342 1 51 :JR 20 0. 911 22.551 35 1.235 1.376 3 47 19 0.949 23.714 5 36 26 36 43 18 0.986 24. 4 55 7 39 17 1. 008 24. 572 9 36 6 6 36 35 16 1. 074 25.136 11 31 15 1.106 26. 072 13 26 26 8 26 27 14 1.107 26. 795 15 23 13 1.155 26.626 17 36 6 8 6 36 19 12 1.163 27. 436 19 15 11 1.156 27.957 21 36 26 36 11 10 1.168 28. 4 01 23 7 9 1. 202 29.292 25 3 8 1. 231 29.824 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.252 29.989 6 1. 290 30.932 5 1.340* 31. 551

4 1.330 30.792 Control Rod Density: % 8.12 3 1.245 28.344 2 0.957 21. 4 95 k-effecti ve: 0.99750 Bottom 1 0.251 5.876 Void Fraction:

0. 481 Core Delta-P: psi a 23.195 % AXIAL TILT -13.945 -12.999 Core Plate Delta-P: psi a 18.663 AVG BOT 8ft/12ft 1. 0894 1. 0766 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 66. 72 Active Channel Flow: Mlb/hr 64. 36 Total Bypass Flow (%): 12.5 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.376 35 13 22 1. 788 0.828 33 13 24 9. 94 0.773 17.3 35 13 40 4 11.18 0.802 20.2 35 1. 364 35 13 18 1. 689 0.823 35 9 22 7.55 0. 765 41. 4 33 13 38 5 8.50 0.798 43.1 33 1. 359 35 11 24 1.695 0.820 35 11 24 7.30 0.762 44.1 33 15 40 5 8 .11 0.795 47.1 33 1. 355 35 13 14 1.821 0.813 33 11 22 9.66 0. 749 17.0 35 15 38 4 10.96 0.793 21. 2 34 1. 354 35 15 16 1. 831 0.808 33 15 14 7.16 0.737 42.9 33 11 18 8 10.88 0.793 22.1 34 1. 353 35 17 14 1.721 0.807 35 13 32 7.31 0.729 39.7 33 15 32 10.95 0.792 21.1 34 1.346 35 9 22 1. 833 0.807 33 19 40 9.40 0. 729 16.9 35 13 32 10.95 0.782 19.6 35 1.345 35 21 14 1. 722 0.807 35 13 14 9.38 0.727 16.9 35 15 30 4 10.66 0.773 21. 5 34 1. 342 34 11 16 1. 838 0.805 33 13 38 7.27 o. 726 39.8 33 13 30 4 7.96 0.772 4 6 .1 33 1. 336 35 13 26 1. 840 0.804 33 13 20 7.00 0. 723 43.2 33 17 42 8 7.79 0.758 4 6. 5 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A27 Brunswick Unit 1Cycle19 Control Rod Pattern and Axial Distributions at 9,601.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 13 24 11 16 13 22 IR JR 13 40 13 38 15 40 11 14 11 38 13 12 15 38 37 12 11 18 17 42 K 4 5 5 4 4 4 4 4 8 8 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-33 Cycle: 19 Core Average Exposure:

MWd/MTU 24498.1 Exposure:

MWd/MTU (GWd) 10000.0 (1006. 60 ) Delta E: MWd/MTU, (GWd) 399.0 ( 40.16 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.181 4.248 30 Inlet Subcooling:

Btu/lbm -21. 97 24 0. 545 12. 8 61 31 Flow: Mlb/hr 75.00 ( 97.40 %) 23 0. 721 17. 182 32 22 0.819 19.624 33 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.879 21. 561 34 1 51 :JR 20 0.918 22.939 35 3 47 19 0. 956 24 .117 5 36 26 36 43 18 0.994 24.875 7 39 17 1. 017 25.001 9 36 6 6 36 35 16 1. 083 25.569 11 31 15 1.114 26.517 13 26 26 8 26 27 14 1.113 27.241 15 23 13 1.159 27. 064 17 36 6 6 36 19 12 1.164 27.877 19 15 11 1.156 28.396 21 36 26 36 11 10 1.167 28.844 23 7 9 1.200 29.748 25 3 8 1.228 30.291 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.248 30. 4 64 6 1.283 31. 421 5 1.326* 32.059* 4 1.311 31.296 Control Rod Density: % 8.12 3 1. 226 28.816 2 0.944 21. 858 k-effecti ve: 0.99755 Bottom 1 0.248 5.978 Void Fraction:

0.482 Core Delta-P: psi a 22.646 % AXIAL TILT -13.263 -12.936 Core Plate Delta-P: psi a 18.115 AVG BOT 8ft/12ft 1.0861 1. 0762 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 65. 62 Active Channel Flow: Mlb/hr 63.29 Total Bypass Flow (%): 12.5 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00042 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR 1. 378 35 13 22 1. 771 0.836 33 13 24 9.80 0. 767 18.1 35 13 1. 368 35 13 18 1. 676 0.829 35 9 22 7.44 0.759 42.0 33 13 1. 363 35 11 24 1. 683 0.826 35 11 24 7.19 o. 755 44.8 33 15 1. 359 35 13 14 1. 805 0.820 33 11 22 7.13 0.739 43.5 33 11 1.357 35 15 16 1. 813 0.816 33 15 14 9.45 0.738 17.8 35 15 1. 356 35 17 14 1.818 0.814 33 19 40 6.96 0. 724 43.8 33 17 1. 351 35 9 22 1.708 0.814 35 13 14 7.09 0. 721 41. 7 33 9 1.348 35 21 14 1.710 0. 813 35 13 32 9.19 0. 721 18.4 34 11 1.347 34 11 16 1. 821 o. 813 33 13 38 9.15 0. 717 18. 3 34 13 1. 338 35 13 26 1.822 0.812 33 13 20 9.17 0. 715 17.7 35 13

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: JR K Value 40 4 10.96 38 5 8.37 40 5 10.84 18 8 10.84 38 4 7.98 42 8 10.73 20 8 7.92 40 4 10.56 42 4 10.69 32 4 7.74 0.461 0.563 0.423 0.557 0.814 1.101 1. 071 1.198 1.183 1.347 1.238 1.378 LHGR Margin Exp. FT 0. 793 21.2 35 0.792 43.8 33 0.791 22.1 34 0.790 22.0 34 0.789 47.8 33 0.789 23.0 34 0.774 4 6. 7 33 0. 772 22.4 34 0.769 20.5 35 0.760 47.1 33 Figure A.28 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 10,000.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 13 24 11 16 13 22 IR JR 13 40 13 38 11 14 13 12 15 40 11 38 11 18 37 12 15 38 17 42 K 4 5 4 4 5 4 8 4 4 8 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 PageA-34 Cycle: 19 Core Average Exposure:

MWd/MTU 24998.1 Exposure:

MWd/MTU (GWd) 10500.0 (1056.90 I Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 I Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.185 4.348 30 0. 458 0.560 Inlet Subcooling:

Btu/lbm -22.53 24 0.554 13.150 31 0.421 0.554 Flow: Mlb/hr 73.34 ( 95.25 %) 23 0.732 17. 564 32 0.810 1.098 22 0.830 20.061 33 1. 068 1.194 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.890 22.030 34 1.188 1.352 1 51 :JR 20 0.931 23.428 35 1.242 1.380 3 47 19 0. 970 24.627' 5 36 26 36 43 18 1. 009 25. 4 05 7 39 17 1. 032 25.543 9 36 6 8 6 36 35 16 1. 099 26. 115 11 31 15 1.129 27.079 13 26 8 26 8 26 27 14 1.126 27.802 15 23 13 1.167 27.615 17 36 6 8 6 36 19 12 1.169 28. 4 30 19 15 11 1.158 28.945 21 36 26 36 11 10 1.168 29.399 23 7 9 1.200 30.319 25 3 8 1.225 30.875 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 241 31.058 6 1.269 32.031 5 1. 298* 32.689* 4 1. 274 31. 919 Control Rod Density: % 8.12 3 1.188 29.398 2 0.916 22.306 k-effective:

0.99751 Bottom 1 0.241 6.104 Void Fraction:

0.482 Core Delta-P: psi a 21. 904 % AXIAL TILT -12.002 -12.846 Core Plate Delta-P: psi a 17. 374 AVG BOT 8ft/12ft 1.0801 1.0758 Coolant Temp: Deg-F 548.3 In Channel Flow: Mlb/hr 64.15 Active Channel Flow: Mlb/hr 61.86 Total Bypass Flow (%): 12.5 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence

.0.00045 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 380 35 13 22 1. 746 0.848 33 13 24 9.51 0.750 19.1 35 39 40 4 10.57 0.779 23.3 1. 371 35 13 18 1. 656 0.839 35 9 22 7.24 0.745 42.8 33 13 38 5 10.58 0.778 23.1 1. 367 35 11 24 1. 664 0.835 35 11 24 7.00 0.742 45.6 33 15 40 5 8.14 0.778 44.7 1. 362 35 13 14 1. 781 0.831 33 11 22 7.08 0.741 44.3 33 11 18 8 7.87 0.776 47.6 1. 359 35 15 16 1.787 0.828 33 13 16 6.92 0.725 44.6 33 17 42 8 7.77 0.775 48.7 1. 359 35 17 14 1.788 0.828 33 15 14 7.05 0.723 42.5 33 9 20 8 10. 45 0.774 23.8 1.356 35 9 22 1.791 0.826 33 13 34 9. 09 0. 715 18.8 35 15 38 4 10.57 0.772 22.3 1. 352 34 11 16 1. 794 0.825 33 19 40 9.00 0.712 19.3 34 41 40 4 10.34 0.762 23.3 1. 350 35 21 14 1.687 0.824 35 13 32 8.97 0.709 19.3 34 13 42 4 7.69 0.762 48.0 1. 342 35 13 26 1. 688 0.824 35 13 14 6.82 0.702 42.9 33 19 44 8 7.79 0.747 45.1

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.29 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 10,500.0 MWd/MTU AREVA NP Inc. 34 34 33 33 33 34 35 34 33 33 IR JR 5 14 13 48 11 12 13 24 11 16 13 22 IR JR 11 14 13 12 13 38 11 18 15 40 11 38 13 40 37 12 17 42 9 34 K 4 4 5 8 5 5 4 5 8 8 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-35 Cycle: 19 Core Average Exposure:

MWd/MTU 25498.2 Exposure:

MWd/MTU (GWd) 11000.0 (1107.20 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psia 1044.6 Top 25 0.188 4.450 30 0.456 0.558 5 14 Inlet Subcooling:

Btu/lbm -23.14 24 0.562 13.443 31 0. 418 0.552 13 48 Flow: Mlb/hr 71. 61 ( 93.00 %) 23 0.742 17. 951 32 0.807 1. 094 11 12 22 0.841 20.504 33 1.065 1.190 13 24 3 5 7 9 11 13 15 17 19 21 23 25 21 0.902 22.504 34 1.192 1.357 11 16 1 51 :JR 20 0.944 23.924 35 1.245 1.382 13 22 3 47 19 0.985 25.144 5 36 26 36 43 18 1.026 25.942 7 39 17 1. 051 26.093 9 36 6 8 6 36 35 16 1.120 26. 670 11 31 15 1.150 27.649 13 26 26 8 26 27 14 1.144 28.370 15 23 13 1.181 28 .170 17 36 6 6 36 19 12 1. ISO 28.986 19 15 11 1.166 29.496 21 36 26 36 11 10 1.174 29. 954 23 7 9 1.202 30.889 25 3 8 1. 224 31. 457 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.233 31. 648 6 1.251 32.634 5 1. 263* 33. 306* 4 1.227 32.524 Control Rod Density: % 8.12 3 1.138 29.963 2 0.879 22.741 k-effective:

0.99752 Bottom 1 0.231 6.226 Void Fraction:

0.481 Core Delta-P: psia 21.135 % AXIAL TILT -10.556 -12.735 Core Plate Delta-P: psi a 16.607 AVG BOT 8ft/12ft 1. 0737 1.0752 Coolant Temp: Deg-F 548.2 In Channel Flow: Mlb/hr 62. 62 Active Channel Flow: Mlb/hr 60.38 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00049 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 382 35 13 22 1. 721 0.860 33 13 24 7.05 0.743 45.1 33 11 18 8 7.83 0. 779 48.4 33 11 18 8 1. 374 35 13 18 1. 633 0.851 35 9 22 6.89 0.728 45.4 33 17 42 8 7.66 0.765 48.8 33 17 42 8 1. 371 35 11 24 1. 642 0.846 35 11 24 9.15 0.727 20.0 35 39 40 4 7.87 0.759 45.6 33 13 38 5 1. 365 35 13 14 1. 751 0.845 33 13 16 7.00 0. 726 43.6 33 13 38 5 10.24 0.759 24.0 34 11 14 5 1.362 35 17 14 1. 755 0.843 33 11 22 7.01 0.725 43.3 33 9 20 8 10.24 0.759 23.9 34 13 12 5 1. 362 35 9 22 1.759 0.841 33 13 34 6.90 0. 724 44.7 33 37 40 5 10.15 0.758 24.9 34 11 38 5 1. 361 35 15 16 1.760 0.841 33 15 14 6.79 0.705 43.6 33 19 44 8 7.52 0.757 49.5 33 15 40 5 1. 357 34 11 16 1.768 0.837 33 19 40 8.78 0.698 20.0 34 41 40 5 10.21 0.750 23.0 35 13 40 5 1. 353 35 21 14 1. 663 0. 836 35 13 32 8.75 0.695 19.9 34 13 42 5 10.07 0.749 24.4 34 37 12 5 1.345 35 13 26 1. 665 0.835 35 13 14 8.77 0.693 19.4 35 15 38 5 7. 74 0.749 45.9 33 9 34 8

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.30 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 11,000.0 MWd/MTU . AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-36 Cycle: 19 Core Average Exposure:

MWd/MTU 25848.1 Exposure:

MWd/MTU (GWd) 11350.0 (1142.50 ) Delta E: MWd/MTU, (GWd) 350.0 ( 35.23 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 1044.6 Top 25 0.190 4.523 30 0.454 0.557 Inlet Subcooling:

Btu/lbm -23.67 24 0.567 13.651 31 0. 417 0.551 Flow: Mlb/hr 70.19 ( 91.15 %) 23 0.749 18.226 32 0.805 1.092 22 0.849 20.818 33 1. 064 1.187 1 3 5 7 11 13 15 17 19 21 23 25 21 0. 911 22.841 34 1.195 1.359 1 51 :JR 20 0.955 24. 277 35 1. 247 1.384 3 47 19 0.997 25. 511 5 36 26 36 43 18 1. 040 26.325 7 39 17 1. 066 26.485 9 36 8 6 36 35 16 1.137 27. 065 11 31 15 1.167 28.055 13 26 8 26 26 27 14 1.159 28.774 15 23 13 1.193 28. 563 17 36 6 8 6 36 19 12 1.189 29.379 19 15 11 1.173 29.884 21 36 26 36 11 10 1.178 30.345 23 7 9 1.205 31. 289 25 3 8 1.222 31.864 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.225 32.058 6 1. 234* 33.050 5 1.234 33. 726* 4 1.189 32.932 Control Rod Density: % 8.12 3 1. 098 30.341 2 0.849 23.034 k-effective:

0.99752 Bottom 1 0.223 6.308 Void Fraction:

0. 481 Core Delta-P: psia 20.515 % AXIAL TILT -9. 379 -12.640 Core Plate Delta-P: psi a 15.987 AVG BOT 8ft/12ft 1. 0686 1. 07 4 7 Coolant Temp: Deg-F 548.1 In Channel Flow: Mlb/hr 61.36 Active Channel Flow: Mlb/hr 59.15 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.384 35 13 22 1. 699 0.871 33 13 24 7.01 0.743 45.7 33 11 18 8 7.79 0.780 49.0 33 1.375 35 13 18 1. 614 0.861 35 9 22 6.87 0.730 45.9 33 17 42 8 7.63 0.767 49. 4 33 1.374 35 11 24 1. 622 0.857 35 11 24 6.97 0.725 43.8 33 9 20 8 7.69 0.750 46.5 33 1. 366 35 13 14 1. 729 0.856 33 13 16 8.93 0.712 20.3 35 39 40 5 9.99 0. 746 24.8 34 1. 365 35 9 22 1. 731 0.855 33 9 24 6.81 0.711 44.2 33 13 38 5 10.00 0.746 24.6 34 1.364 35 17 14 1. 735 0.853 33 11 22 6.66 0. 710 46.2 33 15 40 6 9.89 0.744 25.6 34 1. 362 35 15 16 1. 736 0.852 33 13 34 6.77 0.706 44.1 33 19 44 8 7.55 0.744 47.6 33 1. 359 34 11 16 1.738 0.852 33 15 14 9.13 0.703 16.0 35 9 26 15 7.31 0.742 50.1 33 1. 355 35 21 14 1. 639 0.848 34 11 38 7.07 0.703 39.3 33 11 26 14 7.56 0.738 4 6. 6 33 1.347 35 13 26 1. 745 0.848 33 19 14 8.60 0.688 20.7 34 41 40 5 9.84 0.737 25.1 34

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.31 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 11,350.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 13 24 11 16 13 22 IR JR 11 18 17 42 9 34 11 14 13 12 11 38 13 38 15 40 19 44 37 12 K 8 8 8 5 5 5 5 5 8 5 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-37 Cycle: 19 Core Average Exposure:

MWd/MTU 26198.1 Exposure:

MWd/MTU (GWd) 11700.0 (1177.70)

Delta E: MWd/MTU, (GWd) 350.0 ( 35.23 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.5 Top 25 0.193 4. 596 30 0. 453 0.555 5 14 Inlet Subcooling:

Btu/lbm -24.24 24 0.573 13.861 31 0. 416 0.549 13 48 Flow: Mlb/hr 68. 72 ( 89.25 %) 23 0.756 18.504 32 0.803 1. 089 11 12 22 0.857 21.134 33 1. 062 1.185 11 22 3 5 7 11 13 15 17 19 21 23 25 21 0.922 23.181 34 1.197 1. 361 11 16 1 51 :JR 20 0.966 24.633 35 1.250 1. 385 13 22 3 47 19 1. 011 25.884 5 36 26 36 43 18 1. 056 26.713 7 39 17 1. 084 26.883 9 36 6 6 36 35 16 1.156 27.466 11 31 15 1.186 28. 4 67 13 26 8 26 26 27 14 1.176 29.183 15 23 13 1. 207 28.960 17 36 8 6 36 19 12 1. 200 29.775 19 15 11 1.182 30.275 21 36 26 36 11 10 1.184 30.737 23 7 9 1.207 31. 690 25 3 8 1. 219* 32. 271 IR: 2 10 14 18 22 26 30 34 38 42 46 50 7 1.216 32. 4 66 6 1.216 33. 4 61 5 1.202 34.136* 4 1.147 33.327 Control Rod Density: % 8.12 3 1.055 30.706 2 0.816 23.316 k-effective:

0.99750 Bottom 1 0.214 6.388 Void Fraction:

0.480 Core Delta-P: psi a 19.886 % AXIAL TILT -8.079 -12.532 Core Plate Delta-P: psi a 15.359 AVG BOT 8ft/12ft 1.0631 1. 0742 Coolant Temp: Deg-F 548.0 In Channel Flow: Mlb/hr 60.07 Active Channel Flow: Mlb/hr 57.90 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00033 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.385 35 13 22 1.677 0.883 33 13 24 6.97 0.743 46. 2 33 11 18 8 7.74 0.780 49.6 33 11 18 8 1. 377 35 13 18 1. 594 0.872 35 9 22 6.83 0.730 4 6. 4 33 17 42 8 7.59 o. 768 49.9 33 17 42 8 1.376 35 11 24 1. 600 0.869 35 11 24 6.93 0. 724 44.3 33 9 20 8 7. 64 0. 749 47.l 33 9 34 8 1.368 35 9 22 1.705 0.868 33 9 24 9.31 o. 720 16.6 35 9 26 15 10.37 0.738 19.4 35 9 26 15 1.367 35 13 14 1. 706 0.868 33 13 16 7.15 0. 714 39.9 33 11 26 14 7.52 0.738 47.2 33 19 44 8 1. 366 35 17 14 1. 713 0.864 33 11 22 6.74 0.707 44.6 33 19 44 8 7.74 0.732 43.8 33 11 28 13 1. 363 35 15 16 1.713 0.864 33 13 34 6.52 0.700 46. 9 33 13 16 6 7. 41 0.732 47.7 33 13 38 6 1. 361 34 11 16 1.715 0.863 33 15 14 6.53 0.700 46.7 33 15 40 6 9.74 0.731 25.3 34 13 12 5 1. 358 35 21 14 1. 612 0. 862 34 11 38 8.69 0.696 21. 0 35 39 40 5 9.72 0.731 25.5 34 11 14 5 1.349 35 13 26 1. 720 0. 860 33 19 14 8.88 0.682 15.8 35 25 10 15 7.22 0.730 49.9 33 15 40 6

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.32 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 11, 700.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-38 Cycle: 19 Core Average Exposure:

MWd/MTU 26199.1 Exposure:

MWd/MTU (GWd) 11701.0 (1177.80 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.6 Top 25 0.175 4.597 30 0.443 0.532 5 14 Inlet Subcooling:

Btu/lbm -22.58 24 0.522 13. 862 31 0.407 0.551 13 48 Flow: Mlb/hr 73.23 ( 95.10 %) 23 0.690 18.505 32 0.793 1. 067 11 12 22 0.784 21.135 33 1. 065 1.194 25 12 1 3 5 7 11 13 15 17 19 21 23 25 21 0.846 23.182 34 1.196 1. 370 15 12 1 51 :JR 20 0.894 24.634 35 1.258 1. 408 19 12 3 47 19 0.930 25.885 5 36 36 43 18 0.954 26.715 7 39 17 o. 967 26.884 9 12 6 12 35 16 1. 025 27. 4 68 11 31 15 1. 050 28. 4 68 13 0 36 36 0 27 14 1. 048 29.184 15 23 13 1. 091 28. 961 17 12 6 6 12 19 12 1.111 29.776 19 15 11 1.137 30.276 21 36 36 11 10 1.175 30.738 23 7 9 1.230 31. 691 25 3 8 1.276 32.272 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. 310 32. 4 67 6 1.355 33.462 5 1. 391

34.137* 4 1.382 33.328 Control Rod Density: % 7.30 3 1.322 30.707 2 1.053 23. 317 k-effective:

0.99750 Bottom 1 0.282 6.388 Void Fraction:

0.494 Core Delta-P: psi a 22.062 % AXIAL TILT -17.320 -12.531 Core Plate Delta-P: psi a 17.532 AVG BOT 8ft/12ft 1.1020 1. 0742 Coolant Temp: Deg-F 548.4 In Channel Flow: Mlb/hr 63. 97 Active Channel Flow: Mlb/hr 61. 66 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00035 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.408 35 19 12 1. 652 0.841 35 25 10 9.97 0. 802 21. 4 34 37 42 4 11. 23 0.848 26.0 34 37 12 1.400 35 17 14 1. 771 0.836 33 19 40 9.97 0.794 20.2 35 43 22 4 11. 34 0.847 24.8 34 45 20 1. 394 35 25 14 1. 684 0.826 35 17 14 7. 71 0.794 42.8 33 43 20 4 11. 26 0.846 25.4 34 45 30 1.388 35 25 10 1.797 0.824 33 25 12 7.46 0.786 45.l 33 17 12 5 11. 24 0.840 24.8 34 45 22 1.384 35 21 14 1. 688 0.824 35 23 12 9.97 0.786 19. 0 35 43 36 4 11.16 0.836 25.1 34 15 10 1.370 34 15 12 1.797 0.824 33 23 14 9.74 0.783 21.3 35 39 40 4 11.10 0.836 25.7 34 13 12 1. 358 35 25 26 1. 688 0.823 35 19 12 9.78 0.782 20.6 34 45 22 4 11. 05 0.824 24.6 35 43 32 1. 354 35 23 24 1. 698 0.819 35 25 14 9.90 0.779 18.8 35 17 10 11.13 0.823 23.7 34 45 36 1.349 35 17 10 1.704 0.816 35 17 10 7.47 0. 779 44.l 33 43 24 8.46 0.822 46.3 33 43 20 1.349 35 19 16 1. 818 0.814 33 17 12 7.43 0. 778 44.6 33 37 40 11. 30 0.821 21. 7 35 17 44

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.33 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 11,701.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-39 Cycle: 19 Core Average Exposure:

MWd/MTU 26698.1 Exposure:

MWd/MTU (GWd) 12200.0 (1228.00 ) Delta E: MWd/MTU, (GWd) 499.0 ( 50.23 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.181 4.693 30 0.442 0.531 Inlet Subcooling:

Btu/lbm -23 .11 24 0.538 14.138 31 0.406 0.550 Flow: Mlb/hr 71. 69 ( 93.10 %) 23 0. 711 18.869 32 0. 792 1. 065 22 0.808 21. 553 33 1. 063 1.192 3 5 7 11 13 15 17 19 21 23 25 21 0. 872 23.632 34 1.198 1.371 1 51 :JR 20 0.924 25 .110 35 1.261 1.411 3 47 19 0.962 26.379 5 36 36 43 18 0.989 27.222 7 39 17 1. 003 27.399 9 12 6 6 12 35 16 1. 063 27.983 11 31 15 1. 088 28.997 13 0 36 36 0 27 14 1. 081 29.712 15 23 13 1.120 29.479 17 12 6 6 12 19 12 1.135 30.303 19 15 11 1.155 30.815 21 36 36 11 10 1.188 31. 296 23 7 9 1.234 32.275 25 3 8 1. 269 32.878 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.288 33.088 6 1. 314 34.106 5 1. 323* 34.797* 4 1. 294 33.984 Control Rod Density: % 7.30 3 1.225 31. 334 2 0.975 23.816 k-effective:

0.99748 Bottom 1 0.261 6.531 Void Fraction:

0. 489 Core Delta-P: psi a 21. 309 % AXIAL TILT -14.412 -12.532 Core Plate Delta-P: psi a 16. 781 AVG BOT 8ft/12ft 1.0886 1. 0741 Coolant Temp: Deg-F 548.3 In Channel Flow: Mlb/hr 62. 64 Active Channel Flow: Mlb/hr 60.37 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence

0. 00041 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.411 35 19 12 1. 622 0.857 35 25 10 7.31 0. 761 44.0 33 23 10 8 10.63 0.804 26.2 34 1.401 35 17 14 1.736 0.853 33 19 14 7.12 0. 761 46.5 33 21 42 8 10. 64 0.804 26.0 34 1.398 35 25 14 1. 651 0.842 35 23 12 9.36 0.759 22.4 34 37 42 4 10.51 0. 798 26.6 34 1. 394 35 25 10 1.760 0.841 33 23 14 7.09 0.754 45.9 33 17 12 5 10.51 0.793 26.0 34 1. 388 35 21 14 1. 654 0.841 35 17 14 9.31 0.748 21.3 35 43 22 4 7.85 0.793 4 9. 8 33 1.371 34 15 12 1.763 0.840 33 25 12 7.20 0.748 43.7 33 43 20 4 8.13 0.792 4 6. 4 33 1. 356 35 25 26 1. 657 0.839 35 19 12 9.36 0.744 20.0 35 43 18 4 10.45 0.791 26.3 34 1. 354 35 23 24 1. 666 0.834 35 25 14 6.94 0.743 4 6. 6 33 37 40 5 10.38 0.789 26.8 34 1. 353 35 17 10 1.780 0.831 33 19 10 9.34 0.741 19.8 35 17 10 7. 63 0.784 51. 2 33 1. 352 35 19 16 1. 673 0.831 35 17 10 9.20 0.741 21. 6 34 45 22 10.48 0.783 24.8 34

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: AREVA NP Inc. Figure A.34 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 12,200.0 MWd/MTU IR JR 5 14 13 48 11 12 25 12 15 12 19 12 IR JR 37 12 45 20 45 30 45 22 21 12 29 44 15 10 13 12 35 12 45 36 K 4 4 4 4 8 8 4 4 5 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-40 Cycle: 19 Core Average Exposure:

MWd/MTU 27198.1 Exposure:

MWd/MTU (GWd) 12700.0 (1278.40 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Core Pressure:

psi a 1044.6 Top 25 0.186 4.793 30 0.441 Inlet Subcooling:

Btu/lbm -23.63 24 0.552 14. 4 23 31 0.405 Flow: Mlb/hr 70.30 ( 91. 30 %) 23 0. 729 19.245 32 0.790 22 0.829 21.983 33 1. 061 3 5 7 9 11 13 15 17 19 21 23 25 21 0.897 24.098 34 1.201 1 51 :JR 20 0.952 25.602 35 1.263 3 47 19 0. 994 26.893 5 36 36 43 18 1. 023 27.749 7 39 17 1. 039 27.934 9 12 6 6 12 35 16 1.101 28.519 11 31 15 1.125 29.545 13 0 36 36 0 27 14 1.115 30.257 15 23 13 1.150 30. 011 17 12 6 6 12 19 12 1.159 30.843 19 15 11 1.174 31. 364 21 36 36 11 10 1. 200 31. 860 23 7 9 1.239 32.862 25 3 8 1.261 33.481 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.265 33.701 6 1. 272* 34.730 5 1.256 35. 426* 4 1.208 34.598 Control Rod Density: % 7.30 3 1.133 31. 916 2 0.901 24.279 k-effective:

0.99748 Bottom 1 0.241 6. 663 Void Fraction:

0. 484 Core Delta-P: psia 20.639 % AXIAL TILT -11.595 -12.478 Core Plate Delta-P: psi a 16.112 AVG BOT 8ft/12ft 1. 0759 1. 0737 Coolant Temp: Deg-F 548.2 In Channel Flow: Mlb/hr 61. 44 Active Channel Flow: Mlb/hr 59.22 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.2 (of total core flow) Source Convergence 0.00043 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin 1.414 35 19 12 1.595 0.871 35 25 10 7.28 0. 761 44.3 33 29 1. 402 35 17 14 1. 704 0. 868 33 19 14 7.05 0. 760 47.3 33 21 1. 402 35 25 14 1. 618 0.859 35 23 12 6.93 0.728 44.8 33 27 1. 400 35 25 10 1. 728 0.856 33 23 14 6.74 0. 722 46.7 33 17 1. 393 35 21 14 1. 626 0.855 35 19 12 8. 76 0.716 23.4 34 37 1.373 34 15 12 1. 732 0.855 33 25 12 6.68 0. 710 45.9 33 43 1.359 35 23 12 1.627 0.854 35 17 14 6.58 0.710 47.3 33 37 1.356 35 17 10 1. 636 0.849 35 25 14 9.01 0. 710 18.9 35 23 1.354 35 19 16 1. 745 0.848 33 19 10 6.76 0. 709 44.7 33 23 1.352 35 25 26 1. 751 0.845 33 17 12 8.92 0.707 19.7 35 21

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 44 8 7. 77 0. 793 42 8 8.06 0.792 42 8 9.99 0. 763 12 5 9.95 0.759 42 4 7.25 0.752 34 5 9.79 0.751 40 5 9.88 0.749 42 8 9.81 0.748 26 9 10.17 0.745 10 8 9.69 0.744 Max. 0.530 0. 549 1. 063 1.191 1.373 1.414 LHGR Exp. FT 50.6 33 47.3 33 27.3 34 27.1 34 52.0 33 27.7 34 26.3 34 27.1 34 22.7 35 27.9 34 Figure A.35 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 12,700.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 25 12 15 12 19 12 IR JR 21 12 29 44 37 12 45 20 35 12 45 30 37 44 45 22 23 42 13 12 K 8 8 5 4 5 4 4 4 8 4 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-41 Cycle: 19 Core Average Exposure:

MWd/MTU 27498.1 Exposure:

MWd/MTU (GWd) 13000.0 (1308.60 ) Delta E: MWd/MTU, (GWd) 300.0 ( 30.20 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.5 Top 25 0.189 4.855 30 0. 440 0.529 5 14 Inlet Subcooling:

Btu/lbm -23.94 24 0.561 14. 598 31 0.405 0.548 13 48 Flow: Mlb/hr 69. 49 ( 90.25 %) 23 0.740 19.477 32 0.790 1.062 11 12 22 0.843 22.249 33 1. 060 1.190 25 12 3 5 7 9 11 13 15 17 19 21 23 25 21 0.914 24.385 34 1.202 1.373 15 12 1 51 :JR 20 0.971 25.907 35 1.264 1. 415 19 12 3 47 19 1. 014 27. 211 5 36 36 43 18 1. 044 28.076 7 39 17 1. 062 28. 2 66 9 12 6 6 12 35 16 1.124 28.853 11 31 15 1.148 29.886 13 0 36 36 0 27 14 1.136 30.594 15 23 13 1.167 30.339 17 12 6 6 12 19 12 1.174 31.174 19 15 11 1.185 31.699 21 36 36 11 10 1. 207 32.203 23 7 9 1.239 33.215 25 3 8 1. 254

33.841 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.249 34.062 6 1.244 35.093 5 1.214 35.784* 4 1.157 34.943 Control Rod Density: % 7.30 3 1. 078 32.239 2 0.856 24.536 k-effective:

0.99748 Bottom 1 0.229 6.737 Void Fraction:

0.480 Core Delta-P: psia 20.250 % AXIAL TILT -9.817 -12.416 Core Plate Delta-P: psi a 15.723 AVG BOT 8ft/12ft 1.0678 1. 0734 Coolant Temp: Deg-F 548.1 In Channel Flow: Mlb/hr 60.74 Active Channel Flow: Mlb/hr 58.55 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence

0. 00043 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.415 35 19 12 1.580 0.880 35 25 10 7.23 0.760 44.8 33 29 44 8 8.00 0.791 47.8 33 29 44 8 1.404 35 25 14 1. 686 0.878 33 19 14 6.99 0.757 47.8 33 21 42 8 7.69 0. 790 51.l 33 21 12 8 1.403 35 25 10 1. 598 0.870 35 23 12 6.89 0.727 45.2 33 27 42 8 10. 08 0.743 23.3 35 23 42 8 1. 403 35 17 14 1. 710 0.865 33 23 14 8.97 0.709 19.4 35 23 42 8 9.66 0.743 27.9 34 37 12 5 1. 395 35 21 14 1.607 o. 865 35 19 12 6.71 0.707 45.1 33 23 26 9 7. 47 0.743 48.4 33 27 12 8 1.373 34 15 12 1. 714 0. 864 33 25 12 8.87 0.707 20.2 35 21 10 8 9.99 0.740 23.9 35 21 44 8 1. 364 35 23 12 1. 611 0.863 35 17 14 6.58 0.705 46.5 33 19 44 8 7.26 0.735 49.9 33 19 44 8 1. 357 35 17 10 1. 619 0.859 35 25 14 6.44 0.703 48.4 33 17 42 6 7.33 0.733 48.9 33 23 40 8 1. 356 35 19 16 1. 725 0.858 33 19 10 6.67 0.702 45.0 33 23 40 8 7.38 0.732 48.1 33 23 26 9 1.349 35 25 26 1. 733 0.854 33 17 12 8.48 0.695 23.7 34 37 42 5 9.54 0.732 27.7 34 45 20 4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.36 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 13,000.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-42 Cycle: 19 Core Average Exposure:

MWd/MTU 27998 .1 Exposure:

MWd/MTU (GWd) 13500.0 (1358.90 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.5 Top 25 0.195 4.960 30 0.439 0.528 5 14 Inlet Subcooling:

Btu/lbm -24.24 24 0.578 14.895 31 0. 404 0.548 13 48 Flow: Mlb/hr 68. 72 ( 89.25 %) 23 0. 762 19.869 32 0.788 1. 061 11 12 22 0. 869 22.698 33 1. 057 1.188 25 12 3 5 7 9 11 13 15 17 19 21 23 25 21 0.944 24. 872 34 1. 205 1.375 15 12 1 51 :JR 20 1. 004 26.424 35 1.265 1.417 19 12 3 47 19 1. 051 27.751 5 36 36 43 18 1. 083 28.633 7 39 17 1.101 28.832 9 12 6 6 12 35 16 1.165 29. 4 20 11 31 15 1.187 30. 4 65 13 0 36 36 0 27 14 1.170 31.167 15 23 13 1.197 30.894 17 12 6 6 12 19 12 1.198 31. 732 19 15 11 1. 202 32. 262 21 36 36 11 10 1. 216 32.776 23 7 9 1.238 33.804 25 3 8 1.240* 34. 437 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.220 34. 656 6 1.194 35.685 5 1.143 36.361* 4 1. 069 35. 4 92 Control Rod Density: 7.30 3 0.985 32.751 2 0. 781 24.943 k-effective:

0.99751 Bottom 1 0.209 6.853 Void Fraction:

0.473 Core Delta-P: psia 19.835 AXIAL TILT -6.665 -12.283 Core Plate Delta-P: psi a 15.309 AVG BOT 8ft/12ft 1. 0530 1. 0727 Coolant Temp: Deg-F 547.9 In Channel Flow: Mlb/hr 60.09 Active Channel Flow: Mlb/hr 57. 94 Total Bypass Flow (%): 12.6 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence

0. 00027 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.417 35 19 12 1. 663 0.890 33 19 14 7.12 0.755 4 5. 6 33 29 44 8 7.63 0.785 51. 4 33 23 44 8 1. 408 35 25 10 1.564 0.889 35 25 10 6.92 0.751 47.9 33 21 42 9 7.55 0.783 52.0 33 21 12 8 1.407 35 25 14 1. 568 0.886 35 23 12 6.84 o. 728 45.9 33 27 42 9 7. 43 0.745 49.0 33 27 12 9 1.404 35 17 14 1. 585 0.877 35 19 12 9.00 0.707 18.5 35 23 12 15 9. 91 0.738 24.4 35 23 42 8 1. 398 35 21 14 1. 688 0.877 33 23 14 8.77 0.703 21.1 35 21 44 8 9.83 0.735 24.9 35 21 44 8 1.375 34 15 12 1.692 0.875 33 25 12 6.66 0.702 45.2 33 23 40 9 7.37 0.734 48.5 33 23 14 9 1. 372 35 23 12 1. 593 0.873 35 17 14 6.60 0. 702 45.9 33 23 26 9 7.16 0.731 50.7 33 19 44 8 1.361 35 17 10 1. 697 0.872 33 19 10 6.50 0.701 47.3 33 19 44 8 7.26 0.728 49.2 33 25 8 9 1. 357 35 19 16 1. 599 0.869 35 25 14 8.74 0.688 18. 8 35 25 10 15 9.71 0. 728 25.2 34 29 46 8 1. 350 35 21 10 1.709 0.866 33 17 12 6.26 0.688 4 9. 0 33 17 42 8 7.27 0. 727 48.9 33 23 26 9

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.37 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 13,500.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-43 Cycle: 19 Core Average Exposure:

MWd/MTU 28498.1 Exposure:

MWd/MTU (GWd) 14000.0 (1409.20 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.5 Top 25 0.202 5.068 30 0.439 0.527 Inlet Subcooling:

Btu/lbm -24.42 24 0.597 15.202 31 0. 403 0.547 Flow: Mlb/hr 68.26 ( 88.65 %) 23 0.787 20.272 32 0.788 1.061 22 0.899 23.162 33 1. 055 1.185 3 5 7 9 11 13 15 17 19 21 23 25 21 0. 978 25.375 34 1. 209 1. 377 1 51 :JR 20 1. 041 26.960 35 1.266 1. 418 3 47 19 1.090 28.312 5 36 36 43 18 1.123 29.211 7 39 17 1.141 29.419 9 12 6 6 12 35 16 1. 205 30.007 11 31 15 1. 224 31.064 13 0 36 36 0 27 14 1.202 31.757 15 23 13 1.225 31. 4 64 17 12 6 12 19 12 1.220 32.301 19 15 11 1.217 32.834 21 36 36 11 10 1. 222 33.355 23 7 9 1.233* 34.393 25 3 8 1.221 35.027 IR: 2 10 14 18 22 26 30 34 38 42 46 50 7 1.185 35.236 6 1.140 36.252 5 1. 070 36.903* 4 0.984 36.000 Control Rod Density: % 7.30 3 0.895 33.219 2 0. 708 25.314 k-effective:

0.99752 Bottom 1 0.189 6. 959 Void Fraction:

0. 4 64 Core Delta-P: psi a 19.542 AXIAL TILT -3.341 -12.098 Core Plate Delta-P: psi a 15. 017 AVG BOT 8ft/12ft 1. 0368 1. 0717 Coolant Temp: Deg-F 547.8 In Channel Flow: Mlb/hr 59.73 Active Channel Flow: Mlb/hr 57.60 Total Bypass Flow (%): 12.5 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00050 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.418 35 19 12 1.645 0.900 33 19 14 6.94 0.754 47.9 33 23 44 9 7.59 0.782 51.5 33 1.410 35 25 10 1. 545 0.900 35 23 12 6.85 0.750 48.6 33 21 42 9 7.51 0.780 52.1 33 1. 408 35 25 14 1. 548 0.898 35 25 10 9.23 0.730 19.4 35 23 12 15 7.37 0.745 49.8 33 1. 405 35 17 14 1. 567 0.887 35 19 12 6.79 0. 728 4 6. 7 33 27 42 9 7.31 0.735 4 9. 3 33 1. 399 35 21 14 1. 672 0.885 33 23 14 9.15 o. 721 19.0 35 21 10 15 10.04 0. 733 22.2 35 1.378 35 23 12 1. 675 0.884 33 25 12 8. 96 0. 710 19. 7 35 25 10 15 7.15 0.732 50.8 33 1. 377 34 15 12 1. 676 0.883 33 19 10 6.61 0.702 45. 9 33 23 40 9 7.21 0.730 50.0 33 1.363 35 17 10 1. 579 0.880 35 17 14 6. 49 0.700 4 7. 4 33 19 44 9 10.02 0.730 22.0 34 1. 358 35 19 16 1. 581 0.879 35 27 14 8.87 0.699 18.9 35 19 12 15 10.00 0.727 21. 8 35 1. 357 35 21 10 1. 583 0.878 34 37 12 6.47 0.693 46.6 33 23 26 9 9.97 0.723 21. 4 34

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.38 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 14,000.0 MWd/MTU AREVA NP Inc. IR JR 5 14 13 48 11 12 25 12 15 12 19 12 IR JR 23 44 21 12 27 12 23 14 23 12 19 44 25 8 23 8 21 10 21 8 K 9 9 9 9 15 9 9 15 15 15 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-44 Cycle: 19 Core Average Exposure:

MWd/MTU 28898.0 Exposure:

MWd/MTU (GWd) 14400.0 (1449.50 ) Delta E: MWd/MTU, (GWd) 400.0 ( 40.26 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.5 Top 25 0.208 5.157 30 0.438 0.526 5 14 Inlet Subcooling:

Btu/lbm -24.16 24 0.615 15.455 31 0.402 0.547 13 48 Flow: Mlb/hr 68.92 ( 89. 50 %) 23 0.810 20.605 32 0.788 1. 061 11 12 22 0.927 23.545 33 1. 053 1.182 25 12 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1. 008 25.792 34 1. 213 1. 379 15 12 1 51 :JR 20 1. 074 27. 4 04 35 1. 266 1. 417 19 12 3 47 19 1.124 28.777 5 36 36 43 18 1.157 29.690 7 39 17 1.174 29.906 9 12 6 6 12 35 16 1.237 30.493 11 31 15 1. 253* 31. 558 13 0 36 36 0 27 14 1. 227 32.242 15 23 13 1.247 31. 930 17 12 6 6 12 19 12 1.237 32. 7 65 19 15 11 1.228 33.297 21 36 36 11 10 1.226 33.819 23 7 9 1. 227 34.862 25 3 8 1.204 35.491 IR: 2 10 14 18 22 26 30 34 38 42 46 50 7 1.155 35.686 6 1.095 36.686 5 1. 010 37. 310* 4 0.914 36.374 Control Rod Density: % 7.30 3 0.823 33.559 2 0. 649 25.583 k-effecti ve: 0.99776 Bottom 1 0.174 7.036 Void Fraction:

0. 455 Core Delta-P: psia 19.707 % AXIAL TILT -0.544 -11. 909 Core Plate Delta-P: psi a 15.182 AVG BOT 8ft/12ft 1. 0228 1. 0708 Coolant Temp: Deg-F 547.7 In Channel Flow: Mlb/hr 60.35 Active Channel Flow: Mlb/hr 58.22 Total Bypass Flow (%): 12.4 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00047 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.417 35 19 12 1. 541 0.902 35 23 12 6.88 0.752 48.5 33 23 44 9 7.52 0.782 52.1 33 23 44 9 1.410 35 25 10 1. 643 0.901 33 19 14 6.78 0.747 49.2 33 21 42 9 7.43 0. 777 52.7 33 21 12 9 1.407 35 25 14 1. 54 9 0.897 35 25 10 9.37 0.745 20.2 35 23 12 15 10.23 0.751 22.8 34 23 8 15 1.405 35 17 14 1. 565 0.888 35 19 12 9.33 0.740 19.7 35 21 10 15 10.18 0.749 23.0 35 23 12 15 1.398 35 21 14 1. 670 0.886 33 19 10 6.74 o. 727 47.3 33 27 42 9 10.24 0.747 22.2 35 21 44 15 1.380 35 23 12 1. 571 0.885 34 37 12 9.10 0. 726 20.5 35 25 10 15 10.23 0.747 22.2 34 21 8 15 1.379 34 15 12 1. 673 0.885 33 23 14 9.06 0.718 19.7 35 19 12 15 7.30 0.744 50.4 33 27 12 9 1.366 35 17 10 1. 675 0.884 33 25 12 8.97 0.706 18.9 35 25 14 15 7.20 0.734 50.4 33 23 40 9 1.362 35 21 10 1. 679 0.881 33 23 44 8.98 0.706 18.7 35 21 14 15 7.10 0.732 51.5 33 19 44 9 1. 358 35 19 16 1.578 0.881 35 27 14 8.88 0. 702 19.2 34 23 8 15 7 .17 0.731 50.6 33 25 8 9

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.39 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 14,400.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-45 Cycle: 19 Core Average Exposure:

MWd/MTU 28899.1 Exposure:

MWd/MTU (GWd) 14401.0 (1449.60 ) Delta E: MWd/MTU, (GWd) 1. 0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.5 Top 25 0.177 5.158 30 0. 4 24 0.524 5 14 Inlet Subcooling:

Btu/lbm -24.47 24 0.523 15.455 31 0.390 0.525 13 48 Flow: Mlb/hr 68.14 ( 88. 50 %) 23 0.689 20.606 32 0. 768 1. 057 11 12 22 0. 794 23.546 33 1. 064 1. 210 23 22 3 5 7 11 13 15 17 19 21 23 25 21 0.871 25.793 34 1.191 1.356 11 16 1 51 :JR 20 0. 941 27.405 35 1. 289 1. 460 23 24 3 47 19 1.005 28.778 5 43 18 l. 064 29.691 7 6 6 39 17 1.101 29.907 9 35 16 1.177 30. 4 95 11 0 0 31 15 l. 205 31.559 13 27 14 1.189 32.244 15 0 0 23 13 1. 215 31.931 17 19 12 l. 210 32.766 19 6 15 11 1. 206 33.298 21 11 10 l. 210 33.821 23 7 9 l. 223* 34.863 25 3 8 l. 221 35.492 IR: 2 10 14 18 22 26 30 34 38 42 46 50 7 1.209 35.687 6 1.213 36.687 5 1.189 37.311* 4 1.144 36.375 Control Rod Density: 5.47 3 l. 087 33.560 2 0.892 25.584 k-effective:

0.99776 Bottom 1 0.244 7.036 Void Fraction:

0.481 Core Delta-P: psi a 19.748 % AXIAI TILT -9. 720 -11. 909 Core Plate Delta-P: psi a 15.223 AVG BOT 8ft/12ft 1. 0777 l. 0708 Coolant Temp: Deg-F 548.0 In Channel Flow: Mlb/hr 59.52 Active Channel Flow: Mlb/hr 57. 36 Total Bypass Flow (%): 12.7 (of total core flow) Total Water Rod Flow (%) : 3.2 (of total core flow) Source Convergence 0.00040 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.460 35 23 24 l. 538 0.903 35 23 24 6. 45 0.679 45.1 33 23 22 8 6.73 0.703 52.6 33 13 16 8 l. 452 35 25 22 1. 549 0.897 35 27 22 8.45 0.679 21.3 35 23 24 15 6.86 0.702 50.8 33 19 22 8 1.446 35 25 26 1.552 0.896 35 21 28 6.41 0.678 45.5 33 21 24 8 6.98 0.700 49.2 33 23 22 6 1.445 35 21 22 1.553 0.895 35 25 26 8. 43 0.676 21.2 35 21 26 15 7.08 0.700 47.8 33 21 30 8 1.444 35 21 26 l. 553 0. 895 35 21 22 6.15 0. 676 49. 0 33 13 16 8 6.69 0.699 52.7 33 15 40 8 1.430 35 23 20 l. 655 0. 894 33 21 24 8.44 0.675 20.7 35 25 22 15 6.85 0.699 50.5 33 29 28 5 1.409 35 19 20 1. 667 0.888 33 23 22 6.28 0. 675 47.0 33 23 26 5 9.12 0.697 27.3 35 29 30 5 l. 407 35 19 24 1. 673 0.885 33 21 20 6.13 0.674 49.1 33 15 40 8 6.78 0.697 51.1 33 27 30 6 1.397 35 15 16 1. 675 0.884 33 25 24 6.23 0.672 47.3 33 19 22 8 9. 50 0.696 22.6 34 11 38 15 1.395 35 17 18 1. 681 0.880 33 25 20 8.45 0. 672 20.1 35 21 22 15 6.60 0.694 53.1 33 11 18 8

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.40 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 14,401.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-46 Cycle: 19 Core Average Exposure:

MWd/MTU 29398.2 Exposure:

MWd/MTU (GWd) 14900.0 (1499.80 I Delta E: MWd/MTU, (GWd) 499. 0 ( 50.23 I Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.6 Top 25 0.186 5.256 30 0.424 0.523 5 14 Inlet Subcooling:

Btu/lbm -23.58 24 0.550 15.731 31 0.390 0.526 13 48 Flow: Mlb/hr 70. 46 ( 91.50 %) 23 0.725 20.970 32 o. 770 1. 060 11 12 22 0.836 23.969 33 1. 061 1.194 23 22 3 5 7 9 11 13 15 17 19 21 23 25 21 0.917 26.257 34 1.198 1. 360 15 12 1 51 :JR 20 0.990 27.906 35 1. 286 1. 438 23 24 3 47 19 1. 054 29.313 5 43 18 1.114 30.257 7 6 6 39 17 1.150 30.493 9 35 16 1. 225 31. 087 11 0 0 31 15 1.249 32.165 13 27 14 1.228 32.842 15 0 0 23 13 1.250* 32.507 17 19 12 1. 239 33.341 19 6 6 15 11 1. 227 33.870 21 11 10 1. 220 34.395 23 7 9 1.219 35.443 25 3 8 1. 200 36.071 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.170 36.261 6 1.151 37.263 5 1.101 37.875* 4 1.034 36.917 Control Rod Dens.ity:

% 5. 47 3 0. 964 34. 075 2 0.785 26.007 k-effective:

0.99805 Bottom 1 0.214 7.160 Void Fraction:

0. 464 Core Delta-P: psia 20.520 % AXIAL TILT -5.483 -11. 789 Core Plate Delta-P: psi a 15.993 AVG BOT 8ft/12ft 1. 0565 1.0704 Coolant Temp: Deg-F 547.9 In Channel Flow: Mlb/hr 61. 66 Active Channel Flow: Mlb/hr 59. 47 Total Bypass Flow (%): 12.5 (of total core flow) Total Water Rod Flow (%): 3.1 (of total core flow) Source Convergence 0.00042 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.438 35 23 24 1. 575 0.882 35 29 30 8.74 0.696 20.1 35 15 38 15 9.90 0.732 23.6 34 11 38 15 1.432 35 25 22 1. 582 0.879 35 21 22 8.56 0.693 22.2 35 23 24 15 9.84 0. 725 23.4 34 15 42 15 1.429 35 21 22 1. 584 0.878 35 27 22 8.71 0.692 19.9 35 13 40 15 9.74 0.715 22.9 34 11 14 15 1.423 35 21 26 1. 692 0.875 33 21 24 8.54 0.691 22.0 35 21 26 15 9.71 0.713 22.8 34 13 12 15 1.421 35 25 26 1. 591 0.874 35 21 28 8.57 0.690 21.6 35 25 22 15 6.76 0.702 52.2 33 13 16 9 1. 418 35 23 20 1.700 0.871 33 21 20 8.61 0.690 20.9 35 21 22 15 9.57 0.702 22.7 35 13 14 15 1. 402 35 19 20 1. 597 0.870 35 27 28 8. 64 0.688 20.2 34 11 16 15 6.72 0.699 52.2 33 15 40 9 1. 396 35 15 16 1. 598 0.870 34 11 38 8. 61 0.684 20.0 34 15 42 15 6.81 0.697 50.9 33 19 22 9 1. 393 35 17 18 1.703 0.869 33 23 22 8.61 0.682 19.5 35 13 36 15 9.46 0.697 23.2 35 15 16 15 1. 392 35 19 24 1. 712 0.864 33 25 20 8.45 0.681 21.7 35 25 26 15 9.31 0.695 24.8 35 21 28 15

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.41 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 14,900.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-47 Cycle: 19 Core Average Exposure:

MWd/MTU 29898.2 Exposure:

MWd/MTU (GWd) 15400.0 (1550.10 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.196 5.359 30 0.424 0.523 Inlet Subcooling:

Btu/lbm -22.34 24 0.580 16.022 31 0.390 0.527 Flow: Mlb/hr 73.92 ( 96. 00 %) 23 0. 764 21.354 32 0. 772 1. 064 22 0.881 24.415 33 1.057 1.177 1 3 5 7 9 11 13 15 17 19 21 23 25 21 0.966 26.746 34 1.206 1. 365 1 51 :JR 20 1. 039 28.433 35 1.283 1. 414 3 47 19 1.103 29.875 5 43 18 1.161 30.851 7 6 6 39 17 1. 193 31.106 9 35 16 1.265 31.705 11 0 0 31 15 1. 284

32. 795 13 27 14 1. 258 33. 4 62 15 0 0 23 13 1. 279 33.102 17 19 12 1. 263 33.930 19 6 6 15 11 1.243 34.454 21 11 10 1. 226 34.975 23 7 9 1.212 36.022 25 3 8 1.178 36.642 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.130 36.817 6 1. 090 37.810 5 1. 019 38.398* 4 0.935 37. 409 Control Rod Density: % 5.47 3 0.856 34.534 2 0.691 26.379 k-effective:

0.99839 Bottom 1 0.188 7.269 Void Fraction:

0.446 Core Delta-P: psi a 21.783 % AXIAL TILT -1. 428 -11. 602 Core Plate Delta-P: psi a 17.256 AVG BOT 8ft/12ft 1. 0351 1. 0696 Coolant Temp: Deg-F 547.9 In Channel Flow: Mlb/hr 64.83 Active Channel Flow: Mlb/hr 62.58 Total Bypass Flow (%): 12.3 (of total core flow) Total Water Rod Flow (%): 3.0 (of total core flow) Source Convergence 0.00050 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 414 35 23 24 1. 613 0.862 34 11 38 8.99 0. 720 20.8 35 13 40 15 10.22 0.762 24.6 1. 412 35 21 22 1. 624 0.856 35 29 30 8.97 o. 719 21.1 35 15 38 15 10.17 0.757 24.4 1.'412 35 25 22 1. 625 0.855 35 21 22 8.94 0. 716 21.0 34 11 38 15 10.07 0.747 23.9 1.405 35 23 20 1. 629 0.853 35 27 22 8.91 0.714 20.8 34 15 42 15 10.05 0.745 23.8 1. 400 35 21 26 1. 630 0.853 34 37 12 8.84 0. 705 20.4 35 13 36 15 9.85 0.728 23.7 1.395 35 25 26 1.743 0.849 33 21 20 8.82 0.702 20.2 35 17 40 15 9.72 0. 721 24.0 1. 394 35 15 16 1. 746 0.848 33 21 24 8.69 0.70221.8 35 21 22 15 7.24 0.720 48.3 1.393 35 19 20 1. 749 0.846 33 13 16 6.77 0.701 43.4 33 13 38 14 9.73 0. 717 23.2 1.389 35 17 18 1. 643 0.846 34 11 14 8.60 0.701 23.1 35 23 24 15 7.14 0. 716 49.1 1. 376 35 19 24 1. 643 0.846 35 21 28 6.79 0.701 43.1 33 15 40 14 9. 63 0.715 24.2

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.42 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 15,400.0 MWd/MTU AREVA NP Inc. 34 34 34 34 35 35 33 34 33 34 IR JR 5 14 13 48 11 12 23 22 15 42 23 24 IR JR 11 38 15 42 11 14 13 12 13 14 15 .38 13 38 9 38 15 40 7 32 K 15 15 15 15 15 15 15 15 12 15 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-48 Cycle: 19 Core Average Exposure:

MWd/MTU 30398.1 Exposure:

MWd/MTU (GWd) 15900.0 (1600.50 ) Delta E: MWd/MTU, (GWd) 500.0 ( 50.33 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 1044.7 Top 25 0.207 5. 467 30 Inlet Subcooling:

Btu/lbm -20.86 24 0.615 16.329 31 Flow: Mlb/hr 78. 54 (102.00 %) 23 0. 811 21. 759 32 22 0.934 24.885 33 1 3 5 7 11 13 15 17 19 21 23 25 21 1. 021 27. 2 60 34 1 51 :JR 20 1. 094 28.987 35 3 47 19 1.155 30. 4 63 5 43 18 1. 209 31.471 7 6 6 39 17 1. 234 31. 743 9 35 16 1.301 32.343 11 0 0 31 15 1. 314

33.443 13 27 14 1. 282 34.096 15 0 0 23 13 1.301 33.710 17 19 12 1. 280 34.530 19 6 6 15 11 1. 252 35.045 21 11 10 1. 224 35.558 23 7 9 1.198 36.599 25 3 8 1.150 37.202 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.085 37.354 6 1.025 38.328 5 0.936 38.882* 4 0.840 37.853 Control Rod Density: % 5.47 3 0.756 34.940 2 0.607 26.707 k-effective:

0.99867 Bottom 1 0.166 7.364 Void Fraction:

o. 426 Core Delta-P: psi a 23.568 % AXIAL TILT 2.778 -11. 354 Core Plate Delta-P: psi a 19.038 AVG BOT 8ft/12ft 1. 0115 1. 0685 Coolant Temp: Deg-F 547.9 In Channel Flow: Mlb/hr 69.06 Active Channel Flow: Mlb/hr 66.73 Total Bypass Flow (%): 12.1 (of total core flow) Total Water Rod Flow (%): 3.0 (of total core flow) Source Convergence 0.00049 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR 1. 393 35 21 22 1. 634 0.851 34 11 38 9.22 0.744 21.8 35 13 40 1. 392 35 15 38 1. 644 0.845 34 37 12 9.17 0. 741 21.9 34 11 38 1. 391 35 27 32 1. 657 0.839 34 11 14 9.15 0.739 22.0 35 15 38 1. 390 35 23 20 1. 659 0.838 34 13 12 9.16 0.739 21.8 34 15 42 1. 390 35 23 24 1.780 0.831 33 13 16 9.02 0. 725 21.4 35 13 36 1. 383 35 19 20 1. 672 0.831 35 21 22 9.01 0.723 21.2 35 17 40 1. 383 35 17 18 1. 676 0.829 35 29 30 8.98 0.72121.2 34 11 40 1. 377 35 13 40 1. 678 0.828 35 27 22 6.97 0.720 43.2 33 13 38 1. 377 35 31 28 1. 793 0.825 33 17 16 7.00 0.720 42.7 33 15 40 1. 373 35 17 40 1. 689 0.823 35 37 38 8. 97 0. 719 21.1 34 13 42

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: K Value 15 10.49 15 10.45 15 10.36 15 10. 37 15 10.06 15 10.06 15 7.42 15 10. 02 15 9.90 15 9.91 0. 423 0.522 0.390 0.527 0.775 1.069 1. 054 1.162 1. 216 1.371 1.279 1.393 LHGR Margin Exp. FT 0.790 25.7 34 0.786 25.4 34 0.775 25.0 34 0.774 24.7 34 0.751 24.7 35 0.747 24.2 34 0.744 49 .1 33 0.742 23.9 34 0.742 25.2 34 0.742 25.0 35 Figure A.43 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 15,900.0 MWd/MTU AREVA NP Inc. IR JR 5 14 39 6 11 12 15 40 15 42 21 22 IR JR 11 38 15 42 11 14 13 42 13 14 9 38 13 38 15 44 7 32 15 38 K 15 15 15 15 15 15 15 15 15 15 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-49 Cycle: 19 Core Average Exposure:

MWd/MTU 30399.1 Exposure:

MWd/MTU (GWd) 15901. 0 (1600.60 ) Delta E: MWd/MTU, (GWd) 1. 0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.5 Top 25 0.234 5. 467 30 0.421 0.519 5 40 Inlet Subcooling:

Btu/lbm -24.01 24 0.692 16.330 31 0.387 0.522 39 6 Flow: Mlb/hr 69.30 I 90.00 %) 23 0.907 21.760 32 0.765 1. 048 11 42 22 1. 041 24.886 33 1. 063 1.160 21 34 3 5 7 11 13 15 17 19 21 23 25 21 1.129 27.262 34 1.194 1. 34 9 11 38 1 51 :JR 20 1.172 28.989 35 1.291 1.393 21 22 3 47 19 1. 200 30. 4 64 5 43 18 1. 227 31. 4 72 7 10 8 39 17 1. 232 31. 744 9 35 16 1.281* 32.345 11 8 31 15 1. 280 33.444 13 27 14 1. 239 34. 097 15 8 23 13 1. 250 33. 711 17 19 12 1. 225 34.531 19 10 15 11 1.196 35.046 21 11 10 1.168 35.559 23 7 9 1.144 36.600 25 3 8 1.101 37.203 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.043 37.355 6 0.992 38.329 5 0.913 38.883* 4 0.825 37.853 Control Rod Density: % 4.81 3 0.746 34. 941 2 0.600 26.708 k-effective:

0.99865 Bottom 1 0 .164 7. 364 Void Fraction:

0.437 Core Delta-P: psi a 19.653 % AXIAL TILT 6.393 -11. 354 Core Plate Delta-P: psi a 15.128 AVG BOT 8ft/12ft 0.9791 1. 0685 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 60.79 Active Channel Flow: Mlb/hr 58.68 Total Bypass Flow (%): 12.3 (of total core flow) Total Water Rod Flow (%): 3.0 I of total core flow) Source Convergence 0.00043 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 393 35 21 22 1.661 0.891 33 21 34 8.95 0.722 21. 8 35 13 40 15 10.17 0. 766 25.7 34 11 38 15 1. 391 35 19 34 1. 661 0.891 33 15 36 8.91 0. 720 22.0 35 15 38 15 10.13 0. 761 25.5 34 15 42 15 1.390 35 23 34 1.561 0.890 34 11 38 8.90 0.719 21. 9 34 11 38 15 10. 04 0.750 24.8 34 11 40 15 1.389 35 17 36 1.562 0.890 35 21 22 8.89 0. 717 21. 8 34 15 42 15 10. 03 0.749 24.7 34 13 42 15 1. 385 35 23 24 1.566 0.888 34 37 12 6.91 o. 710 42.6 33 13 38 17 7.50 0.732 4 6. 8 33 17 38 18 1.385 35 27 32 1. 668 0.887 33 17 38 6.94 0.709 42.1 33 15 40 17 7.33 0. 729 48.3 33 13 38 17 1. 384 35 15 38 1.567 0.887 35 29 20 8.78 0.706 21. 4 35 13 36 15 9.74 0. 727 24.8 35 13 40 15 1.379 35 21 26 1. 672 0.885 33 23 22 6.88 0.705 42.4 33 17 38 18 7.10 0.727 50.9 33 27 30 18 1. 371 35 19 24 1. 672 0.885 33 15 40 8.78 0.704 21.2 35 17 40 15 7.14 0. 725 50.3 33 23 26 18 1.369 35 13 36 1. 571 0.885 35 27 22 6.73 0.704 44.4 33 23 22 18 7.51 0.725 45.7 33 15 40 18

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.44 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 15,901.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page Ac5Q Cycle: 19 Core Average Exposure:

MWd/MTU 30798.0 Exposure:

MWd/MTU (GWd) 16300.0 (1640.70 ) Delta E: MWd/MTU, (GWd) 399.0 ( 40.16 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.6 Top 25 0.243 5.571 30 0. 421 0.519 5 40 Inlet Subcooling:

Btu/lbm -22.40 24 0. 722 16.622 31 0.387 0.522 39 6 Flow: Mlb/hr 73.73 ( 95.75 %) 23 0.946 22.143 32 0. 767 1.053 11 42 22 1.085 25.328 33 1. 060 1.155 15 36 3 5 7 9 11 13 15 17 19 21 23 25 21 1.174 27.742 34 1. 202 1.353 11 38 1 51 :JR 20 1. 213 29.487 35 1.288 1. 386 17 36 3 47 19 1.237 30.975 5 43 18 1. 259 31. 994 7 10 39 17 1. 257 32. 2 68 9 35 16 1. 301

32. 8 60 11 8 31 15 1.295 33. 960 13 27 14 1.251 34. 596 15 23 13 1. 263 34.185 17 19 12 1. 235 34. 996 19 8 10 15 11 1.200 35.500 21 11 10 1.166 36.002 23 7 9 1.134 37.034 25 3 8 1. 082 37.621 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1. Oll 37.751 6 0.946 38.706 5 0.855 39.229* 4 0.758 38.166 Control Rod Density: % 4.81 3 0. 677 35.224 2 0.542 26.936 k-effective:

0.99895 Bottom 1 0.148 7.431 Void Fraction:

0.419 Core Delta-P: psi a 21. 309 AXIAL TILT 9. 393 -11. 059 Core Plate Delta-P: psi a 16.783 AVG BOT 8ft/12ft 0. 9612 1.0669 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 64.82 Active Channel Flow: Mlb/hr 62.63 Total Bypass Flow (%): 12.1 (of total core flow) Total Water Rod Flow (%): 3.0 (of total core flow) Source Convergence 0.00047 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.386 35 17 36 1.585 0.877 34 11 38 9.07 0.736 22.5 35 13 40 15 10.31 0.783 26.5 34 11 38 15 1. 384 35 15 38 1. 586 0.876 34 37 12 9.02 0.733 22.7 34 11 38 15 10.28 0. 778 26.3 34 15 42 15 1.384 35 19 34 1.701 0.870 33 15 36 9.02 0.732 22.5 34 15 42 15 10.21 0. 768 25.6 34 11 40 15 1. 379 35 21 32 1.706 0.868 33 15 40 8.98 0.731 22.7 35 15 38 15 10.21 0.767 25.5 34 13 42 15 1. 378 35 23 34 1.709 0.866 33 17 38 7.12 0.730 42.4 33 15 40 18 7. 65 0.753 47.4 33 17 38 18 1. 369 35 13 36 1. 715 0.863 33 39 16 7.01 0. 728 43.8 33 13 38 18 7.45 0.748 49.3 33 13 38 18 1.368 35 27 32 1. 715 0.863 33 21 34 7.14 0.726 41. 7 33 21 38 21 7.69 0.748 4 6. 4 33 15 40 18 1. 367 35 29 30 1. 614 0. 861 35 29 20 7.01 0. 723 43.0 33 17 38 18 7.65 0.743 46.3 33 15 36 18 1. 365 35 17 40 1. 616 0.860 35 15 38 7.19 0.721 40.3 33 23 40 21 9.92 0.742 25.0 34 9 38 15 1. 362 35 31 28 1. 617 0.860 35 21 22 7.06 0.720 42.0 33 15 36 18 9.86 0.742 25.6 35 13 40 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 1 Cycle 19 Control Rod Pattern and Axial Distributions at 16,300.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-51 Cycle: 19 Core Average Exposure:

MWd/MTU 31198.1 Exposure:

MWd/MTU (GWd) 16700.0 (1681.00 ) Delta E: MWd/MTU, (GWd) 400.0 ( 40. 26 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.7 Top 25 0.254 5.678 30 0.420 0.518 5 40 Inlet Subcooling:

Btu/lbm -20.68 24 0.756 16.928 31 0.386 0.522 39 6 Flow: Mlb/hr 79.12 (102. 75 %) 23 0.992 22.544 32 0.769 1.058 11 42 22 1.137 25.791 33 1. 057 1.153 15 40 3 5 7 9 11 13 15 17 19 21 23 25 21 1. 225 28.243 34 1.210 1.360 37 12 1 51 :JR 20 1. 260 30.005 35 1.285 1. 383 37 16 3 47 19 1. 276 31. 502 5 43 18 1. 291 32.531 7 10 8 39 17 1.280 32.804 9 35 16 1. 319* 33.385 11 8 31 15 1. 308 -34.482 13 27 14 1.259 35.101 15 23 13 1.270 34.665 17 19 12 1.239 35. 4 66 19 10 15 11 1.198 35.956 21 11 10 1.158 36.446 23 7 9 1.119 37. 465 25 3 8 1. 056 38.033 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0. 973 38.136 6 0. 897 39.065 5 0.797 39.554* 4 o. 696 38.454 Control Rod Density: % 4.81 3 0.616 35.481 2 o. 492 27.142 k-effective:

0.99907 Bottom 1 0.134 7. 491 Void Fraction:

o. 401 Core Delta-P: psia 23.431 % AXIAL TILT 12. 567 -10.733 Core Plate Delta-P: psi a 18.902 AVG BOT 8ft/12ft o. 9414 1. 0652 Coolant Temp: Deg-F 547.6 In Channel Flow: Mlb/hr 69.73 Active Channel Flow: Mlb/hr 67. 43 Total Bypass Flow (%): 11. 9 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source Convergence 0.00020 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 383 35 37 16 1. 604 0. 867 34 37 12 7.35 0.753 42.4 33 21 38 21 10.44 0.798 27.4 34 11 38 15 1. 380 35 17 36 1.605 0.866 34 11 38 7.30 0.753 43.0 33 15 40 18 10.41 0.794 27.2 34 15 42 15 1.374 35 19 34 1. 74 6 0.848 33 15 40 7.19 0.752 44.4 33 13 38 18 10.36 0.786 26.5 34 11 40 15 1.368 35 39 18 1. 641 0.847 34 11 14 7.43 0.750 41.0 33 23 40 21 10.36 0.785 26.4 34 13 42 15 1.366 35 39 14 1. 750 o. 84 6 33 15 36 9.16 0.749 23.3 35 13 40 15 7.80 0. 773 48.l 33 17 38 18 1.365 35 23 34 1. 644 0.846 35 23 38 9.13 o. 746 23.4 34 11 38 15 7.88 0.772 47.0 33 15 40 18 1.365 35 31 32 1. 644 0. 84 6 35 35 14 9.13 0.746 23.3 34 15 42 15 7. 61 0.772 50.1 33 13 38 18 1.365 35 17 40 1. 644 0.845 34 13 12 9.16 0.742 22.2 35 15 38 17 7.99 0.769 45.4 33 21 38 21 1.360 34 37 12 1. 644 0.845 35 13 36 7 .14 0.741 43.6 33 17 38 18 7.80 0.764 47.1 33 17 42 18 1. 359 34 41 16 1. 645 0.845 35 21 40 7.19 0.738 42.6 33 15 36 18 7.80 o. 764 47.0 33 15 36 18

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.46 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 16,700.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-52 Cycle: 19 Core Average Exposure:

MWd/MTU 31199 .1 Exposure:

MWd/MTU (GWd) 16701. 0 (1681.10 ) Delta E: MWd/MTU, (GWd) 1. 0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.239 5. 679 30 0.419 0.516 Inlet Subcooling:

Btu/lbm -23.27 24 0.707 16.929 31 0.385 0.520 Flow: Mlb/hr 71.22 ( 92.50 %) 23 0.928 22.545 32 0.766 1. 044 22 1. 070 25.793 33 1. 057 1.158 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.164 28.244 34 1. 209 1.357 1 51 :JR 20 1. 215 30.006 35 1. 288 1.393 3 47 19 1. 244 31.504 5 43 18 1. 269 32.532 7 10 39 17 1. 268 32.805 9 35 16 1.312* 33.387 11 8 31 15 1. 305 34.484 13 27 14 1.262 35.102 15 8 23 13 1.275 34. 667 17 19 12 1.246 35. 4 67 19 10 15 11 1. 208 35.957 21 11 10 1.170 36.447 23 7 9 1.133 37. 4 66 25 3 8 1. 076 38.034 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 1.002 38.137 6 0.936 39.066 5 0.847 39.555* 4 0.754 38.455 Control Rod Density: % 3.59 3 o. 676 35.482 2 0.544 27.142 k-effective:

0.99914 Bottom 1 0.149 7. 491 Void Fraction:

0.424 Core Delta-P: psi a 20.314 % AXIAl TILT 9. 450 -10.732 Core Plate Delta-P: psi a 15.789 AVG BOT 8ft/12ft 0.9630 1. 0652 Coolant Temp: Deg-F 547.4 In Channel Flow: Mlb/hr 62.57 Active Channel Flow: Mlb/hr 60. 43 Total Bypass Flow (%): 12.2 (of total core flow) Total Water Rod Flow (%): 3.0 (of total core flow) Source Convergence 0.00048 Top Ter:i Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.393 35 39 36 1. 677 0.918 33 15 36 9.14 0.743 22.7 34 41 38 15 10.36 0.792 27.4 34 1. 388 35 37 38 1. 679 0.917 33 17 38 9.12 0.743 22.9 35 37 38 15 10.31 0.787 27.2 34 1. 388 35 35 40 1. 681 0.916 33 15 40 9.12 0.741 22.6 35 39 40 15 10.17 0. 771 26.5 34 1. 380 35 33 38 1. 683 0.915 33 13 16 9.14 0.740 22.2 35 35 40 15 10.16 0.770 26.4 34 1.376 35 41 34 1. 684 0.914 33 19 40 9.06 0.740 23.3 34 15 42 15 10.12 0. 764 26.0 34 ' 1.374 35 35 36 1. 686 0.913 33 13 34 9.13 0.739 22.2 35 39 36 15 7.53 0.760 49.6 33 1.374 35 39 32 1.700 0.906 33 13 24 7.08 0.737 43.9 33 13 38 17 9.98 0.757 26.6 34 1. 371 35 41 30 1.702 0.905 33 9 30 7.04 0.735 44.2 33 37 40 17 7.63 0.756 48.1 33 1. 365 35 39 28 1.560 0.904 34 11 38 8.99 0.732 22.9 35 41 34 15 7. 71 0.755 47.0 33 1. 362 35 33 42 1.563 0.902 34 37 12 7.04 0.731 43.6 33 17 38 18 10.07 0.754 25.l 34

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.47 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 16,701.0 MWd/MTU AREVA NP Inc. IR JR 5 40 47 40 11 12 15 36 41 16 39 36 IR JR 11 38 15 42 11 40 13 42 45 22 13 38 45 30 17 38 15 40 43 38 K 15 15 15 15 15 17 15 18 18 15 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-53 Cycle: 19 Core Average Exposure:

MWd/MTU 31698.1 Exposure:

MWd/MTU (GWd) 17200. 0 (1731.30 ) Delta E: MWd/MTU, (GWd) 499.0 ( 50.23 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psia 1044.7 Top 25 0.253 5. 811 30 0.418 0.515 5 40 Inlet Subcooling:

Btu/lbm -20.51 24 0.752 17. 302 31 0.384 0.520 47 40 Flow: Mlb/hr 79.69 (103.50 %) 23 0.987 23.035 32 0.768 1. 052 41 12 22 1.137 26.362 33 1. 054 1.156 35 38 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1. 230 28. 8 64 34 1.218 1.366 41 16 1 51 :JR 20 1.274 30.653 35 1.285 1.395 39 36 3 47 19 1. 294 32.166 5 43 18 1. 309 33.208 7 10 39 17 1. 297 33.480 9 35 16 1. 333* 34.047 11 8 8 31 15 1.321 35.141 13 27 14 1. 272 35.737 15 23 13 1. 285 35. 272 17 19 12 1. 252 36.058 19 10 15 11 1.207 36.530 21 11 10 1.161 37.002 23 7 9 1.115 38.004 25 3 8 1. 044 38.544 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.955 38.612 6 0.874 39. 511 5 0.772 39.956* 4 0.673 38.812 Control Rod Density: % 3.59 3 0.595 35.802 2 0.477 27. 4 00 k-effective:

0.99950 Bottom 1 0.131 7 .567 Void Fraction:

0.396 Core Delta-P: psia 23.650 % AXIAL TILT 13.505 -10.336 Core Plate Delta-P: psi a 19.120 AVG BOT 8ft/12ft 0.9375 1. 0631 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 70.27 Active Channel Flow: Mlb/hr 67.96 Total Bypass Flow (%): 11. 8 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source Convergence 0.00045 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 395 35 39 36 1. 750 0.880 33 15 40 7.29 o. 765 44.7 33 37 40 18 10.59 0.812 27.6 34 41 38 15 1. 389 35 37 38 1. 603 0.880 34 11 38 7.25 0. 764 45 .1 33 13 38 18 10.55 0.809 27.7 34 37 42 15 1. 388 35 35 40 1. 751 0.879 33 39 16 9.31 0. 763 23.7 34 41 38 15 10.47 0. 796 26.8 34 41 40 15 1. 380 35 41 34 1. 603 0.879 34 37 12 9.27 0. 760 23.6 35 39 40 15 10.44 0.794 26.8 34 39 42 15 *1. 376 35 33 38 1.755 0.878 33 35 38 9.25 0.758 23.7 34 37 42 15 10. 35 0.789 27.0 34 45 22 15 1.374 35 39 32 1.756 o. 877 33 15 36 9.22 0.757 23.8 35 37 38 15 7.70 o. 789 51.0 33 13 38 18 1. 372 35 41 30 1. 761 0.875 33 11 36 7.22 0.755 44.3 33 35 38 18 7. 94 0.786 47.9 33 15 40 18 1. 371 35 35 36 1.764 0.873 33 19 40 9.24 0.754 23.2 35 35 40 15 7. 91 0.785 48.2 33 35 42 18 1. 366 34 41 16 1. 765 0.873 33 39 34 7.35 0.754 42.6 33 11 36 18 7.82 0.783 48.9 33 17 38 18 1. 366 35 39 40 1. 623 0.869 35 37 38 9.24 0.754 23.1 35 39 36 15 10.34 0.782 26.2 34 43 38 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 1 Cycle 19 Control Rod Pattern and Axial Distributions at 17,200.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-54 Cycle: 19 Core Average Exposure:

MWd/MTU 31699.0 Exposure:

MWd/MTU (GWd) 17201. 0 (1731.40 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psi a 1044.6 Top 25 0.255 5. 811 30 0. 416 0.512 5 40 Inlet Subcooling:

Btu/lbm -21. 56 24 0.758 17.303 31 0.382 0.517 47 40 Flow: Mlb/hr 76.23 ( 99.00 %) 23 0.996 23.036 32 0. 763 1. 043 41 12 22 1.151 26.363 33 1. 059 1.155 37 36 3 5 7 11 13 15 17 19 21 23 25 21 1. 254 28.865 34 1. 208 1.356 41 16 1 51 :JR 20 1.311 30.654 35 1.291 1. 389 39 36 3 47 19 1. 326 32 .167 5 43 18 1. 327 33.209 7 12 39 17 1. 305 33. 4 81 9 35 16 1. 333* 34.048 11 10 10 31 15 1. 315 35.142 13 27 14 1. 262 35.739 15 10 10 23 13 1. 272 35.273 17 19 12 1. 236 36.059 19 12 15 11 1.191 36.531 21 11 10 1.144 37.003 23 7 9 1. 098 38.005 25 3 8 1. 030 38.545 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.943 38. 613 6 0.865 39. 511 5 0. 766 39.957* 4 0.668 38.813 Control Rod Density: % 3.41 3 0.592 35.803 2 0.475 27.401 k-effective:

0.99950 Bottom 1 0.130 7.567 Void Fraction:

0. 401 Core Delta-P: psi a 22.163 % AXIAL TILT 14.555 -10.335 Core Plate Delta-P: psi a 17.635 AVG BOT 8ft/12ft 0.9286 1. 0631 Coolant Temp: Deg-F 547.4 In Channel Flow: Mlb/hr 67.15 Active Channel Flow: Mlb/hr 64.92 Total Bypass Flow (%): 11. 9 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source Convergence 0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.389 35 39 36 1.713 0.899 33 15 36 7. 71 0.800 43.5 33 27 38 20 8.14 0.819 49.4 33 27 38 20 1. 383 35 37 38 1. 716 0.898 33 35 38 9.91 0.791 20.5 35 27 40 20 10. 49 0.804 27.6 34 41 38 15 1.383 35 35 40 1. 718 0.896 33 15 40 7.70 0. 768 39.8 33 19 22 21 10.45 0.801 27.7 34 37 42 15 1. 376 35 33 38 1. 720 0.895 33 39 16 7.30 0.766 44.7 33 37 40 18 10.82 0.797 23.2 35 27 40 20 1.374 35 39 32 1.722 0.894 33 19 40 7.26 0. 765 45.1 33 13 38 18 7.74 0.791 50.7 33 13 38 18 1. 373 35 35 36 1. 722 0. 894 33 39 34 7.41 0. 764 43.1 33 17 24 21 7.89 0.790 48.9 33 17 38 18 1. 372 35 41 34 1.730 0.890 33 39 30 7.30 0. 764 44.3 33 35 38 18 7. 97 0.788 47.9 33 15 40 18 1. 368 35 41 30 1.734 0.888 33 11 36 7.27 0.762 44.6 33 33 40 18 7. 94 0.787 48.2 33 35 42 18 1. 366 35 39 28 1. 588 0.888 34 11 38 7.33 0. 759 43.4 33 15 36 18 10.35 0.787 26.8 34 41 40 15 1. 358 35 31 40 1. 588 0.888 34 37 12 7.28 0.758 43.9 33 39 34 18 8.33 0.787 43.7 33 19 22 21

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.49 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 17,201.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-55 Cycle: 19 Core Average Exposure:

MWd/MTU 31948.0 Exposure:

MWd/MTU (GWd) 17450.0 (1756.50 ) Delta E: MWd/MTU, (GWd) 249.0 ( 25.06 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure.

Zone Avg. Max. IR JR Core Pressure:

psia 1044.7 Top 25 0.263 5.881 30 0.415 0.511 5 40 Inlet Subcooling:

Btu/lbm -20.33 24 0.782 17.503 31 0.382 0.517 47 40 Flow: Mlb/hr 80.31 (104.30 %) 23 1. 027 23.299 32 0. 764 1.047 41 12 22 1.186 26.669 33 1. 057 1.155 37 36 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1. 287 29.198 34 1.214 1.361 41 38 1 51 :JR 20 1.341 31. 002 35 1.288 1.390 39 36 3 47 19 1.350* 32.519 5 43 18 1. 346 33.561 7 12 39 17 1. 318 33.828 9 35 16 1. 343 34.383 11 10 10 31 15 1. 321 35.472 13 27 14 1.266 36.056 15 10 10 23 13 1. 276 35.574 17 19 12 1. 238 36.352 19 12 15 11 1.190 36.813 21 11 10 1.139 37.274 23 7 9 1. 088 38.265 25 3 8 1. 012 38.789 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.919 38.836 6 0.833 39.716 5 0. 729 40.138* 4 0.629 38.971 Control Rod Density: % 3.41 3 0.554 35.943 2 0.443 27.513 k-effective:

0.99963 Bottom 1 0.122 7.600 Void Fraction:

0.388 Core Delta-P: psi a 23.802 AXIAL TILT 16.579 -10.102 Core Plate Delta-P: psi a 19. 272 AVG BOT 8ft/12ft 0.9157 1.0618 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 70.87 Active Channel Flow: Mlb/hr 68.56 Total Bypass Flow (%): 11. 8 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source Convergence 0.00043 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1. 390 35 39 36 1.739 0.886 33 35 38 7.80 0.813 44.0 33 27 38 20 8. 24 0.833 49.8 33 27 38 20 1. 384 35 37 38 1. 741 0.885 33 37 36 10.06 0.807 21.0 35 27 40 20 10.58 0.815 28.2 34 41 38 15 1. 383 35 35 40 1. 749 0.880 33 39 16 7.42 0.782 45.1 33 37 40 18 10.98 0.812 23.8 35 27 40 20 1.374 35 41 34 1. 601 0.880 34 37 12 7.79 0.780 40.2 33 19 22 21 10.54 0.812 28.2 34 37 42 15 1.374 35 33 38 1.750 0.880 33 15 40 7.37 0.780 45.5 33 13 38 18 7.83 0.806 51.4 33 13 38 18 1.374 35 39 32 1.603 0.880 34 11 38 7.51 0. 778 43.5 33 17 24 21 7.93 0.804 50.0 33 37 40 18 1. 371 35 35 36 1. 752 0.879 33 11 36 7.39 0. 776 44.7 33 35 38 18 8.06 0.803 48.6 33 35 42 18 1.369 35 41 30 1. 755 0.878 33 19 14 7.36 0.774 45.0 33 33 40 18 7. 98 0.802 49.3 33 17 38 18 1. 366 35 39 28 1. 756 0.877 33 39 34 7.38 0.771 44.3 33 39 34 18 8.43 0.801 44.2 33 19 22 21 1. 361 34 41 38 1. 614 0.874 35 35 32 7. 40 0.771 44.0 33 37 36 18 10.46 0.800 27.4 34 41 40 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 1 Cycle 19 Control Rod Pattern and Axial Distributions at 17,450.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-56 Cycle: 19 Core Average Exposure:

MWd/MTU 31949.1 Exposure:

MWd/MTU (GWd) 17451.0 (1756.60 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100. 00 % ) N(PRA) Power Exposure Zone Avg. Core Pressure:

psi a 1044.6 Top 25 0.247 5.882 30 Inlet Subcooling:

Btu/lbm -22.41 24 0.731 17. 503 31 Flow: Mlb/hr 73. 65 ( 95.65 %) 23 0.961 23.300 32 22 1.115 26.670 33 3 5 7 11 13 15 17 19 21 23 25 21 1.221 29.199 34 1 51 :JR 20 1. 288 31.004 35 3 47 19 1. 320 32.521 5 43 18 1. 325 33.563 7 39 17 1. 305 33.829 9 35 16 1.336* 34.385 11 12 12 31 15 1. 319 35.474 13 27 14 1.268 36.057 15 12 12 23 13 1.281 35.575 17 19 12 1.246 36.353 19 15 11 1.201 36.815 21 11 10 1.153 37.275 23 7 9 1.106 38.266 25 3 8 1. 038 38.790 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.953 38.837 6 0.877 39. 717 5 0.781 40.139* 4 0.687 38. 971 Control Rod Density: % 2.19 3 0.612 35.943 2 0. 4 94 27.513 k-effective:

0.99972 Bottom 1 0.136 7.600 Void Fraction:

0. 408 Core Delta-P: psi a 21.171 AXIAL TILT 13.278 -10.101 Core Plate Delta-P: psi a 16.646 AVG BOT 8ft/12ft 0.9386 1. 0618 Coolant Temp: Deg-F 547.3 In Channel Flow: Mlb/hr 64.80 Active Channel Flow: Mlb/hr 62.62 Total Bypass Flow (%): 12.0 (of total core flow) Total Water Rod Flow (%): 3.0 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Sununary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR l.412 35 29 38 1. 693 0.909 33 29 40 7.52 0. 790 44.8 33 35 30 1. 403 35 31 40 1. 694 0.909 33 19 40 7.68 0.785 42.1 33 19 22 1. 402 35 27 40 1.555 0.907 35 29 38 9.62 0.779 22.2 35 17 32 1. 387 35 33 38 1. 698 0.907 33 31 38 9.57 0.776 22.4 35 33 30 1. 384 35 27 36 1. 702 0.905 33 23 18 7.26 0.758 44.2 33 31 38 1. 383 35 31 36 1. 704 0.904 33 25 38 7.21 0.757 44.7 33 35 38 1. 372 35 35 40 1.709 0.901 33 33 36 7.23 0.756 44.3 33 39 34 1. 372 35 29 42 1.715 0.898 33 15 36 7.25 0.755 44.0 33 37 36 1. 366 35 35 36 1. 716 0.898 33 35 38 7.17 0.755 45.1 33 37 40 1.363 35 37 38 1.577 0.894 35 27 14 7.17 0.755 45.0 33 33 40

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: K Value 20 8.03 20 8.27 20 10.27 20 10.25 18 7.60 18 10.50 18 10. 43 18 7.76 18 7.75 18 7. 67 0. 407 0.374 0.749 1. 067 1.190 1.307 Margin 0.814 0.805 0.791 0.789 0.781 0.781 0.780 0.780 0.777 0.777 Max. 0. 499 0.505 1.021 1.162 1.332 1. 412 LHGR Exp. FT 50.0 33 46. 4 33 28.2 34 28.2 34 51.2 33 24.3 35 25.0 35 49.3 33 49.1 33 50.0 33 Figure A.51 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 17,451.0 MWd/MTU AREVA NP Inc. IR JR 5 40 39 48 41 12 31 38 37 42 29 38 IR JR 35 30 19 22 37 42 41 38 13 38 35 22 19 30 17 38 37 36 37 40 K 20 20 15 15 18 20 20 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-57 Cycle: 19 Core Average Exposure:

MWd/MTU 32248.1 Exposure:

MWd/MTU (GWd) 17750.0 (1786. 70 ) Delta E: MWd/MTU, (GWd) 299.0 ( 30.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Core Pressure:

psi a 1044.7 Top 25 0.256 5. 963 30 0.406 Inlet Subcooling:

Btu/lbm -20. 4 6 24 0. 760 17.735 31 0.373 Flow: Mlb/hr 79.89 (103.75 %) 23 0.999 23.604 32 0.750 22 1.157 27.026 33 1. 065 3 5 7 9 11 13 15 17 19 21 23 25 21 1.261 29.588 34 1.197 1 51 :JR 20 1.322 31.414 35 1.304 3 47 19 l. 34 7* 32.941 5 43 18 l. 346 33.985 7 39 17 l. 319 34.245 9 35 16 1.345 34.788 11 12 12 31 15 l. 324 35. 871 13 27 14 1.271 36.440 15 12 12 23 13 l. 284 35.940 17 19 12 1.247 36.707 19 15 11 1.197 37.156 21 11 10 1.145 37.603 23 7 9 1. 093 38.580 25 3 8 l. 018 39.085 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.925 39.108 6 0.842 39.966 5 0.741 40.361* 4 0.644 39.166 Control Rod Density: % 2.19 3 0.571 36.117 2 0. 459 27.653 k-effective:

0.99976 Bottom 1 0.127 7.641 Void Fraction:

0.390 Core Delta-P: psi a 23.674 AXIAL TILT 15.592 -9.838 Core Plate Delta-P: psi a 19.145 AVG BOT 8ft/12ft 0.9235 l. 0604 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 70.47 Active Channel Flow: Mlb/hr 68.17 Total Bypass Flow (%): 11.8 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source Convergence 0.00027 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin l. 405 35 29 38 1.605 0.878 35 29 38 7.61 0.804 45.3 33 35 30 20 1. 399 35 31 40 1.755 0.878 33 19 40 7. 65 0.797 43.9 33 33 32 20 1. 397 35 27 40 1. 757 0.877 33 31 38 9.76 0.792 22.5 35 35 32 20 1. 383 35 33 38 1. 760 0.875 33 29 40 9.67 0.788 23.0 35 33 30 20 1.376 35 31 36 1. 762 0.874 33 35 38 7.30 0.773 45.5 33 37 40 18 1.375 35 27 36 1. 614 0.874 35 35 32 7.27 0.771 45.8 33 39 38 18 1. 373 35 35 40 1. 764 0.873 33 37 36 7.34 0.771 44.7 33 39 34 18 1.369 35 29 42 1. 773 0.868 33 33 36 7.31 0. 771 45.2 33 35 38 18 1.364 35 39 36 1. 773 0.868 33 25 38 7.34 0.769 44.5 33 37 36 18 1.364 35 37 38 l. 774 0.868 33 23 18 7.27 0.769 45.5 33 33 40 18

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 8.15 0.831 8.36 0.818 10.36 0.803 10.47 0.803 7. 71 0.798 10.66 0.796 7.81 0.795 7.87 0. 795 7.93 0.795 7.92 0.794 Max. 0.498 0.505 1.027 1.158 1. 338 l. 405 LHGR Exp. FT 50.5 33 46.9 33 28.8 34 27.7 34 51. 9 33 24. 8 35 50.5 33 49.7 33 49 .1 33 49.1 33 Figure A.52 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 17,750.0 MWd/MTU AREVA NP Inc. IR JR 5 40 47 40 41 42 31 38 37 42 29 38 IR JR 35 30 19 22 37 42 11 38 13 38 17 32 37 40 35 38 41 36 35 42 K 20 20 15 17 18 20 18 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-58 Cycle: 19 Core Average Exposure:

MWd/MTU 32249.1 Exposure:

MWd/MTU (GWd) 17751. 0 (1786.80 ) Delta E: MWd/MTU, (GWd) 1. 0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.6 Top 25 0.240 5.964 30 0.398 0. 490 Inlet Subcooling:

Btu/lbm -22.19 24 0. 710 17.736 31 0.366 0.497 Flow: Mlb/hr 74.31 ( 96.50 %) 23 0.935 23.605 32 0.735 1. 009 22 1. 087 27.027 33 1.075 1.171 3 5 7 9 11 13 15 17 19 21 23 25 21 1.192 29.590 34 1.173 1.322 1 51 :JR 20 1. 261 31.416 35 1.322 1. 411 3 47 19 1. 302 32.943 5 43 18 1. 325 33.987 7 39 17 1. 309 34.247 9 35 16 1. 342* 34.789 11 14 31 15 1. 327 35.873 13 27 14 1. 279 36.441 15 14 23 13 1. 295 35.941 17 19 12 1. 261 36.709 19 15 11 1. 215 37.157 21 11 10 1.165 37.604 23 7 9 1.115 38.581 25 3 8 1. 046 39.086 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.960 39.109 6 0.884 39.967 5 0.789 40.361* 4 0.695 39.167 Control Rod Density: % 1. 03 3 0.622 36 .118 2 0.503 27.654 k-effective:

0.99988 Bottom 1 0.140 7. 642 Void Fraction:

0.408 Core Delta-P: psi a 21.486 % AXIAL TILT 12.297 -9.837 Core Plate Delta-P: psi a 16. 960 AVG BOT 8ft/12ft 0.9474 1.0604 Coolant Temp: Deg-F 547.3 In Channel Flow: Mlb/hr 65.37 Active Channel Flow: Mlb/hr 63.17 Total Bypass Flow (%): 12.0 (of total core flow) Total Water Rod Flow (%): 3.0 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.411 35 35 36 1. 690 0. 911 33 33 36 7.54 0.803 46.1 33 35 24 19 8.07 0.824 50.6 33 1. 410 35 31 36 1. 695 0.908 33 37 32 7.66 0.800 4 4. 4 33 33 22 19 8.11 0. 817 49.5 33 1.407 35 33 34 1.707 0.902 33 37 36 9. 64 0.786 23.0 35 17 32 19 7.81 0. 792 50.1 33 1.405 35 37 34 1.709 0.901 33 39 30 9.44 0. 771 23.2 35 33 24 19 10.22 0.792 28.8 34 1.403 35 29 38 1.568 0.899 35 35 36 9.36 o. 762 22.9 35 35 36 15 7.73 0.789 50.7 33 1.401 35 35 32 1. 713 0.899 33 31 38 7.27 0.759 44.2 33 15 32 19 10.53 0.788 25.1 35 1.400 35 37 30 1. 717 0.897 33 17 20 9. 26 0.758 23.5 35 37 34 15 10.16 0.787 28.8 34 1.399 35 39 32 1. 719 0.896 33 39 34 9.25 0.758 23.5 35 33 38 15 7.52 0. 777 51. 7 33 1. 395 35 33 38 1. 721 0.895 33 35 38 7.21 0.757 44.7 33 39 34 18 7.51 0.776 51. 6 33 1.389 35 31 40 1. 578 0.894 35 37 30 7.21 0.755 44.5 33 37 36 18 7. 67 0. 775 49.8 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.53 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 17,751.0 MWd/MTU AREVA NP Inc. IR JR 5 14 47 40 41 42 37 32 41 38 35 36 IR JR 35 24 19 32 37 22 41 38 35 20 35 22 37 42 13 38 39 20 17 38 K 19 19 19 15 19 19 15 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-59 Cycle: 19 Core Average Exposure:

MWd/MTU 32523.1 Exposure:

MWd/MTU (GWd) 18025.0 (1814.40 ) Delta E: MWd/MTU, (GWd) 274.0 ( 27.58 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.7 Top 25 0.249 6. 036 30 0. 398 0. 489 Inlet Subcooling:

Btu/lbm -20. 4 0 24 0. 739 17. 942 31 0.365 0.498 Flow: Mlb/hr 80.08 (104.00 %) 23 0. 972 23.876 32 0.737 1. 014 22 1.128 27.345 33 1. 073 1.167 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1. 231 29.938 34 1.179 1. 328 1 51 :JR 20 1. 295 31.784 35 1.319 1. 406 3 47 19 1.330 33.323 5 43 18 1. 34 6 34.374 7 39 17 1.323 34.629 9 35 16 1. 352* 35.160 11 14 31 15 1. 334 36.239 13 27 14 1.283 36.794 15 14 23 13 1. 299 36.278 17 19 12 1.263 37.037 19 15 11 1.212 37.474 21 11 10 1.158 37.907 23 7 9 1.105 38.872 25 3 8 1.027 39.358 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.933 39.359 6 0.849 40.198 5 0.748 40.567* 4 0.651 39.348 Control Rod Density: % 1.03 3 0.577 36.280 2 0. 466 27.785 k-effective:

1. 00000 Bottom 1 0.129 7.680 Void Fraction:

0.391 Core Delta-P: psi a 23.810 % AXIAL TILT 14.605 -9.608 Core Plate Delta-P: psi a 19.281 AVG BOT 8ft/12ft 0.9326 1.0592 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 70.62 Active Channel Flow: Mlb/hr 68.31 Total Bypass Flow (%): 11.8 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source Convergence 0.00044 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 406 35 35 36 1.751 0.879 33 33 36 7.60 0.814 46.6 33 35 24 19 8.16 0.837 51.1 33 1. 403 35 31 36 1.753 0.878 33 37 32 7.71 0.810 44.8 33 33 22 19 8.31 0.828 48.5 33 1.402 35 37 34 1. 610 0. 876 35 35 36 9.75 0.796 23.2 35 35 22 19 7.90 0.806 50.6 33 1. 400 35 33 34 1. 761 0.875 33 37 36 9.50 0. 779 23.8 35 33 24 19 10.32 0.804 29. 4 34 1. 397 35 39 32 1. 766 0.872 33 39 30 7.36 0.772 44.7 33 15 32 19 7.82 0.803 51. 2 33 1. 397 35 29 38 1. 620 0.870 35 37 30 7.32 0. 772 45.2 33 39 34 18 10. 67 0.801 25.4 35 1. 395 35 37 30 1.771 0.869 33 39 34 7.31 0.769 45.0 33 37 36 18 10.26 0.800 29. 4 34 1. 394 35 35 32 1. 772 0.869 33 31 38 9.39 0.768 23.5 35 35 36 15 7.62 0.794 52.3 33 1. 391 35 33 38 1. 774 0.868 33 35 38 7.27 0. 768 45. 2 33 17 34 19 7.62 0.791 52.l 33 1. 385 35 31 40 1. 626 0.867 35 39 32 7.30 0.766 44.7 33 39 30 18 7.78 o. 790 50.3 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.54 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,025.0 MWd/MTU AREVA NP Inc. IR JR 5 14 47 40 41 42 37 32 41 38 35 36 IR JR 35 24 33 22 37 22 41 38 35 20 35 22 37 42 13 38 39 20 17 38 K 19 19 19 15 19 19 15 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-60 Cycle: 19 Core Average Exposure:

MWd/MTU 32524.0 Exposure:

MWd/MTU (GWd) 18026.0 (1814.50 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psia 1044.6 Top 25 0.234 6.037 30 0.391 0.481 5 40 Inlet Subcooling:

Btu/lbm -21. 68 24 0.693 17.942 31 0.359 0.488 47 40 Flow: Mlb/hr 75.85 ( 98.50 %) 23 0. 911 23.877 32 0. 724 0. 994 41 42 22 1. 060 27.346 33 1. 081 1.161 37 32 3 5 7 9 11 13 15 17 19 21 23 25 21 1.161 29.939 34 1.160 1.302 41 38 1 51 :JR 20 1.229 31. 786 35 1.335 1. 403 37 30 3 47 19 1. 270 33.325 5 43 18 1.298 34.375 7 39 17 1. 296 34.631 9 35 16 1. 339* 35.161 11 31 15 1.331 36.241 13 27 14 1. 290 36.796 15 23 13 1. 312 36.280 17 19 12 1. 281 37.038 19 15 11 1.235 37.475 21 11 10 1.184 37.908 23 7 9 1.133 38.873 25 3 8 1. 062 39.359 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.975 39.360 6 0. 898 40.198 5 0.802 40.567* 4 0.709 39.349 Control Rod Density: % 0.00 3 0.636 36.280 2 0.517 27.785 k-effective:

0.99998 Bottom 11 0.144 7.681 Void Fraction:

0. 408 Core Delta-P: psi a 22.182 % AXIAL TILT 10. 710 -9.607 Core Plate Delta-P: psi a 17.656 AVG BOT 8ft/12ft 0.9598 1. 0592 Coolant Temp: Deg-F 547.4 In Channel Flow: Mlb/hr 66.74 Active Channel Flow: Mlb/hr 64.50 Total Bypass Flow (%): 12.0 (of total core flow) Total Water Rod Flow (%): 3.0 (of total core flow) Source Convergence 0.00039 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.403 35 37 30 1. 736 0.887 33 37 26 9.20 0.753 23.5 35 35 36 15 10.05 0.783 29.4 34 41 38 15 1. 392 35 35 32 1. 740 0.885 33 37 32 9.22 0.751 23.0 35 37 30 15 9. 98 0. 778 29.4 34 37 42 15 1. 391 35 39 28 1.745 0.883 33 39 30 9.13 0.750*24.0 35 37 34 15 7.36 0.764 52.1 33 13 38 18 1. 389 35 33 34 1.750 0.880 33 33 36 9.16 0.749 23.4 35 35 32 15 7. 51 0.763 50.2 33 35 38 18 1. 388 35 31 36 1.602 0.880 35 37 30 9.15 0.749 23.4 35 39 32 15 7.57 0.763 49.5 33 41 36 18 1. 387 35 35 36 1.762 0.874 33 37 18 9.08 0.747 24.1 35 33 38 15 9.86 0.762 28.6 34 41 40 15 1. 386 35 37 34 1. 615 0.873 35 35 36 9.13 0.746 23.3 35 33 34 15 7.34 0. 762 52 .1 33 39 20 18 1.386 35 39 32 1.766 0.872 33 35 20 7.06 0.745 45.2 33 39 34 18 7.44 0.761 50.8 33 41 32 18 1. 380 35 29 38 1. 618 0.872 35 35 22 9.13 0.745 23.0 35 31 36 15 7.50 0.761 50.0 33 37 36 18 1. 379 35 35 28 1. 770 0.870 33 39 34 9.09 0.744 23.5 35 39 28 15 7. 43 0.760 50.9 33 37 40 18

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure ASS Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,026.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-61 Cycle: 19 Core Average Exposure:

MWd/MTU 32723.2 Exposure:

MWd/MTU (GWd) 18225.0 (1834 .50 ) Delta E: MWd/MTU, (GWd) 199.0 ( 20.03 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.7 Top 25 0.240 6.088 30 0.391 0.481 Inlet Subcooling:

Btu/lbm -20.29 24 0.714 18.088 31 0.359 0.488 Flow: Mlb/hr 80.46 (104.50 %) 23 o. 939 24.069 32 0. 726 0.998 22 1. 091 27.571 33 1. 080 1.159 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.190 30.186 34 1.165 1.307 1 51 :JR 20 1. 254 32.046 35 1.332 1. 399 3 47 19 1. 291 33.594 5 43 18 1. 314 34.651 7 39 17 1. 306 34.906 9 35 16 1.346* 35.430 11 31 15 1. 336 36.508 13 27 14 1.292 37.055 15 23 13 1. 314 36.528 17 19 12 1. 282 37.281 19 15 11 1.233 37.708 21 11 10 1.179 38.132 23 7 9 1.125 39.087 25 3 8 1.048 39.560 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.955 39.545 6 0.873 40.368 5 0. 772 40. 719* 4 0.676 39.483 Control Rod Density: % 0.00 3 0.603 36.401 2 0. 489 27.883 k-effective:

1.00008 Bottom 1 0.136 7. 710 Void Fraction:

0.395 Core Delta-P: psi a 24.068 % AXIAL TILT 12.424 -9.454 Core Plate Delta-P: psi a 19.539 AVG BOT 8ft/12ft 0.9488 1.0584 Coolant Temp: Deg-F 547.5 In Channel Flow: Mlb/hr 70. 94 Active Channel Flow: Mlb/hr 68.61 Total Bypass Flow (%): 11. 8 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source Convergence 0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 399 35 37*30 1. 784 o. 863 33 37 26 9.22 0.757 23.8 35 35 36 15 10.13 0.793 29.8 1.389 35 39 28 1. 637 0.862 35 37 30 7.15 0.756 45.5 33 39 34 18 10.06 0.787 29.8 1.388 35 35 22 1. 788 0. 861 33 37 32 9.23 0.755 23.3 35 37 30 15 7.68 0.777 49.9 1.384 35 39 32 1.791 0.860 33 39 30 9.15 0.755 24.4 35 37 34 15 7.44 0.776 52.4 1.384 35 35 36 1.798 0.856 33 33 36 7.14 0.754 45.3 33 37 36 18 7. 60 0. 775 50.5 1.384 35 33 34 1.647 0.856 35 35 36 9.18 0.753 23.8 35 39 32 15 7.53 0. 774 51.2 1.383 35 37 34 1. 805 0.853 33 37 36 9.17 0.752 23.8 35 35 32 15 7.42 0.773 52.4 1. 383 35 31 36 1. 654 0.853 35 39 28 7.05 0. 752 46.3 33 37 40 18 7.53 0. 773 51.1 1.376 35 29 38 1. 654 0.852 35 35 22 7.03 0. 752 46.5 33 39 38 18 9.95 0.773 29.0 1. 373 35 35 28 1. 656 0.852 35 37 20 9.10 0.751 24.4 35 33 38 15 7.59 0.773 50.4

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.56 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,225.0 MWd/MTU AREVA NP Inc. 34 34 33 33 33 33 33 33 34 33 IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR K 41 38 15 37 42 15 41 36 18 13 38 18 35 38 18 37 40 18 39 20 18 41 32 18 41 40 15 37 36 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-62 Cycle: 19 Core Average Exposure:

MWd/MTU 32724. 2 Exposure:

MWd/MTU (GWd) 18226.0 (1834.60 ) Delta E: MWd/MTU, (GWd) 1. 0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.3 Top 25 0.236 6. 089 30 0.392 0.482 Inlet Subcooling:

Btu/lbm -24.32 24 0.700 18.089 31 0.360 0.489 Flow: Mlb/hr 77.00 (100.00 %) 23 0. 920 24.070 32 0.730 1.000 22 1. 069 27.572 33 1. 079 1.155 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.168 30.187 34 1.166 1. 305 1 51 :JR 20 1.232 32.048 35 1. 329 1.394 3 47 19 1.269 33.596 5 43 18 1. 294 34.652 7 39 17 1. 289 34.907 9 35 16 1. 331

35.431 11 31 15 1.325 36.509 13 27 14 1. 286 37.056 15 23 13 1. 312 36.529 17 19 12 1. 284 37.282 19 15 11 1.241 37.710 21 11 10 1.193 38.133 23 7 9 1.144 39.088 25 3 8 1. 071 39.561 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.981 39.546 6 0.899 40.369 5 o. 797 40. 720* 4 0. 697 39.484 Control Rod Density: % 0.00 3 0.620 36.401 2 0.502 27.884 k-effective:

1. 00007 Bottom 1 0.140 7. 710 Void Fraction:

0.392 Core Delta-P: psia 22.395 % AXIAL TILT 10.762 -9.453 Core Plate Delta-P: psi a 17. 857 AVG BOT 8ft/12ft 0.9584 1.0584 Coolant Temp: Deg-F 546.8 In Channel Flow: Mlb/hr 67. 87 Active Channel Flow: Mlb/hr 65.64 Total Bypass Flow (%): 11. 9 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source Convergence 0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.394 35 37 30 1. 770 0.870 33 37 26 9.09 0.746 23.8 35 35 36 1.384 35 39 28 1. 774 0.868 33 37 32 9.02 0.744 24.4 35 37 34 1. 383 35 35 22 1. 778 0.866 33 39 30 9.10 0.744 23.3 35 37 30 1.380 35 39 32 1.633 0.863 35 37 30 7.02 0.743 45.5 33 39 34 1.380 35 35 36 1.785 0.863 33 33 36 9.05 0.743 23.8 35 39 32 1. 379 35 33 34 1.792 0.859 33 37 18 9.04 0.741 23.8 35 35 32 1. 379 35 37 34 1. 644 0.858 35 35 36 8.98 0.741 24.4 35 33 38 1. 379 35 31 36 1.799 0.856 33 39 34 7.01 0.740 45.3 33 37 36 1. 371 35 29 38 1. 802 0.854 33 35 20 8.85 0. 739 25.8 35 37 38 1. 368 35 35 28 1. 650 0.854 35 35 22 8.91 0.739 25.1 35 39 36

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 15 9.99 0.782 29.8 15 9. 93 0. 777 29.9 15 7 .54 0.763 49.9 18 9.83 0.763 29.0 15 7.31 0.763 52.4 15 7.46 0.761 50.5 15 9.80 0.761 29.0 18 7.40 0. 760 51.2 15 7.40 0. 759 51.1 15 7.29 0.759 52.4 Figure A.57 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,226.0 MWd/MTU AREVA NP Inc. 34 34 33 34 33 33 34 33 33 33 IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR K 41 38 15 37 42 15 41 36 18 41 4 0 15 13 38 18 35 38 18 39 42 15 37 4 0 18 41 32 18 39 20 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-63 Cycle: 19 Core Average Exposure:

MWd/MTU 32873.1 Exposure:

MWd/MTU (GWd) 18375.0 (1849.60 ) Delta E: MWd/MTU, (GWd) 149.0 ( 15.00 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.3 Top 25 0.241 6.127 30 0.392 0.482 Inlet Subcooling:

Btu/lbm -23.17 24 0.716 18.199 31 0.360 0. 490 Flow: Mlb/hr 80.39 (104.40 %) 23 0.942 24.215 32 0.731 1.003 22 1. 093 27.742 33 1. 078 1.154 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.190 30.373 34 1.170 1.309 1 51 :JR 20 1.251 32.243 35 1. 328 1.392 3 47 19 1.285 33.797 5 43 18 1. 306 34.858 7 39 17 1.297 35 .112 9 35 16 1.337* 35.632 11 31 15 1.329 36.709 13 27 14 1. 288 37.249 15 23 13 1. 314 36.715 17 19 12 1.285 37. 4 64 19 15 11 1.239 37.885 21 11 10 1.189 38.302 23 7 9 1.137 39.250 25 3 8 1. 060 39. 713 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.965 39.685 6 0.879 40.497 5 0.773 40.833* 4 0. 672 39.582 Control Rod Density: % 0.00 3 0.596 36.489 2 0.482 27.955 k-effective:

1. 00009 Bottom 1 0.134 7.731 Void Fraction:

0.383 Core Delta-P: psi a 23.770 % AXIAL TILT 12.102 -9.339 Core Plate Delta-P: psi a 19.230 AVG BOT 8ft/12ft 0.9498 1. 0578 Coolant Temp: Deg-F 546.9 In Channel Flow: Mlb/hr 70. 95 Active Channel Flow: Mlb/hr 68.65 Total Bypass Flow (%): 11. 7 (of total core flow) Total Water Rod Flow (%) : 2.9 (of total core flow) Source Convergence 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 392 35 37 30 1.805 0.859 33 37 26 7.09 0.752 45.7 33 39 34 18 10.05 0.789 30.1 34 1. 383 35 39 28 1. 807 0.858 33 37 32 9.11 0.750 24.1 35 35 36 15 9.99 0.784 30.2 34 1.379 35 39 32 1. 656 0.857 35 37 30 6.98 0.748 46.7 33 39 38 18 7.62 0. 773 50.1 33 1.379 35 35 32 1.810 0.856 33 39 30 7.00 0.748 46.5 33 37 40 18 7.37 0.772 52.9 33 1. 378 35 35 36 1. 666 0.852 35 35 36 7.07 0.748 45.5 33 37 36 18 9.90 o. 770 29.3 34 1. 377 35 37 34 1. 819 0.852 33 33 36 9.04 0.748 24.7 35 37 34 15 7 .47 0.770 51.5 33 1.376 35 33 34 1. 823 0.850 33 37 18 9.12 0.747 23.6 35 37 30 15 7.53 0. 770 50.8 33 1.376 35 31 36 1. 672 0.849 35 39 28 9.08 0.747 24.1 35 39 32 15 7. 47 0.769 51.3 33 1. 369 35 29 38 1. 675 0.848 35 37 20 6.99 0.745 46.2 33 35 38 18 7.58 0. 769 50.1 33 1. 364 35 35 28 1. 675 0.848 35 39 32 9.00 0.744 24.7 35 33 38 15 7.36 0.768 52.6 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.58 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,375.0 MWd/MTU AREVA NP Inc. IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR 41 38 37 42 41 36 13 38 41 40 37 40 35 38 41 32 35 42 39 20 K 15 15 18 18 15 18 18 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-64 Cycle: 19 Core Average Exposure:

MWd/MTU 32874.1 Exposure:

MWd/MTU (GWd) 18376.0 (1849.70 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.3 Top 25 0.236 6.128 30 0.394 0.483 Inlet Subcooling:

Btu/lbm -27 .11 24 0.703 18.200 31 0.361 0. 491 Flow: Mlb/hr 77.00 (100.00 %) 23 0.925 24.216 32 0.736 1.005 22 1. 073 27.743 33 1. 076 1.151 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.170 30.374 34 1.171 1.307 1 51 :JR 20 1. 231 32.245 35 1.325 1.387 3 47 19 1. 266 33.799 5 43 18 1. 289 34.859 7 39 17 1. 282 35.113 9 35 16 1. 324

35.633 11 31 15 1. 319 36.710 13 27 14 1.282 37.250 15 23 13 1.312 36.716 17 19 12 1.288 37. 4 65 19 15 11 1. 247 37.887 21 11 10 1.202 38.303 23 7 9 1.155 39.252 25 3 8 1. 082 39. 714 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.989 39.686 6 0.902 40.497 5 0. 794 40.833* 4 0.689 39.583 Control Rod Density: % 0.00 3 0. 611 36.490 2 0. 494 27.955 k-effective:

1.00004 Bottom 1 0.137 7.731 Void Fraction:

0.380 Core Delta-P: psi a 22.157 % AXIAL TILT 10.610 -9.338 Core Plate Delta-P: psi a 17.608 AVG BOT 8ft/12ft 0.9586 1. 0578 Coolant Temp: Deg-F 546.1 In Channel Flow: Mlb/hr 67.95 Active Channel Flow: Mlb/hr 65.75 Total.Bypass Flow (%): 11. 7 (of total core flow) Total Water Rod Flow (%): 2.9 (of total core flow) Source 0.00048 Top Ten Thermal Limits Summary -Sorted by Margin PoWer MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 387 35 37 30 1.789 0.866 33 37 26 8.99 0.740 24.1 35 35 36 15 9.93 0.779 30.1 34 1.378 35 39 28 1. 792 0.865 33 37 32 6.97 0.739 45.7 33 39 34 18 9.86 0.774 30.2 34 1. 375 35 39 32 1.795 0.863 33 39 30 8.93 0.738 24.7 35 37 34 15 9.78 0. 761 29.3 34 1.375 35 35 22 1.652 0.860 35 37 30 8. 96 0.737 24.1 35 39 32 15 7.50 0.761 50.1 33 1.374 35 35 36 1. 804 0.859 33 33 36 8.99 0.737 23.6 35 37 30 15 7.25 0.760 52.9 33 1. 373 35 37 34 1. 808 0.857 33 37 18 6.89 0.737 4 6. 5 33 37 40 18 9.75 0.759 29.3 34 1. 372 35 33 34 1.662 0.854 35 35 36 6.87 0.737 4 6. 7 33 39 38 18 7.35 0.758 51.5 33 1. 371 35 31 36 1. 814 0.854 33 39 34 6.96 0.736 45.5 33 37 36 18 7.41 0.758 50.8 33 1. 365 35 29 38 1.668 0.851 35 39 28 8.88 0.735 24.7 35 33 38 15 9.71 0.757 29.5 34 1.360 35 35 28 1. 670 0.850 35 37 20 8.78 0.735 26.1 35 37 38 15 7.46 0.757 50.1 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.59 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,376.0 MWd/MTU AREVA NP Inc. IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR 41 38 37 42 41 40 41 36 13 38 39 42 37 40 35 38 45 22 35 42 K 15 15 15 18 18 15 18 18 15 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-65 Cycle: 19 Core Average Exposure:

MWd/MTU 33023.0 Exposure:

MWd/MTU (GWd) 18525.0 (1864.70 ) Delta E: MWd/MTU, (GWd) 149. 0 ( 15.00 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.3 Top 25 0.242 6.167 30 0.393 0.483 Inlet Subcooling:

Btu/lbm -25.83 24 o. 721 18. 311 31 0.360 0.491 Flow: Mlb/hr 80. 46 (104.50 %) 23 0.948 24.362 32 0.737 1.007 22 1. 099 27.914 33 1. 075 1.150 3 5 7 9 11 13 15 17 19 21 23 25 21 1.194 30.560 34 1.174 1. 311 1 51 :JR 20 1.252 32.440 35 1. 323 1.385 3 47 19 1.283 34.000 5 43 18 1. 302 35.064 7 39 17 1. 292 35.317 9 35 16 1. 332* 35.832 11 31 15 1.325 36. 908 13 27 14 1.285 37.443 15 23 13 1. 315 36.902 17 19 12 1. 289 37.647 19 15 11 1.245 38.063 21 11 10 1.198 38.474 23 7 9 1.148 39. 415 25 3 8 1. 069 39. 867 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.970 39.826 6 0.879 40.625 5 0.766 40.946* 4 0.661 39.680 Control Rod Density: % 0.00 3 0.583 36.576 2 0.471 28.025 k-effective:

1.00010 Bottom 1 0.131 7.752 Void Fraction:

0.370 Core Delta-P: psi a 23.549 % AXIAL TILT 12.094 -9.226 Core Plate Delta-P: psi a 18.999 AVG BOT 8ft/12ft 0.9492 1. 0573 Coolant Temp: Deg-F 546.2 In Channel Flow: Mlb/hr 71.11 Active Channel Flow: Mlb/hr 68.83 Total Bypass Flow (%): 11. 6 (of total core flow) Total Water Rod Flow (%): 2.8 (of total core flow) Source Converg7nce 0.00040 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.385 35 37 30 1. 823 0.850 33 37 26 7.04 0.749 46.0 33 39 34 18 10.01 0.781 30.4 1. 378 35 39 28 1.825 0.849 33 37 32 6.95 0.747 47.0 33 39 38 18 9. 94 0.782 30.5 1.375 35 39 32 1. 674 0.848 35 37 30 6.97 0.747 46.7 33 37 40 18 7.59 0.772 50.4 1.373 35 35 36 1. 828 0.848 33 39 30 7.02 0.745 45.7 33 37 36 18 7.33 0. 771 53.1 1.372 35 37 34 1. 683 0.844 35 35 36 9.03 0.744 24.4 35 35 36 15 9.87 0.770 29.6 1.372 35 35 32 1.839 0.843 33 37 36 8. 96 0.742 24.9 35 37 34 15 7.44 0.769 51.7 1.369 35 33 34 1. 839 0.843 33 33 36 9.00 0.742 24.4 35 39 32 15 9.84 0.768 29.6 1.369 35 31 36 1. 689 0.841 35 39 28 6.94 0.742 46. 4 33 35 38 18 7.54 0.768 50.4 1.362 35 29 38 1. 845 0.840 33 39 34 6.91 0.741 46. 8 33 41 32 18 7.49 0.768 51.0 1. 356 35 35 28 1. 690 0.840 35 39 32 9.02 0.741 23.9 35 37 30 .15 7.43 0. 767 51. 7

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.60 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,525.0 .MWd/MTU AREVA NP Inc. 34 34 33 33 34 33 34 33 33 33 IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR 41 38 37 42 41 36 13 38 41 40 37 40 39 42 35 42 35 38 41 32 K 15 15 18 18 15 18 15 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-66 Cycle: 19 Core Average Exposure:

MWd/MTU 33024.0 Exposure:

MWd/MTU (GWd) 18526.0 (1864.80 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923. 0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a '1044.3 Top 25 0.238 6.167 30 0.395 0.484 Inlet Subcooling:

Btu/lbm -29.70 24 0.708 18.312 31 0.362 0.492 Flow: Mlb/hr 77.08 (100.10 %) 23 0.931 24.363 32 0.741 1. 009 22 1.080 27.915 33 1. 074 1.14 7 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.175 30.561 34 1.175 1. 309 1 51 :JR 20 1. 233 32.442 35 1.320 1. 381 3 47 19 1. 265 34.001 5 43 18 1. 286 35.065 7 39 17 1. 278 35.318 9 35 16 1. 320* 35.833 11 31 15 1.317 36.910 13 27 14 1.281 37.444 15 23 13 1.314 36.903 17 19 12 1. 293 37.649 19 15 11 1. 254 38.064 21 11 10 1. 211 38.475 23 7 9 1.166 39. 416 25 3 8 1. 090 39.868 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.992 39.827 6 0.900 40.626 5 0.784 40.946* 4 0. 675 39.681 Control Rod Density: % 0.00 3 0.595 36.577 2 0.481 28 ._025 k-effective:

1. 00010 Bottom 1 0.133 7.752 Void Fraction:

0.368 Core Delta-P: psi a 21.964 % AXIAL TILT 10. 715 -9.225 Core Plate Delta-P: psi a 17. 4 04 AVG BOT 8ft/12ft 0.9575 1. 0573 Coolant Temp: Deg-F 545.5 In Channel Flow: Mlb/hr 68.10 Active Channel Flow: Mlb/hr 65.92 Total Bypass Flow (%): 11. 6 (of total core flow) Total Water Rod Flow (%): 2.8 (of total core flow) Source Convergence 0.00049 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 381 35 37 30 1.807 0.85B 33 37 26 6.93 0.737 46.0 33 39 34 18 9.B9 0.77B 30.4 34 1. 374 35 39 2B 1. BOB O.B57 33 37 32 6.B5 0.736 47.0 33 39 3B lB 9.83 0. 774 30.5 34 1.371 35 39 32 1. B12 O.B55 33 39 30 6.B6 0.736 46.7 33 37 40 lB 9.76 o. 762 29.6 34 1. 369 35 35 36 1. 669 O.B51 35 37 30 B.92 0.736 24.4 35 35 36 15 7.47 0.760 50.4 33 1. 369 35 37 34 1. B23 O.B50 33 37 lB B.85 0.734 24.9 35 37 34 15 9.73 0.760 29.6 34 1.368 35 35 32 1. B23 O.B50 33 33 36 6.91 0.733 45.7 33 37 36 lB 7.22 0. 760 53.2 33 1.365 35 33 34 1. B2B O.B4B 33 39 34 B.B9 0.733 24.4 35 39 32 15 9.69 0.757 29. B 34 1.365 35 31 36 1. 67B O.B46 35 35 36 B.91 0.732 23.9 35 37 30 15 7.33 0.757 51. 7 33 1. 359 35 29 3B 1. 6B4 O.B43 35 39 2B B.73 0.732 26.3 35 37 3B 15 7.43 0.756 50. 4 33 1.352 35 35 28 1. 839 0.843 33 35 38 8.78 0.732 25.6 35 39 36 15 7.37 0.756 51. 0 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.61 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,526.0 MWd/MTU AREVA NP Inc. IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR 41 3B 37 42 41 40 41 36 39 42 13 3B 45 22 37 40 35 42 35 38 K 15 15 15 18 15 lB 15 lB lB 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-67 Cycle: 19 Core Average Exposure:

MWd/MTU 33148.0 Exposure:

MWd/MTU (GWd) 18650.0 (1877.30 ) Delta E: MWd/MTU, (GWd) 124.0 ( 12.48 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Core Pressure:

psia 1044.3 Top 25 0.242 6.200 30 0. 394 Inlet Subcooling:

Btu/lbm -28.40 24 0. 722 18.405 31 0.361 Flow: Mlb/hr 80.27 (104.25 %) 23 0.950 24.485 32 0.741 22 1.100 28.058 33 1. 074 3 5 7 9 11 13 15 17 19 21 23 25 21 1.193 30.717 34 1.178 1 51 :JR 20 1. 249 32.605 35 1. 319 3 47 19 1.279 34.169 5 43 18 1.296 35.235 7 39 17 1.285 35.487 9 35 16 1.326* 35.998 11 31 15 1.321 37.074 13 27 14 1. 283 37.605 15 23 13 1. 316 37.058 17 19 12 1.293 37.801 19 15 11 1.253 38.212 21 11 10 1. 208 38.618 23 7 9 1.160 39.554 25 3 8 1. 079 39.997 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.977 39.944 6 0.881 40.732 5 0. 763 4.1.039* 4 0.654 39.760 Control Rod Density: % 0.00 3 0.575 36.647 2 0. 464 28.082 k-effective:

1. 00011 Bottom 1 0.129 7.769 Void Fraction:

0. 360 Core Delta-P: psia 23.244 % AXIAL TILT 11. 862 -9.132 Core Plate Delta-P: psi a 18.685 AVG BOT 8ft/12ft 0.9502 1.0568 Coolant Temp: Deg-F 545.6 In Channel Flow: Mlb/hr 71. 01 Active Channel Flow: Mlb/hr 68. 76 Total Bypass Flow (%): 11.5 (of total core flow) Total Water Rod Flow (%): 2.8 (of total core flow) Source Convergence 0.00049 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin 1.380 35 37 30 1. 839 0.843 33 37 26 6.99 0.745 46.1 33 39 1.373 35 39 28 1. 840 0.842 33 37 32 6.91 0.744 47.2 33 39 1.371 35 39 32 1. 843 0.841 33 39 30 6.93 0.744 46.9 33 37 1.368 35 35 36 1. 690 0.840 35 37 30 6.97 0.740 45.9 33 37 1. 368 35 37 34 1. 852 0.837 33 37 18 8.95 0.739 24.6 35 35 1. 366 35 35 32 1.698 0.836 35 35 36 7.01 0.738 45.1 33 41 1.363 35 33 34 1. 856 0.835 33 33 36 6.86 0.738 47.0 33 41 1.362 35 31 36 1.858 0.834 33 39 34 8.88 0.737 25.2 35 37 1.357 35 29 38 1.704 0.833 35 39 28 6.89 0.737 4 6. 6 33 35 1. 351 35 33 38 1. 704 0.833 35 39 32 8.92 0.737 24.6 35 39

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 34 18 9.95 0.785 38 18 9.89 0.780 40 18 7.55 0. 770 36 18 9.83 0.769 36 15 7.29 0. 768 36 18 9.80 0.767 32 18 7.39 0.766 34 15 7.50 0. 765 38 18 9.75 0. 765 32 15 7.38 0. 764 Max. 0.484 0.492 1.011 1.14 6 1.312 1. 380 LHGR Exp. FT 30.7 34 30.7 34 50.6 33 29.8 34 53.3 33 29.8 34 51. 9 33 50.6 33 30.0 34 51. 9 33 Figure A.62 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,650.0 MWd/MTU AREVA NP Inc. IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR 41 38 37 42 41 36 41 40 13 38 39 42 37 40 35 42 45 22 41 32 K 15 15 18 15 18 15 18 18 15 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-68 Cycle: 19 Core Average Exposure:

MWd/MTU 33149.0 Exposure:

MWd/MTU (GWd) 18651. 0 (1877.40 ) Delta E: MWd/MTU, (GWd) 1.0 ( 0.10 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.3 Top 25 0.238 6.200 30 0. 396 0. 485 Inlet Subcooling:

Btu/lbm -32.10 24 0. 710 18.406 31 0.362 0. 493 Flow: Mlb/hr 77.19 (100.25 %) 23 0.934 24.486 32 0.745 1.013 22 1.082 28.059 33 1.073 1.144 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.175 30.718 34 1.179 1.310 1 51 :JR 20 1. 231 32.606 35 1. 317 1.376 3 47 19 1. 262 34.170 5 43 18 1. 281 35.237 7 39 17 1. 272 35.489 9 35 16 1.315 36.000 11 31 15 1.313 37.076 13 27 14 1. 279 37.606 15 23 13 1.316* 37. 060 17 19 12 1.297 37.802 19 15 11 1. 261 38.213 21 11 10 1. 221 38.619 23 7 9 1.177 39.555 25 3 8 1. 099 39.998 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.998 39.944 6 0.900 40.733 5 0.779 41. 039* 4 0. 667 39.761 Control Rod Density: % 0.00 3 0.587 36. 647 2 0. 474 28.083 k-effective:

1. 00011 Bottom 1 0.132 7. 769 Void Fraction:

0.358 Core Delta-P: psi a 21. 811 % AXIAL TILT 10.558 -9.131 Core Plate Delta-P: psi a 17.243 AVG BOT 8ft/12ft 0.9581 1.0568 Coolant Temp: Deg-F 544.8 In Channel Flow: Mlb/hr 68.28 Acti \re Channel Flow: Mlb/hr 66.11 Total Bypass Flow (%): 11.5 (of total core flow) Total Water Rod Flow (%): 2.8 (of total core flow) Source Convergence 0.00050 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.376 35 37 30 1. 825 0.849 33 37 26 6.89 0.734 46.1 33 39 34 18 9.85 0.777 30.7 1. 369 35 39 28 1. 826 0.849 33 37 32 6.81 0. 734 47.2 33 39 38 18 9.79 0.772 30.7 1. 367 35 39 32 1. 829 0.847 33 39 30 6.83 0.734 4 6. 9 33 37 40 18 9.73 0.762 29.8 1. 364 35 35 36 1. 838 0.843 33 37 18 8.85 0.731 24.6 35 35 36 15 9. 71 0.759 29.8 1. 364 35 37 34 1. 686 0.842 35 37 30 6.87 0.730 45.9 33 37 36 18 7.44 0.759 50.6 1.362 35 35 32 1. 842 0.842 33 33 36 8.83 0.729 24.6 35 39 32 15 7.19 0.757 53.4 1. 359 35 31 36 1. 844 0.841 33 39 34 8.78 0.729 25.2 35 37 34 15 9.66 0.757 30.0 1. 359 35 33 34 1.695 0.838 35 35 36 8. 67 0.729 26.6 35 37 38 15 7.29 0. 755 51. 9 1. 353 35 29 38 1.854 0.836 33 35 38 8.72 0. 729 25.8 35 39 36 15 7.39 0.754 50.6 1.347 35 33 38 1.700 0.835 35 39 28 6.91 0.728 45.1 33 41 36 18 7.27 0. 753 51. 9

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.63 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,651.0 MWd/MTU AREVA NP Inc. 34 34 34 34 33 33 34 33 33 33 IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR 41 38 37 42 41 40 39 42 41 36 13 38 45 22 37 40 35 42 41 32 K 15 15 15 15 18 18 15 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-69 Cycle: 19 Core Average Exposure:

MWd/MTU 33158.6 Exposure:

MWd/MTU (GWd) 18660.6 (1878.30 ) Delta E: MWd/MTU, (GWd) 9.6 ( 0. 97 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 1044.3 Top 25 0.238 6.202 30 0.396 0.485 Inlet Subcooling:

Btu/lbm -31. 98 24 0. 711 18.413 31 0.362 0.493 Flow: Mlb/hr 77.46 (100.60 %) 23 0.935 24. 4 96 32 0.745 1.013 22 1. 084 28.070 33 1. 073 1.144 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.177 30.730 34 1.179 1.310 1 51 :JR 20 1.233 32.619 35 1.317 1. 376 3 47 19 1. 263 34.183 5 43 18 1. 282 35.250 7 39 17 1. 273 35.502 9 35 16 1. 316 36. 013 11 31 15 1. 314 37.088 13 27 14 1. 280 37.618 15 23 13 1. 317* 37. 072 17 19 12 1. 297 37.814 19 15 11 1. 261 38.225 21 11 10 1.221 38.630 23 7 9 1.176 39.566 25 3 8 1. 098 40.008 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.996 39.954 6 0.898 40.741 5 0. 777 41.047* 4 0.665 39.767 Control Rod Density: % 0.00 3 0.585 36.653 2 0.472 28.087 k-effective:

1.00012 Bottom 1 0.131 7. 770 Void Fraction:

0.358 Core Delta-P: psi a 21. 917 % AXIAL TILT 10.657 -9.124 Core Plate Delta-P: psi a 17. 349 AVG BOT 8ft/12ft 0.9575 1.0567 Coolant Temp: Deg-F 544.8 In Channel Flow: Mlb/hr 68.52 Active Channel Flow: Mlb/hr 66.35 Total Bypass Flow (%): 11.5 (of total core flow) Total Water Rod Flow (%): 2.8 (of total core flow) Source Convergence 0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.376 35 37 30 1. 688 0.865 35 37 30 6. 89 0.735 46.2 33 39 1. 369 35 39 28 1. 696 0. 861 35 35 36 6.82 0.735 47.2 33 39 1.367 35 39 32 1. 828 0.859 33 37 26 6.84 0.735 4 6. 9 33 37 1.364 35 35 36 1. 829 0.858 33 37 32 8.85 0.732 24.7 35 35 1. 364 35 37 34 1.702 0.858 35 39 28 6.87 0.730 45.9 33 37 1. 362 35 35 32 1.703 0.858 35 39 32 8.83 0.730 24.6 35 39 1. 359 35 31 36 1.832 0.857 33 39 30 8. 79 0.730 25.2 35 37 1. 359 35 33 34 1.704 0.857 35 37 20 8.68 0. 729 26.6 35 37 1. 353 35 29 38 1. 711 0.853 35 35 22 8.73 0. 729 25.9 35 39 1.347 35 33 38 1. 841 0.853 33 37 18 6.92 0. 729 45.l 33 41

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 34 18 9.85 0.778 30.7 38 18 9.79 0.773 30.8 40 18 9.74 0.762 29.9 36 15 9.71 0.760 29.8 36 18 7.45 0.759 50.6 32 15 7.19 0.758 53.4 34 15 9.66 0.758 30.1 38 15 7.29 0.756 51.9 36 15 7.40 0.755 50.6 36 18 7.28 0. 754 51.9 Figure A.64 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18,660.6 MWd/MTU AREVA NP Inc. 34 34 34 34 33 33 34 33 33 33 IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR 41 38 37 42 41 40 39 42 41 36 13 38 45 22 37 40 35 42 41 32 K 15 15 15 15 18 18 15 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-70 Cycle: 19 Core Average Exposure:

MWd/MTU 33228.l Exposure:

MWd/MTU (GWd) 18730.0 (1885.30 ) Delta E: MWd/MTU, (GWd) 69.4 ( 6.99 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. IR JR Core Pressure:

psia 1044.3 Top 25 0.241 6.221 30 0.396 0.485 5 40 Inlet Subcooling:

Btu/lbm -31.28 24 o. 719 18. 4 65 31 0.362 0. 493 47 40 Flow: Mlb/hr 79. 04 (102.65 %) 23 0. 94 6 24.565 32 0.745 1.014 41 42 22 1. 095 28.150 33 1. 072 1.143 37 32 3 5 7 9 11 13 15 17 19 21 23 25 21 1.188 30.817 34 1.181 1. 312 41 38 1 51 :JR 20 1. 242 32.710 35 1.316 1.375 37 30 3 47 19 1. 271 34.276 5 43 18 1. 288 35.345 7 39 17 1. 277 35.596 9 35 16 1.320* 36.105 11 31 15 1.317 37.180 13 27 14 1. 282 37.708 15 23 13 1. 318 37.159 17 19 12 1. 299 37.900 19 15 11 1.262 38.308 21 11 10 1.220 38. 711 23 7 9 1.173 39.643 25 3 8 1. 092 40.080 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.987 40.019 6 0.886 40.801 5 0. 764 41.098* 4 0.652 39. 811 Control Rod Density: % 0.00 3 0.573 36.691 2 0. 4 62 28 .118 k-effective:

1.00012 Bottom 0.128 7.780 Void Fraction:

0.353 Core Delta-P: psia 22.539 AXIAL TILT 11. 356 -9.073 Core Plate Delta-P: psi a 17. 970 AVG BOT 8ft/12ft 0.9531 1. 0565 Coolant Temp: Deg-F 544.9 In Channel Flow: Mlb/hr 69.96 Active Channel Flow: Mlb/hr 67. 76 Total Bypass Flow (%): 11.5 (of total core .flow) Total Water Rod Flow (%): 2.8 (of total core flow) Source Convergence

0. 00041 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT IR JR K 1.375 35 37 30 1. 698 0.860 35 37 30 6.86 0.739 47.3 33 39 38 18 9.89 0.782 30.9 34 41 38 15 1.369 35 39 28 1. 706 0.856 35 35 36 6.87 0.73947.0 33 37 40 18 9.83 0.777 30.9 34 37 42 15 1. 367 35 39 32 1.712 0.853 35 39 32 6.93 0.739 46.3 33 39 34 18 9.78 0.766 30.0 34 41 40 15 1.363 35 37 34 1. 712 0.853 35 39 28 6.90 0. 734 46.0 33 37 36 18 7.49 0.765 50.7 33 41 36 18 1.363 35 35 36 1.714 0.852 35 37 20 8.87 0.734 24.8 35 35 36 15 9.75 0. 764 30.0 34 39 42 15 1.361 35 35 32 l. 843 0.852 33 37 26 6.96 0.734 45.2 33 41 36 18 7.23 0. 763 53.5 33 13 38 18 1. 358 35 31 36 1. 844 0.851 33 37 32 6.81 0.733 47.1 33 41 32 18 9.70 0.762 30.2 34 45 22 15 1.357 35 33 34 1. 84 7 0.850 33 39 30 8.85 0.732 24.7 35 39 32 15 7.33 0.761 52.1 33 37 40 18 l. 352 35 29 38 1. 722 0.848 35 35 22 8.81 0.732 25.3 35 37 34 15 7.44 0. 760 50.7 33 35 42 18 1.347 35 33 38 1.723 0.847 34 37 12 8.70 0.732 26.7 35 37 38 15 7.32 0.759 52.0 33 41 32 18

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.65 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18, 730.0 MWd/MTU AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013{NP)

Revision 0 Page A-71 Cycle: 19 Core Average Exposure:

MWd/MTU 33286.3 Exposure:

MWd/MTU (GWd) 18788.1 (1891. 20 ) Delta E: MWd/MTU, (GWd) 58.1 ( 5.85 ) Axial Profile Edit Radial Power Power: MWt 2923.0 (100.00 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.3 Top 25 0.243 6.236 30 0.395 0.485 Inlet Subcooling:

Btu/lbm -30.68 24 0. 727 18.510 31 0.362 o. 493 Flow: Mlb/hr 80. 46 (104.50 %) 23 0.956 24.623 32 0.745 1.015 22 1.106 28.218 33 1. 072 1.142 3 5 7 9 11 13 15 17 19 21 23 25 21 1.198 30.891 34 1.182 1. 313 1 51 :JR 20 1. 251 32.787 35 1. 316 1.374 3 47 19 1.278 34.355 5 43 18 1.294 35.425 7 39 17 1. 282 35.675 9 35 16 1. 324

36.182 11 31 15 1. 320 37.258 13 27 14 1.284 37.783 15 23 13 1. 320 37.231 17 19 12 1.300 37. 972 19 15 11 1.262 38.378 21 11 10 1. 218 38.778 23 7 9 1.169 39.708 25 3 8 1. 085 40.141 IR: 2 6 10 14 18 22 26 30 34 38 42 46 so 7 0.978 40.074 6 0.875 40.849 5 0.751 41.140* 4 0.640 39.847 Control Rod Density: % 0.00 3 0.561 36.723 2 0.452 28.143 k-effective:

1. 00016 Bottom 1 0.126 7.787 Void Fraction:

0.349 Core Delta-P: psi a 23.107 % AXIAL TILT 12.023 -9.028 Core Plate Delta-P: psi a 18.538 AVG BOT 8ft/12ft 0. 94 91 1. 0562 Coolant Temp: Deg-F 544. 9 In Channel Flow: Mlb/hr 71. 26 Active Channel Flow: Mlb/hr 69.03 Total Bypass Flow (%): 11.4 (of total core flow) Total Water Rod Flow (%): 2.8 (of total core flow) Source Convergence 0.00049 Top Ten Thermal Limits .summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.374 35 37 30 1. 706 0.856 35 37 30 6.89 0.744 47.4 33 39 38 18 9.93 0. 786 31.0 34 1. 369 35 39 28 1.713 0.852 35 35 36 6.91 0.744 47.1 33 37 40 18 9.87 0. 781 31.0 34 1.367 35 39 32 1.719 o. 849 35 39 32 6. 96 0.743 46.4 33 39 34 18 9.82 0.771 30.1 34 1.363 35 37 34 1. 719 o. 849 35 39 28 7.00 0.739 45.3 33 41 36 18 7.53 0.770 50.8 33 1. 363 35 35 36 1. 722 0.848 35 37 20 6.93 0. 738 46.1 33 37 36 18 9.79 0.768 30.1 34 1. 360 35 35 32 1. 856 0.846 33 37 26 6.84 0.737 47.2 33 41 32 18 7.27 o. 768. s3. 6 33 1. 357 35 31 36 1. 857 0.845 33 37 32 8.89 0.737 24.9 35 35 36 15 9.74 0.766 30.3 34 1. 356 35 33 34 1. 727 0.845 34 37 12 6.85 0.735 46.8 33 35 38 18 7.37 0.766 52.1 33 1.351 35 29 38 1. 728 0.845 34 11 38 8.87 0.735 24.8 35 39 32 15 7.48 0.765 50.8 33 1.346 35 33 38 1. 860 0.844 33 39 30 8. 72 0.735 26.8 35 37 38 15 7.36 0.764 52.1 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: AREVA NP Inc. Figure A.66 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 18, 788.1 MWd/MTU IR JR 5 40 47 40 41 42 37 32 41 38 37 30 IR JR 41 38 37 42 41 40 41 36 39 42 13 38 45 22 37 40 35 42 41 32 K 15 15 15 18 15 18 15 18 18 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-72 Cycle: 19 Core Average Exposure:

MWd/MTU 33663.8 Exposure:

MWd/MTU (GWd) 19165.6 (1929.20 ) Delta E: MWd/MTU, (GWd) 377.5 ( 38.00 ) Axial Profile Edit Radial Power Power: MWt 2722. 7 ( 93.15 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 1044.3 Top 25 0.257 6.341 30 0.396 0.486 Inlet Subcooling:

Btu/lbm -28.43 24 0.772 18.809 31 0.362 0. 495 Flow: Mlb/hr 80. 46 (104.50 %) 23 1.014 25.017 32 0.747 1.022 22 1.168 28. 676 33 1. 069 1.138 1 3 5 7 9 11 13 15 17 19 21 23 25 21 1.256 31. 385 34 1.189 1.321 1 51 :JR 20 1. 301 33.301 35 1.312 1.370 3 47 19 1. 318 34.878 5 43 18 1. 324 35.952 7 39 17 1. 303 36.196 9 35 16 1. 339* 36.689 11 31 15 1.330 37. 762 13 27 14 1. 289 38.273 15 23 13 1.322 37.706 17 19 12 1. 297 38.438 19 15 11 1. 253 38.829 21 11 10 1.202 39.212 23 7 9 1.141 40.123 25 3 8 1. 046 40.523 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.928 40.416 6 0.817 41.153 5 0.693 41. 399* 4 0.586 40.067 Control Rod Density: % 0.00 3 0.513 36.915 2 0.414 28.299 k-effective:

1.00015 Bottom 1 0.115 7.833 Void Fraction:

0.330 Core Delta-P: psia 22.641 % AXIAL TILT 15.482 -8.717 Core Plate Delta-P: psi a 18.082 AVG BOT 8ft/12ft 0.9267 1. 054 6 Coolant Temp: Deg-F 545.1 In Channel Flow: Mlb/hr 71.47 Active Channel Flow: Mlb/hr 69.31 Total Bypass Flow (%): 11. 2 (of total core flow) Total Water Rod Flow (%): 2.7 (of total core flow) Source Convergence 0.00045 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 370 35 37 30 1. 822 0.805 35 37 30 6.59 o. 716 47.9 33 39 38 1. 367 35 39 28 1. 972 0.803 33 37 36 6.60 0. 715 47.7 33 37 40 1.365 35 39 32 1.828 0.803 34 37 12 6.63 0.713 46.9 33 39 34 1.360 35 37 34 1.828 0.803 35 35 36 6.70 0. 711 45.9 33 41 36 1. 359 35 35 36 1. 975 0.802 33 37 32 6.53 0. 708 47.8 33 41 32 1. 353 35 35 32 1. 829 0.802 34 11 38 6.60 0.707 46. 7 33 37 36 1.349 35 31 36 1. 976 0.802 33 37 26 6.63 0.705 45.9 33 35 42 1.349 35 33 34 1. 830 0.802 35 39 32 6.52 0.704 47.4 33 35 38 1.346 35 39 36 1. 978 0. 801 33 39 30 6.56 0.704 46.9 33 43 34 1. 345 35 29 38 1.832 0.800 34 45 30 6.52 0.702 47.2 33 43 30

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 18 9.39 0. 749 31.8 18 9.33 0.744 31.8 18 7.20 0.741 51.4 18 6. 94 0.739 54.2 18 7. 04 0.737 52.7 18 7.15 0. 736 51. 4 18 7.03 0.735 52.7 18 9.30 0.735 30.9 18 9.27 0.733 30.9 18 7.14 0. 732 51.1 Figure A.67 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 19, 165.6 MWd/MTU AREVA NP Inc. 34 34 33 33 33 33 33 34 34 33 IR JR 5 40 47 40 41 42 39 30 41 38 37 30 IR JR 41 38 37 42 41 36 13 38 37 40 35 42 41 32 41 40 39 42 39 34 K 15 15 18 18 18 18 18 15 15 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013{NP)

Revision 0 Page A-73 Cycle: 19 Core Average Exposure:

MWd/MTU 34098.2 Exposure:

MWd/MTU (GWd) 19600.0 (1972. 90 ) Delta E: MWd/MTU, (GWd) 434.4 ( 43. 72 ) Axial Profile Edit Radial Power Power: MWt 2492.5 ( 85.27 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psi a 1044.3 Top 25 0.274 6.469 30 0.396 0. 487 Inlet Subcooling:

Btu/lbm -25.83 24 0.827 19.177 31 0.363 0.497 Flow: Mlb/hr 80. 46 (104.50 %) 23 1. 085 25.499 32 0.750 1.030 22 1.243 29.235 33 1. 066 1.135 3 5 7 9 11 13 15 17 19 21 23 25 21 1.324 31.982 34 1.199 1.331 1 51 :JR 20 1.358 33. 917 35 1.308 1.363 3 47 19 1. 361

35. 4 98 5 43 18 1. 357 36.573 7 39 17 1.325 36. 804 9 35 16 1.354 37.279 11 31 15 1. 339 38.347 13 27 14 1.291 38.838 15 23 13 1.321 38.251 17 19 12 1.292 38. 972 19 15 11 1.241 39.344 21 11 10 1.178 39.704 23 7 9 1.104 40.586 25 3 8 0.996 40.945 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.869 40.787 6 0.754 41. 477 5 0.632 41. 672* 4 0.531 40.297 Control Rod Density: % 0.00 3 0. 464 37.117 2 0.374 28. 4 61 k-effective:

1. 00018 Bottom 1 0.104 7.882 Void Fraction:

0.308 Core Delta-P: psi a 22.132 % AXIAL TILT 19. 427 -8.321 Core Plate Delta-P: psi a 17.584 AVG BOT 8ft/12ft 0.9006 1. 0524 Coolant Temp: Deg-F 545.3 In Channel Flow: Mlb/hr 71. 70 Active Channel Flow: Mlb/hr 69.61 Total Bypass Flow (%): 10.9 (of total core flow) Total Water Rod Flow (%): 2.6 (of total core flow) Source Convergence 0.00044 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1. 363 35 39 28 1. 958 0.761 34 43 38 6.20 0.678 48.6 33 39 38 18 9.02 0.706 29.8 1. 363 35 39 32 1. 965 0.758 34 45 22 6. 21 0.678 48.4 33 37 40 18 6.78 0.704 52.1 1.363 35 37 30 2.104 0.758 33 41 36 6.31 0.675 4 6. 6 33 41 36 18 8.95 0.702 30.1 1. 355 35 37 34 1. 966 0.758 34 37 12 6.22 0.673 47.6 33 39 34 18 6. 61 0.701 53.8 1. 353 35 35 36 1. 966 0.758 34 45 30 6.14 0.670 48.5 33 41 32 18 6. 62 0.699 53.5 1.347 35 39 36 1. 969 0.757 34 11 38 6.19 0.670 47.5 33 43 34 18 6.72 0.698 52.1 1.344 35 35 32 1. 975 0.754 34 11 14 6.24 0.668 46.6 33 35 42 18 6.62 0.698 53.4 1.340 35 31 36 2.114 0.754 33 37 36 6.18 0.667 47.4 33 37 36 18 6.70 0. 694 51. 8 1. 339 35 33 34 1.977 0.754 34 37 44 6.13 0.666 47.9 33 43 30 18 6. 64 0.692 52.5 1. 337 35 33 38 1. 979 0.753 35 37 30 6.10 0.664 48.0 33 35 38 18 8.95 0.692 28.6

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.68 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 19,600.0 MWd/MTU AREVA NP Inc. 34 33 34 33 33 33 33 33 33 34 IR JR 5 40 47 40 41 42 39 30 41 38 39 28 IR JR K 41 38 18 41 36 18 37 42 18 39 38 18 37 40 18 35 42 18 41 32 18 39 34 18 43 34 18 45 22 18 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-74 Cycle: 19 Core Average Exposure:

MWd/MTU 34498.2 Exposure:

MWd/MTU (GWd) 20000.0 (2013. 20 I Delta E: MWd/MTU, (GWd) 400.0 ( 40. 26 I Axial Profile Edit Radial Power Power: MWt 2266.5 ( 77.54 %) N(PRA) Power Exposure Zone Avg. Max. Core Pressure:

psia 1044.3 Top 25 0.291 6.594 30 0.397 0. 489 Inlet Subcooling:

Btu/lbm -23.29 24 0.883 19.539 31 0.363 0.500 Flow: Mlb/hr 80. 46 (104.50 %) 23 1.157 25.974 32 0.752 1.038 22 1. 317 29.781 33 1. 063 1.131 3 5 7 9 11 13 15 17 19 21 23 25 21 1. 388 32.561 34 1. 208 1.341 1 51 :JR 20 1.409* 34.507 35 1. 304 1. 360 3 47 19 1. 399 36.087 5 43 18 1. 383 37.157 7 39 17 1. 341 37.373 9 35 16 1. 363 37.827 11 31 15 1. 342 38.888 13 27 14 1. 287 39.359 15 23 13 1. 313 38.752 17 19 12 1. 279 39. 4 61 19 15 11 1. 218 39.812 21 11 10 1.145 40.146 23 7 9 1. 061 40.998 25 3 8 0.946 41.314 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0.817 41. 107 6 0.703 41.754 5 0.587 41. 904* 4 0. 494 4 0. 4 92 Control Rod Density: % 0.00 3 0.432 37.287 2 0.349 28.599 k-effective:

1. 00022 Bottom 1 0. 098 7.923 Void Fraction:

0.287 Core Delta-P: psia 21. 666 % AXIAl TILT 22.931 -7.921 Core Plate Delta-P: psi a 17 .129 AVG BOT 8ft/12ft 0.8761 1. 0502 Coolant Temp: Deg-F 545.6 In Channel Flow: Mlb/hr 71. 92 Active Channel Flow: Mlb/hr 69.90 Total Bypass Flow (%): 10.6 (of total core flow) Total Water Rod Flow (%): 2.5 (of total core flow) Source Convergence 0.00046 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR LHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin Exp. FT 1.360 35 39 32 2 .110 0.722 34 43 38 5.82 0.636 48.5 33 39 38 19 8.44 0.666 30.7 34 1. 359 35 39 28 2.123 0.717 34 45 22 5.88 0.636 47.5 33 37 40 19 8.37 0.662 31. 0 34 1.356 35 37 30 2.129 o. 715 34 45 30 5.99 0.634 45.6 33 41 36 19 6.32 0.661 52.7 33 1. 350 35 37 34 2.132 o. 714 34 37 12 5.88 0.631 46. 8 33 43 34 19 6.19 0. 659 54.2 33 1.349 35 39 36 2.132 0. 714 34 11 38 5.80 0.628 47.7 33 41 32 19 6.33 0.656 52.0 33 1.348 35 35 36 2.132 0.714 34 37 44 5.85 0.628 4 6. 9 33 43 30 19 6.40 0. 656 50.9 33 1.341 34 41 38 2 .135 0.713 34 41 40 5.76 0.628 48.3 33 39 34 18 8.40 0.655 29.5 34 1. 339 35 41 34 2.139 0.712 35 43 22 5.93 0. 628 45.6 33 35 42 19 6.27 0.655 52.6 33 1. 335 35 37 38 2.139 0.712 34 45 20 7.42 0.622 26.3 34 41 38 18 6.34 0.654 51.5 33 1. 335 35 41 30 2.141 0. 711 34 45 36 5.72 0.622 48.0 33 37 36 18 6.29 0.652 51. 9 33

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: Figure A.69 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 20,000.0 MWd/MTU AREVA NP Inc. IR JR 5 40 47 40 41 42 39 30 41 38 39 32 IR JR 41 38 37 42 41 36 13 38 37 40 35 42 45 22 41 32 43 34 43 30 K 18 18 18 19 19 19 18 19 19 19 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page A-75 Cycle: 19 Core Average Exposure:

MWd/MTU 34912.4 Exposure:

MWd/MTU (GWd) 20414.3 (2054. 90 ) Delta E: MWd/MTU, (GWd) 414.3 ( 41. 70 ) Axial Profile Edit Radial Power Power: MWt 204 6. 4 ( 70. 01 %) N(PRA) Power Exposure Zone Avg. Core Pressure:

psi a 1044.3 Top 25 0.310 6.731 30 0.397 Inlet Subcooling:

Btu/lbm -20.81 24 0.947 19.940 31 0. 364 Flow: Mlb/hr 80. 46 (104. 50 %) 23 1.238 26. 4 99 32 0.756 22 1.399 30.380 33 1. 059 3 5 7 9 11 13 15 17 19 21 23 25 21 1. 460 33.190 34 1.218 1 51 :JR 20 1.466* 35 .142 35 1.299 3 47 19 1. 441 36. 715 5 43 18 1. 412 37.774 7 39 17 1. 359 37.970 9 35 16 1. 372 38.399 11 31 15 1. 344 39.449 13 27 14 1.283 39.896 15 23 13 1.305 39. 268 17 19 12 1. 263 39.962 19 15 11 1.192 40.287 21 11 10 1.107 40.589 23 7 9 1. 013 41.407 25 3 8 0.891 41. 676 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 7 0. 759 41.418 6 0.647 42.020 5 0.537 42.125* 4 0.451 40.678 Control Rod Density: % 0.00 3 0.394 37.450 2 0.319 28.730 k-effective:

1. 00025 Bottom 1 0.089 7. 962 Void Fraction:

0.265 Core Delta-P: psi a 21.225 % AXIAL TILT 26.881 -7.472 Core Plate Delta-P: psia 16.699 AVG BOT 8ft/12ft 0.8486 1. 04 77 Coolant Temp: Deg-F 545.9 In Channel Flow: Mlb/hr 72.13 Active Channel Flow: Mlb/hr 70.18 Total Bypass Flow (%): 10.4 (of total core flow) Total Water Rod Flow (%): 2.4 (of total core flow) Source Convergence 0.00049 Top Ten Thermal Limits Summary -Sorted by Margin Power MCPR APLHGR Value FT IR JR Value Margin FT IR JR Value Margin Exp. FT IR JR K Value Margin 1. 357 35 39 32 2.286 0.680 34 43 38 5. 43 0.598 49.2 33 39 38 1. 355 35 39 28 2.289 0.679 34 45 30 5.48 0.597 48.2 33 37 40 1.351 34 41 38 2.291 0.679 34 11 38 5.59 0.597 46.3 33 41 36 1.349 35 39 36 2.292 0. 679 34 11 14 5.51 0.596 47.5 33 43 34 1.348 35 37 30 2.292 0. 678 34 37 12 5. 4 6 0.591 47.6 33 43 30 1.345 35 37 34 2.292 0.678 34 45 22 5.53 0.590 46.3 33 35 42 1. 342 35 39 40 2.293 0.678 35 43 22 5.40 0.589 48.3 33 41 32 1. 342 35 41 34 2.300 0. 676 34 13 12 7 .11 0.588 24.6 34 41 38 1.342 35 35 36 2.305 0.675 35 43 36 7.07 0.585 24.9 34 37 42 1.342 34 37 42 2.305 0.675 34 37 44 5.37 0.585 48.2 33 33 44

LHGR calculated with pin-power reconstruction

CPR calculated with pin-power reconstruction

& CPR limit type 3

Thermal limit file: 19 8.10 0.632 19 8.05 0. 628 19 8.16 0.624 19 8.09 0.624 19 6.03 0.623 19 5.78 0.621 19 8.12 0. 619 20 5.91 0.619 20 5.99 0. 619 19 5. 94 0.618 Max. 0. 491 0.502 1.047 1.127 1.351 1.357 LHGR Exp. FT 29.5"34 29.5 34 27. 4 34 28.3 34 51. 7 33 54.9 33 27.1 34 52.7 33 51. 7 33 52.3 33 Figure A.70 Brunswick Unit 1 Cycle 19 Control Rod Pattern and Axial Distributions at 20,414.3 MWd/MTU AREVA NP Inc. IR JR 5 40 47 40 41 42 39 30 41 38 39 32 IR JR K 11 38 20 37 12 20 45 22 20 45 30 20 41 36 19 13 38 19 45 20 20 37 40 19 35 42 19 43 34 19 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page B-1 Appendix B AREVA NP Inc. Elevation Views of the Brunswick Unit 1Cycle19 Fresh Reload Batch Fuel Assemblies Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain [ ANP-3013(NP)

Revision 0 Page B-2 ] Figure B.1 Elevation View for the Brunswick Unit 1 Cycle 19 Fresh Fuel Reload Batch BRK1-19 ATRIUM 10XM [ ] Fuel Assembly Design (Fabrication Batch BRK1-19) AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain [ ANP-3013(NP)

Revision 0 Page 8-3 ] Figure B.2 Elevation View for the Brunswick Unit 1 Cycle 19 Fresh Fuel Reload Batch BRK1-19 ATRIUM 10XM [ ] Fuel Assembly Design (Fabrication Batch BRK1-19) AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain Appendix C Brunswick Unit 1Cycle19 Fresh Fuel Locations AREVA NP Inc. ANP-3013(NP)

Revision 0 Page C-1 Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

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

Assembly Type: ATRIUM 10XM BRK1-19 Bundle

Description:

[ l Number Loaded: 96 Fuel Core Fuel Core Fuel Core Fuel Core ID Coard. ID Coard. ID Coard. ID Coard. Al9601 5-28 Al9625 7-32 Al9649 7-36 A19673 11-38 A19602 25-48 A19626 21-46 A19650 17-46 A19674 15-42 A19603 27-48 A19627 31-46 A19651 35-46 A19675 37-42 A19604 47-28 Al9628 45-32 A19652 45-36 A19676 41-38 A19605 47-26 A19629 45-22 A19653 45-18 A19677 41-16 A19606 27-6 A19630 31-8 A19654 35-8 A19678 37-12 A19607 25-6 A19631 21-8 A19655 17-8 A19679 15-12 A19608 5-26 A19632 7-22 A19656 7-18 A19680 11-16 A19609 5-30 A19633 5-34 A19657 7-38 A19681 11-40 A19610 23-48 A19634 19-48 A19658 15-46 A19682 13-42 A19611 29-48 A19635 33-48 Al9659 37-46 A19683 39-42 A19612 47-30 A19636 47-34 A19660 45-38 A19684 41-40 A19613 47-24 Al9637 47-20 A19661 45-16 A19685 41-14 A19614 29-6 A19638 33-6 A19662 37-8 A19686 39-12 A19615 23-6 A19639 19-6 A19663 15-8 A19687 13-12 A19616 5-24 Al9640 5-20 A19664 7-16 A19688 11-14 A19617 7-30 A19641 7-34 Al9665 9-38 A19689 9-42 A19618 23-46 A19642 19-46 A19666 15-44 A19690 11-44 A19619 29-46 A19643 33-46 Al9667 37-44 A19691 41-44 Al9620 45-30 A19644 45-34 A19668 43-38 A19692 43-42 A19621 45-24 A19645 45-20 A19669 43-16 A19693 43-12 A19622 29-8 A19646 33-8 A19670 37-10 A19694 41-10 A19623 23-8 A19647 19-8 A19671 15-10 A19695 11-10 A19624 7-24 A19648 7-20 Al9672 9-16 Al9696 9-12 AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page C-3 Table C.1 Brunswick Unit 1Cycle19 Reload Fuel Identification and Locations (Core Coordinates) (Continued)

Assembly Type: ATRIUM 10XM BRK1-19 Bundle

Description:

[ 1 Number Loaded: 138 Fuel Core Fuel Core Fuel Core Fuel Core ID Coord. ID Coord. ID Coord. ID Coord. Al9697 25-26 Al9732 39-28 Al9767 13-32 Al9801 41-20 Al9698 27-28 Al9733 39-26 Al9768 39-32 Al9802 11-20 Al9699 21-28 Al9734 13-26 Al9769 39-22 Al9803 13-36 Al9700 31-28 Al9735 15-30 Al9770 13-22 Al9804 39-36 Al9701 31-26 Al9736 37-30 Al9771 15-34 Al9805 39-18 Al9702 21-26 Al9737 37-24 Al9772 37-34 Al9806 13-18 Al9703 23-30 Al9738 15-24 Al9773 37-20 Al9807 15-38 Al9704 29-30 Al9739 17-32 Al9774 15-20 Al9808 37-38 Al9705 29-24 Al9740 35-32 Al9775 17-36 Al9809 37-16 Al9706 23-24 Al9741 35-22 Al9776 35-36 Al9810 15-16 Al9707 25-32 Al9742 17-22 Al9777 35-18 Al9811 17-40 Al9708 27-32 Al9743 19-34 Al9778 17-18 Al9812 35-40 Al9709 27-22 Al9744 33-34 Al9779 19-38 Al9813 35-14 Al9710 25-22 Al9745 33-20 Al9780 33-38 Al9814 17-14 Al9711 17-28 Al9746 19-20 Al9781 33-16 Al9815 19-42 Al9712 35-28 Al9747 21-36 Al9782 19-16 Al9816 33-42 Al9713 35-26 Al9748 31-36 Al9783 21-40 Al9817 33-12 Al9714 17-26 Al9749 31-18 Al9784 31-40 Al9818 19-12 Al9715 19-30 Al9750 21-18 Al9785 31-14 Al9819 21-44 Al9716 33-30 Al9751 23-38 Al9786 21-14 Al9820 31-44 Al9717 33-24 Al9752 29-38 Al9787 23-42 Al9821 31-10 Al9718 19-24 Al9753 29-16 Al9788 29-42 Al9822 21-10 Al9719 21-32 Al9754 23-16 Al9789 29-12 Al9823 9-36 Al9720 31-32 Al9755 25-40 Al9790 23-12 Al9824 43-36 Al9721 31-22 Al9756 27-40 Al9791 25-44 Al9825 43-18 Al9722 21-22 Al9757 27-14 Al9792 27-44 Al9826 9-18 Al9723 23-34 Al9758 25-14 Al9793 27-10 Al9827 13-40 Al9724 29-34 Al9759 9-28 Al9794 25-10 Al9828 39-40 Al9725 29-20 Al9760 43-28 Al9795 9-32 Al9829 39-14 Al 9,72 6 23-20 Al9761 43-26 Al9796 43-32 Al9830 13-14 Al9'727 25-36 Al9762 9-26 Al9797 43-22 Al9831 17-44 Al9728 27-36 Al9763 11-30 Al9798 9-22 Al9832 35-44 Al9729 27-18 Al9764 41-30 Al9799 11-34 Al9833 35-10 Al9730 25-18 Al9765 41-24 Al9800 41-34 Al9834 17-10 Al9731 13-28 Al9766 11-24 AREVA NP Inc.

Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain ANP-3013(NP)

Revision 0 Page D-1 Appendix D Brunswick Unit 1Cycle19 Radial Exposure and Power Distributions AREVA NP Inc.

)> s: CJ :;a m2 m l::J r en *:E z )> -* "U 5" Oc p "'C ::J CD ;::;: .., Ill _. -5* ("') cc '(ii o-1 3 5 7 9 11 13 15 17 19 21 23 25 0 CD 3 _. 52 33.631 33.304 31. 085 32.345 33.044 Ill CD -* 'Tl 50 33.876 22.363 20.601 19.947 19. 4 93 19.748 ::Jc 48 36.773 33.866 32.310 22.989 21.050 0.000 23.680 0.000 0.000 46 36.260 32.887 21.309 21.245 0.000 0.000 0.000 0.000 0.000 21. 775 ("') 44 38.837 30.880 17.895 0.000 23.776 0.000 0.000 22.996 0.000 23.193 0.000 '< (') 42 34.212 21. 011 0.000 18. 14 6 0.000 0.000 22.650 0.000 23.291 0.000 23.394 co 40 32.477 20.666 23.262 0.000 0.000 22.398 0.000 22.237 0.000 23. 4 08 0.000 0 38 34.893 22.887 0.000 0.000 0.000 22.331 0.000 22.482 0.000 23.109 0.000 22.856 CD 36 33.781 22.096 20.658 0.000 0.000 22.095 0.000 22.020 0.000 22.937 0.000 23 .119 0.000 en ca* 34 30.221 19.669 0.000 0.000 22.151 0.000 22.993 0.000 23.133 0.000 22.622 0.000 22.570 ::J 32 32.605 20.305 23.517 0.000 0.000 22. 4 62 0.000 22.029 0.000 23.234 0.000 22. 606 0.000 30 31.727 19.414 0.000 0.000 22.459 0.000 21. 716 0.000 22.624 0.000 22.570 0.000 23.569 28 32.758 19.540 0.000 21. 438 0.000 22.610 0.000 22.164 0.000 23.065 0.000 23.733 23. 450 26 32.099 19. 712 0.000 21. 511 0.000 22.556 0.000 22.034 0.000 22.835 0.000 23.181 0.000 24 31. 554 19.409 0.000 0.000 22. 4 72 0.000 21.695 0.000 22.580 0.000 22.515 0.000 23.532 22 32. 4 65 20. 405 23.523 0.000 0.000 22.428 0.000 21.952 0.000 23.244 0.000 22.348 0.000 20 32. 716 19.845 0.000 0.000 22.065 0.000 23.448 0.000 22.370 0.000 22.574 0.000 22.561 18 33.427 22.152 20.709 0.000 0.000 22.148 0.000 22.042 0.000 23.127 0.000 22.993 0.000 16 34.638 22.862 0.000 0.000 0.000 22.392 0.000 22.426 0.000 23.271 0.000 22.884 14 32.314 20. 677 23. 4 63 0.000 0.000 22.223 0.000 22. 686 0.000 23.778 0.000 12 33.008 21.169 0.000 17.898 0.000 0.000 22.948 0.000 23.242 0.000 23.420 10 39. 813 32.370 17.979 0.000 23.739 0.000 0.000 23.060 0.000 23.143 0.000 8 39.076 30.873 21.195 21.376 0.000 0.000 0.000 0.000 0.000 21.701 6 38.879 33. 762 34.476 22.920 21.157 0.000 23.687 0.000 0.000 4 36.828 22.275 20.610 19.772 19. 397 19.662 2 33.566 32.655 32. 712 32.104 30.785 Figure D.1 Brunswick Unit 1 Cycle 19 BOC Exposure Distribution (0.0 GWd/MTU)

)> ::a m z "'U 5" p 27 29 31 52 31.902 31. 400 32.501 50 20.026 19.769 20 .177 48 0.000 0.000 24. 04 4 46 22.010 0.000 0.000 44 0.000 22.959 0.000 42 23.559 0.000 23.399 40 0.000 23. 472 0.000 38 23.025 0.000 23.630 36 0.000 23.184 0.000 34 22.720 0.000 22.852 32 0.000 22.854 0.000 30 23.704 0.000 23.232 28 0.000 23. 4 61 0.000 26 23.889 23.512 0.000 24 23.742 0.000 22.936 22 0.000 22.700 0.000 20 22.779 0.000 23. 011 18 0.000 23.149 0.000 16 23.222 0.000 23.190 14 0.000 23.545 0.000 12 23.649 0.000 23.660 10 0.000 23.323 0.000 8 22.037 0.000 0.000 6 0.000 0.000 24.120 4 19.983 19.728 20.179 2 32.531 31. 726 30.683 Figure D.1 33 35 37 39 41 43 45 47 49 51 32.297 32.962 20.834 22.652 34.709 0.000 21. 242 23.341 32.424 31. 678 38.995 0.000 0.000 0.000 21.323 21.583 31. 740 38.628 23.265 0.000 0.000 23.771 0.000 18.216 31. 056 39.224 0.000 22. 765 0.000 0.000 18.308 0.000 21. 458 34.644 23.143 0.000 22.664 0.000 0.000 24.000 21. 14 9 32.646 0.000 22. 711 0.000 22.564 0.000 0.000 0.000 23.272 35.322 22. 863 0.000 22. 4 62 0.000 22.613 0.000 0.000 21.172 22.503 33.165 0.000 23.788 0.000 23.655 0.000 22.555 0.000 0.000 20.809 32.516 23. 414 0.000 22. 419 0.000 22.894 0.000 0.000 23.931 20.070 31. 618 0.000 22.979 0.000 22.178 0.000 22.936 0.000 0.000 19.746 29.636 23.221 0.000 22.508 0.000 23.070 0.000 21.887 0.000 20.016 32.263 23.330 0.000 22.585 0.000 23.045 0.000 21. 728 0.000 19.842 32.052 0.000 23.000 0.000 22.181 0.000 22.921 0.000 0.000 19. 676 29.789 23.626 0.000 22. 4 4 6 0.000 22.788 0.000 0.000 23.946 19.917 31. 574 0.000 22.987 0.000 23.847 0.000 22.593 0.000 0.000 20.636 32.474 23.505 0.000 22.320 0.000 22. 511 0.000 0.000 21. 050 22.366 34.378 0.000 22.775 0.000 22.763 0.000 0.000 0.000 23.201 35.554 23.240 0.000 22.604 0.000 0.000 24.012 21.103 33.132 0.000 22.837 0.000 0.000 18.285 0.000 21.314 33.639 23.424 0.000 0.000 23.286 0.000 18. 093 31.487 38.761 0.000 0.000 0.000 21.378 21.585 30.694 3?.805 0.000 21.233 23.312 32.241 33.372 39.185 20.803 22.661 34.521 32.612 32.323 Brunswick Unit 1 Cycle 19 BOC Exposure Distribution (0.0 GWd/MTU) (Continued) s:: OJ m2 r :J r en *::!: )> -* Oc "C :J CD ;:::;: ..., Ill _. --* (') :J '< cc () o-0 CD 3 _. Ill co -*"Tl :J c: "U Ill cc CD 0 w (') '< () ro 0 CD en cC" :J

)> ;:o m z "U 5" p 52 50 48 46 44 42 40 38 36 40.798 34 38.456 32 41. 184 30 40.799 28 41.879 26 41.375 24 40. 671 22 41. 028 20 4 0. 761 18 4 0. 4 43 16 14 12 10 8 6 4 2 3 5 7 9 11 13 15 17 19 21 23 25 40.569 41. 201 39.810 41. 337 42.147 42.627 35.057 35.079 35.404 35.376 35.836 42.844 41. 939 43.003 37. 762 38.293 19.905 42.231 20.974 21. 071 43.030 43.051 35.602 37.904 19.962 21. 637 22.600 23.020 23.264 42.740 44. 811 41.133 33.696 19.353 42. 976 22.735 23.171 44.321 23.721 44.547 23.352 42.095 35.408 19. 424 38.820 23. 4 95 24.302 44. 4 02 24.090 44.829 23.831 44.542 43.165 37.506 42.624 23.544 24.204 44.606 24.165 43.952 23.178 44. 193 23.183 43.926 37.822 20.127 22.856 24.344 44.568 24.540 44.233 23.673 43.900 22.894 43.866 34.985 38.138 21. 843 23.334 43.974 23.816 43.572 23.157 43.752 22.849 43.855 23.354 34. 4 02 20.129 22.849 43.816 24.212 44.321 23.345 43.935 22.962 43.594 23.249 44.122 35.842 42.266 23.308 24.128 44.417 23.186 43.018 23 .196 44.370 24.185 44. 644 24.500 35.415 21. 206 23.574 44.288 24.190 42.845 22.924 43.758 23.647 44.681 24.575 45.612 35.808 21.327 42.727 23.670 44.068 22.918 43.077 23. 4 95 44. 641 24.518 45.717 44.915 35.971 21. 328 42.775 23.672 44.023 22.928 42.971 23.523 44.480 24.560 45.280 23.836 35. 429 21.207 23.576 44.314 24.204 42.850 22.974 43.814 23. 772 4 4. 728 24.697 45.600 35.924 42.278 23.314 24.140 44.408 23. 217 43.005 23.333 44.528 24.286 44.540 24.564 34.541 20.126 22.858 43.771 24.225 44.719 23. 4 07 43. 34 9 23.051 43.628 23.315 44.154 35.024 38.184

21. 855 23.349 44.046 23.846 43.638 23.215 43.986 22.890 43.805 23.389 43.708 37.807 20.146 22.875 24.368 44.607 24.567 44.205 23.684 44.031 22.888 43.904 43.047 37.532 42.802 23.563 24.224 44.514 24.155 44.265 23.159 44.491 23.188 41. 134 35.549 19.431 38.604 23.506 24.299 44.687 24.095 44.798 23.844 44.573 45. 716 42.554 33.754 19.355 42.937 22. 727 23 .171 44.405 23.745 44.553 23.379 45. 713 41. 090 35. 4 91 37.985 19.934 21. 631 22.612 23.048 23.301

42. 714 44.819 41. 782 44.900 37.637 38.378 19.912 42.261 21.014 21.119 45.478 34.958 35.087 35.255 35. 328* 35.822 40.494 40.605 41. 355 41.111 40.056 Figure D.2 Brunswick Unit 1Cycle19 EOC Exposure Distribution (19.2 GWd/MTU) s:: OJ m2 r::J rcn r;:E )> -* Oc "'C ::J CD ;:::;: ..., Dl ...>. -cc (") o-0 CD 3 ...>. Dl co -*.,, ::J c: "U Dl cc CD 0 i.. () '< (") ro 0 CD en cE" ::J

)> ;:a m z "1J 5" r 27 29 31 33 35 37 39 41 43 45 47 49 51 52 41. 034 40.437 41. 065 40.243 39. 94 0 50 36.080 35.570 35.531 35.224 35.273 43. 611 48 21. 051 20.914 42.476 19.811 38.389 38.000 43.053 39.859 44.911 46 42.927 23.209 22.936 22. 4 90 21.514 19.837 37.877 35.776 41. 829 45.229 44 23.330 44. 34 7 23.630 44.444 23.017 22.569 42.830 19.187 33.820 41.159 45.095 42 44.661 23.757 44.821 23.928 44.335 24.091 23.282 38.746 19.198 35.633 42.610 40 23.149 44.151 23.009 44.509 23.935 44.673 23.953 23.278 43.020 37.701 43.255 38 43.982 22.773 44.197 23. 4 64 44.226 24.273 44.526 24.037 22.541 19.819 37.910 44 .112 36 23.322 43.835 22.704 43.529 22.914 43.706 23. 499 44.119 22.987 21.506 38.312 35.112 40.054 34 44.225 23.161 43.676 22.771 44.254 23.053 44.601 23.845 43. 864 22. 4 99 19.809 35.192 4 0. 4 25 32 24.477 44.792 24.038 44.420 23.003 43.101 22.844 4 4. 4 62 23.757 22.954 42.359 35. 4 29 4 0. 172 30 45.683 24.523 45.081 23. 492 43.887 22.621 42.949 23.813 44.360 23.215 20.900 35.519 38. 8 63 28 23.781 45.390 24.345 44.574 23.212 43.098 22.564 44.128 23.291 42.790 21. 021 36.039 41. 356 26 45. 262 45.447 24.327 44.650 23.195 43.151 22.559 44.102 23.292 42.654 21. 025 35.885 41.165 24 45.741 24.473 44.845 23. 405 43.833 22.595 42.938 23. 811 44.352 23.221 20.907 35. 4 63 39.007 22 24.494 44.679 24.018 44.537 22.922 43.109 22.837 44.370 23.762 22.960 42.380 35.288 40.127 20 44.293 23 .172 43.812 22.756 43.590 23.050 44.732 23.852 43.901 22.508 19.817 35.030 40.388 18 23.347 43.850 22.707 44.081 22.915 43.586 23.510 44.040 23.000 21. 516 38.212 34.983 41. 234 16 44.144 22.813 43.851 23. 4 64 44.271 24.270 44.652 24.052 22.557 19.832 37.850 44.320 14 23 .160 44.247 23.041 44.603 23.936 44.620 23.963 23.293 43.051 37.682 43.657 12 44.743 23.756 45.044 23.927 44.406 24.108 23.303 38.753 19.222 35.540 41. 675 10 23.347 44. 609 23.625 4 4. 597 23.037 22.598 42.430 19.211 33.732 41.575 44.683 8 42.974 23.225 22.950 22.512 21. 546 19.872 37.950 35.793 40.868 45.423 6 21. 095 20.955 42.583 19.857 38.428 38.009 42.906 41.449 45.092 4 36.090 35. 592 35.608 35.265 35. 34 6 43.486 2 41. 724 40.800 39.473 40.602 39.390 Figure D.2 Brunswick Unit 1 Cycle 19 EOC Exposure Distribution (19.2 GWd/MTU) (Continued) s:: OJ m2 r::::i rcn r:i: )> -* Oc "'C :::J Cl> iil _. -5* (') (0 'C'S o-0 Cl> 3 _. Ill <O -* "Tl :::Jc ""Cl Ill (0 Cl> 0 I 01 (') '< C) co 0 CD en <O" :::J

)> ;:a m :;; z "U 3" 3 5 7 9 52 50 48 0.370 46 0.410 0.589 44 0.367 o. 598 0.884 42 0.468 0.814 1. 022 40 0.621 0.927 1. 043 38 0.534 0.824 1. 010 1.119 36 0. 426 0.732 0. 944 1. 067 1. 065 34 0. 488 0.826 1. 029 1.117 1. 087 32 0.510 0.874 1. 014 1.147 1.184 30 0.537 0.890 1. 078 1.165 1.154 28 0.538 0.898 1. 081 1.109 1. 031 26 0.545 0.896 1. 080 1.108 1.031 24 0.539 0.889 1.077 1.164 1.155 22 0.508 0. 872 1. 013 1.147 1.183 20 0. 476 0.823 1. 028 1.116 1. 086 18 0. 425 0.730 0. 943 1. 066 1.063 16 0.536 0.824 1. 010 1.118 14 0.623 0.927 1.043 12 0.481 0.812 1.021 10 0.363 o. 590 0.882 8 0.402 0.594 6 0.363 4 2 Figure D.3 11 13 15 17 19 21 23 25 0.416 0.464 0.514 0.527 0.529 0.514 0. 715 0.806 0.861 0.877 0.881 0.475 0.616 0.810 0.924 1. 010 0.996 1. 058 1. 059 0.806 0.913 0.996 1. 048 1. 095 1.123 1.138

1. 081 1. 018 1. 034 1.106 1. 046 1. 055 1.155 1.119 1. 003 1.104 1.170 1.191 1. 084 1.126 1.161 1.191 1. 015 1.175 1.193 1.180 1.211 1.192 1. 235 1.196 1. 219 1. 201 1.195 1.216 1.157 1.191 1.198

1. 257 1. 222 1.105 1. 222 1.167 0.927 0.919 1. 207 1. 216 1.174 1.149 1.193 1.203 0.923 0.940 1.188 1.257 1.159 1. 201 1. 262 1. 230 1.220 1.186 1. 258 1. 240 1. 258 1. 225 1.249 1. 284 1.238 1.267 1. 246 1. 266 1.194 1. 053 1. 254 1. 259 1.196 1.165 1. 266 1.196 0.930 1. 054 1. 254 1. 260 1.196 1.168 1. 265 1.193 0.937 1. 225 1. 24 9 1. 284 1.237 1.266 1. 244 1. 259 1.186 1. 201 1. 262 1.231 1.219 1.181 1. 255 1. 244 1. 258 1.147 1.193 1.203 0.929 0.939 1.186 1.254 1.161 1.103 1.221 1.165 0.926 0.917 1.201 1. 208 1.174 1. 200 1.183 1. 213 1.154 1.184 1.185 1. 251 1. 221 1.174 1.191 1.185

1. 205 1.172 1.229 1.190 1. 217 1.104 1.168 1.188 1. 081 1.123 1.159 1.190 1. 016 1. 017 1. 032 1.103 1. 045 1. 055 1.155 1.125 1.005 0.805 0.908 0. 993 1. 04 6 1. 094 1.123 1.140 1. 083 0. 471 0. 599 0.805 0. 921 1. 009 0.995 1.059 1. 061 0.508 0. 713 0.805 0.861 0.877 0.884 0. 415 0. 467 0.506 0.528 0.541 Brunswick Unit 1Cycle19 Radial Power Distribution at 0.0 MWd/MTU s: Ill m2 r:::i r en r::;: )> -* Oc "'O ::J CD ;:::;: .., Ol ....>. -s* (") 0 CD 3 ....>. Ol <D -* "Tl ::J c: (") '< (") co 0 CD en ca* ::J -a Ol cc CD -a ::a c'..:i CD o < ....>. iii"(,) 0 I CJ) O" z ::J -a

)> ;:a m < )> z -u 5" p 27 29 31 33 35 52 0.533 0.530 0.504 0. 4 67 0. 419 50 0.880 0.873 0.856 0.803 0. 712 48 1.059 1. 056 0.990 1. 006 0.920 46 1.079 1.137 1.120 1. 090 1. 043 44 1.003 1.124 1.151 1. 048 1. 040 42 1. 013 1.187 1.154 1.117 1. 074 40 1.216 1.189

1. 224 1.165 1.198 38 1.218 1.247 1.174 1.176 1.142 36 1.172 1.207 1.194 0.910 0.915 34 1.155 1. 247 1.174 0.928 0.905 32 1. 253 1. 228 1.242 1.167 1.201 30 1.180 1. 248 1. 216 1. 249 1.217 28 0.934 1.181 1.251 1.149 1.177 26 0.926 1.191 1.253 1.149 1.178 24 1.191 1. 258 1.231 1. 251 1. 217 22 1.257 1. 237 1. 24 6 1.165 1.202 20 1.158 1. 251 1.176 0.930 0.913 18 1.173 1. 211 1.198 0.907 0.915 16 1.216 1. 250 1.188 1.178 1.142 14 1. 216 1.190 1. 226 1.164 1.197 12 1.013 1.186 1.150 1.116 1.073 10 1.003 1.114 1.149 1. 046 1.040 8 1. 080 1.136 1.119 1. 090 1. 043 1. 060 1. 057 0.990 1. 008 0.922 0.882 0.877 o. 861 0.807 0. 716 2 0.535 0.533 0.518 0. 4 70 0.425 Figure D.3 37 39 41 43 45 47 49 51 0.523 0.805 0.614 0. 484 0. 364 0.991 0.909 0.804 0.590 0.401 1. 099 1. 028 1. 013 0.879 0.592 0. 363 1.182 1.162 1. 095 1. 015 0.805 0. 472 1.174 1.182 1.165

1. 030 0.914 0.616 1.202 1.180 1.187 1.105 0.997 0.809 0.520 1.149 1. 205 1. 084 1.048 1. 051 0.927 0.717 0. 418 1.185 1.171 1.129 1. 067 1.101 1. 014 0.810 0. 4 69 1. 208 1. 241 1.178 1.165 1.131 0.998 0. 865 0.509 1. 263 1. 224 1. 204 1.133 1.14 7 1. 064 0.880 0. 54 6 1. 236 1.233 1. 031 1. 014 1. 090 1. 067 0.888 0.538

1. 235 1.233 1. 031 1. 014 1. 092 1. 067 0.888 0.539 1. 263 1.225 1. 204 1.133 1.147 1.064 0.880 0.544 1.208 1. 242 1.179 1.165 1.130 0. 998 0. 864 0.508 1.186 1.173 1.130 1. 065 1.100 1. 014 0.809 0.469 1.150 1.205 1. 084 1. 048 1. 050 0.927 0.716 0. 415 1.200 1.167 1.186 1.104 0.996 0.808 0.517 1.172 1.179 1.162 1. 029 0. 914 0.609 1.180 1.159 1. 094 1. 013 0.806 0. 475 1.098 1. 026 1. 012 0.878 0.589 0.364 0.991 0.908 0.803 0.594 0. 402 0.806 0.615 0.476 o. 363 0.527 Brunswick Unit 1Cycle19 Radial Power Distribution at 0.0 MWd/MTU (Continued) s;: OJ m2 l:::J I UI *::E )> -* Oc "'O :::J CD ;:::;: ..., ru ...... S-o 0 CD 3 ...... !ll co -* "Tl :::J c: () '< () co 0 CD UI c5" :::J )> z "1J "1J !ll (0 :::0 w CD O CD 0 I -...J < ...... (ii" w a*-z :::J "1J o .......

)> s:: OJ ;;o rn 2 m r ::i r en r :E z :t> -* -u 5" Oc "O :J CD ;::+ ..., Ill -" -3 5 7 9 11 13 15 17 19 21 23 25 5* () 0 CD 3 -" 52 0.299 0.351 0.388

0. 400 0. 407 <O 50 0.387 0.591

0. 686 0.727 0.755 0. 770 Q1 . .,, :J c 48 0.258 0.360 0. 486 0.709 0. 846 1. 073 0.908 1.125 1.129 46 0. 291 0. 465 0. 670 0.800 1. 090 1.190 1.233

1. 249 1. 249 1. 031 () 44 0.251 0. 4 68 0.745 1. 018 0.933 1. 235 1.276 1. 071 1. 293 1. 067 1. 281 '< 42 0.347 0.674 1. 021 1. 009 1. 254 1. 298 1.090 1. 306 1.087 1. 307 1.077 (") 40 0. 485 0.806 0. 94 6 1. 256 1. 299 1. 099 1.322 1.108 1.338 1.104 1.332 co 38 0.399 0. 713 1. 094 1. 239 1.302 1. 098 1. 322 1.114 1. 339 1.117 1. 348 1.107 0 36 0.301 0.598 0.852 1.194 1. 281 1. 099 1.333 1.125 1.353 1.122 1.350 1.110 1. 328 CD en 34 0.363 0.692 1. 076 1. 236 1.083 1. 315 1.114 1.350 1.121 1. 347 1.108 1. 319 1. 079 <C" 32 0.376 o. 726 0.909 1. 252 1.298 1. 097 1.351 1.134

1. 348 1. 099 1. 293 1. 052 1. 252 :J 30 0. 400 0.754 1.125 1. 251 1.077 1. 317 1.132 1. 359 1.112 1. 312 1.050 1. 227 0.990 28 0. 402 0.771 1.129 1. 037 1. 288 1.096 1.352 1.128 1.330 1. 071 1. 248 0.986 0.970 26 0.410 0.770 1.129 1. 037 1.288 1.096 1.351 1.128 1.329 1. 073 1. 249 0. 997 1.185 24 0.402 0.754 1.124 1. 250 1. 077 1. 315 1.130 1. 357 1.109 1.309 1. 052 1. 235 0.995 22 0.375 0.724 0.908 1. 250 1.296 1. 095 1. 348 1.132 1. 344 1. 099 1. 292 1. 056 1. 251 20 0.355 0.690 1. 073 1. 233 1.080 1. 311 1.104 1. 345 1.123 1. 342 1.105 1. 315 1.077 18 0.300 0. 596 0.850 1.191 1.277 1.096 1. 328 1.120 1.347 1.115 1.343 1.109 1. 322 16 0.399 0. 712 1. 090 1.235 1. 298 1. 097 1.316 1.109

1. 331 1.109 1. 340 1.102 14 0.484 0.802 0.935 1.251 1. 293 1. 093 1. 314 1. 099 1.329 1. 095 1.323 12 0.358 0. 671 1.016 1. 008 1. 248 1. 291 1. 080 1.298 1. 080 1. 298 1.071 10 0. 24 6 0. 463 0.741 1. 013 0.929 1. 228 1. 269 1. 064 1.285 1. 060 1. 274 8 0.284 0. 464 0. 667 0. 793 1.083 1.183 1.226 1.242 1.241 1. 026 6 0.249 0.355 0. 470 0.704 0.840 1. 067 0.902 1.119 1.124 4 0.379 0.588 0.682 o. 724 0.751 0.767 2 0.295 0.350 0.381 0. 397 0. 411 Figure D.4 Brunswick Unit 1Cycle19 Radial Power Distribution at 18,788.1 MWd/MTU (EOFP)

)> ::0 m z -u 3" p 27 29 31 52 0. 408 0.403 0.383 50 0.769 0.753

0. 725 48 1.129 1.125 0.906 46 1.030 1. 250 1. 252 44 1.282 1. 069 1. 297 42 1. 077 1. 309 1. 089 40 1.333 1.106 1. 343 38 1.107 1. 351 1.122 36 1.329 1.113

1. 357 34 1. 080 1.324 1.112 32 1.256 1. 057 1. 303 30 0.997 1. 242 1.055 28 1.187 0.999 1.258 26 0. 968 0.992 1. 255 24 0.988 1.230 1. 052 22 1. 250 1. 053 1. 298 20 1. 076 1. 318 1.107 18 1.323 1.107

1. 351 16 1.101 1. 344 1.115 14 1.325 1.100 1. 336 12 1.070 1. 302 1. 081 10 1.275 1. 062 1. 290 8 1.025 1. 244 1. 247 6 1.124 1.121 0.902 0. 765 0.750 0.723 2 0. 408 0. 402 0.389 33 35 37 39 41 43 45 47 49 51 0.355 0.303 0.686 0.593 0. 400 1. 076 0.848 0. 711 0. 489 0. 369 0.253 1.237 1.195 1. 095 0.805 0.674 0. 468 0.290 1. 073 1. 283 1. 242 0.939 1. 024 0.748 0. 469 0.252 1. 312 1.095 1. 307 1. 262 1. 015 1.026 0. 675 0.361 1.105 1.330 1.104 1.309 1. 265 0.941 0.807 0. 493 1. 346 1.120 1. 334 1.107 1.313 1.249 1.101 0.716 o. 400 1.131 1.363 1.132 1. 346 1.105 1.293 1. 204 0.855 0.599

0. 304 1. 356 1.124 1. 363 1.122 1.329 1. 092 1. 249 1.085 0.693 0.359 1.105 1.360 1.142 1. 367 1.107 1. 314 1. 267 0.917 0. 734 0.386 1. 322 1.120 1.374 1.141

1. 334 1. 088 1. 267 1.139 0. 763 0. 418 1. 080 1. 343 1.138 1. 369 1.106 1.306 1.048 1.143 0.779 0. 413 1. 079 1. 343 1.137 1. 369 1.107 1.306 1. 049 1.143 0.780 0.414 1. 321 1.120 1.374 1.141 1.334 1.087 1. 267 1.139 o. 763 0.418 1.106 1.359 1.141

1. 366 1.106 1.313 1. 266 0.917 0.735 0.386 1.353 1.130 1.361 1. 115 1.328 1. 090 1. 248 1. 085 0. 694 0.359 1.120 1.360 1.130 1. 344 1.105 1.292 1. 203 0.856 0. 599 0.302 1. 341 1.116 1. 330 1.105 1.312 1. 248 1.100 0.715 0.398 1. 099 1.325 1.101 1.307 1. 264 0.940 0.807 0.488 1. 307 1.091 1.304 1. 261 1. 014 1. 025 0. 676 0.364 1. 067 1. 279 1. 241 0.946 1. 023 0.747 0. 4 67 0.253 1.232 1.192

1. 094 0.803 0.673 0. 469 0.289 1.073 0.846 0.709 0.488 0. 364 0.251 0.684 0.592 0.399 0.355 0.305 Figure D.4 Brunswick Unit 1Cycle19 Radial Power Distribution at 18,788.1 MWd/MTU (EOFP) (Continued) s:: OJ m2 r :J r en r :E )> -* Oc "'C :J CD ;:::;: ..., Ill ...... g: (") 0 CD 3 ...... Ill co -* .,, :J c CD -(") '< (") ro 0 CD en ce* :J )> z "U "U Ill cc CD :;o tu CD O < ...... (ii" w 0 I co a*-z :J "U o-BSEP 16-0056 Enclosure 23 AREVA NP Affidavit Regarding Withholding ANP-3013P, Revision 0, Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain, May 2013 STATE OF WASHINGTON COUNTY OF BENTON SS. AFFIDAVIT

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-3013(P), Revision 0, "Brunswick Unit 1 Cycle 19 Fuel Cycle Design MELLLA+ Operating Domain," dated May 2013 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 1 o CFR 2.390. The information for which withholding from disclosure is requested qualifies under 1 o 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 the Document 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 dayo1 M "(J .2013. Susan K. McCoy NOTARY PUBLIC, STATE OFWA. INGTON MY COMMISSION EXPIRES: 1/14/2016

ML16257A407

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