ANP-2859(NP), Rev. 0, Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% Oltp)

ML093350659
Person / Time
Site:	Browns Ferry
Issue date:	09/30/2009
From:	AREVA NP
To:	Office of Nuclear Reactor Regulation
References
ANP-2859(NP), Rev 0
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Text

ATTACHMENT 11 (105% OLTP)

Browns Ferry Nuclear Plant (BFN)

Unit 1 Technical Specifications (TS) Change 467-S Revision of Technical Specifications to allow utilization of AREVA NP fuel and associated analysis methodologies Fuel Cycle Design Report Attached is the non proprietary version of the fuel cycle design report for 105% OLTP conditions.

An AREVk6rIdStemens C;ýOm ANP-2859(NP)

Revision 0 Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

September 2009 jiIIA ý

AREVA NP Inc.

ANP-2859(NP)

Revision 0 Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP) sip

AREVA NP Inc.

ANP-2859(NP)

Revision 0 Copyright © 2009 AREVA NP Inc.

All Rights Reserved

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page i Nature of Changes Item Page

1.

All Description and Justification This is the initial release.

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AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page ii Contents 1.0 Introduction....................................................................................................................

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

2-1 3.0 Cycle 9 Fuel Cycle Design.............................................................................................

3-1 3.1 General Description...........................................................................................

3-1 3.2 Control Rod Patterns and Thermal Limits....................................................

3-1 3.3 Hot Excess Reactivity and Cold Shutdown M argin............................................

3-1 4.0 References.....................................................................................................................

4-1 Appendix A Appendix B Appendix C Appendix D Appendix E Browns Ferry Unit 1 Cycle 9 Step-through Depletion Summary, Control Rod Patterns and Core Average Axial Power and Exposure Distributions..............................................................................

A-1 Elevation Views of the Browns Ferry Unit 1 Cycle 9 Fresh Reload Batch Fuel Assemblies..................................................................

B-1 Browns Ferry Unit 1 Cycle 9 Fresh Fuel Locations.....................................

C-1 Browns Ferry Unit I Cycle 9 Radial Exposure and Power D istrib utio ns....................................................................................................

D -1 Browns Ferry Unit I Cycle 8 EOC Projection Control Rod Patterns and Core Average Axial Power and Exposure D istributions.......................................

E -1 Tables.

2.1 Browns Ferry Unit I Cycle 9 Energy and Key Results Summary...................................

2-2 2.2 Browns Ferry Unit i Cycle 9 Fuel Cycle Design Assembly ID Range by N uclear Fuel Type..........................................................................................................

2-4 3.1 Cycle 9 Core Composition and Design Parameters.......................................................

3-3 3.2 Browns Ferry Unit I Cycle 9 Hot Operating Target k-eff Versus Cycle E x p o s u re........................................................................................................................

3 -4 3.3 Browns Ferry Unit 1 Cycle 9 Cold Critical Target k-eff Versus Cycle E xposure........................................................................................................................

3-4 3.4 Browns Ferry Unit I Cycle 9 Reactivity Margin Summary..............................................

3-5 3.5 Browns Ferry Unit 1 Cycle 9 Reactivity Margin Summary..............................................

3-6 3.6 Browns Ferry Unit 1 Cycle 9 Reactivity Margin Summary..............................................

3-7 AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page iii Figures 2.1 Browns Ferry Unit 1 Cycle 9 Design Step-through k-eff versus Cycle E x po s u re........................................................................................................................

2 -5 2.2 Browns Ferry Unit 1 Cycle 9 Design Margin to Thermal Limits versus Cycle Exposure............................................................................................................

2-5 3.1 Browns Ferry Unit 1 Cycle 9 Reference Loading Pattern...............................................

3-8 3.2 Browns Ferry Unit 1 Cycle 9 Upper Left Quarter Core Layout by Fuel T y p e.............................................................................................................................

3 -10 3.3 Browns Ferry Unit 1 Cycle 9 Upper Right Quarter Core Layout by Fuel T y p e..............................................................................................

............................... 3 -1 1 3.4 Browns Ferry Unit I Cycle 9 Lower Left Quarter Core Layout by Fuel T y p e.............................................................................................................................

3 -12 3.5 Browns Ferry Unit I Cycle 9 Lower Right Quarter Core Layout by Fuel T y p e.............................................................................................................................

3 -13 AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page iv Nomenclature BOC BOL BWR CSDM EOC EOFP FFTR GWd/MTU HEXR LHGR MCPR MICROBURN-B2 MWd/MTU NRC OLTP PPR R Value SLC SPCB beginning of cycle beginning of life boiling water reactor cold shutdown margin end of cycle end of full power capability final feedwater temperature reduction gigawatt days per metric ton of initial uranium hot excess reactivity linear heat generation rate 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.

Original Licensed Thermal Power 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 s.tand.by liqui.d control AREVA NP (formerly Siemens Power Corporation) critical power correlation AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 1-1 1.0 Introduction AREVA NP Inc.* has performed fuel cycle design and fuel management calculations for the Cycle 9 operation of the Browns Ferry Unit I BWR. These analyses have been performed with the approved AREVA neutronics methodology (References 1 and 2). The CASMO-4 lattice depletion code was used to generate nuclear data including cross sections and local power peaking factors. The MICROBURN-B2 three dimensional core simulator code, combined with the application of the SPCB critical power correlation, was used to model the core. The MICROBURN-B2 pin power reconstruction (PPR) model was used to determine the thermal margins presented in this report.

Design results for the Cycle 9 reactor core loading including projected control rod patterns and evaluations of thermal and reactivity margins are presented. The Cycle 9 results are based on Cycle 8 core operational history as summarized in Table 2.1 AREVA NP Inc. is an AREVA and Siemens company.

AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page 2-1 2.0 Summary The Cycle 9 fresh batch size (272 assemblies) and batch average enrichment

] were determined to meet the energy requirements provided by Tennessee Valley Authority (Reference 4). For a complete description of the fresh reload assemblies, see Reference 3. The loading of the Cycle 9 fuel as described in this report results in a projected Cycle 9 full power energy capability of 2,296+/-41 GWd (16,857+/-300 MWd/MTU). Beyond the full power capability, the cycle has been designed to achieve 71 GWd additional energy via FFTR operation.

In order to obtain optimum operating flexibility, the projected control rod patterns for Cycle 9 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 9 design. Figures 2.1 and 2.2 provide a summary of the cycle design step-through projection.

The Cycle 9 design satisfies the C-Lattice Channel Bow criteria as defined in GNF SIL-320, which are conservative for a D-Lattice plant.

Peak rod average power was verified to not exceed 6.3 kW/ft at exposures of > 54 GWd/MTU (Regulation Guide 1.183 requirement).

AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 2-2 Table 2.1 Browns Ferry Unit I Cycle 9 Energy and Key Results Summary Cycle Energy, GWd (Cycle Exposure, MWd/MTU)

Cycle 8 Core follow through March 31, 2009 312 (2,289)

Best estimate depletion to Nominal EOC 8 2,206 (16,178)

Short window EOC 8 2,133 (15,645)

Long window EOC 8 2,254 (16,533)

Cycle 9 EOFP Energy 2,296+/-41 (16,857+/-300)

FFTR Energy 71(523)

EOC Energy 2,367+/-41 (17,380+/-300)

Key Results BOC CSDM, %Ak/k (based on short EOC 8) 1.74 Minimum CSDM, %Ak/k (based on short EOC 8) 1.33 Cycle Exposure of Minimum CSDM, MWd/MTU (short basis) 4,000 Cycle R Value, %Ak/k (short basis) 0.41 BOC CSDM, %Ak/k (based on nominal EOC 8) 1.65 Minimum CSDM, %Ak/k (based on nominal EOC 8) 1.37 Cycle Exposure of Minimum CSDM, MWd(MTU (nominal basis) 3,000 Cycle R Value, %Ak/k (nominal basis) 0.28 BOC CSDM, %Ak/k (based on long EOC 8) 1.60

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.b s d on.g EO C 8..........................

6 Minimum CSDM, %Ak/k (based on long EOC 8) 1.39 Cycle Exposure of Minimum CSDM, MWd/MTU (long basis) 3,000 Cycle R Value, %Ak/k (long basis) 0.21 Minimum SLC SDM, %Ak/k (based on short EOC 8) 2.83 Cycle Exposure of Minimum SLC SDM, MWd/MTU (short basis) 3,000 Minimum SLC SDM, %Ak/k (based on long EOC 8) 2.96 Cycle Exposure of Minimum SLC SDM, MWd/MTU (long basis) 2,000 AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 2-3 Key Results BOC HEXR, %Ak/k (based on short EOC 8) 2.36 Maximum HEXR, %Ak1k (based on short EOC 8) 2.94 Cycle Exposure of Maximum HEXR, MWd/MTU (short basis) 6,997 BOC HEXR, %Ak1k (based on nominal EOC 8) 2.32 Maximum HEXR, %Ak1k (based on nominal EOC 8) 2.72 Cycle Exposure of Maximum HEXR, MWd/MTU (nominal basis) 6,000 BOC HEXR, %Ak/k (based on long EOC 8) 2.29 Maximum HEXR, %Ak1k (based on long EOC 8) 2.59 Cycle Exposure of Maximum HEXR, MWd/MTU (long basis) 5,000 Minimum MAPLHGR Margin, %

25.3 Exposure of Minimum MAPLHGR Margin, MWd/MTU 16,870 Minimum LHGR Margin, %

11.5 Exposure of Minimum LHGR Margin, MWd/MTU 16,870 Minimum CPR Margin, %

7.1 Exposure of Minimum CPR Margin, MWd/MTU 16,500 AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 2-4 Table 2.2 Browns Ferry Unit I Cycle 9 Fuel Cycle Design Assembly ID Range by Nuclear Fuel Type Nuclear Number of Assembly ID Fuel Type Assemblies Range 5

17 JLX434-JLX527 6

32 JLX529-JLX560 9

32 JLX613-JLX644 10 68 JLX645-JLX716 11 16 JLX717-JLX740 14 48 JYE101-JYE148 15 96 JYE149-JYE244 16 64 JYE245-JYE308 17 48 JYE309-JYE356 18 71 JYE357-JYE428 19 176 FAAOOI-FAA176 20 32 FAA 93-FAA224 21 64 FAA233-FAA296 AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 2-5 1.010 1.005 1.000 0.995 0.990 Target A Cycle19 0

2 4

6 8

10 12 14 16 18 Cycle Exposure (GWdlMTU)

Figure 2.1 Browns Ferry Unit I Cycle 9 Design Step-through k-eff versus Cycle Exposure 1.0 E"i0.9

~0.8 C

0 0.7 0.6 0

2 4

6 8

10 12 14 16 18 Cycle Exposure (GWd/MTU)

Figure 2.2 Browns Ferry Unit I Cycle 9 Design Margin to Thermal Limits versus Cycle Exposure AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page 3-1 3.0 Cycle 9 Fuel Cycle Design 3.1 General Description The assembly design for the Cycle 9 BFE1-9 fresh reload fuel for Browns Ferry Unit I is described in detail in Reference 3. Elevation views of the fresh reload fuel design axial enrichment and gadolinia distributions are shown in Appendix B, Figures B.1 through B.3. The loading pattern maintains full core 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 9 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 9 is provided in Appendix C. Key results for the cycle are summarized in Table 2.1.

3.2 Control Rod Patterns and Thermal Limits Projected control rod patterns for Cycle 9 and resultant key operating parameters including thermal margins are shown in Appendix A. The thermal margins presented in this report were determined using the MICROBURN-B2 3D core simulator PPR model to provide adequate margin to thermal limits from Reference 4. 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 9 is shown in Table 3.2. The k-eff and margin to limits results from the design cycle depletion are presented graphically in Figures 2.1 and 2.2. The k-eff values presented in Figure 2.1 and in Appendix A are not bias corrected. Selected exposure and radial power distributions from the design step-through are presented in Appendix D. Projected control rod patterns near EOC8 are shown in Appendix E.

3.3 Hot Excess Reactivity and Cold Shutdown Margin The cycle design calculations demonstrate adequate hot excess reactivity, SLC shutdown margin, and cold shutdown margin throughout the cycle. Key shutdown margin and R-Value results are presented in Table 2.1. The shutdown margin for Cycle 9 is in conformance with the Technical Specification limit of R + 0.38 %Ak/k at BOC. The cold target k-eff versus exposure AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page 3-2 determined to be appropriate for calculation of cold shutdown margin in Cycle 9 is shown in Table 3.3. The core hot excess reactivity was calculated at full power with all rods out, 102.5 Mlb/hr core flow, with equilibrium xenon. Tables 3.4 through 3.6 summarize the Cycle 9 reactivity margins versus cycle exposure, including the SLC shutdown margin for the cycle.

AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 3-3 Table 3.1 Cycle 9 Core Composition and Design Parameters Cycle Nuclear Number of Fuel Description Loaded Fuel Type Assemblies GE-14 GE14-PlODNAB377-16GZ 7

5 17 GE-14 GE14-PIODNAB402-16GZ 7

6 32 GE-14 GE14-PlODNAB419-16GZ 7

9 32 GE-14 GE14-P1ODNAB368-15GZ 7

10 68 GE-14 GE14-PlODNAB402-19GZ 7

11 16 GE-14 GE14-PlODNAB406-16GZ 8

14 48 GE-14 GE14-PIODNAB400-17GZ 8

15 96 GE-14 GE14-PlODNAB406-15GZ 8

16 64 GE-14 GE14-PIODNAB417-16GZ 8

17 48 GE-14 GE14-PlODNAB418-16GZ 8

18 71 ATRlUMTM-10*[

]

9 19 176 ATRIUM-10[

]

9 20 32 ATRIUM-A0 0 9

21 64 Number of Fuel Assemblies in Core 764 Total Number of Fresh Assemblies 272 Total Core Mass, MTU 136.19 Rated Thermal Power Level, MWt 3,458 Rated Core Flow, Mlb/hr 102.5 Reference Pressure, psia 1,050t Reference Inlet Subcooling, Btu/Ibm 25.44*

ATRIUM is a trademark of AREVA NP.

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

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

AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 3-4 Table 3.2 Browns Ferry Unit I Cycle 9 Hot Operating Target k-eff Versus Cycle Exposure Cycle Exposure Hot Operating (MWd/MTU) k-eff*

0.0 1.0030 7,000.0 0.9990 11,000.0 0.9990 17,000.0 1.0030 20,000.0 1.0030 Table 3.3 Browns Ferry Unit I Cycle 9 Cold Critical Target k-eff Versus Cycle Exposure Cycle Exposure Cold Critical (MWd/MTU) k-eft*

0.0 0.9930 2,000.0 0.9910 25,000.0 0.9910 Values are linearly interpolated between cycle exposure points.

AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 3-5 Table 3.4 Browns Ferry Unit I Cycle 9 Reactivity Margin Summary Cold Shutdown SLC Cold Shutdown Hot Excess Cycle Exposure Margin*

Margint Reactivity*

(MWd/MTU)

(% Ak/k)

(% Ak/k)

(% Ak/k) 0 1.74 2.92 2.36 500 1.96 3.23 2.26 1,000 1.77 3.04 2.36 2,000 1.50 2.86 2.59 3,000 1.37 2.83 2.73 4,000 1.33 2.84 2.82 5,000 1.37 2.89 2.88 6,000 1.45 2.97 2.92 6,997 1.53 3.08 2.94 8,000 1.61 3.19 2.89 9,000 1.68 3.31 2.85 10,000 1.72 3.42 2.82 11,000 1.72 3.49 2.80 12,000 1.70 3.55 2.69 12,950 1.63 3.62 2.53 14,000 1.70 3.79 2.22 15,100 1.76 4.10 1.77 16,250 1.96 4.74 1.03 16,500 2.02 4.92 0.85 16,857 2.11 5.19 0.56 17,380 2.28

-5.62 17,913 2.48 6.09 t

t Based on short window EOC 8.

Based on short window EOC 8, calculated at 366.0 OF ARO conditions (720 ppm boron at 68°F).

Based on short EOC 8.

AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 3-6 Table 3.5 Browns Ferry Unit I Cycle 9 Reactivity Margin Summary Cold Shutdown SLC Cold Shutdown Hot Excess Cycle Exposure Margin*

Margint Reactivity!

(MWd/MTU)

(% Ak/k)

(% Ak/k)

(% Ak/k) 0 1.65 2.96 2.32 500 1.90 3.29 2.21 1,000 1.66 3.09 2.31 2,000 1.44 2.96 2.52 3,000 1.37 2.98 2.63 4,000 1.39 3.06 2.69 5,000 1.48 3.18 2.72 6,000 1.56 3.32 2.72 6,997 1.69 3.48 2.71 8,000 1.79 3.65 2.65 9,000 1.85 3.79 2.60 10,000 1.87 3.90 2.57 11,000 1.85 3.98 2.55 12,000 1.82 4.05 2.42 12,950 1.80 4.15 2.22 14,000 1.85 4.37 1.87 15,100 1.97 4.78 1.36 16,250 2.25 5.53 0.57 16,500 2.31 5.74 0.38 16,857 2.44 6.05 0.07 17,380.

62

---. 6.47 -------.

17,913 2.83 6.93 t

t Based on nominal window EOC 8.

Based on long window EOC 8, calculated at 366.0 OF ARO conditions (720 ppm boron at 68'F).

Based on nominal EOC 8.

AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page 3-7 Table 3.6 Browns Ferry Unit I Cycle 9 Reactivity Margin Summary Cold Shutdown SLC Cold Shutdown Hot Excess Cycle Exposure Margin*

Margint Reactivityt (MWd/MTU)

(% Ak/k)

(% Ak/k)

(% Ak/k) 0 1.60 2.96 2.29 500 1.85 3.29 2.18 1,000 1.61 3.09 2.27 2,000 1.41 2.96 2.46 3,000 1.39 2.98 2.55 4,000 1.47 3.06 2.59 5,000 1.55 3.18 2.59 6,000 1.65 3.32 2.58 6,997 1.80 3.48 2.57 8,000 1.92 3.65 2.49 9,000 1.96 3.79 2.44 10,000 1.96 3.90 2.41 11,000 1.93 3.98 2.38 12,000 1.90 4.05 2.24 12,950 1.91 4.15 2.02 14,000 1.97 4.37 1.63 15,100 2.13 4.78 1.07 16,250 2.45 5.53 0.25 16,500 2.54 5.74 0.05 16,857 2.67 6.05

-0.26 17,380.

285-----64 17,913 3.06 6.93 t

t Based on long window EOC 8.

Based on long window EOC 8, calculated at 366.0 OF ARO conditions (720 ppm boron at 68TF).

Based on long EOC 8.

AREVA NP Inc.

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28 FAA006 JYE219 FAA021 JYE163 FAA037 JYE175 FAA061 JYE235 FAA093 JYE131 FAA237 JYE427 FAA197 JYE339 JLX702 26 JLX734 FAA022 JYE211 FAA045 JYE239 FAA069 JYE199 FAAIO1 JYE395 FAA133 JYS419 FAA245 JYE251 TJYE323 JLX696 24 FAA014 JYE155 FAAO46 JLX704 FAA077 JYE179 FAA109 JYE307 FAA141 JYE139 FAA253 JYE267 FAA277 JYE403 JLX643 Z

22 JYE215 FAA038 JYET51 FAA078 JYE223 FAA117 JYE203 FAA149 JYE283 FAA261 JYE291 FAA205 JYE387 JYE143 JLX548

-0 20 FAA030 JYE159 FAA670 JYE171 FAAII8 JYE207 FAA157 JYE259 FAA165 JYE379 FAA213 JYE407 JYE123 JLX641 JLX492 18 JYE183 FAA062 JYEi,67 FAA110 JYE243 FAA158 JYEI07 FAAI73 JYE355 JLX642 JYE299 FAA221 JYE343 JLX656 JLX555 16 FAA054 JYE231 FAAI02 JYE255 FAA150 JYE303 FAA174 JYE103 FAA285 JYE371 FAA269 JYE347 JLX644 JLX703 14 JLX671 FAA094 JYE391 FAA142 JYE279 FAA166 JYE351 FAA286 JYE399 FAA293 JYE115 JYE191 JLX707 12 FAA086 JYE127 FAA1134 JYE135 FAA262 JYE375 JLX632 JYE367 FAA294 JYE384 JLX740 JLX538 JLX560 10 JLX479 FAA238 JYE415 FAA254 JYE258 FAA214 JYE295 FAA270 JYE111 JLX732 JLX651 8

FAA126 JYE423 FAA246 JYE263 FAA206 JYE411 FAA222 JYE331 JYE227 JLX551 6

JYE305 FAA198 JYE 47 FAA278 JYE362 JYE119 JYE327 JLX636 JLX713 JLX556 4

JYE311 JYE335 JYE319 JYE359 JYE147 JLX630 JLX655 JLX546 2

JLX695 JLX689 JLX686 JLX634 JLX559 JLX527 JLX550 Figure 3.1 Browns Ferry Unit I Cycle 9 Reference Loading Pattern (Continued)

>z W o

-D

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page 3-10 1

3 5

7 9

11 13 15 17 19 21 23 25 27 29 60 6

5 6

9 10 10 10 33.3 31.2 29.8 28.6 27.8 27.9 28.2 58 Nuclear Fuel Type 6

10 9

14 18 17, 17 17 BOC Exposure (GWd/MTU) 31.2 32.7 27.9 16.3 18.2 18.0 16.0 16.9 56 6

10 9

17 14 18 21 16 20 16 30.1 32.1 27.8 17.5 19.4 18.5 0.0 18.8 0.0 19.5 54 10 15 17 20 18 20 16 21 18 19 32.2 17.6 17.9 0.0 19.6 0.0 18.7 0.0 15.9 0.0 52 10 11 14 21 16 20 16 21 18 21 5

30.4 26.6 18.8 0.0 20.0 0.0 19.0 0.0 18.5 0.0 26.1 50 6

10 11 18 21 18 9

18 21 14 19 14 19 29.6 32.7 26.9 18.4 0.0 18.9 26.8 18.5 0.0 16.5 0.0 17.1 0.0 48 10 15 14 21 18 21 17 19 16 19 18 19 10 31.2 19.9 18.8 0.0 19.0 0.0 18.5 0.0 18.6 0.0 18.7 0.0 29.8 46 10 9

17 21 18 21 14 19 16 19 16 19 15 19 30.4 28.0 17.7 0.0 19.4 0.0 18.1 0.0 17.2 0.0 17.9 0.0 17.0 0.0 44 6

10 17 20 16 9

17 19 14 19 15 19 15 19 15 34.2 31.5 17.5 0.0 19.1 26.7 18.5 0.0 18.3 0.0 17.9 0.0 18.5 0.0 18.9 42 5

9 14 18 20 18 19 16 19 15 19 15 19 15 19 30.8 28.0 18.9 19.8 0.0 19.4 0.0 19.1 0.0 17.6 0.0 18.3 0.0 19.0 0.0 40 6

14 18 20 16 21 16 19 15 19 15 19 15 19 15 30.9 16.2 18.5 0.0 19.5 0.0 18.5 0.0 19.2 0.0 17.4 0.0 19.2 0.0 19.8 38 9

18 21 16 21 14 19 16 19 15 19 10 19 15 19 28.9 18.5 0.0 18.7 0.0 16.7 0.0 18.8 0.0 19.3 0.0 31.7 0.0 19.0 0.0 36 10 17 16 21 18 19 18 19 15 19 15 19 15 19 11 27.8 18.4 19.2 0.0 18.4 0.0 18.8 0.0 19.3 0.0 17.7 0.0 17.8 0.0 30.4 34 10 17 20 18 21 14 19 15 19 15 19 15 19 15 19 28.2 16.0 0.0 16.4 0.0 17.1 0.0 18.0 0.0 19.2 0.0 19.1 0.0 19.9 0.0 32 10 17 16 19 5

19 10 19 15 19 15 19 11 19 10 28.2 17.1 19.1 0.0 27.4 0.0 30.9 0.0 18.3 0.0 18.2 0.0 31.4 0.0 31.7 No.

Per Fuel Type Description Cycle Loaded Quarter core 5

GE14-PlODNAB377-16GZ 7

4 6

GE14-PIODNAB402-16GZ 7

7 9

GE14-PIODNAB419-16GZ 7

8 10 GE14-PlODNAB368-15GZ 7

18 11

.................GE14PlODNAB402-19GZ.--.

4 14 GE14-PIODNAB406-16GZ 8

12 15 GE14-PIODNAB400-17GZ 8

24 16 GE14-P1ODNAB406-15GZ 8

16 17 GE14-PIODNAB417-16GZ 8

12 18 GE14-PlODNAB418-16GZ 8

18 19

[

]

9 44 20

[

]

9 8

21 1 1 9

16 Figure 3.2 Browns Ferry Unit I Cycle 9 Upper Left Quarter Core Layout by Fuel Type AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page 3-11 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 60 10 10 10 9

6 5

6 27.8 27.8 28.2 28.7 31.3 30.8 34.4 58 17 17 17 18 14 9

10 6

Nuclear Fuel Type 16.9 15.9 18.0 19.4 16.4 27.8 31.3 30.9 BOC Exposure (GWd/MTU) 56 16 20 16 21 18 14 17 9

10 6

18.8 0.0 18.8 0.0 19.1 19.4 17.5 27.8 32.2 29.7 54 19 18 21 16 20 18 20 17 15 10 0.0 15.9 0.0 18.7 0.0 18.4 0.0 17.9 17.9 32.7 52 5

21 18 21 16 20 16 21 14 11 10 26.1 0.0 18.5 0.0 18.8 0.0 19.9 0.0 18.8 26.5 30.4 50 19 14 19 14 21 18 9

18 21 18 11 10 6

0.0 17.1 0.0 16.5 0.0 18.5 26.6 18.9 0.0 18.1 26.8 31.2 29.9 48 10 19 18 19 16 19 17 21 18 21 14 15 10 30.9 0.0 18.7 0.0 18.4 0.0 18.2 0.0 18.5 0.0 18.9 17.4 31.3 46 19 15 19 16 19 16 19 14 21 18 21 17 9

10 0.0 17.0 0.0 17.8 0.0 17.2 0.0 18.5 0.0 19.4 0.0 17.7 28.0 30.4 44 15 19 15 19 15 19 14 19 17 9

16 20 17 10 6

19.0 0.0 19.3 0.0 18.3 0.0 18.0 0.0 18.3 26.8 19.1 0.0 17.5 32.7 33.4 42 19 15 19 15 19 15 19 16 19 18 20 18 14 9

5 0.0 19.2 0.0 18.4 0.0 17.8 0.0 17.1 0.0 19.0 0.0 19.0 19.0 28.1 31.3 40 15 19 15 19 15 19 15 19 16 21 16 20 18 14 6

18.6 0.0 17.9 0.0 17.7 0.0 17.7 0.0 18.7 0.0 19.7 0.0 18.8 16.2 29.5 38 19 15 19 10 19 15 19 16 19 14 21 16 21 18 9

0.0 19.0 0.0 31.7 0.0 19.6 0.0 18.8 0.0 16.8 0.0 18.7 0.0 18.5 28.9 36 11 19 15 19 15 19 15 19 18 19 18 21 16 17 10 30.4 0.0 17.6 0.0 19.5 0.0 19.3 0.0 18.8 0.0 18.5 0.0 19.3 18.4 28.2 34 19 15 19 15 19 15 19 15 19 14 21 18 20 17 10 0.0 20.0 0.0 19.2 0.0 19.2 0.0 18.1 0.0 17.2 0.0 16.6 0.0 16.1 28.2 32 10 19 11 19 15 19 15 19 10 19 5

19 16 17 10 31.7 0.0 31.6 0.0 19.8 0.0 18.4 0.0 29.8 0.0 27.4 0.0 18.8 17.1 28.0 No.

Per Fuel Type Description Cycle Loaded Quarter core 5

GE14-PIODNAB377-16GZ 7

4 6

GE14-PIODNAB402-16GZ 7

7 9

GE14-PIODNAB419-16Gz 7

8 10.....................

GE 14.z..

.NAH3 68 - 15 GZ 7

18 11 GE14-PIODNAB402-19GZ 74 14 GE14-P0IDNAB406-16GZ 8

12 15 GE14-PI0DNAB400-17GZ 8

24 16 GE14-PIODNAB406-15GZ 8

16 17 GE14-PIODNAB417-16GZ 8

12 18 CE14-PIODNAB418-16GZ 8

18 19

[

1 9

44 20

[

1 9

8 21

[

1 9

16 Figure 3.3 Browns Ferry Unit I Cycle 9 Upper Right Quarter Core Layout by Fuel Type AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit I Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page 3-12 1

3 5

7 9

11 13 15 17 19 21 23 25 27 29 30 10 17 16 19 5

19 10 19 15 19 15 19 11 19 10 27.9 17.1 19.0 0.0 26.1 0.0 29.8 0.0 18.4 0.0 19.0 0.0 31.4 0.0 32.1 28 10 17 20 18 21 14 19 15 19 15 19 15 19 15 19 28.2 16.0 0.0 16.4 0.0 17.1 0.0 18.0 0.0 19.1 0.0 19.1 0.0 19.4 0.0 26 10 17 16 21 18 19 18 19 15 19 15 19 15 19 11 28.2 18.4 19.2 0.0 18.4 0.0 18.8 0.0 19.4 0.0 19.3 0.0 17.8 0.0 30.4 24 9

5 21 16 21 14 19 16 19 15

19) 10 19 15 19 28.8 15.9 0.0 18.7 0.0 16.8 0.0 17.0 0.0 19.3 0.0 31.6 0.0 19.0 0.0 22 6

14 18 20 16 21 16 19 15 19 15 19 15 19 15 29.6 16.1 18.8 0.0 19.6 0.0 18.6 0.0 17.7 0.0 17.6 0.0 20.2 0.0 18.5 20 5

9 14 18 20 18 19 16 19 15 19 15 19 15 19 31.2 28.0 18.9 19.6 0.0 19.0 0.0 18.0 0.0 17.6 0.0 18.4 0.0 19.2 0.0 18 6

10 17 20 16 9

17 19 14 19 15 19 15 19 15 34.2 33.8 17.5 0.0 19.4 26.7 18.5 0.0 18.8 0.0 18.2 0.0 19.2 0.0 18.9 16 10 9

17 21 18 21 14 19 16 19 16 19 15 19 32.3 28.0 17.7 0.0 18.6 0.0 19.5 0.0 18.0 0.0 17.9 0.0 17.0 0.0 14 10 15 14 21 18 21 17 19 16 19 18 19 10 30.9 17.4 18.9 0.0 19.4 0.0 18.5 0.0 18.5 0.0 18.8 0.0 30.9 12 6

6 11 18 21 18 9

18 21 14 19 14 19 30.1 33.5 26.9 18.2 0.0 18.9 26.8 18.5 0.0 16.4 0.0 17.1 0.0 10 10 11 14 21 16 20 16 21 18 21 5

32.2 26.6 18.0 0.0 19.9 0.0 17.2 0.0 18.5 0.0 26.2 8

6 15 17 20 18 20 16 21 18 19 33.4 19.9 17.9 0.0 19.6 0.0 18.8 0.0 15.7 0.0 6

6 10 9

17 14 18 21 16 20 16 29.8 30.9 27.7 17.6 18.4 18.5 0.0 18.8 0.0 20.2 4

Nuclear Fuel Type 6

10 9

14 18 17 17 17 BOC Exposure (GWd/MTU) 31.0 33.5 28.0 16.2 19.4 18.0 15.9 16.9 2

6 5

6 9

10 10 10 33.4 30.8 31.2 28.7 28.2 27.8 27.8 No.

Per Fuel Type Description Cycle Loaded Quarter core 5

GE14-PlODNAB377-16GZ 7

5 6

GE14-PlODNAB402-16GZ 7

9 9

GE14-PIODNAB419-16GZ 7

8

-10GE14-PIODNAB368-15GZ

__7 16 1...................

.1.

11 GE14-PIODNAB402-19GZ 7

-4 14 GE14-PIODNAB406-16GZ 8

12 15 GE14-P10DNAB400-17GZ 8

24 16 GE14-PIODNA8406-15GZ 8

16 17 GE14-PIODNAB417-16GZ 8

12 18 GE14-PlODNAB418-16GZ 8

17 19

[

1 9

44 20 1]

9 8

21

[

]

9 16 Figure 3.4 Browns Ferry Unit I Cycle 9 Lower Left Quarter Core Layout by Fuel Type AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle.9 Revision 0 Fuel Cycle Design (105% OLTP)

Page 3-13 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 30 10 19 11 19 15 19 15 19 10 19 5

19 16 17 10 32.2 0.0 31.4 0.0 20.0 0.0 18.4 0.0 29.8 0.0 26.1 0.0 19.1 17.1 28.2 28 19 15 19 15 19 15 19 15 19 14 21 18 20 17 10 0.0 19.4 0.0 19.1 0.0 19.2 0.0 18.1 0.0 17.2 0.0 16.5 0.0 16.0 28.2 26 11 19 15 19 15 19 15 19 18 19 18 21 16 17 10 30.5 0.0 17.8 0.0 17.7 0.0 18.3 0.0 18.8 0.0 18.5 0.0 19.2 18.4 27.8 24 19 15 19 10 19 15 19 16 19 14 21 16 21 18 9

0.0 19.0 0.0 31.6 0.0 19.3 0.0 17.0 0.0 16.8 0.0 18.7 0.0 19.3 28.9 22 15 19 15 19 15 19 15 19 16 21 16 20 18 14 6

18.5 0.0 19.5 0.0 17.4 0.0 19.2 0.0 18.6 0.0 19.5 0.0 18.8 16.2 30.9 20 19 15 19 15 19 15 19 16 19 18 20 18 14 9

5 0.0 19.0 0.0 18.4 0.0 17.6 0.0 18.0 0.0 19.0 0.0 19.8 19.0 28.1 30.9 18 15 19 15 19 15 19 14 19 17 9

16 20 17 10 6

19.0 0.0 19.2 0.0 17.9 0.0 18.3 0.0 18.5 26.7 19.5 0.0 17.5 33.7 34.1 16 19 15 19 16 19 16 19 14 21 18 21 17 9

10 0.0 17.0 0.0 18.0 0.0 17.2 0.0 18.1 0.0 19.4 0.0 17.7 28.0 32.2 14 10 19 18 19 16 19 17 21 18 21 14 15 10 30.9 0.0 18.8 0.0 18.6 0.0 18.6 0.0 18.6 0.0 18.9 19.9 31.6 12 19 14 19 14 21 18 9

18 21 18 11 6

6 0.0 17.1 0.0 16.4 0.0 18.5 26.8 19.0 0.0 18.5 26.9 32.6 31.2 10 5

21 18 21 16 20 16 21 14 11 10 26.1 0.0 18.5 0.0 18.0 0.0 20.0 0.0 18.9 26.6 30.8 8

19 18 21 16 20 18 20 17 15 6

0.0 15.7 0.0 18.8 0.0 19.7 0.0 17.9 17.7 32.9 6

16 20 16 21 18 14 17 9

10 6

17.0 0.0 18.8 0.0 18.5 19.5 17.6 27.8 30.8 30.1 4

17 17 17 18 14 9

10 6

Nuclear Fuel Type 16.9 16.0 18.1 18.2 16.4 28.0 33.7 29.7 BOC Exposure (GWd/MTU) 2 10 10 10 9

6 5

6 28.1 27.8 28.0 28.7 29.8 31.3 33.3 No.

Per Fuel Type Description Cycle Loaded Quarter core 5

GE14-PIODNAB377-16GZ 7

4 6

GE14-PIODNAB402-16GZ 7

9 9

GE14-PIODNAB419-16GZ 7

8 GE 14 1

NA 368-5GZ 7

16 11 GE14-PIODNAB402-19GZ 7

4 14 GE14-PlODNAB406-16GZ 8

12 15 GE14-PlODNAB400-17GZ 8

24 16 GE14-PIODNAB406-15GZ 8

16 17 GE14-PIODNAB417-16GZ 8

12 18 GE14-PlODNAB418-16GZ 8

18 19 1

1 9

44 20

[

]

9 8

21

[

]

9 16 Figure 3.5 Browns Ferry Unit I Cycle 9 Lower Right Quarter Core Layout by Fuel Type AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit I Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page 4-1 4.0 References

1.

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

2.

EMF-2209(P)(A) Revision 2, SPCB Critical Power Correlation, Framatome ANP, September 2003.

3.

ANP-2837(P) Revision 0, Nuclear Fuel Design Report Browns Ferry Unit 1 Fabrication Batch BFEI-9 A TRIUM-10 Fuel, July 2009.

4.

38-9102622-003, TVA document, Browns Ferry Unit 1 Cycle 9 Reload Requirement Specification (105% OLTP), BFE-2722 Revision 3, May 2009.

AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-I Appendix A Browns Ferry Unit I Cycle 9 Step-through Depletion Summary, Control Rod Patterns and Core Average Axial Power and Exposure Distributions AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-2 Table A.1 Browns Ferry Unit I Cycle 9 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 0.200 0.500 1.000 1.500 2.000 2.292 2.293 2.500 3.000 3.500 4.000 4.250 4.631 4.633 5.000 5.500 6.000 6.500 6.996 6.997 7.500 8.000 8.500 9.000 9.191 9.192 9.500 10.000 10.500 11.000 11.386 11.387 11.500 12.000 12.500 12.500 12.950 12.950 13.300 13.300 13.581 13.582 14.000, 14.500 14.600 14.600 15.100 15.100 15.400 15.400 15.600 15.600 15.776 15.778 16.000 16.000 16.250 16.250 16.500 1.00302 10.18 3458.0 99.73 1050.06 1.00289 10.18 3458.0 99.74 1050.06 1.00265 10.18 3458.0 102.50 1050.06 1.00244 10.18 3458.0 97.89 1050.06 1.00208 10.18 3458.0 92.82 1050.06 1,00187 10.18 3458.0 89.75 1050.06 1.00166 10.18 3458.0 87.70 1050.06 1.00173 10.63 3458.0 101.32 1050.06 1.00162 10.63 3458.0 100.72 1050.06 1.00131 10.63 3458.0 98.40 1050.06 1.00103 10.63 3458.0 96.60 1050.06 1.00074 10.63 3458.0 95.24 1050.06 1.00057 10.63 3458.0 94.73 1050.06 1.00039 10.63 3458.0 94.05 1050.06 1.00042 10.99 3458.0 102.24 1050.06 1.00007 10.99 3458.0 101.28 1050.06 0.99989 10.99 3458.0 101.34 1050.06 0.99957 10.99 3458.0 101.06 1050.06 0.99930 10.99 3458.0 101.07 1050.06 0.99900 10.99 3458.0 100.93 1050.06 0.99896 10.14 3458.0 96.77 1050.06 0.99904 10.14 3458.0 97.91 1050.06 0.99896 10.14 3458.0 98.75 1050.06 0.99900 10.14 3458.0 99.72 1050.06 0.99900 10.14 3458.0 100.51 1050.06 0.99898 10.14 3458.0 100.54 1050.06 0.99896 9.46 3458.0 96.26 1050.06 0.99898 9.46 3458.0 96.60 1050.06 0.99902 9.46 3458.0 97.73 1050.06 0.99898 9.46 3458.0 98.66 1050.06 0.99903 9.46 3458.0 99.65 1050.06 0.99931 9.46 3458.0 101.77 1050.06 0.99926 9.82 3458.0 98.04 1050.06 0.99933 9.82 3458.0 98.04 1050.06 0.99966 9.82 3458.0 101.63 1050.06 0.99999 9.82 3458.0 105.33 1050.06 0.99999 9.64 3458.0 100.13 1050.06 1.00029 9.64 3458.0 104.59 1050.06 1.00034 9.46 3458.0 99.52 1050.06 1.00048 9.46 3458.0 104.02 1050.06 1.00049 9.37 3458.0 101.69 1050.06 1.00072 9.37 3458.0 105.81 1050.06 1.00068 5.95 3458.0 89.68 1050.06

-1.00097 -

5-.95.3458.0.

95,01050.06 1.00131 5.95 3458.0 101.63 1050.06 1.00136 5.95 3458.0 103.46 1050.06 1.00137 5.41 3458.0 95.92 1050.06 1.00175 5.41 3458.0 105.32 1050.06 1.00171 5.14 3458.0 99.08 1050.06 1.00186 5.14 3458.0 105.66 1050.06 1.00197 4.86 3458.0 99.86 1050.06 1.00208 4.86 3458.0 104.66 1050.06 1.00213 4.77 3458.0 102.31 1050.06 1.00216 4.77 3458.0 106.95 1050.06 1.00218 2.97 3458.0 98.02 1050.06 1.00231 2.97 3458.0 104.20 1050.06 1.00226 2.70 3458.0 98.49 1050.06 1.00247 2.70 3458.0 105.27 1050.06 1.00247 2.25 3458.0 98.41 1050.06 1.00273 2.25 3458.0 106.05 1050.06 26.18 0.432 26.18 0.431 25.43 0.422 26.70 0.426 28.24 0.432 29.25 0.434 29.97 0.435 25.75 0.419 25.91 0.419 26.55 0.420 27.08 0.419 27.48 0.418 27.64 0.418 27.85 0.416 25.51 0.409 25.76 0.408 25.74 0.405 25.82 0.403 25.82 0.400 25.85 0.397 27.03 0.410 26.70 0,405 26.46 0,401 26.18 0.397 25.97 0.394 25.96 0.394 27.18 0.415 27.08 0.414 26.75 0.411 26.48 0.410 26.20 0.408 25.63 0.405 26.66 0.391 26.66 0.390 25.66 0.385 24.71 0.378 26.07 0.383 24.90 0.375 26.24 0.380 25.04 0.372 25.65 0.374 24.60 0.367 29.27 0.440 25.67 0.411 25.19 0.407 27.28 0.413 24.72 0.392 26.36 0.398 24.63 0.384 26.14 0.389 24.88 0.379 25.48 0.381 24.32 0.372 26.66 0.415 25.00 0.402 26.53 0.410 24.73 0.394 26.55 0.399 24.54 0.383 1.739 1.745 1.765 1.715 1.670 1.638 1.616 1.737 1.726 1.698 1.673 1.650 1.641 1.628 1.737 1.721 1.709 1.696 1.684 1.674 1.658 1.659 1.656 1.654 1.652 1.649 1.712 1.711 1.713 1.713 1.714 1.726 1.627 1.621 1.637 1.651 1.625 1.648 1.610 1.643 1.616 1.642 1.622 1.714 1.725 1.631 1.700 1.635 1.683 1.626 1.661 1,638 1.672 1.631 1.683 1.639 1.685 1.628 1.685 10.25 10.06 9.73 9.55 9.31 9.06 8.92 9.79 9.68 9.41 9.19 9.00 8.92 8.79 9.26 9.10 8.92 8.78 8.67 8.65 8.59 8.49 8.54 8.59 8.64 8.64 8.49 8.50 8.53 8.59 8.65 8.66 8.83 8.83 8.71 8.68 8.76 8.70 8.95 8.86 8.85 8.79 9.36 9.*0_0 8,55 8.45 8.28 7.99 7.84 7.84 7.87 7.89 7.80 7.82 9.35 9.15 9.05 8.71 8.56 8.53 7.61 7.49 7.27 7.23 7.26 7.34 7.38 7.48 7.45 7.47 7.48 7.48 7.47 7.47 7.21 7.22 7.25 7.28 7.34 7.45 7.24 7.34 7.44 7.54 7.63 7.66 7.15 7.20 7.30 7.42 7.53 7.58 7.92 7.94 7.90 7.89 7.99 7.94 8.13 8.05 8.07 8.02 8.20 27.97 7 62 7.53 7.38 7.06 6.93 6.94 7.21 7.24 7.11 7.13 8.31 8.12 8.03 7.81 7.71 7.77 AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page A-3 16.500 1.00274 1.44 3458.0 98.22 1050.06 26.61 0.399 1.625 9.41 8.38 16.700 1.00277 1.44 3458.0 104.89 1050.06 24.82 0.387 1.684 9.29 8.32 16.700 1.00283 1.08 3458.0 97.88 1050.06 26.70 0.396 1.628 9.17 8.21 16.800 1.00288 1.08 3458.0 101.57 1050.06 25.68 0.389 1.653 9.07 8.14 16.800 1.00287 0.00 3458.0 97.22 1050.06 26.90 0.408 1.630 9.94 8.85 16.857 1.00364 0.00 3458.0 102.50 1050.06 25.44 0.399 1.663 9.85 8.77 16.870 1.00341 0.00 3458.0 92.25 1044.79 34.60 0.396 1.633 10.25 9.12 17.380 1.00341 0.00 3458.0 107.63 1044.79 29.46 0.362 1.759 9.65 8.66 17.913 1.00338 0.00 3112.2 107.63 1037.13 26.23 0.336 1.958 8.23 7.41 AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-4 Table A.2 Browns Ferry Unit I Cycle 9 Design Depletion Thermal Margin Summary Fraction Core Fraction Core Fraction Cycle Control Core of Limiting of Limiting of Exposure Calculated Rod Limiting Limiting LHGR Limiting APLHGR Limiting (GWd/MT)

K-eff Density CPR CPR (kW/ft)

LHGR (kW/ft)

APLHGR 0.000 1.00302 0.200 1.00289 0.500 1.00265 1.000 1.00244 1.500 1.00208 2.000 1.00187 2.292 1.00166 2.293 1.00173 2.500 1.00162 3.000 1.00131 3.500 1.00103 4.000 1.00074 4.250 1.00057 4.631 1.00039 4.633 1.00042 5.000 1.00007 5.500 0.99989 6.000 0.99957 6.500 0.99930 6.996 0.99900 6.997 0.99896 7.500 0.99904 8.000 0.99896 8.500 0.99900 9.000 0.99900 9.191 0.99898 9.192 0.99896 9.500 0.99898 10.000 0.99902 10.500 0.99898 11.000 0.99903 11.386 0.99931 11.387 0.99926 11.500 0.99933 12.000 0.99966 12.500 0.99999 12.500 0.99999 12.950 1.00029 12.950 1.00034 13.300 1.00048 13.300 1.00049 13.581

-1.00072 14.000 1.00097 14.500 1.00131 14.600 1.00136 14.600 1.00137 15.100 1.00175 15.100 1.00171 15.400 1.00186 15.400 1.00197 15.600 1.00208 15.600 1.00213 15.776 1.00216 15.778 1.00218 16.000 1.00231 16.000 1.00226 16.250 1.00247 16.250 1.00247 AREVA NP Inc.

10.180 10.180 10.180 10.180 10.180 10.180 10.180 10.631 10.631 10.631 10.631 10.631 10.631 10.631 10.991 10.991 10.991 10.991 10.991 10.991 10.135 10.135 10.135 10.135 10.135 10*135 9.459 9.459 9.459 9.459 9.459 9.459 9.820 9.820 9.820 9.820 9.640 9.640 9.459 9.459 9.369 9.369

.94

• • 6 5.946 5.946 5.946 5.405 5.405 5.135 5.135 4.865 4.865 4.775 4.775 2.973 2.973 2.703 2.703 2.252 1.739 1.745 1.765 1.715 1.670 1.638 1.616 1.737 1.726 1.698 1.673 1.650 1.641 1.628 1.731 1.721 1.709 1.696 1.684 1.674

1. 658 1.659 1.656 1.654 1.652 1.649 1.712 1.711 1.713 1.713 1.714 1.726 1.627 1.621 1.637 1.651 1.625 1.648 1.610 1.643 1.616 1.642 1.622 1.663 1.714 1.725 1.631 1.700 1.635 1.683 1.626 1.661 1.638 1.672 1.631 1.683 1.639 1.685 1.628 0.857 0.854 0.844 0.869 0.892 0.909 0.922 0.858 0.864 0.877 0.891 0.903 0.908 0.915 0.858 0.866 0.872 0.879 0.885 0.890 0.899 0.898 0.900 0.901 0.902 0.903 0.870 0.871 0.870 0.870 0.869 0.863 0.916 0.919 0.910 0.903 0.917 0.904 0.925 0.907 0.922 0.908 9.1 -

0.919 0.908 0.881 0.875 0.926 0.888 0.924 0.897 0.928 0.909 0.922 0.903 0.926 0.897 0.921 0.896 0.928 10.25 0.765 10.06 0.751 7.64 0.729 7.42 0.719 7.90 0.725 7.92 0.734 7.92 0.738 7.67 0.754 7.56 0.747 7.32 0.731 7.74 0.735 7.91 0.742 7.91 0.746 7.88 0.752 7.89 0.727 7.91 0.735 7.96 0.746 8.00 0.758 8.04 0.770 8.09 0.783 7.71 0.747 7.74 0.758 7.77 0.769 7.79 0.700 7.81 0.790 7.81 0.793 7.21 0.712 7.20 0.716 7.19 0.721 7.15 0.725 6.43 0.727 6.42 0.732 7.98 0.825 7.98 0.827 7.87 0.824 7.85 0.824 7.98 0.838 7.88 0.836 7.93 0.853 7.82 0,848 7.97 0.852 7.90 0.850 699.5 0.799 6.56 0.774 6.42 0.750 6.36 0.744 6.21 0.727 5.02 0.705 6.62 0.734 6.68 0.745 7.06 0.781 7.09 0.788 7.02 0.776 7.04 0.781 7.43 0.825 7.24 0.808 7.78 0.836 7.88 0.852 7.80 0.843 7.61 7.49 7.27 7.18 7.19 7.21 7.21 7.12 7.42 7.47 7.48 7.48 7.47 7.47 7.18 7.19 7.22 7.25 7.28 7.32 7.11 7.13 7.15 7.18 7.19 7.19 5.95 5.95 5.94 7.42 7.53 7.58 7.40 7.40 7.31 7.23 7.36 7.26 7.41 7.34 7.35 7.28

8. 19 7.91 7.53 7.45 7.38 6.92 6.29 6.34 6.71 6.74 6.56 6.58 8.31 8.12 7.21 7.30 7.23 0.609 0.599 0.581 0.574 0.579 0.586 0.589 0.599 0.593 0.597 0.603 0.608 0.610 0.613 0.593 0.598 0.605 0.613 0.621 0.630 0.607 0.615 0.622

0. 629 0.636 0.638 0.592 0.595 0.598 0.601 0.615 0.622 0.660 0.661 0.659 0.658 0.669 0.666 0.680 0.679

0. 678 0.676 0.682 0.663 0.634 0.628 0.615 0.586 0.591 0.599 0.632 0.637 0.621 0.626 0.686 0.673 0.667 0.678 0.672

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-5 16.500 1.00273 16.500 1.00274 16.700 1.00277 16.700 1.00283 16.800 1.00288 16.800 1.00287 16.857 1.00364 16.870 1.00341 17.380 1.00341 17.913 1.00338 2.252 1.685 1.441 1.625 1.441 1.684 1.081 1.628 1.081 1.653 0.000 1.630 0.000 1.663 0.000 1.633 0.000 1.759 0.000 1.958 0.896 0.929 0.896 0.927 0.913 0.927 0.908 0.924 0.858 0.780 7.87 0.856 7.44 0.824 7.32 0.814 7.97 0.875 8.01 0.881 7.60 0.858 7.54 0.849 7.83 0.885 7.47 0.841 4.82 0.752 7.29 0.680 8.35 0.683 8.32 0.679 7.28 0.688 7.31 0.692 8.85 0.724 8.77 0.718 9.12 0.747 8.66 0.717 7.41 0.615 AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-6 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psla Inlet Subcooling: Btu/ibm Flow: Mlb/hr 1

3 5

7 9 11 13 15 1

3 14 5

7 10 14 10 9

11 -------- 14-......

0 13-15 --

14 --

10 0....

17-19 14-------

0 21-23 10 --

14 -- 10 95 9

0.0

(

0.00 0.0 (

0.00 3458.0 (100.00 %)

1050.1

-26.18 99.73 ( 97.30 %)

17 19 21 23 25 27 29 14 --

10....

14-------

0 --

10 --

14 --

14 14 --

10....

Core Average Exposure: MWd/MTU 14284.9 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N(PRA Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Axial Profile Power Exposure 0.137 2.385 0.458 7.369 0.655 10.116 0.834 12.200 0.971 13.730 1.063 14.684 1.102 15.151 1.109 15.344 1.073 15.309 1.026 14.432 1.008 14.651 1.054 14.689 1.070 15.269 1.102 15.902 1.141 16.471 1.183. 16.912 1.219 17.045 1.273 17.564 1.328 18.270 1.370 18.950 1.376* 19.221" 1.316 18.399 1.133 15.568 0.791 10.630 0.207 2.933 Edit Zone5 6

9 10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR 0.746 0.990 51 0.475 0.560 1

0.829 1.144 11 0.646 1.131 37 0.880 1.017 31 1.042 1.215 43 1.135 1.304 39 1.058 1.206 39 0.969 1.179 43 1.089 1.217 11 1.106 1.286 41 1.136 1.226 9

1.097 1.221 9

JR 30 22 18 24 26 44 40 52 48 20 40 20 24 27 29 IR: 2 14 6 10 14 18 22 26 30 34 38 42 46 50 54 58 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%)

Source Convergence 10.18 1.00302 Bottom 1

0.432 22.910

% AXIAL TILT -12.

18.376 AVG BOT 8ft/12ft 1.C 548.3 84.98 Active Channel Flow: Mlb/hr 14.8 (of total core flow)

-0.0 (of total core flow) 0.00007

.323 -10.699 617 1.0513 84.98 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.304 15 39 40 1.286 19 41 40 1.286 15 41 42 1.286 19 39 42 1.280 15 37 42 1.278 19 39 24 1.277 19 37 40 1.275 15 41 24 1.248 15 39 26 1.244 15 35 40 MCPR Value Margin FT 1.739 0.857 19 1.743 0.855 19 1.762 0.846 19 1.763 0.845 19 1.795 0.830 19 1.804 0.826 19 1.823 0.817 21 1.826 0.816 19 1.826 0.816 19 1.830 0.814 21 IR JR 41 40 39 42 39 38 37 40 41 36 35 20 9 24 43 20 41 44 49 40 Value 7.61 7.56 7.55 7.50 7.28 7.24 7.33 7.24 7.36 7.14 APLHGR Margin Exp.

FT 0.609 0.0 20 0.605 0.0 20 0.604 0.0 20 0.600 0.0 20 0.597 26.5 18 0.593 26.5 18 0.593 25.2 16 0.590 25.9 16 0.589 0.0 21 0.588 27.0 16 IR JR 39 54 41 52 53 40 51 42 41 54 53 42 39 52 37 54 37 52 51 40 K

5 5

5 5

5 5

5 5

5 5

LHGR Value Margin Exp. FT 10.25 0.765 0.0 21 10.16 0.758 0.0 21 7.97 0.753 24.4 16 7.93 0.746 24.0 16 7.96 0.743 23.2 16 9.95 0.742 0.0 21 9.91 0.740 0.0 20 9.89 0.738 0.0 20 9.85 0.735 0.0 21 9.84 0.734 0.0 20 IR JR 23 10 9 24 37 54 7 24 39 52 39 50 39 54 41 52 49 40 53 40 K

5 5

5 5

5 5

5 5

5 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Therma-.--.imit--file:

Figure A.1 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 0.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-7 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 1

3 5

7 9 11 13 1i 1

3 5

7 10 14 14--------

13------

15 14 10 0

17-19 14 21------

23 10 14 IA 25 27 1i 29 IR: 2 6 10 14 18 22 26 3(

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9

200.0 ( 27.24 200.0 ( 27.24 3458.0 (100.00 %)

1050.1

-26.18 99.74 ( 97.31 %)

Core Average Exposure: MWd/MTU 14484.9 5 17 19 21 23 25 27 4

0 --

14 --

10....

29

(

0 -------- 14 0 --

10 --

14 --

I----------14-......

0 --

14 10 4

0 34 38 42 46 50 54 58 10.18 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N(PRA)

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Axial Profile Power Exposure 0.138 2.418 0.463 7.468 0.662 10.257 0.841 12.380 0.978 13.940 1.071 14.914 1.110 15.389 1.117 15.584 1.080 15.542 1.033 14.647 1.014 14.861 1.060 14.887 1.075 15.470 1.106 16.110 1.144 16.686 1.186 17.135 1.220 17.275 1.270 17.803 1.320 18.521 1.355 19.208 1.357* 19.481*

1.296 18.647 1.117 15.781 0.782 10.779 0.205 2.972 Edit Radial Power Zone Avg.

Max.

IR 5

0.747 0.989 51 6

0.478 0.564 1

9 0.833 1.147 11 10 0.648 1.126 37 11 0.879 1.011 31 14 1.045 1.216 43 15 1.133 1.302 39 16 1.060 1.209 39 17 0.974 1.181 43 18 1.092 1.220 11 19 1.101 1.280 41 20 1.135 1.224 9

21 1.096 1.219 9

JR 30 22 18 24 26 44 40 52 48 20 40 20 24 1.00289 Bottom 1

0.431 22.806

% AXIAL TILT -11.

18.271 AVG BOT 8ft/12ft 1.C 548.3 84.76 Active Channel Flow: Mlb/hr 15.0 (of total core flow)

-0.0 (of total core flow) 0.00007

.671 -10.633

)583 1.0509 84.76 Top Ten Thermal Limits Summary -

Sorted by Margin Power Value FT IR JR 1.302 15 39 40 1.285 15 41 42 1.280 19 41 40 1.279 19 39 42 1.277 15 37 42 1.273 15 41 24 1.271 19 39 24 1.269 19 37 40 1.244 15 39 26 1.241 15 35 40 MCPR Value Margin FT 1.745 0.854 19 1.749 0.852 19 1.770 0.842 19 1.770 0.842 19 1.802 0.827 19 1.811 0.823 19 1.822 0.818 21 1.829 0.815 19 1.829 0.814 21 1.830 0.814 19 IR JR 41 40 39 42 39 38 37 40 41 36 35 20 9 24 43 20 49 40 41 44 APLHGR Value Margin Exp.

FT 7.49 0.599 0.4 20 7.43 0.595 0.4 20 7.43 0.594 0.4 20 7.21 0.593 26.9 18 7.17 0.590 26.9 18 7.37 0.589 0.4 20 7.25 0.588 25.5 16 7.16 0.585 26.3 16 7.06 0.583 27.3 16 7.12 0,580 25.9 16 IR JR 39 54 41 52 53 40 41 54 53 42 51 42 39 52 37 54 51 40 53 38 K

5 55 5

5 5

5 5

5 LHGR Value Margin Exp. FT 10.06 0.751 0.5 21 7.88 0.747 24.9 16 9.96 0.743 0.5 21 7.84 0.740 24.4 16 7.87 0.737 23.6 16 9.76 0.728 0.5 21 7.60 0.727 25.9 16 7.58 0.725 25.7 18 7.56 0.724 26.0 16 9.70 0.724 0.5 20 IR JR 23 10 37 54 9 24 7 24 39 52 39 50 51 40 39 56 43 52 39 54 K

5 5

5 5

5 5

5 5

5 5

• LHGR calculated with pin-power reconstruction

" CPR calculated with pin-power reconstruction & CPR limit type 3

• -Thermal limit--file:

Figure A.2 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 200.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-8 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

500.0 (

68.09 300.0 (

40.86 3458.0 (100.00 %)

1050.1

-25.43 102.50 (100.00%)

Core Average Exposure: MWd/MTU 14784.9 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 14 5

7 10 --

14 --

10 --

14 --

10 9

11----

- 14 0 --------

14-13 15 --

14 --

10 --

0 0

10 --

14 --

17---

19....

-14 0

14 --------

21---

23 10 --

14 --

10 --

14 -

10-....

25 27 14-29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3

JR N (PRA Top 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

Axial Profile Power Exposure 0.142 2.468 0.474 7.618 0.678 10.471 0.859 12.653 0.997 14.258 1.090 15.261 1,129 15,750 1.135 15.947 1.098 15.892 1.050 14.971 1.031 15.180 1.077 15.186 1.092 15.774 1.122 16.422 1.158 17.008 1.196 17.470 1.224 17.620 1.264 18.163 1.301 18.894 1.322* 19.592 1.310 19.865*

1.241 19.014 1.067 16.097 0.748 11.000 0.197 3.030 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.747 0.988 51 30 0.477 0.563 1 22 0.833 1.148 11 18 0.646 1.122 37 24 0.875 1.003 31 26 1.048 1.220 43 44 1.132 1.303 39 22 1.065 1.213 39 52 0.977 1.184 43 48 1.095 1.223 11 20 1.098 1.278 41 40 1.134 1.223 9 20 1.096 1.219 9 24 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.18 1.00265 0.422 23.678 19.142 548.3 4

.3 2

Bottom 1

% AXIAL TILT -10.000 -10.524 AVG BOT 8ft/12ft 1.0499 1.0502 87.23 Active Channel Flow: Mlb/hr 14.9 (of total core flow)

-0.0 (of total core flow) 0.00005 87.23 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.303 15 39 22 1.287 15 41 42 1.278 15 37 42 1.278 19 41 40 1.277 19 39 42 1.274 15 41 24 1.266 19 39 24 1.265 19 37 40 1.243 15 39 26 1.239 15 35 40 MCPR Value Margin FT 1.765 0.844 19 1.768 0.843 19 1.794 0.830 19 1.794 0.830 19 1.826 0.816 19 1.833 0.813 19 1.838 0.811 21 1.844 0.808 21 1.845 0.807 19 1.846 0.807 19 IR JR 41 40 39 42 37 40 39 38 41 36 35 20 9 24 49 40 43 20 41 44 APLHGR Value Margin Exp.

FT 7.27 0.581 0.9 20 7.00 0.578 27.4 18 7.20 0.576 0.9 20 7.20 0.576 0.9 20 7.05 0.575 26.1 16 6.96 0.575 27.4 18 6.96 0.572 26.8 16 7.13 0.571 0.9 20 6.85 0.569 27.8 16 6.91 0.566 26.4 16 IR JR 39 54 41 54 41 52 53 40 39 52 53 42 37 54 51 42 51 40 53 38 K

5 5

5 5

5 5

5 5

5 5

LHGR Value Margin Exp. FT 7.64 0.729 25.5 16 9.73 0.726 1.3 21 7.60 0.721 25.0 16 7.64 0.720 24.3 16 9.61 0.717 1.3 21 7.37 0.710 26.5 16 7.34 0.706 26.3 18 7.32 0.705 26.6 16 7.34 0.704 26.0 18 7.39 0.703 25.2 16 IR JR 37 54 23 10 7 24 39 52 9 24 51 40 39 56 43 52 41 54 9 18 K

5 5

5 5

5 5

5 5

5 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit-file:

Figure A.3 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 500.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-9 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 1

3 5

7 9

11 13 15 17 19 21 23 25 27 29 IR:

1 3

5 7

9 11 10 14 14 14 --

10 --

0

14..

10..

-14 1

- -10 14 13 26 15 14 10 0

10 14 30 9

1000.0 ( 136.19 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-26.70 97.89 ( 95.50 %)

17 19 21 23 25 27 29 14 --

10....

.. 14----.

0 --

10 --

14 --

14--------

14 10 34 38 42 46 50 54 58 10.18 Core Average Exposure: MWd/MTU 15284.9 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.145 2.554 0.481 7.873 0.687 10.836 0.869 13.117 1.009 14.797 1.103 15.851 1.143 16.360 1.149 16.561 1.111 16.486 1.060 15.520 1.038 15.719 1.081 15.693 1.093 16.287 1.120 16.949 1.155 17.553 1.191 18.032 1.219 18.197 1.257 18.758 1.291 19.507 1.307" 20.215 1.290 20.482*

1.219 19.598 1.049 16.600 0.738 11.353 0.195 3.123 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.743 0.987 51 30 6

0.471 0.557 1 22 9

0.826 1.142 11 18 10 0.641 1.120 37 24 11 0.869 0.998 31 26 14 1.047 1.226 43 44 15 1.135 1.307 39 22 16 1.066 1.211 21 10 17 0.972 1.184 43 48 18 1.093 1.221 11 20 19 1.104 1.288 41 40 20 1.131 1.221 9 20 21 1.096 1.222 9 24 2

6 10 14 18 22 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 1.00244 0.426 22.174 17.640

% AXIAL TILT

-9.015 -10.297 AVG BOT 8ft/12ft 1.0442 1.0488 548.1 83.36 Active Channel Flow: Mlb/hr 14.8 (of total core flow)

-0.0 (of total core flow) 0.00010 83.36 Top Ten Thermal Limits Summary -

Sorted by Margin Power Value FT IR JR 1.307 15 39 22 1.293 15 41 42 1.288 19 41 40 1.287 19 39 42 1.283 15 37 42 1.277 15 41 24 1.275 19 39 24 1.273 19 37 40 1.246 15 39 26 1.242 15 35 40 MCPR Value Margin FT 1.715 0.869 19 1.718 0.867 19 1.746 0.853 19 1.747 0.853 19 1.777 0.838 19 1.784 0.835 19 1.793 0.831 19 1.793 0.831 21 1.794 0.831 19 1.798 0.829 21 IR JR 41 22 39 42 37 40 39 38 19 26 35 20 43 20 9 24 41 44 49 40 APLHGR Value Margin Exp.

FT 7.18 0.574 23.9 16 7.14 0.571 1.9 20 6.90 0.567 26.9 16 7.08 0.566 1.9 20 6.80 0.566 28.3 18 7.08 0.566 1.8 20 6.81 0.564 27.7 16 6.75 0.562 28.3 18 7.19 0.561 19.6 16 7.14 0.561 21.8 16 IR JR K

45 38 19 39 54 5

39 52 5

41 52 5

41 54 5

53 40 5

37 54 5

53 42 5

23 16 19 13 22 19 LHGR Value Margin Exp.

FT 7.42 0.719 27.0 16 7.90 0.717 20.4 16 9.55 0.712 2.5 21 7.42 0.711 26.0 16 7.47 0.711 25.3 16 7.81 0.707 20.2 16 7.92 0.703 18.1 16 9.42 0.703 2.5 21 7.76 0.701 19.9 16 7.20 0.700 27.5 16 IR JR K

23 8

5 45 24 19 23 10 5 7 24 5

39 52 5

13 22 19 37 16 19 9 24 5

39 14 19 51 40 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit-file:

Figure A.4 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 1,000.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-10 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

1500.0 ( 204.28 500.0 ( 68.09 3458.0 (100.00 %)

1050.1

-28.24 92.82 ( 90.56 %)

Core Average Exposure: MWd/MTU 15784.9 1

3 5

7 9

11 13 15 17 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 14 14 10 14 --

14

-- 10 --

0 --

10 0

0 10 14 30 14 --

10....

14 0 -- 10 --

14 --

14 14 --

10....

34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3

JR N (PRA.

Top 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

19 14 21 23 10 14 25 27 29 IR: 2 6 10 14 18 22 26 Axial Profile Power Exposure 0.149 2.642 0.489 8.132 0.697 11.206 0.878 13.587 1.018 15.343 1.111 16.448 1.150 16.979 1.156 17.183 1.118 17.087 1.068 16.074 1.046 16.261 1.088 16.201 1.099 16.801 1.125 17.476 1.158 18.096 1.192 18.592 1.217 18.771 1.250 19.351 1.277 20.116 1.287* 20.831 1.268 21.090" 1.199 20.173 1.035 17.095 0.732 11.700 0.195 3.215

-8.224 -10.052 1.0402 1.0474

/hr 78.88 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.740 0.986 51 30 0.466 0.552 1 22 0.819 1.135 11 18 0.637 1.116 37 24 0.863 0.994 31 26 1.046 1.229 43 44 1.135 1.307 39 22 1.066 1.210 21 10 0.967 1.183 43 48 1.090 1.218 11 20 1.111 1.293 39 42 1.129 1.218 9 20 1.098 1.225 9 24 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.18 4

3 2

1.00208 Bottom 1

0.432 20.451

% AXIAL TILT 15.918 AVG BOT 8ft/12ft 547.9 78.88 Active Channel Flow: Mlb, 15.0 (of total core flow)

-0.0 (of total core flow) 0.00007 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.307 15 39 22 1.294 15 41 42 1.293 19 39 42 1.293 19 41 40 1.283 15 23 42 1.279 19 39 24 1.278 19 37 40 1.277 15 41 24 1.248 19 43 42 1.248 19 41 44 MCPR Value Margin FT 1.670 0.892 19 1.672 0.891 19 1.702 0.875 19 1.703 0.875 19 1.733 0.860 19 1.737 0.858 19 1.745 0.854 19 1.746 0.853 19 1.748 0.852 21 1.754 0.850 21 IR JR 41 22 39 20 37 40 21 38 41 26 35 20 43 20 41 44 9 24 49 40 Value 7.19 7.18 7.25 7.14 7.02 7.01 6.98 6.73 6.63 6.92 APLHGR Margin Exp. FT 0.579 24.8 16 0.568 22.7 16 0.566 20.5 16 0.563 22.4 16 0.562 2.6 19 0.561 2.6 19 0.559 2.8 20 0.558 27.7 16 0.554 28.5 16 0.554 2.7 20 IR JR 45 38 13 22 37 16 39 14 15 22 39 16 39 54 39 52 37 54 41 52 K

19 19 19 19 19 19 5

5 5

5 LHGR Value Margin Exp. FT 7.90 0.725 21.4 16 7.83 0.716 21.2 16 7.95 0.713 19.2 16 7.80 0.712 20.9 16 7.22 0.706 27.9 16 7.21 0.699 27.0 16 7.27 0.699 26.3 16 9.31 0.695 3.8 21 7.00 0.688 28.4 16 9.18 0.685 3.7 21 IR JR K

45 24 19 13 22 19 37 16 19 39 14 19 23 8

5 7 24 5

39 52 5

23 10 5

51 40 5

9 24 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

-*-Thff..l limit-file:---------------------------...

Figure A.5 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 1,500.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-1I Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

2000.0 ( 272.37 }

500.0 (

68.09 3458.0 (100.00 %)

1050.1

-29.25 89.75 ( 87.56 %)

Core Average Exposure: MWd/MTU 16284.9 1

3 5

7 9

1 3

5 7

9 11 13 10 14 --

15 14 10 17 11 --

13 15 --

17 19 21 23 25 27 29 IR: 2 14-------

0 19 21 23 25 27 29 14 --

10....

14 --.-----

0 --

10 --

14 --

14----...

14 10 14 10 0

14

1.

10 --

14 --

0 10 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA Top 25 24 23 22 21 JR 20 19 is 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Axial Profile Power Exposure 0.153 2.732 0.500 8.396 0.710 11.581 0.892 14.062 1.031 15.894 1.123 17.049 1.161 17.601 1.166 17.808 1.127 17.691 1.078 16.633 1.055 16.808 1.096 16.713 1.106 17.318 1.131 18.005 1.161 18.641 1.192 19.153 1.213 19.344 1.240 19.940 1.260 20.718 1.264* 21.437 1.241 21.688*

1.172 20.738 1.015 17.582 0.722 12.045 0.193 3.307 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.738 0.986 51 30 6

0.461 0.547 1 22 9

0.813 1.130 11 18 10 0.633 1.112 37 24 11 0.858 0.988 31 26 14 1.045 1.232 43 44 15 1.135 1.307 39 22 16 1.067 1.210 21 10 17 0.964 1.182 43 48 18 1.089 1.215 11 20 19 1.116 1.299 39 42 20 1.128 1.217 9 20 21 1.101 1.229 9 24 14------------

6 10 14 18 22 26 30 34 38 42 46 50 54 58 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.18 1.00187 Bottom 1

0.434 19.404

% AXIAL TILT

-7.

14.871 AVG BOT 8ft/12ft 1.0 547.8 76.19 Active Channel Flow: Mlb/hr 15.1 (of total core flow)

-0.0 (of total core flow) 0.00009

.172

-9.798 346 1.0459 76.19 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.307 15 39 22 1.299 19 39 42 1.299 19 41 40 1.295 15 41 20 1.283 19 39 24 1.283 15 23 42 1.282 19 23 40 1.276 15 41 24 1.255 19 43 42 1.255 19 41 44 MCP?

Value Margin FT 1.638 0.909 19 1.640 0.909 19 1.672 0.891 19 1.673 0.890 19 1.703 0.875 19 1.705 0.874 19 1.710 0.871 19 1.711 0.871 19 1.717 0.868 21 1.721 0.866 21 IR JR 41 22 39 20 23 40 39 24 41 26 35 20 43 20 41 44 9 24 23 10 Value 7.21 7.24 7.34 7.22 7.11 7.11 6.98 6.95 6.54 6.82 APLHGR Margin Exp.

FT 0.586 25.6 16 0.577 23.6 16 0.574 21.4 16 0.574 23.2 16 0.569 3.5 19 0.569 3.5 19 0,559 3.4 19 0.556 3.4 19 0.547 28.6 16 0.545 3.6 20 IR JR K

45 38 19 13 22 19 37 16 19 39 14 19 39 16 19 15 22 19 13 24 19 37 14 19 39 52 5

39 54 5

LHGR Value Margin Exp.

FT 7.92 0.734 22.5 16 7.86 0.727 22.3 16 8.00 0.725 20.2 16 7.86 0.725 22.0 16 7.02 0.693 28.9 16 7.06 0.686 27.2 16 7.00 0.685 28.0 16 9.06 0.676 4.9 21 6.80 0.675 29.3 16 8.92 0.666 4.9 21 IR JR K

45 24 19 13 22 19 37 16 19 39 14 19 23 8

5 39 52 5

7 24 5

23 10 5

51 40 5

9 24 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal-limit file:

Figure A.6 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 2,000.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-12 Cycle:

Exposure: MWd/MTU (GW Delta E: MWd/MTU, (GW Power: MWt Core Pressure: psia Inlet Subcooling: Btu Flow: Mlb/hr 9

d) 2291.7 ( 312.10 d) 291.7 ( 39.73 3458.0 (100.00 %)

1050.1

/lbm

-29.97 87.70 ( 85.56 %)

13 15 17 19 21 23 25 27 29 14---------

10 --

14 --

10.

Core Average Exposure: MWd/MTU 16516.7 1

3 1

3 5

7 9 11 5

7 10 14 9

11--..

14.

13------

15 14 10 0

17-19..

..- 14.

21------

23

1.

10 14 25 27 0

0 0-------

10 --

14 --

14 10 14 10 14 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3

JR N (PRA Top 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

Axial Profile Power Exposure 0.155 2.786 0.506 8.553 0.718 11.804 0.899 14.344 1.037 16.219 1.128 17.403 1.165 17.967 1.170 18.176 1.132 18.047 1.082 16.962 1.059 17.130 1.101 17.014 1.110 17.621 1.134 18.315 1.163 18.959 1.193 19.480 1.211 19.678 1.235 20.281 1.251* 21.064 1.251 21.785 1.226 22.029*

1.159 21.061 1.005 17.862 0.717 12,244 0.192 3.361 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.736 0.985 29 52 6

0.459 0.544 1 22 9

0.810 1.126 11 18 10 0.631 1.110 37 24 11 0.854 0.985 31 26 14 1.044 1.233 43 44 15 1.134 1.307 39 22 16 1.068 1.210 21 10 17 0.962 1.182 43 48 18 1.088 1.214 11 20 19 1.119 1.303 39 42 20 1.128 1.217 19 10 21 1.102 1.231 9 24 14------------

29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (t):

Total Water Rod Flow (%):

Source Convergence 10.18 1.00166 0.435 18.775 14.242 547.7 74.43 15.1

-0.0 0.00008 4

3 2

Bottom 1

% AXIAL TILT

-6.638 AVG BOT 8ft/12ft 1.0318 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow)

-9.639 1.0450 74.43 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.307 15 39 22 1.303 19 39 42 1.302 19 41 40 1.295 15 41 20 1.286 19 39 24 1.285 19 23 40 1.283 15 23 42 1.275 15 41 24 1.259 19 43 42 1.258 19 41 44 MCPR Value Margin FT 1.616 0.922 19 1.617 0.922 19 1.651 0.903 19 1.651 0.902 19 1.680 0.887 19 1.682 0.886 19 1.687 0.883 19 1.687 0.883 19 1.695 0.879 21 1.697 0.878.21 IR JR 41 22 39 20 37 40 39 24 41 26 25 42 43 20 41 44 9 24 23 10 APLHGR Value Margin Exp. FT 7.21 0.589 26.1 16 7.26 0.582 24.1 16 7.38 0.580 21.9 16 7.26 0.580 23.7 16 7.15 0.572 4.0 19 7.14 0.572 4.0 19 7.02 0.561 3.9 19 7.01 0.560 3.9 19 6.45 0.541 29.0 16 6.73 0.538 4.1 20 IR JR K

45 38 19 13 22 19 37 16 19 39 14 19 39 16 19 15 22 19 13 24 19 37 14 19 39 52 5

39 54 5

LHGR Value Margin Exp.

FT 7.92 0.738 23.1 16 8.03 0.732 20.9 16 7.87 0.732 22.9 16 7.88 0.731 22.6 16 6.91 0.686 29.4 16 6.95 0.679 27.8 16 6.89 0.678 28.5 16 6.70 0.668 29.9 16 8.92 0.666 5.6 21 8.78 0.655 5.5 21 IR JR 45 24 37 16 13 22 39 14 23 8

39 52 7 24 51 40 23 10 9 24 K

19 19 19 19 5

5 5

5 5

5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit typo 3

• Thermal limit file:

Figure A.7 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 2,291.7 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-13 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

2293.2 ( 312.30 1.5 (

0.20 3458.0 (100.00 %)

1050.1

-25.75 101.32.( 98.84 %)

Core Average Exposure: MWd/MTU 16578.1 1

3 5

7 9 11 1

3 5

14 7

9 14 0

11 13 --

I------10 6

15 17 10 6

19 21 -------- 14 0

23 25 14 27 29 IR: 2 6 10 14 18 22 13 26 15 10 6

6 10 30 17 34 19 21 23 25 27 29 14-------

0 --

14--

6 10 6 --

10---....

0 --

14----...

14 --.-----

38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N(PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Axial Profile Power Exposure 0.151 2.786

.0.495 8.553 0.700 11.806 0.868 14.345 0.985 16.221 1.065 17.405 1.105 17.969 1.121 18.178 1.104 18.049 1.070 16.963 1.059 17.132 1.112 17.015 1.130

'17.623 1.161 18.317 1.197 18.961 1.229 19.482 1.248 19.680 1.269 20.282 1.280* 21.066 1,274 21.787 1.244 22.031*

1.176 21.062 1.025 17.863 0.735 12.245 0.197 3.361 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.822 1.155 29 52 6

0.484 0.584 53 12 9

0.851 1.199 43 50 10 0.676 1.084 29 48 11 0.781 0.837 25 32 14 1.092 1.244 11 24 15 0.969 1.167 27 46 16 1.156 1.265 9 22 17 1.046 1.286 43 48 18 1.160 1.282 9 26 19 1.037 1.245 31 54 20 1.193 1.276 9 20 21 1.190 1.304 9 24 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.63 1.00173 Bottom 1

0.419 23.381

% AXIAL TILT

-9.

18.848 AVG BOT 8ft/12ft 1.C 548.1 86.63 Active Channel Flow: Mlb/hr 14.5 (of total core flow)

-0.0 (of total core flow) 0.00009

.223 -9.638 0507 1.0450 86.63 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.304 21 9 24 1.286 17 43 48 1.286 21 7 26 1.282 18 9 26 1.276 20 9 20 1.274 21 45 14 1.273 21 11 22 1.272 21 33 52 1.270 18 7 28 1.268 20 7 22 MCPR Value Margin FT 1.737 0.858 21 1.757 0.848 21 1.777 0.838 21 1.778 0.838 21 1.780 0.837 21 1.785 0.835 21 1.787 0.834 21 1.793 0.831 20 1.860 0.801 20 1.864 0.799 21 TR JR 9 24 15 48 9 34 49 40 47 16 33 10 7 26 9 20 7 22 25 8

APLHGR Value Margin Exp.

FT 7.12 0.599 29.3 16 7.48 0.599 3.8 21 7.39 0.591 4.0 21 7.37 0.590 23.9 18 7.07 0.589 28.4 18 7.34 0.587 4.1 20 7.43 0.587 22.6 17 6.85 0.584 30.7 16 6.72 0.571 30.3 18 6.63 0.570 31.6 16 IR JR K

53 38 5

7 26 5

51 38 5

53 28 5

51 26 5

53 40 5

13 18 19 51 40 5

53 42 5

5 26 5

LHGR Value Margin Exp. FT 7.67 0.754 28.5 16 7.39 0.738 29.9 16 9.79 0.731 5.6 21 7.53 0.728 26.9 18 9.75 0.727 5.2 21 7.19 0.726 31.0 16 7.92 0.724 21.0 18 7.38 0.720 27.7 16 7.71 0.714 22.5 16 9.56 0.714 5.2 21 IR JR 7 24 51 40 9 24 9 26 7 26 55 26 7 28 55 32 45 42 55 24 K

5 5

5 5

5 5

5 5

19 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.8 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 2,293.2 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-14 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 1

3 5

7 9 11 13 15 1

3 5

14 7

9 14 0

10 11 13 10 6

6 15 17.--

10 6

6 19 21......-

14 --

0 --

10 23 25 14 27 29 IR: 2 6 10 14 18 22 26 30 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9

2500.0 ( 340.47 206.8 (

28.17 3458.0 (100.00 %)

1050.1

-25.91 100.72 ( 98.26 %)

Core Average Exposure: MWd/MTU 16785.0 17 34 19 21 23 25 27 29 59 55 14 51 47 0

14 43 39 6 --

0-- ----- 35 31 6 --

0-- -----

27 23 0

14 19 15 14 11 7

3 38 42 46 50 54 58 10.63 Axial Profile N(PRA) Power Exposure Top 25 0.153 2.824 24 0.500 8.664 23 0.707 11.962 22 0.874 14.539 21 0.991 16.441

JR 20 1.070 17.643 19 1.110 18.216 18 1.125 18.429 17 1.108 18.296 16 1.074 17,195 15 1.063 17.361 14 1.116 17.231 13 1.134 17,843 12 1.164 18.543 11 1.199 19.194 10 1.230 19.721 9

1.246 19.923 8

1.264 20.530 7 1.272* 21.316 6 1.263 22.035 5

1.231 22.273*

4 1.164 21.291 3

1.016 18.063 2

0.730 12.388 Bottom 1

0.197 3.399 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.820 1.154 29 52 0.482 0.581 53 12 0.848 1.197 43 50 0.674 1.084 29 48 0.779 0.837 25 32 1.091 1.245 11 24 0.970 1.168 27 46 1.156 1.264 9 22 1.044 1.285 43 48 1.159 1.281 9 26 1.040 1.245 31 54 1.192 1.276 9 20 1.191 1.306 9 24 1.00162 0.419 23.032

% AXIAL TILT

-8.734

-9.554 18.497 AVG BOT Bft/12ft 1.0481 1.0446 548.1 85.70 Active Channel Flow: Mlb/hr 85.70 14.9 (of total core flow)

-0.0 (of total core flow) 0.00007 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.306 21 9 24 1.286 21 7 26 1.285 17 43 48 1.281 18 9 26 1.276 20 9 20 1.275 21 45 14 1.275 21 11 22 1.274 21 33 52 1.269 18 7 28 1.268 21 9 28 Value 1.726 1.747 1.764 1.766 1.770 1.771 1.777 1.783 1.849 1.852 MCPR Margin FT 0.864 21 0.853 21 0.845 21 0.844 21 0.842 21 0.842 21 0.839 21 0.836 20 0.806 20 0.804 21 IR JR 9 24 15 48 9 34 49 40 47 16 33 10 7 26 9 20 7 22 25 8

APLHGR Value Margin Exp.

FT 7.42 0.593 4.2 21 7.03 0.593 29.7 16 7.45 0.591 22.9 17 7.33 0.586 4.4 21 7.29 0.585 24.3 18 6.99 0.585 28.7 18 7.26 0.581 4.5 20 6.76 0.579 31.1 16 7.17 0.571 23.4 16 6.62 0.564 30.7 18 IR JR 7 26 53 38 13 18 51 38 53 28 51 26 53 40 51 40 15 42 53 42 K

5 5

19 5

5 5

5 5

19 5

LHGR Value Margin Exp.

FT 7.56 0.747 28.9 16 7.30 0.731 30.3 16 7.44 0.723 27.3 18 9.68 0.722 6.1 21 9.64 0.720 5.7 21 7.09 0,719 31.4 16 7.73 0.719 22.9 16 7.83 0.718 21.5 18 7.28 0.713 28.1 16 7.38 0.706 25.8 16 IR JR K

7 24 5

51 40 5

9 26 5

9 24 5

7 26 5

55 26 5

45 42 19 7 28 5

55 32 5

31 56 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.9 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 2,500.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-15 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

3000.0 ( 408.56 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-26.55 98.40 ( 96.00 %)

Core Average Exposure: MWd/MTU 17284.9 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

59 3

55 5

14 -------- 14 --

51 7

47 9......-

14--

0 --

10 0 --

14......-

43 11-39 13 -------- 10 6 --

6 6 --

10 -------- 35 15 ------------------------------

31 17 --------

-10 6--

6--

6 --

oi0......-

27 19 23 21......-

14 0 --

10 0 --

14......-

19 23 15 25 14..

..- 14 11 27 7

Axial Profile N(PRA) Power Exposure Top 25 0.157 2.917 24 0.512 8.933 23 0.722 12.342 22 0.889 15.012 21 1.005 16.977

JR 20 1.082 18.222 19 1.120 18.817 18 1.135 19.038 17 1.117 18.895 16 1.084 17.757 15 1.073 17.917 14 1.127 17.756 13 1.144 18.376 12 1.173 19.090 11 1.205 19.757 10 1.232 20.299 9

1.243 20.510 8

1.255 21.126 7 1.255* 21.915 6

1.239 22.630 5

1.201 22.854*

4 1.132 21.840 3

0.989 18.541 2

0.715 12.732 Bottom 1

0.193 3.492 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.816 1.151 29 52 0.476 0.575 53 12 0.842 1.190 43 50 0.668 1.082 29 48 0.776 0.836 25 32 1.090 1.246 11 24 0.973 1,171 27 46 1.155 1.261 9 22 1.038 1.282 43 48 1.156 1.280 9 26 1.046 1.246 31 54 1.191 1.274 9 20 1.193 1.309 9 24 29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 3

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.63 1.00131 0.420 22.215 17.681 548.0 83.70 14.9

-0.0 0.00007

% AXIAL TILT

-7.589

-9.344 AVG BOT 8ft/12ft 1.0422 1.0435 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 83.70 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR 1.309 21 9

1.288 21 7

1.282 17 43 1.280 18 9

1.279 21 11 1.279 21 33 1.276 21 45 1.274 20 9

1.272 21 9

1.266 18 7

JR 24 26 48 26 22 52 14 20 28 28 MCPR Value Margin FT 1.698 0.877 21 1.727 0.863 21 1.734 0.860 21 1.737 0.858 21 1.739 0.857 21 1.751 0.851 21 1.752 0.850 21 1.765 0.844 20 1.825 0.817 21 1.828 0.815 20 IR JR 9 24 15 48 9 34 33 10 49 40 47 16 7 26 9 20 25 8

7 22 APLHGR Value Margin Exp.

FT 7.47 0.597 23.8 17 7.26 0.581 5.1 21 7.23 0.580 24.3 16 6.81 0.580 30.5 16 7.19 0.575 5.3 21 6.81 0.574 29.6 18 7.09 0.574 25.1 18 6.56 0.566 31.9 16 7.08 0.566 5.4 20 7.03 0.563 4.6 19 IR JR 13 18 7 26 15 42 53 38 51 38 51 26 53 28 51 40 53 40 15 18 K

19 5

19 5

5 5

5 5

5 19 Value 7.32 7.74 7.07 7.24 7.61 7.88 6.86 9.41 9.39 7.03 LHGR Margin Exp. FT 0.731 29.9 16 0.727 23.9 16 0.716 31.2 16 0.710 28.2 18 0.705 22.5 18 0.704 23.4 17 0.703 32.4 16 0.702 7.3 21 0.701 6.9 21 0.696 29.1 16 IR JR K

7 24 5

45 42 19 51 40 5

9 26 5

7 28 5

13 18 19 55 26 5

9 24 5

7 26 5

55 32 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.10 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 3,000.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-16 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

3500.0 ( 476.65 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-27.08 96.60 (.94.24 %)

Core Average Exposure: MWd/MTU 17785.0 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 1

3 5

7 9

13....

15 17 19 21....

23 25 27 29 IR: 2 6

14 14 --

0 10 --

6 10 --

6 14 --

0

-0..

14 10 14 18 22 14 --

10 --

0 --

6 --

6 --

6 --

6 --

10 --

0 --

3 14 26 30 34 38 42 23 25 27 29 59 55 51 47 14..

..- 43 39 10..

35 31 10..

..- 27 23 14..

..- 19 15

.-11 7

3 46 50 54 58 N(PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom I

Power Exposure 0.162 3.012 0.525 9.209 0.737 12.731 0.904 15.493 1.018 17.521 1.093 18.808 1.129 19.423 1.142 19.651 1.124 19.500 1.092 18.323 1.082 18.478 1.136 18.286 1.154 18.914 1.181 19.642 1.210 20.324 1.234 20.878 1.241 21.096 1.246* 21.717 1.240 22.507 1.216 23.214 1.174 23.420*

1.103 22.374 0.965 19.008 0.701 13.070 0.190 3.583 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.812 1.150 29 52 6

0.471 0.569 49 8

9 0.836 1.185 43 50 10 0.663 1.081 29 48 11 0.772 0.834 25 32 14 1.088 1.249 27 50 15 0.974 1.174 27 46 16 1.154 1.258 9 22 17 1.034 1.279 43 48 18 1.154 1.280 9 26 19 1.052 1.250 31 54 20 1.191 1.274 9 20 21 1.196 1.314 9 24 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.63

1. 00103 0.419 21.612 17.079 547.9 82.28 14.8

-0.0 0.00009

% AXIAL TILT

-6.534

-9.114 AVG BOT 8ft/12ft 1.0367 1.0423 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 82.28 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.314 21 9 24 1.291 21 7 26 1.285 21 33 52 1.284 21 11 22 1.280 18 9 26 1.279 17 43 48 1.278 21 45 14 1.277 21 9 28 1.274 20 9 20 1.265 18 7 28 MCPR Value Margin FT 1.673 0.891 21 1.709 0.872 21 1.710 0.871 21 1.712 0.870 21 1.714 0.869 21 1.728 0.862 21 1.736 0.858 21 1.749 0.852 20 1.804 0.826 21 1.808 0.824 19 IR JR 9 24 9 34 33 10 15 48 49 40 7 26 47 16 9 20 25 8

19 14 APLHGR Value Margin Exp.

FT 7.48 0.603 24.7 17 7.27 0.588 25.2 16 7.15 0.572 6.1 21 6.63 0.569 31.4 16 7.10 0.568 5.5 19 7.08 0.566 6.2 21 6.66 0.566 30.4 18 7.06 0.565 24.0 14 6.92 0.565 26.0 18 7.06 0.565 5.6 19 IR JR K

13 18 19 15 42 19 7 26 5

53 38 5

15 18 19 51 24 5

51 26 5

23 12 19 53 28 5

13 20 19 LHGR Value Margin Exp.

FT 7.74 0.735 25.0 16 7.11 0.717 30.9 16 7.87 0.710 24.4 17 6.88 0.703 32.2 16 7.06 0.699 29.2 18 7.42 0.695 23.5 18 7.50 0.691 21.9 16 6.67 0.689 33.3 16 9.19 0.686 8.1 21 9.18 0.685 8.5 21 IR JR K

45 42 19 7 24 5

13 18 19 51 40 5

9 26 5

7 28 5

21 10 19 55 26 5

7 26 5

9 24 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:.....................................

Figure A.11 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 3,500.0 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-17 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcoollng: Btu/ibm Flow: Mlb/hr Core Average Exposure: MWd/MTU 18285.0 4000.0 500.0 3458.0 1050.1

-27.48 95.24 544.74 68.09 (100.00 %)

92.92 %)

1 3

5 7

9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 9

13 15 17 19 21 23 25 27 29 IR: 2 14 14 0

10 10 6

6 10 6

6 14 0

10

-1

-- -- 14 6 10 14 18 22 26 30 59 55 14 51 47 0 --

14 ------

43 39 6 --

0-- ----- 35 31 6 --

10....

..- 27 23 0

14 19 15 N(PRA.

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom I

Axial Profile Power Exposure 0.167 3.110 0.538 9.492 0.753 13.128 0.919 15.982 1.030 18.071 1.103 19.399 1.137 20.033 1.149 20.269 1.130 20.108 1.099 18.895 1.089 19.044 1.145 18.821 1.162 19.456 1.189 20.198 1.215 20.893 1.235 21.458 1.238* 21.681 1.237 22.305 1.225 23.091 1.196 23.788 1.149 23.973*

1.077 22.894 0.943 19.463 0.688 13.400 0.187 3.673 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.809 1.149 29 52 0.466 0.563 49 8

0.830 1.179 43 50 0.659 1.080 29 48 0.769 0.832 25 32 1.087 1.251 27 50 0.975 1.176 27 46 1.154 1.256 9 22 1.029 1.276 43 48 1.152 1.279 9 26 1.057 1.253 31 8

1.191 1.274 9 20 1.199 1.318 9 24 14 --.-----

34 38 42 46 50 54 58 11 7

3 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.63 1.00074 0.418 21.151

% AXIAL TILT

-5.542

-8.867 16.617 AVG BOT 8ft/12ft 1.0314 1.0410 547.8 81.06 Active Channel Flow: Mlb/hr 81.06 14.9 (of total core flow)

-0.0 (of total core flow) 0.00009 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.318 21 9 24 1.294 21 7 26 1.291 21 33 52 1.289 21 11 22 1.282 21 9 28 1.280 21 45 14 1.279 18 9 26 1.276 17 43 48 1.274 20 9 20 1.265 20 7 22 Value 1.650 1.686 1.686 1.691 1.695 1.706 1.723 1.732 1.780 1.787 MCPR Margin FT 0.903 21 0.884 21 0.884 21 0.881 21 0.879 21 0.873 21 0.865 21 0.860 20 0.837 21 0.834 19 IR JR 9 24 33 10 9 34 49 40 15 48 7 26 47 16 9 20 25 8

41 14 APLHGR Value Margin Exp.

FT 7.48 0.608 25.6 17 7.29 0.595 26.0 16 7.17 0.574 6.4 19 7.11 0.573 24.8 14 7.12 0.570 6.5 19 7.04 0.564 7.0 21 7.00 0.560 6.3 21 6.47 0.560 32.2 16 6.99 0.559 7.1 21 6.52 0.559 31.2 18 IR JR K

13 18 19 15 42 19 15 18 19 23 12 19 13 20 19 7 26 5

21 12 19 53 38 5

51 24 5

51 26 5

LHGR Value Margin Exp. FT 7.91 0.742 23.8 16 7.85 0.715 25.4 17 6.93 0.706 31.9 16 7.54 0.701 22.9 16 6.71 0.693 33.1 16 6.90 0.691 30.1 18 7.25 0.685 24.5 18 7.28 0.683 23.9 14 6.49 0.677 34.1 16 9.00 0.672 9.3 21 IR JR K

15 20 19 13 18 19 7 24 5

21 10 19 51 40 5

9 26 5

7 28 5

23 50 19 55 26 5

7 26 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.12 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 4,000.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-18 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

4250.0 ( 578.79 250.0 (

34.05 3458.0 (100.00 %)

1050.1

-27.64 94.73

( 92.42 %)

1 3

5 7

9 11 1

3 5

14 7

9 -------- 14 0

13 -------- 10 6

15-17..

10 6

19 21..

14 0

23 25 14 27 13 15 17 19 21 14 10 --.

0 --

6 --

6 --

6 --

6 --

-- 10--

0 --

.14 23 25 27 29 59 55 51 47 14 -------- 43 39 10..

..- 35 31 10..

..- 27 23 14..

19 15 7

N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Core Average Exposure: MWd/MTU 18535.0 Axial Profile Edit Radial Power Power Exposure Zone Avg.

Max.

IR JR 0.169 3.161 5

0.807 1.148 29 52 0.544 9.637 6

0.463 0.560 49 8

0.761 13.331 9

0.827 1.176 43 50 0.926 16.230 10 0.656 1.060 29 48 1.036 18.350 11 0.767 0.832 25 32 1.108 19.697 14 1.086 1.252 27 50 1.140 20.341 15 0.976 1.178 27 46 1.151 20.580 16 1.153 1.254 9 22 1.132 20.413 17 1.026 1.275 43 48 1.101 19.182 18 1.151 1.279 9 26 1.092 19.328 19 1,060 1.256 29 50 1.149 19.090 20 1.190 1.274 9 20 1.166 19.730 21 1,200 1.321 9 24 1.192 1.217 1.235 1.236*

1.233 1.218 1.186 1.138 1.066 0.933 0.682 0.186 20.477 21.179 21.749 21.973 22.596 23.380 24.069 24.244*

23.148 19.685 13.562 3.717 29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 3

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.63 1.00057 0.418 20.932 16.398 547.7 80.65 14.9

-0.0 0.00008

% AXIAL TILT

-5.095

-8.735 AVG SOT 8ft/12ft 1.0289 1.0404 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 80.65 Top Ten Thermal Limits Summary -

Sorted by Margin Power Value FT IR JR 1.321 21 9 24 1.296 21 7 26 1.295 21 33 52 1.292 21 11 22 1.285 21 9 28 1.281 21 45 14 1.279 18 9 26 1.275 17 43 48 1.274 20 9 20 1.265 20 7 22 MCPR Value Margin FT 1.641 0.908 21 1.676 0.889 21 1.678 0.888 21 1.681 0.886 21 1.688 0.883 21 1.698 0.878 21 1.716 0.869 21 1.726 0.863 20 1.771 0.842 21 1.777 0.839 19 IR JR 9 24 33 10 9 34 49 40 15 48 7 26 47 16 9 20 25 8

41 14 APLHGR Value Margin Exp.

FT 7.47 0.610 26.1 17 7.30 0.598 26.5 16 7.12 0.577 25.3 14 7.20 0.576 6.9 19 7.15 0.572 6.9 19 7.04 0.563 6.8 21 7.00 0.560 7.4 21 6.91 0.559 25.1 16 6.95 0.556 7.6 21 6.46 0.556 31.6 18 IR JR K

13 18 19 15 42 19 23 12 19 15 18 19 13 20 19 21 12 19 7 26 5

21 10 19 51 24 5

51 26 5

LHGR Value Margin Exp. FT 7.91 0.746 24.4 16 7.83 0.717 25.9 17 7.55 0.705 23.4 16 6.85 0.701 32.3 16 6.64 0.688 33.5 16 6.84 0.687 30.6 18 7.28 0.687 24.4 14 7.18 0.681 25.0 18 6.41 0.672 34.6 16 8.92 0.666 9.9 21 IR JR 15 20 13 18 21 10 7 24 51 40 9 26 23 50 7 28 55 26 7 26 K

19 19 19 5

5 5

19 5

5 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.13 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 4,250.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-19 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

4631.2 ( 630.70 381.2 C 51.91 3458.0 (100.00 %)

1050.1

-27.85 94.05 ( 91.76 %)

Core Average Exposure: MWd/MTU 18916.1 1

3 5

7 9 11 13 15 17 19 21 1

3 5

14 7

9-------14 0

10 --

13 --------

10 6

6 15 17 --.----

10 C 6

6 --

19 21 -------- 14 0

10 --

23 25 14---------

27 29 IR: 2 6 10 14 18 22 26 30 34 Control Rod Density: %

k-effective:

1.

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 0

14 0 --

6 --

6 --

0 --

14 --

23 25 27 29 59 55 51 47 14..

43 39 10 -------- 35 31 10..

..- 27 23 14

.19 715 Axial Profile N(PRA) Power Exposure Top 25 0.173 3.239 24 0.555 9.860 23 0.773 13.643 22 0.938 16.612 21 1.046 18.777

JR 20 1.115 20.154 19 1.145 20.811 18 1.155 21.055 17 1.136 20.880 16 1.105 19.621 15 1.096 19.764 14 1.156 19.502 13 1.173 20.148 12 1.198 20.905 11 1.221 21.615 10 1.237* 22.192 9

1.234 22.417 8

1.228 23.040 7 1.208 23.818 6

1.172 24.496 5

1.121 24.653*

4 1.046 23.531 3

0.916 20.020 2

0.671 13.807 Bottom 1

0.183 3.784 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.804 1.147 29 52 0.459 0.555 49 8

0.822 1.172 43 50 0.652 1.080 29 48 0.765 0.831 25 32 1.084 1.254 27 50 0.977 1.180 27 46 1.153 1.252 9 22 1.022 1.272 43 48 1.149 1.279 9 26 1.065 1.261 29 50 1.190 1.275 9 20 1.202 1.324 9 24 3

38 42 46 50 54 58 10.63

.00039 0.416 20.714 16.181 547.7 80.05 14.9

-0.0

.00010

% AXIAL TILT

-4.384

-8.532 AVG BOT 8ft/12ft 1.0250 1.0393 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 80.05 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.324 21 9 24 1.300 21 27 52 1.298 21 7 26 1.296 21 11 22 1.289 21 9 28 1.282 21 45 14 1.279 18 9 26 1.275 20 9 20 1.272 17 43 48 1.265 20 7 22 MCPR Value Margin FT 1.628 0.915 21 1.661 0.897 21 1.664 0.895 21 1.668 0.894 21 1.677 0.889 21 1.685 0.884 21 1.705 0.874 21 1.716 0.868 20 1.756 0.849 21 1.762 0.846 19 IR JR 9 24 33 10 9 34 49 40 15 48 7 26 47 16 9 20 25 8

41 14 APLHGR Value Margin Exp.

FT 7.47 0.613 26.8 17 7.32 0.603 27.2 16 7.15 0.583 25.9 14 7.25 0.580 7.6 19 7.20 0.576 7.6 19 7.10 0.568 7.5 21 6.94 0.564 25.7 16 6.94 0.555 8.1 21 6.93 0.554 7.1 21 6.89 0.552 8.2 21 IR JR K

13 18 19 15 42 19 23 12 19 15 18 19 13 20 19 21 12 19 21 10 19 7 26 5

37 10 19 51 24 5

LHGR Value Margin Exp.

FT 7.88 0.752 25.4 16 7.81 0.721 26.7 17 7.56 0.712 24.2 16 7.68 0.695 20.0 14 6.72 0.693 33.0 16 6.73 0.681 31.3 18 6.52 0.681 34.2 16 7.06 0.675 25.7 18 7.06 0.665 24.3 16 6.28 0.664 35.2 16 IR JR K

45 20 19 13 18 19 21 10 19 23 50 19 7 24 5

9 26 5

51 40 5

7 28 5

41 16 18 55 26 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.14 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 4,631.2 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-20 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

4632.6 ( 630.90 1.5 0.20 3458.0 (100.00 %)

1050.1

-25.51 102.24 ( 99.74 %)

Core Average Exposure: MWd/MTU 18917.6 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

6 7

9..

..- 0 12 -

11 13.

6 12 8 -.

15-17 6 --

12 8-19 21 0---

12-23 25 6

27 29 IR: 2 6 10 14 18 22 26 3 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%)

Source Convergence 6

12 --

0 8 --

12 --

6 --

8 --

12 --

6 -- -

0 6

0 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Power Exposure 0.170 3.240 0.545 9.861 0.757 13.645 0.911 16.614 1.002 18.779 1.054 20.156 1.083 20.813 1.086 21.056 1.090 20.882 1.080 19.623 1.088 19.765 1.161 19.503 1.189 20.149 1.223 20.906 1.252 21.617 1.272* 22.193 1.271 22.419 1.264 23.041 1.242 23.819 1.204 24.497 1.150 24.655*

1.076 23.532 0.945 20.022 0.695 13.808 0.190 3.785 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.700 0.926 29 52 6

0.458 0.570 49 8

9 0.836 1.235 49 44 10 0.641 0.973 23 38 11 0.857 0.917 31 26 14 1.013 1.283 45 16 15 1.026 1.165 21 44 16 1.175 1.280 39 48 17 1.020 1.329 47 44 18 1.112 1.319 19 12 19 1.082 1.323 47 42 20 1.189 1.307 19 10 21 1.165 1.341 45 14 10.99 1.00042 0.409 23.528 18,992 548.0 87.06 14.8

-0.0 0.00010

% AXIAL TILT

-7.370

-8.531 AVG BOT Oft/12ft 1.0452 1.0393 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 87.06 Top Ton Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.341 21 45 14 1.340 21 47 16 1.329 17 47 44 1.324 21 21 12 1.323 19 47 42 1.322 17 43 48 1.322 19 41 48 1.319 18 19 12 1.318 21 11 22 1.314 18 11 20 MCPR Value Margin FT 1.737 0.858 21 1.741 0.856 21 1.742 0.855 21 1.748 0.853 21 1.787 0.834 19 1.792 0.832 19 1.807 0.825 20 1.812 0.822 20 1.816 0.821 19 1.822 0.818 19 IR JR 39 50 49 40 47 16 15 48 41 14 47 42 19 10 9 20 21 46 45 22 APLHGR Value Margin Exp.

FT 7.18 0.593 27.5 15 7.16 0.590 27.1 15 6.74 0.585 32.4 18 6.67 0.582 33.0 18 6.08 0.578 41.3 9

6.06 0.578 41.6 9

6.76 0.576 30.7 17 6.68 0.576 31.8 17 7.19 0.575 6.2 21 7.18 0.575 5.9 21 IR JR K

27 42 20 41 28 20 41 50 6

49 42 6

43 50 6

49 44 6

47 44 6

43 48 6

45 48 5

47 46 5

LHGR Value Margin Exp. FT 7.89 0.727 22.0 15 7.82 0.724 22.5 15 6.99 0.720 32.9 18 7.02 0.717 32.1 18 7.12 0.713 30.3 16 7.04 0.705 30.2 18 6.82 0.702 32.8 16 6.82 0.701 32.6 16 6.92 0.700 31.3 16 9.26 0.691 9.2 21 IR JR 33 42 41 34 41 50 49 42 39 52 47 48 51 40 43 52 9 18 39 50 K

20 20 5

6 5

56 6

6 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.15 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 4,632.6 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-21 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

5000.0 ( 680.93 367.4 ( 50.03 3458.0 (100.00 %)

1050.1

-25.76 101.28 ( 98.81%)

Core Average Exposure: MWd/MTU 19285.0 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 9

13....

15 17....

19 21 23 25 27 29 IR: 2 6

6 6

0 --

12 --

12 0

6 --

12 --

8 8

12 6 --

6-- 12--

8--

8 --

12 6--

0 --

12 --

12 0

6 6

59 55 51 47 43 39 35 31 27 23 19 15 11 7

N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Power Exposure 0.174 3.315 0.556 10.077 0.770 13.944 0.922 16.976 1.011 19.177 1.060 20.575 1.087 21.243 1.090 21.488 1.093 21.316 1.083 20.038 1.092 20.183 1.166 19.905 1.195 20.560 1.228 21.329 1.255 22.050 1.272* 22.633 1.268 22.859 1.258 23.479 1.233 24.250 1.191 24.914 1.135 25.053*

1.059 23.905 0.930 20.349 0.686 14.049 0.188 3.850 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.699 0.928 29 52 0.454 0.565 49 8

0.831 1.229 49 44 0.638 0.974 23 38 0.854 0.916 31 26 1.011 1.281 45 16 1.028 1.166 21 44 1.174 1.260 39 48 1.016 1.325 47 44 1.109 1.315 19 12 1.088 1.324 47 42 1.188 1.307 19 10 1.167 1.341 45 14 10 14 18 22 26 30 34 38 42 46 50 54 58 3

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (t):

Total Water Rod Flow ():

Source Convergence 10.99 1.00007 0.408 23.172 18.637 547.9 86.26 14.8

-0.0 0.00008

% AXIAL TILT

-6.709

-8.387 AVG BOT 8ft/12ft 1.0415 1.0386 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 86.26 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.341 21 45 14 1.340 21 47 16 1.327 21 21 12 1.325 17 47 44 1.324 19 47 42 1.324 19 41 48 1.321 21 11 22 1.318 17 43 48 1.315 18 19 12 1.310 18 11 20 MCPR Value Margin FT 1.721 0.866 21 1.725 0.864 21 1.731 0.861 21 1.735 0.859 21 1.771 0.841 19 1.777 0.838 19 1.796 0.830 20 1.797 0.829 19 1.801 0.827 20 1.804 0.826 19 IR JR 39 50 49 40 47 16 15 48 41 14 47 42 19 10 21 46 9 20 45 22 APLHGR Value Margin Exp.

FT 7.19 0.598 28.1 15 7.16 0.594 27.8 15 6.64 0.580 33.0 18 6.58 0.577 33.6 18 6.03 0.574 41.4 9

6.04 0.573 41.1 9

7.01 0.572 26.1 15 6.65 0.571 31.3 17 6.58 0.571 32.4 17 7.11 0.569 6.9 21 IR JR K

27 42 20 41 28 20 41 50 6

49 42 6

49 44 7

43 50 7

25 44 20 47 44 6

43 48 6

45 48 5

L1.GR Value Margin Exp. FT 7.91 0.735 22.8 15 7.83 0.731 23.3 15 6.85 0.711 33.6 18 6.91 0.710 32.7 18 6.98 0.705 31.0 16 6.72 0.697 33.5 16 6.90 0.696 30.9 18 7.47 0.694 22,8 15 6.79 0.692 32,0 16 6.69 0.692 33.3 16 IR JR K

33 42 20 41 34 20 41 50 5

49 42 6

39 52 5

51 40 6

47 48 5

25 18 20 9 18 6

43 52 6

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.16 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 5,000.0 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-22 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

5500.0 ( 749.02 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-25.74 101.34 ( 98.87 %)

Core Average Exposure: MWd/MTU 19785.0 1

3 5

7 9 11 13 15 17 19 21 1

3 5

7 9

13 --

15 17 --

19 21 23 25 27 29 IR: 2 6

6-0 --

12 --

12 --

0 6 --

12 --

8 --

8 --

12 6 --

12 --

8 --

8 --

12 0 --

12 --

12 --

0 6

6 6 10 14 18 22 26 30 34 38 42 23 25 27 29 59 55 51 47 43 39 6

35 31 6.

27 23 19 15 11 7

3 46 50 54 58 N(PRA)

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile

) Power Exposure 0.180 3.421 0.572 10.376 0.790 14.359 0.941 17.474 1.027 19.725 1.072 21.148 1.096 21.831 1.097 22.078 1.099 21.907 1.089 20.604 1.097 20.754 1.174 20.453 1.202 21.122 1.233 21.906 1.258 22.640 1.271* 23.231 1.264 23.457 1.249 24.072 1.218 24.831 1.171 25.476 1.110 25.588*

1.032 24.404 0.905 20.787 0.669 14.372 0.184 3.939 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.696 0.929 29 52 6 0.449 0.558 49 8

9 0.824 1.222 49 44 10 0.633 0.974 23 38 11 0.850 0.915 31 26 14 1.009 1.279 45 16 15 1.029 1.168 21 44 16 1.172 1.280 39 48 17 1.011 1.320 47 44 18 1.107 1.311 19 12 19 1.094 1.329 41 48 20 1.188 1.308 19 10 21 1.169 1.343 45 14 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.99 0.99989 0.405 23.166

18. 630 547.9 86.34 14.8

-0.0 0.00007

% AXIAL TILT

-5.581

-8.182 AVG BOT 8ft/12ft 1.0350 1.0377 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 86.34 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.343 21 45 14 1.341 21 47 16 1.333 21 21 12 1.329 19 41 48 1.328 19 47 42 1.326 21 11 22 1.320 17 47 44 1.314 17 43 48 1.311 18 19 12 1.308 20 19 10 MCPR Value Margin FT 1.709 0.872 21 1.714 0.870 21 1.723 0.865 21 1.727 0.863 21 1.759 0.847 19 1.768 0.843 19 1.782 0.836 19 1.789 0.833 20 1.790 0.832 19 1.795 0.830 20 IR JR 39 50 49 40 47 16 15 48 41 14 47 42 21 46 19 10 45 22 9 20 Value 7.22 7.19 7.06 6.90 6.52 7.14 7.14 6.57 5.94 5.95 APLHGR Margin Exp. FT 0.605 29.0 15 0.601 28.6 15 0.581 27.0 15 0.573 28.0 15 0.573 33.9 18 0.571 7.6 19 0.571 7.8 19 0.571 32.7 18 0.570 42.1 9

0.569 41.8 9

IR JR K

27 42 20 41 28 20 25 44 20 17 26 20 41 50 6

25 42 20 27 44 20 49 42 7

49 44 7

43 50 7

LHGR Value Margin Exp. FT 7.96 0.746 23.8 15 7.86 0.741 24.3 15 7.53 0.706 23.8 15 6.80 0.703 33.3 18 6.75 0.701 33.7 18 7.46 0.699 23.8 15 6.91 0.698 31.1 16 6.59 0.690 34.4 16 6.79 0.685 30.9 18 6.73 0.682 31.4 16 IR JR K

33 42 20 41 34 20 25 18 20 41 50 6

49 42 6

17 26 20 39 52 6

51 40 6

47 48 6

9 18 7

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.17 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 5,500.0 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-23 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

6000.0 ( 817.12 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-25.82 101.06 ( 98.60 %)

Core Average Exposure: MWd/MTU 20285.0 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 13 5

7 9-0 13 6

12 15 17.

6 12 --

19 21-0

-0 23 25 27 29 IR: 2 6 10 14 18 22 6

6 12 --

12 --

0 8 --

8 --

12 8 --

8 --

12 12 --

12 --

0 6--

6 26 30 34 38 42 59 55 51 47 43 39 6 -

35 31 6.

27 23 19 15 11 7

3 46 50 54 58 N(PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10,9 8

7 6

5 4

3 2

Bottom 1

Power Exposure 0.186 3.530 0.589 10.685 0.810 14.785 0.959 17.983 1.042 20.280 1.083 21.728 1.104 22.424 1.101 22.671 1.102 22.502 1.092 21.174 1.100 21.328 1.179 21.005 1.207 21.688 1.236 22.486 1.259 23.232 1.269* 23.829 1.259 24.052 1.240 24.660 1.205 25,405 1.154 26.027 1.090 26.111*

1.011 24.890 0.886 21.213 0.657 14.687 0.181 4.026 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.693 0.929 29 52 6 0.443 0.551 49 8

9 0.817 1.215 49 44 10 0.629 0.976 23 38 11 0.846 0.916 31 26 14 1.006 1.276 45 16 15 1.031 1.169 21 44 16 1.169 1.279 39 48 17 1.005 1.314 47 44 18 1.103 1.307 19 12 19 1.102 1.334 41 48 20 1.188 1.309 19 10 21 1.172 1.345 45 14 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%)

Source Convergence 10.99 0.99957 0.403 23.023 18.488 547.8 86.12 14.8

-0.0 0.00007

% AXIAL TILT

-4.625

-7.959 AVG BOT 8ft/12ft 1.0291 1.0366 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 86.12 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.345 21 45 14 1.343 21 47 46 1.338 21 21 12 1.334 19 41 48 1.332 19 47 42 1.331 21 11 22 1.314 17 47 44 1.309 17 43 48 1.309 20 19 10 1.307 18 19 12 MCPR Value Margin FT 1.696 0.879 21 1.701 0.876 21 1.715 0.869 21 1.718 0.867 21 1.746 0.854 19 1.756 0.849 19 1.764 0.845 19 1.774 0.840 19 1.780 0.837 20 1.788 0.833 20 IR JR 39 50 49 40 47 16 15 48 41 14 47 42 39 16 45 22 19 10 9 20 APLHGR Value Margin Exp.

FT 7.25 0.613 29.9 15 7.21 0.608 29.5 15 7.10 0.589 27.9 15 7.00 0.580 27.8 15 7.24 0.579 8.7 19 7.24 0.579 8.5 19 7.16 0.573 8.6 19 7.15 0.572 8.8 19 6.52 0.569 33.0 18 6.48 0.568 33.5 18 IR JR K

27 42 20 41 28 20 25 44 20 43 26 20 27 44 20 25 42 20 19 36 20 43 28 20 41 50 7

49 42 7

Value 8.00 7.90 7.58 7.50 6.68 6,77 6.78 6.48 6.67 6.61 LHGR Margin Exp.

FT 0.758 24.9 15 0.752 25.3 15 0.718 24.8 15 0.710 24.8 15 0.697 34.2 18 0.696 32.7 18 0.692 32.0 16 0.684 35.2 16 0.679 31.8 18 0.676 32.3 16 IR JR 33 42 41 34 25 18 17 26 41 50 49 42 39 52 51 40 47 48 9 18 K

20 20 20 20 6

7 6

6 6

7

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.18 Browns Ferry Unit 1 Cycle 9 Control Rod Pattern and Axial Distributions at 6,000.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-24 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

6500.0 885.21 500.0 68.09 3458.0 (100.00 %)

1050.1

-25.82 101.07 ( 98.60 %)

Core Average Exposure: MWd/MTU 20785.0 1

3 5

7 9

13 -

15-17 -

19 21 23 25 27 29 IR:

1 3

5 7

9 11 13 15 17 19 21 23 25 27 29 6

6 0 --

12 --

12 --

0 6 --

12--

8--

8 --

12 6---

6 --

12--

8--

8 --

12 6----

0 12 12 --

0 6 --

6-----------

2 610 14 1822 2630 3438 4246 50 5458 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N(PRA)

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.192 3.642 0.607 11.002 0.832 15.221 0.978 18.502 1.056 20.843 1.093 22.314 1.110 23.021 1.105 23.267 1.104 23.098 1.093 21.745 1.102 21.904 1.182 21.560 1.210 22.256 1.238 23.068 1.259 23.824 1.267* 24.426 1.254 24.646 1.231 25.245 1.193 25.973 1.139 26.571 1.073 26.625*

0.992 25.366 0.869 21.631 0.646 14.997 0.178 4.111 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.689 0.929 29 52 0.437 0.544 49 8

0.810 1.208 49 44 0.624 0.978 23 38 0.843 0.917 31 26 1.003 1.273 45 16 1.033 1.171 21 44 1.167 1.279 39 48 0.998 1.309 47 44 1.100 1.303 19 12 1.110 1.339 41 48 1.188 1.309 19 10 1.174 1.347 45 14 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.99 0.99930 0.400 23.019 18.484 547.8 86.14 14.8

-0.0 0.00009

% AXIAL TILT

-3.728

-7.724 AVG BOT 8ft/12ft 1.0234 1.0355 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 86.14 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.347 21 45 14 1.345 21 47 46 1.344 21 21 12 1.339 19 41 48 1.336 21 11 22 1.336 19 47 42 1.309 20 19 10 1.309 17 47 44 1.305 17 43 48 1.303 20 9 20 MCPR Value Margin FT 1.684 0.885 21 1.690 0.881 21 1.709 0.872 21 1.712 0.870 21 1.735 0.859 19 1.746 0.853 19 1.749 0.852 19 1.760 0.847 19 1.774 0.840 20 1.783 0.835 20 IR JR 39 50 49 40 47 16 15 48 41 14 47 42 39 16 45 22 19 10 9 20 APLHGR Value Margin Exp. FT 7.28 0.621 30.8 15 7.24 0.616 30.4 15 7.14 0.597 28.7 15 7.03 0.588 28.6 15 7.34 0.588 9.6 19 7.34 0.587 9.4 19 7.26 0.581 9.5 19 7.24 0.579 9.7 19 6.87 0.568 27.4 15 6.45 0.567 33.8 18 IR JR K

27 42 20 41 28 20 25 44 20 43 26 20 27 44 20 25 42 20 19 36 20 43 28 20 31 40 20 41 50 7

Value 8.04 7.93 7.62 7.54 6.57 6.67 6.68 7.36 7.20 6.51 LHGR Margin Exp. FT 0.770 25.9 15 0.763 26.4 15 0.730 25.8 15 0.721 25.8 15 0.693 35.1 18 0.692 33.6 18 0.688 32.9 16 0.687 23.3 15 0.685 25.2 15 0.681 34.4 16 IR JR K

33 42 20 41 34 20 25 18 20 17 26 20 41 50 6

49 42 7

39 52 6

33 34 21 29 40 20 51 40 7

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.19 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 6,500.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1. Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-25 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWE Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

6995.6 ( 952.70 495.6 (

67.49 3458.0 (100.00 %)

1050.1

-25.85 100.93 ( 98.47 %)

Core Average Exposure: MWd/MTU 21280.6 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

6 6

7 9

0 --

12 --

12--

0 13 6 --

12 8

8 --

12 6----

17 6 --

12--

8--

8 --

12 6----

19-------------------------

21 0 --

12 --

12--

0--------

23 25 6 --

6 27 29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 2Axial Profile N(PRA) Power Exposure Top 25 0.198 3.757 24 0.624 11.326 23 0.853 15.665 22 0.996 19.026 21 1.070 21.410

JR 20 1.102 22.900 19 1.115 23.617 18 1.107 23.859 17 1.104 23.690 16 1.092 22.311 15 1.101 22.475 14 1.183 22.111 13 1.211 22.820 12 1.238 23.645 11 1.257 24.411 10 1.263* 25.016 9

1.248 25.231 8

1.224 25.820 7

1.184 26.530 6

1.127 27.104 5

1.059 27.127*

4 0.976 25.830 3

0.854 22.037 2

0.637 15.299 Bottom 1

0.176 4.195 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.686 0.929 29 52 0.431 0.537 49 8

0.802 1.200 49 44 0.619 0.981 23 38 0.840 0.919 31 26 1.000 1.269 45 16 1.036 1.172 21 44 1.164 1.278 39 48 0.991 1.304 47 44 1.096 1.298 19 12 1.118 1.344 41 48 1.187 1.310 19 10 1.176 1.349 21 12 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.99 0.99900 0.397 22.952 18.417 547.8 86.05 14.8

-0.0 0.00009

% AXIAL TILT

-2.923

-7.481 AVG BOT 8ft/12ft 1.0178 1.0343 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 86.05 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.349 21 21 12 1.349 21 45 14 1.347 21 47 46 1.344 19 41 48 1.341 21 11 22 1.340 19 47 42 1.310 20 19 10 1.304 17 47 44 1.303 20 9 20 1.299 17 43 48 MCPR Value Margin FT 1.674 0.890 21 1.680 0.887 21 1.704 0.875 21 1.706 0.873 21 1.724 0.864 19 1.734 0.859 19 1.737 0.858 19 1.745 0.854 19 1.768 0.843 20 1.774 0.840 19 IR JR 39 50 49 40 47 16 15 48 41 14 39 16 47 42 45 22 19 10 37 14 APLHGR Value Margin Exp. FT 7.32 0.630 31.6 15 7.27 0.624 31.3 15 7.18 0.605 29.6 15 7.45 0.596 10.5 19 7.45 0.596 10.3 19 7.07 0.595 29.5 15 7.37 0.589 10.4 19 7.34 0.587 10.6 19 7.07 0.577 26.0 15 6.92 0.576 28.2 15 IR JR K

27 42 20 19 34 20 25 44 20 27 44 20 25 42 20 43 26 20 19 36 20 43 28 20 33 34 22 31 40 20 Value 8.09 7.97 7.67 7.58 7.67 7.49 7.25 7.20 7.16 7.20 LHGR Margin Exp. FT 0.783 27.0 15 0.775 27.4 15 0.741 26.8 15 0.732 26.7 15 0.702 21.2 15 0.697 23.0 15 0.697 26.2 15 0.692 26.2 15 0.691 26.6 15 0.691 26.0 15 IR JR K

33 42 20 41 34 20 25 18 20 17 26 20 33 34 22 25 26 21 29 40 20 25 40 20 31 18 20 39 32 20

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit-file:

Figure A.20 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 6,995.6 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-26 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

6997.0 C 952.90 1.5 (

0.20 3458.0 (100.00 %)

1050.1

-27.03 96.77 ( 94.41 %}

Core Average Exposure: MWd/MTU 21282.1 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 10 6 --

9 11....

10 --

6 0 --

13-15 14 17-19.

10 6

0 --

21-23 10 6 --

25 27 29 IR: 2 6 10 14 18 22 26 30 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 6

0 0

6 59 55 51 0-- -----

47 43 6 --

10 -.

39 35 14 31 27 6 --

10 -.

23 19

-- 10 -------

15ii N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.187 3.757 0.592 11.327 0.810 15.667 0.951 19.028 1.028 21.411 1.069 22.902 1.080 23.618 1.091 23.861 1.096 23.691 1.090 22.313 1.102 22.476 1.185 22.112 1.214 22.821 1.242 23.647 1.262 24.412 1.271* 25.018 1.260 25.233 1.242 25.822 1.209 26.532 1.160 27.105 1.098 27.128*

1.019 25.831 0.894 22.038 0.665 15.300 0.184 4.195 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.773 1.142 51 30 6

0.422 0.514 21 60 9

0.772 1.124 49 44 10 0.634 1.105 47 30 11 0.863 1.033 25 32 14 1.047 1.275 49 28 15 1.018 1.229 45 28 16 1.118 1.233 21 10 17 0.975 1.237 47 44 18 1.110 1.253 47 26 19 1.122 1.308 47 28 20 1.166 1.247 19 10 21 1.184 1.326 9 28 7

3 34 38 42 46 50 54 58 10.14 0.99896 0.410 21.598 17.064 547.8

% AXIAL TILT

-5.138

-7.480 AVG BOT 8ft/12ft 1.0334 1.0343 82.36 Active Channel Flow: Mlb/hr 14.9 (of total core flow)

-0.0 (of total core flow) 0.00009 82.36 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.326 21 9 28 1.317 21 23 10 1.308 19 47 28 1,303 19 49 30 1.291 21 25 8

1.282 21 27 10 1.278 21 21 12 1.275 14 49 28 1.268 19 7 30 1.268 19 45 26 Value 1.658 1.696 1.707 1.718 1.744 1.758 1.759 1.759 1.768 1.776 MCPR Margin FT 0.899 21 0.879 19 0.873 21 0.868 21 0.854 19 0.648 19 0.847 21 0.847 21 0.843 21 0.839 19 IR JR 9 34 47 28 23 10 47 16 49 30 45 26 33 10 25 8

39 50 47 42 APLHGR Value Margin Exp. FT 7.11 0.607 30.9 15 7.24 0.579 10.0 19 6.93 0.554 11.2 21 6.92 0.553 10.2 21 6.22 0.551 34.6 18 6.51 0.549 29.5 18 6.09 0.543 35.3 16 5.67 0.538 41.1 10 6.10 0.538 34.1 16 6.44 0.536 28.3 15 IR JR 17 30 19 32 35 54 23 10 35 52 33 8

37 54 13 32 39 52 21 32 K

19 19 5

5 5

5 6

18 6

19 Value 7.71 6.43 6.51 6.56 6.91 6.69 6.10 6.64 6.73 6.68 LHGR Margin Exp. FT 0.747 27.1 15 0.684 35.8 16 0.682 34.4 18 0.681 33.6 16 0.678 28.3 18 0.659 28.7 16 0.652 36.3 16 0.651 28.2 15 0.651 26.8 18 0.648 27.1 15 IR JR K

17 32 19 23 8

6 25 10 5 39 52 6

33 8

5 31 6

5 35 56 6

41 34 19 13 26 17 39 32 19

• LHGR calculated with pin-power reconstruction

• CPR-calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.21 Browns Ferry Unit 1 Cycle 9 Control Rod Pattern and Axial Distributions at 6,997.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-27 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr Core Average Exposure: MWd/MTU 21785.1 7500.0 (1021.40 503.0 (

68.50 3458.0 (100.00 %)

1050.1

-26.70 97.91 ( 95.52 %)

1 3

5 7

9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 9

11 --

13 15 17 19 --

21 23 25 27 29 IR: 2 59 55 51 10--

6--

6 --

10---...

47

---

43

-- 10--

6--

0--

0--

6 --

1-0.

39 35 14 14 31 27

-- 10--

6--

0--

0--

6 --

1 23 19

.10--

6--

6 -- 1 -0 15 7

3 6 10 14 18 22 26 30 34 38 42 46 50 54 58 Axial Profile N(PRA) Power Exposure Top 25 0.194 3.872 24 0.610 11.648 23 0.833 16.106 22 0.971 19.545 21 1.044 21.971

JR 20 1.081 23.484 19 1.088 24.206 18 1.096 24.454 17 1.099 24.288 16 1.092 22.886 15 1.103 23.056 14 1.188 22.673 13 1.217 23.396 12 1.244 24.234 11 1.263 25.009 10 1.270* 25.619 9 1.257 25.830 8

1.235 26.410 7

1.198 27.105 6 1.145 27.656*

5 1.078 27.649 4

0.996 26.314 3

0.871 22.462 2

0.648 15.615 Bottom 1

0.179 4.282 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.769 1.139 51 30 0.416 0.507 21 60 0.765 1.119 49 44 0.628 1.104 47 30 0.859 1.032 25 32 1.044 1.275 49 28 1.019 1.230 45 28 1.116 1.231 21 10 0.969 1.235 47 44 1.107 1.255 47 26 1.130 1.316 47 28 1.166 1.249 19 10 1.188 1.331 9 28 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.14

0. 99904 0.405 21.973 17.439 547.7 83.37 14.8

-0.0 0.00008

% AXIAL TILT

-4.138

-7.278 AVG BOT 8ft/12ft 1.0270 1.0333 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 83.37 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.331 21 9 28 1.323 21 23 10 1.316 19 47 28 1.310 19 49 30 1.295 21 25 8

1.287 21 27 10 1.285 21 21 12 1.277 19 45 26 1.275 14 49 28 1.272 19 7 30 MCPR Value Margin FT 1.659 0.898 21 1.692 0.881 19 1.705 0.874 21 1.718 0.867 21 1.743 0.855 19 1.752 0.851 19 1.758 0.848 21 1.760 0.847 21 1.764 0.845 21 1.772 0.841 19 IR JR 9 34 47 28 23 10 47 16 49 30 45 26 33 10 25 8

39 50 47 42 APLHGR Value Margin Exp.

FT 7.13 0.615 31.8 15 7.34 0.587 10.9 19 6.88 0.551 11.2 21 6.87 0.549 12.0 21 6.18 0.548 34.7 18 5.69 0.544 41.8 10 6.48 0.544 29.0 15 6.38 0.542 30.3 18 6.75 0.540 10.3 19 6.00 0.540 36.1 16 IR JR K

17 30 19 19 32 19 37 52 6

35 54 5

35 52 6

13 32 18 21 32 19 33 8

5 15 30 19 37 54 6

LHGR Value Margin Exp.

FT 7.74 0.758 28.1 15 6.33 0.679 36.7 16 6.47 0.677 34.4 16 6.38 0.675 35.3 18 6.77 0.671 29.3 18 6.68 0.661 29.1 15 6.73 0.658 28.0 15 6.69 0.657 28.3 16 6.74 0.656 27.5 15 6.60 0.655 29.5 18 IR JR K

17 32 19 23 8

6 39 52 6

25 10 5

33 8

5 41 34 19 39 32 19 19 46 21 15 34 19 13 26 18

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.22 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 7,500.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-28 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcoollng: Btu/ibm Flow: Mlb/hr 9

8000.0 (1089.50 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-26.46 98.75 ( 96.34 %)

Coro Average Exposure: MWd/MTU 22285.0 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 1

3 5

7---------0 991 10 6---

13-15-------14 17-19 10 6 --

21-23

..- 10 --

25 27 29 IR: 2 6 10 14 18 22 6

0 0

6 26 6-10 --

6 10 0 --

6 --

10 14 0 --

6 --

10 27 29 59 55 51 47 43 39 35 31 27 23 N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Power Exposure 0.199 3.989 0.627 11.976 0.854 16.554 0.989 20.071 1.058 22.536 1.091 24.068 1.094 24.795 1.099 25.047 1.099 24.882 1.091 23.457 1.102 23.633 1.188 23.232 1.217 23.968 1.243 24.820 1.260 25.603 1.266* 26.216 1.252 26.423 1.228 26.992 1.189 27.669 1.134 28.195*

1.065 28.157 0.981 26.784 0.857 22.872 0.639 15.920 0.177 4.367 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.765 1.139 51 30 6

0.409 0.500 21 60 9

0.758 1.114 49 44 10 0.623 1.105 47 30 11 0.856 1.033 25 32 14 1.040 1.275 49 28 15 1.021 1.232 45 28 16 1.114 1.228 21 10 17 0.962 1.231 47 44 18 1.103 1,257 47 26 19 1.138 1.326 47 28 20 1.167 1.251 19 10 21 1.191 1.339 9 28 6 --

0----

30 34 38 42 46 50 54 58 15 11 7

3 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.14 0.99896 0.401 22.207 17.673 547.7

% AXIAL TILT

-3.368

-7.063 AVG BOT 8ft/12ft 1.0215 1.0323 84.13 Active Channel Flow: Mlb/hr 14.8 (of total core flow)

-0.0 (of total core flow) 0.00007 84.13 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.339 21 9 28 1.328 21 23 10 1.326 19 47 28 1.319 19 49 30 1.300 21 25 8

1.293 21 27 10 1.292 21 21 12 1.287 19 45 26 1.280 19 11 26 1.276 19 7 30 MCPR Value Margin FT 1'.656 0.900 21 1.685 0.884 19 1.703 0.875 21 1.719 0.867 21 1.737 0.858 19 1.744 0.854 19 1.755 0.849 21 1.759 0.847 21 1.761 0.846 21 1.768 0.843 19 IR JR 9 34 47 28 23 10 47 16 49 30 45 26 33 10 25 8

39 50 47 20 Value 7.15 7.44 6.88 6.51 5.71 6.85 6.66 6.13 6.84 6.21 APLHGR Margin Exp.

FT 0.622 32.7 15 0.595 11.8 19 0.551 12.1 21 0.550 29.8 15 0.549 42.5 10 0.548 12.9 21 0.548 27.0 17 0.548 35.4 18 0.547 11.1 19 0.544 33.5 15 IRJR K

17 30 19 19 32 19 37 52 6

21 32 19 13 32 18 35 54 5

17 14 21 35 52 6

15 30 19 19 34 19 LHGR Value Margin Exp.

FT 7.77 0.769 29.1 15 6.24 0.677 37.5 16 6.39 0.675 35.3 16 6.30 0.672 36.1 18 6.73 0.672 30.0 15 7.00 0.669 25.7 16 6.77 0.668 28.9 15 6.68 0.668 30.1 18 6.77 0.666 28.4 15 6.96 0.661 25.0 14 IR JR K

17 32 19 23 8

6 39 52 6

25 10 5

41 34 19 19 16 21 39 32 19 33 8

5 15 34 19 49 24 21

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.23 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 8,000.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-29 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

8500.0 (1157.60 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-26.18 99.72 ( 97.29 %)

Core Average Exposure: MWd/MTU 22785.1 1

3 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 5

7 10 6--

6 --

0 9

11----10 6

0 0

6 ---

10--

13---

15 14 14 17---

19 10 6

0 0--

6 --

1 21---

23 10 6

6 --

10...

25 27 29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 Axial Profile N(PRA) Power Exposure Top 25 0.205 4.110 24 0.644 12.314 23 0.875 17.014 22 1.007 20.606 21 1.071 23.108

JR 20 1.100 24.658 19 1.100 25.387 18 1.101 25.642 17 1.099 25.477 16 1.089 24.028 15 1.099 24.209 14 1.186 23.791 13 1.215 24.540 12 1.241 25.404 11 1.258 26.196 10 1.262* 26.812 9 1.248 27.013 8

1.223 27.571 7

1.182 28.230 6

1.125 28.729*

5 1.054 28.659 4 0.967 27.246 3

0.844 23.276 2

0.630 16.222 Bottom 1

0.175 4.450 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.761 1.139 51 30 6

0.403 0.493 21 60 9

0.750 1.107 49 44 10 0.618 1.107 47 30 11 0.853 1.035 25 32 14 1.036 1.277 49 28 15 1.022 1.235 45 28 16 1.112 1.225 21 10 17 0.955 1.227 47 44 18 1.099 1.259 47 26 19 1.147 1.337 47 28 20 1.167 1.253 19 10 21 1.194 1.347 9 28 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.14 0.99900 0.397 22.546 18.012 547.7 84.99 14.8

-0.0 0.00010

% AXIAL TILT

-2.658

-6.840 AVG BOT 8ft/12ft 1.0162 1.0312 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 84.99 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.347 21 9 28 1.337 19 47 28 1.335 21 23 10 1.329 19 49 30 1.305 21 25 8

1.300 21 33 10 1.298 21 21 12 1.298 19 45 26 1.289 19 11 26 1.282 19 7 30 MCPR Value Margin FT 1.654 0.901 21 1.678 0.888 19 1.701 0.876 21 1.721 0.866 21 1.731 0.861 19 1.737 0.858 19 1.754 0.850 21 1.759 0.847 21 1.760 0.847 21 1.764 0.845 19 IR JR 9 34 47 28 23 10 47 16 49 30 45 26 33 10 39 50 25 8

45 30 APLHGR Value Margin Exp. FT 7.18 0.629 33.5 15 7.54 0.603 12.7 19 6.54 0.557 30.6 15 6.71 0.557 27.8 17 5.72 0.555 43.2 10 6.92 0.554 12.0 19 6.48 0.553 30.9 14 6.90 0.552 12.9 21 6.24 0.551 34.2 15 6.69 0.550 26.9 16 IR JR K

17 30 19 19 32 19 21 32 19 17 14 21 13 32 18 15 30 19 11 24 21 37 52 6

19 34 19 19 16 21 LHGR Value Margin Exp.

FT 7.79 0.780 30.2 15 6.76 0.682 30.9 15 7.06 0.681 26.6 16 6.81 0.678 29.8 15 6.81 0.676 29.3 15 6.17 0.675 38.3 16 6.32 0.674 36.1 16 7.03 0.674 25.9 14 6.30 0.673 36.1 18 6.60 0.667 31.0 18 IR JR 17 32 41 34 19 16 39 32 15 34 23 8

39 52 49 24 25 10 33 8

K 19 19 21 19 19 6

6 21 6

5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.24 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 8,500.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-30 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcoeling: Btu/lbm Flow: Mlb/hr 9

9000.0 (1225.70 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-25.97 100.51 ( 98.06 %)

Core Average Exposure: MWd/MTU 23285.1 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

7

..- 10 --

6 -,

9 11

1.

10 --

6 0 -.

13-15 14 17-19 10 6

0-21-23

..- 10 6 -.

25 27 29 IR: 2 6 10 14 18 22 26 3{

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 6

10 0 --

6 14 0 --

6 6 --

10 0 34 38 42 59 55 51 47 43 10 -

39 35 31 27 10.

23 19 15 11 7

3 46 50 54 58 Axial Profile N(PRA) Power Exposure Top 25 0.211 4.234 24 0.661 12.661 23 0.894 17.486 22 1.023 21.151 21 1.083.23.687

JR 20 1.107 25.253 19 1.103 25.982 18 1.102 26.238 17 1.097 26.071 16 1.085 24.597 15 1.094 24.784 14 1.182 24.348 13 1.211 25.112 12 1.237 25.988 11 1.253 26.788 10 1.258* 27.405 9

1.244 27.601 8

1.219 28.148 7

1.178 28.787 6

1.119 29.260*

5 1.047 29.156 4

0.959 27.702 3

0.835 23.674 2

0.624 16.518 Bottom 1

0.173 4.533 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.758 1.139 51 30 6

0.396 0.486 21 60 9

0.743 1.101 49 44 10 0.612 1.109 47 30 11 0.849 1.037 25 32 14 1.032 1.278 49 28 15 1.024 1.238 45 28 16 1.109 1.222 21 10 17 0.948 1.223 47 44 18 1.094 1.261 47 26 19 1.156 1.348 47 28 20 1.167 1.255 19 10 21 1.197 1.355 9 28 10.14 0.99900 0.394 22.797 18.263 547.7 85.69 14.7

-0.0 0.00008

% AXIAL TILT

-2.118

-6.612 AVG BOT 8ft/12ft 1.0117 1.0300 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 85.69 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.355 21 9 28 1.348 19 47 28 1.341 21 23 10 1.340 19 49 30 1.309 21 25 8

1.309 19 45 26 1.307 21 33 10 1.305 21 21 12 1.299 19 11 26 1.290 19 45 30 MCPR Value Margin FT 1.652 0.902 21 1.671 0.892 19 1.700 0.877 21 1.724 0.864 21 1.724 0.864 19 1.730 0.861 19 1.752 0.850 21 1.755 0.849 19 1.757 0.848 21 1.759 0.847 19 IR JR 9 34 47 28 23 10 47 16 11 30 45 26 33 10 45 30 39 50 11 26 APLHGR Value Margin Exp. FT 7.19 0.636 34.4 15 7.63 0.611 13.7 19 6.76 0.565 28.6 17 6.56 0.564 31.4 15 6.53 0.562 31.7 14 5.73 0.560 44.0 10 7.00 0.560 12.9 19 6.76 0.560 27.7 16 6.27 0.558 35.0 15 6.34 0.556 33.5 15 IR JR K

17 30 19 19 32 19 17 14 21 21 32 19 11 24 21 13 32 19 15 30 19 19 16 21 19 34 19 15 28 19 LHGR Value Margin Exp. FT 7.81 0.790 31.2 15 7.11 0.693 27.5 16 6.79 0.691 31.8 15 6.84 0.688 30.7 15 7.10 0.686 26.8 14 6.84 0.685 30.2 15 6.12 0.675 39.2 16 6.27 0.675 37.0 16 6.27 0.675 37.0 18 6.69 0.672 30.6 16 IR JR K

17 32 19 19 16 21 41 34 19 39 32 19 49 24 21 15 34 19 23 8

6 39 52 6

25 10 6

9 40 21

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.25 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 9,000.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-31 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

9190.5 (1251.60 190.5 ( 25.95 3458.0 (100.00 %)

1050.1

-25.96 100.54 ( 98.09 %)

Core Average Exposure: MWd/MTU 23475.6 1

3 5

79 11 --

13 15 17 19 --

21 23 25 27 29 IR: 2 3

5 7

9 11 13 15 17 19 21 10 --

6 --

6 --

10 10 --

6 --

0 --

0 --

6 14 14 10 --

6 --

0 --

0 --

6 10 6

6 --

10 6 10 14 18 22 26 30 34 38 42 23 25 27 29 59 55 51 47 43 10.

39 35 31 27 10 -

23 19 15 11 7

3 46 50 54 58 N (PRA)

Top 25 24 23 22 21 JR 20 19 19 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.212 4.283 0.666 12.797 0.900 17.669 1.027 21.362 1.086 23.910 1.109 25.482 1.104 26.209 1.101 26.465 1.095 26.298 1.082 24.813 1.092 25.002 1.160 24.560 1.209 25.329 1.235 26.210 1.252 27.012 1.257* 27.631 1.243 27.824 1.219 28.367 1.178 28.999 1.119 29.461*

1.046 29.344 0.958 27.874 0.833 23.824 0.622 16.630 0.173 4.564 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.756 1.139 51 30 0.394 0.484 21 60 0.739 1.098 49 44 0.611 1.110 47 30 0.848 1.038 25 32 1.030 1.279 49 28 1.025 1.239 45 28 1.108 1.220 21 10 0.945 1.221 47 44 1.092 1.262 47 26 1.159 1.353 47 28 1.167 1.255 19 10 1.198 1.359 9 28 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 10.14 0.99898 0.394 22.810 18.275 547.7 85.73 14.7

-0.0 0.00007

% AXIAL TILT

-2.022

-6.523 AVG BOT 8ft/12ft 1.0106 1.0295 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 85.73 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.359 21 9 28 1.353 19 47 28 1.344 19 49 30 1.343 21 23 10 1.314 19 45 26 1.311 21 25 8

1.310 21 33 10 1.307 21 21 12 1.302 19 11 26 1.295 19 45 30 MCPR Value Margin FT 1.649 0.903 21 1.666 0.894 19 1.698 0.878 21 1.719 0.867 19 1.723 0.865 21 1.725 0.864 19 1.750 0.852 21 1.750 0.851 19 1.755 0.849 21 1.756 0.849 19 IR JR 9 34 47 28 23 10 11 30 47 16 45 26 33 10 45 30 21 12 11 26 APLHGR Value Margin Exp.

FT 7.19 0.638 34.7 15 7.66 0.613 14.1 19 6.76 0.567 28.9 17 6.57 0,566 31.7 15 6.54 0.565 32.0 14 6.77 0.563 28.0 16 5.73 0.562 44.2 10 7.03 0.562 13.2 19 6.27 0.560 35.3 15 6.35 0.558 33.8 15 IR JR K

17 30 19 19 32 19 17 14 21 21 32 19 11 24 21 19 16 21 13 32 19 15 30 19 19 34 19 15 28 19 Value 7.81 7.12 6.80 6.84 7.11 6.85 6.26 6.26 6.10 6.70 LEGR Margin Exp. FT 0.793 31.6 15 0.696 27.9 16 0.695 32.1 15 0.691 31.0 15 0.690 27.2 14 0.688 30.6 15 0.677 37.3 18 0.676 37.3 16 0.676 39.5 16 0.676 30.9 16 IR JR K

17 32 19 19 16 21 41 34 19 39 32 19 49 24 21 15 34 19 25 10 6 39 52 6

23 8

6 9 40 21

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.26 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 9,190.5 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design,(105% OLTP)

ANP-2859(NP)

Revision 0 Page A-32 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

9191.8 (1251.80 1.3 (

0.18 3458.0 (100.00 %)

1050.1

-27.18 96.26 ( 93.91%)

Core Average Exposure: MWd/MTU 23476.8 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 0

1i 9

11-- ------

0 14 --

13------

15 10 6

17------

19......-

0 --

14 --

21-------

23 0

1 25 27 29 IR: 2 6 10 14 18 22 26 31 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 59 55 51 0 --

0 --------- 47 43 6 --

14 --

0-......-39 35 6

10..

31 27 6 --

14 --

0 23 19 0

0 -----------

15 11 7

3 0 34 38 42 46 50 54 58 9.46 0.99896 0.415 21.566 17.032 AVG BC 547.8 81.83 Active Channe 15.0 (of total cor

-0.0 (of total cor 0.00008 N)(PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 98 7

6 5

4 3

2 Bottom 1

Power Exposure 0.184 4.283 0.573 12.798 0.777 17.670 0.898 21.363 0.970 23.912 1.017 25.483 1.043 26.211 1.063 26.466 1.070 26.299 1.070 24.814 1.087 25.004 1.181 24.562 1.215 25.330 1.246 26.211 1.267 27.014 1.278* 27.632 1.273 27.826 1.261 28.368 1.236 29.000 1.197 29.462*

1.145 29.345 1.074 27.875 0.953 23.825 0.720 16.631 0.201 4.564 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.740 1.076 29 52 6

0.395 0.488 49 8

9 0.751 1.115 43 50 10 0.573 0.895 31 32 11 0.820 0.938 31 26 14 1.057 1.260 43 44 15 1.053 1.204 41 20 16 1.058 1.202 21 10 17 0.969 1.243 43 48 18 1.114 1.241 25 10 19 1.136 1.335 43 46 20 1.189 1.262 19 10 21 1.243 1.329 45 14 AXIAL TILT

-8.055

-6.523

ýT 8ft/12ft 1.0520 1.0295

.1 Flow: Mib/hr e flow) e flow) 81.83 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.335 19 43 46 1.332 19 45 44 1.329 21 45 14 1.327 21 47 46 1.321 21 23 10 1.316 21 33 10 1.310 21 9 24 1.303 21 9 28 1.300 21 25 8

1.290 19 41 18 MCPR Value Margin FT 1.712 0.870 21 1.716 0.868 21 1.717 0.868 21 1.736 0.858 21 1.742 0.855 21 1.742 0.855 19 1.747 0.853 19 1.747 0.853 19 1.754 0.850 19 1.757 0.848 21 IR JR 33 10 47 16 15 48 9 34 23 10 43 16 41 18 45 18 43 20 25 8

APLHGR Value Margin Exp. FT 5.95 0.592 45.4 10 6.77 0.579 31.0 15 7.15 0.572 14.1 21 7.11 0.569 15.0 21 6.18 0.566 37.9 18 6.30 0.565 35.7 14 7.06 0.564 14.0 21 7.01 0.561 12.9 19 6.18 0.559 36.6 18 6.99 0.559 13.1 19 IR JR K

23 38 19 21 40 19 37 52 5

35 54 5

35 52 5

45 46 7

51 38 5

23 40 19 51 26 6

21 38 19 LEGR Value Margin Exp.

FT 7.21 0.712 29.0 15 5.95 0.704 44.8 10 6.39 0.697 38.1 18 6.41 0.693 37.3 16 6.24 0.692 39.5 16 6.74 0.689 32.2 18 6.39 0.688 36.8 18 6.21 0.685 39.0 16 6.22 0.682 38.7 16 6.41 0.680 35.6 14 IR JR 39 40 37 24 25 10 39 52 23 8

33 8

9 26 51 40 7 24 45 46 K

19 19 5

6 6

5 5

6 6

6

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.27 Browns Ferry Unit 1 Cycle 9 Control Rod Pattern and Axial Distributions at 9,191.8 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-33 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

9500.0 (1293.80 )

308.2 ( 41.97 3458.0 (100.00 %(

1050.1

-27.08 96.60 ( 94.24 6)

Core Average Exposure: MWd/MT U 23785.0 1

3 5

7 9 11 13 15 17 19 21 1

3 23 25 27 29 5

7 0

10--10--

0 9

11ii.....

0 --

14 --

6 --

14 0-......

13---

15..

..-- 10 --

6-..

6 --

1i0..

17---

19-------

0 ---

14--

6 --

14--

0 -------

21 23 0

10--

0 25 27 29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 Axial Profile N(PRA)

Power Exposure Top 25 0.186 4.352 24 0.579 12.988 23 0.784 17.929 22 0.902 21.662 21 0.973 24.235

JR 20 1.018 25.822 19 1.043 26.559 18 1.062 26.821 17 1.068 26.656 16 1.067 25.159 15 1.084 25.354 14 1.179 24.904 13 1.213 25.683 12 1.244 26.572 11 1.266 27.381 10 1.278* 28.003 9

1.274 28.196 8

1.262 28.735 7 1.237 29.359 6

1,198 29.810*

5 1.145 29.678 4

1.072 28.188 3

0.949 24.102 2

0.717 16.840 Bottom 1

0.200 4.622 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.737 1.076 29 52 6

0.391 0.483 49 8

9 0.746 1.110 43 50 10 0.570 0.897 31 32 11 0.819 0.940 31 26 14 1.054 1.259 43 44 15 1.054 1.205 41 20 16 1.056 1.200 21 10 17 0.964 1.239 43 48 18 1.110 1.240 25 10 19 1.142 1.339 43 46 20 1.189 1.263 19 10 21 1.245 1.330 45 48 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%)

Source Convergence 9.46 0.99898 0.414 21.718 17.184 547.8 82.21 14.9

-0.0 0.00009

% AXIAL TILT

-7.969

-6.460 AVG SOT 8ft/12ft 1.0509 1.0293 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 82.21 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.339 19 43 46 1.336 19 45 44 1.330 21 45 48 1.328 21 47 46 1.325 21 23 10 1.321 21 33 10 1.313 21 9 24 1.308 21 9 28 1.304 21 25 8

1.295 19 41 18 MCPR Value Margin FT 1.711 0.871 21 1.719 0.867 21 1.721 0.866 21 1.735 0.859 21 1.742 0.856 21 1.743 0.855 19 1.744 0.854 19 1.747 0.853 19 1.751 0.851 19 1.758 0.848 21

.R JR 33 10 47 16 15 48 9 34 23 10 43 16 41 18 45 18 43 20 25 8

APLHGR Value Margin Exp. FT 5.95 0.595 45.8 10 6.77 0.581 31.5 15 7.20 0.576 14.6 21 7.16 0.576 15.5 21 6.23 0.570 37.7 18 7.10 0.568 14.6 21 6.30 0.567 36.2 14 7.05 0.564 13.4 19 6.19 0.563 37.1 18 7.03 0.562 13.6 19 IR JR K

23 38 19 21 40 19 37 52 5

35 54 5

35 52 6

51 38 5

45 46 7

23 40 19 51 26 6

21 38 19 LHGR Value Margin Exp. FT 7.20 0.716 29.5 15 5.96 0.708 45.3 10 6.39 0.701 38.6 18 6.40 0.696 37.8 16 6.23 0.694 40.0 16 6.74 0.693 32.8 18 6.38 0.691 37.4 18 6.20 0.687 39.5 16 6.19 0.684 39.2 16 6.40 0.683 36.1 14 IR JR 39 40 37 24 25 10 39 52 23 8

33 8

9 26 51 40 7 24 45 46 K

19 19 5

6 6

5 5

6 6

6

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

" Thermal limit file:

Figure A.28 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 9,500.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-34 Cycle:

Exposure: MWd/MTU (GW Delta E: MWd/MTU, (GW Power: MWt Core Pressure: psia Inlet Subcooling: Btu Flow: Mlb/hr 1

3 5

7 9 11 1

3 5

7 0

9 11-..

0 14 13------

15..

10 6

17------

19..

..- 0 14 21------

23 0

25 27 29 IR: 2 6 10 14 18 22 Control Rod Density:

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: p Coolant Temp: Deg-F In Channel Flow: Mlb/

Total Bypass Flow (%)

Total Water Rod Flow Source Convergence 9

d) 10000.0 (1361.90 d) 500.0 (

68.09 3458.0 (100.00 %)

1050.1

/ibm

-26.75 97.73 ( 95.34 %)

13 15 17 19 21 23 25 27 29 10 --

0--------

10 0

6 --

14 --

0-......

6 --

10-..

6 --

14 --

0-......

0 10 0---------

26 30 34 38 42 46 50 54 58 9.46 Core Average Exposure: MWd/MTU 24285.0 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8

-7 6

5 4

3 2

Axial Profile Power Exposure 0.190 4.465 0.590 13.300 0.796 18.351 0.912 22.150 0.980 24.762 1.022 26.373 1.045 27.123 1.061 27.395 1.065 27.234 1,062 25.717 1.078 25.921 1.173 25.459 1.208 26.253 1.239 27.157 1.261 27.977 1.274-28.604 1.272 28.796 1.262 29.330 1.238 29.943 1.199 30,375*

1.145 30.217 1.070 28.693 0.945 24.549 0.714 17.178 0.199 4.717 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.734 1.076 29 52 6

0.384 0.476 49 8

9 0.738 1.103 43 50 10 0.565 0.898 31 32 11 0.816 0.942 31 26 14 1.050 1.259 43 44 15 1.056 1.206 41 20 16 1.054 1.197 21 10 17 0.957 1.234 43 48 18 1.106 1.239 25 10 19 1.151 1.346 43 46 20 1.190 1.264 19 10 21 1.249 1.334 45 48 0.99902 Bottom 1

0.411 22.098

% AXIAL TILT

-7.

17.564 AVG BOT 8ft/12ft 1.0 547.8 83.19 Active Channel Flow: Mlb/hr 14.9 (of total core flow)

-0.0 (of total core flow) 0.00009

.755

-6.359 0483 1.0289 83.19 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.346 19 43 46 1.343 19 45 44 1.334 21 45 48 1.332 21 23 10 1.332 21 47 46 1.330 21 33 10 1.320 21 9 24 1.318 21 9 28 1.310 21 25 8

1.304 19 41 18 MCPR Value Margin FT 1.713 0.870 21 1.726 0.863 21 1.727 0.863 21 1.736 0.858 21 1.742 0.855 19 1.744 0.854 21 1.745 0.854 19 1.748 0.852 19 1.750 0.852 19 1.762 0.846 21 IR JR 33 10 47 16 15 48 9 34 41 18 23 10 43 16 45 18 43 20 25 8

APLHGR Value Margin Exp. FT 5.94 0.598 46.5 10 7.25 0.587 16.4 21 7.30 0.586 15.6 21 6.75 0.585 32.3 15 7.18 0.576 15.5 21 6.24 0.575 38.4 18 7.08 0.572 16.2 21 6.29 0.571 37.0 14 7.10 0.568 14.3 19 7.10 0.568 14.6 21 IR JR K

23 38 19 35 54 5

37 52 5

21 40 19 51 38 5

35 52 6

7 26 5

45 46 7

23 40 19 33 52 5

LHGR Value Margin Exp. FT 7.19 0.721 30.5 15 5.94 0.714 46.1 10 6.39 0.708 39.4 18 6.38 0.700 38.7 16 6.73 0.699 33.7 18 6.19 0.697 40.8 16 6.37 0.696 38.2 18 6.16 0.690 40.3 16 6.39 0.689 37.0 14 6.16 0.686 40.0 16 IR JR K

39 40 19 37 24 19 25 10 5 39 52 6

33 8

5 23 8

6 9 26 5

51 40 6

45 46 6

7 24 6

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.29 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 10,000.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-35 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

10500.0 (1430.00 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-26.48 98.66 ( 96.26 %)

Core Average Exposure: MWd/MTU 24785.1 1

3 5

7 9

11 13 15 17 19 21 23 25 27 29 IR:

1 3

5 7

9 11 13 15 17 19 21 23 25 27 29 0

10 0

0 --

14 --

6 --

14 --

0-......

10--

6 6

10-....6-0 --

14 --

6 --

14 --

0 ------

0 -- 10--

0---------

2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 Axial Profile N(PRA) Power Exposure Top 25 0.192 4.580 24 0.597 13.618 23 0.804 18.780 22 0.917 22.644 21 0.982 25.292

JR 20 1.021 26.926 19 1,041 27.688 18 1.056 27.969 17 1.058 27.810 16 1.054 26.272 15 1.070 26.485 14 1.165 26.011 13 1.200 26,821 12 1.232 27.740 11 1.256 28.570 10 1.271 29.203 9

1.272" 29.396 8

1.265 29.924 7

1.244 30.526 6

1.207 30.940*

5 1.153 30.757 4

1.076 29.197 3

0.949 24.994 2

0.717 17.514 Bottom 1

0.200 4.811 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.731 1.077 29 52 0.378 0.469 49 8

0.730 1.096 43 50 0.560 0.899 31 32 0.813 0.944 31 26 1.045 1.258 43 44 1.057 1.208 41 20 1.051 1.193 21 10 0.949 1.229 43 48 1.101 1.238 25 10 1.160 1.354 43 46 1.190 1.266 19 10 1.253 1.340 23 10 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total BypassFlow (%):

Total Water Rod Flow (%):

Source Convergence 9.46 0.99898 0.410 22.361 17.827 547.9 83.95 14.9

-0.0 0.00009 W AXIAL TILT

-7.927

-6.258 AVG BOT 8ft/12ft 1.0480 1.0284 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 83.95 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT 1.354 19 1.351 19 1.340 21 1.339 21 1.338 21 1.337 21 1.327 21 1.326 21 1.317 21 1.314 19 IR 43 45 23 33 45 47 9

9 25 41 JR 46 44 10 10 48 46 24 28 8

18 MCPR Value Margin FT 1.713 0.870 21 1.732 0.860 21 1.733 0.860 21 1.737 0.858 21 1.740 0.856 19 1.745 0.854 19 1.746 0.854 21 1.748 0.853 19 1.749 0.852 19 1.765 0.844 21 IR JR 33 10 47 16 15 48 9 34 41 18 43 16 23 10 43 20 45 18 25 8

APLHGR Value Margin Exp.

FT 7.42 0.60116.5 21 5.91 0.600 47.3 10 7.36 0.600 17.4 21 7.30 0.591 16.4 21 6.71 0.586 33.1 15 7.19 0.585 17.0 21 6.24 0.583 39.8 18 7.24 0.582 15.5 21 6.24 0.578 38.9 14 6.23 0.575 38.6 18 IR JR K

37 52 5

23 38 19 35 54 5

51 38 5

21 40 19 7 26 5

35 52 5

33 52 5

45 46 6

51 26 6

Value 7.15 5.92 6.41 6.75 6.37 6.40 6.17 6.42 6.32 6.14 LHGR Margin Exp.

FT 0.725 31.4 15 0.718 46.9 10 0.717 40.3 18 0.707 34.5 18 0.706 39.5 16 0.706 39.0 18 0.702 41.6 16 0.698 37.8 14 0.697 39.0 16 0.691 40.8 16 IR JR 39 40 37 24 25 10 33 8

39 52 9 26 23 8

45 46 51 40 7 24 K

19 19 5

5 6

5 6

66 6

" LHGR calculated with pin-power reconstruction

" CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.30 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 10,500.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-36 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lb Flow: Mlb/hr 1

3 5

7 9 11 13 1

3 5

7-0 9

11 0

14 --

13------

15 -------- 10 6 --

17------

19..

..- 0 14 --

21------

23-0 25 27 9

11000.0 (1498.00 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-26.20 99.65 ( 97.22 %)

Core Average Exposure: MWd/MTU 25285.1 15 17 19 21 23 25 27 10 6

6 10 0

14 --

0 6 --

10 14 --

0 0

29 59 55 51 47 43 39 35 31 27 23 19 15 11 7

N (PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.194 4.696 0.603 13.940 0.809 19.213 0.919 23.139 0.981 25.823 1.018 27.478 1.037 28.251 1.050 28.540 1.051 28.383 1.046 26.923 1.062 27.045 1.158 26.559 1.194 27.386 1.227 28.319 1.252 29.161 1.269 29.800 1.274* 29.995 1.270 30.521 1.251 31.113 1.215 31.509" 1.162 31.301 1.084 29.704 0.954 25.442 0,720 17.852 0.201 4.905 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.727 1.078 29 52 6

0.372 0.462 49 8

9 0.722 1.090 43 50 10 0.555 0.899 31 32 11 0.809 0.945 31 26 14 1.041 1.258 43 44 15 1.058 1.209 41 20 16 1.048 1.190 21 10 17 0.941 1.224 43 48 18 1.097 1.238 25 10 19 1.169 1.362 43 46 20 1.190 1.267 19 10 21 1.258 1.349 33 10 29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 3

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9.46 0.99903 0.408 22.736 18.201 547.9 84.77 Active

% AXIAL TILT

-8.202

-6.164 AVG SOT 8ft/12ft 1.0485 1.0280 14.9

-0.0 0.00008 (of tol (of tol Channel Flow: Mlb/hr tal core flow) tal core flow) 84.77 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.362 19 43 46 1.359 19 45 44 1.349 21 33 10 1.348 21 23 10 1.344 21 45 48 1.342 21 47 46 1.336 21 9 28 1.335 21 9 24 1.324 19 41 18 1.323 21 25 8

MCPR Value Margin FT 1.714 0.869 21 1.739 0.857 21 1.740 0.856 21 1.740 0.856 19 1.740 0.856 21 1.748 0.853 19 1.748 0.852 19 1.748 0.852 21 1.752 0.851 19 1.770 0.842 21 IR JR 33 10 47 16 15 48 41 18 9 34 43 20 43 16 23 10 45 18 25 8

APLHGR Value Margin Exp.

FT 7.53 0.615 17.4 21 7.44 0.611 18.3 21 7.42 0.605 17.3 21 5.87 0.601 48.0 10 7.39 0.598 16.4 21 7.29 0.597 18.0 21 6.27 0.591 40.6 18 7.21 0.586 16.8 21 6.65 0.586 33.9 15 6.27 0.586 39.7 14 IR JR K

37 52 5

35 54 5

51 38 5

23 38 19 33 52 5

7 26 5

35 52 5

45 48 6

21 40 19 45 46 6

LHGR Value Margin Exp. FT 6.43 0.727 41.1 18 7.20 0.726 30.8 15 5.87 0.720 47.8 10 6.76 0.716 35.4 18 6.42 0.715 39.9 18 6.36 0.712 40.3 16 6.45 0.708 38.7 14 6.30 0.706 40.4 16 6.31 0.703 39.9 16 6.44 0.698 37.5 14 IR JR K

25 10 5 21 40 19 37 24 19 33 8

5 9 26 5

39 52 6

45 46 6

23 8

6 51 40 6

43 44 6

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.31 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 11,000.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-37 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

11385.9 (1550.60 385.9 (

52.55 3458.0 (100.00 %)

1050.1

-25.63 101.77 ( 99.29 %)

Core Average Exposure: MWd/MTU 25670.9 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 0

10 9

11 -------- 0 14 6

13 15 --

i------10 6.

17 19 -------- 0 14 6

21------

23 0

10 25 27 29 IR: 2 6 10 14 18 22 26 30 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow:Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (t):

Source Convergence 59 55 51 00 47 43 14 0

39 35 6 -- 10--.....-31 27 14 D

23 19 00 15 11 7

3 Axial Profile N(PRA) Power Exposure Top 25 0.196 4.787 24 0.608 14.190 23 0.814 19.549 22 0.922 23.523 21 0.983 26.233

JR 20 1.018 27.903 19 1.034 28.684 18 1.046 28.979 17 1.047 28.821 16 1.041 27.245 15 1.057 27.473 14 1.154 26.979 13 1.191 27.819 12 1.224 28.765 11 1.250 29.615 10 1.269 30.261 9

1.276* 30.459 8

1.273 30.983 7

1.255 31.568 6

1.219 31.951*

5 1.164 31.723 4

1.085 30.098 3

0.954 25.789 2

0.719 18.114 Bottom 1

0.201 4.979 Edit Zone 5

6 9

10 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.725 1.079 29 52 0.366 0.456 49 8

0.716 1.085 43 50 0.551 0.899 31 32 0.806 0.945 31 26 1.038 1.258 43 44 1.059 1.210 41 20 1.046 1.188 21 10 0.936 1.221 43 48 1.094 1.238 25 10 1.175 1.368 43 46 1.191 1.268 19 10 1.262 1.358 33 10 34 38 42 46 50 54 58 9.46 0.99931 0.405 23.457

% AXIAL TILT

-8.269

-6..099 18.922 AVG BOT 8ft/12ft 1.0482 1.0277 547.9 86.64 Active Channel Flow: Mlb/hr 86.64 14.9 (of total core flow)

-0.0 (of total core flow) 0.00008 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.368 19 43 46 1.366 19 45 44 1.358 21 33 10 1.354 21 23 10 1.348 21 45 48 1.346 21 47 46 1.344 21 9 28 1.341 21 924 1.332 19 41 18 1.331 19 43 42 Value 1.726 1.751 1.754 1.755 1.756 1.759 1.761 1.762 1.765 1.785 MCPR Margin FT 0.863 21 0.851 19 0.849 21 0.849 21 0.848 21 0.847 19 0.846 19 0.846 21 0.844 19 0.835 21 IR JR 33 10 41 18 9 34 47 16 15 48 43 20 43 16 23 10 45 18 25 8

Value 7.58 7.46 7.47 7.48 7.32 5.83 7.35 6.27 7.27 7.30 APLHGR Margin Exp.

FT 0.622 18.1 21 0.617 19.0 21 0.612 18.0 21 0.609 17.1 21 0.603 18.7 21 0.601 48.5 10 0.597 16.9 21 0.595 41.2 18 0.593 17.5 21 0.592 16.7 19 IR JR 37 52 35 54 51 38 33 52 7 26 23 38 51 28 35 52 45 48 43 46 K

5 5

5 5

5 19 5

5 6

6 LHGR Value Margin Exp.

FT 6.42 0.732 41.8 18 7.05 0.728 33.1 15 5.84 0.721 48.4 10 6.42 0.721 40.5 18 6.75 0.720 36.1 18 6.45 0.714 39.3 14 6.32 0.713 41.0 16 6.26 0.707 41.0 16 6.47 0.706 38.1 14 6.29 0.705 40.5 16 IR JR K

25 10 5 39 40 19 37 24 19 9 26 5

33 8

5 45 46 6

39 52 6

23 8

6 43 44 6

51 40 6

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.32 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 11,385.9 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-38 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

11387.3 (1550.80 1.5 (

0.20 3458.0 (100.00 %(

1050.1

-26.66 98.04 ( 95.64 %)

Core Average Exposure: MWd/MTU 25672.4 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

6 --

7 9

6 14 13..

10 6

15------

17 -------- 10 6

19 21 6

14 23 25 6.-

27 29 IR: 2 6 10 14 18 22 26 3 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 6---- --

8 14 6

6 --

10 --

6 -- 10--

8 14 --

6 --

6--------

0 34 38 42 46 50 9.82 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 54 58 N (PRA:

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.241 4.787 0.749 14.191 0.995 19.550 1.104 23.525 1.133 26.234 1.132 27.905 1.117 28.686 1.101 28.980 1.078 28.823 1.052 27.247 1.052 27.475 1.135 26.981 1.161 27.821 1.185 26.766 1.204 29.617 1.215* 30.263 1.213 30.460 1.201 30.984 1.171 31.569 1.121 31.952" 1.052 31.725 0.962 30.100 0.833 25.790 0.622 18.115 0.173 4.979 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.731 1.109 29 52 6

0.353 0.449 59 40 9

0.684 1.034 43 50 10 0.588 1.100 29 48 11 0.846 1.098 31 26 14 0.989 1.251 27 50 15 1.075 1.246 27 46 16 1.077 1.221 23 46 17 0.886 1.178 43 48 18 1.049 1.252 25 48 19 1.230 1.372 27 48 20 1.133 1.233 7 22 21 1.180 1.364 9 24 0.99926 0.391 21.907 17.373 547.6 83.60 14.7

-0.0 0.00007

% AXIAL TILT

-0.266

-6.099 AVG BOT 8ft/12ft 0.9906 1.0277 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 83.60 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.372 19 27 48 1.364 21 9 24 1.362 19 25 46 1.356 21 9 28 1.356 19 29 50 1.354 21 33 10 1.340 19 31 24 1.338 19 33 40 1.326 21 7 26 1.324 19 41 22 MCPR Value Margin FT 1.627 0.916 19 1.641 0.908 21 1.645 0.906 19 1.650 0.903 21 1.660 0.898 21 1.666 0.894 19 1.670 0.892 19 1.687 0.883 19 1.690 0.882 19 1.690 0.882 19 IR JR 27 48 9 24 25 46 9 34 33 10 31 24 33 22 25 42 19 44 21 46 Value 7.40 7.38 7.92 7.87 6.84 6.69 6.68 6.84 7.24 6.65 APLHGR Margin Exp. FT 0.660 35.1 15 0.655 34.7 15 0.638 15.8 19 0.634 15.9 19 0.600 33.5 18 0.596 35.1 15 0.596 35.3 15 0.591 32.2 16 0.586 16.4 19 0.585 33.8 15 IR JR K

23 42 20 21 18 19 23 18 19 21 42 19 13 36 21 25 44 '20 15 34 21 23 16 20 25 42 20 21 40 20 Value 7.98 7.93 7.32 7.17 6.97 7.14 7.06 7.01 7.23 7.06 LHGR Margin Exp. FT 0.825 33.2 15 0.809 32.0 15 0.748 32.1 15 0.741 33.2 15 0.724 33.6 18 0.721 31.0 15 0.721 32.1 15 0.719 32.5 15 0.717 29.3 16 0.713 31.0 15 IR JR K

23 42 19 21 18 19 15 34 21 25 18 20 13 26 21 31 18 21 39 40 20 25 40 20 23 16 19 41 42 20

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.33 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 11,387.3 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-39 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 1

3 5

7 9 11 13 15 1 1

3 5

6..

7 9 -------- 6 14 8 -

11 13..

..- 10 6

15 17 -------- 10 --

6 19 21..

..- 6 --

14 8 -

23 25 6

27 29 IR: 2 6 10 14 18 22 26 30 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9

11500.0 (1566.10 112.7 (

15.34 3458.0 (100.00 %)

1050.1

-26.66 98.04 ( 95.65 %)

.7 19 21 23 25 27 29 59 55 6

51 47 14 --

6 ------

43 39 6 -- 10-----..-35 31 6 --

10 ------

27 23 14 --

6 ------

19 15 6

11 7

3 14 38 42 46 50 54 58 9.82 0.99933 0.390 21.940 17.406 AVG BC 547.6 83.58 Active Channe 14.7 (of total cor

-0.0 (of total com 0.00008 Core Average Exposure: MWd/MTU 25785.0 Axial Profile N(PRA) Power Exposure Top 25 0.242 4.820 24 0.752 14.282 23 0.999 19.671 22 1.108 23.659 21 1.136 26,372

JR 20 1.133 28.043 19 1.118 28.822 18 1.101 29.115 17 1.077 28.954 16 1.051 27.371 15 1.051 27.599 14 1.134 27.101 13 1.160 27.944 12 1.184 28.892 11 1.202 29.744 10 1.214* 30.392 9

1.213 30.589 8

1.200 31.112 7

1.170 31.694 6 1.120 32.071*

5 1.051 31.837 4

0.960 30.202 3

0.831 25.879 2

0.620 18.182 Bottom 1

0.173 4.998 AXIAL TILT

-0.160

-6.045

)T 8ft/12ft 0.9896 1.0274 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.731 1.109 29 52 0.352 0.448 59 40 0.682 1.033 43 50 0.586 1.101 29 48 0.846 1.098 31 26 0.988 1.252 27 50 1.075 1.247 27 46 1.077 1.222 23 46 0.885 1.178 43 48 1.048 1.252 25 48 1.232 1.375 27 48 1.133 1.233 7 22 1.181 1.365 9 24 Il Flow: Mlb/hr "e flow)

"e flow) 83.58 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.375 19 27 48 1.366 19 25 46 1.365 21 9 24 1.359 19 29 50 1.357 21 9 28 1.356 21 33 10 1.343 19 31 24 1.341 19 33 40 1.327 19 41 22 1.326 21 7 26 MCPR Value Margin FT 1.621 0.919 19 1.639 0.909 21 1.642 0.907 19 1.649 0.904 21 1.658 0.899 21 1.664 0.896 19 1.668 0.894 19 1.685 0.884 19 1.686 0.884 19 1.687 0.883 19 IR JR 27 48 9 24 25 46 9 34 33 10 31 24 33 22 25 42 21 46 19 44 APLHGR Value Margin Exp. FT 7.40 0.661 35.3 15 7.38 0.656 34.9 15 7.94 0.641 16.0 19 7.88 0.636 16.1 19 6.85 0.602 33.7 18 6.70 0.598 35.3 15 6.68 0.597 35.5 15 6.85 0.593 32.4 16 7.25 0.588 16.6 19 6.65 0.586 33.9 15 IR JR K

23 42 20 21 18 19 23 18 19 21 42 19 13 36 21 25 44 20 15 34 21 23 16 20 25 42 20 21 40 20 Value 7.98 7.94 7.33 7.18 6.98 7.15 7.06 7.01 7.24 7.07 LHGR Margin Exp.

FT 0.827 33.4 15 0.812 32.2 15 0.750 32.3 15 0.743 33.4 15 0.726 33.8 16 0.723 31.2 15 0.723 32.3 15 0.720 32.7 15 0.720 29.5 16 0.716 31.2 15 IR JR K

23 42 19 21 18 19 15 34 21 25 18 20 13 26 21 31 18 21 39 40 20 25 40 20 23 16 19 41 42 20

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.34 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 11,500.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-40 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/Ibm Flow: Mlb/hr 1

3 5

7 9 11 13 1

35 6 --

7 9

6 14 11----------

13 10 6 --

15 17 10 6 --

19 21 6

14 --

23 25 6 --

27 29 IR: 2 6 10 14 18 22 26 15 8

B 30 9

12000.0 (1634.20 500.0 ( 68.09 3458.0 (100.00 %)

1050.1

-25.66 101.63 ( 99.16 %)

17 19 21 23 25 27 29 6------.

14 6

6 10 6 -

10 --.----

14 --

6--

146 6

6--------

34 38 42 46 50 54 58 9.B2 0.99966 0.385 23.134 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Core Average Exposure: MWd/MTU 26285.0 Axial Profile Power Exposure 0.243 4.966 0.759 14.687 1.003 20.209 1.109 24.258 1.133 26.987 1.128 28.656 1.111 29.427 1.094 29.710 1.070 29.537 1.045 27.920 1.047 28.148 1.132 27.634 1.160 28.489 1.185 29.449 1.205 30.310 1.217 30.962 1.218* 31.161 1.206 31.678 1.175 32.246 1.124 32.599*

1.053 32.332 0.961 30.655 0.830 26.270 0.619 18.474 0.172 5.079 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.727 1.110 29 52 0.346 0.440 59 40 0.675 1.028 43 50 0.581 1.102 29 48 0.842 1.098 31 26 0.985 1.254 27 50 1.074 1.249 27 46 1.075 1.222 23 46 0.879 1.175 43 48 1.045 1.254 25 48 1.240 1.387 27 48 1.134 1.234 53 40 1.186 1.373 9 24 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence

% AXIAL TILT

-0.384

-5.809 18.600 AVG BOT 8ft/12ft 0.9906 1.0259 547.7 86.74 Active Channel Flow: Mlb/hr 86.74 14.7 (of total core flow)

-0.0 (of total core flow) 0.00007 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.387 19 27 48 1.376 19 25 46 1.373 21 9 24 1.371 19 29 50 1.368 21 33 10 1.367 21 9 28 1.351 19 31 24 1.351 19 33 40 1.336 19 41 22 1.333 21 7 26 MCPR Value Margin FT 1.637 0.910 19 1.666 0.895 19 1.666 0.894 21 1.675 0.890 21 1.681 0.886 21 1.685 0.884 19 1.691 0.881 19 1.707 0.873 19 1.711 0.871 19 1.712 0.870 19 IR JR 27 48 25 46 9 24 9 34 33 10 29 24 33 22 35 20 21 46 41 18 APLHGR Value Margin Exp. FT 7.31 0.659 36.2 15 7.36 0.654 34.9 15 7.90 0.642 17.0 19 7.84 0.638 17.1 19 6.78 0.601 34.5 18 6.63 0.596 36.1 15 6.59 0.594 36.3 15 6.78 0.592 33.2 16 7.13 0.590 19.2 21 7.21 0.589 17.5 19 IR JR K

23 42 20 21 18 20 23 18 19 21 42 19 13 36 21 25 44 20 15 34 21 23 16 20 51 24 6

25 42 20 LHGR Value Margin Exp.

FT 7.87 0.824 34.5 15 7.83 0.810 33.3 15 7.23 0.748 33.3 15 7.10 0.743 34.4 15 7.09 0.725 32.2 15 6.99 0.723 33.2 15 6.87 0.722 34.8 18 6.94 0.720 33.6 15 7.16 0.719 30.5 16 7.01 0.716 32.2 15 IR JR K

23 42 19 21 18 19 15 34 21 25 18 20 31 18 21 39 40 20 13 26 21 25 40 20 23 16 19 41 42 20

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.35 Browns Ferry Unit 1 Cycle 9 Control Rod Pattern and Axial Distributions at 12,000.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-41 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

12500.0 (1702.30 500.0 (

68.09 3458.0 (100.00 %)

1050.1

-24.71 105.33 (102.76 %)

Core Average Exposure: MWd/MTU 26785.1 1

3 5

7 9 11 13 15 17 19 21 23 1

5 6

6 7

9 --------

6 14 8

14 --

13......-

10 6--6 --.----

6 --

15 17 -------- 10 6-6 --.---

6 --

19 21......-

6 14 8

14 --

23 25 6--------6 27 6

10 10 6

25 27 29 59 55 51 47 43 39

-35 31 27 23 19 15 11 7

N (PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.246 5.114 0.767 15.096 1.010 20.749 1.114 24.858 1.135 27.600 1.127 29.266 1.108 30.027 1.090 30.302 1.068 30.116 1.044 28.467 1.047 28.696 1.134 28.166 1.163 29.035 1.189 30.006 1.209 30.876 1.221 31.535 1.221* 31.735 1.208 32.246 1.174 32.800 1.120 33.129*

1.047 32.829 0.953 31.108 0.822 26.662 0.612 18.766 0.170 5.160 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.724 1.112 29 52 6

0.340 0.434 59 40 9

0.668 1.022 43 50 10 0.576 1.104 29 48 11 0.839 1.100 31 26 14 0.981 1.257 27 50 15 1.074 1.251 27 46 16 1.073 1.223 37 46 17 0.872 1.171 43 48 18 1.041 1.256 25 48 19 1.248 1.399 27 48 20 1.134 1.235 53 40 21 1.191 1.379 9 24 29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 3

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%(:

Source Convergence 9.82 0.99999 0.378 24.439 19.904 547.8 89.97 14.6

-0.0 0.00010

% AXIAL TILT

-0.233

-5.587 AVG BOT 8ft/12ft 0.9898 1.0245 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 89.97 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.399 19 27 48 1.387 19 25 46 1.383 19 29 50 1.379 21 9 24 1.379 21 27 52 1.376 21 9 28 1.363 19 31 24 1.362 19 33 40 1.344 19 41 22 1.341 19 25 42 MCPR Value Margin FT 1.651 0.903 19 1.687 0.883 19 1.693 0.880 21 1.700 0.876 21 1.700 0.876 19 1.703 0.875 21 1.712 0.870 19 1.725 0.864 19 1.730 0.861 19 1.735 0.859 19 IR JR 27 48 25 46 9 24 9 34 29 24 33 10 33 22 35 20 27 44 21 46 APLHGR Value Margin Exp.

FT 7.23 0.658 37.1 15 7.30 0.654 35.8 15 7.86 0.644 18.0 19 7.83 0.639 17.5 19 6.74 0.602 35.4 18 6.57 0.596 36.9 15 6.74 0.593 34.0 16 6.52 0.592 37.1 15 7.07 0.590 20.1 21 7.17 0.590 18.4 19 IR JR K

23 42 20 21 18 20 23 18 19 21 42 20 13 36 21 25 44 20 23 16 20 15 34 21 51 24 6

25 42 20 LHGR Value Margin Exp. FT 7.85 0.824 34.6 15 7.75 0.811 34.3 15 7.15 0.747 34.3 15 7.05 0.745 35.3 15 7.04 0.727 33.1 15 6.93 0.724 34.2 15 7.24 0.721 29.7 16 6.79 0.720 35.7 18 6.87 0.720 34.5 15 6.96 0.719 33.1 15 IRJR K

23 42 20 21 18 19 15 34 21 25 18 20 31 18 21 39 40 20 23 16 20 13 26 21 25 40 20 41 42 20

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.36 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 12,500.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-42 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

12500.2 (1702.40 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-26.07 100.13 ( 97.69 %)

Core Average Exposure: MWd/MTU 26785.3 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 27 1

29 3

5 6--

6--

7 9 --------

6 14 8

14 13..

..- 12 8-..

8 --

15 17..

..- 12 8-..

8 --

19 21..

6 14 8

14 23 25 6--

-6 27 29 IR: 2 6 10 14 18 22 26 30 34 38 42 12-------

12 --------

6 --------

46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 109 8

7 6

5 4

3 2

Bottom 1

Power Exposure 0.249 5.114 0.775 15.096 1.022 20.750 1.134 24.859 1.167 27.600 1.157 29.266 1.140 30.028 1.110 30.302 1.078 30.116 1.047 28.467 1.044 28.696 1.126 28.167 1.150 29.035 1.173 30.006 1.191 30.876 1.202 31.535 1.203* 31.735 1.191 32.247 1.159 32.800 1.107 33.130*

1.036 32.829 0.945 31.108 0.815 26.662 0.607 18.766 0.169 5.160 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.721 1.096 29 52 6

0.337 0.434 59 40 9

0.663 1.011 43 50 10 0.576 1.091 29 48 11 0.843 1.106 31 26 14 0.976 1.240 27 50 15 1.085 1.239 27 46 16 1.067 1.212 37 46 17 0.866 1.159 43 48 18 1.035 1.243 9 26 19 1.256 1.382 27 48 20 1.124 1.230 53 40 21 1.182 1.383 9 28 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9.64 0.99999 0.383

22. 608 18.074 547.6 85.45 14.7

-0.0 0.00006

% AXIAL TILT 1.048

-5.587 AVG BOT 8ft/l2ft 0.9798 1.0245 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 85.45 Top Ten Thermal Limits Summary -

Sorted by Margin Power Value FT IR JR 1.383 21 9 28 1.382 19 27 48 1.380 21 9 24 1.373 19 25 46 1.366 19 31 24 1.364 19 29 50 1.362 19 33 40 1.358 21 27 52 1.351 19 41 22 1.347 19 43 24 MCPR Value Margin FT 1.625 0.917 19 1.636 0.911 21 1.638 0.910 21 1.648 0.904 19 1.655 0.900 19 1.664 0.895 19 1.666 0.894 19 1.672 0.891 19 1.679 0.887 19 1.685 0.884 19 IR JR 27 48 9 34 9 24 29 24 27 40 25 46 41 22 43 24 27 36 35 20 APLHGR Value Margin Exp.

FT 7.36 0.669 37.1 15 7.35 0.659 35.8 15 7.99 0.652 17.5 19 7.94 0.648 17.5 19 7.10 0.647 37.4 18 6.96 0.642 38.5 15 7.68 0.634 18.8 19 7.56 0.622 18.4 19 6.95 0.609 33.5 15 6.76 0.605 35.6 15 IR JR K

23 42 20 21 18 20 21 42 20 23 18 20 13 26 20 15 28 20 15 26 20 13 34 20 39 36 22 21 40 20 Value 7.98 7.79 7.65 7.13 7.31 7.18 7.08 7.50 6.99 7.05 LHGR Margin Exp.

FT 0.838 34.6 15 0.815 34.3 15 0.814 35.9 15 0.775 37.8 18 0.755 33.2 15 0.749 34.2 15 0.749 35.3 15 0.746 29.6 15 0.740 35.5 15 0.739 34.5 15 IR JR K

23 42 20 21 18 19 15 34 20 13 26 20 39 36 21 39 40 20 25 18 20 23 34 22 17 26 20 25 40 20

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.37 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 12,500.2 MWdiMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-43 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

12950.0 (1763.60 449.8 (

61.26 3458.0 (100.00 %)

1050.1

-24.90 104.59 (102.04 %)

Core Average Exposure: MWd/MTU 27235.1 1

3 5

7 9 11 13 15 17 19 21 1

3 5

6 -------- 6 --

7 9..

..- 6 14 --

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

13..

..- 12 8..

15 17

..- 12 --

8 19 21......-

6 --

14 --

23 25-6 27 29 IR: 2 6 10 14 18 22 26 3' Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%)!

Total Water Rod Flow (%):

Source Convergence 8--

14 --

- 8 8

8 --

14 --

6 --

23 25 27 29 59 55 51 47 6..

43 39 12..

35 31 12..

..- 27 23 6

..- 19 15 11 7

Axial Profile N(PRA) Power Exposure Top 25 0.251 5.250 24 0.783 15.472 23 1.028 21.245 22 1.139 25.411 21 1.168 28.168

JR 20 1.155 29.829 19 1.136 30.582 18 1.108 30,843 17 1.077 30.641 16 1.049 28.960 15 1.049 29.167 14 1.133 28.643 13 1.159 29.522 12 1.182 30.503 11 1.199 31.380 10 1.209* 32.044 9

1.208 32.245 8

1.191 32.751 7

1.155 33.291 6 1.099 33.599*

5 1.025 33.268 4

0.932 31.509 3

0.802 27.007 2

0.597 19.023 Bottom 1

0.166 5.232 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.719 1.097 29 52 6

0.332 0.428 59 40 9

0.658 1.007 43 50 10 0.572 1.094 29 48 11 0.840 1.107 31 26 14 0.973 1.243 27 50 15 1.084 1.241 27 46 16 1.065 1.213 37 46 17 0.861 1.157 43 48 18 1.033 1.243 25 48 19 1.262 1.393 27 48 20 1.126 1.232 53 40 21 1.186 1.391 51 28 0 34 38 42 46 50 54 58 9.64 3

1.00029 0.375 24.141 19.606 547.7 89.36 14.6

-0.0 0.00007

% AXIAL TILT 1.300

-5.370 AVG BOT 8ft/12ft 0.9792 1.0232 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 89.36 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.393 19 27 48 1.391 21 51 28 1.386 21 9 24 1.383 19 25 46 1.375 19 31 24 1.375 19 29 50 1.370 19 33 40 1.368 21 27 52 1.357 19 41 22 1.352 19 43 24 MCPR Value Margin FT 1.648 0.904 19 1.667 0.894 21 1.670 0.892 21 1.673 0.891 19 1.684 0.885 19 1.693 0.880 19 1.698 0.878 19 1.702 0.875 19 1.709 0.872 19 1.714 0.869 19 IR JR 27 48 9 34 9 24 29 24 27 40 25 46 41 22 43 24 27 36 35 20 APLHGR Value Margin Exp. FT 7.26 0.666 37.9 15 7.29 0.659 36.6 15 7.94 0.653 18.4 19 7.90 0.650 18.4 19 7.02 0.646 38.2 18 6.85 0.637 39.3 15 7.60 0.631 19.7 19 7.50 0.621 19.2 19 6.85 0.605 34.2 15 6.68 0.602 36.3 15 IR JR K

23 42 20 21 18 20 21 42 20 23 18 20 13 26 20 15 28 20 15 26 20 13 34 20 39 36 22 21 40 20 LHGR Value Margin Exp. FT 7.88 0.836 35.6 15 7.81 0.816 34.2 15 7.52 0.809 36.8 15 7.48 0.776 33.5 18 7.46 0.752 30.9 15 7.02 0.749 36.2 15 7.10 0.748 35.0 15 7.39 0.742 30.5 15 6.89 0.737 36.3 15 6.96 0.737 35.4 15 IR JR K

23 42 20 21 18 20 15 34 20 47 26 20 39 36 22 25 18 20 39 40 20 23 34 22 17 26 20 25 40 20

• LRGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.38 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 12,950.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-44 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 1

3 5

7 9 11 13 15 1 1

3 5

7 9 -- -

13 ---

15---

17 --

19 21 23 25 27 29 IR: 2 6

6 14 --

8 14 --

10..

14 10 6

14 8

6 10 14 18 22 26 30 3

9 12950.2 (1763.60 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-26.24 99.52 ( 97.10 %)

17 19 21 23 25 27 29 59 55 6

51 47 14 6..

43

-39 10 14 -------- 35 31 10 14 -------- 27

---

23 14

-6 19 15 6

11 7

3 34 38 42 46 50 54 58 N(PRA)

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Axial Profile Power Exposure 0.251 5.250 0.782 15.472 1.029 21.245 1.145 25.411 1.183 28.168 1.184 29.830 1.165 30.582 1.139 30.843 1.096 30.641 1.059 28.960 1.051 29.188 1.129 28.643 1.150 29.522 1.170 30.503 1.184 31.381 1.193* 32.044 1.191 32.246 1.176 32.752 1.141 33.292 1.087 33.599*

1.015 33.268 0.925 31.509 0.796 27.008 0.593 19.023 0.165 5.232 2.419

-5.370 0.9713 1.0232

/hr 84.94 Core Average Exposure: MWd/MTU 27235.3 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.716 1.096 51 30 0.330 0.428 59 40 0.653 0.996 43 50 0.572 1.081 29 48 0.844 1.114 31 26 0.968 1.230 11 24 1.094 1.236 33 24 1.060 1.214 45 24 0.855 1.145 43 48 1.028 1.246 9 26 1.270 1.378 31 24 1.117 1.228 53 40 1.178 1.398 51 28 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Tamp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9.46 1.00034 Bottom 1

0.380 22.376

% AXIAL TILT 17.842 AVG BOT Bft/12ft 547.5 84.94 Active Channel Flow: Mlb.

14.6 (of total core flow)

-0.0 (of total core flow) 0.00006 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.398 21 51 28 1.387 21 9 24 1.378 19 31 24 1.377 19 27 48 1.370 19 33 40 1.369 19 25 46 1.368 19 43 24 1.364 19 41 22 1.360 19 33 26 1.359 19 49 26 MCPR Value Margin FT 1.610 0.925 21 1.622 0.919 19 1.622 0.918 21 1.624 0.918 19 1.628 0.915 19 1.632 0.913 19 1.636 0.911 19 1.639 0.909 19 1.653 0.901 19 1.662 0.897 19 IR JR 9 34 29 24 9 24 27 48 43 24 27 40 41 22 27 36 35 24 43 28 Value 7.41 7.37 7.31 7.44 7.38 8.07 8.13 7.32 8.04 7.98 APLHGR Margin Exp.

FT 0.680 38.1 18 0.676 37.9 15 0.675 38.6 15 0.673 36.6 15 0.665 36.3 15 0.663 18.4 19 0.663 17.3 19 0.662 36.6 15 0.662 18.6 19 0.654 18.1 19 IR JR K

13 26 19 23 42 20 45 28 19 39 36 21 23 34 21 21 42 20 21 34 21 21 18 20 15 26 19 13 28 19 LHGR Value Margin Exp. FT 7.93 0.853 36.8 15 8.01 0.849 35.6 15 8.04 0.839 34.1 15 8.02 0.832 33.5 15 7.82 0.820 34.6 15 7.56 0.820 37.6 18 7.31 0.782 36.3 15 7.18 0.775 37.2 15 7.32 0.771 35.0 15 7.16 0.771 37.0 15 IR JR K

15 34 20 23 42 20 39 36 21 23 34 21 39 18 20 13 26 19 17 26 20 41 34 20 39 40 20 17 32 20

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.39 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 12,950.2 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-45 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

13300.0 (1811.30 349.8 (

47.64 3458.0 (100.00 %)

1050.1

-25.04 104.02 (101.48 %)

Core Average Exposure: MWd/MTU 27585.1 Axial Profile i

3 5

1 3

5 7

9 11 13 15 17 19 21 23 25 6--

6 27 29 7

9......-

6 14 8

14 --

13 -------- 14 10-......--0 15----------------

17 -------- 14 10 10 19 21------- 6 14 8-14--

23 25 6--6 6

27 29 IR: 2 6 10 14 18 22 26 30 34 38 42 6--------

14-------

14 --.-----

46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Power Exposure 0.253 5.357 0.789 15.767 1.035 21.633 1.150 25.844 1.185 28.616 1.184 30.278 1.163 31.023 1.137 31.274 1.097 31.056 1.062 29.347 1.057 29.572 1.138 29.015 1.160 29.900 1.178 30.888 1.191 31.770 1.197* 32.436 1.193 32.638 1.173 33.139 1.134 33.668 1.076 33.958*

1.003 33.603 0.912 31.814 0.786 27.270 0.585 19.219 0.163 5.287 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.714 1.095 51 30 6

0.327 0.424 59 40 9

0.649 0.994 43 50 10 0.568 1.083 29 48 11 0.842 1.113 31 26 14 0.967 1.230 11 24 15 1.093 1.236 33 24 16 1.059 1.212 45 24 17 0.852 1.144 43 48 18 1.027 1.246 9 26 19 1.274 1.385 27 48 20 1.118 1.230 53 40 21 1.182 1.403 51 28 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9.46 1.00048 0.372 23.897 19.362 547.6 88.89 14.5

-0.0 0.00008

% AXIAL TILT 2.763

-5.188 AVG BOT 8ft/12ft 0.9703 1.0220 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 88.89 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.403 21 51 28 1.391 21 9 24 1.385 19 27 48 1.385 19 31 24 1.376 19 33 40 1.376 19 25 46 1.371 19 43 24 1.366 19 41 22 1.365 19 33 26 1.364 19 29 50 MCPR Value Margin FT 1.643 0.907 21 1.651 0.902 19 1.652 0.902 19 1.655 0.900 21 1.662 0.897 19 1.664 0.895 19 1.671 0.892 19 1.673 0.891 19 1.685 0.884 19 1.700 0.877 19 IR JR 9 34 27 48 29 24 9 24 43 24 33 22 41 22 27 36 35 24 43 28 APLHGR Value Margin Exp. FT 7.34 0.679 38.7 18 7.29 0.673 38.6 15 7.21 0.670 39.2 15 7.34 0.668 37.2 15 8.02 0.663 19.1 19 7.27 0.662 37.2 15 7.28 0.660 36.9 15 8.05 0.660 18.0 19 7.96 0.660 19.3 19 7.93 0.654 18.8 19 IR JR K

13 26 19 37 20 20 45 28 19 39 36 21 21 42 20 21 18 20 23 34 21 21 34 21 15 26 19 13 28 19 LHGR Value Margin Exp.

FT 7.82 0.848 37.6 15 7.92 0.847 36.3 15 7.94 0.835 34.8 15 7.91 0.827 34.3 15 7.77 0.822 35.3 15 7.46 0.815 38.3 18 7.22 0.779 37.0 15 7.25 0.770 35.7 15 7.07 0.77037.9 15 7.05 0.765 37.6 15 IR JR K

15 34 20 23 42 20 39 36 21 23 34 21 39 18 20 13 26 19 17 26 20 39 40 20 41 34 20 17 32 20

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.40 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 13,300.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-46 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

13300.2 (1811.30 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-25.65 101.69 ( 99.21 %)

Core Average Exposure: MWd/MTU 27585.3 1

3 5

7 9 11 13 15 17 19 21 1

3 5

8 8

9 -------- 6 14 8

14 --

13 -------- 14 10 10 15 17......-

14 10 -- --

10 --

19 21..

..- 6 14 8

14 --

23 25 8-----8 8 --

27 23 25 27 6....

14 14 6 -...

29 59 55 51 47 43 39 35 31 27 23 19 15 11 7

Axial Profile N(PRA) Power Exposure Top 25 0.256 5.357 24 0.796 15.767 23 1.046 21.633 22 1.166 25.844 21 1.208" 28.616

JR 20 1.199 30.278 19 1.172 31.023 18 1.142 31.274 17 1.098 31.056 16 1.061 29.348 15 1.053 29.573 14 1.132 29.015 13 1.152 29.901 12 1.169 30.888 11 1.182 31.770 10 1.187 32.437 9

1.184 32.639 8 1.165 33.140 7

1.127 33.668 6

1.070 33.958*

5 0.998 33.603 4

0.909 31.814 3

0.783 27.270 2

0.583 19.219 Bottom 1

0.162 5.287 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.714 1.091 29 52 6

0.329 0.421 59 40 9

0.651 1.002 43 50 10 0.568 1.088 29 48 11 0.839 1.108 31 26 14 0.970 1.238 27 50 15 1.089 1.234 27 46 16 1.062 1.209 37 46 17 0.853 1.148 43 48 18 1.029 1.241 25 48 19 1.271 1.392 27 48 20 1.121 1.221 53 40 21 1.186 1.392 51 28 29 IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 3

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%:

Source Convergence 9.37 1.00049 0.374 23.077 18.543 547.5 86.87 14.6

-0.0 0.00006

% AXIAL TILT 3.392

-5.188 AVG BOT 8ft/12ft 0.9649 1.0220 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 86.87 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.392 21 51 28 1.392 19 27 48 1.381 19 25 46 1.380 21 9 24 1.378 19 31 24 1.372 19 29 50 1.371 19 33 40 1.368 21 33 10 1.363 19 43 24 1.361 19 41 22 MCPR Value Margin FT 1.616 0.922 19 1.639 0.909 19 1.640 0.908 21 1.651 0.902 19 1.651 0.902 21 1.652 0.902 19 1.660 0.897 19 1.664 0.895 19 1.668 0.893 19 1.672 0.891 19 IR JR 27 48 29 24 9 34 43 24 9 24 33 22 41 22 27 36 25 46 35 24 APLHGR Value Margin Exp.

FT 7.35 0.678 38.6 15 7.29 0.674 38.7 18 7.37 0.671 37.2 15 8.07 0.667 19.1 19 7.32 0.666 37.2 15 7.16 0.665 39.2 15 8.01 0.663 19.1 19 7.24 0.657 36.9 15 8.01 0.656 18.0 19 7.91 0.655 19.3 19 IR JR K

37 20 20 13 26 19 21 18 20 21 42 20 39 36 21 45 28 19 23 18 20 23 34 21 21 34 21 15 26 19 LHGR Value Margin Exp.

FT 7.97 0.852 36.3 15 7.77 0.842 37.6 15 7.88 0.833 35.3 15 7.91 0.832 34.8 15 7.87 0.823 34.3 15 7.41 0.810 38.3 18 7.18 0.774 37.0 15 7.26 0.771 35.7 15 7.03 0.765 37.9 15 7.09 0.762 36.8 15 IR JR K

23 42 20 15 34 20 39 18 20 39 36 21 23 34 21 13 26 19 17 26 20 39 40 20 41 34 20 25 18 20

• LHGR calculated with pin-power reconstruction

" CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.41 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 13,300.2 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-47 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

13580.7 (1849.50 280.5 ( 38.20 3458.0 (100.00 %)

1050.1

-24.60 105.81 (103.23 %)

Core Average Exposure: MWd/MTU 27865.8 1 3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

35 8---

7 9

6 14 8

13 14 10 15 17 14 10 19 21 -------- 6 14 8

23 25 8

27 29 IR: 2 6 10 14 18 22 26 30 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 59 55 8

51 47 14 --

6 ------

43 39 10 --

14 ------

35 31 10 --

14 ------

27 23 14 6..

19 15 8.11 7

N(PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile

) Power Exposure 0.258 5,444 0.803 '16.008 1.052 21.949 1.171 26.198 1.211* 28,983 1.200 30.642 1.172 31.379 1.142 31.621 1.100 31.389 1.066 29.659 1.061 29.881 1.142 29.314 1.163 30.204 1.180 31.197 1.190 32.082 1.192 32.750 1.185 32.952 1.162 33.448 1.119 33.966 1.058 34.241" 0.983 33.867 0.893 32.055 0.768 27.477 0.571 19.373 0.159 5.330 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.713 1.093 29 52 0.326 0.418 59 40 0.648 1.000 43 50 0.566 1.089 29 48 0.837 1.107 31 26 0.969 1.240 27 50 1.087 1.235 27 46 1.062 1.210 37 46 0.851 1.148 43 48 1.028 1.242 25 48 1.273 1.398 27 48 1.123 1.223 53 40 1.190 1.396 51 28 34 38 42 46 50 54 58 9.37 3

1.00072 0.367 24.513 19.977 547.6 90.47 14.5

-0.0 0.00008

% AXIAL TILT 3.844

-5.036 AVG BOT 8ft/12ft 0.9634 1.0211 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 90.47 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.398 19 27 48 1.396 21 51 28 1.386 19 25 46 1.384 21 51 38 1.383 19 31 24 1.378 19 29 50 1.375 19 33 40 1.374 21 27 52 1.364 19 43 24 1.362 19 41 22 Value 1.642 1.667 1.669 1.680 1.683 1.683 1.693 1.694 1.696 1.703 MCPR Margin FT 0.908 19 0.894 19 0.893 21 0.887 21 0.886 19 0.885 19 0.880 19 0.879 19 0.879 19 0.875 19 IR JR 27 48 29 24 9 34 9 24 33 22 43 24 41 22 25 46 27 36 35 24 APLHGR Value Margin Exp. FT 7.28 0.676 39.1 15 7.24 0.673 39.3 18 7.33 0.671 37.7 15 8.02 0.667 19.7 19 7.98 0.663 19.7 19 7.24 0.662 37.7 15 7.08 0.661 39.7 15 7.94 0.654 18.6 19 7.85 0.653 19.8 19 7.16 0.653 37.4 15 IR JR K

37 20 20 47 26 19 21 18 20 21 42 20 23 18 20 39 36 21 45 28 19 21 34 21 45 26 19 37 34 21 LHGR Value Margin Exp. FT 7.90 0.850 36.9 15 7.68 0.838 38.1 15 7.84 0.835 35.9 15 7.82 0.828 35.4 15 7.78 0.819 34.8 15 7.66 0.809 35.2 18 7.11 0.771 37.6 15 7.21 0.770 36.2 15 7.05 0.763 37.3 15 7.12 0.761 36.2 15 IR JR K

23 42 20 15 34 20 39 18 20 39 36 21 23 34 21 47 26 19 17 26 20 39 40 20 25 18 20 41 34 21

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.42 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 13,580.7 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-48 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

13582.1 (1849.70 1.5 (

0.20 3458.0 (100.00 %)

1050.1

-29.27 89.68 ( 87.50 %)

Core Average Exposure: MWd/MTU 27867.3 Axial Profile 1

3 5

7 9

11 13 15 17 1

3 5

7 9 11 12 --

0 0

13 15 17 19 21 0 --

0 --

12 0

0 0 --

0 --

12 26 30 34 38 42 23 25 46 50 27 29 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 54 58 N(PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Power Exposure 0.163 5.444 0.503 16.009 0.666 21.951 0.763 26.200 0.829 28.985 0.877 30.644 0.916 31.381 0.947 31.622 0.981 31.391 1.012 29.660 1.052 29.883 1.165 29.315 1.211 30.206 1.248 31.198 1.277 32.084 1.298 32.752 1.314 32.953 1.321* 33.449 1.320 33.968 1.313 34.242*

1.298 33.869 1.258 32.056 1.142 27.478 0.976 19.374 0.248 5.330 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.709 1.090 29 52 6

0.331 0.413 49 8

9 0.668 1.041 43 50 10 0.561 1.050 29 48 11 0.823 1.037 31 26 14 0.997 1,283 37 50 15 1.002 1.161 35 26 16 1.115 1.239 39 48 17 0.877 1.171 47 44 18 1.069 1.249 35 52 19 1.232 1,416 35 50 20 1.165 1.262 19 10 21 1.267 1.418 21 12 19 21 ---------12 --

23 25 27 29 IR: 2 6 10 14 18 22 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 5.95 1.00068 0.440 19.748 15.215 547.8 75.90 15.4

-0.0 0.00009

% AXIAL TILT -16.984

-5.035 AVG BOT 8ft/12ft 1.1085 1.0211 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 75.90 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.418 21 21 12 1.416 19 35 50 1.410 21 23 10 1.405 21 33 52 1.402 19 37 48 1.399 21 49 22 1.398 19 49 26 1.388 19 47 24 1.385 21 51 24 1.385 21 51 28 MCPR Value Margin FT 1.622 0.919 19 1.640 0.908 19 1.642 0.908 21 1.643 0.907 21 1.644 0.906 19 1.656 0.900 21 1.670 0.892 19 1.672 0.891 21 1.679 0.887 19 1.683 0.885 21 IR JR 37 14 35 12 39 50 23 10 13 24 33 10 11 26 49 40 41 14 51 38 APLHGR Value Margin Exp. FT 8.19 0.682 19.9 21 8.18 0.677 19.2 21 8.20 0.673 18.1 19 8.08 0.672 19.7 21 0.15 0.668 18.1 19 7.89 0.662 20.8 21 7.97 0.662 19.6 21 7.79 0.654 20.9 21 7.96 0.650 17.6 19 7.95 0.649 17.5 19 IR JR 27 10 23 10 35 50 51 28 49 26 51 24 39 50 49 22 47 24 37 48 K

4 4

4 4

4 4

5 5

5 5

LHGR Value Margin Exp. FT 6.99 0.799 42.1 18 6.92 0.788 41.8 18 7.56 0.788 33.9 14 6.87 0.784 42.0 16 6.82 0.781 42.3 18 7.38 0.780 35.4 14 6.70 0.779 43.5 18 6.76 0.776 42.5 16 7.03 0.773 38.8 14 7.11 0.769 37.3 14 IR JR 25 10 9 26 23 50 39 48 47 26 49 24 25 48 47 40 33 50 49 34 K

4 4

4 5

5 4

5 5

5 5

" LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.43 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 13,582.1 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-49 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 1 3 5

7 9 11 13 15 3 1

3 5

7 9

12 0 --

11 13 0

15--7 17..

. 19 21 12 0

23 25 27 29 IR: 2 6 10 14 18 22 26 30 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9

14000.0 (1906.60 417.9 (

56.91 3458.0 (100.00 %)

1050.1

-27.55 95.01 ( 92.70 %)

.7 19 21 23 25 27 29 59 55 51 47 0

12 43 39 0

35 31 0

27

-23 0

12 19 15 11 7

3 34 38 42 46 50 54 58 5.95 Core Average Exposure: MWd/MTU 28285.1 N (PRA)

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Axial Profile Power Exposure 0.166 5.527 0.515 16,235 0.680 22.251 0.778 26.545 0.843 29,360 0.889 31.040 0.927 31.795 0.958 32.051 0.993 31.834 1.027 30.103 1.068 30.343 1.183 29.773 1.228 30.682 1.263 31.689 1.287 32.586 1.303 33.262 1.313* 33.471 1.312 33.970 1.303 34.488 1.287 34.760*

1.265 34.380 1.221 32.551 1.105 27.928 0.846 19.719 0.239 5.428

-15.630

-5.118 1.1023 1.0217

/hr 80.55 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.706 1.089 29 52 6

0.326 0.408 49 8

9 0.663 1.037 43 50 10 0.557 1.050' 29 48 11 0.822 1.040 31 26 14 0.995 1.283 37 50 15 1.003 1.164 35 26 16 1.114 1.239 39 48 17 0.873 1.169 47 44 18 1.067 1.249 35 52 19 1.238 1.420 35 50 20 1.165 1.261 19 10 21 1.270 1.423 39 50 1.00097 Bottom 1

0.427 21.464

% AXIAL TILT 16.931 AVG BOT 8ft/12ft 547.9 80.55 Active Channel Flow: Mlb, 15.2 (of total core flow)

-0.0 (of total core flow) 0.00006 Top Ten Thermal Limits Summary -

Sorted by Margin Power Value FT IR JR 1.423 21 39 50 1.420 19 35 50 1.415 21 23 10 1.409 21 33 52 1.408 19 37 48 1.402 21 49 40 1.402 19 49 26 1.393 19 47 24 1.390 21 51 28 1.388 21 51 38 Value 1.663 1.681 1.682 1.683 1.688 1.698 1.714 1.715 1.725 1.725 MCPR Margin FT 0.908 19 0.898 21 0.898 19 0.897 21 0.895 19 0.889 21 0.881 19 0.881 21 0.875 19 0.875 21 IR JR 37 14 39 50 35 12 37 10 13 24 33 10 11 26 49 40 41 14 51 38 Value 7.91 7.97 7.90 7.93 7.82 7.75 7.82 7.81 7.58 7.54 APLHGR Margin Exp. FT 0.663 20.7 21 0.658 19.0 19 0.658 20.0 21 0.655 19.0 19 0.655 20.5 21 0.648 20.3 21 0.644 18.5 19 0.642 18.3 19 0.640 21.6 21 0.638 21.7 21 IR JR 27 10 35 50 23 10 49 26 9 28 21 12 47 24 37 48 51 24 49 22 K

4 4

4 4

4 5

5 5

4 5

LEGR Value Margin Exp.

FT 6.56 0.774 44.7 18 6.65 0.769 43.0 18 6.66 0.767 42.7 16 7.05 0.766 37.8 14 6.51 0.765 44.4 18 6.52 0.765 44.3 18 6.57 0.759 43.1 16 6.83 0.758 39.6 14 6.86 0.757 39.1 14 6.94 0.757 38.1 14 IR JR 25 10 47 26 39 48 23 50 9 26 25 48 47 22 33 50 49 24 49 34 K

5 5

5 5

5 5

5 5

5 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.44 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 14,000.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-50 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mib/hr 1

3 5

7 9 11 13 15 1

3 5

7 9

12 --

0 --

11 13----------

0 15---

17 0

19 21..

12 --

0 --

23 25 27 29 IR: 2 6 10 14 18 22 26 30 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 9

14500.0 (1974.70 500.0 (

68.09 3458.0 (100.00 1) 1050.1

-25.67 101.63 ( 99.15 %)

5 17 19 21 23 25 27 29 59 55 51 47 0

12 43 39 S 035 31 0

27 23 0

12 19 15 11 7

3 34 38 42 46 50 54 58 5.95 1.00131 0.411 Core Average Exposure: MWd/MTU 28785.0 N(PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.172 5.628 0.534 16.513 0.704 22.618 0.803 26.966 0.866 29.816 0.909 31.521 0.945 32.296 0.975 32.569 1.012 32.372 1.047 30.640 1.090 30.901 1.208 30.329 1.252 31,259 1.282 32.283 1.298 33.191 1.305* 33.875 1.305 34.090 1.294 34.588 1.274 35.102 1.248 35.366*

1.217 34.976 1.169 33.127 1.055 28.450 0.806 20.118 0.228 5.541 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.702 1.087 29 52 6

0.321 0.403 49 8

9 0.658 1.034 43 50 10 0.553 1.050 29 48 11 0.820 1.043 31 26 14 0.992 1.283 37 50 15 1.004 1.167 35 26 16 1.112 1.238 39 48 17 0.869 1.167 47 44 18 1.065 1.249 35 52 19 1.243 1.424 35 50 20 1.165 1.261 19 10 21 1.273 1.428 39 50 23.735

% AXIAL TILT -13.540 19.202 AVG BOT 8ft/12ft 1.0923 548.0 86.50 Active Channel Flow: Mlb/hr 14.9 (of total core flow)

-0.0 (of total core flow) 0.00007

-5.191 1.0224 86.50 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.428 21 39 50 1.424 19 35 50 1.420 21 23 10 1.414 21 33 52 1.413 19 37 48 1.405 21 49 40 1.405 19 49 26 1.398 19 47 24 1.394 21 51 28 1.392 21 51 38 MCPR Value Margin FT 1.714 0.881 19 1.725 0.875 21 1.728 0.874 21 1.730 0.873 19 1.741 0.867 19 1.746 0.865 21 1.763 0.856 21 1.766 0.855 19 1.773 0.852 21 1.779 0.849 19 IR JR 37 14 39 50 37 10 35 50 13 24 33 10 49 40 49 36 51 38 41 14 APLHGR Value Margin Exp.

FT 7.53 0.634 21.2 19 7.49 0.633 21.7 21 7.51 0.633 21.3 19 7.41 0.629 22.1 21 7.58 0.629 19.4 19 7.44 0.627 21.5 21 7.43 0.626 21.3 21 7.55 0.626 19.3 19 7.20 0.613 22.7 21 7.12 0.611 23.6 21 IR JR 25 12 27 10 11 26 23 10 47 24 9 28 21 12 37 48 49 22 9 24 K

5 4

55 5

4 5

5 5

5 LHGR Value Margin Exp.

FT 6.42 0.750 43.9 18 6.24 0.744 45.6 18 6.26 0.742 45.1 18 6.36 0.740 43.6 16 6.73 0.739 38.7 14 6.68 0.737 39.0 14 6.19 0.735 45.3 18 6.30 0.734 43.8 16 6.76 0.734 37.8 16 6.53 0.733 40.5 14 IR JR 47 26 25 10 25 48 39 48 23 50 49 34 9 26 47 40 15 24 33 50 K

5 5

5 5

5 5

5 6

5 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.45 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 14,500.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-51 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

14600.0 (1988.30 100.0 ( 13.62 3458.0 (100.00 %)

1050.1

-25.19 103.46 (100.94 %)

Core Average Exposure: MWd/MTU 28885.2 1

3 5

7 9 11 13 15 17 19 21 1

3 5

7 9

12 0

0 12 13 0

0 15---

17 0

0 19----------------

21----------

12 0

0 12 23 25 27 29 IR: 2 6 10 14 18 22 26 30 34 38 42 23 25 27 29 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 46 50 54 58 Axial Profile N(PRA) Power Exposure Top 25 0.173 5.648 24 0.539 16.570 23 0.709 22.693 22 0.808 27.053 21 0.871 29.909

JR 20 0.914 31.620 19 0.949 32.399 18 0.980 32.675 17 1.016 32.481 16 1.053 30.749 15 1,096 31.015 14 1.215 30.443 13 1.257 31.377 12 1.286 32.404 11 1.301 33.313 10 1.306-33.997 9

1.303 34.213 8

1.290 34.710 7

1.267 35.222 6

1.239 35.484*

5 1.206 35.091 4

1.157 33.237 3

1.044 28.549 2

0.797 20.194 Bottom 1

0.226 5.562 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.701 1.087 29 52 0.320 0.402 49 8

0.657 1.034 43 50 0.552 1.050 29 48 0.820 1.044 31 26 0.991 1.283 37 50 1.003 1.168 35 26 1.112 1.238 39 48 0.868 1.167 47 44 1.065 1.250 35 52 1.244 1.425 35 50 1.165 1.261 41 52 1.274 1.430 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 5.95 1.00136 0.407 24.274 19.739 548.0 87.98 15.0

-0.0 0.00010

% AXIAL TILT -13.046

-5.198 AVG BOT 8ft/12ft 1.0900 1.0225 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 87.98 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.430 21 39 50 1.425 19 35 50 1.422 21 23 10 1.415 21 33 52 1.414 19 37 48 1.406 21 49 40 1.406 19 49 26 1.399 19 47 24 1.395 21 51 28 1.393 21 51 38 MCPR Value Margin FT 1.725 0.875 19 1.736 0.870 21 1.738 0.869 21 1.742 0.867 19 1.755 0.861 19 1.757 0.860 21 1.774 0.851 21 1.779 0.849 19 1.784 0.846 21 1.792 0.843 19 IR JR 37 48 39 50 37 10 35 50 13 24 33 10 49 40 49 36 51 38 41 14 APLHGR Value Margin Exp.

FT 7.45 0.628 21.4 19 7.44 0.627 21.5 19 7.39 0.626 21.9 21 7.51 0.624 19.6 19 7.33 0.623 22.3 21 7.29 0.621 22.7 21 7.48 0.621 19.5 19 7.35 0.621 21.5 21 7.12 0.607 22.8 21 7.39 0.605 17.8 19 IR JR 25 12 11 26 27 10 47 24 23 10 9 28 37 48 21 12 11 22 47 28 K

5 5

4 5

5 5

5 5

5 5

Value 6.36 6.16 6.19 6.31 6.65 6.62 6.70 6.24 6.11 6.46 LHGR Margin Exp. FT 0.744 44.1 18 0.736 45.7 18 0.736 45.3 18 0.733 43.5 16 0.733 38.9 14 0.732 39.2 14 0.730 37.9 16 0.729 43.9 16 0.728 45.5 18 0.726 40.6 14 IR JR 47 26 25 10 25 48 39 48 23 50 49 34 15 24 47 40 9 26 33 50 K

5 5

5 6

5 55 5

" LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.46 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 14,600.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-52 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

14600.2 (1988.30 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-27.28 95.92 ( 93.58 %)

Core Average Exposure: MWd/MTU 28885.4 1

1 3

5 7

9 11 13 15 17 5

7 9

13 15" 17 19 21 23 25 27 29 IR: 2 S12 6 --

6 12 6 --

6 10 14 18 22 26 30 6

6 19 21 23 25 27 29 59 55 51 47 12 43

-739 6

35 31 6

27 23 12 19 15 Axial Profile N(PRA) Power Exposure Top 25 0.197 5.649 24 0.610 16.570 23 0.796 22.694 22 0.890 27.053 21 0.930 29.910

JR 20 0.953 31.620 19 0.973 32.399 18 0.991 32.675 17 1.017 32.481 16 1.044 30.749 15 1.080 31.015 14 1.190 30.443 13 1.227 31.377 12 1.252 32.404 11 1.264 33.313 10 1.268* 33.998 9

1.266 34.213 8

1.254 34.711 7

1.234 35.222 6

1.210 35.484*

5 1.182 35.091 4

1.137 33.237 3

1.028 28.549 2

0.786 20.194 Bottom 1

0.222 5.563 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.695 1.077 29 52 6

0.318 0.399 49 8

9 0.650 1.022 43 50 10 0.551 1.054 29 48 11 0.823 1.056 31 26 14 0.982 1.270 37 50 15 1.026 1.181 35 36 16 1.102 1.230 39 48 17 0.858 1.155 47 44 18 1.053 1.244 35 48 19 1.257 1.413 35 50 20 1.148 1.244 19 10 21 1.257 1.413 39 50 117 3

34 38 42 46 50 54 58 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 5.41 1.00137 0.413 21.579 17.046 547.8 81.48 15.1

-0.0 0.00010

% AXIAL TILT -10.229

-5.198 AVG BOT 8ft/12ft 1.0670 1.0225 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 81.48 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT 1.413 19 1.413 21 1.408 19 1.403 21 1.399 21 1.393 19 1.391 19 1.390 21 1.378 21 1.374 21 IR JR 35 50 39 50 37 48 23 10 33 52 49 26 47 24 49 40 51 28 51 38 Value 1.631 1.660 1.661 1.671 1.677 1.681 1.682 1.700 1.714 1.719 MCPR Margin FT 0.926 19 0.910 19 0.909 21 0.904 21 0.901 19 0.898 21 0.898 19 0.888 21 0.881 19 0.878 19 IR JR 37 48 13 24 39 50 23 10 35 50 33 10 27 48 49 40 49 36 47 28 APLHGR Value Margin Exp. FT 7.38 0.615 20.0 19 7.24 0.613.21.9 21 7.35 0.613 20.2 19 7.24 0.610 21.2 21 7.33 0.609 19.6 19 7.20 0.609 21.7 21 7.18 0.606 21.5 21 7.30 0.606 19.5 19 6.96 0.594 22.8 21 6.87 0.591 23.8 21 IR JR 25 12 27 10 49 26 23 10 47 24 9 28 21 12 37 48 11 22 9 24 K

4 4

4 4

5 4

5 5

5 5

LHGR Value Margin Exp. FT 6.21 0.727 44.1 18 6.02 0,720 45.7 18 6.05 0.719 45.3 18 6.15 0.717 43.8 16 6.50 0.716 38.9 14 6.47 0.715 39.2 14 6.55 0.713 37.9 16 6.08 0.712 44.1 16 5.98 0.712 45.5 18 6.31 0.709 40.6 14 IR JR 47 26 25 10 25 48 39 48 23 50 49 34 15 24 47 22 9 26 33 50 K

5 5

5 5

5 5

5 5

5 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

" Thermal limit file:

Figure A.47 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 14,600.2 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-53 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

15100.0 (2056.40 499.8 (

68.07 )

3458.0 (100.00 %)

1050.1

-24.72 105.32 (102.75 %)

Core Average Exposure: MWd/MTU 29385.1 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 9

11 13 15 17 19 21 23 25 27 29 IR:

12 --

6 6 -

12 --

2 6 10 14 18 22 6 --

6 -- 12-..

6 6

12 26 30 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Power 0.204 0.636 0.826 0.921 0.957 0.977 0.994 1.011 1.039 1.070 1.108 1.222 1.256 1.275 1.278" 1.270 1.256 1.230 1.197 1.161 1.123 1.073 0.967 0.738 Exposure 5.768 16.899 23.122 27.534 30.412 32.135 32.925 33.211 33.031 31.295 31.580 31.003 31.954 32.993 33.908 34.594 34.809 35.301 35.803 36.054*

35.648 33.773 29.034 20.564 5.667 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.692 1.076 29 52 6

0.313 0.394 49 8

9 0.646 1.022 43 50 10 0.547 1.053 29 48 11 0.821 1.056 31 26 14 0.981 1.272 37 50 15 1.025 1.181 35 36 16 1.102 1.231 39 48 17 0.855 1.155 47 44 18 1.053 1.245 35 48 19 1.260 1.418 35 50 20 1.151 1.247 41 52 21 1.262 1.420 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psla Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 5.41 1.00175 Bottom 1

0.

0.392 24.757

% AXIAL TILT

-7.

20.223 AVG BOT 8ft/12ft 1.0 547.9 89.74 Active Channel Flow: Mlb/hr 14.8 (of total core flow)

-0.0 (of total core flow) 0.00008 209 627

-5.175 0546 1.0225 89.74 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.420 21 39 50 1.418 19 35 50 1.413 19 37 48 1.410 21 37 52 1.405 21 33 52 1.396 19 49 26 1.394 19 47 24 1.394 21 49 40 1.383 21 51 28 1.379 21 51 38 MCPR Value Margin FT 1.700 0.888 19 1.721 0.877 21 1.732 0.872 21 1.734 0.871 19 1.744 0.866 19 1.746 0.865 21 1.756 0.860 19 1.765 0.856 21 1.786 0.845 19 1.788 0.844 21 IR JR 37 48 39 50 23 10 47 38 35 50 33 10 27 48 49 40 49 36 51 38 APLHGR Value Margin Exp. FT 6.92 0.586 21.9 21 7.00 0.586 20.5 19 6.88 0.585 22.4 19 6.91 0.585 21.8 21 6.88 0.584 22.3 19 6.86 0.583 22.3 21 6.86 0.583 22.2 21 6.96 0.581 20.2 19 6.82 0.580 22.3 21 7.04 0.578 18.3 19 IR JR K

37 52 9

13 24 5

11 26 5

39 50 9

25 12 5

51 38 10 49 40 10 23 14 5

33 52 9

33 26 7

LHGR Value Margin Exp.

FT 5.02 0.705 55.1 10 6.34 0.704 39.6 15 6.30 0.703 40.0 15 6.21 0.702 41.1 15 5.97 0.701 44.4 18 6.14 0.700 41.8 18 6.23 0.700 40.6 16 6.18 0.698 41.0 16 6.12 0.697 41.9 18 5.46 0.696 60.0 10 IR JR 23 38 25 26 23 34 33 24 47 26 25 10 39 48 47 40 9 26 31 48 K

7 7

7 7

6 9

9 9

9 10

• LHGR calculated with pin-power reconstruction

" CPR calculated with pin-power reconstruction & CPR limit type3

• Thermal limit file:

Figure A.48 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 15,100.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-54 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

15100.2 (2056.40 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-26.36 99.08 ( 96.66 %)

Core Average Exposure: MWd/MTU 29385.3 1 3 5

7 9 11 13 1

3 5

7 9

14 8

11 13 8

15---

17 8

19 21 -----------

14 8

23 25 27 29 IR: 2 6 10 14 18 22 26 15 17 19 21 23 25 27 29 59 55 51 47 8 --

14 43 39 8

35 31

-8 27 23 8 --

14 19 15 11 7

3 30 34 38 42 46 50 54 58 Axial Profile N(PRA) Power Exposure Top 25 0.210 5.768 24 0.650 16.899 23 0.847 23.122 22 0.952 27.534 21 1.002 30.412

JR 20 1.012 32.136 19 1.024 32.925 18 1.040 33.211 17 1.055 33.031 16 1.075 31.296 15 1.105 31.580 14 1.210 31.003 13 1.239 31.954 12 1.253 32.993 11 1.254" 33.908 10 1.245 34.594 9 1.231 34.810 8

1.207 35.302 7

1.176 35.804 6

1.143 36.054*

5 1.109 35.648 4

1.062 33.773 3

0.959 29,034 2

0.732 20.564 Bottom 1

0.207 5.667 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.687 1.068 29 52 6

0.312 0.393 49 8

9 0.643 1.017 43 50 10 0.546 1.053 29 48 11 0.822 1.060 31 26 14 0.977 1.264 37 50 15 1.038 1.186 35 36 16 1.097 1.228 39 48 17 0.850 1.152 47 44 18 1.045 1.243 35 48 19 1.268 1.409 37 48 20 1.140 1.236 41 52 21 1.251 1.411 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (M):

Source Convergence 5.14 1.00171 0.398 22.536

% AXIAL TILT

-5.874

-5.175 18.003 AVG 8OT 8ft/12ft 1.0412 1.0225 547.7 84.32 Active Channel Flow: Mlb/hr 84.32 14.9 (of total core flow)

-0.0 (of total core flow) 0.00009 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.411 21 39 50 1.409 19 37 48 1.408 19 35 50 1.397 21 37 52 1.392 21 33 52 1.390 19 47 24 1.386 19 49 26 1.384 21 49 40 1.369 21 51 28 1.369 19 33 48 MCPR Value Margin FT 1.635 0.924 19 1.668 0.906 19 1.669 0.905 21 1.682 0.898 19 1.686 0.895 21 1.692 0.893 19 1.699 0.889 21 1.712 0.882 21 1.721 0.877 19 1.729 0.873 19 IR JR 37 48 47 38 39 50 27 48 23 10 35 50 33 10 49 40 47 28 41 14 APLHGR Value Margin Exp. FT 6.29 0.591 40.3 14 6.89 0.576 20.5 19 6.77 0.575 22.4 19 6.77 0.575 22.3 19 6.76 0.573 21.9 21 6.85 0.572 20.2 19 6.75 0.571 21.8 21 6.71 0.570 22.3 21 6.73 0.569 21.8 19 6.13 0.569 39.1 15 IR JR K

43 18 19 13 24 5

11 26 5

25 12 5

37 52 9

23 14 5

39 50 9

51 38 10 41 18 19 41 20 19 Value 6.62 6.54 4.94 6.23 6.16 5.86 6.08 6.00 6.09 6.04 LHGR Margin Exp.

FT 0.734 39.5 14 0.716 38.4 15 0.693 55.1 10 0.691 39.5 15 0.690 40.3 15 0.689 44.4 18 0.688 41.3 15 0.684 41.8 18 0.684 40.6 16 0.682 41.0 16 IR JR K

17 18 19 41 42 19 23 38 7

25 26 6

23 34 6

47 26 6

33 24 6

25 10 9 39 48 9

47 40 9

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.49 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 15,100.2 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-55 Cycle:

Exposure: MWd/MTU (GWd) 15 Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 1

3 5

7 9 11 13 15 17 1

3 5

7 9

14 8

8 11 13----------

8----------

15--------------

17 8----------

19-------------------

21 14 8

8 23 25 27 29 IR: 2 6 10 14 18 22 26 30 34 Control Rod Density: %

k-effective:

1.

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%M Source Convergence 0.

9 5400.0 (2097.30 299.8 ( 40.83 3458.0 (100.00 %)

1050.1

-24.63

.05.66 (103.08 %)

19 21 23 25 27 29 59 55 51 47 14 43 39 8 ----------- 35 31 8

27 23 14 19 15 11 7

3 38 42 46 50 54 58 5.14 Core Average Exposure: MWd/MTU 29685.2 Axial Profile N[PRA) Power Exposure Top 25 0.214 5.844 24 0.667 17.109 23 0.867 23.396 22 0.973 27.843 21 1.020 30.737

JR 20 1.027 32.464 19 1.037 33.257 18 1.053 33.548 17 1.069 33.374 16 1.092 31.633 15 1.123 31.926 14 1.230 31.344 13 1.258 32.304 12 1.268* 33.346 11 1.262 34.261 10 1.245 34.945 9

1.223 35.158 8

1.191 35.643 7

1.152 36.136 6

1.111 36.377*

5 1.072 35.961 4

1.022 34.073 3

0.921 29.305 2

0.703 20.771 Bottom 1

0.199 5.726 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.686 1.068 29 52 0.310 0.391 49 8

0.640 1.017 43 50 0.543 1.052 29 48 0.820 1.059 31 26 0.977 1.266 37 50 1.037 1.185 35 36 1.098 1.229 39 48 0.848 1.153 47 44 1.046 1.244 35 48 1.269 1.411 37 48 1.142 1.239 41 52 1.255 1.415 39 50

.00186 0.384 24.748 20.214 547.8 90.13 14.7

-0.0

.00009

% AXIAL TILT

-4.196

-5.117 AVG BOT 8ft/12ft 1.0332 1.0223 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 90.13 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.415 21 39 50 1.411 19 37 48 1.411 19 35 50 1.402 21 37 52 1.396 21 33 52 1.392 19 47 24 1.388 19 49 26 1.387 21 49 40 1.372 21 51 28 1.370 19 33 48 MCPR Value Margin FT 1.683 0.897 19 1.710 0.883 21 1.719 0.879 19 1.728 0.874 21 1.734 0.871 19 1.739 0.869 19 1.743 0.866 21 1.757 0.859 21 1.776 0.850 19 1.780 0.848 19 IR JR 37 48 39 50 47 38 23 10 27 48 35 50 33 10 49 40 47 28 41 14 APLHGR Value Margin Exp. FT 6.34 0.599 40.7 14 6.87 0.581 21.7 21 6.84 0.578 21.7 21 6.76 0.577 22.8 21 6.80 0.576 22.0 21 6.78 0.576 22.3 19 6.16 0.575 39.6 15 6.75 0.573 22.3 21 6.78 0.572 21.5 19 6.74 0.572 22.2 19 IR JR K

43 18 19 37 52 10 39 50 10 51 38 10 49 40 11 41 18 19 41 20 19 33 52 10 35 50 11 43 20 19 LHGR Value Margin Exp.

FT 6.68 0.745 40.0 14 6.58 0.725 38.9 15 5.06 0.692 62.5 10 6.10 0.691 41.4 18 6.19 0.690 40.0 15 5.36 0.689 60.3 10 6.13 0.689 40.6 16 6.12 0.689 40.8 15 6.05 0.688 41.6 18 6.08 0.686 41.0 16 IR JR K

17 18 19 41 42 19 37 38 10 35 52 10 25 26 6

31 48 10 39 48 10 23 34 6

9 26 10 47 40 10

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.50 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 15,400.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-56 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

15400.2 (2097.30 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-26.14 99.86 ( 97.43 %(

Core Average Exposure: MWd/MTU 29685.5 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 9

16 10 -.

11 13 10 15 17 10 19 21 16 10 -.

23 25 27 29 IR: 2 6 10 14 18 22 26 3 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence -

16 10 10 10 --

16 0 34 38 42 46 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 50 54 58 Axial Profile N(PRA) Power Exposure Top 25 0.217 5.844 24 0.672 17.109 23 0.875 23.396 22 0.988 27.844 21 1.046 30.738

JR 20 1.069 32.464.

19 1.070 33.258 18 1.082 33.548 17 1.098 33.374 16 1.108 31.633 15 1.128 31.927 14 1.226 31.344 13 1.246 32.304 12 1.251* 33.346 11 1.242 34.262 10 1.223 34.945 9

1.200 35.158 8

1.169 35.643 7

1.131 36.136 6

1.093 36,377*

5 1.056 35.962 4

1.009 34.074 3

0.911 29.305 2

0.695 20.771 Bottom 1

0.197 5.726 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.681 1.059 29 52 6

0.308 0.389 49 8

9 0.637 1.012 43 50 10 0.542 1.052 29 48 11 0.820 1.063 31 26 14 0.973 1.257 37 50 15 1.050 1.190 35 36 16 1.092 1.226 39 48 17 0.842 1.150 47 44 18 1.038 1.242 35 48 19 1.277 1.408 37 48 20 1.131 1.229 41 52 21 1.245 1.406 39 50 4.86 1.00197 0.389 22.696 18.163 547.6 85.09 14.8

-0.0 0.00009

% AXIAL TILT

-2.518

-5.117 AVG BOT 8ft/12ft 1.0219 1.0223 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 85.09 Top Ten Thermal Limits Summary -

Sorted by Margin Power Value FT IR JR 1.408 19 37 48 1.406 21 39 50 1.402 19 35 50 1.389 21 37 52 1.388 19 47 24 1.383 21 33 52 1.378 19 49 26 1.378 21 49 40 1.369 19 33 48 1.362 19 39 46 MCPR Value Margin FT 1.626 0.928 19 1.661 0.909 19 1.667 0.906 21 1.671 0.904 19 1.690 0.894 21 1.691 0.893 19 1.704 0.886 21 1.710 0.883 19 1.711 0.882 19 1.712 0.882 21 IR JR 37 48 47 38 39 50 27 48 23 10 35 50 33 10 39 46 47 28 49 40 APLHGR Value Margin Exp.

FT 6.71 0.632 40.5 14 6.56 0.610 39.3 15 7.21 0.609 21.7 19 7.17 0.605 21.6 19 6.73 0.569 21.7 21 6.09 0.568 39.5 16 6.74 0.567 21.1 21 6.67 0.566 22.1 21 6.67 0.565 22.0 21 6.08 0.564 39.1 18 IR JR K

43 44 18 41 20 18 41 44 18 43 42 18 37 52 10 41 46 18 39 50 11 51 38 11 49 40 11 35 48 15 LHGR Value Margin Exp.

FT 7.06 0.781 39.3 14 6.99 0.768 38.6 15 6.59 0.708 36.7 15 6.27 0.695 39.4 16 6.36 0.694 38.1 16 6.45 0.694 36.8 15 6.25 0.690 39.1 15 6.15 0.689 40.4 16 6.10 0.687 40.8 15 6.17 0.683 39.4 16 IR JR K

17 18 18 41 42 18 25 18 21 41 46 17 15 42 18 33 42 21 39 18 18 39 14 17 17 40 18 37 46 17

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.51 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 15,400.2 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-57 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

15600.0 (2124.50 199.8 ( 27.21 3458.0 (100.00 %)

1050.1

-24.88 104.66 (102.10 %)

Core Average Exposure: MWd/MTU 29885.2 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

35 7

9 16 --

11---------

13 10 15 17 10 19 21 16 --

23 25 27 29 IR: 2 6 10 14 18 22 10 10 --

16 10 10 10 --

10 --

16 26 30 34 38 42 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 46 50 54 58 N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Power Exposure 0.220 5.897 0.684 17.254 0.889 23.584 1.002 28.057 1.058 30.964 1.079 32.695 1.079.33.489 1.090 33.782 1.107 33.611 1.119 31.865 1.141 32.162 1.240 31.575 1.259 32.538 1.261* 33.582 1.247 34.495 1.223 35.175.

1.195 35.384 1.158 35.863 1.114 36.349 1.071 36.583*

1.030 36.160 0.982 34.264 0.884 29.476 0.675 20.902 0.191 5.763 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.680 1.059 29 52 6

0.307 0.387 49 8

9 0.635 1.012 43 50 10 0.540 1.051 29 48 11 0.819 1.062 31 26 14 0.973 1.259 37 50 15 1.049 1.189 35 36 16 1.093 1.227 39 48 17 0.842 1.151 47 44 18 1.039 1.242 35 48 19 1.278 1.410 37 48 20 1.133 1.231 41 52 21 1.247 1.409 39 50 Control Rod Density: W k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (t):

Total Water Rod Flow (%):

Source Convergence 4.86 1.00208 0.379 24.326

19. 792 547.7 89.30 14.7

-0.0 0.00009

% AXIAL TILT

-1.360

-5.057 AVG BOT 8ft/12ft 1.0164 1.0220 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 89.30 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.410 19 37 48 1.409 21 39 50 1.405 19 35 50 1.394 21 37 52 1.389 19 47 24 1.386 21 33 52 1.380 21 49 40 1.380 19 49 26 1.369 19 33 48 1.363 19 39 46 MCPR Value Margin FT 1;661 0.909 19 1.696 0.690 21 1.698 0.889 19 1.708 0.884 19 1.720 0.878 21 1.725 0.875 19 1.736 0.670 21 1.744 0.866 21 1.746 0.865 19 1.751 0.862 19 IR JR 37 48 39 50 47 38 27 48 23 10 35 50 33 10 49 40 39 46 47 28 APLHGR Value Margin Exp.

FT 6.74 0.637 40.8 14 6.52 0.614 40.4 15 7.24 0.614 22.0 19 7.20 0.610 22.0 19 6.84 0.576 21.4 21 6.81 0.575 21.4 21 6.18 0.575 39.2 18 6.13 0.574 39.8 16 6.74 0.573 22.4 21 6.16 0.573 39.4 18 IR JR K

43 44 18 41 42 18 41 44 18 43 42 18 37 52 11 39 50 11 35 52 15 41 46 18 51 38 11 35 48 15 LHGR Value Margin Exp.

FT 7.09 0.788 39.7 14 7.02 0.773 39.0 15 6.63 0.715 37.1 15 6.31 0.702 39.8 16 6.40 0.701 38.5 16 6.48 0.699 37.1 15 6.60 0.698 35.4 16 6.28 0.696 39.4 15 6.68 0.695 33.8 14 6.13 0.693 41.1 15 IR JR K

17 18 18 41 42 18 25 18 21 41 46 17 15 42 18 33 42 21 39 48 15 39 18 18 23 50 15 17 40 18

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.52 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 15,600.0 MWdiMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-58 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lb Flow: Mlb/hr 1

3 5

7 9 11 1

3 5

7 9

14 --

13 12 15---

17 12 19 21 14 --

23 25 27 29 IR: 2 6 10 14 18 22 13 12 12 26 9

15600.2 (2124.50 0.2 (

0.03 3458.0 (100.00 W) 1050.1 m

-25.48 102.31 ( 99.82 %)

15 17 19 21 23 25 27 29 12 14 12 12 12 14 30 34 38 42 46 50 54 58 4.77 1.00213 0.381 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Core Average Exposure: MWd/MTU 29885.4 Axial Profile Power Exposure 0.222 5.897 0.690 17.254 0.899 23.585 1.016 28.057 1.077 30.964 1.105 32,695 1.114 33.489 1.106 33.783 1.103 33.611 1.114 31.865 1.134 32.163 1.232 31.575 1.249 32.538 1.251* 33.582 1.236 34.495 1,213 35.175 1.185 35.384 1.148 35.863 1.105 36.349 1.063 36.583*

1.023 36.161 0.975 34.264 0.879 29.477 0.671 20.902 0.190 5.763 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.678 1.058 29 52 6

0.305 0.385 49 8

9 0.632 1.005 43 50 10 0.540 1.057 29 48 11 0.821 1.071 31 26 14 0.967 1.255 37 50 15 1.0591.198 35 36 16 1.088 1.221 39 48 17 0.837 1.140 47 44 18 1.034 1.244 35 48 19 1.284 1.407 37 48 20 1.127 1.223 41 52 21 1.240 1.402 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%)

Source Convergence 23.499

% AXIAL TILT

-0.542

-5.057 18.965 AVG BOT 8ft/12ft 1.0091 1.0220 547.6 87.27 Active Channel Flow: Mlb/hr 87.27 14.7 (of total core flow)

-0.0 (of total core flow) 0.00005 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.407 19 37 48 1.403 19 35 50 1.402 21 39 50 1.388 21 37 52 1.386 19 47 24 1.383 21 33 52 1.377 19 49 26 1.375 19 33 48 1.373 21 49 40 1.358 21 51 28 MCPR Value Margin FT 1.638 0.922 19 1.672 0.903 19 1.675 0.901 19 1.683 0.897 21 1.702 0.887 19 1.704 0.886 21 1.714 0.881 21 1.714 0.881 19 1.722 0.877 19 1.731 0.873 19 IR JR 37 48 27 48 47 38 39 50 35 50 23 10 33 10 47 28 29 24 39 46 APLHGR Value Margin Exp. FT 6.56 0.621 41.1 14 6.55 0.613 39.9 15 6.45 0.607 40.4 15 7.10 0.605 22.7 19 7.06 0.601 22.6 19 6.25 0.598 41.9 15 6.96 0.591 22.3 19 6.97 0.591 22.1 19 6.08 0.579 41.5 15 5.97 0.573 42.2 15 IR JR K

43 18 19 41 20 19 25 44 20 41 18 19 43 20 19 27 42 20 25 42 20 27 44 20 43 36 20 41 28 20 LHGR Value Margin Exp.

FT 7.02 0.776 39.3 15 6.89 0.771 40.4 14 6.95 0.770 39.5 15 6.87 0.760 39.3 15 6.62 0.736 39.8 15 6.51 0.730 40.4 15 6.31 0.702 39.8 15 6.16 0.698 41.3 15 6.15 0.691 40.7 16 6.21 0.690 39.8 16 IR JR K

41 42 19 17 18 19 25 18 20 33 42 20 17 26 20 41 34 20 39 18 19 17 40 19 39 14 17 37 46 17

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.53 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 15,600.2 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-59 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

15776.2 (2148.50 176.0 ( 23.97 3458.0 (100.00 %)

1050.1

-24.32 106.95 (104.35 %(

Core Average Exposure: MWd/MTU 30061.2 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 1

3 5

7 9

14 --

13 12 15---

17..

..- 12 19 21 14 --

23 25 27 12 --

12 --

14

-1 12 27 29 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 54 58 N (PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Power Exposure 0.225 5.944 0.701 17.385 0.912 23.755 1.029 28.251 1.088 31.169 1.113 32.906 1.121 33.701 1.112 33.993 1.110 33.821 1.123 32.070 1.144 32.371 1.243 31.779 1.260* 32.745 1.258 33,789 1.240 34.700 1.212 35.376 1.180 35.581 1.138 36.054 1.091 36.533 1.044 36.760*

1.002 36.330 0.953 34.426 0.858 29.622 0.655 21.014 0.186 5.795 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.678 1.059 29 52 0,304 0.383 49 8

0.631 1.005 43 50 0.539 1.056 29 48 0.820 1.070 31 26 0.967 1.256 37 50 1.058 1.197 35 36 1.089 1.222 39 48 0.837 1.140 47 44 1.035 1.245 35 48 1.284 1.409 37 48 1.128 1.225 41 52 1.242 1.405 39 50 12 12 --

12 --

14 46 50 29 IR: 2 6 10 14 18 22 26 30 34 38 42 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 4.77 1.00216 0.372 25.074 20.539 547.7 91.36 14.6

-0.0 0.00006

% AXIAL TILT 0.444

-4.993 AVG BOT 8ft/12ft 1.0043 1.0217 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 91.36 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.409 19 37 48 1.405 21 39 50 1.405 19 35 50 1.391 21 37 52 1.387 19 47 24 1.386 21 33 52 1.379 19 49 26 1.375 19 33 48 1.375 21 49 40 1.360 21 51 28 MCPR Value Margin FT 1.672 0.903 19 1.708 0.884 19 1.711 0.883 19 1.711 0.882 21 1.733 0.872 21 1.735 0.870 19 1.745 0.865 21 1.753 0.862 19 1.761 0.858 19 1.762 0.857 21 IR JR 37 48 27 48 47 38 39 50 23 10 35 50 33 10 47 28 29 24 49 40 APLHGR Value Margin Exp. FT 6.58 0.626 41.3 14 6.57 0.616 40.2 15 6.47 0.610 40.7 15 7.12 0.609 23.0 19 7.08 0.605 22.9 19 6.26 0.600 42.2 15 6.98 0.594 22.4 19 6.97 0.593 22.6 19 6.09 0.582 41.8 15 6.23 0.581 39.5 18 IR JR K

43 18 19 41 20 19 25 44 20 41 18 19 43 20 19 27 42 20 27 44 20 25 42 20 43 36 20 35 52 15 LHGR Value Margin Exp.

FT 7.04 0.781 39.6 15 6.92 0.778 40.7 14 6.97 0.776 39.8 15 6.88 0.764 39.7 15 6.63 0.741 40.1 15 6.52 0.733 40.7 15 6.34 0.707 40.1 15 6.19 0.703 41.6 15 6.74 0.701 33.9 14 6.58 0.699 35.7 18 IR JR K

41 42 19 17 18 19 25 18 20 33 42 20 17 26 20 41 34 20 39 18 19 17 40 19 23 50 15 25 48 15

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.54 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 15,776.2 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-60 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

15777.7 (2148,70 1.5 (

0,20 3458.0 (100.00 %)

1050.1

-26.66 98.02 ( 95.63 %)

Core Average Exposure: MWd/MTU 30062.7 1

3 5

7 9 11 1

3 5

79 13 15 12 17---

19 21 23 25 27 29 IR: 2 6 10 14 18 22 Control Rod Density:

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: p Coolant Temp: Deg-F In Channel Flow: Mlb/

Total Bypass Flow (%)

Total Water Rod Flow Source Convergence 13 15 17 19 21 23 25 27 29 0

0 12 0

0 0- --

0---- ---------

26 30 34 38 42 46 50 54 58 2.97 1.00218 0.415 22.469 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 Axial Profile N(PRA) Power Exposure Top 25 0.167 5.945 24 0.517 17.386 23 0.675 23.757 22 0.769 28.252 21 0.827 31.171

JR 20 0.871 32.908 19 0.914 33.703 18 0.961 33.995 17 1.016 33.823 16 1.075 32.072 15 1.130 32.373 14 1.253 31.781 13 1.289 32.747 12 1.304* 33.791 11 1.299 34.702 10 1.285 35.378 9

1.269 35.582 8

1.247 36.055 7

1.226 36.534 6

1.215 36.761*

5 1.215 36.332 4 1.209 34.427 3

1.131 29.624 2

0.882 21.014 Bottom 1

0.253 5.795 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.664 1.043 29 52 6

0.296 0.378 49 8

9 0.623 1.012 49 44 10 0.519 1.080 29 48 11 0.734 0.921 25 32 14 0.993 1.292 43 44 15 1.065 1,290 41 42 16 1.106 1.292 45 24 17 0.827 1.189 47 44 18 1.028 1.276 35 48 19 1.297 1.471 43 42 20 1.108 1.213 41 52 21 1.236 1.414 39 50 sia hr (M) 17.936 AVI

% AXIAL TILT -14.171

-4.992 BOT 8ft/12ft 1.1044 1.0217 547.9 83.19 Active Channel Flow: Mlb/hr 15.1 (of total core flow)

-0.0 (of total core flow) 0.00008 83.19 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.471 19 43 42 1.469 19 41 44 1.459 19 39 46 1.456 19 45 40 1.449 19 37 48 1.433 19 47 24 1.432 19 35 46 1.432 19 43 24 1.429 19 37 44 1.427 19 41 40 MCPR Value Margin FT 1.631 0.926 19 1.635 0.924 19 1.646 0.918 19 1.646 0.917 19 1.650 0.915 19 1.673 0.903 19 1.681 0.898 19 1.682 0.898 19 1.689 0.894 19 1.690 0.893 19 IR JR 41 44 43 42 45 40 39 46 37 48 47 38 35 46 41 22 39 42 37 44 APLHGR Value Margin Exp.

FT 8.31 0.686 18.8 19 8.28 0.684 18.9 19 8.23 0.679 18.7 19 8.20 0.677 18.8 19 8.14 0.672 18.9 19 8.20 0.671 17.8 19 8.11 0.670 19.0 19 8.08 0.668 19.1 19 8.18 0.668 17.6 19 7.90 0.657 19.7 19 IR JR 43 42 41 44 41 22 43 24 21 46 39 42 45 22 25 46 23 44 23 48 K

4 4

4 4

4 4

4 4

44 LHGR Value Margin Exp. FT 7.43 0.825 39.6 15 7.46 0.818 38.6 15 7.52 0.812 37.2 16 7.25 0.809 40.0 15 6.84 0.793 43.3 16 6.92 0.786 41.6 15 7.11 0.782 38.7 15 7.15 0.779 38.0 16 6.55 0.779 45.4 18 6.77 0.779 42.7 15 IR JR 41 42 39 18 15 24 43 40 23 46 41 24 27 46 45 42 25 48 25 44 K

4 4

4 4

4 4

4 4

4 5

• LHGR calculated with pin-power reconstruction

" CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.55 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 15,777.7 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-61 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

16000.0 (2179.00 222.3 ( 30.28 3458.0 (100.00 %)

1050.1

-25.00 104.20 (101.66 %)

Core Average Exposure: MWd/MTU 30285.1 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 1

3 5

7 9

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

0 0

13 15 ----------- 12 -------------- 12 17------

19 0

0 21.-----

23 25 27 29 IR: 2 6 10 14 18 22 26 30 34 38 42 23 25 27 29 59 55 51 47 43 39 35 31 27 23

-_19 15 11 7

3 46 50 54 58 N)(PRA)

Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Power Exposure 0.171 5.990 0.531 17.510 0.692 23.918 0.787 28.437 0.844 31.370 0.886 33.117 0.928 33.923 0.975 34.226 1.030 34.067 1.091 32.322 1.147 32.636 1.271 32.043 1.304 33.017 1.315-34.063 1.305 34.973 1.285 35.647 1.262 35.848 1.234 36.317 1.206 36.791 1.188 37.016" 1.182 36.586 1.173 34.680 1.096 29.861 0.854 21.199 0.245 5.848 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.663 1.042 29 52 0.294 0.376 49 8

0.621 1.013 49 44 0.516 1.078 29 48 0.732 0.920 25 32 0.993 1.292 43 44 1.064 1.289 41 42 1.107 1.292 45 24 0.827 1.189 47 44 1.029 1.277 35 48 1.298 1.472 43 42 1.110 1.215 41 52 1.238 1.417 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 2.97 1.00231 0.402 24.586 20.052 548.0 88.60 15.0

-0.0 0.00007

% AXIAL TILT -12.617

-5.013 AVG BOT 8ft/12ft 1.0968 1.0220 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 88.60 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.472 19 43 42 1.470 19 41 44 1.460 19 39 46 1.457 19 45 40 1.451 19 37 48 1.434 19 47 24 1.433 19 35 46

,1.432 19 43 24 1.430 19 37 44 1.426 19 41 40 MCPR Value Margin FT 1.683 0.897 19 1.683 0.897 19 1.698 0.889 19 1.699 0.889 19 1.702 0.887 19 1.725 0.875 19 1.730 0.873 19 1.732 0.872 19 1.735 0.870 19 1.739 0.868 19 IR JR 43 42 41 44 45 40 39 46 37 48 47 38 39 42 37 44 25 46 41 22 APLHGR Value Margin Exp.

FT 8.12 0.673 19.3 19 8.09 0.670 19.3 19 8.07 0.668 19.2 19 8.04 0.666 19.3 19 8.08 0.662 18.1 19 8.04 0.659 18.0 19 7.94 0.658 19.3 19 7.92 0.657 19.3 19 7.90 0.656 19.6 19 7.79 0.641 18.5 19 IR JR 43 42 41 44 41 22 43 24 21 42 23 44 21 46 15 22 25 46 45 26 K

4 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp. FT 7.24 0.808 40.0 15 7.27 0.802 39.0 15 7.33 0.795 37.6 16 7.11 0.793 40.0 15 6.80 0.776 42.0 16 6.76 0.772 42.0 15 6.94 0.766 39.2 15 6.62 0.766 43.1 15 6.68 0.765 42.3 15 6.63 0.761 42.4 15 IR JR 41 42 39 18 15 24 17 22 23 46 41 24 27 46 25 44 43 26 23 42 K

4 4

4 4

4 4

4 5

5 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.56 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,000.0 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-62 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 1 3 5

7 9 11 13 15 1

3 5

7 9

11 0

9 16000.2 (2179.00 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-26.53 98.49 ( 96.09 %(

17 19 21 23 25 27 29 59 55 51 47 43 0 ----------------- 39 35 24 -----------

31 27 0

23 19 15 11 7

Core Average Exposure: MWd/MTU 30285.4 13 15 17 19 21 23 25 27 29 IR: 2 6

24-------

0 --

N (PRA Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

7 6

5 4

3 2

Bottom 1

Axial Profile

.) Power Exposure 0.167 5.990 0.516 17.510 0.674 23.918 0.769 28,437 0.830 31.370 0.878 33.117 0.928 33.923 0.987 34.226 1.051 34.068 1.119 32.322 1.177 32.636 1.301 32.043 1.328* 33.017 1.326 34.063 1.307 34.974 1.280 35.647 1.253 35.849 1.221 36.317 1.193 36.792 1.175 37.016-1.171 36.587 1.164 34.681 1.090 29.861 0.850 21.199 0.244 5.848 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.659 1.026 51 30 0.292 0.372 49 8

0.615 1.005 49 44 0.517 1.065 47 30 0.738 0.945 25 32 0.985 1.281 43 44 1.082 1.283 41 42 1.098 1.304 45 24 0.819 1.179 47 44 1.019 1.277 47 26 1.308 1.465 43 42 1.097 1.195 41 52 1.226 1.394 39 50 10 14 18 22 26 30 34 38 42 46 50 54 58 3

Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 2.70 1.00226 0.410 22.596

% AXIAL TILT -12.148

-5.013 18.063 AVG BOT 8ft/12ft 1.0993 1.0220 547.8 83.63 Active Channel Flow: Mlb/hr 83.63 15.1 (of total core flow)

-0.0 (of total core flow) 0.00009 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.465 19 43 42 1.458 19 45 40 1.456 19 41 44 1.450 19 43 24 1.449 19 45 26 1.442 19 47 24 1.441 19 39 46 1.430 19 41 40 1.428 19 37 48 1.416 19 39 42 Value 1.639 1.641 1.641 1.647 1.658 1.663 1.671 1.675 1.675 1.679 MCPR Margin FT 0.921 19 0.920 19 0.920 19 0.917 19 0.911 19 0.908 19 0.904 19 0.902 19 0.901 19 0.900 19 IR JR 45 26 45 40 43 42 41 44 47 38 43 24 39 46 41 26 41 22 37 48 Value 7.21 8.03 8.00 7.98 7.95 7.99 7.95 7.86 7.84 7.81 APL11GR Margin Exp.

FT 0.667 38.8 15 0.665 19.3 19 0.663 19.3 19 0.661 19.2 19 0.658 19.3 19 0.655 18.1 19 0.652 18.0 19 0.651 19.3 19 0.650 19.3 19 0.649 19.6 19 IR JR 43 32 43 42 41 44 41 22 43 24 21 42 23 44 21 46 15 22 25 46 K

15 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp. FT 7.78 0.836 36.7 15 7.16 0.799 40.0 15 7.20 0.794 39.0 15 7.25 0.787 37.6 16 7.04 0.785 40.0 15 6.73 0.769 42.0 16 6.69 0.764 42.0 15 6.87 0.759 39.2 15 6.54 0.756 43.1 15 6.59 0.755 42.3 15 IR JR K

17 32 15 41 42 4

39 18 4

15 24 4

17 22 4

23 46 4

41 24 4

27 46 4

25 44 5

43 26 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.67 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,000.2 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-63 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 1

3 5

7 9 11 13 15 1

3 5

7 9

11 0

13---

15 24 17------

19 0---

21---

23 25 27 29 IR: 2 6 10 14 18 22 26 30 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow ():

Source Convergence 9

16250.0 (2213.00 249.8 ( 34.02 3458.0 (100.00 %)

1050.1

-24.73 105.27 (102.70 %)

17 19 21 23 25 27 29 59 55 51 47 43 0

39

-35 24 31 27 0

23 19 15 11 7

3 34 38 42 46 50 54 58 2.70 Core Average Exposure: MWd/MTU 30535.1 Axial Profile N(PRA) Power Exposure Top 25 0.173 6.040 24 0.538 17.649 23 0.701 24.100 22 0.798 28.645 21 0.858 31.594

JR 20 0.903 33.355 19 0.951 34.174 16 1.008 34.493 17 1.072 34.352 16 1.140 32.614 15 1.198 32.944 14 1.323 32.349 13 1.346* 33.329 12 1.338 34.375 11 1.312 35.281 10 1.278 35.948 9

1.243 36.144 8

1.203 36.605 7 1.165 37.073 6

1.138 37.293*

5 1.125 36.862 4

1.111 34.955 3

1.037 30.118 2

0.807 21.400 Bottom 1

0.231 5.906 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.658 1.025 51 30 0.290 0.370 49 8

0.614 1.005 49 44 0.515 1.064 47 30 0.736 0.944 25 32 0.984 1.280 43 44 1.081 1.281 41 42 1.099 1.302 45 24 0.818 1.179 47 44 1.020 1.277 47 26 1.308 1.464 43 42 1.100 1.198 41 52 1.228 1.397 39 50 1.00247 0.394 24.882 20.347 547.9 89.61 14.9

-0.0 0.00006

% AXIAL TILT

-9.836

-5.019 AVG BOT 8ft/12ft 1.0874 1.0223 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 89.61 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.464 19 43 42 1.458 19 45 40 1.455 19 41 44 1.449 19 45 26 1.449 19 43 24 1.442 19 47 24 1.441 19 39 46 1.430 19 37 48 1.429 19 41 40 1.415 19 39 42

. MCPR Value Margin FT 1.685 0.896 19 1.692 0.892 19 1.694 0.891 19 1.701 0.888 19 i.713 0.882 19 1.718 0.879 19 1.723 0.877 19 1.725 0.876 19 1.731 0.872 19 1.733 0.871 19 IR JR 45 26 43 42 45 40 41 44 47 38 43 24 41 26 39 46 37 48 41 40 APLHGR Value Margin Exp.

FT 7.30 0.678 39.2 15 7.81 0.653 20.4 19 7.71 0.641 19.8 19 7.71 0.640 19.6 19 7.71 0.640 19.5 19 7.67 0.638 19.8 19 7.73 0.637 18.6 19 7.69 0.633 18.5 19 6.73 0.628 39.6 18 7.54 0.628 19.8 19 IR JR 43 32 41 32 43 42 19 22 19 44 43 24 21 42 23 44 47 36 21 46 K

15 14 4

4 4

4 4

4 15 4

LHGR Value Margin Exp. FT 7.88 0.852 37.3 15 6.86 0.770 40.5 15 7.07 0.769 37.9 15 6.91 0.766 39.5 15 7.00 0.764 38.1 15 7.10 0.762 36.6 15 6.94 0.762 38.7 16 6.75 0.757 40.4 15 6.84 0.751 38.7 16

.6.87 0.750 38.2 15 IR JR K

17 32 15 41 42 4

41 34 15 39 18 4

17 26 15 45 28 15 45 38 15 17 22 4

47 40 15 39 32 15

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.58 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,250.0 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-64 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

16250.2 (2213.10 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-26.55 98.41 ( 96.01 %)

Core Average Exposure: MWd/MTU 30535.3 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

59 3

55 5

51 7

47 9

43 11 10 --

10 --.-----------

39 13 35 15 24 24 31 17 27 19 010

-23 21 19 23 15 25 11 27-7 29 3

IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58

JR N(PRA)

Top 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Axial Profile Power Exposure 0.188 6.040 0.581 17.649 0.755 24.100 0.855 28.645 0.913 31.594 0.949 33.355 0.980 34.175 1.023 34.493 1.076 34.352 1.135 32.614 1.185 32.944 1.302 32.349 1.320* 33.329 1.309 34.375 1.282 35.281 1.248 35.948 1.213 36.144 1.175 36.605 1.140 37.073 1.116 37.293*

1.106 36.863 1.096 34.955 1.025 30.118 0.799 21.400 0.229 5.906

-7.592

-5.019 1.0688 1.0223

'hr 83.91 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.651 1.018 29 52 6

0.287 0.367 49 8

9 0.607 0.991 49 44 10 0.516 1.063 29 48 11 0.755 0.972 25 32 14 0.973 1.268 43 44 15 1.103 1.278 41 42 16 1.086 1.288 45 24 17 0.808 1.163 47 44 18 1.008 1.260 47 26 19 1.321 1.452 43 42 20 1.084 1.184 41 52 21 1.211 1.383 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 2.25 1.00247 Bottom 1

0.399 22.471

% AXIAL TILT 17.940 AVG BOT 8ft/12ft 547.6 83.91 Active Channel Flow: Mlb/

14.7 (of total core flow)

-0.0 (of total core flow) 0.00007 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.452 19 43 42 1.447 19 41 44 1.441 19 45 40 1.440 19 43 24 1.434 19 39 46 1.434 19 45 26 1.428 19 41 40 1.424 19 37 44 1.422 19 39 42 1.422 19 47 24 MCPR Value Margin FT 1.628 0.928 19 1.636 0.923 19 1.640 0.921 19 1.652 0.914 19 1.654 0.913 19 1.656 0.912 19 1.660 0.910 19 1.662 0.909 19 1.665 0.907 19 1.665 0.907 19 IR JR 43 42 43 24 41 44 45 40 39 46 37 48 47 38 45 26 37 44 39 20 APLHGR Value Margin Exp.

FT 7.23 0.672 39.2 15 7.71 0.644 20.4 19 7.58 0.630 19.8 19 7.57 0.629 19.6 19 7.58 0.629 19.5 19 7.54 0.627 19.8 19 7.60 0.626 18.6 19 7.56 0.622 18.5 19 6.62 0.618 39.6 18 7.42 0.617 19.8 19 IR JR K

43 32 15 41 32 14 43 42 4

19 22 4

19 44 4

43 24 4

21 42 4

23 44 4

47 36 15 21 46 4

LHGR Value Margin Exp.

FT 7.80 0.843 37.3 15 7.02 0.764 37.9 15 6.75 0.757 40.5 15 6.92 0.755 38.1 15 6.79 0.753 39.5 15 7.02 0.752 36.5 15 6.83 0.751 38.7 16 6.84 0.747 38.2 15 6.64 0.744 40.4 15 6.73 0.739 38.7 16 IR JR K

17 32 15 41 34 15 41 42 4

17 26 15 39 18 4

15 34 15 45 38 15 39 32 15 17 22 4

47 40 15

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.59 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,250.2 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-65 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

16500.0 (2247.10 249.8 (

34.02 3458.0 (100.00 %(

1050.1

-24.54 106.05 (103.47 %)

Core Average Exposure: MWd/MTU 30785.1 1

3 5

7 9

11 13 15 17 19 21 23 25 27 29 IR:

1 3

5 7

9 11 13 15 17 19 21 23 25 27 29

-~10 -------24

-1120--

2 6 10 14 18 22 2630 10 -- -- -- -- -- --

24 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 Axial Profile N(PRA) Power Exposure Top 25 0.194 6.097 24 0.604 17.806 23 0.784 24.303 22 0.886 28.877 21 0.941 31.841

JR 20 0.974 33.611 19 1.002 34.439 18 1.042 34.770 17 1.094 34.643 16 1.153 32.911 15 1.203 33.254 14 1.320 32.655 13 1.336* 33.639 12 1.320 34.683 11 1.286 35.582 10 1.245 36.241 9

1.203 36.429 8

1.156 36.882 7

1.113 37.341 6

1.080 37.556*

5 1.063 37.123 4

1.046 35.213 3

0.975 30.359 2

0.759 21.588 Bottom 1

0.218 5.960 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.650 1.018 29 52 6

0.285 0.365 49 8

9 0.605 0.992 49 44 10 0.513 1.063 29 48 11 0.752 0.970 25 32 14 0.973 1.269 43 44 15 1.102 1.277 41 42 16 1.087 1.287 45 24 17 0.808 1.164 47 44 18 1.009 1.259 47 26 19 1.321 1.452 43 42 20 1.086 1.187 41 52 21 1.214 1.387 39 50 10 34 38 42 46 50 54 58 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 2.25 1.00273 0.383 25,048

% AXIAL TILT

-5.

20.514 AVG BOT 8ft/12ft 1.0 547.8 90.38 Active Channel Flow: Mlb/hr 14.8 (of total core flow)

-0.0 (of total core flow) 0.00007 345

-4.988

'569 1.0223 90.38 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.452 19 43 42 1.448 19 41 44 1.441 19 45 40 1.439 19 43 24 1.436 19 39 46 1.434 19 45 26 1.427 19 41 40 1.425 19 37 44 1.424 19 37 48 1.423 19 39 42 Value 1.685 1.697 1.698 1.710 1.711 1.711 1.719 1.723 1.723 1.724 MCPR Margin F"T 0.896 19 0.890 19 0.889 19 0.883 19 0.883 19 0.883 19 0.878 19 0.877 19 0.876 19 0.876 19 IR JR 43 42 43 24 41 44 39 46 37 48 45 40 47 38 37 44 45 26 39 20 Value 7.29 7.77 6.71 6.64 6.65 6.56 6.64 7.31 7.30 7.17 APLHGR Margin Exp. FT 0.680 39.6 15 0.652 20.9 19 0.629 40.0 18 0.621 39.8 16 0.620 39.6 15 0.615 40.0 15 0.615 38.8 15 0.610 20.1 19 0.609 20.2 19 0.608 22.1 19 IR JR K

43 32 15' 41 30 14 47 36 15 45 38 15 41 28 15 43 36 15 45 28 15 19 22 4

43 34 14 45 40 12 LHGR Value Margin Exp.

FT 7.87 0.856 37.8 15 7.09 0.776 38.3 15 7.01 0.769 38.6 15 7.10 0.766 37.1 15 6.92 0.764 39.1 16 6.91 0.758 38.6 15 6.'82 0.752 39.1 16 6.81 0.752 39.2 15 7.00 0.751 36.5 18 6.82 0.743 37.9 16 IR JR K

17 32 15 41 34 15 17 26 15 45 28 15 45 38 15 39 32 15 47 40 15 17 40 15 47 26 15 15 42 15

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.60 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,500.0 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-66 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

16500.2 (2247.10 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-26.61 98.22 ( 95.82 %)

Core Average Exposure: MWd/MTU 30785.3 1

3 5

7 9 11 1

3 5

7 9

13 15 17----------------

19 21 23 25 27 29 IR: 2 6 10 14 18 22 13 16 16 26 15 17 19 21 23 25 27 29 16----------------

16 30 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 i0 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.186 6.097 0.577 17.806 0.750 24.303 0.851 28.877 0.911 31.841 0.953 33.612 0.994 34.440 1.039 34.770 1.086 34.643 1.131 32.911 1.171 33.254 1.280 32.655 1.298* 33.640 1.292 34.683 1.268 35.582 1.236 36.241 1.203 36.430 1.168 36.882 1.136 37.341 1.117 37.556*

1.116 37.123 1.117 35.213 1.054 30.359 0.826 21.588 0.238 5.960 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.640 1.003 29 52 6

0.280 0.358 49 8

9 0.594 0.970 49 44 10 0.512 1.071 47 30 11 0.766 1.007 25 32 14 0.957 1.249 43 44 15 1.137 1.286 43 26 16 1.069 1.284 45 24 17 0.792 1.141 47 44 18 0.990 1.256 47 26 19 1.341 1.463 43 28 20 1.063 1.164 41 52 21 1.190 1.362 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%f:

Source Convergence 1.44 1.00274 0.399 22.479

% AXIAL TILT

-7.767

-4.988 17.948 AVG BOT 8ft/12ft 1.C 547.6 83.73 Active Channel Flow: Mlb/hr 14.8 (of total core flow)

-0.0 (of total core flow) 0.00008 671 1.0223 83.73 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.463 19 43 28 1.450 19 41 26 1.447 19 45 26 1.447 19 19 32 1.445 19 43 24 1.435 19 43 42 1.431 19 41 44 1.428 19 41 40 1.426 19 45 40 1.422 19 37 44 MCPR Value Margin FT 1.625 0.929 19 1.633 0.925 19 1.645 0.918 19 1.656 0.912 19 1.661 0.909 19 1.661 0.909 19 1.663 0.908 19 1.663 0.908 19 1.666 0.906 19 1.669 0.905 19 IR JR 43 28 43 24 43 42 39 20 37 44 41 44 41 26 45 26 39 46 19 32 APLHGR Value Margin Exp.

FT 8.35 0.683 17.7 19 8.38 0.682 17.2 19 8.17 0.669 17.8 19 8.03 0.666 19.4 19 7.97 0.665 20.2 19 7.91 0.651 18.6 19 7.94 0.648 17.4 19 6.93 0.646 39.6 15 7.74 0.646 20.1 19 6.83 0.643 40.4 15 IR JR 43 28 19 32 41 26 45 26 43 24 21 34 45 30 17 30 19 22 19 34 K

4 4

4 4

4 5

4 4

4 4

LHGR Value Margin Exp.

FT 7.44 0.824 39.4 15 7.23 0.815 41.0 15 7.17 0.808 40.9 15 7.23 0.798 39.2 15 6.91 0.795 42.6 15 6.82 0.787 42.9 15 7.09 0.778 38.6 15 7.08 0.776 38.6 16 6.72 0.765 41.8 15 6.73 0.759 41.0 15 IR JR 17 32 19 34 43 26 15 34 21 30 41 24 39 26 15 24 17 22 41 42 K

4 4

4 4

5 4

4 4

4 4

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.61 Browns Ferry Unit 1 Cycle 9 Control Rod Pattern and Axial Distributions at 16,500.2 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-67 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: *lWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

16700.0 (2274.30 199.8 (

27.21 3458.0 (100.00 %)

1050.1

-24.82 104.89 (102.33 %)

Core Average Exposure: MWd/MTU 30985.0 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

79-13 -

15 -

17 -

19 -

21 -

23 25 27 29 IR:

16

-61 16 3 2

6 10 14 18 22 26 30 16 16 34 38 42 46 50 54 58 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N(PRA Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 98 7

6 5

4 3

2 Bottom 1

Axial Profile I Power Exposure 0.191 6.142 0.594 17.930 0.770 24.465 0.872 29.061 0.930 32.038 0.969 33.818 1.008 34.654 1.052 34.994 1.098 34.878 1.143 33.148 1.183 33.498 1.293 32.896 1.308* 33.883 1.299 34.926 1.270 35.821 1.233 36.474 1.195 36.656 1.154 37.102 1.117 37.555 1.093 37.766*

1.087 37.334 1.084 35.423 1.023 30.558 0.802 21.744 0.231 6.005 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.639 1.004 29 52 6 0.279 0.357 49 8

9 0.593 0.971 49 44 10 0.511 1.069 47 30 11 0.764 1.004 25 32 14 0.957 1.250 43 44 15 1.136 1.285 43 26 16 1.070 1.283 45 24 17 0.792 1.142 47 44 18 0.991 1.256 47 26 19 1.341 1.463 43 28 20 1.065 1.166 41 52 21 1.193 1.365 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 1.44 1.00277 0.387

24. 639 20.106 547.8 89.36 14.8

-0.0 0.00009

% AXIAL TILT

-6.260

-4.965 AVG BOT 8ft/12ft 1.0590 1.0223 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 89.36 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.463 19 43 28 1.449 19 41 26 1.447 19 45 26 1.447 19 19 32 1.444 19 43 24 1.436 19 43 42 1.431 19 41 44 1.427 19 41 40 1.426 19 45 40 1.423 19 37 44 Value 1.684 1.690 1.698 1.710 1.714 1.714 1.717 1.720 1.722 1.722 MCPR Margin FT 0.896 19 0.894 19 0.889 19 0.883 19 0.881 19 0.881 19 0.879 19 0.878 19 0.877 19 0.877 19 IR JR 43 28 43 24 43 42 39 20 37 44 41 44 39 46 45 26 41 26 37 48 Value 8.32 8.25 8.06 7.86 7.81 7.83 7.83 6.82 6.73 7.57 APLHGR Margin Exp.

FT 0.679 17.6 19 0.677 18.1 19 0.662 18.2 19 0.654 19.8 19 0.653 20.5 19 0.647 19.0 19 0,641 17.8 19 0.638 39.9 15 0.636 40.7 15 0.633 20.5 19 IR JR 19 32 43 28 41 26 45 26 17 24 21 34 45 30 17 30 19 34 19 22 K

4 4

4 4

4 5

4 4

4 4

LHGR Value Margin Exp. FT 7.32 0.814 39.8 15 7.11 0.806 41.4 15 7.02 0.795 41.3 15 6.82 0.787 42.9 15 7.08 0.785 39.5 15 6.66 0.772 43.3 15 6.98 0.769 39.0 15 6.89 0.759 39.0 16 6.51 0.749 42.7 15 6.54 0.749 42.2 15 I

JR 17 32 19 34 43 26 21 30 15 34 41 24 21 36 15 24 23 34 17 22 K

4 4

4 5

4 4

4 4

5 4

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

" Thermal limit file:

Figure A.62 Browns Ferry Unit 1 Cycle 9 Control Rod Pattern and Axial Distributions at 16,700.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-68 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

16700.2 (2274.30 0.2 {

0.03 3458.0 (100.00 %)

1050.1

-26.70 97.88 { 95.49 %(

Core Average Exposure: MWd/MTU 30985.2 1

3 5

7 9 11 1

3 5

7 13 15 17 19 21 23 25 27 29 IR: 2 6 10 14 18 22 13 15 17 19 21 24 --

24 24 --

24 --

24 24 26 30 34 3B 42 23 25 27 29 59 55 51 47 43 39 35 31 27 23 19 1511 7

3 46 50 54 58 Axial Profile N(PRA) Power Exposure Top 25 0.183 6.142 24 0.566 17.930 23 0.735 24.465 22 0.836 29.061 21 0.897 32.038

JR 20 0.942 33.818 19 0.989 34.655 18 1.045 34.995 17 1.109 34.878 16 1.178 33.148 15 1.232 33.499 14 1.349 32.896 13 1.357* 33.884 12 1.328 34.926 11 1.286 35.821 10 1.239 36.474 9 1.194 36.657 8 1.148 37.102 7

1.108 37.556 6

1.083 37.767*

5 1.077 37.334 4

1.076 35.424 3

1.016 30.558 2

0.797 21.744 Bottom 1

0.229 6.005 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.631 0.995 29 52 0.275 0.352 49 8

0.585 0.958 43 50 0.511 1.057 29 48 0.781 1.030 25 32 0.945 1.239 43 44 1.160 1.279 43 26 1.057 1.270 45 24 0.780 1.126 47 44 0.978 1.240 47 26 1.355 1.455 43 28 1.049 1.150 41 52 1.175 1.350 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 1.08 1.00283 0.396 22.333 17.802 547.5 83.43 14.8

-0.0 0.00007

% AXIAL TILT

-6.429

-4.965 AVG SOT 8ft/i2ft 1.0697 1.0223 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 83.43 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.455 19 43 28 1.452 19 41 26 1.447 19 19 32 1.437 19 37 44 1.437 19 43 24 1.434 19 21 34 1.434 19 39 42 1.433 19 45 26 1.429 19 41 40 1.425 19 43 42 MCPR Value Margin FT 1.628 0.927 19 1.637 0.922 19 1.638 0.922 19 1.641 0.920 19 1.641 0.920 19 1.652 0.914 19 1.654 0.913 19 1.655 0.912 19 1.661 0.909 19 1.662 0.909 19 IR JR 43 28 39 20 37 44 27 44 43 24 41 26 43 42 21 34 35 46 19 32 APLHGR Value Margin Exp.

FT 7.28 0.688 40.8 15 7.27 0.680 39.9 15 8.00 0.672 20.9 19 8.21 0.671 17.6 19 8.15 0.669 18.1 19 7.97 0.654 18.2 19 7.76 0.653 21.2 19 6.93 0.652 40.5 15 6.97 0.650 39.6 15 7.77 0.647 19.8 19 IR JR K

35 22 15 33 38 15 33 40 14 19 32 4

43 28 4

41 26 4

35 38 14 2940 15 33 42 15 45 26 4

Value 7.97 7.84 7.47 7.47 7.24 7.03 6.11 6.94 7.11 7.17 LHGR Margin Exp. FT 0.875 38.6 15 0.861 38.6 15 0.814 38.0 15 0.812 37,9 15 0.805 39.8 15 0.797 41.4 15 0.786 60.4 10 0.786 41.3 15 0.783 38.9 15 0.782 38.0 15 IR JR K

25 40 15 33 24 15 33 42 15 31 40 15 17 32 4

19 34 4

37 38 13 43 26 4

35 44 15 23 42 15

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.63 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,700.2 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-69 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 9

16800.0 (2287.90 99.8 (

13.59 3458.0 (100.00 %)

1050.1

-25.68 101.57 ( 99.09 %)

Core Average Exposure: MWd/MTU 31085.1 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

3 5

7 9

11 24 13---

15 17---

19 24 21---

23 25 27 29 IR: 2 6 10 14 18 22 26 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-?: psia Core Plate Delta-P: psiz Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%)

Source Convergence 59 55 51 47 43 24 ----------------- 39 35 31 27 24 ----------------- 23 19 15 N(PRA Top 25 24 23 22 21

JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.185 6.164 0.575 17.991 0.746 24.544 0.847 29.151 0.907 32.135 0.951 33.920 0.997 34.762 1.052 35.108 1.116 34.998 1.185 33.271 1.239 33.627 1.356 33.023 1.363* 34.011 1.333 35.051 1.288 35.942 1.238 36.590 1.190 36.769 1.141 37.210 1.098 37.660 1.070 37.869*

1.061 37.435 1.057 35.525 0.998 30.654 0.783 21.819 0.225 6.026 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.630 0.995 29 52 0.274 0.351 49 8

0.584 0.958 43 50 0.510 1.057 29 48 0.779 1.028 25 32 0.945 1.240 43 44 1.160 1.278 43 26 1.058 1.270 45 24 0.780 1.126 47 44 0.978 1.240 35 48 1.355 1.455 43 28 1.050 1.151 41 52 1.176 1.352 39 50 30 34 38 42 46 50 54 58 1.08 11 7

3 1.00288 0.389 23.480

% AXIAL TILT

-5.601

-4.949 18.947 AVG BOT 8ft/12ft 1.0654 1.0224 547.6 86.45 Active Channel Flow: Mlb/hr 86.45 14.9 (of total core flow)

-0.0 (of total core flow) 0.00007 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.455 19 43 28 1.451 19 41 26 1.446 19 19 32 1.437 19 37 44 1.436 19 43 24 1.434 19 39 42 1.434 19 21 34 1.433 19 45 26 1.429 19 41 40 1.426 19 43 42 MCPR Value Margin FT 1.653 0.913 19 1.667 0.906 19 1.667 0.906 19 1.670 0.904 19 1.672 0.903 19 1.677 0.901 19 1.683 0.897 19 1.687 0.895 19 1.687 0.895 19 1.689 0.894 19 IR JR 43 28 37 44 39 20 27 44 43 24 41 26 43 42 21 34 19 32 35 46 Value 7.31 7.29 8.05 8.14 8.06 7.80 6.96 7.01 7.88 7.66 APLHGR Margin Exp. FT 0.692 41.0 15 0.684 40.1 15 0.677 21.1 19 0.666 17.8 19 0.662 18.3 19 0.657 21.4 19 0.656 40.6 15 0.655 39.7 15 0.648 18.4 19 0.638 20.0 19 IR JR K

35 22 15 33 38 15 33 40 14 19 32 4

43 28 4

35 38 14 29 40 15 33 42 15 41 26 4

45 26 4

LHGR Value Margin Exp. FT 8.01 0.881 38.9 15 7.87 0.866 38.8 15 7.51 0.820 38.2 15 7.50 0.818 38.1 15 7.15 0.797 40.0 15 6.13 0.792 60.5 10 7.15 0.789 39.1 15 6.95 0.789 41.6 15 7.21 0.788 38.2 15 7.19 0.783 38.0 15 IR JR K

25 40 15 33 24 15 33 42 15 31 40 15 17 32 4

37 38 13 35 44 15 19 34 4

23 42 15 31 18 15

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.64 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,800.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-70 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 1

3 5

7 9 11 13 1

3 5

7 9

7 11----------

13 15 17 19 21 23 25 27 29 IR: 2 6 10 14 1i 22 26 15 30 9

16800.2 (2288.00 0.2 (

0.03 3458.0 (100.00 %)

1050.1

-26.90 97.22 ( 94.85 %)

17 19 21 23 25 27 29 34 38 42 46 50 54 58 0.00 1.00287 0.408 22.311 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3

JR N(PRA Top 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

Core Average Exposure: MWd/MTU 31085.3 Axial Profile Power Exposure 0.171 6.164 0.531 17.991 0.689 24.544 0.782 29.151 0.837 32.135 0.878 33.920 0.922 34.762 0.975 35.108 1.036 34.998 1.105 33.271 1.162 33.628 1.283 33.023 1.307* 34.011 1.305 35.051 1.284 35.942 1.255 36.590 1.225 36.769 1.194 37.210 1.170 37.660 1.163 37.869*

1.180 37.435 1.203 35.525 1.157 30.654 0.919 21.819 0.266 6.026 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.619 0.978 29 52 0.268 0.344 49 8

0.573 0.940 43 50 0.509 1.091 37 24 0.798 1.079 31 26 0.929 1.223 43 44 1.194 1.284 27 42 1.040 1.256 37 46 0.766 1.105 47 44 0.960 1.228 35 48 1.373 1.468 31 42 1.029 1.128 41 52 1.154 1.328 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 4

3 2

Bottom 1

% AXIAL TILT -12.453

-4.949 17.781 AVG BOT 8ft/12ft 1.0982 1.0224 547.6 82.94 Active Channel Flow: Mlb/hr 62.94 14.7 (of total core flow)

-0.0 (of total core flow) 0.00006 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.468 19 31 42 1.465 19 35 42 1.459 19 27 44 1.454 19 33 40 1.450 19 37 44 1.448 19 41 26 1.446 19 39 42 1.441 19 21 34 1.440 19 43 28 1.438 19 19 32 MCPR Value Margin FT 1.630 0.927 19 1.634 0.924 19 1.647 0.917 19 1.649 0.916 19 1.649 0.916 19 1.656 0.912 19 1.658 0.911 19 1.666 0.906 19 1.671 0.904 19 1.673 0.903 19 IR JR 35 42 29 42 33 44 43 28 41 26 37 44 39 20 19 32 21 34 33 22 APLHGR Value Margin Exp. FT 8.85 0.724 17.8 19 8.70 0.716 18.4 19 8.78 0.715 17.2 19 8.67 0.711 18.0 19 8.72 0.710 17.3 19 8.72 0.709 17.0 19 8.60 0.707 18.3 19 8.52 0.704 18.9 19 8.51 0.702 18.8 19 8.49 0.699 18.4 19 IR JR 19 32 41 26 21 34 25 42 33 40 29 20 43 28 21 38 37 40 27 44 K

4 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp.

FT 7.60 0.858 41.0 15 7.63 0.858 40.7 15 7.75 0.856 39.2 15 7.67 0.855 40.0 15 7.65 0.854 40.1 15 7.48 0.854 42.0 15 7.65 0.849 39.6 15 7.54 0.846 40.5 15 7.53 0.842 40.2 15 7.41 0.838 41.1 15 IR JR 19 34 21 30 39 26 17 32 31 40 33 42 35 40 23 34 33 24 23 42 K

4 4

4 4

4 4

4 4

4 4

" LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.65 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,800.2 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-71 Cycle:

Exposure: KWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure:.psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 1

3 5

7 9 11 13 15 715 7

19 21 13 15 1719------------

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

23------------

25------------

27------------

29 IR: 2 6 10 14 18 22 26 3(

9 16857.4 (2295.70 57.2 (

7.79 3458.0 (100.00 %)

1050.1

-25.44 102.50 (100.00 %)

17 19 21 23 25 27 29 Core Average Exposure: MWd/MTU 31142.6 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 38 42 46 50 54 58 Axial Profile N(PRA) Power Exposure Top 25 0.174 6.176 24 0.540 18.024 23 0.701 24;587 22 0.795 29.200 21 0.849 32.187

JR 20 0.889 33.974 19 0.931 34.819 18 0.983 35.168 17 1.044 35.062 16 1.113 33.337 15 1.170 33.697 14 1.291 33.092 13 1.314* 34.082 12 1.312 35.122 11 1.289 36.011 10 1.256 36.658 9

1.224 36.835 8

1.189 37.275 7

1.161 37.723 6

1.150 37.931*

5 1.162 37.499 4

1.180 35.590 3

1.130 30.716 2

0.894 21.869 Bottom 1

0.259 6.041 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21

. Radial Power Avg.

Max.

IR JR 0.618 0.978 29 52 0.267 0.342 49 8

0.571 0.940 43 50 0.507 1.091 37 24 0.796 1.077 31 26 0.929 1.224 43 44 1.194 1.285 27 42 1.041 1.258 37 46 0.764 1.107 47 44 0.961 1.230 35 48 1.374 1.469 31 42 1.030 1.129 41 52 1.155 1.330 39 50 34 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (*):

Total Water Rod Flow (%):

Source Convergence 0.00 1.00364 0.399 24.010 19.476 547.7 87.12 15.0

-0.0 0.00010

% AXIAL TILT -11.513.

-4.951 AVG BOT 8ft/12ft 1.0933 1.0224 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 87.12 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.469 19 31 42 1.467 19 35 42 1.461 19 27 44 1.455 19 33 40 1.452 19 37 44 1.449 19 41 26 1.447 19 39 42 1.442 19 21 34 1.441 19 43 28 1.439 19 19 32 MCPR Value Margin FT 1.663 0.908 19 1.668 0.906 19 1.681 0.898 19 1.682 0.898 19 1.683 0.897 19 1.698 0.889 19 1.698 0.889 19 1.701 0.888 19 1.707 0.885 19 1.711 0.882 19 IR JR 35 42 29 42 33 44 43 28 41 26 39 42 37 44 19 32 21 34 33 40 APLHGR Value Margin Exp. FT 8.77 0.718 18.0 19 8.72 0.710 17.3 19 8.61 0.709 18.6 19 8.68 0.708 17.4 19 8.60 0.706 18.2 19 8.67 0.705 17.1 19 8.50 0.699 18.5 19 8.44 0.698 19.0 19 8.43 0.697 18.9 19 8.51 0.693 17.1 19 IR JR 19 32 21 34 41 26 33 40 25 42 29 20 43 28 21 38 37 40 23 36 K

4 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp. FT 7.54 0.849 40.8 15 7.51 0.849 41.1 15 7.59 0.849 40.2 15 7.67 0.848 39.3 15 7.42 0.848 42.1 15 7.58 0.846 40.1 15 7.59 0.844 39.7 15 7.47 0.839 40.6 15 7.48 0.838 40.3 15 7.36 0.831 41.0 15 IR JR 21 30 19 34 31 40 21 36 33 42 17 32 35 40 23 34 33 24 31 18 K

4 4

4 4

4 4

4 4

4 4

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.66 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,857.4 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-72 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 1

3 5

7 9 11 13 15 1 133-------------

5-------------

9 16870.0 (2297.50 12.6 (

1.71 3458.0 (100.00 %)

1044.8

-34.60 92.25 ( 90.00 %)

7 19 21 23 25 27 29 34 38 42 46 50 54 5B Core Average Exposure: MWd/MTU 31155.1 9

13 15 17 19 21 23 25 27 29 IR: 2 6 10 14 18 22 26 30 3

Axial Profile N(PRA) Power Exposure Top 25 0.167 6.179 24 0.520 18.031 23 0.675 24.596 22 0.766 29.211 21 0.819 32.199 59

JR 20 0.859 33.986 55 19 0.902 34.831 51 18 0.954 35.181 47 17 1.016 35.076 43 16 1.087 33.352 39 15 1.146 33.713 35 14 1.271 33.107 31 13 1.300 34.097 27 12 1.304* 35.137 23 11 1.288 36.026 19 10 1.262 36.673 15 9

1.237 36.850 11 8

1.209 37.289 7

7 1.189 37.737 3

6 1.187 37.945*

5 1.208 37.513 4

1.235 35.604 3

1.187 30.730 2

0.940 21.879 Bottom 1

0.271 6.044

% AXIAL TILT -14.075

-4.951 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.623 0.981 29 52 6

0.271 0.349 49 8

9 0.581 0.946 43 50 10 0.511 1.083 37 24 11 0.799 1.071 31 26 14 0.934 1.217 43 44 15 1.185 1.272 27 42 16 1.044 1.248 37 46 17 0.776 1.107 47 44 18 0.967 1.222 35 48 19 1.363 1.451 31 42 20 1.039 1.133 41 52 21 1.159 1.325 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (t):

Total Water Rod Flow (%):

Source Convergence 0.00 1.00341 0.396 20.217 15.656 AVG BOT 8ft/12ft 1.1067 1.0224 545.6 78.40 Active Channel Flow: Mlb/hr 78.40 15.0 (of total core flow)

-0.0 (of total core flow) 0.00009 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.451 19 31 42 1.450 19 35 42 1.444 19 27 44 1.438 19 33 40 1.436 19 37 44 1.434 19 41 26 1.432 19 39 42 1.426 19 43 28 1.426 19 21 34 1.423 19 19 32 Value 1.633 1.638 1.645 1.651 1.652 1.652 1.654 1.669 1.672 1.675 MCPR Margin FT 0.924 19 0.922 19 0.918 19 0.914 19 0.914 19 0.914 19 0.913 19 0.905 19 0.903 19 0.902 19 IR JR 35 42 29 42 27 44 43 28 41 26 37 44 39 20 19 32 27 40 21 34 APLHGR Value Margin Exp. FT 9.12 0.747 18.0 19 9.06 0.739 17.3 19 8.96 0.738 18.6 19 9.03 0.736 17.5 19 8.96 0.735 18.2 19 9.02 0.734 17.1 19 8.85 0.729 18.5 19 8.78 0.726 19.0 19 8.78 0.725 19.0 19 8.77 0.722 18.6 19 IR JR 19 32 21 34 41 26 33 40 25 42 29 20 43 28 21 38 37 40 27 44 K

4 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp. FT 7.83 0.885 41.2 15 7.85 0.884 40.8 15 7.90 0.884 40.3 15 7.73 0.883 42.1 15 7.98 0.883 39.3 15 7.89 0.882 40.1 15 7.90 0.879 39.7 15 7.78 0.874 40.6 15 7.79 0.872 40.4 15 7.67 0.866 41.1 15 IR JR 19 34 21 30 31 40 33 42 21 36 17 32 35 40 23 34 33 24 31 18 K

4 4

4 4

4 4

4 4

4 4

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.67 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 16,870.0 MWd/MTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-73 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/ibm Flow: Mlb/hr 1

3 5

7 9 11 13 1

3 5

7 9

11 1315----------

17 19 21 23 25 27 29 IR: 2 6 10 14 18 22 26 15 30 9

17380.0 (2366.90 510.0 ( 69.45 3458.0 (100.00 %)

1044.8

-29.46 107.63 (105.00 %)

17 19 21 23 25 27 29 34 38 42 46 50 54 58 0.00 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 N (PRA Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Core Average Exposure: MWd/MTU 31665.1 Axial Profile Power Exposure 0.182 6.282 0.571 18.317 0.738 24.967 0.832 29.633 0.882 32.651 0.916 34.460 0.953 35.329 1.002 35.708 1.061 35.637 1.130 33.931 1.188 34.324 1.312 33.717 1.334* 34.721 1.328 35.763 1.298 36.644 1.257 37.278 1.215 37.444 1.169 37.870 1.130 38.309 1.107 38.516*

1.109 38.094 1.121 36.198 1.072 31.301 0.847 22.331 0.245 6.174 Edit Zone 5

6 9

10 11 14 15 16 17 18 19 20 21 Radial Power Avg.

Max.

IR JR 0.621 0.981 29 52 0.268 0.345 49 8

0.578 0.948 43 50 0.506 1.077 37 24 0.793 1.063 31 26 0.935 1.219 43 44 1.182 1.268 27 42 1.047 1.249 37 46 0.776 1.111 47 44 0.970 1.223 35 48 1.362 1.450 31 42 1.044 1.140 41 52 1.167 1.333 39 50 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%M:

Source Convergence 1.00341 Bottom 1

0.362 25.287

% AXIAL TILT

-9.

20.728 AVG BOT 8ft/12ft 1.0 546.0 91.94 Active Channel Flow: Mlb/hr 14.6 (of total core flow)

-0.0 (of total core flow) 0.00007

.009

-4.996 796 1.0231 91.94 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.450 19 31 42 1.447 19 35 42 1.443 19 27 44 1.436 19 37 44 1.434 19 33 40 1.432 19 41 26 1.431 19 39 42 1.425 19 43 28 1.424 19 21 34 1.422 19 19 32 MCPR Value Margin FT 1.759 0.858 19 1.763 0.856 19 1.772 0.852 19 1.776 0.850 19 1.777 0.850 19 1.785 0.846 19 1.789 0.844 19 1.796 0.841 19 1.806 0.836 19 1.812 0.833 19 IR JR 35 42 29 42 43 28 33 44 41 26 37 44 39 20 19 32 21.34 35 46 APLHGR Value Margin Exp. FT 8.66 0.717 19.2 19 8.66 0.712 18.5 19 8.55 0.705 18.6 19 8.57 0.704 18.3 19 8.43 0.699 19.5 19 8.38 0.695 19.3 19 8.44 0.693 18.3 19 8.32 0.690 19.4 19 8.36 0.688 18.5 19 8.20 0.685 20.2 19 IR JR 19 32 21 34 33 40 29 20 19 36 25 42 23 36 17 34 35 38 21 38 K

4 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp.

FT 7.47 0.841 40.8 15 7.32 0.837 42.2 15 7.47 0.837 40.4 15 7.38 0.836 41.3 15 7.33 0.834 41.7 15 7.36 0.832 41.2 15 7.17 0.830 43.2 15 7.30 0.828 41.4 15 7.34 0.826 40.8 15 5.68 0.820 56.1 10 IR JR 21 32 19 34 21 36 31 40 23 34 17 32 33 42 33 24 35 40 23 38 K

4 4

4 4

4 4

4 4

4 5

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.68 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 17,380.0 MWdIMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page A-74 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 9

17913.1 (2439.50 533.1 ( 72.60 3112.2 ( 90.00 %)

1037.1

-26.23 107.63 (105.00 %)

Core Average Exposure: MWd/MTU 32198.2 1

3 5

7 9 11 13 15 17 1

3 5

7 9

11 13 15 17 19 21 23 25 27 29 IR: 2 6 10 14 18 22 26 30 34 19 21 23 25 27 29 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 38 42 46 50 54 58 N(PRA)

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.198 6.400 0.626 18.645 0.805 25.391 0.900 30.113 0.945 33.159 0.971 34.989 1.001 35.879 1.043 36.286 1.097 36.249 1.163 34.561 1.218 34.986 1.340 34.375 1.354* 35.390 1.336 36.428 1.294 37.295 1.240 37.909 1.183 38.055 1.123 38.458 1.069 38.876 1.033 39.072*

1.025 38.651 1.031 36.761 0.990 31.840 0.787 22.757 0.228 6.297 Edit Radial Power Zone Avg.

Max.

IR JR 5

0.620 0.980 29 52 6

0.267 0.344 49 8

9 0.577 0.949 43 50 10 0.504 1.073 37 24 11 0.790 1.059 31 26 14 0.935 1.220 43 44 15 1.179 1.266 27 42 16 1.049 1.249 37 46 17 0.776 1.114 47 44 18 0.973 1.225 35 48 19 1.361 1.450 31 42 20 1.048 1.145 41 52 21 1.172 1.339 39 50 Control Rod Density: W k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 0.00 1.00338 0.336 24.741 20.189 545.3 92.38 14.2

-0.0 0.00009

% AXIAL TILT

-4.370

-4.957 AVG BOT 8ft/12ft 1.0532 1.0233 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 92.38 Top Ten Thermal Limits Summary -

Sorted by Margin Power ValueFT IR JR 1.450 19 31 42 1.445 19 35 42 1.441 19 27 44 1.435 19 37 44 1.433 19 33 40 1.428 19 41 26 1.428 19 39 42 1.422 19 21 34 1.422 19 43 28 1.419 19 19 32 MCPR Value Margin FT 1.958 0.780 19 1.959 0.780 19 1.966 0.777 '19 1.968 0.776 19 1.973 0.774 19 1.993 0.767 19 1.997 0.765 19 2.002 0.763 19 2.002 0.763 19 2.004 0.762 19 IR JR 35 42 29 42 27 44 37 44 39 20 35 46 43 28 39 46 43 42 41 26 Value 7.41 7.36 7.31 7.33 7.23 7.10 7.16 7.23 7.22 7.07 APLHGR Margin Exp. FT 0.615 19.7 19 0.615 20.3 19 0.608 19.8 19 0.608 19.4 19 0.599 19.5 19 0.595 20.6 19 0.594 19.5 19 0.593 18.2 19 0.592 18.0 19 0.591 20.5 19 IR JR 21 34 19 32 33 40 29 20 23 36 19 36 25 38 23 32 31 24 25 42 K

4 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp.

FT 4.82 0.752 65.6 10 6.33 0.721 41.8 15 6.24 0.719 42.7 15 6.30 0.718 41.9 15 6.30 0.715 41.4 15 6.22 0.714 42.5 15 6.16 0.714 43.2 15 6.03 0.707 44.2 15 6.17 0.707 42.2 15 6.19 0.705 41.8 15 IR JR K

37 38 10 21 32 4

23 34 4

29 22 4

21 36 4

33 24 4

19 34 4

33 42 4

17 32 4

35 40 4

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure A.69 Browns Ferry Unit I Cycle 9 Control Rod Pattern and Axial Distributions at 17,913.1 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page B-1 Appendix B Elevation Views of the Browns Ferry Unit I Cycle 9 Fresh Reload Batch Fuel Assemblies AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page B-2 I

I Figure BA Elevation View for the Browns Ferry Unit I Cycle 9 Fresh Fuel Reload Batch BFEI-9 ATRIUM-10 [

I Fuel Assembly Design AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page B-3 Ii I

Figure B.2 Elevation View for the Browns Ferry Unit I Cycle 9 Fresh Fuel Reload Batch BFEI-9 ATRIUM-10 [

]

Fuel Assembly Design AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page B-4 I

Figure B.3 Elevation View for the Browns Ferry Unit I Cycle 9 Fresh Fuel Reload Batch BFEI-9 ATRIUM-10 [

]

Fuel Assembly Design AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page C-1 Appendix C Browns Ferry Unit 1 Cycle 9 Fresh Fuel Locations AREVA NP Inc.

AREVA NP ANP-2859(NP)

Browns Ferry Unit 1 Cycle 9 Revision 0 Fuel Cycle Design (105% OLTP)

Page C-2 Table C.1 Browns Ferry Unit 1 Cycle 9 Reload Fuel Identification and Locations (Core Coordinates)

Assembly Type: ATRIUM-10 Bundle

Description:

[

Number Loaded: 176 Fuel Core Fuel Core Fuel Core Fuel Core ID Coord.

ID Coord.

ID Coord.

ID Coord.

FAA001 27-32 FAA039 27-22 FAA077 39-24 FAA115 39-42 FAA002 29-34 FAA040 21-28 FAA078 37-22 FAA116 41-40 FAA003 31-34 FAA041 23-36 FAA079 23-22 FAAII7 41-22 FAA004 33-32 FAA042 25-38 FAA080 21-24 FAA118 39-20 FAA005 33-30 FAA043 35-38 FAA081 11-32 FAA119 21-20 FAA006 31-28 FAA044 37-36 FAA082 29-50 FAA120 19-22 FAA007 29-28 FAA045 37-26 FAA083 31-50 FAA121 7-32 FAA008 27-30 FAA046 35-24 FAA084 49-32 FAA122 29-54 FAA009 23-32 FAA047 25-24 FAA085 49-30 FAA123 31-54 FAA010 29-38 FAA048 23-26 FAA086 31-12 FAA124 53-32 FAA011 31-38 FAA049 15-32 FAA087 29-12 FAA125 53-30 FAA012 37-32 FAA050 29-46 FAA088 11-30 FAA126 31-8 FAA013 37-30 FAA051 31-46 FAA089 13-34 FAA127 29-8 FAA014 31-24 FAA052 45-32 FAA090 27-48 FAAI28 7-30 FAA015 29-24 FAA053 45-30 FAA091 33-48 FAA129 11-36 FAA016 23-30 FAA054 31-16 FAA092 47-34 FAA130 25-50 FAA017 25-34 FAA055 29-16 FAA093 47-28 FAA131 35-50 FAA018 27-36 FAA056 15-30 FAA094 33-14 FAA132 49-36 FAA019 33-36 FAA057 17-34 FAA095 27-14 FAA133 49-26 FAA020 35-34 FAA058 27-44 FAA096 13-28 FAA134 35-12 FAA021 35-28 FAA059 33-44 FAA097 15-36 FAA135 25-12 FAA022 33-26 FAA060 43-34 FAA098 25-46 FAA136 11-26 FAA023 27-26 FAA061 43-28 FAA099 35-46 FAA137 13-38 FAA024 25-28 FAA062 33-18 FAA100 45-36 FAA138 23-48 FAA025 19-32 FAA063 27-18 FAA101 45-26 FAA139 37-48 FAA026 29-42 FAA064 17-28 FAA102 35-16 FAA140 47-38 FAA027 31-42 FAA065 19-36 FAA103 25-16 FAAI41 47-24 FAA028 41-32 FAA066 25-42 FAA104 15-26 FAA142 37-14 FAA029 41-30 FAA067 35-42 FAA105 17-38 FAA143 23-14 FAA030 31-20 FAA068 41-36 FAA106 23-44 FAA144 13-24 FAA031 29-20 FAA069 41-26 FAA107 37-44 FAA145 15-40 FAA032 19-30 FAA070 35-20 FAA108 43-38 FAA146 21-46 FAA033 21-34 FAA071 25-20 FAA109 43-24 FAA147 39-46 FAA034 27-40 FAA072 19-26 FAA110 37-18 FAA148 45-40 FAA035 33-40 FAA073 21-38 FAA111 23-18 FAA149 45-22 FAA036 39-34 FAA074 23-40 FAA112 17-24 FAA150 39-16 FAA037 39-28 FAA075 37-40 FAA113 19-40 FAA151 21-16 FAA038 33-22 FAA076 39-38 FAA114 21-42 FAA152 15-22 AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page C-3 Table CA Browns Ferry Unit I Cycle 9 Reload Fuel Identification and Locations (Core Coordinates) (Continued)

Assembly Type: ATRIUM-10 Bundle

Description:

[

Number Loaded: 176 I

Fuel Core ID Coord.

Fuel Core ID Coord.

Fuel Core ID Coord.

Fuel Core ID Coord.

FAA1 53 FAAI54 FAAI 55 FAAl 56 FAA157 FAA 558 17-42 19-44 41-44 43-42 43-20 41-18 FAAl 59 FAA160 FAAI 61 FAA162 FAA163 FAA164 19-18 17-20 13-42 19-48 41-48 47-42 FAAI65 FAAI 66 FAAI 67 FAA168 FAA169 FAA170 47-20 41-14 19-14 13-20 15-44 17-46 FAAI 71 FAAIl72 FAAI73 FAAI74 FAAI 75 FAAI76 43-46 45-44 45-18 43-16 17-16 15-18 AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page C-4 Table C.1 Browns Ferry Unit I Cycle 9 Reload Fuel Identification and Locations (Core Coordinates) (Continued)

Assembly Type: ATRIUM-10 Bundle

Description:

[

Number Loaded: 32 Fuel Core ID Coord.

Fuel Core ID Coord.

Fuel Core ID Coord.

Fuel Core ID Coord.

FAA193 FAAI94 FAA195 FAAI 96 FAA197 FAA1 98 FAA199 FAA200 5-34 27-56 33-56 55-34 55-28 33-6 27-6 5-28 FAA201 FAA202 FAA203 FAA204 FAA205 FAA206 FAA207 FAA208 7-40 21-54 39-54 53-40 53-22 39-8 21-8 7-22 FAA209 FAA210 FAA211 FAA212 FAA213 FAA214 FAA215 FAA216 9-42 19-52 41-52 51-42 51-20 41-10 19-10 9-20 FAA217 FAA218 FAA219 FAA220 FAA221 FAA222 FAA223 FAA224 7-44 17-54 43-54 53-44 53-18 43-8 17-8 7-18 AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page C-5 Table C.1 Browns Ferry Unit I Cycle 9 Reload Fuel Identification and Locations (Core Coordinates) (Continued)

Assembly Type: ATRIUM-10 Bundle

Description:

[

I Number Loaded: 64 Fuel Core ID Coord.

Fuel Core ID Coord.

Fuel Core ID Coord.

Fuel Core ID Coord.

FAA233 FAA234 FAA235 FAA236 FAA237 FAA238 FAA239 FAA240 FAA2 41 FAA242 FAA243 FAA244 FAA245 FAA246 FAA247 FAA248 9-34 FAA249 27-52 FAA250 33-52 FAA251 51-34 FAA252 51-28 FAA253 33-10 FAA254 27-10 FAA255 9-28 FAA256 7-36 FAA257 25-54 FAA258 35-54 FAA259 53-36 FAA260 53-26 FAA261 35-8 FAA262 25-8 FAA263 7-26 FAA264 9-38 23-52 37-52 51-38 51-24 37-10 23-10 9-24 11-40 21-50 39-50 49-40 49-22 39-12 21-12 11-22 FAA265 FAA266 FAA267 FAA268 FAA269 FAA270 FAA271 FAA272 FAA273 FAA274 FAA275 FAA276 FAA277 FAA278 FAA279 FAA280 9-46 FAA281 13-46 15-52 FAA282 15-48 45-52 FAA283 45-48 51-46 FAA284 47-46 51-16 FAA285 47-16 45-10 FAA286 45-14 15-10 FAA287 15-14 9-16 FAA288 13-16 5-38 FAA289 11-48 23-56 FAA290 13-50 37-56 FAA291 47-50 55-38 FAA292 49-48 55-24 FAA293 49-14 37-6 FAA294 47-12 23-6 FAA295 13-12 5-24 FAA296 11-14 AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page D-1 Appendix D Browns Ferry Unit I Cycle 9 Radial Exposure and Power Distributions AREVA NP Inc.

m z

p" CE)

C 0 ý (DC CD 0(-

I--

"U1 5

9 11 13 15 17 19 21 23 25 27 29 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8

6 4

2 34.188 30.796 30.946 28.866 27.821 28.192 28.173 27.901 28.195 28.166 28.842 29.644 31.176 34.181 30.405 31.547 28.002 16.220 18.530 18.353 16.033 17.083 17.108 16.046 18.371 15.869 16.098 27.958 33.750 32.289 29.582 31.211 27.991 17.535 18.945 18.516 0.000 19.182 0.000 19.083 19.018 0.000 19.242 0.000 18.758 18.948 17.494 27.977 30.916 30.103 32.746 19.854 17.668 0.000 19.755 0.000 18.717 0.000 16.361 0.000 0.000 16.381 0.000 18.730 0.000 19.627 0.000 17.696 17.351 33.476 30.377 26.946 18.839 0.000 19.067 0.000 19.465 0.000 18.447 0.000 27.406 26.052 0.000 18.430 0.000 19.585 0.000 19.419 0.000 18.874 26.886 32.213 30.117 32.185 26.622 18.425 0.000 19.365 26.711 19.350 0.000 16.749 0.000 17.110 0.000 0.000 17.122 0.000 16.750 0.000 18.999 26.698 18.553 0.000 18.166 26.608 33.449 29.755 32.135 17.631 18.807 0.000 18.957 0.000 18.521 0.000 18.546 0.000 18.774 0.000 30.939 29.835 0.000 18.772 0.000 18.643 0.000 18.473 0.000 19.389 0.000 18.017 19.937 30.893 31.212 27.757 17.916 0.000 18.938 0.000 18.050 0.000 19.085 0.000 18.782 0.000 18.021 0.000 0.000 18.036 0.000 16.985 0.000 18.005 0.000 19.462 0.000 18.923 0.000 17.933 27.731 30.957 33.327 32.745 17.508 0.000 19.962 26.764 18.533 0.000 18.318 0.000 19.151 0.000 19.335 0.000 18.328 18.352 0.000 19.360 0.000 17.698 0.000 18.834 0.000 18.473 26.752 19.886 0.000 17.551 33.546 33.354 31.181 27.878 19.361 19.635 0.000 18.505 0.000 17.213 0.000 17.596 0.000 19.308 0.000 19.169 0.000 0.000 19.142 0.000 19.335 0.000 17.612 0.000 17.988 0.000 18.527 0.000 19.603 18.443 27.968 30.823 29.751 16.327 18.457 0.000 18.990 0.000 18.585 0.000 17.855 0.000 17.357 0.000 17.690 0.000 18.241 19.023 0.000 19.346 0.000 17.642 0.000 18.237 0.000 18.529 0.000 17.173 0.000 18.465 16.238 31.219 28.625 18.175 0.000 18.708 0.000 16.466 0.000 17.934 0.000 18.341 0.000 31.672 0.000 19.059 0.000 0.000 19.096 0.000 31.637 0.000 18.364 0.000 17.894 0.000 16.407 0.000 18.750 0.000 19.404 28.715 27.824 18.041 18.804 0.000 18.460 0.000 18.695 0.000 18.509 0.000 19.160 0.000 17.755 0.000 31.440 31.439 0.000 17.769 0.000 20.238 0.000 19.201 0.000 18.774 0.000 18.502 0.000 18.783 18.025 28.200 27.932 15.965 0.000 15.886 0.000 17.130 0.000 17.002 0.000 18.982 0.000 18.963 0.000 19.932 0.000 0.000 19.411 0.000 18.970 0.000 19.172 0.000 17.004 0.000 17.111 0.000 15.731 0.000 15.928 27.821 28.222 16.869 19.460 0.000 26.085 0.000 29.815 0.000 18.929 0.000 19.826 0.000 30.404 0.000 31.674 32.109 0.000 30.417 0.000 18.497 0.000 18.949 0.000 30.907 0.000 26.168 0.000 20.165 16.855 27.831 m

z-o Figure D.1 Browns Ferry Unit I Cycle 9 BOC Exposure Distribution (GWd/MTU) z a"13 MD CO

m z-v 5"

-n im (D *

-nw

'< 0n CD CD 0 o_

CD CD 0(0

'0 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8

6 4

2 27.784 16.857 18.809.

0.000 26.114 0.000 30.901 0.000 18.953 0.000 18.574 0.000 30.420 0.000 31.730 32.157 0.000 30.464 0.000 18.520 0.000 18.967 0.000 30.906 0.000 26.100 0.000 17.013 16.882 28.121 27.842 15.885 0.000 15.922 0.000 17.121 0.000 17.000 0.000 19.171 0.000 18.989 0.000 19.969 0.000 0.000 19.359 0.000 18.962 0.000 19.012 0.000 17.009 0.000 17.137 0.000 15.717 0.000 15.992 27.796 28.233 18.031 18.783 0.000 18.471 0.000 18.694 0.000 19.317 0.000 17.934 0.000 17.606 0.000 31.553 31.414 0.000 17.799 0.000 19.4,56 0.000 19.212

0. 000 18.783

0.

00 18.505

0. 000 18.821 18.058 27.970 28.667 19.430 0.000 18.718 0.000 16.458 0.000 17.792 0.000 18.387 0.000 31.683 0.000 19.240 0.000 0.000 19.054 0.000 31.623 0.000 18.375 0.000 17.970 0.000 16.421 0.000 18.773 0.000 18.210 28.669 31.260 16.395 19.050 0.000 18.792 0.000 18.414 0.000 18.272 0.000 17.716 0.000 19.480 0.000 19.816 19.958 0.000 17.684 0.000 17.365.

0.000 17.869 0.000 18.615 0.000 17.995 0.000 18.549 16.367 29.787 30.753 27.821 19.359 18.426 0.000 18.513 0.000 17.217 0.000 17.836 0.000 19.641 0.000 19.185 0.000 0.000 19.202 0.000 19.313 0.000 17.622 0.000 17.215 0.000 18.547 0.000 19.685 19.462 27.969 31.284 34.351 31.264 17.507 0.000 19.913 26.637 18.250 0.000 17.980 0.000 17.737 0.000 19.347 0.000 18.437 18.354 0.000 18.270 0.000 19.168 0.000 18.316 0.000 18.560 26.756 19.999 0.000 17.554 33.739 33.326 30.907 27.750 17.944 0.000 18.936 0.000 18.463 0.000 17.062 0.000 18.835 0.000 18.097 0.000 0.000 18.090 0.000 17.034 0.000 17.994 0.000 18.072 0.000 18.964 0.000 17.943 27.783 29.695 32.209 17.875 18.822 0.000 18.536 0.000 18.323 0.000 18.715 0.000 18.794 0.000 29.786 29.796 0.000 18.807 0.000 18.569 0.000 18.546 0.000 18.573 0.000 18.858 17.662 30.814 29.717 32.731 26.532 18.139 0.000 19.416 26.773 18.992 0.000 16.845 0.000 17.170 0.000 0.000 17.162 0.000 16.847 0.000 18.987 26.719 19.369 0.000 18.471 26.637 32.922 30.121 30.389 26.845 18.890 0.000 19.060 0.000 19.699 0.000 18.499 0.000 27.446 26.116 0.000 18.478 0.000 19.466 0.000 19.491 0.000 18.852 26.856 30.834 31.244 17.365 17.738 0.000 18.985 0.000 18.727 0.000 16.569 0.000 0.000 16.531 0.000 18.744 0.000 19.780 0.000 17.657 19.874 32.571 29.900 31.268 27.989 17.464 18.985 18.764 0.000 19.268 0.000 18.814 19.119 0.000 19.194 0.000 18.755 18.980 17.538 27.951 31.587 31.220 30.373 32.735 28.116 16.237 18.494 18.400 16.061 17.136 17.073 16.022 18.370 19.345 16.185 28.102 33.701 32.200 33.364 31.278 29.468 28.915 28.202 28.222 27.971 28.202 28.173 27.839 28.934 30.945

30. 874' 34.133 m

z 0~

Figure D.A Browns Ferry Unit I Cycle 9 BOC Exposure Distribution (GWd/MTU) (Continued) z CD CO

(

0

-u

-n c C

0

-n (D

(D (DC T). C:

(D 0(

9 11 13 15 17 19 21 23 25 27 29 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8

6 4

2

39. 960 37.717

39. 093 37.864

36. 697 37.095

37. 065 36.737.

37.090 37.004 37.866 37.8 52

38. 082

39. 906

37. 597

40. 867 39.887

30. 487

33. 479

33. 673

31. 565

32. 484 32.510

31. 586

33. 725

30. 684

30. 403

39. 827 42.882

39. 374

35. 002

39. 246

39. 639

32. 692

35. 447 36.187 19.589 37.383

19. 593 36.858 36.806

19. 614

37. 477

19. 652

36. 488

35. 479 32.710 3 9.692

39. 096

35. 618

40. 687 32.842

33. 688 18.762 38.518 20.872 38.437

21. 692

36. 454

20. 434

20. 451 36.,489

21. 735

38. 491 20.926 38.430 18.848

33. 823

30. 708

41. 805 38.982

39. 088 34.945

19. 377

38. 098 21.4 02

39. 256 21.975

38. 690 21.602

45. 327 44.169

21. 651 38.710 22.029 39.43 9

21. 483 38.558

19. 507 35.101 39.105 40.724

35. 557

40. 227

38. 840

34. 588

19. 434

38. 629

45. 504

39. 748

21. 978 37.0 62

21. 336

36. 889

20. 973 20.994

36. 961

21. 393 37.131

22. 055

39. 521

45. 555

38. 010

19. 525 34.365 38.861

41. 742

35. 285 40.241 30.910 34.980 19.4 95 37.964 21.263 38.169

20. 809 38.037

20. 787 3 8.335

20. 273 4 7.288

46. 364

20. 322 38.392

20. 882 38.219

20. 886 38.154

21. 276 38.353

19. 534 34.290 33 *028 39.083

38. 755

39. 507

33. 995 19.4 63

38. 356 21.431 37.995

20. 771 38.438

20. 660 38.029

20. 423

36. 859 19.7 67

19. 785

36. 923

20. 499 36.4 63

20. 765 37.514 20.7 93 39.220

21. 405 38.344

19. 493 34.038 39.491 38.516 39.204

41. 989 32.713 18.753 38.955

45. 704 38.852

21. 471 37.780 20.565 38.729

20. 953

38. 158 20.049 37.457 37.487 20.067 38.231

21. 033 37.543

20. 603

38. 216

21. 428 38.769

45. 683 38.920 18.806 32.803

42. 747

39. 222 3 8.095

39. 729

35. 743 38.269

21. 256

39. 028 21.522 37.353

20. 617

36. 910

21. 053 38.705 20.109 37.762 20.287 20.280 37.716

20. 096 38.740

21. 082

36. 928

20. 575 38.017 21.500

39. 078 21.327 38.338

34. 971

39. 844 37.7 37 37.919

30. 526

36. 024

20. 623 38.171 21.316 38.105

20. 723 37.121 20.459 37.017

20. 641

36. 336

19. 595

36. 506 37.180

19. 543 37.729

20. 601 37.233

20. 421

37. ;439

20. 682 38.048

21. 371

36. 593 20.700

36. 075

30. 439

39. 331 37.628

33. 059

19. 452 38.241

21. 187

36. 212

20. 774 37.244

20. 355 37.303

20. 534 48.260

19. 551 37.148 18.984

18. 969 37.138 19.491 48.187 20.473

37. 272

20. 297 37.179 20.765

36. 186

21. 246

38. 307

19. 481 34.232 37.717

36. 638 33.3 60

36. 998 21.577 38.568

21. 306 38.759

20. 957 37.4 35

19. 943 37.688

19. 699

36. 401

19. 640 48.078 48.072 19.627 36.396 19.647

38. 576 19.859

37. 941

20. 903 38.796

21. 303 38.627 21.601

36. 987

33. 351 37.031

36. 788

31. 504

19. 592

36. 085

21. 629 37.033

20. 902

36. 471

19. 951 37.382

19. 619 37.14 6

19. 553 37.858

19. 351

19. 351 37.425

19. 550 37.106

19. 575

37. 478

19. 879

36. 414 20.850

36. 989

21. 623

35. 910

19. 611

31. 487

36. 766

37. 123

32. 299 37.294

20. 501 44.299

21. 142

46. 482

19. 778 37.34 0

19. 454 37.623

18. 778

46. 765

18. 807 47.083 47.447 18.811 46.790 18.796 36.474

19. 430 37.321 19.7 02 47.339

21. 098 44.357

20. 507 37.921 32.321

36. 731 z-a Figure D.2 Browns Ferry Unit I Cycle 9 EOC Exposure Distribution (17.4 GWdIMTU) cc z

CA.~

01 cn (

0C- 0

m z-u 5"

(D

-n (DCD (D

T.

C CD 0(0 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8

6 4

2 36.665 32.310 36.701 20.508 44.321 21.144 47.387 19.762 37.358 19.447 36.549 18.784 46.780 18.799 47.140 47.510 18.811 46.857 18.805 36.509 19.439 37.341 19.708 47.345 21.101 44.281 20.519 35.066 32.349 37.055 36.792 31.451 19.613 36.127 21.637 37.032 20.890 36.444 19.915 37.527 19.631 37.162 19.545 37.889 19.328 19.340 37.369 19.568 37.150 19.615 37.375 19.901 36.429 20.855 37.021 21.624 35.935 19.638 31.576 36.705 37.063 33.356 36.988 21.598 38.598 21.316 38.752 20.940 38.068

19. 920 36.620 19.699 36.247 19.590 48.146 48.011 19.632 36.451 19.698 37.955

19. 907 37.976 20.919 38.809 21.295 38.618 21.593 37.027 33.400 36.7.76 37.668 34.249 19.471 38.287 21.225 36.235 20.789 37.120 20.339 37.334 20.523 48.250 19.474 37.222 18.884 18.903 37.104 19.547 48.208 20.529 37.324 20.334 37.274 20.769 36.178 21.211 38.309 19.471 33.113 37.687 39.365 30.589 36.624 20.668 38.072 21.360 37.975 20.736 37.517 20.457 37.310 20.592 37.819 19.488 37.781 37.922 19.566 36.325 20.664 37.034 20.466 37.132 20.728 38.142 21.350 37.307 20.652 36.124 30.567 37.954 37.692 39.715 35.796 37.301 21.313 39.080 21.561 37.390 20.645 37.159 21.085 38.993 20.059 37.722 20.231 20.256 37.808 20.158 38.756 21.098 36.965 20.643 37.376 21.547 39.097 21.299 38.366 35.846 39.824 38.206 40.168 40.651 32.766 18.816 38.961 45.609 38.639

21. 52 6 37.535 20.655 37.596 20.992 38.188 20.041 37.570 37.502 20.109 37.346 21.048 38.816 20.627 37.816 21.512 38.914 45.703 39.024 18.793 32.784 42.930 39.188 38.494 39.535 34.058 19.507 38.396 21.493 38.439 20.881 36.715 20.755 38.130 20.453 36.963 19.812 19.830 37.005 20.525 36.521 20.769 37.524 20.844 38.070 21.493 38.425 19.522 34.077 39.588 37.310 40.340 31.143 35.031 19.548 37.660 21.352 38.098 20.924 38.268 20.835 38.377 20.314 46.347 46.368 20.351 38.443 20.888 38.154 20.898 38.269 21.340 37.708 19.569 35.102 31.027 39.048 35.204 40.745 38.785 34.322 19.512 38.743 45.644 39.511 22.041 37.188 21.367 36.976 21.016 21.034 37.003 21.397 37.215 22.050 39.504 45.574 38.699 19.516 34.701 38.926 41.316 35.661 39.030 39.033 35.070 19.481 38.169 21.482 39.522 22.009 38.762 21.626 45.406 44.269 21.654 38.751 22.017 39.307 21.461 38.600 19.446 35.037 39.068 39.468 39.352 30.690 33.862 18.866 37.932 20.926 38.469 21.712 36.664 20.450 20.457 36.638 21.719 38.488 20.898 38.563 18.797 33.723 32.923 40.941 35.373 39.395 39.713 32.727 35.558 36.507 19.600 37.474 19.600 36.619 36.905 19.606 37.410 19.577 36.436 35.475 32.704 39.597 39.684 36.695 37.621 41.998 40.065 30.552 33.481 33.713 31.586 32.531 32.471 31.564 33.689 34.211 30.427 39.969 42.816 39.242 39.246 38.243 37.711 37.945 37.043 37.120 36.816 37.090 37.070 36.712 37.926 39.061 37.762 39.836 m

.9 Figure D.2 IBrowns Ferry Unit I Cycle 9 EOC Exposure Distribution (17.4 GWdIMTU) (Continued) za"u CD 2

o0 eroc

m z

5.

.o 0,

2 -n CD T~. C

,-0(-

oOf 3

11 13 15 17 19 21 23 25 27 29 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8

6 4

2 48.203 43.627 45.266 44.280 44.529 45.008 44.197 44.138 44.022 43.773 44.251 44.147 44.525 47.018 44.383 48.647 46.424 37.435 39.269 38.978 37.858 37.266 37.280 38.352 38.990 36.873 37.360 46.392 49.567 45.621 41.148 46.831 46.7.14 39.376 41.379 42.2 09 24.155 43.001 22.7,36

42. 342 41.774 22.7;73 42.610 24.194 42.454 41.410 39.243 46.852

47. 162 42.301 47.691 39.742 39.190 22.140 44.524 24.302 44.620 25.554 41.954 24.624 24.490 41.646 26.363 44.635 24.054 43.303 22.865 40.317 38.147 47.915 46.957 46.689 40.152 24.046 42.338 24.526 45.159 25.848 44.392 26.590 51.372 50.210 25.823 44.444 26.714 44.767 24.274 44.728 24.833 39.967 46.510 48.397 42.840 46.747 45.856 39.591 24.013 43.415 52.033 45.456 25.688 43.857 24.736 42.233 24.215 24.216 42.313 24.793 43.364 25.812 44.748 52.041 44.370 24.087 39.127 46.351 48.705 41.376 48.054 38.480 40.632 24.105 43.014 25.292 43.451 24.571 44.117 24.698 44.383 24.278 53.855 53.473 24.280 43.901 24.755 44.320 24.662 43.396 25.294 43.716 24.119 39.177 39.824 46.740 44.184 46.573 39.013 24.137 43.566 26.452 43.651 24.491 44.698 24.569 43.967 24.167 42.766 23.765 23.639 42.197 24.402 43.653 24.497 43.748 24.657 45.144 25.596 43.509 24.846 39.596 46.645 43.003 46.744 49.159 39.141 22.114 43.703 52.048 44.447 24.638 44.482 24.551 44.373 24.247 43.668 23.919 43.418 43.553 23.802 44.317 24.481 42.752 24.455 44.828 24.788 44.020 52.209 44.809 22.812 39.340

49. 887 46.726 43.944 46.644 41.528 43.244 23.924 44.184 24.760 42.629 24.491 42.682 24.365 44.521 23.959 43.335 23.691 23.668 43.316 23.949 43.898 24.388 42.683 24.434 43.438 24.757 44.267 24.006 43.235 40.219 46.321 44.085 44.520 38.179 41.834 23.669 43.157 25.346 44.992 24.504 42.781 24.255 42.947 24.022 42.559 23.396 42.423 43.047 23.333 43.384 23.986 42.862 24.230 43.794 24.427 44.299 25.428 42.650 23.763 41.921 37.514 45.118 44.464 39.247 24.446 43.795 25.326 43.500 24.746 42.953 24.120 43.523 23.980 54.510 23.731 43.106 23.052 22.891 42.526 23.767 54.304 23.763 42.880 24.210 44.068 24.609 42.817 26.243 44.456 24.062 40.391 44.091 44.101 39.484 42.486 25.422 43.494 24.768 44.611 24.230 43.396 23.921 43.454 23.741 42.357 23.202 54.452 54.083 23.051 42.328 23.780 43.760 23.665 43.836 24.304 44.007 24.631 44.207 26.209 41.993 38.699 44.919 44.179 37.784 22.687 41.153 25.832 42.151 24.513 41.641 23.710 43.352 23.169 42.412 22.883 43.367 22.492 22.483 42.337 22.875 42.403 23.121 43.412 23.631 41.617 24.468 42.114 25.832 41.355 22.701 38.221 44.724 44.214 37.113 42.851 24.520 50.650 24.381 53.638 23.594 42.637 23.227 42.995 22.683 53.886 22.318 53.097 54.109 22.314 53.372 22.704 42.502 23.186 43.267 23.499 53.755 24.357 50.359 24.512 43.069 37.144 44.148 m

z

-u 0

Figure D.3 Browns Ferry Unit I Cycle 9 EOC Assembly Peak Rod Exposure Distribution (17.4 GWdIMTU) z (D S2?.SO 0C>

m z

-o 5"

-na CD 0

(D c CD COnz 0L (D

0O I-'

ou 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8

6 4

2 44.138 38.053 42.679 24.534 50.506 24.549 54.192 23.548 42.686 23.357 43.976 22.695 53.782 22.434 53.564 53.726 22.309 53.859 22.841 42.510 23.210 43.285 23.673 53.746 24.358 50.560 24.674 40.766 37.149 43.406 44.716 38.215 22.677 41.798 25.867 43.362 24.650 42.266 23.669 43.945 23.313 42.452 22.868 43.352 22.595 22.472 42.538 23.015 43.038 23.157 42.730 23.802 42.226 24.480 42.122 26.642 41.646 22.729 37.856 44.708 45.014 38.703 41.988 25.453 43.557 24.632 43.957 24.209 43.543 23.734 42.247 23.708 41.750 22.994 54.5'0 54.531 23.042 41.841 23.718 43.108 23.728 43.414 24.191 44.570 24.627 44.187 25.4:30 42.529 38.725 45.0154 44.406 39.804 24.068 43.857 25.382 42.845 24.612 42.824 24.109 43.612 23.828 54.311 23.655 42.598 22.808 22.836 43.082 23.707 54.173 23.820 42.897 24.088 42.988 24.602 43.377 25.333 44.479 24.031 39.331 44.062 45.583 38.107 42.592 23.728 44.659 26.284 44.932 24.512 43.171 24.416 43.556 23.965 44.141 23.424 44.670 43.182 23.370 42.570 24.200 42.278 24.274 44.124 24.679 44.405 25.389 43.560 23.945 41.930 37.640 44.134 43.855 46.961 42.631 42.222 23.985 44.266 24.932 42.707 24.508 43.568 24.555 44.289 23.913 43.977 23.750 23.664 44.043 24.172 44.507 24.400 43.369 24.674 43.309 24.786 44.247 24.251 44.269 41.612 46.305 44.153 46.525 48.501 39.113 22.179 43.753 52.006 43.990 24.735 43.643 24.486 42.780 24.290 44.252 23.786 42.990 42.866 23.855 43.139 24.353 43.798 24.473 43.899 24.693 44.196 52.232 43.760 22.159 39.324 50.126 47.830 43.386 46.518 39.611 24.190 43.175 25.703 44.286 24.569 42.552 24.516 44.062 24.208 42.802 23.650 23.683 42.236 24.266 42.407 24.518 43.253 24.556 44.318 25.697 43.234 24.190 39.105 46.684 42.646 48.201 37.974 40.019 24.810 43.117 25.398 43.746 24.826 45.170 24.723 43.866 24.443 53.540 53.896 24.335 44.622 24.921 44.859 24.664 44.213 26.190 42.766 24.161 40.483 39.657 47.123 41.603 47.571 45.849 39.570 24.737 43.528 52.078 44.763 26.627 43.429 24.762 43.584 24.381 24.276 42.359 24.940 44.079 25.783 44.731 51.852 43.891 24.076 39.717 46.629 48.872 42.959 47.061 45.972 39.914 24.132 42.436 24.255 45.502 25.891 43.869 25.820 51.371 50.270 25.805 43.814 25.882 44.615 24.251 43.568 24.116 40.587 46.005 47.801 46.681 38.096 39.361 22.232 43.093 24.049 44.037 25.589 42.074 24.495 24.483 41.913 25.578 44.052 24.042 43.433 22.184 39.204 40.134 47.654 42.093 47.074 46.663 39.424 42.502 42.300 24.199 42.592 22.655 42.041 41.856 22.754 42.982 24.597

42. 4 08 41.405 39.275 46.638 47.382 41.876 44.856 49.501 47.427 37.961 40.063 39.045 38.372 38.221 37.255 37.868 39.822 40.915 37.956 46.993 49.790 45.402 45.796 44.507 44.347 44.750 43.578 43.222 44.306 43.250 45.089 44.547 44.813 44.866 43.589 46.971 m

z-U Figure D.3 Browns Ferry Unit I Cycle 9 EOC Assembly Peak Rod Exposure Distribution (17.4 GWd/MTU)

(Continued) z

-D CD(o,

-0 o.-

M z-u 5"

p a-4 "0

0-n CD 0

0.=

(DC Ln.

c:

CD

(-

r-1 3

5 7

9 11 13 15 17 19 21 23 25 27 29 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8

6 4

2 58.407 54.522 55.789 55.086 53.138 53.758 52.892 51.722 52.836 52.266 55.163 52.791 55.520 56.773 52.897 58.003 57.616 45.732 50.366 50.348 48.823 47.985 48.058 49.459 50.465 47.282 45.450 57.541 60.281 55.562 50.655 55.3.66 57.718 49.267 51.601 53.895 31.231 56.366 29.976 54.652 53.848 30.021 55.913 31.285 53.5,47 51.7.12 49.120

57. 8!69 56.1:42 53.048 57.389 47.946 50.130 28.306 56.795 31.398 57.099 33.150 51.864 30.927 30.797 51.025 34.246 56.956 31.374 55.275 29.162 51.584 46.409 59.764 55.066 57.301 49.144 30.382 54.021 31.376 56.598 33.076 55.784 33.260 63.795 61.570 32.494 55.805 34.239 56.363 31.417 55.675 31.409 49.224 57.110 57.140 53.918 57.205 56.529 50.837 30.544 55.021 63.628 55.705 32.331 52.408 31.298 50.541 29.162 29.279 50.737 31.446 51.900 32.570 57.218 63.661 55.585 30.606 50.513 57.109 59.940 51.426 56.162 46.419 49.912 30.692 54.577 31.124 54.627 30.491 54.179 30.898 55.411 28.875 64.305 63.613 28.967 54.938 31.084 54.649 30.644 54.474 31.064 55.442 30.628 48.654 47.902 55.613 56.026 57.576 49.599 30.583 55.409 32.749 53.852 30.296 55.297 30.157 53.151 29.267 50.244 28.895 28.505 50.078 29.624 52.273 30.130 54.537 30.428 55.892 31.567 55.537 31.389 50.160 57.589 54.151 56.306 58.565 48.777 28.416 54.721 63.533 56.119 30.605 54.884 30.118 52.889 29.567 52.950 28.917 51.281 51.369 28.537 53.094 29.914 52.358 30.056 54.339 30.688 55.096 63.453 56.031 29.096 49.112 60.330 56.208 55.388 57.449 52.320 54.709 30.816 55.522 30.945 51.602 30.177 52.668 29.679 52.532 28.874 52.178 28.551 28.523 52.030 28.916 52.688 29.745 52.628 30.076 54.163 30.832 56.690 31.021 54.892 51.449 57.000 54.382 53.966 46.526 53.398 30.730 55.151 31.735 55.958 30.184 52.318 29.437 51.275 28.891 50.407 28.182 50.981 51.687 28.175 51.917 28.923 51.476 29.432 52.556 30.077 54.759 31.916 53.015 30.959 53.575 45.637 55.953 54.759 50.788 31.969 56.142 32.370 52.458 31.021 53.542 29.470 51.668 28.981 64.910 28.620 50.429 28.123 27.959 50.612 28.789 64.201 28.748 51.782 29.538 54.753 30.826 51.620 33.507 57.364 31.239 52.365 54.874 52.490 51.507 55.457 33.178 55.636 31.397 56.059 29.757 52.984 28.954 52.216 28.808 49.607 28.228 64.261 63.857 28.102 49.642 28.970 52.693 28.714 53.301 29.802 55.834 31.226 56.578 34.213 54.990 50.394 53.746 51.945 49.140 30.186 51.217 32.534 51.523 29.761 50.399 28.681 51.435 28.332 50.734 27.906 50.262 27.718 27.723 49.523 27.964 50.661 28.307 50.881 28.576 50.177 29.626 51.427 32.619 50.817 30.213 49.724 53.638 53.191 48.177 54.349 31.260 62.156 29.853 64.090 28.340 51.822 28.232 51.593 27.796 64.046 27.387 63.290 63.448 27.433 63.454 27.858 50.990 28.205 51.366 28.198 64.229 29.717 61.779 31.272 54.751 48.229 52.510 M

z-u Figure DL4 Browns Ferry Unit I Cycle 9 EOC Assembly Peak Pellet Exposure Distribution (17.4 GWdIMTU)

,u oo z

CO 0-D z~

<. U

m z-u 5.

.o n0 C

0

,< ")

0 -n W (D (D

LA C:

(D 0o r-31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 60 52.621 58 49.137 56 54.021 54 31.300 52 61.990 50 30.011 48 64.967 46 28.285 44 51.774 42 28.385 40 51.729 38 27.799 36 64.012 34 27.536 32 63.826 30 62.790 28 27.410 26 64.014 24 28.019 22 51.130 20 28.235 18 51.513 16 28.415 14 64.181 12 29.738 10 61.969 8

31.522 6

50.527 4

48.456 2

52.063 53.478 49.533 29.933 52.131 32.660 53.044 29.948 50.570 28.635 52.207 28.487 50.621 27.894 50.007 27.848 27.696 49.310 28.101 50.554 28.348 51.852 28.789 50.216 29.627 51.465 33.567 51.683 30.294 49.402 53.266 53.890 50.381 54.976 33.328 55.813 31.345 55.498 29.778 52.850 28.735 50.842 28.7166 50.179 28.012 64.518 64.400 28.051 50.018 28.827 52.474 28.7T65 53, 667 29.676 56.641 31.1:74 56.675 33.201 55.768

50. 539 53.113 54.730 51.479 31.338 56.413 32.549 51.936 30.983 53.387 29.513 51.676 28.736 64.922 28.567 50.481 27.867 27.893 50.373 28.635 64.344 28.778 51.894 29.408 53.566 30.790 52.298 32.347 57.487 31.198 51.087 54.858 56.604 46.451 53.799 31.032 55.933 33.139 55.735 30.292 53.220 29.727 51.445 28.854 51.782 28.281 52.272 51.584 28.174 50.536 29.149 51.669 29.500 52.473 30.399 55.133 31.778 56.039 30.929 53.501 45.811 53.441 54.052 57.860 53.856 54.381 31.114 56.417 31.332 51.910 30.300 52.179 29.991 53.082 28.850 51.790 28.690 28.521 51.969 29.163 52.665 29.775 52.497 30.412 52.362 30.960 55.761 31.014 56.140 52.718 56.913 55.839 56.279 58.067 48.841 28.590 54.791 63.454 55.743 30.937 53.992 30.238 52.636 29.685 52.929 28.528 51.492 51.466 28.556 52.812 29.791 53.348 30.118 54.262 30.702 55.598 63.518 54.820 28.423 49.020 60.714 57.684 54.852 57.576 50.537 30.749 55.110 31.947 55.357 30.593 51.232 30.260 53.382 29.374 50.270 28.496 28.494 50.286 29.494 50.822 30.170 53.884 30.417 55.017 31.828 55.009 30.610 49.622 57.655 52.593 56.367 45.706 49.224 31.696 54.537 31.423 55.190 31.015 55.838 31.046 54.750 29.147 63.783 64.386 29.056 55.661 31.335 55.396 30.686 55.559 32.297 53.901 30.755 49.573 47.775 56.128 51.883 57.331 56.602 51.164 31.579 55.361 63.793 56.901 33.654 51.968 31.414 52.239 29.416 29.389 50.762 31.666 52.724 32.574 56.292 63.764 55.778 30.645 51.274 57.359 60.084 53.994 55.200 56.574 49.182 30.613 54.327 31.456 57.326 33.225 55.143 32.408 63.851 61.696 32.449 55.099 33.224 56.033 31.423 54.328 30.527 49.805 56.432 56.846 56.617 46.532 50.575 28.540 55.017 31.451 56.207 33.258 52.231 30.801 30.819 51.481 33.268 56.288 31.396 55.582 28.427 50.071 48.599 59.123 52.894 55.648 57.727 49.485 53.018 53.368 31.352 55.799 29.693 53.945 54.042 30.031 56.133 32.081 53.422 51.609 49.244 57.598 55.779 53.386 53.742 58.883 58.884 46.421 51.914 50.396 49.355 49.179 47.947 48.761 51.514 51.991 46.370 58.290 60.256 55.274 55.473 55.386 53.150 55.142 52.504 51.867 52.131 52.050 54.046 53.220 55.127 55.322 54.261 56.762 m

zMv Figure D.4 Browns Ferry Unit 1 Cycle 9 EOC Assembly Peak Pellet Exposure Distribution (17.4 GWd/MTU)

(Continued) z CD CO (0 0

<b CD

z

~0 5.p

-n CD (D C-00 0

(D 0

C-1 3

5 11 13 15 17 19 21 23 25 27 29 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8

6 4

2 0.420 0.482 0.551 0.591 0.567 0.547 0.530 0.527 0.549 0.569 0.598 0.560 0.484 0.418 0.516 0.647 0.797 0.899 0.923 0.920 0.882 0.836 0.837 0.885 0.928 0.928 0.906 0.799 0.636 0.509 0.372 0.552 0.774 0.977 1.054 1.092 1.100 1.055 1.009 0.783 0.784 1.013 1.061 1.110 1.104 1.060 0.989 0.782 0.562 0.376 0.524 0.819 1.000 1.106 1.163 1.196 1.170 1.157 1.082 0.842 0.844 1.085 1.162 1.177 1.203 1.171 1.115 1.009 0.835 0.546 0.575 0.749 0.953 1.078 1.154 1.218 1.198 1.216 1.187 1.136 0.975 0.988 1.140 1.192 1.221 1.204 1.226 1.169 1.088 0.961 0.754 0.569 0.371 0.529 0.753 0.920 0.994 1.082 1.138 1.209 1.189 1.164 1.160 1.122 1.049 1.050 1.125 1.164 1.169 1.195 1.217 1.144 1.096 1.001 0.921 0.756 0.546 0.379 0.537 0.558 0.785 0.831 1.007 0.956 1.084 0.996 1.086 0.813 0.884 0.883 0.883 1.173 1.150 1.164 1.173 0.951 0.968 0.946 0.960 1.149 1.151 1.099 1.124 0.768 0.857 0.777 0.857 1.101 1.125 1.151 1.151 0.949 0.958 0.955 0.970 1.168 1.178 1.178 1.155 0.887 0.884 0.815 0.886 0.999 1.088 0.960 1.086 0.827 1.010 0.564 0.786 0.538 0.430 0.645 0.992 1.112 1.159 1.138 1.175 1.150 1.211 1.233 1.221 1.210 1.207 1.171 1.125 1.126 1.172 1.207 1.211 1.229 1.235 1.212 1.154 1.177 1.139 1.161 1.114 0.993 0.640 0.428 0.485 0.801 1.055 1.166 1.220 1.211 1.164 1.179 1.233 1.284 1.284 1.274 1.242 1.184 1.104 1.104 1.183 1.242 1.274 1.285 1.284 1.233 1.175 1.165 1.213 1.222 1.169 1.059 0.801 0.484 0.555 0.901 1.093 1.196 1.196 1.189 0.950 0.968 1.228 1.284 1.304 1.277 1.246 1.144 0.799 0.799 1.143 1.237 1.277 1.303 1.284 1.227 0.967 0.950 1.191 1.203 1.198 1.094 0.900 0.552 0.593 0.564 0.919 0.919 1.100 1.056 1.169 1.157 1.215 1.186 1.164 1.158 0.944 1.148 0.954 1.148 1.209 1.212 1.279 1.241 1.277 1.238 1.127 1.223 1.224 1.209 1.137 1.152 0.781 0.997 0.781 0.997 1.136 1.152 1.223 1.209 1.130 1.222 1.276 1.232 1.278 1.238 1.207 1.203 0.954 1.145 0.943 1.145 1.163 1.158 1.217 1.186 1.170 1.157 1.100 1.056 0.919 0.921 0.593 0.565 0.544 0.530 0.882 0.837 1.009 0.786 1.086 0.841 1.136 0.988 1.121 1.048 1.097 0.774 1.127 0.853 1.169 1.117 1.183 1.102 1.143 0.796 1.138 0.783 1.153 1.015 1.146 1.123 1.119 1.007 1.119 1.004 1.148 1.122 1.153 1.015 1.136 0.782 1.140 0.796 1.176 1.099 1.166 1.114 1.123 0.850 1.094 0.762 1.118 1.045 1.135 0.985 1.083 0.840 1.009 0.783 0.882 0.836 0.549 0.528 m

z-o Figure D.5 Browns Ferry Unit I Cycle 9 Radial Power Distribution at 0.0 MWd/MTU S

0 0

CD C

Xi C:

0 m

(

z

-a C -n CD 0 (D

.C:

31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 60 0.528 0.551 0.566 0.595 0.554 0.488 0.427 c

58 0.838 0.884 0.923 0.922 0.904 0.806 0.657 0.542 gD 56 0.785 1.011 1.059 1.104 1.102 1.060 0.997 0.788 0.561 0.375 Q0 54 0.841 1.087 1.160 1.173 1.200 1.177 1.116 1.011 0.832 0.528 52 0.987 1.137 1.189 1.219 1.206 1.224 1.162 1.086 0.957 0.755 0.576 50 1.049 1.120 1.160 1.166 1.192 1.214 1.141 1.088 0.998 0.919 0.750 0.533 0.373 48 0.766 1.097 1.148 0.945 0.952 1.167 1.179 0.886 0.817 0.996 0.955 0.831 0.557 46 0.853 1.126 1.148 0.955 0.969 1.181 1.154 0.884 0.886 1.086 1.083 1.006 0.779 0.520 44 1.116 1.168 1.205 1.209 1.229 1.235 1.215 1.154 1.178 1.143 1.160 1.112 0.989 0.644 0.428 42 1.101 1.178 1.240 1.280 1.286 1.286 1.236 1.185 1.168 1.215 1.223 1.175 1.060 0.803

'0.486 40 0.798 1.143 1.244 1.277 1.304 1.286 1.231 0.971 0.954 1.193 1.201 1.200 1.101 0.903 0.559 38 0.783 1.138 1.223 1.128 1.278 1.274 1.212 0.962 0.948 1.167 1.219 1.173 1.102 0.923 0.595 36 1.016 1.153 1.210 1.222 1.237 1.242 1.209 1.153 1.151 1.163 1.189 1.159 1.056 0.919 0.565 34 1.123 1.146 1.151 1.135 1.143 1.184 1.173 1.126 1.102 1.126 1.138 1.083 1.009 0.881 0.547 32 1.008 1.119 0.997 0.780 0.796 1.106 1.128 0.859 0.778 1.051 0.978 0.843 0.783 0.835 0.526 x

30 1.005 1.120 0.997 0.781 0.797 1.107.

1.128 0.860 0.778 1.052 0.990 0.843 0.783 0.835 0.529 m

28 1.122 1.148 1.153 1.138 1.146 1.187 1.174 1.127 1.102 1.127 1.139 1.085 1.011 0.883 0.547 26 1.017 1.154 1.211 1.225 1.248 1.244 1.217 1.152 1.152 1.164 1.192 1.160 1.057 0.922 0.568 24 0.782 1.138 1.223 1.131 1.278 1.275 1.210 0.959 0.949 1.168 1.220 1.174 1.103 0.920 0.592 Z

22 0.797 1.141 1.236 1.276 1.304 1.284 1.222 0.969 0.954 1.194 1.202 1.200 1.099 0.900 0.552 20 1.100 1.179 1.239 1.279 1.284 1.284 1.234 1,177 1.167 1.216 1.224 1.168 1.057 0.798 0.482 18 1.114 1.166 1.204 1.207 1.227 1.234 1.211 1.153 1.177 1.142 1.166 1.112 0.986 0.634 0.417 16 0.850 1.123 I.i45 0.954 0.968 1.179 1.152 0.885 0.887 1.089 1.086 1.007 0.778 0.506 14 0.763 1.094 I.i44 0.943 0.950 1.165 1.176 0.886 0.819 1.000 0.960 0.826 0.559 12 1.045 1.117 1.157 1.162 1.190 1.212 1.138 1.088 1.000 0.925 0.756 0.552 0.375 10 0.984 1.133 1.184 1.215 1.197 1.220 1.161 1.087 0.961 0.759 0.578 8

0.839 1.083 1.155 1.168 1.196 1.167 1.114 1.012 0.837 0.552 6

0.781 1.007 1.054 1.099 1.092 1.054 0.993 0.788 0.567 0.379 4

0.834 0.880 0.919 0.917 0.901 0.800 0.640 0.542 2

0.530 0.545 0.562 0.593 0.554 0.485 0.428 Figure D.5 Browns Ferry Unit I Cycle 9 Radial Power Distribution at 0.0 MWdIMTU (Continued) z 0 0

-n 0 m

0=

z G(DO CD 1

3 5

7 9

11 13 15 17 19 21 23 25 27 29 60 0.217 0.270 0.334 0.377 0.371 0.374 0.376 c, 0 58 0.290 0.366 0.495 0.624 0.678 0.702 0.720 0.713 0 9._

56 0.209 0.322 0.493 0.663 0.730 0.821 1.008 0.887 1.019 0.888

-D 54 0.327 0.575 0.724 0.924 0.886 1.084 0.994 1.187 1.044 1.142 CO 52 0.339 0.530 0.744 0.987 0.906 1.124 1.060 1.288 1.124 1.284 0.978 1

50 0.206 0.320 0.526 0.754 1.018 0.950 0.935 1.069 1.326 1.186 1.329 1.163 1.276 0

48 0.315 0.557 0.740 1.016 0.982 1.210 1.092 1.288 1.192 1.383 1.228 1.366 1.052 46 0.267 0.482 0.717 0.980 0.945 1.210 1.110 1.308 1,201 1.401 1.254 1.421 1.251 1.407 44 0.208 0.361 0.649 0.911 0.900 0.929 1.096 1.314 1.213 1.409 1.261 1.450 1.279 1.461 1.273 42 0.263 0.485 0.718 0.870 1.105 1.050 1.286 1.185 1.402 1.261 1.444 1.277 1.465 1.285 1.469 40 0.323 0.611 0.803 1.060 1.029 1.294 1.176 1.383 1.226 1.424 1.262 1.431 1.260 1.453 1.266 38 0.367 0.661 0.986 0.972 1.252 1.151 1.361 1.233 1.418 1.245 1.423 1.089 1.423 1.243 1.412 36 0.363 0.685 0.864 1.161 1.100 1.305 1.215 1.407 1.250 1.446 1.266 1.422 1.229 1.372 1.074 34 0.367 0.703 0.997 1.016 1.259 1.145 1.354 1.229 1.437 1.265 1.442 1.236 1.366 1.147 1.285 32 0.366 0.695 0..868 1.118 0.948 1.255 1.026 1.384 1.252 1.439 1.266 1.398 1.050 1.273 0.935 30 0.364 0.694 0.868 1.118 0.957 1.256 1.036 1.385 1.252 1.438 1.258 1.397 1.049 1.273 0.932 m0 28 0.366 0.702 0.997 1.014 1.260 1.146 1.356 1.230 1.437 1.264 1.438 1.232 1.365 1.153 1.285 26 0.360 0.684 0.863 1.161 1.102 1.307 1.218 1.411 1.252 1.444 1.247 1.416 1.227 1.371 1.075 24 0.365 0.647 0.985 0.972 1.252 1.153 1.365 1.252 1.421 1,243 1.420 1.088 1.420 1.241 1.413 z

22 0.324 0.609 0.802 1.060 1.029 1.296 1.180 1.389 1.242 1.425 1.256 1.426 1.247 1.450 1.278 "0

20 0.262 0.482 0.717 0.869 1.106 1.054 1.288 1.196 1.403 1.259 1.441 1.273 1.460 1.278 1.467 18 0.205 0.353 0.649 0.912 0.901 0.930 1.096 1.312 1.204 1.405 1.255 1.445 1.267 1.456 1.269 16 0.263 0.484 0.720 0.983 0.950 1.207 1.093 1.302 1.189 1.396 1.252 1.417 1.247 1.402 14 0.321 0.575 0.744 1.017 0.977 1.206 1.089 1.284 1.190 1.380 1.224 1.362 1.038 12 0.211 0.339 0.528 0.754 1.018 0.948 0.932 1.068 1.326 1.184 1.327 1.160 1.272 10 0.334 0.531 0.750 0.986 0.906 1.126 1.074 1.289 1.124 1.281 0.975 8

0.339 0.564 0.723 0.924 0.888 1.087 0.995 1.186 1.041 1.141 6

0.212 0.324 0.492 0.664 0.737 0.822 1.007 0.886 1.018 0.882 4

0.290 0.364 0.495 0.623 0.672 0.702 0.719 0.713 2

0.216 0.269 0.331 0.376 0.371 0.378 0.376 Figure D.6 Browns Ferry Unit I Cycle 9 Radial Power Distribution at 16,857.4 MWdIMTU (EOFP) zM 0.

m

()

z

.<(1) n CD (D p

CD Ln. C:

31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 60 0.375 0.379 0.371 0.376 0.331 0.271 0.215 m

0 58 0.714 0.721 0.703 0.672 0.624 0.497 0.372 0.293 6

56 0.892 1.020 0.887 1.008 0.820 0.733 0.667 0.496 0.323 0.212 54 1.143 1.044 1.188 0.996 1.088 0.900 0.929 0.728 0.576 0.327 52 0.977 1.284 1.127 1.291 1.068 1.129 0.911 0.992 0.748 0.534 0.342 "0

50 1.276 1.163 1.331 1.188 1.330 1.073 0.940 0.955 1.024 0.760 0.531 0.330 0.211 48 1.043 1.367 1.230 1.386 1.197 1.293 1.100 1.217 0.993 1.023 0.747 0.577 0.321 46 1.407 1.251 1.422 1.258 1.405 1.206 1.314 1.113 1.219 0.952 0.988 0.724 0.487 0.270 44 1.272 1.460 1.271 1.452 1.262 1.415 1.224 1.325 1.107 0.938 0.908 0.918 0.655 0.360 0.213 42 1.469 1.283 1.467 1.279 1.447 1.263 1.411 1.214 1.297 1.059 1.112 0.881 0.723 0.489 0.266 40 1.279 1.455 1.273 1.433 1.260 1.429 1.245 1.392 1.182 1.301 1.032 1.065 0.807 0.614 0.329 38 1.413 1.243 1.425 1.089 1.422 1.242 1.422 1.237 1.366 1.155 1.256 0.975 0.989 0.665 0.370 36 1.075 1.372 1.230 1.418 1.246 1.443 1.252 1.410 1.218 1.309 1.103 1.164 0.866 0.686 0.363 34 1.284 1.147 1.363 1.229 1.435 1.262 1.437 1.230 1.358 1.148 1.262 1.017 1.000 0.704 0.368 32 0.935 1.272 1.047 1.392 1.245 1.435 1.251 1.387 1.038 1.259 0.952 1.121 0.872 0.697 0.365 30 0.933 1.273 1.048 1.393 1.244 1.437 1.253 1.388 1.039 1.259 0.961 1.121 0.870 0.697 0.367 m

28 1.286 1.152 1.366 1.234 1.440 1.266 1.441 1.233 1.359 1.149 1.263 1.017 0.999 0.704 0.367 26 1.077 1.373 1.229 1.422 1.267 1.449 1.268 1.414 1.221 1.309 1.104 1.163 0.865 0.686 0.364 24 1.414 1.243 1.423 1.091 1.425 1.247 1.424 1.254 1.368 1.155 1.254 0.973 0.986 0.657 0.367 Z

22 1.279 1.452 1.257 1.430 1.262 1.427 1.231 1.391 1.182 1.298 1.031 1.061 0.803 0.609 0.322 20 1.467 1.282 1.463 1.276 1.445 1.262 1.406 1.198 1.291 1.056 1.107 0.870 0.718 0.483 0.262 18 1.269 1.457 1.269 1.448 1.260 1.411 1.214 1.317 1.099 0.931 0.901 0.912 0.649 0.353 0.205 16 1.402 1.248 1.418 1.253 1.400 1.201 1.309 1.111 1.212 0.947 0.981 0.718 0.481 0.262 14 1.038 1.363 1.225 1.382 1.191 1.288 1.093 1.212 0.988 1.018 0.742 0.560 0.317 12 1.273 1.160 1.327 1.184 1.326 1.070 0.934 0.951 1.020 0.756 0.528 0.340 0.208 10 0.975 1.282 1.124 1.288 1.068 1.126 0.907 0.989 0.746 0.532 0.339 8

1.142 1.045 1.187 0.994 1.085 0.887 0.925 0.726 0.577 0.342 6

0.901 1.021 0.887 1.008 0.821 0.730 0.664 0.494 0.327 '0.213 4

0.714 0.721 0.704 0.678 0.624 0.495 0.364 0.293 2

0.377 0.376 0.370 0.378 0.333 0.271 0.216 Figure D.6 Browns Ferry Unit I Cycle 9 Radial Power Distribution at 16,857.4 MWd/MTU (EOFP) (Continued)

(C CO.

0~~

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page E-1 Appendix E Browns Ferry Unit I Cycle 8 EOC Projection Control Rod Patterns and Core Average Axial Power and Exposure Distributions AREVA NP Inc.

AREVA NP Browns Ferry Unit I Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page E-2 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 8

15645.2 (2133.00 213.0 (

29.05 3458.0 (100.00 %)

1048.8

-29.31 96.23 ( 93.88 %)

Core Average Exposure: MWd/MTU 22925.0 1

3 5

7 9 11 13 1

3 5

7 14 --

9 11 -------- 14 6

13-15 14 6

10 --

17-19..

..- 14 6 --

21------

23

..- 14 25 27 29 IR: 2 6 10 14 18 22 26 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psiz Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%W Source Convergence 15 17 19 21 23 25 27 14 6

14 10 6

10 6

14 10 --

6 --

14

-- 6 -- 14.

29 59 55 51 47 43 39 35 31 27 23 19 15 11 7

3 58 N (PRA Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Axial Profile Power Exposure 0.173 4.476 0.567 11.833 0.790 16.717 0.955 19.909 1.044 22.343 1.095 23.869 1.113 24.638 1.111 24.683 1.074 24.722 1.025 24.265 1.004 24.692 1.068 23.677 1.061 24.614 1.062 25.610 1.069 26.475 1.086 27.105 1.115 27.283 1.148 27.929 1.184 28.801 1.221 29.563 1.262 29.645*

1.294* 28.080 1.240 23.629 0.960 16.143 0.279 4.431 Edit Radial Power Zone Avg.

Max.

IR JR 3

0.403 0.622 49 52 4

0.767 0.793 27 38 5

1.053 1.230 15 16 6

1.094 1.282 45 46 7

0.961 1.137 19 42 9

0.860 0.889 37 58 10 0.972 1.219 47 18 11 0.916 1.124 37 20 12 0.413 0.535 43 58 13 1.112 1.170 41 16 14 1.154 1.355 41 52 15 1.172 1.331 13 20 16 1.281 1.379 45 18 17 1.171 1.264 47 50 18 1.195 1.402 45 48 6

14 14 30 34 38 42 46 50 54 10.56 0.99720 Bottom 1

0.413 21.700

%AXIAL TILT

-7.

17.161 AVG BOT 8ft/12ft 1.0 547.7 81.38 Active Channel Flow: Mlb/hr 15.4 (of total core flow)

-0.0 (of total core flow) 0.00007

.946

-8.045 0319 1.0438 81.38 Top Ten Thermal Limits Summary -

Sorted by Margin Power Value FT IR JR 1.402 18 45 48 1.399 18 47 46 1.379 16 45 18 1.378 16 43 46 1.368 16 43 50 1.368 16 11 18 1.358 18 37 52 1.355 14 41 52 1.354 14 9 20 1.351 18 9 24 Value 1.662 1.668 1.703 1.708 1.708 1.709 1.710 1.711 1.727 1.728 MCPR Margin FT 0.866 18 0.863 18 0.846 18 0.843 16 0.843 16 0.843 16 0.842 16 0.842 18 0.834 14 0.833 14 IR JR 45 48 47 46 37 52 15 18 43 46 17 50 49 18 51 24 9 20 41 10 APLHGR Value Margin Exp.

FT 8.07 0.652 25.0 18 7.99 0.646 25.1 18 7.98 0.638 23.9 16 8.00 0.637 23.4 14 7.82 0.635 25.6 16 7.86 0.632 24.4 16 7.67 0.625 25.9 16 7.76 0.624 24.6 14 7.72 0.623 24.9 18 6.63 0.622 40.2 6

IR JR 45 48 47 46 43 50 41 52 45 50 11 18 49 46 9 20 41 54 45 46 K

4 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp.

FT 8.72 0.747 31.1 16 8.85 0.746 29.5 18 8.74 0.746 30.9 14 8.83 0.744 29.5 16 8.57 0.743 32.5 16 8.81 0.743 29.5 18 8.68 0.742 30.9 16 8.75 0.733 28.9 18 8.55 0.733 31.2 18 8.65 0.732 29.9 16 IR JR 17 50 45 48 41 10 45 50 39 8

47 46 49 18 41 54 23 10 49 46 K

4 4

4 4

4 4

4 4

4 4

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure E.1 Browns Ferry Unit 1 Cycle 8 Control Rod Pattern and Axial Distributions at 15,645.2 MWdiMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page E-3 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 8

16177.9 (2205.60 194.5 ( 26.51 3458.0 (100.00 %)

1048.2

-30.37 92.61 ( 90.35 %)

Core Average Exposure: MWd/MTU 23457.7 Axial Profile 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 13 5

7 12 9

11 6

6 -"

13------

15.

12 6

0 -"

17-19 6

6 -

21------

23 12 25 27 29 IR: 2 6 10 14 18 22 26 3 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psia Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 12 6

6 6

0 6 --

6 6--

12 0 34 38 42 46 12..

50 54 58 N (PRA)

Top 25 24 23 22 21 59

JR 20 55 19 51 18 47 17 43 16 39 15 35 14 31 13 27 12 23 11 19 10 15 9

11 8

7 7

3 6

5 4

3 2

Bottom 1

Power Exposure 0.140 4.592 0.457 12.116 0.638 17.112 0.772 20.390 0.850 22.871 0.904 24.428 0.943 25.214 0.969 25.258 0.992 25.298 0.994 24.832 1.007 25.259 1.099 24.209 1.111 25.148 1.126 26.150 1.143 27.023 1.167 27.664 1.199 27.860 1.234 28.526 1.270 29.418 1.312 30.205 1.368 30.317*

1.429* 28.783 1.412 24.320 1.129 16.690 0.333 4.589 Edit Zone 3

4 5

6 7

9 10 12 13 14 15 16 17 18 Radial Power Avg.

Max.

IR JR 0.404 0.604 49 52 0.640 0.733 37 28 1.098 1.248 39 52 1.048 1.266 45 46 0.955 1.223 39 48 0.857 0.901 35 58 0.955 1.227 43 48 0.943 1.129 37 20 0.408 0.526 43 58 1.073 1.223 41 16 1.111 1.372 41 52 1.167 1.404 41 48 1.268 1.400 39 50 1.175 1.241 47 50 1.247 1.398 37 52 8.24 0.99744 0.442 20.832 16.293 547.8 77.97 15.8

-0.0 0.00006

% AXIAL TILT -18.235

-8.039 AVG BOT 8ft/12ft 1.1062 1.0437 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 77.97 Top Ten Thermal Limits Summary - Sorted by Margin Power Value FT IR JR 1.404 15 41 48 1.400 16 39 50 1.398 18 37 52 1.393 18 45 48 1.390 16 43 46 1.382 18 47 46 1.379 16 43 50 1.378 16 11 22 1.378 15 13 20 1.374 16 45 18 MCPR Value Margin FT 1.666 0.864 15 1.669 0.863 18 1.691 0.852 16 1.691 0.851 18 1.705 0.845 18 1.714 0.840 16 1.718 0.838 14 1.719 0.838 16 1.723 0.836 15 1.729 0.833 18 IR JR 41 48 37 10 39 50 45 48 47 46 43 50 41 10 43 46 13 20 9 24 APLHGR Value Margin Exp.

FT 8.47 0.685 25.0 18 8.46 0,680 24.4 14 8.32 0.679 26.1 18 8.39 0.678 25.0 16 8.36 0.674 24.7 16 8.13 0.671 27.3 18 8.20 0.670 26.2 18 8.17 0.668 26.3 18 8.23 0.668 25.4 16 8.17 0.666 25.9 15 IR JR 37 52 41 52 45 48 43 50 39 50 37 54 47 46 35 54 11 18 41 48 K

4 4

4 4

4 4

4 4

4 4

LHGR Value Margin Exp. FT 9.33 0.806 32.0 14 9.33 0.806 32.0 16 9.07 0.797 33.7 16 9.08 0.795 33.4 16 9.16 0.794 32.4 18 9.04 0.793 33.6 18 9.04 0.787 32.8 16 9.01 0.785 32.9 14 9.00 0.784 33.0 18 7.75 0.780 46.4 5

IR JR 41 10 39 50 39 8

17 50 23 10 25 8

49 18 9 42 23 8

39 52 K

4 4

4 4

4 4

4 4

4 4

• LHGR calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure E.2 Browns Ferry Unit I Cycle 8 Control Rod Pattern and Axial Distributions at 16,177.9 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Page E-4 Cycle:

Exposure: MWd/MTU (GWd)

Delta E: MWd/MTU, (GWd)

Power: MWt Core Pressure: psia Inlet Subcooling: Btu/lbm Flow: Mlb/hr 8

16533.0 (2254.10 355.1 (

48.41 3458.0 (100.00 %)

1048.7

-29.55 95.39 ( 93.06 %)

Core Average Exposure: MWd/MTU 23812.9 1

3 5

7 9 11 13 15 17 19 21 23 25 27 29 1

59 3

55 5

51 7

12 --

12 47 9

43 11i -----------

6 6--

6 6

39 13 35 15...

12 6

0 0

6 --

12..

31 17 27 19 6-6 6

6 6 ----------

23 21 19 23 12 --

12 15 25 11 27 7

29 3

IR: 2 6 10 14 18 22 26 30 34 38 42 46 50 54 58 N(PRA)

Top 25 24 23 22 21 JR 20 19 18 17 16 15 14 13 12 11 10 9

8 7

6 5

4 3

2 Bottom 1

Axial Profile Power Exposure 0.145 4.664 0.474 12.292 0.660 17.358 0.798 20.689 0.876 23.199 0.931 24.778 0.970 25.579 0.995 25.627 1.017 25.675 1.017 25.210 1.029 25.642 1.121 24.572 1.131 25.515 1.145 26.522 1.159 27.400 1.178 28.049 1.205 28.257 1.230 28.934 1.253 29.838 1.278 30.639 1.315 30.770*

1.359* 29.256 1.334 24.787 1.067 17.064 0.315 4.698 Edit Zone 3

4 5

6 7

9 10 11 12 13 14 15 16 17 18 Radial Power Avg.

Max.

IR JR 0.402 0.602 49 52 0.641 0.733 37 28 1.098 1.247 39 52 1.047 1.264 45 46 0.953 1.220 39 48 0.856 0.900 35 58 0.954 1.226 43 48 0.942 1.127 37 20 0.406 0.524 43 58 1.072 1.220 41 16 1.114 1.375 41 52 1.168 1.404 41 48 1.270 1.401 39 50 1.177 1.242 47 50 1.250 1.400 37 52 Control Rod Density: %

k-effective:

Void Fraction:

Core Delta-P: psla Core Plate Delta-P: psia Coolant Temp: Deg-F In Channel Flow: Mlb/hr Total Bypass Flow (%):

Total Water Rod Flow (%):

Source Convergence 8.24 0.99729 0.430 21.675 17.136 547.8 80.44 15.7

-0.0 0.00008

% AXIAL TILT -15.944

-8.075 AVG BOT 8ft/12ft 1.0945 1.0439 Active Channel Flow: Mlb/hr (of total core flow)

(of total core flow) 80.44 Top Ten Thermal Limits Summary -

Sorted by Margin Power Value FT IR JR 1.404 15 41 48 1.401 16 39 50 1.400 18 37 52 1.394 18 45 48 1.390 16 43 46 1.383 18 47 46 1.380 16 43 50 1.379 16 11 22 1.378 15 13 20 1.375 14 41 52 MCPR Value Margin FT 1.682 0.856 15 1.682 0.856 18 1.704 0.845 16 1.706 0.844 18 1.720 0.837 18 1.727 0.834 16 1.730 0.832 14 1.734 0.831 16 1.739 0.828 15 1.742 0.827 18 IR JR 41 48 37 10 39 50 45 48 47 46 43 50 41 10 43 46 13 20 9 24 APLHGR Value Margin Exp.

FT 8.10 0.659 25.8 18 8.10 0.656 25.2 14 8.02 0.652 25.7 16 7.94 0.652 26.8 18 7.99 0.648 25.4 16 7.76 0.645 28.0 18 7.82 0.643 26.9 18 7.80 0.642 27.0 18 7.85 0.641 26.2 16 7.79 0.639 26.6 15 IR JR 37 52 41 52 43 50 45 48 39 50 37 54 47 46 35 54 11 18 41 48 K

4 4

4 4

4 4

4 4

4 4

Value 8.89 8.89 8.63 8.74 8.63 8.60 8.58 8.59 8.56 7.39 LHGR Margin Exp. FT 0.774 32.8 16 0.774 32.8 14 0.764 34.5 16 0.763 33.1 18 0.762 34.2 16 0.761 34.4 18 0.754 33.8 18 0.753 33.6 16 0.752 33.7 14 0.749 47.1 5

IR JR 39 50 41 10 39 8

23 10 17 50 25 8

23 8

49 18 9 42 39 52 K

4 4

4 4

4 4

4 4

4 4

• LHGA calculated with pin-power reconstruction

• CPR calculated with pin-power reconstruction & CPR limit type 3

• Thermal limit file:

Figure E.3 Browns Ferry Unit 1 Cycle 8 Control Rod Pattern and Axial Distributions at 16,533.0 MWdlMTU AREVA NP Inc.

AREVA NP Browns Ferry Unit 1 Cycle 9 Fuel Cycle Design (105% OLTP)

ANP-2859(NP)

Revision 0 Distribution Controlled Distribution Richland JM Haun, 34 G

Touvannas, 34 E-Mail Notification DE ME DP DB AB RR MS SA Garber Garrett Jordheim McBurney Meginnis Schnepp Stricker Tylinski AREVA NP Inc.