0043-8325-SRLR, Revision 1, Supplemental Reload Licensing Report for Brown Ferry 1, Reload 6 Cycle 7, Cover Through Page 122

ML061450395
Person / Time
Site:	Browns Ferry
Issue date:	05/15/2006
From:	Global Nuclear Fuel
To:	Office of Nuclear Reactor Regulation
References
0000-0043-8325-SRLR, Rev 1
Download: ML061450395 (123)
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Text

Enclosure Browns Ferry Nuclear Plant (BFN)

UNIT 1 SUPPLEMENTAL RELOAD LICENSING REPORT CYCLE 7 OPERATION

GNFr Global Nuclear Fuel A Joint Venture of GE. Toshiba, & Hitachi 0000-0043-8325-SRLR Revision 1 Class I May 2006 Supplemental Reload Licensing Report for Browns Ferry 1 Reload 6 Cycle 7

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Important Notice Regarding Contents of This Report Please Read Carefully This report was prepared by Global Nuclear Fuel - Americas, LLC (GNF-A) solely for use by Tennessee Valley Authority ("Recipient") in support of the operating license for Browns Ferry 1 (the "Nuclear Plant"). The information contained in this report (the "Information") is believed by GNF-A to be an accurate and true representation of the facts known by, obtained by or provided to GNF-A at the time this report was prepared.

The only undertakings of GNF-A respecting the Information are contained in the contract between Recipient and GNF-A for nuclear fuel and related services for the Nuclear Plant (the "Fuel Contract") and nothing contained in this document shall be construed as amending or modifying the Fuel Contract. The use of the Information for any purpose other than that for which it was intended under the Fuel Contract, is not authorized by GNF-A. In the event of any such unauthorized use, GNF-A neither (a) makes any representation or warranty (either expressed or implied) as to the completeness, accuracy or usefulness of the Information or that such unauthorized use may not infringe privately owned rights, nor (b) assumes any responsibility for liability or damage of any kind which may result from such use of such information.

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BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Acknowledgement The engineering and reload licensing analyses, which form the technical basis of this Supplemental Reload Licensing Report, were performed by P. Stier, S. Lamb, D. Knepper and A. Enica. The Supplemental Reload Licensing Report was prepared by A. Enica. This document has been verified by J.

P. Rea.

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BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I The basis for this report is General Electric StandardApplicationfor Reactor Fuel, NEDE-2401 l-P-A-15, September 2005; and the U.S. Supplement, NEDE-2401 1-P-A-15-US, September 2005.

1. Plant-unique Items Appendix A: Analysis Conditions Appendix B: Decrease in Core Coolant Temperature Events Appendix C: Expanded Operating Domain Analyses Appendix D: Thermal Mechanical Compliance Appendix E: Variable Frequency Drives (VFD) Application Appendix F: List of Acronyms

2. Reload Fuel Bundles Cycle Number Fuel Type Loaded Irradiated:

GE 13-P9DTB391- 13GZ- iOOT-146-T6-3964 (GE 13) 12 56 GE 14-P 1ODNAB200-3GZ- IOOT- 150-T6-2609 (GE 14C) 13 36 New:

GE 14-P1ODNAB377-17GZ-I00T-150-T6-2897 (GEI4C) 7 32 GE 13-P9DTB I63-NOG- 100T- 146-T6-2888 (GEl 3) 7 52 GE 14-PIODNAB402-19GZ- lOOT- 150-T6-2896 (GE 14C) 7 24 GE I4-PI ODNAB368-15GZ- IOOT- 150-T6-2895 (GE 14C) 7 72 GEl 4-PI ODNAB419-16GZ- IOOT- 150-T6-2894 (GEl4C) 7 32 GE 14-P 0ODNAB I47-NOG- 1OOT-150-T6-2893 (GEI4C) 7 20 GE 14-P 1ODNAB350-16GZ- IOOT- I50-T6-2892 (GE l 4C) 7 32 GEl 4-P 1ODNAB402-16GZ-1OOT-150-T6-2891 (GEl4C) 7 32 GE 14-PI ODNAB377-16GZ- IOOT- 150-T6-2890 (GE 14C) 7 96 GE 14-P 1ODNAB 157-NOG- 1OOT- I50-T6-2889 (GEl 4C) 7 224 GE 13-P9DTB I56-NOG- IOOT- 146-T6-2887 (GE 13) 7 56 Total: 764

'The irradiated bundles were discharged from Browns Ferry 2 Cycle 13.

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BROWNS FERRY 1 0000-0043-8325-SRLR R~1n~d 6 Revkrinn 1

3. Reference Core Loading Pattern 23 Core Average Cycle Exposure Exposure 0 MWd/MT 0 MWd/MT Nominal previous end-of-cycle exposure: (0 MWd/ST) (0 MWd/ST)

Minimum previous end-of-cycle exposure (for cold 0 MWd/MT 0 MWd/MT shutdown considerations): (0 MWd/ST) (0 MWd/ST) 3967 MWd/MT 0 MWd/MT Assumed reload beginning-of-cycle exposure: (3599 MWd/ST) (0 MWd/ST)

Assumed reload end-of-cycle exposure (rated 19179 MWd/MT 15212 MWd/MT conditions): (17399 MWd/ST) (13800 MWd/ST)

Reference core loading pattern: Figure 1 0

4. Calculated Core Effective Multiplication and Control System Worth - No Voids, 20 C Beginning of Cycle, keffective Uncontrolled 1.104 Fully controlled 0.945 Strongest control rod out 0.981 R, Maximum increase in strongest rod out reactivity during the cycle (Ak) 0.003 14330 MWd/MT Cycle exposure at which R occurs (13000 MWd/ST)

5. Standby Liquid Control System Shutdown Capability Boron (ppm) Shutdown Margin (Ak)

(at 21(C) (at 160 0 C, Xenon Free Analytical Requirement Achieved 720 1>0.014 0.066 2 The nominal previous end-of-cycle exposure is zero because Browns Ferry I Cycle 7 is the first cycle of operation after a long shutdown period, and no fuel from the previous cycle is retained in the present cycle.

3 The 92 irradiated bundles placed on the core periphery are bundles discharged from Browns Ferry 2 End of Cycle 13 (EOC 13).

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BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1

6. Reload Unique GETAB Anticipated Operational Occurrences (AOO) Analysis Initial Condition Parameters 4 Operating domain: ICF (HBB)

Exposure range  : BOC to MOC (Application Condition: 1, 2, 3, 4, 5, 6 )

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.39 1.29 1.040 7.011 113.1 1.35 GEl3 1.45 1.39 1.29 1.020 6.990 105.6 1.28 Operating domain: ICF (HBB)

Exposure range  : MOC to EOC (Application Condition: 1,2,3,4,5,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.38 1.31 1.040 6.972 113.8 1.34 GE13 1.45 1.37 1.31 1.020 6.927 106.3 1.28 Operating domain: MELLLA (HBB)

Exposure range : BOC to MOC (Application Condition: 1,2,3, 4,5,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_____ (MWt) (1000 lb/hr) MCPR GE14C 1.45 1.36 1.29 1.040 6.853 106.9 1.36 GEl3 1.45 1.37 1.29 1.020 6.876 99.5 1.28 4 Exposure range designation is defined in Table 7-1. Application condition number is defined in Section 11.

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BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 Operating domain: MELLLA (HBB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_ _ __ (MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.36 1.30 1.040 6.849 107.2 1.35 GE13 1.45 1.36 1.30 1.020 6.842 100.0 1.28 Operating domain: ICF (UB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.53 1.40 1.040 7.705 106.6 1.28 GE13 1.45 1.51 1.40 1.020 7.625 100.0 1.22 Operating domain: MELLLA (UB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.51 1.45 1.040 7.620 100.0 1.27 GE13 1.45 1.47 1.45 1.020 7.420 94.6 1.23 Operating domain: ICF & FWTR (HBB)

Exposure range : BOC to MOC (Application Condition: 1, 2, 3, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.42 1.29 1.040 7.163 112.2 1.35 GE13 1.45 1.41 1.29 1.020 7.097 105.0 1.29 Page 7

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF & FWTITR (HBB)

Exposure range : MOC to EOC (Application Condition: 1, 2,3, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Local Radial Axial R-Factor Power Flow Design (MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.41 1.32 1.040 7.099 113.3 1.34 GE13 1.45 1.39 1.32 1.020 6.981 106.2 1.29 Operating domain: MELLLA & FWTR (HBB)

Exposure range : BOC to MOC (Application Condition: 1, 2, 3, 4, 5,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ (MWt) (1000 lb/hr) MCPR GE14C 1.45 1.40 1.29 1.040 7.030 105.9 1.35 GE13 1.45 1.39 1.29 1.020 6.998 98.8 1.28 Operating domain: MELLLA & FWTR (HBB)

Exposure range : MOC to EOC (Application Condition: 1,2,3,4, 5,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow

__esign (MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.38 1.31 1.040 6.950 106.9 1.35 GE13 1.45 1.37 1.31 1.020 6.909 99.7 1.29 Operating domain: ICF & FWTR (UB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.54 1.38 1.040 7.754 106.2 1.30 GE13 1.45 1.51 1 .38 1.020 7.600 100.1 1.24 Page 8

BROWNS FERRY I 0000-0043-8325-SRLR R pviinn 1 Operating domain: MELLLA & FWTR (UB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.53 1.43 1.040 7.668 99.7 1.28 GE13 1.45 1.50 1.43 1.020 7.542 93.8 1.23 Operating domain: ICF with RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 2, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_ ___(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.36 1.29 1.040 6.848 114.1 1.39 GEl3 1.45 1.35 1.29 1.020 6.815 106.7 1.32 Operating domain: ICF with RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design__ __(MvVt) (1000 lb/hr) MCPR GEI4C 1.45 1.35 1.31 1.040 6.818 114.7 1.38 GE13 1.45 1.34 1.31 1.020 6.754 107.4 1.32 Operating domain: MELLLA with RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 2, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_ ___(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.35 1.29 1.040 6.779 107.3 1.38 GE13 1.45 1.34 1.29 1.020 6.768 100.2 1.30 Page 9

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 Operating domain: MELLLA with RPTOOS (HBB)

Exposure range : MOC to EOC ( Application Condition: 2, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.34 1.30 1.040 6.753 107.8 1.37 GE13 1.45 1.34 1.30 1.020 6.725 100.7 1.30 Operating domain: ICF with RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow MCPR Design__ __(MWt) (1000 lb/hr)

GE14C 1.45 1.50 1.40 1.040 7.550 107.5 1.32 GE13 1.45 1.48 1.40 1.020 7.449 101.1 1.25 Operating domain: MELLLA with RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design__ __ (MVWt) (1000 lb/hr) MCPR GE14C 1.45 1.49 1.45 1.040 7.491 100.8 1.30 GE13 1.45 1.47 1.45 1.020 7.406 94.7 1.23 Operating domain: ICF & FWTR with RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 2, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.40 1.29 1.040 7.055 112.9 1.38 GE13 1.45 1.38 1.29 1.020 6.937 106.0 1.32 Page 10

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6~ Revision 1 Reload 6 Operating domain: ICF & FWTR with RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.39 1.32 1.040 6.979 114.0 1.37 GE13 1.45 1.36 1.32 1.020 6.824 107.2 1.33 Operating domain: MELLLA & FWTR with RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 2, 4, 5, 6 )

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design____ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.38 1.29 1.040 6.934 106.5 1.37 GE13 1.45 1.37 1.29 1.020 6.870 99.6 1.31 Operating domain: MELLLA & FWTR with RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Peaking Factors Fuel Bundle Bundle Initial Local Radial Axial R-Factor Power Flow Design (MWt) (1000 lb/hr) MCPR GE14C 1.45 1.37 1.31 1.040 6.879 107.3 1.37 GEl3 1.45 1 .35 1.31 1.020 6.794 100.5 1.31 Operating domain: ICF & FWVTR with RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.52 1.38 1.040 7.617 107.1 1.32 GE13 1.45 1.48 1.38 1.020 7.455 101.0 1.27 Page 11

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA & FWTR with RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.51 1.43 1.040 7.569 100.3 1.30 GE13 1.45 1.48 1.43 1.020 7.421 94.6 1.25 Operating domain: ICF with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6 )

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.35 1.29 1.040 6.799 114.4 1.40 GEl3 1.45 1.34 1.29 1.020 6.760 107.0 1.33 Operating domain: ICF with TBVOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.34 1.31 1.040 6.746 115.1 1.39 GE13 1.45 1.33 1.31 1.020 6.690 107.8 1.33 Operating domain: MELLLA with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.32 1.29 1.040 6.659 108.1 1.40 GE13 1.45 1.32 1.29 1.020 6.668 100.8 1.33 Page 12

BROWNS FERRY I 0000-0043-8325-SRLR Revision I Operating domain: MELLLA with TBVOOS (HBB)

Exposure range : MOC to EOC ( Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_____ (MNN't) (1000 lb/hr) MCPR GEI4C 1.45 1.32 1.30 1.040 6.629 108.5 1.40 GE13 1.45 1.31 1.30 1.020 6.623 101.3 1.33 Operating domain: ICF with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MNN't) (1000 lb/hr) MCPR GE14C 1.45 1.49 1.40 1.040 7.480 107.9 1.33 GEI3 1.45 1.46 1.40 1.020 7.367 101.6 1.27 Operating domain: MELLLA with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design__ (MWt) (1000 lb/hr) MCPR GE14C 1.45 1.47 1.45 1.040 7.383 101.4 1.32 GE13 1.45 1.44 1.45 1.020 7.260 95.6 1.26 Operating domain: ICF & FWTR with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_ _(MM't) (1000 lb/hr) MCPR GE14C 1.45 1.38 1.29 1.040 6.940 113.6 1.40 GEI3 1.45 1.37 1.29 1.020 6.900 106.2 1.33 Page 13

BROWNS FERRY I 0000-0043-8325-SRLR Rpuieinn 1 Operating domain: ICF & FWTR with TBVOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.37 1.32 1.040 6.882 114.6 1.39 GEI3 1.45 1.35 1.32 1.020 6.790 107.4 1.33 Operating domain: MELLLA & FWNTR with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow

__esign__ __(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.36 1.29 1.040 6.812 107.3 1.40 GE13 1.45 1.35 1.29 1.020 6.802 100.1 1.32 Operating domain: MELLLA & FWTR with TBVOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow

__esign__ __(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.35 1.31 1.040 6.763 108.0 1.40 GE13 1.45 1.34 1.31 1.020 6.748 100.8 1.32 Operating domain: ICF & FWTR with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design____ _(M,'t) (1000 lb/hr) MCPR GEI4C 1.45 1.49 1.38 1.040 7.511 107.8 1.35 GE13 1.45 1.48 1.38 1.020 7.422 101.2 1.28 Page 14

BROWNS FERRY I 0000-0043-8325-SRLR I01-o A Revision I Operating domain: MELLLA & FWTR with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.49 1.43 1.040 7.461 100.9 1.33 GE13 1.45 1.47 1.43 1.020 7.389 94.7 1.26 Operating domain: ICF with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_(MVt) (1000 lb/hr) MCPR GE14C 1.45 1.36 1.29 1.040 6.857 114.0 1.39 GE13 1.45 1.36 1.29 1.020 6.827 106.6 1.32 Operating domain: ICF with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design__ _(MNVt) (1000 lb/hr) MCPR GE14C 1.45 1.35 1.31 1.040 6.814 114.7 1.38 GEI3 1.45 1.34 1.31 1.020 6.756 107.4 1.32 Operating domain: MELLLA with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.35 1.29 1.040 6.775 107.4 1.38 GE13 1.45 1.35 1.29 1.020 6.776 100.1 1.30 Page 15

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_ ___(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.34 1.30 1.040 6.741 107.9 1.37 GE13 1.45 1.34 1.30 1.020 6.727 100.7 1.30 Operating domain: ICF with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design____(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.50 1.40 1.040 7.537 107.6 1.32 GE73 1.45 1.48 1.40 1.020 7.447 101.1 1.25 Operating domain: MELLLA with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6 Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design_ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.49 1.45 1.040 7.476 100.9 1.30 GEI3 1.45 1.47 1.45 1.020 7.410 94.7 1.23 Operating domain: ICF & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design____ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.41 1.29 1.040 7.094 112.7 1.37 GE13 1.45 1.40 1.29 1.020 7.030 105.4 1.30 Page 16

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.39 1.32 1.040 6.999 113.9 1.36 GEI3 1.45 1.37 1.32 1.020 6.912 106.6 1.31 Operating domain: MELLLA & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6 )

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design__ _ (MWt) (1000 lb/hr) MCPR GE14C 1.45 1.39 1.29 1.040 6.969 106.3 1.37 GE13 1.45 1.38 1.29 1.020 6.948 99.1 1.29 Operating domain: MELLLA & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.37 1.31 1.040 6.896 107.2 1.36 GE13 1.45 1.36 1.31 1.020 6.857 100.1 1.30 Operating domain: ICF & FWTR with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4,6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _ (MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.52 1.38 1.040 7.622 107.1 1.32 GE13 1.45 1.51 1.38 1.020 7.565 100.3 1.25 Page 17

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 Operating domain: MELLLA & FWTR with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6 )

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design____ _ (M'vt) (1000 lb/hr) MCPR GE14C 1.45 1.50 1.43 1.040 7.557 100.3 1.31 GE13 1.45 1.50 1.43 1.020 7.531 93.9 1.23 Operating domain: ICF with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5, 6 Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow

_esign__ _(MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.32 1.29 1.040 6.669 115.2 1.43 GE13 1.45 1.31 1.29 1.020 6.612 108.0 1.37 Operating domain: ICF with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6 Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow

__esign__ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.31 1.31 1.040 6.618 115.9 1.42 GE13 1.45 1.30 1.31 1.020 6.538 108.8 1.37 Operating domain: MELLLA with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5, 6 Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design__ _(MVt) (1000 lb/hr) MCPR GE14C 1.45 1.31 1.29 1.040 6.599 108.5 1.42 GE13 1.45 1.30 1.29 1.020 6.564 101.5 1.35 Page 18

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6 Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.30 1.30 1.040 6.565 108.9 1.41 GE13 1.45 1.29 1.30 1.020 6.516 102.0 1.35 Operating domain: ICF with TBVOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5, 6 Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow

__esign__ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.45 1.40 1.040 7.292 109.1 1.37 GEI3 1.45 1.42 1.40 1.020 7.165 102.9 1.31 Operating domain: MELLLA with TBVOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5, 6 Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.44 1.45 1.040 7.266 102.1 1.35 GE13 1.45 1.42 1.45 1.020 7.142 96.3 1.29 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ __(MVt) (1000 lb/hr) MCPR GE14C 1.45 1.36 1.29 1.040 6.829 114.3 1.43 GE13 1.45 1.35 1.29 1.020 6.764 107.1 1.36 Page 19

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6 )

Peaking Factors Fuel Bundle Bundle Initial Local Radial Axial R-Factor Power Flow Design (MWt) (1000 lb/hr) MCPR GEI4C 1.45 1.34 1.32 1.040 6.738 115.5 1.43 GE13 1.45 1.32 1 .32 1.020 6.649 108.3 1.37 Operating domain: MELLLA & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.34 1.29 1.040 6.730 107.8 1.42 GE13 1.45 1.33 1.29 1.020 6.698 100.7 1.35 Operating domain: MELLLA & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MNVt) (1000 lb/hr) MCPR GE14C 1.45 1.33 1.31 1.040 6.699 108.4 1.41 GE13 1.45 1.32 1.31 1.020 6.623 101.6 1.35 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design___ _(MWt) (1000 lb/hr) MCPR GE14C 1.45 1.46 1.38 1.040 7.353 108.8 1.38 GE13 1.45 1.44 1.38 1.020 7.235 102.5 1.32 Page 20

BROWNS FERRY I 0000-0043-8325-SRLR Reloadl t Revk'inn I Operating domain: MELLLA & FWTR with TBVOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Peaking Factors Fuel Bundle Bundle Initial Design Local Radial Axial R-Factor Power Flow Design__ __(M-,Vt) (1000 lb/hr) MCPR GE14C 1.45 1.46 1.43 1.040 7.311 101.8 1.36 GE13 1.45 1.44 1.43 1.020 7.229 95.7 1.29

7. Selected Margin Improvement Options 5 Recirculation pump trip: Yes Rod withdrawal limiter: No Thermal power monitor: Yes Improved scram time: Yes (ODYN Option B)

Measured scram time: No Exposure dependent limits: Yes Exposure points analyzed: 2 Table 7-1 Cycle Exposure Range Designation Name Exposure Range 6 BOC to MOC BOC7 to EOR7- 992 MWd/MT ( 900 MWd/ST)

MOC to EOC EOR7- 992 MWd/MT ( 900 MWd/ST) to EOC7 BOC to EOC BOC7 to EOC7

' Refer to the GESTAR basis document identified at the beginning of this report for the margin improvement options currently supported therein.

6 End of Rated (EOR) is defined as the cycle exposure corresponding to all rods out, 100% power/! 00% flow, and normal feedwater temperature. For plants without mid-cycle OLMCPR points, EOR is not applicable.

Page 21

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1

8. Operating Flexibility Options The following information presents the operational domains and flexibility options which are supported by the reload licensing analysis.

Extended Operating Domain (EOD): Yes EOD type: Maximum Extended Load Line Limit (MELLLA)

Minimum core flow at rated power: 99.0 %

Increased Core Flow: Yes Flow point analyzed throughout cycle: 105.0 %

Feedwater Temperature Reduction: Yes Feedwater temperature reduction during cycle: 54.7 0 F Final feedwater temperature reduction: 54.7 0 F ARTS Program: Yes Single Loop Operation: Yes Equipment Out of Service:

Safety/relief valves Out of Service: Yes (credit taken for 12 valves)

RPT OOS Yes TBV OOS Yes PLU OOS (including RPT OOS) Yes Combined RPT OOS and TBV OOS Yes Combined RPT OOS, PLU OOS, and TBV POOS Yes

9. Core-wide AOO Analysis Results 8 Methods used: GEMINI, GEXL-PLUS 7 Refer to the GESTAR basis document identified at the beginning of this report for the operating flexibility options currently supported therein.

" Exposure range designation is defined in Table 7- I. Application condition number is defined in Section 1I.

Page 22

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF (HBB)

Exposure range  : BOC to MOC (Application Condition: 1, 2, 3, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 409 126 0.24 0.18 2 Load Rejection w/o Bypass 502 126 0.27 0.19 3 Inadvertent HPCI/L8 388 128 0.26 0.19 4 Operating domain: ICF (HBB)

Exposure range  : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GEI4C GEl3 Fig.

FW Controller Failure 390 125 0.23 0.18 5 Load Rejection w/o Bypass 477 124 0.25 0.19 6 Inadvertent HPCI /L8 381 128 0.25 0.20 7 Operating domain: MELLLA (HBB)

Exposure range  : BOC to MOC (Application Condition: 1, 2, 3, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 384 124 0.24 0.18 8 Load Rejection w/o Bypass 468 124 0.26 0.19 9 Inadvertent HPCI/L8 374 127 0.25 0.19 10 Operating domain: MELLLA (HBB)

Exposure range  : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 373 124 0.23 0.18 11 Load Rejection w/o Bypass 454 124 0.26 0.18 12 Inadvertent HPCI /L8 363 127 0.25 0.19 13 Page 23

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF (UB)

Exposure range  : MOC to EOC (Application Condition: 1, 2,3, 4, 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 232 114 0.17 0.13 14 Load Rejection w/o Bypass 295 1 14 0.19 0.13 15 Inadvertent HPCI/L8 224 117 0.19 0.15 16 Operating domain: MELLLA (UB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 213 112 0.16 0.12 17 Load Rejection w/o Bypass 267 112 0.18 0.11 18 Inadvertent HPCI/L8 210 116 0.18 0.14 19 Operating domain: ICF & FWTR (HBB)

Exposure range  : BOC to MOC (Application Condition: 1, 2, 3, 4, 5, 6)

Uncorrected ACPR Event Flux

(%rated)

Q/A

(%rated) GE14C I GEl3 Fig.

FW Controller Failure 454 130 0.27 0.20 20 Inadvertent HPCI/L8 418 129 0.26 1 0.19 21 Operating domain: ICF & FWTR (HBB)

Exposure range  : MOC to EOC (Application Condition: 1, 2,3, 4, 5, 6)

Uncorrected ACPR Flux Q/A GE4_G1_ Fg Event (%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 457 130 0.26 0.20 22 Inadvertent HPCI/L8 412 129 0.25 0.20 23 Page 24

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA & FWTR (HBB)

Exposure range  : BOC to MOC (Application Condition: 1, 2,3, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GEI4C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 443 130 0.27 0.20 24 Inadvertent HPCI /L8 408 129 0.26 1 0.19 25 Operating domain: MELLLA & FWTR (HBB)

Exposure range  : MOC to EOC (Application Condition: 1, 2,3, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GEI4C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 441 130 0.26 0.19 26 Inadvertent HPCI /L8 400 128 0.25 0.19 27 Operating domain: ICF & FWTR (UB)

Exposure range  : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GEI3 Fig.

(%rated) (%rated)

FW Controller Failure 269 120 0.21 0.15 28 Inadvertent HPCI /L8 251 119 0.20 0.16 29 Operating domain: MELLLA & FWTR (UB)

Exposure range  : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 245 118 0.20 0.14 30 Inadvertent HPCI/L8 236 117 0.19 1 0.14 31 Page 25

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 Operating domain: ICF with RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 2, 4, 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GEI3 Fig.

FW Controller Failure 501 131 0.28 0.22 32 Load Rejection w/o Bypass 601 131 0.30 0.23 33 Inadvertent HPCI /L8 468 134 0.28 0.23 34 Operating domain: ICF with RPTOOS (HBB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 479 130 0.26 0.22 35 Load Rejection w/o Bypass 576 130 0.28 0.23 36 Inadvertent HPCI /L8 455 133 0.28 0.23 37 Operating domain: MELLLA with RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 2, 4, 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 461 129 0.26 0.20 38 Load Rejection w/o Bypass 550 129 0.28 0.21 39 Inadvertent HPCI /L8 438 132 0.27 0.21 40 Operating domain: MELLLA with RPTOOS (HBB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 451 129 0.26 0.20 41 Load Rejection w/o Bypass 534 128 0.28 0.21 42 Inadvertent HPCI /L8 425 132 0.27 0.22 43 Page 26

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF with RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 282 118 0.21 0.15 44 Load Rejection w/o Bypass 358 119 0.23 0.16 45 Inadvertent HPCI /L8 272 121 0.22 0.17 46 Operating domain: MELLLA with RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 256 116 0.19 0.14 47 Load Rejection w/o Bypass 323 116 0.21 0.14 48 Inadvertent HPCI /L8 246 1 19 0.21 0.16 49 Operating domain: ICF & FWTR with RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 2, 4, 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GE13 Fig.

FW Controller Failure 537 135 0.29 0.23 50 Inadvertent HPCI /L8 486 134 0.28 0.22 51 Operating domain: ICF & FWTR with RPTOOS (HBB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 532 135 0.28 0.23 52 Inadvertent HPCI /L8 478 133 0.27 0.23 53 Page 27

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA & FWTR with RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 2, 4,5, 6)

Uncorrected ACPR Event Flux Q/A

(%rated) (%rated) GE14C GE13 Fig.

FW Controller Failure 513 134 0.28 0.22 54 Inadvertent HPCI /L8 463 132 0.27 0.21 55 Operating domain: MELLLA & FWTR with RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Uncorrected ACPR Event Flux Q/A

(%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 510 134 0.28 0.22 56 Inadvertent HPCI /L8 453 132 0.27 0.22 57 Operating domain: ICF & FWTR with RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Uncorrected ACPR Event Flux Q/A

(%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 315 124 0.23 0.18 58 Inadvertent HPCI /L8 288 123 0.22 0.18 59 Operating domain: MELLLA & FWTR with RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Uncorrected ACPR Event Flux Q/A Event_____________(%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 278 121 0.21 0.16 60 Inadvertent HPCI /L8 264 121 0.21 0.16 61 Page 28

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF with TBVOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 556 133 0.30 0.23 62 Inadvertent HPCI /L8 519 135 0.31 0.24 63 Operating domain: ICF with TBVOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 535 132 0.29 0.23 64 Inadvertent HPCI /L8 505 134 0.30 0.24 65 Operating domain: MELLLA with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 523 131 0.30 0.22 66 Inadvertent HPCI /L8 490 1 33 0.31 0.23 67 Operating domain: MELLLA with TBVOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GE13 Fig.

(%rated) (%rated)

FW Controller Failure 510 131 0.29 0.22 68 Inadvertent HPCI /L8 1 477 1 133 0.30 0.23 69 Page 29

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF with TBVOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux

(%rated)

Q/A

(%rated) GE14C I GEl3 Fig.

FW Controller Failure 322 119 0.23 0.16 70 Inadvertent HPCI /L8 295 121 0.24 0.18 71 Operating domain: MELLLA with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux Q/A GEI GE13 Fig.

Event_____________(%rated) (%rated) E14C FW Controller Failure 289 117 0.21 0.15 72 Inadvertent HPCI /L8 274 120 0.23 0.17 73 Operating domain: ICF & FWTR with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux

(%rated)

Q/A

(%rated) GE14C I GEI3 Fig.

FW Controller Failure 568 136 0.31 0.24 74 Inadvertent HPCI /L8 510 134 0.30 0.23 75 Operating domain: ICF & FWTR with TBVOOS (HBB)

Exposure range  : MOC to EOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Flux Q/A I GE13 Fig.

Event (%rated) (%rated) GEI4C FW Controller Failure 563 136 0.30 0.24 76 Inadvertent HPCI /L8 504 134 0.30 0.24 77 Page 30

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA & FWTR with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 548 135 0.31 0.23 78 Inadvertent HPCI /L8 500 134 0.31 0.23 79 Operating domain: MELLLA & FWTR with TBVOOS (HBB)

Exposure range  : MOC to EOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux

(%rated)

Q/A

(%rated) GE14C I GE13 Fig.

FW Controller Failure 543 134 0.31 0.23 80 Inadvertent HPCI /L8 493 133 0.30 0.23 81 Operating domain: ICF & FWTR with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux Q/A GE j GE13 Fig.

(%rated) (%rated) E14C FW Controller Failure 338 124 0.25 0.19 82 Inadvertent HPCI /L8 306 123 0.25 0.18 83 Operating domain: MELLLA & FWTR with TBVOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 3, 5, 6)

Uncorrected ACPR Event Flux

(%rated)

Q/A

(%rated) GE14C I GE13 Fig.

FW Controller Failure 300 122 0.24 0.17 84 Inadvertent HPCI /L8 279 121 0.23 0.17 85 Operating domain: ICF with PLUOOS & RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 4, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GEl3 Fig.

Load Rejection w/o Bypass 594 131 0.29 0.23 86 Page 31

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A

(%rated) (%rated) GE14C GEl3 Fig.

Load Rejection w/o Bypass 577 131 0.28 0.23 87 Operating domain: MELLLA with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A Event_____________(%rated) (%rated) GEI4C GEl3 Fig.

Load Rejection w/o Bypass 548 129 0.29 0.21 88 Operating domain: MELLLA with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A Event_____________(%rated) (%rated) GE14C GEl3 Fig.

Load Rejection w/o Bypass 533 129 0.28 0.21 89 Operating domain: ICF with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A Event______________(%rated) (%rated) GE14C GEl3 Fig.

Load Rejection w/o Bypass 341 119 0.23 0.16 90 Operating domain: MELLLA with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A Event_____________(%rated) (%rated) GEI4C GE13 Fig.

Load Rejection w/o Bypass 306 117 0.21 0.14 91 Page 32

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A

(%rated) (%rated) GEI4C GE13 Fig.

Load Rejection w/o Bypass 518 129 0.28 0.21 92 Operating domain: ICF & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A G Event_____________(%rated) (%rated) GE14C GEl3 Fig.

Load Rejection w/o Bypass 508 129 0.27 0.22 93 Operating domain: MELLLA & FIWVTR with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A Event_____________(%rated) (%rated) GEI4C GEl3 Fig.

Load Rejection w/o Bypass 500 128 0.28 0.20 94 Operating domain: MELLLA & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4, 6 )

Uncorrected ACPR Event Flux Q/A Event_____________(%rated) (%rated) GEI4C GEl3 Fig.

Load Rejection w/o Bypass 495 128 0.27 0.21 95 Operating domain: ICF & FWTR with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Uncorrected ACPR Event Flux Q/A Event_____________(%rated) (%rated) GEI4C GE13 Fig.

Load Rejection w/o Bypass 332 119 0.23 0.16 96 Page 33

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA & FWTR with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6 )

Uncorrected ACPR Event Flux Q/A G G

(%rated) (%rated) GEI4C GEl3 Fig.

Load Rejection w/o Bypass 301 117 0.22 0.14 97 Operating domain: ICF with TBVOOS & RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 5, 6)

Uncorrected ACPR Event Flux Q/A Event_____________(%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 688 139 0.34 0.28 98 Inadvertent HPCI /L8 629 141 0.34 0.27 99 Operating domain: ICF with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Uncorrected ACPR Event Flux Q/A GEl3 Fig.

Event_____________(%rated) (%rated) GE14C FW Controller Failure 650 138 0.33 0.27 100 Inadvertent HPCI /L8 605 140 0.33 0.28 101 Operating domain: MELLLA with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5, 6)

Uncorrected ACPR Event Flux Q/A I4G 3 i

(%rated) (%rated) GEI4C GEI3 Fig.

FW Controller Failure 636 137 0.33 0.26 102 Inadvertent HPCI /L8 576 138 0.33 0.26 103 Operating domain: MELLLA with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Uncorrected ACPR Event Flux Q/A

(%rated) (%rated) GE14C GEl3 Fig.

FW Controller Failure 621 137 0.32 0.26 104 Inadvertent HPCI /L8 562 138 0.33 0.26 105 Page 34

BROWNS FERRY I 0000-0043-8325-SRLR Pp1,nd A Operating domain: ICF with TBVOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Uncorrected ACPR Flux Q/A G Event (%rated) (%rated) GE14C GE13 Fig.

FW Controller Failure 411 126 0.28 0.21 106 Inadvertent HPCI /L8 375 127 0.28 0.22 107 Operating domain: MELLLA with TBVOOS & RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GE13 Fig.

FW Controller Failure 364 123 0.25 0.19 108 Inadvertent HPCI /L8 332 125 0.26 0.20 109 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 5, 6 )

Uncorrected ACPR Event Flux

(%rated)

Q/A

(%rated) GEI4C I GEl3 Fig.

FW Controller Failure 666 141 0.34 0.27 110 Inadvertent HPCI /L8 599 139 0.32 0.26 H11 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Uncorrected ACPR Event Flux Q/A GE14C GElJ

(%rated) (%rated)

FW Controller Failure 673 141 0.33 0.27 Inadvertent HPCI /L8 588 139 0.32 1 0.27 Page 35

BROWNS FERRY I 0000-0043-8325-SRLR D I I-Operating domain: MELLLA & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5, 6 )

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GEI4C GE13 Fig.

FW Controller Failure 639 140 0.33 0.26 114 Inadvertent HPCI/L8 575 138 0.32 0.25 115 Operating domain: MELLLA & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range  : MOC to EOC (Application Condition: 5, 6 )

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GEI4C GEl3 Fig.

FW Controller Failure 633 139 0.33 0.26 116 Inadvertent HPCI/L8 565 138 0.32 0.26 117 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 5, 6)

Uncorrected ACPR Flux Q/A Event (%rated) (%rated) GE14C GE13 Fig.

FW Controller Failure 403 129 0.29 0.22 118 Inadvertent HPCI /L8 364 128 0.28 0.22 119 Operating domain: MELLLA & FWTR with TBVOOS & RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 5, 6)

Uncorrected ACPR Event Flux

(%rated)

Q/A

(%rated) GE14C I GEl3 Fig.

FW Controller Failure 355 127 0.27 0.20 120 Inadvertent HPCI /L8 325 125 0.26 0.20 121 Page 36

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I

10. Local Rod Withdrawal Error (With Limiting Instrument Failure) AOO Summary Rod block instrumentation setpoints with ARTS are documented in Maximum Extended Load Line Limit andARTS Improvement ProgramAnalyses for Browns Ferry Nuclear Plant Units 1, 2 and 3, NEDC-32433P, April 1995.

A cycle specific analysis was performed for Browns Ferry I Cycle 7 with four RBM high trip setpoints (HTSPs), 107%, 111%, 114% and 117% (unfiltered). For the exposure range from BOC7 to EOR7, it is concluded that the ARTS generic analysis ACPR bounds or equals the cycle specific analysis for the 114% and 117% HTSPs, however the ARTS generic analysis ACPR does not bound the 107% and I 11%

HTSPs. The Cycle 7 specific RWE OLMCPRs for all four HTSPs are shown in more detail in Section 11 and Appendix C.

The RBM operability requirements specified in Section 10.5 of NEDC-32433P have been evaluated and shown to be sufficient to ensure that the Safety Limit MCPR and cladding 1% plastic strain criteria will not be exceeded in the event of an unblocked RWE event.

Page 37

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I

11. Cycle MCPR Values 9 10 Two loop operation safety limit: 1.09 Single loop operation safety limit: 1.11 Stability MCPR Design Basis: See Section 15 ECCS MCPR Design Basis: See Section 16 (Initial MCPR)

Non-pressurization Events:

Exposure range: BOC to EOC GE13 and GE14C Loss of Feedwater Heating (See Appendix B) 1.22 Fuel Loading Error (misoriented) 1.33 Fuel Loading Error (mislocated) 1.38 Control Rod Withdrawal Error (RBM setpoint at 107%) 1.32 Control Rod Withdrawal Error (RBM setpoint at 111%) 1.32 Control Rod Withdrawal Error (RBM setpoint at 114%) 1.32 Control Rod Withdrawal Error (RBM setpoint at 117%) 1.38 9 Exposure range designation is defined in Table 7-1.

'0 For single loop operation, the MCPR operating limit is 0.02 greater than the two loop value.

Page 38

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Limiting Pressurization Events OLMCPR Summary Table: "

Appl.

Cond. Exposure Range Option A Option B Cond.

GE14C GE13 GE14C GE13 1 Equipment In Service with 1 SRV OOS BOC to MOC 1.41 1.33 1.38 1.30 MOC to EOC 1.43 1.36 1.40 1.33 2 RPT OOS with 1 SRV OOS BOC to MOC 1.51 1.41 1.40 1.34 MOC to EOC 1.60 1.48 1.43 1.37 3 TBV OOS with 1 SRV OOS BOC to MOC 1.45 1.38 1.42 1.35 MOC to EOC 1.48 1.40 1.45 1.37 4 PLU OOS with 1 SRV OOS BOC to MOC 1.51 1.41 1.40 1.34 MOC to EOC 1.60 1.48 1.43 1.37 5 Combined RPT OOS and TBV OOS with 1 SRV OOS BOC to MOC 1.56 1.45 1.45 1.38 MOC to EOC 1.65 1.53 1.48 1.42 6 Combined RPT OOS, PLU OOS, and TBV OOS with 1 SRV OOS BOC to MOC 1.56 1.45 1.45 1.38 MOC to EOC 1.65 1.53 1.48 1.42 11Each application condition (Appl. Cond.) covers the entire range of licensed flow and feedwater temperature unless specified otherwise. The OLMCPR values presented apply to rated power operation based on the two loop operation safety limit MCPR.

Page 39

BROWNS FERRY I 0000-0043-8325-SRLR D0.1 A A; V? ;ni~n Pressurization Events: 12 Operating domain: ICF (HBB)

Exposure range : BOC to MOC (Application Condition: 1, 2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GEI4C GE13 FW Controller Failure 1.38 1.32 1.35 1.29 Load Rejection w/o Bypass 1.40 1.33 1.37 1.30 Inadvertent HPCI /L8 1.39 1.33 1.36 1.30 Operating domain: ICF (HBB)

Exposure range  : MOC to EOC (Application Condition: 1, 2,3, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.40 1.34 1.37 1.31 Load Rejection w/o Bypass 1.42 1.35 1.39 1.32 Inadvertent HPCI /L8 1.41 1.35 1.38 1.32 Operating domain: MELLLA (HBB)

Exposure range : BOC to MOC (Application Condition: 1, 2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GEI4C GE13 FW Controller Failure 1.38 1.31 1.35 1.28 Load Rejection w/o Bypass 1.40 1.32 1.37 1.29 Inadvertent HPCI /L8 1.39 1.33 1.36 1.30 Operating domain: MELLLA (HBB)

Exposure range  : MOC to EOC (Application Condition: 1,2,3, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.40 1.33 1.37 1.30 Load Rejection w/o Bypass 1.43 1.34 1.40 1.31 Inadvertent HPCI 1/L8 1.42 1.35 1.39 1.32 "2Application condition numbers shown for each of the following pressurization events represent the application conditions for which this event contributed in the determination of the limiting OLMCPR value.

Page 40

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF (UB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.33 1.28 1.30 1.25 Load Rejection w/o Bypass 1.35 1.28 1.32 1.25 Inadvertent HPCI /L8 1.35 1.30 1.32 1.27 Operating domain: MELLLA (UB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GEI4C GE13 FW Controller Failure 1.32 1.27 1.29 1.24 Load Rejection w/o Bypass 1.34 1.27 1.31 1.24 Inadvertent HPCI /L8 1.34 1.30 1.31 1.27 Operating domain: ICF & FWTR (HBB)

Exposure range : BOC to MOC (Application Condition: 1, 2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GEI4C GE13 FW Controller Failure 1.40 1.33 1.37 1.30 Inadvertent HPCI /L8 1.40 1.33 1.37 1.30 Operating domain: ICF & FWTR (HBB)

Exposure range  : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.42 1.36 1.39 1.33 Inadvertent HPCI /L8 1.42 1.36 1.39 1.33 Operating domain: MELLLA & FWTR (HBB)

Exposure range : BOC to MOC (Application Condition: 1,2,3, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.41 1.33 1.38 1.30 Inadvertent HPCI /L8 1.40 1.33 1.37 1.30 Page 41

BROWNS FERRY I 0000-0043-8325-SRLR RPlnni A Operating domain: MELLLA & FWTR (HBB)

Exposure range : MOC to EOC (Application Condition: 1,2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GEI4C GE13 FW Controller Failure 1.42 1.35 1.39 1.32 Inadvertent HPCI /L8 1.42 1.35 1.39 1.32 Operating domain: ICF & FWTR (UB)

Exposure range : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.37 1.31 1.34 1.28 Inadvertent HPCI /L8 1.37 1.31 1.34 1.28 Operating domain: MELLLA & FWTR (UB)

Exposure range  : MOC to EOC (Application Condition: 1, 2, 3, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.36 1.30 1.33 1.27 Inadvertent HPCI /L8 1.35 1.30 1.32 1.27 Operating domain: ICF with RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 2, 4, 5, 6)

Option A Option B GEI4C GE13 GE14C GE13 FW Controller Failure 1.49 1.40 1.38 1.33 Load Rejection w/o Bypass 1.51 1.40 1.40 1.33 Inadvertent HPCI /L8 1.50 1.41 1.39 1.34 Operating domain: ICF with RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.58 1.46 1.41 1.35 Load Rejection w/o Bypass 1.60 1.48 1.43 1.37 Inadvertent HPCI /L8 1.59 1.48 1.42 1.37 Page 42

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA with RPTOOS (HBB)

Exoosure range : BOC to MOC ( Application Condition: 2. 4. 5. 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.48 1.38 1.37 1.31 Load Rejection w/o Bypass 1.50 1.39 1.39 1.32 Inadvertent HPCI /L8 1.49 1.39 1.38 1.32 Operating domain: MELLLA with RPTOOS (HBB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.57 1.45 1.40 1.34 Load Rejection w/o Bypass 1.59 1.46 1.42 1.35 Inadvertent HPCI /L8 1.58 1.46 1.41 1.35 Operating domain: ICF with RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.52 1.40 1.35 1.29 Load Rejection w/o Bypass 1.54 1.40 1.37 1.29 Inadvertent HPCI /L8 1.53 1.42 1.36 1.31 Operating domain: MELLLA with RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.49 1.38 1.32 1.27 Load Rejection w/o Bypass 1.52 1.39 1.35 1.28 Inadvertent HPCI/L8 1.52 1.41 1.35 1.30 Page 43

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: ICF & FWTR with RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GEI4C GE13 FW Controller Failure 1.51 1.41 1.40 1.34 Inadvertent HPCI /L8 1.50 1.40 1.39 1.33 Operating domain: ICF & FWTR with RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.60 1.48 1.43 1.37 Inadvertent HPCI/L8 1.58 1.48 1.41 1.37 Operating domain: MELLLA & FWTR with RPTOOS (HBB)

Exposure range  : BOC to MOC (Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.50 1.39 1.39 1.32 Inadvertent HPCI /L8 1.49 1.39 1.38 1.32 Operating domain: MELLLA & FW'TR with RPTOOS (HBB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6 )

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.59 1.47 1.42 1.36 Inadvertent HPCI /L8 1.58 1.46 1.41 1.35 Operating domain: ICF & FWTR with RPTOOS (UB)

Exposure range  : MOC to EOC (Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GEI4C GE13 FW Controller Failure 1.54 1.42 1.37 1.31 Inadvertent HPCI /L8 1.53 1.43 1.36 1.32 Page 44

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA & FWTR with RPTOOS (UB)

Exposure range : MOC to EOC ( Application Condition: 2, 4, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.52 1.40 1.35 1.29 Inadvertent HPCI /L8 1.52 1.41 1.35 1.30 Operating domain: ICF with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.44 1.37 1.41 1.34 Inadvertent HPCI /L8 1.45 1.38 1.42 1.35 Operating domain: ICF with TBVOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6 )

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.46 1.39 1.43 1.36 Inadvertent HPCI /L8 1.47 1.40 1.44 1.37 Operating domain: MELLLA with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.44 1.36 1.41 1.33 Inadvertent HPCI /L8 1.45 1.37 1.42 1.34 Operating domain: MELLLA with TBVOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.46 1.38 1.43 1.35 Inadvertent HPCI /L8 1.47 1.39 1.44 1.36 Page 45

BROWNS FERRY 1 0000-0043-8325-SPRLR Reload 6 Revirinn I Operating domain: ICF with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Option A Option B

.- GE14C GE13 GE14C GE13 FW Controller Failure 1.40 1.32 1.37 1.29 Inadvertent HPCI /L8 1.41 1.33 1.38 1.30 Operating domain: MELLLA with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.38 1.31 1.35 1.28 Inadvertent HPCI /L8 1.40 1.33 1.37 1.30 Operating domain: ICF & FWTR with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.45 1.37 1.42 1.34 Inadvertent HPCI /L8 1.44 1.37 1.41 1.34 Operating domain: ICF & FWTR with TBVOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.48 1.40 1.45 1.37 Inadvertent HPCI /L8 1.47 1.40 1.44 1.37 Operating domain: MELLLA & FWTR with TBVOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 3, 5, 6)

Option A Option B

_ _ _ _ _ _ _ GE14C GE14C GE13 FW Controller Failure 1.45 1.37 1.42 1.34 Inadvertent HPCI /L8 1.44 1.36 1.41 1.33 Page 46

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 Operating domain: MELLLA & FWTR with TBVOOS (HBB)

Exposure range : MOC to EOC ( Application Condition: 3, 5, 6 )

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.48 1.39 1.45 1.36 Inadvertent HPCI /L8 1.47 1.39 1.44 1.36 Operating domain: ICF & FWTR with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6)

Option A Option B GE14C GE13 GE14C J GE13 FW Controller Failure 1.42 1.35 1.39 l 1.32 Inadvertent lHPCI /L8 1.41 1.34 1.38 1.31 Operating domain: MELLLA & FWTR with TBVOOS (UB)

Exposure range : MOC to EOC (Application Condition: 3, 5, 6 )

Option A OptionB GE14C GE13 GE14C_ GE13 FW Controller Failure 1.41 1.33 1.38 1.30 Inadvertent HPCI /L8 1.40 1.33 1.37 1.30 Operating domain: ICF with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6 )

Option A Option B GE14C GE13 GE14C GE13 Load Rejection w/o Bypass 1.51 1.40 1.40 1.33 Operating domain: ICF with PLUOOS & RPTOOS (IIBB)

Exposure range : MOC to EOC (Application Condition: 4, 6 )

Option A Option B Load Rejection w/o Bypass 1.60 1.47 1.43 1.36 Operating domain: MELLLA with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6 )

Option A Option B GE14C GE14C GE13 Load Rejection w/o Bypass 1.50 1.39 1.39 1.32 Page 47

BROWNS FERRY I 0000-0043-8325-SRLR R A{R{

M Ion i l Operating domain: MELLLA with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4, 6 )

Option A Option B GE14C GE13 GE14C GE13 Load Rejection w/o Bypass 1.59 1.46 1.42 1.35 Operating domain: ICF with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Option A Option B

_______r_-^_______________ - GE14C GE13 GE14C GE13 Load Rejection w/o Bypass 1.55 1.40 1.38 1.29 Operating domain: MELLLA with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6)

Option A Option B J GE14C GE13 GE14C GE13 Load Rejection w/o Bypass 1.52 1.39 1.35 1.28 Operating domain: ICF & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4,6)

J Option A Option B GE14C GE13 GE14C GE13 Load Rejection w/o Bypass 1.50 1.39 1.39 1.32 Operating domain: ICF & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range MOC to EOC (Application Condition: 4, 6 )

Option A Option B GE14C GE13 GE14C . GE13 Load Rejection w/o Bypass 1.59 1.46 1.42 1.35 Operating domain: MELLLA & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 4, 6)

Option A Option B

. GE14C GE13 l GE14C GE13 Load Rejection w/o Bypass 1.50 1.38 1.39 1.31 Page 48

BROWNS FERRY I 0000-0043-8325-SRLR Pplnud AS lVi.-W;ir1r I Operating domain: MELLLA & FWTR with PLUOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 4, 6 )

Option A Option B

.^ GE14C GE13 GE14C GE13 Load Rejection w/o Bypass 1.59 1.45 1.42 1.34 Operating domain: ICF & FWTR with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4,6)

Option A Option B GE14C GE13 GE14C GE13 Load Rejection w/o Bypass 1.54 1.40 1.37 1.29 Operating domain: MELLLA & FWTR with PLUOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 4, 6 )

Option A Option B J__GE14C GE13 GE14C3 Load Rejection w/o Bypass 1.53 1.39 1.36 J 1.28 Operating domain: ICF with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5,6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.56 1.45 1.45 1.38 Inadvertent HPCI /L8 1.56 1.45 1.45 1.38 Operating domain: ICF with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6 )

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.65 1.53 1.48 1.42 Inadvertent HPCI /L8 1.65 1.53 1.48 1.42 Operating domain: MELLLA with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5, 6 )

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.55 l 1.44 1.44 1.37 Inadvertent HPCI /L8 1.55 1.44 1.44 1.37 Page 49

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Operating domain: MELLLA with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC ( Application Condition: 5, 6 )

Option A Option B

__-___;_- _-_____ __._-_-_ GE14C GE13 GE14C GE13 FW Controller Failure 1.64 1.51 1.47 1.40 Inadvertent HPCI /L8 1.65 1.51 1.48 1.40 Operating domain: ICF with TBVOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Option A Option B

____--. _______-______-____ - GE14C GE13 GE14C GE13 FW Controller Failure 1.59 1.45 1.42 1.34 Inadvertent HPCI /L8 1.59 1.46 1.42 1.35 Operating domain: MELLLA with TBVOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5, 6)

Option A Option B GE14C GE13 GE14CJGE13 FW Controller Failure 1.56 1.43 1.39 1.32 Inadvertent HPCI /L8 1.57 1.45 1.40 1.34 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5, 6 )

Option A Option B

_____ GE14C GE13 GE14C GE13 FW Controller Failure 1.56 1.45 1.45 1.38 Inadvertent HPCI /L8 1.54 1.44 1.43 1.37 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5, 6 )

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.65 1.53 1.48 1.42 Inadvertent HPCI /L8 1.64 1.52 1.47 1.41 Page 50

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 Operating domain: MELLLA & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : BOC to MOC (Application Condition: 5,6)

Option A Option B GE14C GE13 GE14C GE13 FW Controller Failure 1.55 1.43 1.44 1.36 Inadvertent HPCI /L8 1.54 1.43 1.43 1.36 Operating domain: MELLLA & FWTR with TBVOOS & RPTOOS (HBB)

Exposure range : MOC to EOC (Application Condition: 5,6)

Option A Option B GE14C GE13 GE14C_ GE13 FW Controller Failure 1.65 1.51 1.48 1.40 Inadvertent HPCI /L8 1.64 1.51 1.47 1.40 Operating domain: ICF & FWTR with TBVOOS & RPTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5, 6 )

Option A Option B GE14C GE3 GE14C GE13 FW Controller Failure 1.61 1.47 1.44 1.36 Inadvertent HPCI /L8 1.59 1.47 1.42 1.36 Operating domain: MELLLA & FWTR with TBVOOS & RFTOOS (UB)

Exposure range : MOC to EOC (Application Condition: 5,6)

Option A Option B

______________ GE14C GE13 GE14C GE13 FW Controller Failure 1.58 1.45 1.41 1.34 Inadvertent HPCI /L8 1.57 1.44 1.40 1.33

12. Overpressurization Analysis Summary Event PsI Pdome Pv Plant Event (psig) (psig) (psig) Response MSIV Closure (Flux Scram) - ICF (HBB) 1298 1301 1331 Figure 122 MSIV Closure (Flux Scram) - MELLLA 1299 1301 1330 Figure 123 (HBB) 1299__ ___1330__ _ Figure_123 Page 51

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I

13. Loading Error Results Variable water gap misoriented bundle analysis: Yes 13 Misoriented Fuel Bundle ACPR GE 13-P9DTB391-13GZ- I OOT- 146-T6-3964 (GEl 3) 0.09 GE14-PIODNAB200-3GZ-IOOT-150-T6-2609 (GE14C) 0.06 GE13-P9DTB156-NOG-IOOT-146-T6-2887 (GE13) 0.05 GE 14-P 1ODNAB 157-NOG- I OOT-150-T6-2889 (GE 14C) 0.19 GE14-PIODNAB377-16GZ- lOOT-150-T6-2890 (GE14C) 0.24 GE14-PIODNAB402-16GZ- I OOT-150-T6-2891 (GE14C) 0.06 GE]4-PI ODNAB350- 16GZ- I OOT-150-T6-2892 (GE14C) 0.15 GE14-PIODNAB 147-NOG- I OOT-150-T6-2893 (GE14C) 0.24 GE14-PI ODNAB419-16GZ- 1OOT-150-T6-2894 (GE14C) 0.07 GE14-PI ODNAB368- 15GZ- I OOT-150-T6-2895 (GE14C) 0.11 GEI4-P1 ODNAB402- 19GZ- I OOT- 150-T6-2896 (GE 14C) 0.16 GE13-P9DTB I63-NOG-lOOT-146-T6-2888 (GE13) 0.12 GE14-PI ODNAB377-17GZ- I OOT-150-T6-2897 (GE14C) 0.14

14. Control Rod Drop Analysis Results This is a banked position withdrawal sequence plant, therefore, the control rod drop accident analysis is not required. NRC approval is documented in NEDE-2401 1-P-A-US.

15. Stability Analysis Results 15.1 Introduction Browns Ferry I will implement BWROG Long Term Stability Solution Option III using the Oscillation Power Range Monitor (OPRM) as described in Reference 1. The References 2 and 3 plant-specific Hot Channel Oscillation Magnitude (HCOM) and other cycle specific stability parameters are used in the Cycle 7 Option III stability evaluation. A Backup Stability Protection evaluation is also provided for the case when the Option III OPRM system is declared inoperable.

3 Includes a 0.02 penalty due to variable water gap R-factor uncertainty.

Page 52

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 15.2 Option III Stability Evaluation The Reference 4 reload Option III evaluation has been performed in accordance with Reference 5. The stability-based Operating Limit MCPR (OLMCPR) is determined for two conditions as a function of OPRM amplitude setpoint. The two conditions evaluated are: (1) a postulated oscillation at 45% rated core flow steady-state operation (SS), and (2) a postulated oscillation following a two recirculation pump trip (2PT) from the limiting rated power operation state point.

The OPRM-amplitude-setpoint-dependent OLMCPR(SS) and OLMCPR(2PT) values are calculated for Cycle 7 using the plant-specific DIVOM curve (Slope = 0.49) that was calculated in accordance with Reference 6. The Cycle 7 Option III evaluation provides adequate protection against violation of the Safety Limit MCPR for the two postulated reactor instability events as long as Table 15.1 is satisfied.

The OPRM setpoints for Two Loop Operation (TLO) are conservative relative to Single Loop Operation (SLO) and are therefore bounding.

Table 15.1 OPRM Setpoint Versus OLMCPR OPRM Amplitude OLMCPR(SS) OLMCPR(2PT)

Set point 1.05 1.1852 1.1067 1.06 1.2053 1.1254 1.07 1.2260 1.1447 1.08 1.2475 1.1648 1.09 1.2697 1.1855 1.10 1.2927 1.2070 1.11 1.3155 1.2283 1.12 1.3391 1.2503 1.13 1.3635 1.2731 1.14 1.3889 1.2968 1.15 1.4152 1.3214 Acceptance Off-rated OLMCPR Rated Power Criteria @45% flow OLMCPR as described in SRLR Section 11 15.3 Backup Stability Protection Evaluation GE SIL-380 recommendations, BWROG Interim Corrective Actions (Reference 7), and Backup Stability Protection (Reference 8) for inoperable Option III solution have been included in the Browns Ferry I Cycle 7 operating procedures. Regions of restricted operation defined in Attachment I to Reference 9 and expanded in Reference 7, are used for the Browns Ferry I Cycle 7 backup stability protection evaluation (Reference 10).

Page 53

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision l 15.4. References

1. BWR Owners' Group Long-Term Stability Solutions Licensing Methodology, NEDO-31960-A, November 1995.

2. Licensing Basis Hot Channel Oscillation Magnitude for Browns Ferry 2 and 3, GE-NE-0000-0025-9630-RO, February 2004.

3. Tennessee Valley Authority Browns Ferry Unit I Asset Enhancement Program Task T0202:

Thermal-HydraulicStability, GE-NE-0000-001 5-9413 Revision 0, November 2003.

4. Option 11 Stability Evaluationfor Browns Ferry 1 Cycle 7, GE-NE-0000-0051-8595-R0, April 2006.

5. Reactor Stability Detect and Suppress Solutions Licensing Basis Methodology for Reload Applications, NEDO-32465-A, August 1996.

6. Plant-Specific Regional Mode DIVOM Procedure Guideline, GE-NE-0000-0028-9714-R1, June 2005.

7. BWR Owners' Group Guidelinesfor Stability Interim Corrective Action, BWROG-94079, June 1994.

8. GE to BWR Owners' Group Detect and Suppress II Committee: Backup Stability Protection (BSP) for InoperableOption III Solution, OG02-0119-260, July 17, 2002.

9. Power Oscillations in Boiling Water Reactors, NRC Bulletin 88-07, Supplement 1, December 1988.

10. BSP/ICA Stability Evaluation for Browns Ferry Unit I Cycle 7, GE-NE-0000-0051-8600-RO, April 2006.

Page 54

BROWNS FERRY I 0000-0043-8325-SRLR D.I-nA AiU RviTio~n l%.o .. n 1

16. Loss-of-Coolant Accident Results 16.1 10CFR50.46 Licensing Results The ECCS-LOCA analysis is based on the SAFER/GESTR-LOCA methodology. The licensing results applicable to each fuel type in the new cycle are summarized in the following table:

Table 16.1-1 Licensing Results Licensing Local Moeta-Water Fuel Type Basis PCT Oxidation Metal-Wt (OFr) (%) Reatio GE13 1780 < 2.00 < 0.10 GE14C 1830 < 3.00 <0.10 The SAFER/GESTR-LOCA analysis results are documented in Section 6.0 of Reference I for GE13.

The SAFER/GESTR-LOCA analysis results are documented in Section 6.0 of Reference I for GE14C.

16.2 10CFR50.46 Error Evaluation All reported errors have been corrected in the evaluation documented in GE13 and GE14C Reference 1.

16.3 ECCS-LOCA Operating Limits The ECCS MAPLHGR operating limits for new and exposed fuel bundles in this cycle are shown in the tables below.

Page 55

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Table 16.3-1 MAPLHGR Limits Bundle Type: GE13-P9DTB391-13GZ-IOOT-146-T6-3964 (GE13)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST kW/ft 0.00 0.00 13.42 21.74 19.72 13.42 30.00 27.22 12.29 70.00 63.50 8.90 Table 16.3-2 MAPLHGR Limits Bundle Type: GE14-PIODNAB200-3GZ-IOOT-150-T6-2609 (GE14C)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST kWM 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 63.50 5.00 Table 16.3-3 MAPLHGR Limits Bundle Type: GE13-P9DTB156-NOG-lOOT-146-T6-2887 (GE13)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST kWM 0.00 0.00 13.42 21.74 19.72 13.42 30.00 27.22 12.29 70.00 63.50 8.90 Page 56

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Table 16.3-4 MAPLHGR Limits Bundle Type: GE14-PlODNABI57-NOG-IOOT-150-T6-2889 (GE14C)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST kWM 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 63.50 5.00 Table 16.3-5 MAPLHGR Limits Bundle Type: GE14-PIODNAB377-16GZ-IOOT-150-T6-2890 (GE14C)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST kW/ft 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 63.50 5.00 Table 16.3-6 MAPLHGR Limits Bundle Type: GE14-P1ODNAB402-16GZ-IOOT-150-T6-2891 (GE14C)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST MkWM/

0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 i 63.50 5.00 Page 57

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision I Table 16.3-7 MAPLHGR Limits Bundle Type: GE14-PIODNAB350-16GZ-IOOT-150-T6-2892 (GE14C)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST kWM 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 63.50 5.00 Table 16.3-8 MAPLHGR Limits Bundle Type: GE14-PIODNABI47-NOG-lOOT-150-T6-2893 (GE14C)

Average Planar Exposure MAPLHGR Limit GWdIMT GWd/ST kWM 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 63.50 5.00 Table 16.3-9 MAPLHGR Limits Bundle Type: GEI4-PI ODNAB419-16GZ- I OOT-I 50-T6-2894 (GE 14C)

Average Planar Exposure MAPLHGR Limit GWdIMT GWdIST kWM 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 X 63.50 5.00 Page 58

BROWNS FERRY I 0000-0043-8325-SRLR ID-l-.A A Revision 1 IGilUa U Table 16.3-10 MAPLHGR Limits Bundle Type: GE14-PIODNAB368-15GZ-IOOT-150-T6-2895 (GE14C)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST kWM 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 63.50 5.00 Table 16.3-11 MAPLHGR Limits Bundle Type: GE14-PIODNAB402-19GZ-lOOT-150-T6-2896 (GE14C)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST kWM 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 63.50 5.00 Table 16.3-12 MAPLHGR Limits Bundle Type: GE13-P9DTBI63-NOG-IOOT-146-T6-2888 (GE13)

Average Planar Exposure MAPLHGR Limit GWd/MT GWd/ST LWM 0.00 0.00 13.42 21.74 19.72 13.42 30.00 27.22 12.29 70.00 63.50 8.90 Page 59

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Table 16.3-13 MAPLHGR Limits Bundle Type: GE14-PIODNAB377-17GZ-IOOT-150-T6-2897 (GE14C)

Average Planar Exposure MAPLHGR Limit GWdIMT GWd/ST kWM 0.00 0.00 12.82 21.09 19.13 12.82 63.50 57.61 8.00 70.00 63.50 5.00 Page 60

BROWNS FERRY 1 0000-0043-8325-SRLR RD.1,_A

._Iw W i Dattlin" 1l The single-loop operation multiplier on LHGR and MAPLHGR, and the ECCS analytical initial MCPR values applicable to each fuel type in the new cycle core are shown in the table below.

Table 16.3-14 Initial MCPR and Single Loop Operation LHGR and MAPLHGR Multiplier Fuel TypeFuelype Inital MCPR lIntial CPR Single MAPLHGR land Loop Operation LHGR Multiplier GE13 1.250 0.87 GE14C 1.300 0.90 16.4 References The SAFER/GESTR-LOCA analysis base report applicable to the new cycle core is listed below.

References for GE13

1. Browns Ferry Nuclear Plant Units 1, 2 and 3 SAFER/GESTER-LOCA Loss-of-Coolant Accident Analysis Change, NEDC-32484P, Revision 6, February 2005.

References for GE14C

1. Browns Ferry Nuclear Plant Units 1, 2 and 3 SAFER/GESTER-LOCA Loss-of-Coolant AccidentAnalysis Change, NEDC-32484P, Revision 6, February 2005.

Page 61

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision I 60 1~ggE+J 58 msm zm m mm 56 E E] E]lE [E] 1 E] E EAEA] E]

54 jEgJ F~l DEEE oo1 I, i 4861 52 E3] EA[D I1LJ K [D_[!

EJ E [C~l[E l~ El [E E] [E]g E1[EIIIg111!13[IBE11m [IC][IC [LE](E][E]

50 L 1K K EI IE E WE ; iiSIjii8WE PO 0J1E E 44[mB1E [LD USl [1E E1E zE E] [KE ET1

+]EL [D+1[B 46 Ad K3 10 19E E 1 1 l &EN DOM M DD i 1o 42 AL[IED QQIQE E ((! 0E K 40 LI ra F1 I~tmmn 38 28ElW ATCT F~ TEQ ElmWE] E~ll E101@ GhI[ElJOEE10TEl ElFI zzm~

E3 Ell =311 W+E m 32 24 j = E EE l rJ m DrF~ l CEl 30 16 [E7[E EQl 10 ID JDmE]3 EG L] E] [9 F2] {E7]H7 D1011 E1

[I E19 Wgil~l IDFg imi 1E W[ElEl [El MIDl~

[El

[EIFF El FE

[ElE 140 Eli00E00 El l EJ Il Elm IMEN E]L EJE]E EkD rE]EJ Eff]E- El 0[ E]E]

26 Ej1 19[ E [E] [D1E E]J[ E 3 EMODE 18 ECE 1 EE] Elo IJEl ID[DIE 01fElIDl 19El [51 E 6 E ED] ED] El 2E CM MA D E 1 3 5 7 911 131517 1921 232 2729 31 33353739414345474951 53555759 Fuel Type A=GE13-P9DTB391-13GZ-lOOT-146-T6-3964 (Cycle 13) H=GE14-PIODNABI47-NOG-IOOT-150-T6-2893 (Cycle 7)

B=GE14-PIODNAB200-3GZ-IOOT-150-T6-2609 (Cycle 13) I=GE14-PIODNAB419-16GZ-IOOT-150-T6-2894 (Cycle 7)

C=GE13-P9DTB156-NOG-lOOT-146-T6-2887 (Cycle 7) J=GE14-PlODNAB368-15GZ-IOOT-150-T6-2895 (Cycle 7)

D=GE14-PIODNABI57-NOG-IOOT-150-T6-2889 (Cycle 7) K=GE14-PIODNAB402-19GZ-IOOT-150-T6-2896 (Cycle 7)

E=GE14-PIODNAB377-16GZ-IOOT-150-T6-2890 (Cycle 7) L=GE13-P9DTB163-NOG-IOOT-146-T6-2888 (Cycle 7)

F=GE14-PIODNAB402-16GZ-lOOT-150-T6-2891 (Cycle 7) M=GE14-PIODNAB377-17GZ-IOOT-150-T6-2897 (Cycle 7)

G=GE14-PIODNAB350-16GZ-IOOT-150-T6-2892 (Cycle 7)

Figure 1 Reference Core Loading Pattern Page 62

BROWNS FERRY I 0000-0043-8325-SRLR Reload

• .W-VU AV w~ll 0-i - 1 I

a100.0 i ~IO.U 25.0 50.0 0.0 -25.0 Ci.o 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Rae (sec)

R1) - Vid Reactvity x Doppler ReacMi 150.0 1.0 Scram Read'

._ Total Reactivity

,5 100.0 0.0 -2.0 0.0 5.0 10.0 5.0 20.0 -1.00.0 s.0 15.0 20.0

,mre (sec) Time (sec)

Figure 2 Plant Response to FW Controller Failure (MOC ICF (HBB))

Page 63 I

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision I 200.0 150.0 A1 4 100.0 0.0 3.0 6.0 0.0 3.0 6.0 Tume (sec) Tm (sec) 200.0 a

E as 100.0 5

0 S

3 cu 0.0 0.0 ao 6.0 0.0 3.0 6.0 Trm (sec) Trm (sec)

Figure 3 Plant Response to Load Rejection w/o Bypass (MOC ICF (HBB))

CD7-Page 64

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0 la 100.0 0.0 10.0 20.0 0.0 10.0 20.0 Time (sec) Time (sec)

- LeveI(irch-REF-SEP-SKRT)

-* Vessel Stearn Fow 150.0 A Turbine Steam FlRo 1.0

--+ Feetwater Flow

, 100.0 t 4) t 4E 1t 1

so.0 X -1.0 0.0 -2.0 0.0 10.0 20.0 0.0 10.0 20.0 Tum (sec) Time (sec)

Figure 4 Plant Response to Inadvertent HPCI /L8 (MOC ICF (HBB))

Page 65

BROWNS FERRY I 0000-0043-8325-SRLR DelphiJ £ KcluuU O ?ani-inm 1 fl%\V.atI I

. 75.0 A100.0 25.0

-25.0., i 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Tm (sec) Time (sec) 150.0 of a0 100.0 4..

0 4E A.

0.0 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Tre (sec) Time (sec)

Figure 5 Plant Response to FW Controller Failure (EOC ICF (HBB))

Page 66

BROWNS FERRY I 0000-0043-8325-SRLR D-la.A 4 Revision rvxwuau U I-100.0 100.0 6.0 0.0 -

0.0 3.0 6.0 0.0 30 Rune (Sec) rme (sec) 40

', 100.0 AJ 0

U 4,

0.0 3.0 6.0 0.0 30 6.0 Trne (sem) Tia (see)

Figure 6 Plant Response to Load Rejection w/o Bypass (EOC ICF (HBB))

COOS Page 67

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision 1 0.0 10.0 20.0 0.0 10.0 200 Time (see) Tune (sec) 150.0 Ft c

,, 100.0 a 0.

44 4.

50.0 0.0 10.0 20.0 0.0 10.0 20.0 Thne (sem) Tine (see)

Figure 7 Plant Response to Inadvertent HPCI /L8 (EOC ICF (HBB))

Page 68

BROWNS FERRY I 0000-0043-8325-SRLR D -An A; pievicion lxslu"U w 1 200.0 A 100.0 25.0 50.0 0.0 -25.0 C0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Trae (sec) Tri (see)

~RT) -e Void Reactivity

- Doppler Reacivit 150.0 1.0 Scram Reactivt

. Total ReactMty 100.0 0.0 4.

U.

4 -1.0

-2.0 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Tro (see) -rum (see)

Figure 8 Plant Response to FW Controller Failure (MOC MELLLA (HBB))

cf-7 Page 69

I --

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0 150.0 4)

A 100.0 50.0 0.0 00 3.0 6.0 0.0 3.0 6.0 TR e (sec) Trm (sec)

Y4 4) to 100.0 0 I2 0

U 44 04 0.0 3.0 6.0 0.0 3.0 6.0 Time (sec) Tim (sec)

Figure 9 Plant Response to Load Rejection w/o Bypass (MOC MELLLA (HBB))

Cast%

Page 70

BROWNS FERRY I 0000-0043-8325-SRLR PAlnad1 A Wo-.;c;^r- 1 BROWNS FERRY L 14 la 0.0 10.0 20.0 0.0 10.0 20.0 Tne (sec) Tme (sec)

-s- vel(inch-REF-SEP-SKRT)

- Vessel Steam Flow 150.0 I A Turbine Steam Fklw

-+-. Feedwater Flkw 6

W@s 6 0 le100.0 2

4) t 0

i; 4D A.V 4) 0.0 l 0.0 10.0 20.0 0.0 10.0 20.0 Time (sec) rm (sec)

Figure 10 Plant Response to Inadvertent HPCI /L8 (MOC MELLLA (HBB)1)

Page 71

BROWNS FERRY I 0000-0043-8325-SRLR RplnnA fi Revikin 1 200.0 150.0 A 100.0 50.0 Q0.

0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Tue (sec) Tine (sec) 150.0 1.0 Khai u-iy 1.0 +.- Total Reactivity r 100.0 a 40 i;

02.0 0.0 0.0 5.0 10.0 5.0 20.0 0.0 5.0 100 15.0 20.0 Time (sec) Tine (sec)

Figure 11 Plant Response to FW Controller Failure (EOC MELLLA (HBB))

qIa Page 72

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I E Dome Press Rise (psi)

% Safebty Vah Raw MOD.0 te, Relief Valve Flow

-.- Bypass Valve Flow 2.0 .0 100.0 o0o I Y I 0.0 3.0 6.0 0.0 30 6.0 TrMI (sec) Tme (sec)

E to 100.0 a

'I 31 U

00 3.0 6.0 0.0 3.0 6.0 Tune (sec) Time (sec)

Figure 12 Plant Response to Load Rejection w/o Bypass (EOC MELLLA (HBB))

CTI Page 73

BROWNS FERRY lIeiso Reloa 0 0 0 0 - 0 0 4 3 -8325-SRLR io 2D00.

160.0 j-.O 0.0 10.0 0.0 10.0 Time (sec) Tue (sec)

Figure 13 Plant Response to Inadvertent HPC1 1L8

( EOC MELLLA (HBB) )

Page 74

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 0.0 I , I,lI.. , , -25.0 1 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Tim (sec) Time (sec) a3Void Reacftiy m Doppler Reactivt 150.01 1.0 - Scran ReactityN4

+ Tote Reactivity 50 100.0 a o3 0.01- m*4-

E 50.0 A -1.0)I.

,W .A -2.0 I l l l ' '

0.0 5.0 10.0 15.0 20.0 0.0 50 10.0 15.0 20.0 Tm (sec) Tre (Sec)

Figure 14 Plant Response to FW Controller Failure

( EOC ICF (UB) )

Pg 3 Page 75

BROWNS FERRY I 0000-0043-8325-SRLR DAnnA tA R0 vi;inn 1I 41 i100.0 0.0 3.0 6O 0.0 3.0 6.0 Time (see) Tune (sCC)

- Level(irdc-REF-SEP-KRT)

-- Vessel Steam Flow 200.0 -- Turbine Steam Flow

_ Feedwater Flow I

100.0 I

I) 0 I

A0 0.0

, 6

-100.0 0.0 3.0 6.0 0.0 3.0 6.0 Time (see) Tune (sec)

Figure 15 Plant Response to Load Rejection w/o Bypass (EOC ICF (UB))

C)+

Page 76

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Reviqion I 200.0 150.0 4T A 100.0 00 10.0 20.0 0.0 10.0 20.0 Tint (sec) Tnne (sec) a

-.1 I'9 4)

A.

0.0 10.0 20.0 0.0 10.0 20.0 TRae (sec) Time (sec)

Figure 16 Plant Response to Inadvertent HPCI /L8 (EOC ICF (UB))

0_15 Page 77

BROWNS FERRY 1 0000-0043-8325-SRLR RQlndA A Rppi Siren, 1 lvosa r vluL 125.0 X0 75.0 25.0 0.01IlR I -25.0 0.0 10.0 20.0 10.0 0.0 20.0 Time (sec) rmw (sec) a 100.0 o 0.0 - - -

4 0

C.,

04 -1.0

-2.0 0.0 10.0 20.0 0.0 10.0 20.0 I ime (sec) Time (sec Figure 17 Plant Response to FW Controller Failure (EOC MELLLA (UB))

CR)

Page 78

BROWNS FERRY I 0000-0043-8325-SRLR Relond A Revision I 200.0 150.0 i 100.0 50.0 no 3.0 60 0.0 30 6.0 Tine (sec) Tr e (sec) e 100.0 0 4) 0 U

04 0.0 3.0 6.0 0.0 3.0 6.0 True (sec) rune (sec)

Figure 18 Plant Response to Load Rejection w/o Bypass (EOC MELLLA (UB))

Page 79

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0

4) 4o 0.0 10.0 20.0 0.0 10.0 20.0 TRa (sec) Time (sec) ae Void Reactivit

- Doppler Reatiy 150.0 1.0 A Scram Reactivity

- Total Reactit

£ X 100.0 4) 0.0 h~-e =t8- -8 0'

Ut 4)

-1.01 0.0 10.0 20.0 0.0 10.0 20.0 Time (sec) Ymu (sec)

Figure 19 Plant Response to Inadvertent HPCI /L8 (EOC MELLLA (UB))

C r Page 80

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 2Do.0 s Nubro FILDr/ 10 m Ave Surface Heat FIluw

-frCore Inlet Flow

- Core Inlet Subcooling 150.0 5100.0 4) 50.0 i --a 0.0 1 I i  ;

o 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Tmie (sec) Tme (sec) 150.0 a

10 100.0 0 2

0 w5.

t) 50.0 0.0 0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Tru(Sec) T m(re)

Figure 20 Plant Response to FW Controller Failure (MOC ICF & FWTR (HBB))

Page 81

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0 r

• o Neutron Flux /10l - Dome Press Rise (psi) x Ae Surboce Heat Rux Saft Vake Row

,&Core Inlet Flow 125.04 ReliefWVae( Row sCore Inlet Subcooling _ Bypass Vahe Flow I

_ HPC1 Row(% FW) 150.0 1 A .0 75.0 1I 100.0 50.0 25.0 +

_ $_ $l eH

_1 nia- o o1 o oo 0.0 l l *, -25.0 0.0 10.0 20.0 0.0 10.0 200 Thme (sec) Time (sec) 4..

a la 0 2

4 4..

0.0o 0.0 10.0 20.0 0.0 10.0 20.0 Trne (sec) Trne (sec)

Figure 21 Plant Response to Inadvertent HPCI /L8 (MOC ICF & FWTR (HBB))

CPag 8 Page 82 MEMEMMEM

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I a NeutnFlux/10

-*-Ave Surface Hat Rux

-- Core kId Flow

- Core net Subcooling 150.0

- dAy A100.0 If~~

50.01 50- 0i 00 I_-0.

0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Thne (sec) -rm(sec) 1.0 a

10 100.0 I 0.0 2

4 I

.11 X -1.0

-2.0 0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Trim (sec) rm (see)

Figure 22 Plant Response to FW Controller Failure (EOC ICF & FWTR (HBB))

Page 83

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I Ii aDomne Press Rise (psi) xSafety Vahe Flow 125.0 + A Reief aho Flu s Bypass \blve Flow

_ HPCI Rowy (%FWV) 4J V075.0 +

25.0 fO'H 0

-25.0 00 10.0 20.0 0.0 10.0 20.0 Thm (sec) Trme (see) 150.0

.5 100.0 4..

~.P (5,

50.0 0.0 10.0 20.0 0.0 10.0 20.0 Time (sec) Tur (sec)

Figure 23 Plant Response to Inadvertent HPCI /L8 (EOC ICF & FWTR (HBB)1)

( T.-7 Page 84

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I AU .U a NuranFu/10 xAve Surface Heat Flux I Core Inlt Flow 125.0

_ Core Inlet Subcooing9 150.0 A

X 75.0 4 100.0 25.0 50.0 1 B B U 0.0 5.0 -25.0 0.0 0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Tmx (Sec) ,rm(sec) 150.0 60 la 100.0 4.

U 50.0 0.0 0.0 5.0 100 15.0 0.0 5.0 10.0 15.0 rue (sec) -rum(c)

Figure 24 Plant Response to FW Controller Failure (MOC MELLLA & FWTR (HBB))

Page 85

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I ZLJU.U a NebFlx/ 10 Ae Surfae Heat Ru P f A Core Inlet RIow

• Core InletSuoing I 150.0

_ ~ A

• 0 *0 4J A 100.0 G -

50.0 O B O O B O O l 0.0 -

0. 10.0 20.0 0.0 10.0 20.0 Tmu (sec) Tim (sec) 0 la 2 M

Q

)

• 5 CS 0.0 10.0 20.0 0.0 10.0 20.0 Time (sec) Time (sec)

Figure 25 Plant Response to Inadvertent HPCI /L8 (MOC MELLLA & FWTR (HBB)1)

Cfi4-Page 86

BROWNS FERRY I 0000-0043-8325-SRLR

.1--~a Rean t RPevdti-n 1

.\VJ\I a Nbutron FIx/ 10 xAve Surface HetFluxf e Core Inlet Flow s Core IneSubcooling 150.0 04

] n o u 0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Timle (Sec) Tum (sec)

'9 a

a la C TO a.C U

0.0 5.0 10.0 15.0 0.0 5.0 1.0 15.0 rum (seW) Tmwe (see)

Figure 26 Plant Response to FW Controller Failure (EOC MELLLA & FWTR (HBB))

Page 87

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 20.0 150.0

$; 100.0 4J 50.0 Qo 10.0 20.0 0.0 10.0 20.0 Tue (sec) rme (sec) 0 100.0 aC3 te w

4J '9 U

w Q51 Y.

0.0 10.0 20.0 0.0 10.0 20.0 Tr (Se) m (eec)

Figure 27 Plant Response to Inadvertent HPCI /L8 (EOC MELLLA & FWTR (HBB)1)

Ca 88CP Page 88

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I

• 0 4J 0.0 5.0 10.0 15.0 0.0 5.0 10M0 15.0 rmc (sec) Tur (sec) 1.0 a

I 0.0 4E.

Q X -1.0

-2.0 0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Tnne (sec) Time (sec)

Figure 28 Plant Response to FW Controller Failure (EOC ICF & FWTR (UB))

Page 89

BROWNS FERRY I 0000-0043-8325-SRLR Reload . Revision I aDomTe Press Rise (psi) xSafey Vhe Flw 125.0 [ & Relief Vave Flow

+ Bvus Wlv Rows

+ HPCI Flow (% FW) la ,, 75.0 2

4

.-I 25.0

+

if ,

-25.0 l 0.0 10.0 20.0 0.0 10.0 20.0 Tfim (sec) Tum (sea) 0 10210D a N

t A.

0.0 10.0 20.0 0.0 10.0 20.0 Tnne (sea) Time (sec)

Figure 29 Plant Response to Inadvertent HPCI /L8 (EOC ICF & FWTR (UB))

CP s9 Page 90

BROWNS FERRY I 0000-0043-8325-SRLR Reloand 6 Rvcnirsnn 1 200.0 I s e ltub nnFILux/10

- Ave Surface l

--- Core Inlet Fla

- Core Inlet ing 150.0 I

1 5 4 100.0

_ a 50.0) 0o0 10.0 20.0 0.0 10.0 20.0 Tune (sec) mme (Sec)

U C;

a, 100.0 0 a

0 4)w 0.0 _-

0.0 10.0 20.0 0.0 10.0 20.0 Time (sec) Time (sec)

Figure 30 Plant Response to FW Controller Failure (EOC MELLLA & FWTR (UB))

cg 91 Page 91

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I e

AJ.U E3Neutronlu/10 \

) e Surfa eat R r \

6 Core Ilet Flow

1. Cor net Subco I X 150.0 It laJ 1100.0 aI 'N 50.0

- - - -- - AI oo oo o --

nn 0.0 10.0 20.0 0.0 10.0 20.0 rum (sec) Tnme (sec) 0 a

a U

4.

0.0 10.0 20.0 0.0 10.0 20.0 Tine (sec) Time (sec)

Figure 31 Plant Response to Inadvertent HPCI /L8 (EOC MELLLA & FWTR (UB))

Page 92

BROWNS FERRY I 0000-0043-8325-SRLR

.I]-nA -A Revinion 1.

200.0 25.0

-25.0 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 TUm (sec) Tine (see)

-s- Void Reactivity

-* Doppler Reaci 50.0 1.0 Scram Reactty

. Total Reactivity 10100.0 0.0 A a a 50.0 -1.0

-2.0 0.0 5.0 10.0 15.0 20.0 0.0 50 10.0 15.0 20.0 Tmae (see) -nue (see)

Figure 32 Plant Response to FW Controller Failure (MOC ICF with RPTOOS (HBB))

Page 93 I.

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 2DO.0

-a Dome Press Rise (psi)

SaR Vahe low 30D.0 I

• Bypass Vbe Raw 150.0 20D0.0 A100.0 100.0 50.0

a. - 1 -

0.0 3.0 6.0 0.0 3.0 6.0 Time (sec) Time (sec) 10100.0 0 a

U t

'4 0.0 3.0 6.0 0.0 3.0 6.0 Tune (Sec) Trme (Sec)

Figure 33 Plant Response to Load Rejection w/o Bypass (MOC ICF with RPTOOS (HBB))

Page 94

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 2000 150.0 10 10 S

100.0 A

.1I 0.0 10.0 20.0 0.0 10.0 20.0 Tune (sec) Tune (sem) 150.0 a

It 100.0 1) 0 U

45 50.0 94 0.0 10.0 20.0 0.0 10.0 20.0 Tune (seM) Tm (sec)

Figure 34 Plant Response to Inadvertent HPCI 1L8 (MOC ICF with RPTOOS (HBB))

Page 95

BROWNS FERRY I 0000-0043-8325-SRLR DR-,.0 A A

- R,-uieinn 1.

200.0 -

150.0

- f1.u A 100.0 _

25.0 50.0 0.0 -25.0 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Time (sec) -rMw (eec)

RT) a Void Reactivity

- Doppler Reactivit 1.0 -s Saran Reactivity

-. + Total Reactivity 10 100.0 o0.0 0 D _

4

-1.0

-2.0 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0

-rae (Sec) Time (sec)

Figure 35 Plant Response to FW Controller Failure

( EOC ICF with RPTOOS (HBB) )

Page 96

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0 0.0 3.0 6.0 0.0 3.0 6.0 Trne(sec) -rue(sec) a

C v

0.0 3.0 6.0 0.0 3.0 Time (sec) rawn (sec)

Figure 36 Plant Response to Load Rejection w/o Bypass (EOC ICF with RPTOOS (HBB))

Page 97

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I S

0.0 10.0 20.0 10 0.0 10.0 20.0 Tine (Sec) Toe (sec)

-vel(inch-REF-SEP-SKRT)

\ftsse Stearn Flow 150.0 - Turbine Steam Flw

-.-- Feedceater Flow a.

,, 100.0 WA z M:I2 Q

a 0

0 S.

50.04 I

0.0 I-0.0 10.0 20.0 0.0 10.0 20.0 Time (sec) Tune (sec)

Figure 37 Plant Response to Inadvertent HPCI /L8 (EOC ICF with RPTOOS (HBB)1) ae 9 Page 98

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision I A 100.0 00 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Tune (sec) Tm (sec) or la 100.0 aS 0

0.J 4) 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Time (sec) Tuie (See)

Figure 38 Plant Response to FW Controller Failure (MOC MELLLA with RPTOOS (HBB))

C-a Page 99

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0 0.0 30 6.0 0.0 ao 6.0 rme (sec) Tine (sec) 411)

, 100.0 0

It t

C 4.

0.0 30 6.0 0.0 3.0 6.0 Trim (sec) Time (sec)

Figure 39 Plant Response to Load Rejection w/o Bypass (MOC MELLLA with RPTOOS (HBB))

Page 100

BROWNS FERRY I 0000-0043-8325-SRLR Relnad A D-.irinn 1L VIaIviII 1

I 200.0 a utomlRux/10

- Ave Surface Heat Flux

-s- Core Inlet Raw

- Core Wet Subcooihng 150.0 la 10 t

A 100.0 4

50.0

, a o a 0 0B e 0.0 0.0 10.0 20.0 0.0 10.0 20.0 Tim (sec) Ymie (sec) 150.0 cC X 100.0 0 2

i Y.Et 0.0 0.0 10.0 20.0 0.0 10.0 20.0 Trme (sec) Time (sec)

Figure 40 Plant Response to Inadvertent HPCI /L8 (MOC MELLLA with RPTOOS (HBB)1)

Page 101

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 Revision I 75 I .u 25.0

-25.0 0.0 5.0 10.0 15.0 20.0 0.0 5.0 100 15.0 20.0 Time (sec) Tuiie (sec)

RT) a Void Reactmty x Doppler Reactivit 150.0 1.0 Scram Reac t

- Total Reactity

,x 100.0 0.0 50.0 -1.0

-2.0 0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0

'rum (SW) Tuw (sec)

Figure 41 Plant Response to FW Controller Failure (EOC MELLLA with RPTOOS (HBB))

CqO Page 102

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I A100.0 N0 QO 3.0 6.0 0.0 3.0 60 Tip (sec) Time (sec) 200.0 a

1% 100.0 a 0

".4 0

U 0.0

-100.0 0.0 30 6.0 0.0 3.0 8.0 TMe (sec) Tue (sec)

Figure 42 Plant Response to Load Rejection w/o Bypass (EOC MELLLA with RPTOOS (HBB))

CP 1 Page 103

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I

\1 e Dome Press Rise (psi) 125.0 Sa~e ~Vahe FlaN

• Bvoass We Flow HPCI FloN

(%FM

,Z 75.0 4J

'N1 25.0 4

_ -oep-

- - "W-A$')

F_

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-- \h ssel Steam Fkow 150.0 -A- Turbine Stearn FloN

+ Feedwater Flow U

10.0 0 V

0 0

S 4..

50.0 04 I

anl r 0.0 10.0 20.0 0.0 10.0 20.0 Tim (sec) ,rum (sec)

Figure 43 Plant Response to Inadvertent HPCI /L8 (EOC MELLLA with RPTOOS (HBB)1)

Page 104 I.

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0 V 100.0 -

50.0 0.0 co.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Tine (sec) -rum (sec) 150.0 e

4, 1a 100.0 0 0

0.

Q Z,

50.0 0.

0.0 5.0 10.0 15.0 20.0 0.0 5.0 10.0 15.0 20.0 Time (sec) Time (sec)

Figure 44 Plant Response to FW Controller Failure (EOC ICF with RPTOOS (UB))

Page 105

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I la 4 100.0 0.0 3.0 6.0 0.0 3.0 6.0 Tint (sec) Time (sec) 4)

ct 10100.0 a

09J 0

u U

4)t 0.0 ao 6.0 .0 3.0

-ru (Sec) Tine (sec)

Figure 45 Plant Response to Load Rejection w/o Bypass (EOC ICF with RPTOOS (UB))

Page 106

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0 A100.0 Qo 10.0 20.0 0.0 10.0 20.0 Tim (sec) Tin (sec) 150.0

,s 100.0 50.0 0.0 10.0 20.0 0.0 10.0 20.0 Tnm (sec) -rm(seM)

Figure 46 Plant Response to Inadvertent HPCI /L8 (EOC ICF with RPTOOS (UB))

Page 107 EMEMEMEEM E-

BROWNS FERRY 1 0000-0043-8325-SRLR D.]-.A{ A Rpvision 1 rv -a v *-Vtf X-0.0 L-0.0 10.0 20.0 0.0 10.0 20.0 Tim (sec) Timm (sec) 150.0

,0 100.0 0.0a 50.0

-10 50.0

-2.0 0.0 10o 20.0 0.0 10.0 20.0

'1tine (sec) Tine (sec Figure 47 Plant Response to FW Controller Failure (EOC MELLLA with RPTOOS (UB))

Page 108

BROWNS FERRY I 0000-0043-8325-SRLR PPI,1RA A 1%Ilv"U v RPAAC!nn 1.

200.0 100.0 0.0 3.0 6.0 0.0 3.0 6.0 Tnru (see) TRe (sec) 200.0 go 10 0

1o 100.0 0.

Ca

.54 CU to 0.0

-100.0 00 3.0 6.0 0.0 3.0 6.0 Tim (sec) rme (sec)

Figure 48 Plant Response to Load Rejection w/o Bypass (EOC MELLLA with RPTOOS (UB))

Page 109

3RONS FERRY I 0 0 0 0 -0 0 4 3 -93 2 5-SRLR Revision I 2o.0 0.0 iCo. 0.0

'Tint (eCC)

-rum (sec)

Figure 4 9 Plant Response to (EOC MELLLA with RPTOOS () Bnadee)t Page 110

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I A2O. I x a Neuftmro ux/ 10 l mAve Surface Heat RIUw ,

.sCore Inlet Rlaw

_ Core Inet Subcooling 150.0 4J A 100.0 N.

50.0

§ o B -u 0.0 .

0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 rem (sec) Tue (sec) a 60 m

Y4S .

0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Time (seM) Timr (sec)

Figure 50 Plant Response to FW Controller Failure (MOC ICF & FWTR with RPTOOS (HBB))

Page 111 MEMEMMEM

BROWNS FERRY I 0000-0043-8325-SRLR D el n Ai PPpAdici 1

.rvMuau w *\.~II 200.0 aNuton Flux/ 10 l Aeu Surface Heat Flux f 6Core Inlet Raw 125.0

_ Core Inlet Subcooling 150.0

.A .0 75.0 1.0 ^ ^ ^  : a t-25.0 50.0 I o o O o o B B i

-25.0 0.0 10.0 20.0 0.0 10.0 20.0 Trm (Sec) rTm (8e) a 4) 1 *00.0 aZ 40 4)

S 0

U 4)B 00 0.0 100 20.0 0.0 10.0 20.0

-rmx (sec) Time (sec)

Figure 51 Plant Response to Inadvertent HPCI /L8 (MOC ICF & FWTR with RPTOOS (HBB))

CSO Page 112

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 2M0.0 I t Neutron Flux/ 10

-( Ave Surface Float Flux a Core Inlet Roa

- Core Inlet Subcooling 150.0 l0 la

'100.0 4.

50.0 II-.U 0.0 g I 0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Time (sec) Tue (sec) 150.0 0

0 Ow 4.

4..

50.0 0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Trm (sec) Time (sec)

Figure 52 Plant Response to FW Controller Failure (EOC ICF & FWTR with RPTOOS (HBB))

Page 113

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision 1 2M.0 150.0 C; 10.0 le 0O. 10.0 20.0 0.0 10.0 20.0 TRa (see) Time (see) 1EM10 P9.

U 50.0 0.0 0.0 10.0 20.0 0.0 10.0 200 TRa (sec) Time (see)

Figure 53 Plant Response to Inadvertent HPCI 1L8 (EOC ICF & FWTR with RPTOOS (HBB))

Page 114

BROWNS FERRY I 0000-0043-8325-SRLR

.PI-A A Rpvkinn 11.Muu - 1.

200.0 e Neti RLD / 107

)(Ave Surface Heat RILDI 6 Core hind Rxow

_ Core hinle Suboing l 150.0 10 4) p 1.wm A

50.0 o o a 0.0o 5.0 0.1 o s.o 10.0 15.0 0.0 5o 10.0 15.0 rm (sec) Tm (sec)

VoW Reactivit pIer Reactivity 150.0 1.0I Scram React*

_. TotalI Reactiiy a

4..

10 10D.0 I.

I a 0.0

E 5.0 5D.0

-2.0 , li 0.0 5.0 iQO0 15.0 0.0 5.0 10.0 15.0 Trm (Sec) Trm (sec)

Figure 54 Plant Response to FW Controller Failure (MOC MELLLA & FWTR with RPTOOS (HBB))

Page 115 I

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I 200.0

-e uton Flux / 10

- Ave Surface Heat Flux

-* Core Inlet Flow

-+- Core Inlet Subcooling 150.0 Wla 1

N-50.0

. -I fl ro ri ai p u.u I 0.0 10.0 20.0 0.0 10.0 20.0 Tme (sec) Time (sec) 150.0 ZI

, 100.0 0 2

0 U

50.0 0.0 10.0 20.0 0.0 10.0 20.0 Tint (sec) Timn (sec)

Figure 55 Plant Response to Inadvertent HPCI /L8 (MOC MELLLA & FWTR with RPTOOS (HBB))

Page 116

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I ZW.W xnn 0 s eNemRux/10 ) \

mAve Surtace Heat FluxI a&Coe Irnkt Faw s Core I*SubcoofirgI 150.0

~A 4J vU 100.0 50.0 B o o 0.0 5.0 10.0 150 0.0 5.0 10.0 15.0 Tim (sec) Rme (see) l .00.0 c 0

0.

U S 0

U 0.0 5.0 100 15.0 0.0 5.0 10.0 15.0 Time (sec) Time (sec)

Figure 56 Plant Response to FW Controller Failure (EOC MELLLA & FWTR with RPTOOS (HBB))

Page 1 17

BROWNS FERRY 1 0000-0043-8325-SRLR Reload 6 ReiIn1 PpIxmxx i 7nn n a et Flu/ 1 I

)(Ave Surface Ilbat Flux Core Inlet Flowi

• Cor nltSuw ing f 1so.0

\a c c\

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- Doppler Reactiv 150.0 1.0I - Scram Reacty

_ Total React*

1'n.0.

4 a

'4

'N 100.0 on 0

'9 A-IA

.. II 0.0 -z.u - ll1 0.0 10.0 20.0 0.0 10.0 20.0 Tm (sec) Time (sec)

Figure 57 Plant Response to Inadvertent HPCI /L8 (EOC MELLLA & FWTR with RPTOOS (HBB))

csL; Page 118

BROWNS FERRY I 0000-0043-8325-SRLR Reload A tv~tv v R1.

A1I.O.M11i I ZA.U . { 9 alebmFux /10 l x Ae Surice FWRux a Core kiW Flow, o+Corellet Subcoofirg 150.0

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^ . ^

A 100.0 50.0 N

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, 100.0 i;

a

E 0

4) 50.0 0.0 5.0 100 15.0 0.0 5.0 10.0 15.0 Tim (sec) Timn (sec)

Figure 58 Plant Response to FW Controller Failure (EOC ICF & FWTR with RPTOOS (UB))

P ag-Page 1 19

BROWNS FERRY I 0000-0043-8325-SRLR DP1,-nA Ixtlmuau "SV RQpi 0rmn I

II 200.0 3

A 100.0 50.0 0.0 CW.0 10.0 20.0 0.0 10.0 20.0 Tue (sec) Tin (8mc) 150.0 E

10100.0 0

04 U

0.0 10.0 20.0 0.0 10.0 20.0 Trm (sec) Time (sec)

Figure 59 Plant Response to Inadvertent HPCI /L8 (EOC ICF & FWTR with RPTOOS (UB))

c;9t Page 120

BROWNS FERRY I 0000-0043-8325-SRLR n - I A ^I; R Ikrluau 0 ni--inn 1I.

fliVnoIUI AXJ.U a Neutron Flux/ 10 Ave Surface eat fux

-s Core Inlet Flow

- Core Inlet Subcooling 150.0 4J 4100.0 50.0

-l o I 0.0 ,I , I 0.0 5.0 10.0 15.0 0.0 5.0 10.0 15.0 Time (sec) Tinx (sec)

-- - Void Reactity

- Doppe Reactivity 150.0 1.0 - Sam Reactivity

- Total Reactivity 4-l 100.0 0.0 \ A ~E 4:1 19 -1.0

-2.0 0.0 5.0 10.0 15.0 0.0 5.0 10.0 150 Time (sec) -rmx (sec)

Figure 60 Plant Response to FW Controller Failure (EOC MELLLA & FWTR with RPTOOS (UB))

C-Page 121

BROWNS FERRY I 0000-0043-8325-SRLR Reload 6 Revision I NeLtron Rux /10 x Ave Surface Heat Rux

- Core Inlet Raw

-- Core Inlet Subcooling 150.0 4.'

C 100.0 50.0 N%

n. ii E o 0- f -

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I:

- Void Reactivity

-* Doppler Reactivity 1.0 -t- Scram Reactivt

+ Total Reactiity a

a la 100.0 o 0.0 M-A-MAft C4 11 a.

(4 a'E A -1.0

-2.0 0.0 10.0 20.0 0.0 10.0 20.0 Time (sec) Tint (sec)

Figure 61 Plant Response to Inadvertent HPCI /L8 (EOC MELLLA & FWTR with RPTOOS (UB))

C G-Page 122