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{{#Wiki_filter:Post Office Box 2000, Decatur, Alabama 35609-2000 September 25, 2025 10 CFR 50.4 ATTN: Document Control Desk U.S. Nuclear Regulatory Commission Washington, D.C. 20555-0001 Browns Ferry Nuclear Plant, Units 1, 2, and 3 Renewed Facility Operating License Nos. DPR-33, DPR-52, and DPR-68 NRC Docket Nos. 50-259, 50-260, and 50-296
 
==Subject:==
Browns Ferry Nuclear Plant, Core Operating Limits Report for Unit 1 Cycle 16 Operation, Revision 1; Unit 2 Cycle 24 Operation, Revision 1; and Unit 3 Cycle 22 Operation, Revision 1.
 
==References:==
: 1. Browns Ferry Nuclear Plant, Unit 1 Core Operating Limits Report for Cycle 16 Operation, Revision 0
: 2. Browns Ferry Nuclear Plant, Unit 2 Core Operating Limits Report for Cycle 24 Operation, Revision 0
: 3. Browns Ferry Nuclear Plant, Unit 3 Core Operating Limits Report for Cycle 22 Operation, Revision 0 In accordance with the requirements of Technical Specification (TS) 5.6.5.d, the Tennessee Valley Authority (TVA) is submitting an update to the Browns Ferry Nuclear Plant (BFN), Unit 1, Cycle 16 Core Operating Limits Report (COLR). Revision 0 (Reference 1) of the Unit 1 COLR included all Modes of operation (Modes 1 through 5). Revision 1 adds section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3), and defines associated acronyms for Overpressure Protection System (OPS) and Safety Relief Valve (SRV).
Additionally, TVA is submitting an update to the BFN, Unit 2, Cycle 24 COLR. Revision 0 (Reference 2) of the Unit 2 COLR included all Modes of operation (Modes 1 through 5).
Revision 1 adds section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3), and defines acronyms for OPS and SRV.
Finally, TVA is submitting an update to the BFN, Unit 3, Cycle 22 COLR. Revision 0 (Reference
: 3) of the Unit 3 COLR included all Modes of operation (Modes 1 through 5). Revision 1 adds section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3), and defines acronyms for OPS and SRV.
 
U.S. Nuclear Regulatory Commission Page 2 September 25, 2025 There are no new regulatory commitments in this letter. If you have any questions, please contact D. J. Renn, Nuclear Site Compliance Manager, at (256) 729-2636.
Respectfully, Daniel A. Komm Site Vice President
 
==Enclosures:==
: 1. Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 1 Cycle 16 Operation, TVA-COLR-BF1C16, Revision 1
: 2. Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 2 Cycle 24 Operation, TVA-COLR-BF2C24, Revision 1
: 3. Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 3 Cycle 22 Operation, TVA-COLR-BF3C22, Revision 1 cc: (w/ Enclosure)
NRC Regional Administrator - Region II NRC Senior Resident Inspector - Browns Ferry Nuclear Plant NRC Project Manager - Browns Ferry Nuclear Plant Tennessee Valley Authority Browns Ferry Nuclear Plant Unit 1 Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 1 Cycle 16 Operation, TVA-COLR-BF1C16, Revision 1 (See Attached)
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page ii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table of Contents Total Number of Pages = 53 (including review cover sheet)
List of Tables................................................................................................................................. iii List of Figures.............................................................................................................................. iv Revision Log................................................................................................................................. v Nomenclature............................................................................................................................... vi References.................................................................................................................................. viii 1
Introduction.......................................................................................................................... 1
1.1
Purpose......................................................................................................................... 1
1.2
Scope............................................................................................................................ 1
1.3
Fuel Loading.................................................................................................................. 2
1.4
Acceptability.................................................................................................................. 2
2
MCPR99.9% Safety Limit........................................................................................................ 3
3
APLHGR.............................................................................................................................. 4
3.1
Rated Power and Flow Limit: APLHGRRATED................................................................. 4
3.2
Off-Rated Power Dependent Limit: APLHGRP.............................................................. 4
3.2.1
Startup without Feedwater Heaters....................................................................... 4
3.3
Off-Rated Flow Dependent Limit: APLHGRF................................................................. 4
3.4
Single Loop Operation Limit: APLHGRSLO..................................................................... 4
3.5
Equipment Out-Of-Service Corrections......................................................................... 6
4
LHGR Limits......................................................................................................................... 7
4.1
Rated Power and Flow Limit: LHGRRATED...................................................................... 7
4.2
Off-Rated Power Dependent Limit: LHGRP................................................................... 7
4.2.1
Startup without Feedwater Heaters....................................................................... 7
4.3
Off-Rated Flow Dependent Limit: LHGRF...................................................................... 8
4.4
Equipment Out-Of-Service Corrections......................................................................... 8
5
OLMCPR Limits................................................................................................................. 12
5.1
Flow Dependent MCPR Limit: MCPRF....................................................................... 12
5.2
Power Dependent MCPR Limit: MCPRP.................................................................... 12
5.2.1
Startup without Feedwater Heaters..................................................................... 12
5.2.2
Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)................................. 13
5.2.3
Exposure Dependent Limits................................................................................ 13
5.2.4
Equipment Out-Of-Service (EOOS) Options....................................................... 14
5.2.5
Single-Loop-Operation (SLO) Limits................................................................... 14
5.2.6
Flow Flags........................................................................................................... 14
6
Thermal-Hydraulic Stability Protection............................................................................... 35
7
APRM Flow Biased Rod Block Trip Settings...................................................................... 37
8
Rod Block Monitor (RBM) Trip Setpoints and Operability.................................................. 38
9
Shutdown Margin Limit....................................................................................................... 40
10
Overpressure Protection System....................................................................................... 41
Appendix A:
MBSP Maps...................................................................................................... A-1
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page iii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 List of Tables Nuclear Fuel Types0F0F0F................................................................................................................. 2
MCPR99.9%..................................................................................................................................... 3
APLHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel.............................................................. 5
Startup Feedwater Temperature Basis......................................................................................... 7
LHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel................................................................... 9
LHGRFACP for ATRIUM 10XM and ATRIUM 11 Fuel............................................................... 10
LHGRFACF for ATRIUM 10XM and ATRIUM 11 Fuel................................................................ 11
Nominal Scram Time Basis......................................................................................................... 13
MCPRF for ATRIUM 10XM and ATRIUM 11 Fuel....................................................................... 15
TLO MCPRP Limits for OSS, BOC to NEOC............................................................................... 16
TLO MCPRP Limits for NSS, BOC to NEOC............................................................................... 17
TLO MCPRP Limits for TSSS, BOC to NEOC............................................................................. 20
TLO MCPRP Limits for OSS, NEOC to EOCLB.......................................................................... 23
TLO MCPRP Limits for NSS, NEOC to EOCLB.......................................................................... 24
TLO MCPRP Limits for TSSS, NEOC to EOCLB........................................................................ 27
TLO MCPRP Limits for OSS, EOCLB to End of Coast.............................................................. 30
TLO MCPRP Limits for NSS, EOCLB to End of Coast............................................................... 31
TLO MCPRP Limits for TSSS, EOCLB to End of Coast............................................................. 33
ABSP Setpoints for the Scram Region....................................................................................... 35
Analyzed MBSP Endpoints: Nominal Feedwater Temperature.................................................. 36
Analyzed MBSP Endpoints: Reduced Feedwater Temperature................................................. 36
Analytical RBM Trip Setpoints18F18F3F............................................................................................... 38
RBM Setpoint Applicability.......................................................................................................... 38
Control Rod Withdrawal Error Results........................................................................................ 39
SRV Lift Setpoints....................................................................................................................... 41
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page iv Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 List of Figures MBSP Boundaries for Nominal Feedwater Temperature.......................................................... A-1
MBSP Boundaries for Reduced Feedwater Temperature........................................................ A-2
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page v Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Revision Log Number Page Description 0
All New document.
1 vii Added OPS and SRV acronyms.
41 Added Section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3).
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page vi Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Nomenclature ABSP Automatic Backup Stability Protection APLHGR Average Planar Linear Heat Generation Rate APRM Average Power Range Monitor BOC Beginning of Cycle BSP Backup Stability Protection BWR Boiling Water Reactor CAVEX Core Average Exposure CMSS Core Monitoring System Software COLR Core Operating Limits Report CPR Critical Power Ratio CRWE Control Rod Withdrawal Error CSDM Cold Shutdown Margin DSS-CD Detect and Suppress Solution - Confirmation Density EOC End of Cycle EOCLB End of Cycle Licensing Basis EOOS Equipment Out-of-Service EPU Extended Power Uprate (120% Original Licensed Thermal Power)
FFWTR Final Feedwater Temperature Reduction FHOOS Feedwater Heaters Out-Of-Service Framatome Vendor (AREVA, Siemens)
GNF Vendor (General Electric, Global Nuclear Fuels)
GWd Giga Watt Day HTSP High Trip Setpoint ICA Interim Corrective Action ICF Increased Core Flow (beyond rated)
IS In-Service LCO License Condition of Operation LHGR Linear Heat Generation Rate LHGRFAC LHGR Multiplier (Power or Flow dependent)
LPRM Local Power Range Monitor MAPFAC Maximum Planar Linear Heat Generation Rate multiplier MAPLHGR Maximum Planar Linear Heat Generation Rate MBSP Manual Backup Stability Protection MCPR Minimum Critical Power Ratio MELLLA Maximum Extended Load Line Limit Analysis MELLLA+
Maximum Extended Load Line Limit Analysis Plus MTU Metric Ton Uranium MWd/MTU Mega Watt Day per Metric Ton Uranium
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page vii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 NEOC Near End of Cycle NRC United States Nuclear Regulatory Commission NSS Nominal Scram Speed NTSP Nominal Trip Setpoint OLMCPR Operating Limit, Minimum Critical Power Ratio OLTP Original Licensed Thermal Power OOS Out-Of-Service OPRM Oscillation Power Range Monitor OPS Overpressure Protection System OSS Optimum Scram Speed PBDA Period Based Detection Algorithm Pbypass Power below which TSV Position and TCV Fast Closure Scrams are Bypassed PLU Power Load Unbalance PLUOOS PLU Out-of-Service PRNM Power Range Neutron Monitor RBM Rod Block Monitor RCPOOS Recirculation Pump Out-Of-Service (SLO)
RDF Rated Drive Flow RPS Reactor Protection System RPT Recirculation Pump Trip RPTOOS Recirculation Pump Trip Out-Of-Service RTP Rated Thermal Power SDM Shutdown Margin SLMCPR MCPR Safety Limit SLO Single Loop Operation (RCPOOS)
SRV Safety Relief Valve SRVOOS Safety Relief Valve Out-Of-Service STP Average Power Range Monitor Simulated Thermal Power TBV Turbine Bypass Valve TBVIS Turbine Bypass Valve In-Service TBVOOS Turbine Bypass Valves Out-of-Service TCV Turbine Control Valve TIP Traversing In-core Probe TIPOOS Traversing In-core Probe Out-of-Service TLO Two Loop Operation TSP Trip Setpoint TSSS Technical Specification Scram Speed TSV Turbine Stop Valve TVA Tennessee Valley Authority
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page viii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 References
: 1.
ANP-4106, Revision 1, Browns Ferry Unit 1 Cycle 16 Reload Analysis, Framatome, Inc., July 2024.
: 2.
ANP-3860P Revision 1, Mechanical Design Report for Browns Ferry ATRIUM 11 Fuel Assemblies, Framatome Inc., June 2022.
: 3.
ANP-3150P, Revision 4, Mechanical Design Report for Browns Ferry ATRIUM 10XM Fuel Assemblies, AREVA Inc., November 2017.
: 4.
ANP-4082P, Revision 0, Browns Ferry Unit 1 Cycle 16 Plant Parameters Document, Framatome Inc., February 2024.
: 5.
BFE-4873, Revision 0, Browns Ferry Unit 1 Cycle 16 In Core Shuffle, Calculation File, Tennessee Valley Authority, July 2024.
Methodology References
: 6.
XN-NF-81-58(P)(A) Revision 2 and Supplements 1 and 2, RODEX2 Fuel Rod Thermal-Mechanical Response Evaluation Model, Exxon Nuclear Company, March 1984.
: 7.
XN-NF-85-67(P)(A) Revision 1, Generic Mechanical Design for Exxon Nuclear Jet Pump BWR Reload Fuel, Exxon Nuclear Company, September 1986.
: 8.
EMF-85-74(P) Revision 0 Supplement 1(P)(A) and Supplement 2(P)(A), RODEX2A (BWR) Fuel Rod Thermal-Mechanical Evaluation Model, Siemens Power Corporation, February 1998.
: 9.
ANF-89-98(P)(A) Revision 1 and Supplement 1, Generic Mechanical Design Criteria for BWR Fuel Designs, Advanced Nuclear Fuels Corporation, May 1995.
: 10.
XN-NF-80-19(P)(A) Volume 1 and Supplements 1 and 2, Exxon Nuclear Methodology for Boiling Water Reactors - Neutronic Methods for Design and Analysis, Exxon Nuclear Company, March 1983.
: 11.
XN-NF-80-19(P)(A) Volume 4 Revision 1, Exxon Nuclear Methodology for Boiling Water Reactors: Application of the ENC Methodology to BWR Reloads, Exxon Nuclear Company, June 1986.
: 12.
EMF-2158(P)(A) Revision 0, Siemens Power Corporation Methodology for Boiling Water Reactors: Evaluation and Validation of CASMO-4/MICROBURN-B2, Siemens Power Corporation, October 1999.
: 13.
XN-NF-80-19(P)(A) Volume 3 Revision 2, Exxon Nuclear Methodology for Boiling Water Reactors, THERMEX: Thermal Limits Methodology Summary Description, Exxon Nuclear Company, January 1987.
: 14.
ANP-10307PA, Revision 0, AREVA MCPR Safety Limit Methodology for Boiling Water Reactors, AREVA NP Inc., June 2011.
: 15.
EMF-2361(P)(A) Revision 0, EXEM BWR-2000 ECCS Evaluation Model, Framatome ANP Inc., May 2001, as supplemented by the site specific approval in NRC safety evaluation dated April 27, 2012, and July 31, 2014.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page ix Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1
: 16.
EMF-2292(P)(A) Revision 0, ATRIUM'-10: Appendix K Spray Heat Transfer Coefficients, Siemens Power Corporation, September 2000.
: 17.
EMF-CC-074(P)(A), Volume 4, Revision 0, BWR Stability Analysis: Assessment of STAIF with Input from MICROBURN-B2, Siemens Power Corporation, August 2000.
: 18.
BAW-10247PA, Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors, AREVA NP, February 2008.
: 19.
ANP-10298P-A, Revision 1, ACE/ATRIUM 10XM Critical Power Correlation, AREVA Inc., March 2014.
: 20.
NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.
: 21.
BAW-10247P-A Supplement 2P-A Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors Supplement 2: Mechanical Methods, Framatome Inc., August 2018.
: 22.
ANP-10300P-A Revision 1, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Transient and Accident Scenarios, Framatome Inc.,
January 2018.
: 23.
ANP-10332P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Loss of Coolant Accident Scenarios, Framatome Inc.,
March 2019.
: 24.
ANP-10333P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Control Rod Drop Accident (CRDA), Framatome Inc.,
March 2018 (as supplemented by Section 6.4 of ANP-3908P Revision 4, Applicability of Framatome BWR Methods to Browns Ferry with ATRIUM 11 Fuel, Framatome Inc., June 2022)
: 25.
ANP-10335P-A Revision 0, ACE/ATRIUM 11 Critical Power Correlation, Framatome Inc., May 2018.
: 26.
ANP-10340P-A Revision 0, Incorporation of Chromia Doped Fuel Properties in AREVA Approved Methods, Framatome Inc., May 2018.
: 27.
ANP-3907P Revision 0, Application of BEO-III Methodology with the Confirmation Density Algorithm at Browns Ferry, Framatome Inc., April 2021.
Setpoint References
: 28.
EDQ2092900118, R40, Setpoint and Scaling Calculations for Neutron Monitoring System & Recirculation Flow Loops, Calculation File, Tennessee Valley Authority, June 2024.
: 29.
Task T0500, Revision 0, Neutron Monitoring System w/RBM, Project Task Report, GE Hitachi Nuclear Energy, June 2017.
: 30.
Task T0506, Revision 0, TS Instrument Setpoints, Project Task Report, Tennessee Valley Authority, August 2017.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page x Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1
: 31.
NEDC-33006P-A, Revision 3, General Electric Boiling Water Reactor Maximum Extended Load Line Limit Analysis Plus, GE Energy Nuclear, June 2009.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 1 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 1 Introduction In anticipation of cycle startup, it is necessary to describe the expected limits of operation.
1.1 Purpose The primary purpose of this document is to satisfy requirements identified by unit technical specification section 5.6.5. This document may be provided, upon final approval, to the NRC.
1.2 Scope This document will discuss the following areas:
3/4 Minimum Critical Power Ratio Safety Limit (MCPR99.9%)
(Technical Specifications 2.1.1.2, 3.2.2, and 5.6.5.a(3))
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Average Planar Linear Heat Generation Rate (APLHGR) Limit (Technical Specifications 3.2.1 and 3.7.5)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Linear Heat Generation Rate (LHGR) Limit (Technical Specification 3.2.3, 3.3.4.1, and 3.7.5)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Minimum Critical Power Ratio Operating Limit (OLMCPR)
(Technical Specifications 3.2.2, 3.3.4.1, 3.7.5 and Table 3.3.2.1-1)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Thermal-Hydraulic Stability Protection (Technical Specification Table 3.3.1.1)
Applicability: Mode 1, (as specified in Technical Specifications Table 3.3.1.1-1) 3/4 Average Power Range Monitor (APRM) Flow Biased Rod Block Trip Setting (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)
Applicability: Mode 1, (as specified in Technical Requirements Manuals Table 3.3.4-1) 3/4 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)
Applicability: Mode 1, % RTP as specified in Table 3.3.2.1-1 (TS definition of RTP) 3/4 Shutdown Margin (SDM) Limit (Technical Specification 3.1.1)
Applicability: All Modes
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 2 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 1.3 Fuel Loading The core will contain fresh ATRIUM 11 and exposed ATRIUM 10XM and ATRIUM 11. Nuclear fuel types used in the core loading are shown in Table 1.1. The core shuffle and final loading were explicitly evaluated for BOC cold shutdown margin performance as documented per Reference 5.
Table 1.1 Nuclear Fuel Types0F0F0F*
Fuel Description Original Cycle Number of Assemblies Nuclear Fuel Type (NFT)
Fuel Names (Range)
ATRIUM 10XM XMLC-3943B-15GV80-FAE 14 23 33 FAE333-FAE428 ATRIUM 10XM XMLC-3944B-14GV80-FAE 14 21 34 FAE429-FAE568 ATRIUM 10XM XMLC-4001B-12GV80-FAE 14 64 35 FAE569-FAE648 ATRIUM 10XM XMLC-4051B-15GV80-FAF 15 144 36 FAF659-FAF802 ATRIUM 10XM XMLC-4046B-14GV80-FAF 15 100 37 FAF803-FAF902 ATRIUM 10XM XMLC-4031B-14GV70-FAF 15 24 38 FAF903-FAF926 ATRIUM 10XM XMLC-4030B-12GV70-FAF 15 56 39 FAF927-FAF982 ATRIUM 11 AT11-3995B-14GV100-FAH 16 260 40 FAH001-FAH260 ATRIUM 11 AT11-4174B-13GV80-FAH 16 72 41 FAH261-FAH332 1.4 Acceptability Limits discussed in this document were generated based on NRC approved methodologies per References 6 through 27.
* The table identifies the expected fuel type breakdown in anticipation of final core loading. The final composition of the core depends upon uncertainties during the outage such as discovering a failed fuel bundle, or other bundle damage. Minor core loading changes, due to unforeseen events, will conform to the safety and monitoring requirements identified in this document.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 3 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 2 MCPR99.9% Safety Limit (Technical Specifications 2.1.1.2, and 3.2.2)
SLMCPR of Technical Specification 2.1.1.2 has been changed by approval of Traveler TSTF-564, Revision 2. Now, the SLMCPR of Technical Specification 2.1.1.2 represents the MCPR95/95, relative to the critical power correlations being used. Values in TS 2.1.1.2 would only potentially change if there is a change to critical power correlation being used or system measurement uncertainty.
Values provided in Table 2.1, per Reference 1, represent the integral MCPR99.9% considering all forms of uncertainties, and cycle specific fuel designs, core loading, and projected cycle operation.
Table 2.1 MCPR99.9%
SLMCPR BOC to NEOC NEOC to EOCLB EOCLB to End of Coast TLO 1.08 1.08 1.08 SLO 1.09 1.09 1.09
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 4 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 3 APLHGR (Technical Specifications 3.2.1 & 3.7.5)
The APLHGR limit is determined by adjusting the rated power APLHGR limit for off-rated power, off-rated flow, and SLO conditions. The most limiting of these is then used as follows:
APLHGR limit = MIN ( APLHGRP, APLHGRF, APLHGRSLO )
where:
APLHGRP off-rated power APLHGR limit
[APLHGRRATED
* MAPFACP]
APLHGRF off-rated flow APLHGR limit
[APLHGRRATED
* MAPFACF]
APLHGRSLO SLO APLHGR limit
[APLHGRRATED
* SLO Multiplier]
3.1 Rated Power and Flow Limit: APLHGRRATED The rated conditions APLHGR for all fuel are identified per Reference 1. The rated conditions APLHGR for ATRIUM 10XM and ATRIUM 11 fuel are shown in Table 3.1.
3.2 Off-Rated Power Dependent Limit: APLHGRP Reference 1 does not specify a power dependent APLHGR. Therefore, MAPFACP is set to a value of 1.0.
3.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. No additional power dependent limitation is required.
3.3 Off-Rated Flow Dependent Limit: APLHGRF Reference 1 does not specify a flow dependent APLHGR. Therefore, MAPFACF is set to a value of 1.0.
3.4 Single Loop Operation Limit: APLHGRSLO The single loop operation multiplier for ATRIUM 10XM and ATRIUM 11 fuel is 0.85, per Reference 1.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 5 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 3.1 APLHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 6 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 3.5 Equipment Out-Of-Service Corrections The limits shown in Table 3.1 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options. Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. For RCPOOS, use the APLHGRSLO multiplier in Section 3.4.
In-Service All Equipment In-Service1F1F1F RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 7 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 4 LHGR Limits (Technical Specification 3.2.3, 3.3.4.1, & 3.7.5)
The LHGR limit is determined by adjusting the rated power LHGR limit for off-rated power and off-rated flow conditions. The most limiting of these is then used as follows:
LHGR limit = MIN ( LHGRP, LHGRF )
where:
LHGRP off-rated power LHGR limit
[LHGRRATED
* LHGRFACP]
LHGRF off-rated flow LHGR limit
[LHGRRATED
* LHGRFACF]
4.1 Rated Power and Flow Limit: LHGRRATED The rated conditions LHGR for all fuel are identified per Reference 1. The rated conditions LHGR for ATRIUM 10XM and ATRIUM 11 are shown in Table 4.2. The LHGR limits are consistent with References 2 & 3.
4.2 Off-Rated Power Dependent Limit: LHGRP LHGR limits are adjusted for off-rated power conditions using the LHGRFACP multiplier provided in Reference 1. The multiplier is split into two sub cases: turbine bypass valves in and out-of-service. The base case multipliers are shown in Table 4.3.
4.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Additional limits are shown in Table 4.3, based on temperature conditions identified in Table 4.1.
Table 4.1 Startup Feedwater Temperature Basis Temperature Power Range 1 Range 2
(% Rated)
(°F)
(°F) 23 155.0 150.0 30 162.0 157.0 40 172.0 167.0 50 182.0 177.0
 
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TVA-COLR-BF1C16, Revision 1 4.3 Off-Rated Flow Dependent Limit: LHGRF LHGR limits are adjusted for off-rated flow conditions using the LHGRFACF multiplier provided in Reference 1. Multipliers are shown in Table 4.4.
4.4 Equipment Out-Of-Service Corrections The limits shown in Table 4.2 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options. Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service.
In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service Off-rated power corrections shown in Table 4.3 are dependent on operation of the Turbine Bypass Valve system. For this reason, separate limits are to be applied for TBVIS or TBVOOS operation. The limits have no dependency on RPTOOS, PLUOOS, FHOOS/FFWTR, or SLO.
Off-rated flow corrections shown in Table 4.4 are bounding for all EOOS conditions.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 9 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 4.2 LHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 10 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 4.3 LHGRFACP for ATRIUM 10XM and ATRIUM 11 Fuel*
Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 4.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 4.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 11 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 4.4 LHGRFACF for ATRIUM 10XM and ATRIUM 11 Fuel
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 12 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 5 OLMCPR Limits (Technical Specification 3.2.2, 3.3.4.1, & 3.7.5)
OLMCPR is calculated to be the most limiting of the flow or power dependent values OLMCPR limit = MAX ( MCPRF, MCPRP )
where:
MCPRF core flow-dependent MCPR limit MCPRP power-(and flow flag) dependent MCPR limit 5.1 Flow Dependent MCPR Limit: MCPRF MCPRF limits are dependent upon core flow (% of Rated), and the max core flow limit, (Rated or Increased Core Flow, ICF). MCPRF limits are shown in Table 5.2, per Reference 1. Limits are valid for all EOOS combinations. No adjustment is required for SLO conditions.
5.2 Power Dependent MCPR Limit: MCPRP MCPRP limits are dependent upon:
Core Power (% of Rated) for a specified flow flag bin.
Technical Specification Scram Speed (TSSS), Nominal Scram Speed (NSS), or Optimum Scram Speed (OSS)
Cycle Operating Exposure (NEOC, EOCLB, and End of Coast)
Equipment Out-Of-Service Options Two or Single Recirculation Loop Operation (TLO vs. SLO)
The TLO MCPRP limits are provided in Table 5.3 through Table 5.11, where each table contains a specified scram speed and exposure range. The CMSS determines MCPRP limits, from these tables, based on linear interpolation between the specified powers.
5.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Table 5.3 through Table 5.11 also contain TLO MCPRP limits based on temperature conditions identified in Table 4.1.
 
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TVA-COLR-BF1C16, Revision 1 5.2.2 Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)
MCPRP limits are provided for three different sets of assumed scram speeds. The Technical Specification Scram Speed (TSSS) MCPRP limits are applicable at all times, as long as the scram time surveillance demonstrates the times in Technical Specification Table 3.1.4-1 are met. Both Nominal Scram Speeds (NSS) and/or Optimum Scram Speeds (OSS) may be used, as long as the scram time surveillance demonstrates Table 5.1 times are applicable. 3F3F3F*
4F4F4F Table 5.1 Nominal Scram Time Basis Notch Position Nominal Scram Timing Optimum Scram Timing (index)
(seconds)
(seconds) 46 0.380 0.350 36 0.960 0.930 26 1.590 1.560 6
2.900 2.800 In demonstrating compliance with the NSS and/or OSS scram time basis, surveillance requirements from Technical Specification 3.1.4 apply; accepting the definition of SLOW rods should conform to scram speeds shown in Table 5.1. If conformance is not demonstrated, TSSS based MCPRP limits are applied.
On initial cycle startup, TSSS limits are used until the successful completion of scram timing confirms NSS and/or OSS based limits are applicable.
5.2.3 Exposure Dependent Limits Exposures are tracked on a Core Average Exposure basis (CAVEX, not Cycle Exposure).
Higher exposure MCPRP limits are NOT always more limiting. Per Reference 1, MCPRP limits are provided for the following exposure ranges:
BOC to NEOC NEOC corresponds to 30,883.7 MWd / MTU NEOC to EOCLB EOCLB corresponds to 34,005.7 MWd / MTU EOCLB to End of Coast End of Coast 35,699.2 MWd / MTU The EOCLB exposure point is not the true end of cycle exposure. Instead, it corresponds to a licensing exposure window exceeding expected end-of-full-power-life.
* Reference 1 analysis results are based on information identified in Reference 4.
Drop out times consistent with method used to perform actual timing measurements (i.e., including pickup/dropout effects).
 
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TVA-COLR-BF1C16, Revision 1 The End of Coast exposure point represents a licensing exposure point exceeding the expected end of cycle exposure including cycle extension options.
5.2.4 Equipment Out-Of-Service (EOOS) Options Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. EOOS options covered by MCPRP limits are given by the following:
In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service RPTOOS+TBVOOS Combined RPTOOS and TBVOOS PLUOOS Power Load Unbalance Out-Of-Service PLUOOS+RPTOOS Combined PLUOOS and RPTOOS PLUOOS+TBVOOS Combined PLUOOS and TBVOOS PLUOOS+TBVOOS+RPTOOS Combined PLUOOS, RPTOOS, and TBVOOS FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service (or Final Feedwater Temperature Reduction)
RCPOOS One Recirculation Pump Out-Of-Service For exposure ranges up to NEOC and EOCLB, additional combinations of MCPRP limits are also provided including FHOOS. The End of Coast exposure range assumes application of FFWTR. FHOOS based MCPRP limits for the End of Coast exposure are redundant because the temperature set down assumption is identical with FFWTR.
5.2.5 Single-Loop-Operation (SLO) Limits When operating with one recirculation pump out-of-service (RCPOOS/SLO), MCPRp limits are constructed differently from the normal operating RCP conditions. The limiting event for RCPOOS is a pump seizure scenario, which sets the upper bound for allowed core power and flow. This event is not impacted by scram time assumptions. Specific SLO MCPRP limits are obtained by the addition of a 0.01 adder to the corresponding TLO MCPRP limit. RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
5.2.6 Flow Flags A flow flag is a point on the core flow axis of the power/flow map defining core flow bins where limits are applicable. For the cycle, a 90% core flow flag is employed. Hence, there are 2 core flow bins generated. While not every flow flag bin pair has a benefit, there are two MCPRP values for each exposure bin, and each power level. It should be noted that values for a bin pair may be equal. Below Pbypass (26% rated power), a flow flag of 50% is utilized.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.2 MCPRF for ATRIUM 10XM and ATRIUM 11 Fuel
 
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TVA-COLR-BF1C16, Revision 1 Table 5.3 TLO MCPRP Limits for OSS, BOC to NEOC Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC (Continued)
Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 19 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC (Continued)
Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 20 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 21 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC (Continued)
Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 22 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC (Continued)
Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.6 TLO MCPRP Limits for OSS, NEOC to EOCLB Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 24 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB (Continued)
Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB (Continued)
Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB (Continued)
Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 29 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB (Continued)
Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.9 TLO MCPRP Limits for OSS, EOCLB to End of Coast*
Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 31 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 5.10 TLO MCPRP Limits for NSS, EOCLB to End of Coast*
Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.10 TLO MCPRP Limits for NSS, EOCLB to End of Coast (Continued)
Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.
 
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TVA-COLR-BF1C16, Revision 1 Table 5.11 TLO MCPRP Limits for TSSS, EOCLB to End of Coast*
Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+
operating domain.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 34 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 5.11 TLO MCPRP Limits for TSSS, EOCLB to End of Coast (Continued)
Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.
 
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TVA-COLR-BF1C16, Revision 1 6 Thermal-Hydraulic Stability Protection (Technical Specification 3.3.1.1)
Technical Specification Table 3.3.1.1-1, Function 2f, identifies the function.
Instrument setpoints are established, such that the reactor will be tripped before an oscillation can grow to the point where the SLMCPR is exceeded. With application of Reference 31, the DSS-CD stability solution as originally per Reference 20 is now used in a hybrid manner, per Reference 27. The DSS-CD SAD setpoint is 1.10 for TLO and SLO.
New analyses have been developed based on Reference 27. With the implementation of the MELLLA+ operating domain expansion, an ABSP trip is required when the OPRM is out-of-service. The ABSP trip settings define a region of the power to flow map within which an automatic reactor scram occurs. The ABSP trip settings are provided in Table 6.1. If both the OPRM and ABSP are out-of-service, operation within the MELLLA+ domain is not allowed and the MBSP Regions provide stability protection. Table 6.2 and Table 6.3 provide the endpoints for the MBSP regions for nominal and reduced feedwater temperature conditions. These endpoints are connected using the generic shape function of Reference 20 and have been graphed in Appendix A.
Table 6.1 ABSP Setpoints for the Scram Region Parameter Symbol Setting Value (unit)
Comments Slope for Trip mTRIP 2.00 (% RTP/% RDF)
Slope of ABSP APRM Flow-Biased Trip Linear Segment Constant Power Line for Trip PBSP-TRIP 35.0 (% RTP)
ABSP APRM Flow-Biased Trip Setpoint Power Intercept. Constant Power Line for Trip from Zero Drive Flow to Flow Breakpoint Value Constant Flow Line for Trip WBSP-TRIP 49 (% RDF)
ABSP APRM Flow-Biased Trip Setpoint Drive Flow Intercept.
Constant Flow Line for Trip (see Note 1 below)
Flow Breakpoint WBSP-BREAK 30.0 (% RDF)
Flow Breakpoint Value Note 1: WBSP-TRIP can be set to 49.0 % RDF or any higher value up to the intersection of the ABSP sloped line with the APRM Flow Biased STP scram line.
 
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TVA-COLR-BF1C16, Revision 1 Table 6.2 Analyzed MBSP Endpoints: Nominal Feedwater Temperature Endpoint Power
(% Rated)
Core Flow
(% Rated)
Definition A1 75.9 52.7 Scram Region (Region I)
Boundary Intercept on MELLLA+ Line B1 35.5 29.0 Scram Region (Region I)
Boundary Intercept on Natural Circulation Line (NCL)
A2 66.1 52.0 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 25.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)
Table 6.3 Analyzed MBSP Endpoints: Reduced Feedwater Temperature Endpoint Power
(% Rated)
Core Flow
(% Rated)
Definition A1 64.9 50.5 Scram Region (Region I)
Boundary Intercept on MELLLA Line B1 29.4 29.0 Scram Region (Region I)
Boundary Intercept on Natural Circulation Line (NCL)
A2 68.3 54.9 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 24.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)
 
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TVA-COLR-BF1C16, Revision 1 7 APRM Flow Biased Rod Block Trip Settings (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)
The APRM rod block trip setting is based upon References 28 & 30, and is defined by the following:
for two loop operation:
SRB d (0.61Wd + 63.3)
Allowable Value SRB d (0.61Wd + 62.0)
Nominal Trip Setpoint (NTSP) where:
SRB
=
Rod Block setting in percent of rated thermal power (3952 MWt)
Wd
=
Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow) and for single loop operation:
SRB d (0.55(Wd-'W) + 60.5)
Allowable Value SRB d (0.55(Wd-'W) + 58.5)
Nominal Trip Setpoint (NTSP) where:
SRB
=
Rod Block setting in percent of rated thermal power (3952 MWt)
Wd
=
Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow)
'W
=
Difference between two-loop and single-loop effective recirculation flow at the same core flow ('W=0.0 for two-loop operation)
The APRM rod block trip setting is clamped at a maximum allowable value of 115%
(corresponding to a NTSP of 113%).
 
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TVA-COLR-BF1C16, Revision 1 8 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)
The RBM trip setpoints and applicable power ranges, based on References 28 & 29, are shown in Table 8.1. Setpoints are based on an HTSP, unfiltered analytical limit of 114%. Unfiltered setpoints are consistent with a nominal RBM filter setting of 0.0 seconds; filtered setpoints are consistent with a nominal RBM filter setting less than 0.5 seconds. Cycle specific CRWE analyses of OLMCPR are documented in Reference 1, superseding values reported in References 28, 29, and 30.
Table 8.1 Analytical RBM Trip Setpoints18F18F3F*
RBM Trip Setpoint Allowable Value (AV)
Nominal Trip Setpoint (NTSP)
LPSP 27%
25%
IPSP 62%
60%
HPSP 82%
80%
LTSP - unfiltered
- filtered 121.7%
120.7%
120.0%
119.0%
ITSP - unfiltered
- filtered 116.7%
115.7%
115.0%
114.0%
HTSP - unfiltered
- filtered 111.7%
110.9%
110.0%
109.2%
DTSP 90%
92%
As a result of cycle specific CRWE analyses, RBM setpoints in Technical Specification Table 3.3.2.1-1 are applicable as shown in Table 8.2. Cycle specific setpoint analysis results are shown in Table 8.3, per Reference 1.
Table 8.2 RBM Setpoint Applicability Thermal Power
(% Rated)
Applicable MCPR19F19F34F Notes from Table 3.3.2.1-1 Comment 27% and < 90%
< 1.67 (a), (b), (f), (h) two loop operation
< 1.69 (a), (b), (f), (h) single loop operation 90%
< 1.41 (g) two loop operation20F20F35F
* Values are considered maximums. Using lower values, due to RBM system hardware/software limitations, is conservative, and acceptable.
MCPR values shown correspond with, (support), values identified in Table 1.1.
Greater than 90% rated power is not attainable in single loop operation.
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 39 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Table 8.3 Control Rod Withdrawal Error Results RBM CRWE HTSP Analytical Limit OLMCPR Unfiltered 107 1.32 111 1.33 114 1.35 117 1.38 Results, compared against the base case OLMCPR results of Table 5.3, indicate Table 2.1 MCPR99.9 remains protected for RBM inoperable conditions (i.e., 114% unblocked).
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 40 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 9 Shutdown Margin Limit (Technical Specification 3.1.1)
Assuming the strongest OPERABLE control blade is fully withdrawn, and all other OPERABLE control blades are fully inserted, the core shall be sub-critical and meet the following minimum shutdown margin:
SDM 0.38% dk/k
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 41 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 10 Overpressure Protection System (Technical Specification 3.4.3)
The as-found OPS lift pressures of the required SRVs are specified below:
Table 10.1 SRV Lift Setpoints As-Found Lift Number of SRVs Pressure Limit (psig) 3 1169 4
1179 5
1189
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page A-1 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Appendix A: MBSP Maps Figure A.1 MBSP Boundaries for Nominal Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature) 0 10 20 30 40 50 60 70 80 90 100 110 0
10 20 30 40 50 60 70 80 90 100 110 120 CorePower(%Rated:100%=3952MWt)
CoreFlow(%Rated:100%=102.5Mlb/hr)
MELLLA+Region Manual
Scram
RegionI BSP Boundary MELLLARegion ICFRegion ControlledEntry
RegionII Min.FlowControl Min.Power Line 20%Pump
Speed Line Natural
Circulation MELLLAUpperBoundary 87.5% RodLine
 
ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page A-2 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF1C16, Revision 1 Figure A.2 MBSP Boundaries for Reduced Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for a Reduced Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature) 0 10 20 30 40 50 60 70 80 90 100 110 0
10 20 30 40 50 60 70 80 90 100 110 120 CorePower(%Rated:100%=3952MWt)
CoreFlow(%Rated:100%=102.5Mlb/hr)
MELLLA+Region Manual
Scram
RegionI BSP Boundary MELLLARegion ICFRegion ControlledEntry
RegionII Min.FlowControl Min.Power Line 20%Pump
Speed Line Natural
Circulation 87.5% RodLine MELLLAUpperBoundary
 
Tennessee Valley Authority Browns Ferry Nuclear Plant Unit 2 Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 2 Cycle 24 Operation, TVA-COLR-BF2C24, Revision 1 (See Attached)
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page ii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table of Contents Total Number of Pages = 53 (including review cover sheet)
List of Tables................................................................................................................................. iii List of Figures.............................................................................................................................. iv Revision Log................................................................................................................................. v Nomenclature............................................................................................................................... vi References.................................................................................................................................. viii 1
Introduction.......................................................................................................................... 1
1.1
Purpose......................................................................................................................... 1
1.2
Scope............................................................................................................................ 1
1.3
Fuel Loading.................................................................................................................. 2
1.4
Acceptability.................................................................................................................. 2
2
MCPR99.9% Safety Limit........................................................................................................ 3
3
APLHGR.............................................................................................................................. 4
3.1
Rated Power and Flow Limit: APLHGRRATED................................................................. 4
3.2
Off-Rated Power Dependent Limit: APLHGRP.............................................................. 4
3.2.1
Startup without Feedwater Heaters....................................................................... 4
3.3
Off-Rated Flow Dependent Limit: APLHGRF................................................................. 4
3.4
Single Loop Operation Limit: APLHGRSLO..................................................................... 4
3.5
Equipment Out-Of-Service Corrections......................................................................... 6
4
LHGR Limits......................................................................................................................... 7
4.1
Rated Power and Flow Limit: LHGRRATED...................................................................... 7
4.2
Off-Rated Power Dependent Limit: LHGRP................................................................... 7
4.2.1
Startup without Feedwater Heaters....................................................................... 7
4.3
Off-Rated Flow Dependent Limit: LHGRF...................................................................... 8
4.4
Equipment Out-Of-Service Corrections......................................................................... 8
5
OLMCPR Limits................................................................................................................. 12
5.1
Flow Dependent MCPR Limit: MCPRF....................................................................... 12
5.2
Power Dependent MCPR Limit: MCPRP.................................................................... 12
5.2.1
Startup without Feedwater Heaters..................................................................... 12
5.2.2
Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)................................. 13
5.2.3
Exposure Dependent Limits................................................................................ 13
5.2.4
Equipment Out-Of-Service (EOOS) Options....................................................... 14
5.2.5
Single-Loop-Operation (SLO) Limits................................................................... 14
5.2.6
Flow Flags........................................................................................................... 14
6
Thermal-Hydraulic Stability Protection............................................................................... 35
7
APRM Flow Biased Rod Block Trip Settings...................................................................... 37
8
Rod Block Monitor (RBM) Trip Setpoints and Operability.................................................. 38
9
Shutdown Margin Limit....................................................................................................... 40
10
Overpressure Protection System....................................................................................... 41
Appendix A:
MBSP Maps...................................................................................................... A-1
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page iii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 List of Tables Nuclear Fuel Types0F0F0F................................................................................................................. 2
MCPR99.9%..................................................................................................................................... 3
APLHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel.............................................................. 5
Startup Feedwater Temperature Basis......................................................................................... 7
LHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel................................................................... 9
LHGRFACP for ATRIUM 10XM and ATRIUM 11 Fuel............................................................... 10
LHGRFACF for ATRIUM 10XM and ATRIUM 11 Fuel................................................................ 11
Nominal Scram Time Basis......................................................................................................... 13
MCPRF for ATRIUM 10XM and ATRIUM 11 Fuel....................................................................... 15
TLO MCPRP Limits for OSS, BOC to NEOC............................................................................... 16
TLO MCPRP Limits for NSS, BOC to NEOC............................................................................... 17
TLO MCPRP Limits for TSSS, BOC to NEOC............................................................................. 20
TLO MCPRP Limits for OSS, NEOC to EOCLB.......................................................................... 23
TLO MCPRP Limits for NSS, NEOC to EOCLB.......................................................................... 24
TLO MCPRP Limits for TSSS, NEOC to EOCLB........................................................................ 27
TLO MCPRP Limits for OSS, EOCLB to End of Coast.............................................................. 30
TLO MCPRP Limits for NSS, EOCLB to End of Coast............................................................... 31
TLO MCPRP Limits for TSSS, EOCLB to End of Coast............................................................. 33
ABSP Setpoints for the Scram Region....................................................................................... 35
Analyzed MBSP Endpoints: Nominal Feedwater Temperature.................................................. 36
Analyzed MBSP Endpoints: Reduced Feedwater Temperature................................................. 36
Analytical RBM Trip Setpoints18F18F3F............................................................................................... 38
RBM Setpoint Applicability.......................................................................................................... 38
Control Rod Withdrawal Error Results........................................................................................ 39
SRV Lift Setpoints....................................................................................................................... 41
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page iv Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 List of Figures MBSP Boundaries for Nominal Feedwater Temperature.......................................................... A-1
MBSP Boundaries for Reduced Feedwater Temperature........................................................ A-2
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page v Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Revision Log Number Page Description 0
All New document.
1 vii Added OPS and SRV acronyms.
41 Added Section 10 OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3).
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page vi Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Nomenclature ABSP Automatic Backup Stability Protection APLHGR Average Planar Linear Heat Generation Rate APRM Average Power Range Monitor BOC Beginning of Cycle BSP Backup Stability Protection BWR Boiling Water Reactor CAVEX Core Average Exposure CMSS Core Monitoring System Software COLR Core Operating Limits Report CPR Critical Power Ratio CRWE Control Rod Withdrawal Error CSDM Cold Shutdown Margin DSS-CD Detect and Suppress Solution - Confirmation Density EOC End of Cycle EOCLB End of Cycle Licensing Basis EOOS Equipment Out-of-Service EPU Extended Power Uprate (120% Original Licensed Thermal Power)
FFWTR Final Feedwater Temperature Reduction FHOOS Feedwater Heaters Out-Of-Service Framatome Vendor (AREVA, Siemens)
GNF Vendor (General Electric, Global Nuclear Fuels)
GWd Giga Watt Day HTSP High Trip Setpoint ICA Interim Corrective Action ICF Increased Core Flow (beyond rated)
IS In-Service LCO License Condition of Operation LHGR Linear Heat Generation Rate LHGRFAC LHGR Multiplier (Power or Flow dependent)
LPRM Local Power Range Monitor MAPFAC Maximum Planar Linear Heat Generation Rate multiplier MAPLHGR Maximum Planar Linear Heat Generation Rate MBSP Manual Backup Stability Protection MCPR Minimum Critical Power Ratio MELLLA Maximum Extended Load Line Limit Analysis MELLLA+
Maximum Extended Load Line Limit Analysis Plus MTU Metric Ton Uranium MWd/MTU Mega Watt Day per Metric Ton Uranium
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page vii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 NEOC Near End of Cycle NFT Nuclear Fuel Type NRC United States Nuclear Regulatory Commission NSS Nominal Scram Speed NTSP Nominal Trip Setpoint OLMCPR Operating Limit, Minimum Critical Power Ratio OLTP Original Licensed Thermal Power OOS Out-Of-Service OPRM Oscillation Power Range Monitor OPS Overpressure Protection System OSS Optimum Scram Speed PBDA Period Based Detection Algorithm Pbypass Power below which TSV Position and TCV Fast Closure Scrams are Bypassed PLU Power Load Unbalance PLUOOS PLU Out-of-Service PRNM Power Range Neutron Monitor RBM Rod Block Monitor RCPOOS Recirculation Pump Out-Of-Service (SLO)
RDF Rated Drive Flow RPS Reactor Protection System RPT Recirculation Pump Trip RPTOOS Recirculation Pump Trip Out-Of-Service RTP Rated Thermal Power SDM Shutdown Margin SLMCPR MCPR Safety Limit SLO Single Loop Operation (RCPOOS)
SRVOOS Safety Relief Valve Out-Of-Service SRV Safety Relief Valve STP Average Power Range Monitor Simulated Thermal Power TBV Turbine Bypass Valve TBVIS Turbine Bypass Valve In-Service TBVOOS Turbine Bypass Valves Out-of-Service TCV Turbine Control Valve TIP Traversing In-core Probe TIPOOS Traversing In-core Probe Out-of-Service TLO Two Loop Operation TSP Trip Setpoint TSSS Technical Specification Scram Speed TSV Turbine Stop Valve TVA Tennessee Valley Authority
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page viii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 References
: 1.
ANP-4128, Revision 1, Browns Ferry Unit 2 Cycle 24 Reload Analysis, Framatome Inc., December 2024. [L32 250106 800]
: 2.
ANP-3860P, Revision 3, Mechanical Design Report for Browns Ferry ATRIUM 11 Fuel Assemblies, Framatome Inc., December 2024. [L86 250106 001]
: 3.
ANP-3150P, Revision 4, Mechanical Design Report for Browns Ferry ATRIUM 10XM Fuel Assemblies, AREVA Inc., November 2017. [L86 190311 001]
: 4.
ANP-4111P, Revision 0, Browns Ferry Unit 2 Cycle 24 Plant Parameters Document, Framatome Inc., June 2024. [L32 241015 800]
: 5.
BFE-4897, Revision 0, Browns Ferry Unit 2 Cycle 24 In-Core Shuffle, Tennessee Valley Authority, December 2024. [L32 241119 800]
Methodology References
: 6.
XN-NF-81-58(P)(A) Revision 2 and Supplements 1 and 2, RODEX2 Fuel Rod Thermal-Mechanical Response Evaluation Model, Exxon Nuclear Company, March 1984.
: 7.
XN-NF-85-67(P)(A) Revision 1, Generic Mechanical Design for Exxon Nuclear Jet Pump BWR Reload Fuel, Exxon Nuclear Company, September 1986.
: 8.
EMF-85-74(P) Revision 0 Supplement 1(P)(A) and Supplement 2(P)(A), RODEX2A (BWR) Fuel Rod Thermal-Mechanical Evaluation Model, Siemens Power Corporation, February 1998.
: 9.
ANF-89-98(P)(A) Revision 1 and Supplement 1, Generic Mechanical Design Criteria for BWR Fuel Designs, Advanced Nuclear Fuels Corporation, May 1995.
: 10.
XN-NF-80-19(P)(A) Volume 1 and Supplements 1 and 2, Exxon Nuclear Methodology for Boiling Water Reactors - Neutronic Methods for Design and Analysis, Exxon Nuclear Company, March 1983.
: 11.
XN-NF-80-19(P)(A) Volume 4 Revision 1, Exxon Nuclear Methodology for Boiling Water Reactors: Application of the ENC Methodology to BWR Reloads, Exxon Nuclear Company, June 1986.
: 12.
EMF-2158(P)(A) Revision 0, Siemens Power Corporation Methodology for Boiling Water Reactors: Evaluation and Validation of CASMO-4/MICROBURN-B2, Siemens Power Corporation, October 1999.
: 13.
XN-NF-80-19(P)(A) Volume 3 Revision 2, Exxon Nuclear Methodology for Boiling Water Reactors, THERMEX: Thermal Limits Methodology Summary Description, Exxon Nuclear Company, January 1987.
: 14.
ANP-10307PA, Revision 0, AREVA MCPR Safety Limit Methodology for Boiling Water Reactors, AREVA NP Inc., June 2011.
: 15.
EMF-2361(P)(A) Revision 0, EXEM BWR-2000 ECCS Evaluation Model, Framatome ANP Inc., May 2001, as supplemented by the site specific approval in NRC safety evaluation dated February 15, 2013, and July 31, 2014.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page ix Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1
: 16.
EMF-2292(P)(A) Revision 0, ATRIUM'-10: Appendix K Spray Heat Transfer Coefficients, Siemens Power Corporation, September 2000.
: 17.
EMF-CC-074(P)(A), Volume 4, Revision 0, BWR Stability Analysis: Assessment of STAIF with Input from MICROBURN-B2, Siemens Power Corporation, August 2000.
: 18.
BAW-10247PA, Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors, AREVA NP, February 2008.
: 19.
ANP-10298P-A, Revision 1, ACE/ATRIUM 10XM Critical Power Correlation, AREVA Inc., March 2014.
: 20.
NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.
: 21.
BAW-10247P-A Supplement 2P-A Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors Supplement 2: Mechanical Methods, Framatome Inc., August 2018.
: 22.
ANP-10300P-A Revision 1, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Transient and Accident Scenarios, Framatome Inc.,
January 2018.
: 23.
ANP-10332P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Loss of Coolant Accident Scenarios, Framatome Inc.,
March 2019.
: 24.
ANP-10333P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Control Rod Drop Accident (CRDA), Framatome Inc.,
March 2018 (as supplemented by Section 6.4 of ANP-3908P Revision 4, Applicability of Framatome BWR Methods to Browns Ferry with ATRIUM 11 Fuel, Framatome Inc., June 2022)
: 25.
ANP-10335P-A Revision 0, ACE/ATRIUM 11 Critical Power Correlation, Framatome Inc., May 2018.
: 26.
ANP-10340P-A Revision 0, Incorporation of Chromia Doped Fuel Properties in AREVA Approved Methods, Framatome Inc., May 2018.
: 27.
ANP-3907P Revision 0, Application of BEO-III Methodology with the Confirmation Density Algorithm at Browns Ferry, Framatome Inc., April 2021.
Setpoint References
: 28.
EDQ2092900118, R41, Setpoint and Scaling Calculations for Neutron Monitoring System & Recirculation Flow Loops, Calculation File, Tennessee Valley Authority, October 2024.
: 29.
Task T0500, Revision 0, Neutron Monitoring System w/RBM, Project Task Report, GE Hitachi Nuclear Energy, June 2017.
: 30.
Task T0506, Revision 0, TS Instrument Setpoints, Project Task Report, Tennessee Valley Authority, August 2017.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page x Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1
: 31.
NEDC-33006P-A, Revision 3, General Electric Boiling Water Reactor Maximum Extended Load Line Limit Analysis Plus, GE Energy Nuclear, June 2009.
: 32.
NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 1 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 1 Introduction In anticipation of cycle startup, it is necessary to describe the expected limits of operation.
1.1 Purpose The primary purpose of this document is to satisfy requirements identified by unit technical specification section 5.6.5. This document may be provided, upon final approval, to the NRC.
1.2 Scope This document will discuss the following areas:
3/4 Minimum Critical Power Ratio Safety Limit (MCPR99.9%)
(Technical Specifications 2.1.1.2, 3.2.2, and 5.6.5.a(3))
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Average Planar Linear Heat Generation Rate (APLHGR) Limit (Technical Specifications 3.2.1 and 3.7.5)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Linear Heat Generation Rate (LHGR) Limit (Technical Specification 3.2.3, 3.3.4.1, and 3.7.5)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Minimum Critical Power Ratio Operating Limit (OLMCPR)
(Technical Specifications 3.2.2, 3.3.4.1, 3.7.5 and Table 3.3.2.1-1)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Thermal-Hydraulic Stability Protection (Technical Specification Table 3.3.1.1)
Applicability: Mode 1, (as specified in Technical Specifications Table 3.3.1.1-1) 3/4 Average Power Range Monitor (APRM) Flow Biased Rod Block Trip Setting (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)
Applicability: Mode 1, (as specified in Technical Requirements Manuals Table 3.3.4-1) 3/4 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)
Applicability: Mode 1, % RTP as specified in Table 3.3.2.1-1 (TS definition of RTP) 3/4 Shutdown Margin (SDM) Limit (Technical Specification 3.1.1)
Applicability: All Modes
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 2 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 1.3 Fuel Loading The core will contain fresh ATRIUM 11 and exposed ATRIUM 10XM and ATRIUM 11. Nuclear fuel types used in the core loading are shown in Table 1.1. The core shuffle and final loading were explicitly evaluated for BOC cold shutdown margin performance as documented per Reference 5.
Table 1.1 Nuclear Fuel Types0F0F0F*
Fuel Description Original Cycle Number of Assemblies Nuclear Fuel Type Fuel Names (Range)
ATRIUM 10XM XMLC-4058B-15GV80-FBJ 22 28 24 FBJ331-FBJ546 ATRIUM 10XM XMLC-4015B-15GV80-FBJ 22 68 25 FBJ547-FBJ638 ATRIUM 11 AT11-3974B-14GV100-FBK 23 84 26 FBK649-FBK732 ATRIUM 11 AT11-3971B-14GV100-FBK 23 160 27 FBK733-FBK892 ATRIUM 11 AT11-4175B-13GV80-FBK 23 88 28 FBK893-FBK980 ATRIUM 11 AT11-3998B-14GV100-FBL 24 160 29 FBL001-FBL160 ATRIUM 11 AT11-3998B-14GV100a-FBL 24 104 30 FBL161-FBL264 ATRIUM 11 AT11-4180B-11GV90-FBL 24 72 31 FBL265-FBL336 1.4 Acceptability Limits discussed in this document were generated based on NRC approved methodologies per References 6 through 27.
* The table identifies the expected fuel type breakdown in anticipation of final core loading. The final composition of the core depends upon uncertainties during the outage such as discovering a failed fuel bundle, or other bundle damage. Minor core loading changes, due to unforeseen events, will conform to the safety and monitoring requirements identified in this document.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 3 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 2 MCPR99.9% Safety Limit (Technical Specifications 2.1.1.2, and 3.2.2)
SLMCPR of Technical Specification 2.1.1.2 has been changed by approval of Traveler TSTF-564, Revision 2. Now, the SLMCPR of Technical Specification 2.1.1.2 represents the MCPR95/95, relative to the critical power correlations being used. Values in TS 2.1.1.2 would only potentially change if there is a change to critical power correlation being used or system measurement uncertainty.
Values provided in Table 2.1, per Reference 1, represent the integral MCPR99.9% considering all forms of uncertainties, and cycle specific fuel designs, core loading, and projected cycle operation.
Table 2.1 MCPR99.9%
SLMCPR BOC to NEOC NEOC to EOCLB EOCLB to End of Coast TLO 1.08 1.08 1.08 SLO 1.09 1.09 1.09
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 4 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 3 APLHGR (Technical Specifications 3.2.1 & 3.7.5)
The APLHGR limit is determined by adjusting the rated power APLHGR limit for off-rated power, off-rated flow, and SLO conditions. The most limiting of these is then used as follows:
APLHGR limit = MIN ( APLHGRP, APLHGRF, APLHGRSLO )
where:
APLHGRP off-rated power APLHGR limit
[APLHGRRATED
* MAPFACP]
APLHGRF off-rated flow APLHGR limit
[APLHGRRATED
* MAPFACF]
APLHGRSLO SLO APLHGR limit
[APLHGRRATED
* SLO Multiplier]
3.1 Rated Power and Flow Limit: APLHGRRATED The rated conditions APLHGR for all fuel are identified per Reference 1. The rated conditions APLHGR for ATRIUM 10XM and ATRIUM 11 fuel are shown in Table 3.1.
3.2 Off-Rated Power Dependent Limit: APLHGRP Reference 1 does not specify a power dependent APLHGR. Therefore, MAPFACP is set to a value of 1.0.
3.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. No additional power dependent limitation is required.
3.3 Off-Rated Flow Dependent Limit: APLHGRF Reference 1 does not specify a flow dependent APLHGR. Therefore, MAPFACF is set to a value of 1.0.
3.4 Single Loop Operation Limit: APLHGRSLO The single loop operation multiplier for ATRIUM 10XM and ATRIUM 11 fuel is 0.85, per Reference 1.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 5 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 3.1 APLHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 6 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 3.5 Equipment Out-Of-Service Corrections The limits shown in Table 3.1 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options. Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. Base case, FHOOS, PLUOOS, combined FHOOS and PLUOOS, and RCPOOS analyses support 1 TBVOOS. For RCPOOS, use the APLHGRSLO multiplier in Section 3.4.
In-Service All Equipment In-Service1F1F1F RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 7 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 4 LHGR Limits (Technical Specification 3.2.3, 3.3.4.1, & 3.7.5)
The LHGR limit is determined by adjusting the rated power LHGR limit for off-rated power and off-rated flow conditions. The most limiting of these is then used as follows:
LHGR limit = MIN ( LHGRP, LHGRF )
where:
LHGRP off-rated power LHGR limit
[LHGRRATED
* LHGRFACP]
LHGRF off-rated flow LHGR limit
[LHGRRATED
* LHGRFACF]
4.1 Rated Power and Flow Limit: LHGRRATED The rated conditions LHGR for all fuel are identified per Reference 1. The rated conditions LHGR for ATRIUM 10XM and ATRIUM 11 are shown in Table 4.2. The LHGR limits are consistent with References 2 & 3.
4.2 Off-Rated Power Dependent Limit: LHGRP LHGR limits are adjusted for off-rated power conditions using the LHGRFACP multiplier provided in Reference 1. The multiplier is split into two sub cases: TBVIS and TBVOOS. The TBVIS case assumes 1 TBVOOS. The base case multipliers are shown in Table 4.3.
4.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Additional limits are shown in Table 4.3, based on temperature conditions identified in Table 4.1. The reduced feedwater temperatures are not applicable above 50 % of rated power.
Table 4.1 Startup Feedwater Temperature Basis Power Temperature
(% Rated)
(&deg;F) 23 150.0 30 157.0 40 167.0 50 177.0
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 8 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 4.3 Off-Rated Flow Dependent Limit: LHGRF LHGR limits are adjusted for off-rated flow conditions using the LHGRFACF multiplier provided in Reference 1. Multipliers are shown in Table 4.4.
4.4 Equipment Out-Of-Service Corrections The limits shown in Table 4.2 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options.2F2F2F Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. Base case, FHOOS, PLUOOS, combined FHOOS and PLUOOS, and RCPOOS analyses support 1 TBVOOS.
In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service Off-rated power corrections shown in Table 4.3 are dependent on operation of the Turbine Bypass Valve system. For this reason, separate limits are to be applied for TBVIS or TBVOOS operation. The TBVIS case assumes 1 TBVOOS. The limits have no dependency on RPTOOS, PLUOOS, FHOOS/FFWTR, or SLO.
Off-rated flow corrections shown in Table 4.4 are bounding for all EOOS conditions.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 9 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 4.2 LHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 10 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 4.3 LHGRFACP for ATRIUM 10XM and ATRIUM 11 Fuel*
TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 4.4 except those that include TBVOOS.
TBVOOS limits are applicable for all EOOS scenarios presented in Section 4.4. Startup FHOOS temperatures are presented in Table 4.1.
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 11 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 4.4 LHGRFACF for ATRIUM 10XM and ATRIUM 11 Fuel
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 12 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 5 OLMCPR Limits (Technical Specification 3.2.2, 3.3.4.1, & 3.7.5)
OLMCPR is calculated to be the most limiting of the flow or power dependent values OLMCPR limit = MAX ( MCPRF, MCPRP )
where:
MCPRF core flow-dependent MCPR limit MCPRP power-(and flow flag) dependent MCPR limit 5.1 Flow Dependent MCPR Limit: MCPRF MCPRF limits are dependent upon core flow (% of Rated), and the max core flow limit, (Rated or Increased Core Flow, ICF). MCPRF limits are shown in Table 5.2, per Reference 1. Limits are valid for all EOOS combinations. No adjustment is required for SLO conditions.
5.2 Power Dependent MCPR Limit: MCPRP MCPRP limits are dependent upon:
Core Power (% of Rated) for a specified flow flag bin.
Technical Specification Scram Speed (TSSS), Nominal Scram Speed (NSS), or Optimum Scram Speed (OSS)
Cycle Operating Exposure (NEOC, EOCLB, and End of Coast)
Equipment Out-Of-Service Options Two or Single Recirculation Loop Operation (TLO vs. SLO)
The TLO MCPRP limits are provided in Table 5.3 through Table 5.11, where each table contains a specified scram speed and exposure range. The CMSS determines MCPRP limits, from these tables, based on linear interpolation between the specified powers.
5.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Table 5.3 through Table 5.11 also contain TLO MCPRP limits based on temperature conditions identified in Table 4.1. The reduced feedwater temperatures are not applicable above 50 % of rated power.
 
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TVA-COLR-BF2C24, Revision 1 5.2.2 Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)
MCPRP limits are provided for three different sets of assumed scram speeds. The Technical Specification Scram Speed (TSSS) MCPRP limits are applicable at all times, as long as the scram time surveillance demonstrates the times in Technical Specification Table 3.1.4-1 are met. Both Nominal Scram Speeds (NSS) and/or Optimum Scram Speeds (OSS) may be used, as long as the scram time surveillance demonstrates Table 5.1 times are applicable. 3F3F3F*
4F4F4F Table 5.1 Nominal Scram Time Basis Notch Position Nominal Scram Timing Optimum Scram Timing (index)
(seconds)
(seconds) 46 0.380 0.350 36 0.960 0.930 26 1.590 1.560 6
2.900 2.800 In demonstrating compliance with the NSS and/or OSS scram time basis, surveillance requirements from Technical Specification 3.1.4 apply; accepting the definition of SLOW rods should conform to scram speeds shown in Table 5.1. If conformance is not demonstrated, TSSS based MCPRP limits are applied.
On initial cycle startup, TSSS limits are used until the successful completion of scram timing confirms NSS and/or OSS based limits are applicable.
5.2.3 Exposure Dependent Limits Exposures are tracked on a Core Average Exposure basis (CAVEX, not Cycle Exposure).
Higher exposure MCPRP limits are NOT always more limiting. Per Reference 1, MCPRP limits are provided for the following exposure ranges:
BOC to NEOC NEOC corresponds to 30,599.7 MWd / MTU NEOC to EOCLB EOCLB corresponds to 34,001.2 MWd / MTU EOCLB to End of Coast End of Coast 35,698.7 MWd / MTU The EOCLB exposure point is not the true end of cycle exposure. Instead, it corresponds to a licensing exposure window exceeding expected end-of-full-power-life.
* Reference 1 analysis results are based on information identified in Reference 4.
Drop out times consistent with method used to perform actual timing measurements (i.e., including pickup/dropout effects).
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 14 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 The End of Coast exposure point represents a licensing exposure point exceeding the expected end of cycle exposure including cycle extension options.
5.2.4 Equipment Out-Of-Service (EOOS) Options Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. Base case, FHOOS, PLUOOS, combined FHOOS and PLUOOS, and RCPOOS analyses support 1 TBVOOS. EOOS options covered by MCPRP limits are given by the following:
In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service RPTOOS+TBVOOS Combined RPTOOS and TBVOOS PLUOOS Power Load Unbalance Out-Of-Service PLUOOS+RPTOOS Combined PLUOOS and RPTOOS PLUOOS+TBVOOS Combined PLUOOS and TBVOOS PLUOOS+TBVOOS+RPTOOS Combined PLUOOS, RPTOOS, and TBVOOS FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service (or Final Feedwater Temperature Reduction)
RCPOOS One Recirculation Pump Out-Of-Service For exposure ranges up to NEOC and EOCLB, additional combinations of MCPRP limits are also provided including FHOOS. The End of Coast exposure range assumes application of FFWTR. FHOOS based MCPRP limits for the End of Coast exposure are redundant because the temperature set down assumption is identical with FFWTR.
5.2.5 Single-Loop-Operation (SLO) Limits When operating with one recirculation pump out-of-service (RCPOOS/SLO), MCPRp limits are constructed differently from the normal operating RCP conditions. The limiting event for RCPOOS is a pump seizure scenario, which sets the upper bound for allowed core power and flow. This event is not impacted by scram time assumptions. Specific SLO MCPRP limits are obtained by the addition of a 0.01 adder to the corresponding TLO MCPRP limit. RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
5.2.6 Flow Flags A flow flag is a point on the core flow axis of the power/flow map defining core flow bins where limits are applicable. For the cycle, a 90% core flow flag is employed. Hence, there are 2 core flow bins generated. While not every flow flag bin pair has a benefit, there are two MCPRP values for each exposure bin, and each power level. It should be noted that values for a bin pair may be equal. Below Pbypass (26% rated power), a flow flag of 50% is utilized.
 
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TVA-COLR-BF2C24, Revision 1 Table 5.2 MCPRF for ATRIUM 10XM and ATRIUM 11 Fuel
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 16 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.3 TLO MCPRP Limits for OSS, BOC to NEOC FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
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TVA-COLR-BF2C24, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 18 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC (Continued)
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 19 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC (Continued)
TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.
TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 20 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 21 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC (Continued)
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 22 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC (Continued)
TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.
TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 23 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.6 TLO MCPRP Limits for OSS, NEOC to EOCLB FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 24 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 25 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB (Continued)
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 26 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB (Continued)
TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.
TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 27 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 28 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB (Continued)
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 29 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB (Continued)
TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.
TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 30 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.9 TLO MCPRP Limits for OSS, EOCLB to End of Coast*
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 31 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.10 TLO MCPRP Limits for NSS, EOCLB to End of Coast*
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 32 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.10 TLO MCPRP Limits for NSS, EOCLB to End of Coast (Continued)
TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.
TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 33 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.11 TLO MCPRP Limits for TSSS, EOCLB to End of Coast*
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 34 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 5.11 TLO MCPRP Limits for TSSS, EOCLB to End of Coast (Continued)
TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.
TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.
FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.
 
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TVA-COLR-BF2C24, Revision 1 6 Thermal-Hydraulic Stability Protection (Technical Specification 3.3.1.1)
Technical Specification Table 3.3.1.1-1, Function 2f, identifies the function.
Instrument setpoints are established, such that the reactor will be tripped before an oscillation can grow to the point where the SLMCPR is exceeded. With application of Reference 31, the DSS-CD stability solution as originally per Reference 20 is now used in a hybrid manner, per Reference 27. The DSS-CD SAD setpoint is 1.10 for TLO and SLO.
New analyses have been developed based on Reference 27. With the implementation of the MELLLA+ operating domain expansion, an ABSP trip is required when the OPRM is out-of-service. The ABSP trip settings define a region of the power to flow map within which an automatic reactor scram occurs. The ABSP trip settings are provided in Table 6.1. If both the OPRM and ABSP are out-of-service, operation within the MELLLA+ domain is not allowed and the MBSP Regions provide stability protection. Table 6.2 and Table 6.3 provide the endpoints for the MBSP regions for nominal and reduced feedwater temperature conditions. These endpoints are connected using the generic shape function of Reference 20 and have been graphed in Appendix A.
Table 6.1 ABSP Setpoints for the Scram Region Parameter Symbol Setting Value (unit)
Comments Slope for Trip mTRIP 2.00 (% RTP/% RDF)
Slope of ABSP APRM Flow-Biased Trip Linear Segment Constant Power Line for Trip PBSP-TRIP 35.0 (% RTP)
ABSP APRM Flow-Biased Trip Setpoint Power Intercept. Constant Power Line for Trip from Zero Drive Flow to Flow Breakpoint Value Constant Flow Line for Trip WBSP-TRIP 49 (% RDF)
ABSP APRM Flow-Biased Trip Setpoint Drive Flow Intercept.
Constant Flow Line for Trip (see Note 1 below)
Flow Breakpoint WBSP-BREAK 30.0 (% RDF)
Flow Breakpoint Value Note 1: WBSP-TRIP can be set to 49.0 % RDF or any higher value up to the intersection of the ABSP sloped line with the APRM Flow Biased STP scram line.
 
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TVA-COLR-BF2C24, Revision 1 Table 6.2 Analyzed MBSP Endpoints: Nominal Feedwater Temperature Endpoint Power
(% Rated)
Core Flow
(% Rated)
Definition A1 75.9 52.7 Scram Region (Region I)
Boundary Intercept on MELLLA+ Line B1 35.5 29.0 Scram Region (Region I)
Boundary Intercept on Natural Circulation Line (NCL)
A2 66.1 52.0 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 25.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)
Table 6.3 Analyzed MBSP Endpoints: Reduced Feedwater Temperature Endpoint Power
(% Rated)
Core Flow
(% Rated)
Definition A1 64.9 50.5 Scram Region (Region I)
Boundary Intercept on MELLLA Line B1 29.4 29.0 Scram Region (Region I)
Boundary Intercept on Natural Circulation Line (NCL)
A2 68.3 54.9 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 24.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 37 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 7 APRM Flow Biased Rod Block Trip Settings (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)
The APRM rod block trip setting is based upon References 28 & 30, and is defined by the following:
for two loop operation:
SRB d (0.61Wd + 63.3)
Allowable Value SRB d (0.61Wd + 62.0)
Nominal Trip Setpoint (NTSP) where:
SRB
=
Rod Block setting in percent of rated thermal power (3952 MWt)
Wd
=
Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow) and for single loop operation:
SRB d (0.55(Wd-'W) + 60.5)
Allowable Value SRB d (0.55(Wd-'W) + 58.5)
Nominal Trip Setpoint (NTSP) where:
SRB
=
Rod Block setting in percent of rated thermal power (3952 MWt)
Wd
=
Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow)
'W
=
Difference between two-loop and single-loop effective recirculation flow at the same core flow ('W=0.0 for two-loop operation)
The APRM rod block trip setting is clamped at a maximum allowable value of 115%
(corresponding to a NTSP of 113%).
 
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TVA-COLR-BF2C24, Revision 1 8 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)
The RBM trip setpoints and applicable power ranges, based on References 28 & 29, are shown in Table 8.1. Setpoints are based on an HTSP, unfiltered analytical limit of 114%. Unfiltered setpoints are consistent with a nominal RBM filter setting of 0.0 seconds; filtered setpoints are consistent with a nominal RBM filter setting less than 0.5 seconds. Cycle specific CRWE analyses of OLMCPR are documented in Reference 1, superseding values reported in References 28, 29, and 30.
Table 8.1 Analytical RBM Trip Setpoints18F18F3F*
RBM Trip Setpoint Allowable Value (AV)
Nominal Trip Setpoint (NTSP)
LPSP 27%
25%
IPSP 62%
60%
HPSP 82%
80%
LTSP - unfiltered
- filtered 121.7%
120.7%
120.0%
119.0%
ITSP - unfiltered
- filtered 116.7%
115.7%
115.0%
114.0%
HTSP - unfiltered
- filtered 111.7%
110.9%
110.0%
109.2%
DTSP 90%
92%
As a result of cycle specific CRWE analyses, RBM setpoints in Technical Specification Table 3.3.2.1-1 are applicable as shown in Table 8.2. Cycle specific setpoint analysis results are shown in Table 8.3, per Reference 1.
Table 8.2 RBM Setpoint Applicability Thermal Power
(% Rated)
Applicable MCPR19F19F34F Notes from Table 3.3.2.1-1 Comment 27% and < 90%
< 1.58 (a), (b), (f), (h) two loop operation
< 1.60 (a), (b), (f), (h) single loop operation 90%
< 1.38 (g) two loop operation20F20F35F
* Values are considered maximums. Using lower values, due to RBM system hardware/software limitations, is conservative, and acceptable.
MCPR values shown correspond with, (support), values identified in Table 1.1.
Greater than 90% rated power is not attainable in single loop operation.
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 39 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Table 8.3 Control Rod Withdrawal Error Results RBM CRWE HTSP Analytical Limit OLMCPR Unfiltered 107 1.23 111 1.29 114 1.32 117 1.36 Results, compared against the base case OLMCPR results of Table 5.7, indicate Table 2.1 MCPR99.9 remains protected for RBM inoperable conditions (i.e., 114% unblocked).
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 40 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 9 Shutdown Margin Limit (Technical Specification 3.1.1)
Assuming the strongest OPERABLE control blade is fully withdrawn, and all other OPERABLE control blades are fully inserted, the core shall be sub-critical and meet the following minimum shutdown margin:
SDM 0.38% dk/k
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 41 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 10 Overpressure Protection System (Technical Specification 3.4.3)
The as-found OPS lift pressures of the required SRVs are specified below:
Table 10.1 SRV Lift Setpoints As-Found Lift Number of SRVs Pressure Limit (psig) 3 1169 4
1179 5
1189
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page A-1 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Appendix A: MBSP Maps Figure A.1 MBSP Boundaries for Nominal Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature) 0 10 20 30 40 50 60 70 80 90 100 110 0
10 20 30 40 50 60 70 80 90 100 110 120 CorePower(%Rated:100%=3952MWt)
CoreFlow(%Rated:100%=102.5Mlb/hr)
MELLLA+Region Manual
Scram
RegionI BSP Boundary MELLLARegion ICFRegion ControlledEntry
RegionII Min.FlowControl Min.Power Line 20%Pump
Speed Line Natural
Circulation MELLLAUpperBoundary 87.5% RodLine
 
ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page A-2 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF2C24, Revision 1 Figure A.2 MBSP Boundaries for Reduced Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for a Reduced Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature) 0 10 20 30 40 50 60 70 80 90 100 110 0
10 20 30 40 50 60 70 80 90 100 110 120 CorePower(%Rated:100%=3952MWt)
CoreFlow(%Rated:100%=102.5Mlb/hr)
MELLLA+Region Manual
Scram
RegionI BSP Boundary MELLLARegion ICFRegion ControlledEntry
RegionII Min.FlowControl Min.Power Line 20%Pump
Speed Line Natural
Circulation 87.5% RodLine MELLLAUpperBoundary
 
Tennessee Valley Authority Browns Ferry Nuclear Plant Unit 3 Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 3 Cycle 22 Operation, TVA-COLR-BF3C22, Revision 1 (See Attached)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page ii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table of Contents Total Number of Pages = 72 (including review cover sheet)
List of Tables................................................................................................................................ iv List of Figures............................................................................................................................... v Revision Log................................................................................................................................ vi Nomenclature............................................................................................................................... vii References.................................................................................................................................... x 1
Introduction.......................................................................................................................... 1
1.1
Purpose......................................................................................................................... 1
1.2
Scope............................................................................................................................ 1
1.3
Fuel Loading.................................................................................................................. 2
1.4
Acceptability.................................................................................................................. 2
2
MCPR99.9% Safety Limit........................................................................................................ 3
3
APLHGR.............................................................................................................................. 4
3.1
Rated Power and Flow Limit: APLHGRRATED................................................................ 4
3.2
Off-Rated Power Dependent Limit: APLHGRP............................................................. 4
3.2.1
Startup without Feedwater Heaters....................................................................... 4
3.3
Off-Rated Flow Dependent Limit: APLHGRF................................................................ 4
3.4
Single Loop Operation Limit: APLHGRSLO.................................................................... 4
3.5
Equipment Out-Of-Service Corrections......................................................................... 7
4
LHGR Limits......................................................................................................................... 8
4.1
Rated Power and Flow Limit: LHGRRATED..................................................................... 8
4.2
Off-Rated Power Dependent Limit: LHGRP.................................................................. 8
4.2.1
Startup without Feedwater Heaters....................................................................... 8
4.3
Off-Rated Flow Dependent Limit: LHGRF..................................................................... 9
4.4
Equipment Out-Of-Service Corrections......................................................................... 9
5
OLMCPR Limits................................................................................................................. 20
5.1
Flow Dependent MCPR Limit: MCPRF....................................................................... 20
5.2
Power Dependent MCPR Limit: MCPRP.................................................................... 20
5.2.1
Startup without Feedwater Heaters..................................................................... 20
5.2.2
Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)................................. 21
5.2.3
Exposure Dependent Limits................................................................................ 21
5.2.4
Equipment Out-Of-Service (EOOS) Options....................................................... 22
5.2.5
Single-Loop-Operation (SLO) Limits................................................................... 22
5.2.6
Flow Flags........................................................................................................... 22
5.2.6.1
Below Pbypass Limits....................................................................................... 22
6
Thermal-Hydraulic Stability Protection............................................................................... 51
7
APRM Flow Biased Rod Block Trip Settings...................................................................... 53
8
Rod Block Monitor (RBM) Trip Setpoints and Operability.................................................. 54
9
Shutdown Margin Limit....................................................................................................... 56
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page iii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 10
Overpressure Protection System....................................................................................... 57
Appendix A:
MBSP Maps...................................................................................................... A-1
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page iv Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
List of Tables Nuclear Fuel Types0F0F0F................................................................................................................. 2
MCPR99.9%..................................................................................................................................... 3
Startup Feedwater Temperature Basis......................................................................................... 8
Nominal Scram Time Basis......................................................................................................... 21
MCPRP Limits for ATRIUM-10XM Fuel: Optimum Scram Time Basis7F7F7F................................... 25
MCPRP Limits for ATRIUM-11 Fuel: Optimum Scram Time Basis7F7F8F........................................ 26
MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis8F8F9F.................................... 27
MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis10F10F13F......................................... 31
MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis8F8F17F.............................. 35
MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis10F10F21F................................... 39
Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel:
Nominal Scram Time Basis12F12F25F................................................................................................... 43
Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Nominal Scram Time Basis13F13F27F................................................................................................................. 45
Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel:
Tech. Spec. Scram Time Basis14F14F29F............................................................................................. 47
Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Tech.
Spec. Scram Time Basis15F15F31F....................................................................................................... 49
ABSP Setpoints for the Scram Region....................................................................................... 51
Analyzed MBSP Endpoints: Nominal Feedwater Temperature................................................. 52
Analyzed MBSP Endpoints: Reduced Feedwater Temperature................................................ 52
Analytical RBM Trip Setpoints18F18F3F............................................................................................... 54
RBM Setpoint Applicability.......................................................................................................... 54
Control Rod Withdrawal Error Results........................................................................................ 55
SRV Lift Setpoints....................................................................................................................... 57
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page v Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
List of Figures APLHGRRATED for ATRIUM-10XM Fuel......................................................................................... 5
APLHGRRATED for ATRIUM-11 Fuel............................................................................................... 6
LHGRRATED for ATRIUM-10XM Fuel............................................................................................ 10
LHGRRATED for ATRIUM-11 Fuel................................................................................................. 11
Base Operation LHGRFACP for ATRIUM-10XM Fuel................................................................. 12
Base Operation LHGRFACP for ATRIUM-11 Fuel...................................................................... 13
LHGRFACF for ATRIUM-10XM Fuel........................................................................................... 14
LHGRFACF for ATRIUM-11 Fuel................................................................................................ 15
Startup Operation LHGRFACP for ATRIUM-10XM Fuel: Table 4.1 Temperature Range 1........ 16
Startup Operation LHGRFACP for ATRIUM-10XM Fuel: Table 4.1 Temperature Range 2........ 17
Startup Operation LHGRFACP for ATRIUM-11 Fuel: Table 4.1 Temperature Range 1.............. 18
Startup Operation LHGRFACP for ATRIUM-11 Fuel: Table 4.1 Temperature Range 2.............. 19
MCPRF for ATRIUM-10XM Fuel................................................................................................. 23
MCPRF for ATRIUM-11 Fuel....................................................................................................... 24
MBSP Boundaries For Nominal Feedwater Temperature........................................................ A-2
MBSP Boundaries For Reduced Feedwater Temperature....................................................... A-3
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page vi Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Revision Log Number Page Description 0-R0 All New document.
1 viii Added OPS and SRV acronyms.
57 Added Section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3).
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page vii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Nomenclature ABSP Automatic Backup Stability Protection APLHGR Average Planar LHGR APRM Average Power Range Monitor AREVA NP Vendor (Framatome, Siemens)
BOC Beginning of Cycle BSP Backup Stability Protection BWR Boiling Water Reactor CAVEX Core Average Exposure CD Coast Down CMSS Core Monitoring System Software COLR Core Operating Limits Report CPR Critical Power Ratio CRWE Control Rod Withdrawal Error CSDM Cold SDM DIVOM Delta CPR over Initial CPR vs. Oscillation Magnitude DSS-CD Detect and Suppress Solution - Confirmation Density EOC End of Cycle EOCLB End-of-Cycle Licensing Basis EOOS Equipment OOS EPU Extended Power Uprate (120% OLTP)
FFTR Final Feedwater Temperature Reduction FFWTR Final Feedwater Temperature Reduction FHOOS Feedwater Heaters OOS ft Foot: English unit of measure for length GNF Vendor (General Electric, Global Nuclear Fuels)
GWd Giga Watt Day HTSP High TSP ICA Interim Corrective Action ICF Increased Core Flow (beyond rated)
IS In-Service kW kilo watt: SI unit of measure for power.
LCO License Condition of Operation LFWH Loss of Feedwater Heating LHGRFAC LHGR Multiplier (Power or Flow dependent)
LPRM Low Power Range Monitor LRNB Generator Load Reject, No Bypass MAPFAC MAPLHGR multiplier (Power or Flow dependent)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page viii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
MBSP Manual Backup Stability Protection MCPR Minimum CPR MELLLA Maximum Extended Load Line Limit Analysis MELLLA+
Maximum Extended Load Line Limit Analysis Plus MSRV Moisture Separator Reheater Valve MSRVOOS MSRV OOS MTU Metric Ton Uranium MWd/MTU Mega Watt Day per Metric Ton Uranium NDS No Direct Scram (below Pbypass)
NEOC Near EOC NRC United States Nuclear Regulatory Commission NSS Nominal Scram Speed NTSP Nominal TSP OLMCPR MCPR Operating Limit OLTP Original Licensed Thermal Power OOS Out-Of-Service OPRM Oscillation Power Range Monitor OPS Overpressure Protection System OSS Optimum Scram Speed PBDA Period Based Detection Algorithm Pbypass Power below which TSV Position and TCV Fast Closure Scrams are Bypassed PLU Power Load Unbalance PLUOOS PLU OOS PRNM Power Range Neutron Monitor RBM Rod Block Monitor RCPOOS Recirculation Pump OOS (SLO)
RDF Rated Drive Flow RPS Reactor Protection System RPT Recirculation Pump Trip RPTOOS RPT OOS RTP Rated Thermal Power SDM Shutdown Margin SLMCPR MCPR Safety Limit SLO Single Loop Operation SRV Safety Relief Valve STP APRM Simulated Thermal Power TBV Turbine Bypass Valve TBVIS TBV IS TBVOOS Turbine Bypass Valves OOS TIP Traversing In-core Probe TIPOOS TIP OOS TLO Two Loop Operation TSP Trip Setpoint TSSS Technical Specification Scram Speed
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page ix Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
TVA Tennessee Valley Authority
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page x Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
References
: 1.
ANP-4067, Revision 0, Browns Ferry Unit 3 Cycle 22 Reload Analysis, Framatome, Inc., November 2023.
: 2.
ANP-3860P Revision 1, Mechanical Design Report for Browns Ferry ATRIUM 11 Fuel Assemblies, Framatome Inc., June 2022.
: 3.
ANP-3150P, Revision 4, Mechanical Design Report for Browns Ferry ATRIUM 10XM Fuel Assemblies, AREVA Inc., November 2017.
: 4.
ANP-4047P, Revision 0, Browns Ferry Unit 3 Cycle 22 Plant Parameters Document, Framatome Inc., May 2023.
: 5.
BFE-4837, Revision 0, Browns Ferry Unit 3 Cycle 22 In Core Shuffle, Calculation File, Tennessee Valley Authority, January 2024.
Methodology References
: 6.
XN-NF-81-58(P)(A) Revision 2 and Supplements 1 and 2, RODEX2 Fuel Rod Thermal-Mechanical Response Evaluation Model, Exxon Nuclear Company, March 1984.
: 7.
XN-NF-85-67(P)(A) Revision 1, Generic Mechanical Design for Exxon Nuclear Jet Pump BWR Reload Fuel, Exxon Nuclear Company, September 1986.
: 8.
EMF-85-74(P) Revision 0 Supplement 1(P)(A) and Supplement 2(P)(A), RODEX2A (BWR) Fuel Rod Thermal-Mechanical Evaluation Model, Siemens Power Corporation, February 1998.
: 9.
ANF-89-98(P)(A) Revision 1 and Supplement 1, Generic Mechanical Design Criteria for BWR Fuel Designs, Advanced Nuclear Fuels Corporation, May 1995.
: 10.
XN-NF-80-19(P)(A) Volume 1 and Supplements 1 and 2, Exxon Nuclear Methodology for Boiling Water Reactors - Neutronic Methods for Design and Analysis, Exxon Nuclear Company, March 1983.
: 11.
XN-NF-80-19(P)(A) Volume 4 Revision 1, Exxon Nuclear Methodology for Boiling Water Reactors: Application of the ENC Methodology to BWR Reloads, Exxon Nuclear Company, June 1986.
: 12.
EMF-2158(P)(A) Revision 0, Siemens Power Corporation Methodology for Boiling Water Reactors: Evaluation and Validation of CASMO-4/MICROBURN-B2, Siemens Power Corporation, October 1999.
: 13.
XN-NF-80-19(P)(A) Volume 3 Revision 2, Exxon Nuclear Methodology for Boiling Water Reactors, THERMEX: Thermal Limits Methodology Summary Description, Exxon Nuclear Company, January 1987.
: 14.
ANP-10307PA, Revision 0, AREVA MCPR Safety Limit Methodology for Boiling Water Reactors, AREVA NP Inc., June 2011.
: 15.
EMF-2361(P)(A) Revision 0, EXEM BWR-2000 ECCS Evaluation Model, Framatome ANP Inc., May 2001, as supplemented by the site specific approval in NRC safety evaluation dated February 15, 2013 and July 31, 2014.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page xi Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
: 16.
EMF-2292(P)(A) Revision 0, ATRIUM'-10: Appendix K Spray Heat Transfer Coefficients, Siemens Power Corporation, September 2000.
: 17.
EMF-CC-074(P)(A), Volume 4, Revision 0, BWR Stability Analysis: Assessment of STAIF with Input from MICROBURN-B2, Siemens Power Corporation, August 2000.
: 18.
BAW-10247PA, Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors, AREVA NP Inc., February 2008.
: 19.
ANP-10298P-A, Revision 1, ACE/ATRIUM 10XM Critical Power Correlation, AREVA Inc., March 2014.
: 20.
NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.
: 21.
BAW-10247P-A Supplement 2P-A Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors Supplement 2: Mechanical Methods, Framatome Inc., August 2018.
: 22.
ANP-10300P-A Revision 1, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Transient and Accident Scenarios, Framatome Inc.,
January 2018.
: 23.
ANP-10332P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Loss of Coolant Accident Scenarios, Framatome Inc.,
March 2019.
: 24.
ANP-10333P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Control Rod Drop Accident (CRDA), Framatome Inc.,
March 2018 (as supplemented by Section 6.4 of ANP-3908P Revision 4, Applicability of Framatome BWR Methods to Browns Ferry with ATRIUM 11 Fuel, Framatome Inc., June 2022)
: 25.
ANP-10335P-A Revision 0, ACE/ATRIUM 11 Critical Power Correlation, Framatome Inc., May 2018.
: 26.
ANP-10340P-A Revision 0, Incorporation of Chromia Doped Fuel Properties in AREVA Approved Methods, Framatome Inc., May 2018.
: 27.
ANP-3907P Revision 0, Application of BEO-III Methodology with the Confirmation Density Algorithm at Browns Ferry, Framatome Inc., April 2021.
Setpoint References
: 28.
EDQ2092900118, R39, Setpoint and Scaling Calculation for Neutron Monitoring System & Recirculation Flow Loops, Calculation File, Tennessee Valley Authority, October 14, 2022.
: 29.
Task T0500, Revision 0, Neutron Monitoring System w/RBM, Project Task Report, GE Hitachi Nuclear Energy, June 2017.
: 30.
Task T0506, Revision 0, TS Instrument Setpoints, Project Task Report, Tennessee Valley Authority, August, 2017.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page xii Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
: 31.
NEDC-33006P-A, Revision 3, General Electric Boiling Water Reactor Maximum Extended Load Line Limit Analysis Plus, GE Energy Nuclear, June 2009.
: 32.
NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 1 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 1 Introduction In anticipation of cycle startup, it is necessary to describe the expected limits of operation.
1.1 Purpose The primary purpose of this document is to satisfy requirements identified by unit technical specification section 5.6.5. This document may be provided, upon final approval, to the NRC.
1.2 Scope This document will discuss the following areas:
3/4 Minimum Critical Power Ratio Safety Limit (MCPR99.9%)
(Technical Specifications 2.1.1.2, 3.2.2, and 5.6.5.a(3))
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Average Planar Linear Heat Generation Rate (APLHGR) Limit (Technical Specifications 3.2.1 and 3.7.5)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Linear Heat Generation Rate (LHGR) Limit (Technical Specification 3.2.3, 3.3.4.1, and 3.7.5)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Minimum Critical Power Ratio Operating Limit (OLMCPR)
(Technical Specifications 3.2.2, 3.3.4.1, 3.7.5 and Table 3.3.2.1-1)
Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Thermal-Hydraulic Stability Protection (Technical Specification Table 3.3.1.1)
Applicability: Mode 1, (as specified in Technical Specifications Table 3.3.1.1-1) 3/4 Average Power Range Monitor (APRM) Flow Biased Rod Block Trip Setting (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)
Applicability: Mode 1, (as specified in Technical Requirements Manuals Table 3.3.4-1) 3/4 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)
Applicability: Mode 1, % RTP as specified in Table 3.3.2.1-1 (TS definition of RTP) 3/4 Shutdown Margin (SDM) Limit (Technical Specification 3.1.1)
Applicability: All Modes
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 2 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 1.3 Fuel Loading The core will contain fresh ATRIUM-11 and exposed ATRIUM-10XM. Nuclear fuel types used in the core loading are shown in Table 1.1. The core shuffle and final loading were explicitly evaluated for BOC cold shutdown margin performance as documented per Reference 5.
Table 1.1 Nuclear Fuel Types0F0F0F*
Fuel Description Original Cycle Number of Assemblies Nuclear Fuel Type (NFT)
Fuel Names (Range)
ATRIUM 10XM XMLC-3920B-14GV80-FCJ 20 56 24 FCJ345-FCJ568 ATRIUM 10XM XMLC-3957B-12GV80-FCJ 20 48 25 FCJ569-FCJ656 ATRIUM 10XM XMLC-4000B-15GV80-FCK 21 144 26 FCK667-FCK810 ATRIUM 10XM XMLC-4001B-14GV80-FCK 21 100 27 FCK811-FCK910 ATRIUM 10XM XMLC-3986B-14GV80-FCK 21 24 28 FCK911-FCK934 ATRIUM 10XM XMLC-3992B-12GV80-FCK 21 64 29 FCK935-FCK998 ATRIUM 11 AT11-3992B-14GV100-FCL 22 160 30 FCL001-FCL160 ATRIUM 11 AT11-3993B-14GV100-FCL 22 88 31 FCL161-FCL248 ATRIUM 11 AT11-4178B-13GV80-FCL 22 80 32 FCL249-FCL328 1.4 Acceptability Limits discussed in this document were generated based on NRC approved methodologies per References 6 through 27.
* The table identifies the expected fuel type breakdown in anticipation of final core loading. The final composition of the core depends upon uncertainties during the outage such as discovering a failed fuel bundle, or other bundle damage. Minor core loading changes, due to unforeseen events, will conform to the safety and monitoring requirements identified in this document.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 3 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 2 MCPR99.9% Safety Limit (Technical Specifications 2.1.1.2, and 3.2.2)
SLMCPR of Technical Specification 2.1.1.2 has been changed by approval of Traveler TSTF-564, Revision 2. Now, the SLMCPR of Technical Specification 2.1.1.2 represents the MCPR95/95, relative to the critical power correlations being used. Values in TS 2.1.1.2 would only potentially change if there is a change to critical power correlation being used or system measurement uncertainty.
Values provided in Table 2.1, per Reference 1, represent the integral MCPR99.9% considering all forms of uncertainties, and cycle specific fuel designs, core loading, and projected cycle operation.
Table 2.1 MCPR99.9%
TLO SLO SLMCPR BOC NEOC EOCLB to to to End of NEOC EOCLB Coast 1.09 1.09 1.09 1.08 1.08 1.08
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 4 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 3 APLHGR (Technical Specifications 3.2.1 & 3.7.5)
The APLHGR limit is determined by adjusting the rated power APLHGR limit for off-rated power, off-rated flow, and SLO conditions. The most limiting of these is then used as follows:
APLHGR limit = MIN ( APLHGRP, APLHGRF, APLHGRSLO )
where:
APLHGRP off-rated power APLHGR limit
[APLHGRRATED
* MAPFACP]
APLHGRF off-rated flow APLHGR limit
[APLHGRRATED
* MAPFACF]
APLHGRSLO SLO APLHGR limit
[APLHGRRATED
* SLO Multiplier]
3.1 Rated Power and Flow Limit: APLHGRRATED The rated conditions APLHGR for all fuel are identified per Reference 1. The rated conditions APLHGR for ATRIUM-10XM fuel are shown in Figure 3.1. The rated conditions APLHGR for ATRIUM-11 are shown in Figure 3.2.
3.2 Off-Rated Power Dependent Limit: APLHGRP Reference 1 does not specify a power dependent APLHGR. Therefore, MAPFACP is set to a value of 1.0.
3.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. No additional power dependent limitation is required.
3.3 Off-Rated Flow Dependent Limit: APLHGRF Reference 1 does not specify a flow dependent APLHGR. Therefore, MAPFACF is set to a value of 1.0.
3.4 Single Loop Operation Limit: APLHGRSLO The single loop operation multiplier for ATRIUM-10XM and ATRIUM-11 fuel is 0.85, per Reference 1.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 5 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0 3
6 9
12 15 0
20 40 60 80 APLHGR (kW/ft)
Planar Average Exposure (GWd/MTU)
Planar Avg.
APLHGR Exposure Limit (GWd/MTU)
(kW/ft) 0.0 13.0 15.0 13.0 67.0 7.6 Figure 3.1 APLHGRRATED for ATRIUM-10XM Fuel
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 6 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0 3
6 9
12 15 0
20 40 60 80 APLHGR (kW/ft)
Planar Average Exposure (GWd/MTU)
Planar Avg.
APLHGR Exposure Limit (GWd/MTU)
(kW/ft) 0.0 11.5 20.0 11.5 60.0 9.0 69.0 7.2 Figure 3.2 APLHGRRATED for ATRIUM-11 Fuel
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 7 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 3.5 Equipment Out-Of-Service Corrections The limits shown in Figure 3.1 and Figure 3.2 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options. For RCPOOS, use the APLHGRSLO multiplier in Section 3.4.
In-Service All Equipment In-Service1F1F1F*
RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service
* All equipment service conditions assume 1 SRVOOS.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 8 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 4 LHGR Limits (Technical Specification 3.2.3, 3.3.4.1, & 3.7.5)
The LHGR limit is determined by adjusting the rated power LHGR limit for off-rated power and off-rated flow conditions. The most limiting of these is then used as follows:
LHGR limit = MIN ( LHGRP, LHGRF )
where:
LHGRP off-rated power LHGR limit
[LHGRRATED
* LHGRFACP]
LHGRF off-rated flow LHGR limit
[LHGRRATED
* LHGRFACF]
4.1 Rated Power and Flow Limit: LHGRRATED The rated conditions LHGR for all fuel are identified per Reference 1. The rated conditions LHGR for ATRIUM-10XM are shown in Figure 4.1. The rated conditions LHGR for ATRIUM-11 fuel is shown in Figure 4.2. The LHGR limits are consistent with References 2 & 3.
4.2 Off-Rated Power Dependent Limit: LHGRP LHGR limits are adjusted for off-rated power conditions using the LHGRFACP multiplier provided in Reference 1. The multiplier is split into two sub cases: turbine bypass valves in and out-of-service. The base case multipliers are shown in Figure 4.3 and Figure 4.4.
4.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Additional limits are shown in Figure 4.7 through Figure 4.10, based on temperature conditions identified in Table 4.1.
Table 4.1 Startup Feedwater Temperature Basis Power Range 1 Range 2
(% Rated)
(&deg;F)
(&deg;F) 23 155.0 150.0 30 162.0 157.0 40 172.0 167.0 50 182.0 177.0 Temperature
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 9 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 4.3 Off-Rated Flow Dependent Limit: LHGRF LHGR limits are adjusted for off-rated flow conditions using the LHGRFACF multiplier provided in Reference 1. Multipliers are shown in Figure 4.5 through Figure 4.6.
4.4 Equipment Out-Of-Service Corrections The limits shown in Figure 4.1 and Figure 4.2 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options.2F2F2F*
In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service Off-rated power corrections shown in Figure 4.3 and Figure 4.4 are dependent on operation of the Turbine Bypass Valve system. For this reason, separate limits are to be applied for TBVIS or TBVOOS operation. The limits have no dependency on RPTOOS, PLUOOS, FHOOS/FFWTR, or SLO.
Off-rated flow corrections shown in Figure 4.5 and Figure 4.6 are bounding for all EOOS conditions.
Off-rated power corrections shown in Figure 4.7 through Figure 4.10 are also dependent on operation of the Turbine Bypass Valve system. In this case, limits support FHOOS operation during startup. These limits have no dependency on RPTOOS, PLUOOS, or SLO.
* All equipment service conditions assume 1 SRVOOS.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 10 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0 3
6 9
12 15 0
20 40 60 80 LHGR (kW/ft)
Pellet Exposure (GWd/MTU)
Pellet LHGR Exposure Limit (GWd/MTU)
(kW/ft) 0.0 14.1 18.9 14.1 74.4 7.4 Figure 4.1 LHGRRATED for ATRIUM-10XM Fuel
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 11 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0 3
6 9
12 15 0
20 40 60 80 100 LHGR (kW/ft)
Pellet Exposure (GWd/MTU)
Pellet LHGR Exposure Limit (GWd/MTU)
(kW/ft) 0.0 13.6 21.0 13.6 53.0 10.2 80.0 3.5 Figure 4.2 LHGRRATED for ATRIUM-11 Fuel
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 12 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)
Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP
(% Rated)
(% Rated) 100.0 0.99 100.0 0.97 26.0 0.59 26.0 0.56 26.0 0.42 26.0 0.38 23.0 0.40 23.0 0.34 26.0 0.45 26.0 0.43 23.0 0.44 23.0 0.39 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.3 Base Operation LHGRFACP for ATRIUM-10XM Fuel (Independent of other EOOS conditions)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 13 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)
Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP
(% Rated)
(% Rated) 100.0 0.95 100.0 0.94 26.0 0.54 26.0 0.45 26.0 0.37 26.0 0.33 23.0 0.36 23.0 0.30 26.0 0.41 26.0 0.38 23.0 0.39 23.0 0.35 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.4 Base Operation LHGRFACP for ATRIUM-11 Fuel (Independent of other EOOS conditions)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 14 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0.50 0.55 0.60 0.65 0.70 0.75 0.80 0.85 0.90 0.95 1.00 1.05 1.10 25 35 45 55 65 75 85 95 105 LHGRFACF Core Flow (% Rated)
Core Flow LHGRFACF
(% Rated) 0.0 0.62 30.0 0.62 77.9 1.00 107.0 1.00 Figure 4.5 LHGRFACF for ATRIUM-10XM Fuel (Values bound all EOOS conditions)
(107.0% maximum core flow line is used to support 105% rated flow operation, ICF)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 15 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0.50 0.55 0.60 0.65 0.70 0.75 0.80 0.85 0.90 0.95 1.00 1.05 1.10 25 35 45 55 65 75 85 95 105 LHGRFACF Core Flow (% Rated)
Core Flow LHGRFACF
(% Rated) 0.0 0.62 30.0 0.62 78.3 1.00 107.0 1.00 Figure 4.6 LHGRFACF for ATRIUM-11 Fuel (Values bound all EOOS conditions)
(107.0% maximum core flow line is used to support 105% rated flow operation, ICF)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 16 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)
Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP
(% Rated)
(% Rated) 100.0 0.99 100.0 0.97 26.0 0.53 26.0 0.48 26.0 0.39 26.0 0.32 23.0 0.37 23.0 0.29 26.0 0.44 26.0 0.39 23.0 0.41 23.0 0.34 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.7 Startup Operation LHGRFACP for ATRIUM-10XM Fuel:
Table 4.1 Temperature Range 1 (no Feedwater heating during startup)
(Limits valid at and below 50% power)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 17 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)
Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP
(% Rated)
(% Rated) 100.0 0.99 100.0 0.97 26.0 0.53 26.0 0.48 26.0 0.39 26.0 0.32 23.0 0.37 23.0 0.29 26.0 0.44 26.0 0.39 23.0 0.41 23.0 0.34 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.8 Startup Operation LHGRFACP for ATRIUM-10XM Fuel:
Table 4.1 Temperature Range 2 (no Feedwater heating during startup)
(Limits valid at and below 50% power)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 18 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)
Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP
(% Rated)
(% Rated) 100.0 0.95 100.0 0.94 26.0 0.45 26.0 0.37 26.0 0.35 26.0 0.28 23.0 0.33 23.0 0.26 26.0 0.39 26.0 0.35 23.0 0.38 23.0 0.30 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.9 Startup Operation LHGRFACP for ATRIUM-11 Fuel:
Table 4.1 Temperature Range 1 (no Feedwater heating during startup)
(Limits valid at and below 50% power)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 19 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)
Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP
(% Rated)
(% Rated) 100.0 0.95 100.0 0.94 26.0 0.45 26.0 0.37 26.0 0.35 26.0 0.28 23.0 0.33 23.0 0.26 26.0 0.39 26.0 0.35 23.0 0.38 23.0 0.30 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.10 Startup Operation LHGRFACP for ATRIUM-11 Fuel:
Table 4.1 Temperature Range 2 (no Feedwater heating during startup)
(Limits valid at and below 50% power)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 20 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 5 OLMCPR Limits (Technical Specification 3.2.2, 3.3.4.1, & 3.7.5)
OLMCPR is calculated to be the most limiting of the flow or power dependent values OLMCPR limit = MAX ( MCPRF, MCPRP )
where:
MCPRF core flow-dependent MCPR limit MCPRP power-(and flow flag) dependent MCPR limit 5.1 Flow Dependent MCPR Limit: MCPRF MCPRF limits are dependent upon core flow (% of Rated), and the max core flow limit, (Rated or Increased Core Flow, ICF). MCPRF limits are shown in Figure 5.1 for ATRIUM-10XM; Figure 5.2 for ATRIUM-11 fuel, per Reference 1. Limits are valid for all EOOS combinations. No adjustment is required for SLO conditions.
5.2 Power Dependent MCPR Limit: MCPRP MCPRP limits are dependent upon:
Core Power (% of Rated) for a specified flow flag bin.
Technical Specification Scram Speed (TSSS), Nominal Scram Speed (NSS), or Optimum Scram Speed (OSS)
Cycle Operating Exposure (NEOC, EOC, and CD - as defined in this section)
Equipment Out-Of-Service Options Two or Single recirculation Loop Operation (TLO vs. SLO)
The MCPRP limits are provided in Table 5.2 through Table 5.7, where each table contains the limits for a single fuel type, and EOOS options (for a specified scram speed and exposure range). The CMSS determines MCPRP limits, from these tables, based on linear interpolation between the specified powers.
5.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Additional power dependent limits are shown in Table 5.8 through Table 5.11 based on temperature conditions identified in Table 4.1.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 21 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 5.2.2 Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)
MCPRP limits are provided for three different sets of assumed scram speeds. The Technical Specification Scram Speed (TSSS) MCPRP limits are applicable at all times, as long as the scram time surveillance demonstrates the times in Technical Specification Table 3.1.4-1 are met. Both Nominal Scram Speeds (NSS) and/or Optimum Scram Speeds (OSS) may be used, as long as the scram time surveillance demonstrates Table 5.1 times are applicable. 3F3F3F*
4F4F4F Table 5.1 Nominal Scram Time Basis Notch Nominal Optimum Position Scram Timing Scram Timing (index)
(seconds)
(seconds) 46 0.380 0.350 36 0.960 0.930 26 1.590 1.560 6
2.900 2.800 In demonstrating compliance with the NSS and/or OSS scram time basis, surveillance requirements from Technical Specification 3.1.4 apply; accepting the definition of SLOW rods should conform to scram speeds shown in Table 5.1. If conformance is not demonstrated, TSSS based MCPRP limits are applied.
On initial cycle startup, TSSS limits are used until the successful completion of scram timing confirms NSS and/or OSS based limits are applicable.
5.2.3 Exposure Dependent Limits Exposures are tracked on a Core Average Exposure basis (CAVEX, not Cycle Exposure).
Higher exposure MCPRP limits are NOT always more limiting. Per Reference 1, MCPRP limits are provided for the following exposure ranges:
BOC to NEOC NEOC corresponds to 30,919.0 MWd / MTU NEOC to EOCLB EOCLB corresponds to 33,270.1 MWd / MTU EOCLB to End of Coast End of Coast 34,917.8 MWd / MTU The EOCLB exposure point is not the true End-Of-Cycle exposure. Instead, it corresponds to a licensing exposure window exceeding expected end-of-full-power-life.
* Reference 1 analysis results are based on information identified in Reference 4.
Drop out times consistent with method used to perform actual timing measurements (i.e., including pickup/dropout effects).
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 22 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
The End of Coast exposure point represents a licensing exposure point exceeding the expected end-of-cycle exposure including cycle extension options.
5.2.4 Equipment Out-Of-Service (EOOS) Options EOOS options5F5F5F* covered by MCPRP limits are given by the following:
In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service RPTOOS+TBVOOS Combined RPTOOS and TBVOOS PLUOOS Power Load Unbalance Out-Of-Service PLUOOS+RPTOOS Combined PLUOOS and RPTOOS PLUOOS+TBVOOS Combined PLUOOS and TBVOOS PLUOOS+TBVOOS+RPTOOS Combined PLUOOS, RPTOOS, and TBVOOS FHOOS (or FFWTR)
Feedwater Heaters Out-Of-Service (or Final Feedwater Temperature Reduction)
RCPOOS One Recirculation Pump Out-Of-Service For exposure ranges up to NEOC and EOCLB, additional combinations of MCPRP limits are also provided including FHOOS. The coast down exposure range assumes application of FFWTR. FHOOS based MCPRP limits for the coast down exposure are redundant because the temperature setdown assumption is identical with FFWTR.
5.2.5 Single-Loop-Operation (SLO) Limits When operating in RCPOOS conditions, MCPRp limits are constructed differently from the normal operating RCP conditions. The limiting event for RCPOOS is a pump seizure scenario, which sets the upper bound for allowed core power and flow 6F6F6F. This event is not impacted by scram time assumptions. Specific MCPRP limits are shown with all other limits identified per Table 5.2 through Table 5.11, using the RCPOOS equipment out-of-service descriptor.
5.2.6 Flow Flags A flow flag is simply a point on the core flow axis of the power/flow map defining core flow bins where limits are applicable. For the cycle, a 90% core flow flag is employed. Hence, there are 2 core flow bins generated. While not every flow flag bin pair has a benefit, there are two MCPRP values for each exposure bin, and each power level, (values for a bin pair may be equal).
5.2.6.1 Below Pbypass Limits Below Pbypass (26% rated power), a flow flag of 50% is utilized.
* All equipment service conditions assume 1 SRVOOS.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 23 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 1.00 1.20 1.40 1.60 1.80 2.00 30 40 50 60 70 80 90 100 110 MCPRF Core Flow (% Rated)
Core Flow MCPRf
(% Rated) 30.0 1.64 84.0 1.40 107.0 1.40 Figure 5.1 MCPRF for ATRIUM-10XM Fuel (Values bound all EOOS conditions)
(107.0% maximum core flow line is used to support 105% rated flow operation, ICF)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 24 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 1.00 1.20 1.40 1.60 1.80 2.00 30 40 50 60 70 80 90 100 110 MCPRF Core Flow (% Rated)
Core Flow MCPRf
(% Rated) 30.0 1.70 84.0 1.45 107.0 1.45 Figure 5.2 MCPRF for ATRIUM-11 Fuel (Values bound all EOOS conditions)
(107.0% maximum core flow line is used to support 105% rated flow operation, ICF)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 25 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.2 MCPRP Limits for ATRIUM-10XM Fuel: Optimum Scram Time Basis7F7F7F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.58 1.58 1.58 1.58 1.62 1.62 90 1.61 1.61 1.61 1.61 1.69 1.69 77.6 1.74 1.74 1.74 1.74 1.81 1.81 65 1.83 1.83 1.83 1.83 1.94 1.94 50 1.93 1.93 1.93 1.93 2.00 2.00 26 2.50 2.50 2.50 2.50 2.58 2.58 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 100 1.62 1.62 1.62 1.62 90 1.69 1.69 1.69 1.69 77.6 1.81 1.81 1.81 1.81 65 1.94 1.94 1.94 1.94 50 2.00 2.00 2.00 2.00 26 2.58 2.58 2.58 2.58 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 Base Case FHOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR/FHOOS is supported for the EOCLB to End of Coast limits.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 26 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.3 MCPRP Limits for ATRIUM-11 Fuel: Optimum Scram Time Basis7F7F8F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.51 1.51 1.48 1.48 1.60 1.60 90 1.63 1.63 1.63 1.63 1.63 1.63 77.6 1.79 1.79 1.73 1.73 1.73 1.73 65 1.84 1.84 1.84 1.84 1.84 1.84 50 1.95 1.95 1.95 1.95 2.08 2.08 26 2.58 2.58 2.31 2.31 2.41 2.41 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 100 1.60 1.60 1.60 1.60 90 1.72 1.72 1.63 1.63 77.6 1.87 1.87 1.73 1.73 65 1.99 1.99 1.84 1.84 50 2.08 2.08 2.08 2.08 26 2.71 2.71 2.41 2.41 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 FHOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast Base Case
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR/FHOOS is supported for the EOCLB to End of Coast limits.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 27 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.4 MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis8F8F9F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.58 1.58 1.58 1.58 1.69 1.69 90 1.61 1.61 1.61 1.61 1.69 1.69 77.6 1.79 1.79 1.79 1.79 1.89 1.89 65 1.97 1.97 1.97 1.97 1.98 1.98 50 2.07 2.07 2.07 2.07 2.08 2.08 26 2.50 2.50 2.50 2.50 2.58 2.58 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 100 1.83 1.83 1.83 1.83 2.11 2.11 90 2.05 2.05 2.05 2.05 2.46 2.46 77.6 2.08 2.08 2.08 2.08 2.46 2.46 65 2.08 2.08 2.08 2.08 2.46 2.46 50 2.10 2.10 2.10 2.10 2.48 2.48 26 2.55 2.55 2.55 2.55 2.62 2.62 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.98 2.77 2.98 2.77 3.17 2.88 23 3.24 2.91 3.24 2.91 3.30 3.00 100 1.69 1.69 1.69 1.69 90 1.69 1.69 1.69 1.69 77.6 1.89 1.89 1.89 1.89 65 1.98 1.98 1.98 1.98 50 2.08 2.08 2.08 2.08 26 2.58 2.58 2.58 2.58 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 100 1.58 1.58 1.58 1.58 1.69 1.69 90 1.61 1.61 1.61 1.61 1.69 1.69 77.6 1.79 1.79 1.79 1.79 1.89 1.89 65 1.97 1.97 1.97 1.97 1.98 1.98 50 2.07 2.07 2.07 2.07 2.08 2.08 26 2.50 2.50 2.50 2.50 2.58 2.58 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 to End of Coast BOC to NEOC NEOC to EOCLB EOCLB Base Case TBVOOS FHOOS PLUOOS
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 28 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.4 MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis (continued)9F9F10F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.11 2.11 2.11 2.11 90 2.46 2.46 2.46 2.46 77.6 2.46 2.46 2.46 2.46 65 2.46 2.46 2.46 2.46 50 2.48 2.48 2.48 2.48 26 2.62 2.62 2.62 2.62 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.88 3.17 2.88 23 3.30 3.00 3.30 3.00 100 1.83 1.83 1.83 1.83 2.11 2.11 90 2.05 2.05 2.05 2.05 2.46 2.46 77.6 2.08 2.08 2.08 2.08 2.46 2.46 65 2.08 2.08 2.08 2.08 2.46 2.46 50 2.10 2.10 2.10 2.10 2.48 2.48 26 2.55 2.55 2.55 2.55 2.62 2.62 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.98 2.77 2.98 2.77 3.17 2.88 23 3.24 2.91 3.24 2.91 3.30 3.00 100 1.69 1.69 1.69 1.69 90 1.69 1.69 1.69 1.69 77.6 1.89 1.89 1.89 1.89 65 1.98 1.98 1.98 1.98 50 2.08 2.08 2.08 2.08 26 2.58 2.58 2.58 2.58 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 100 2.11 2.11 2.11 2.11 90 2.46 2.46 2.46 2.46 77.6 2.46 2.46 2.46 2.46 65 2.46 2.46 2.46 2.46 50 2.48 2.48 2.48 2.48 26 2.62 2.62 2.62 2.62 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.88 3.17 2.88 23 3.30 3.00 3.30 3.00 BOC NEOC EOCLB to to to End of NEOC EOCLB Coast TBVOOS FHOOS TBVOOS PLUOOS FHOOS PLUOOS TBVOOS FHOOS PLUOOS
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 29 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.4 MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis (continued)9F9F1F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.59 1.59 1.59 1.59 1.70 1.70 90 1.62 1.62 1.62 1.62 1.70 1.70 77.6 1.80 1.80 1.80 1.80 1.90 1.90 65 1.98 1.98 1.98 1.98 1.99 1.99 50 2.08 2.08 2.08 2.08 2.09 2.09 26 2.51 2.51 2.51 2.51 2.59 2.59 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.73 2.54 2.73 2.54 2.80 2.69 23 2.86 2.73 2.86 2.73 2.96 2.82 100 1.84 1.84 1.84 1.84 2.12 2.12 90 2.06 2.06 2.06 2.06 2.47 2.47 77.6 2.09 2.09 2.09 2.09 2.47 2.47 65 2.09 2.09 2.09 2.09 2.47 2.47 50 2.11 2.11 2.11 2.11 2.49 2.49 26 2.56 2.56 2.56 2.56 2.63 2.63 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.78 2.99 2.78 3.18 2.89 23 3.25 2.92 3.25 2.92 3.31 3.01 100 1.70 1.70 1.70 1.70 90 1.70 1.70 1.70 1.70 77.6 1.90 1.90 1.90 1.90 65 1.99 1.99 1.99 1.99 50 2.09 2.09 2.09 2.09 26 2.59 2.59 2.59 2.59 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.80 2.69 2.80 2.69 23 2.96 2.82 2.96 2.82 100 1.59 1.59 1.59 1.59 1.70 1.70 90 1.62 1.62 1.62 1.62 1.70 1.70 77.6 1.80 1.80 1.80 1.80 1.90 1.90 65 1.98 1.98 1.98 1.98 1.99 1.99 50 2.08 2.08 2.08 2.08 2.09 2.09 26 2.51 2.51 2.51 2.51 2.59 2.59 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.73 2.54 2.73 2.54 2.80 2.69 23 2.86 2.73 2.86 2.73 2.96 2.82 Base Case RCPOOS RCPOOS TBVOOS RCPOOS FHOOS RCPOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 30 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.4 MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis (continued)9F9F12F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.12 2.12 2.12 2.12 90 2.47 2.47 2.47 2.47 77.6 2.47 2.47 2.47 2.47 65 2.47 2.47 2.47 2.47 50 2.49 2.49 2.49 2.49 26 2.63 2.63 2.63 2.63 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.18 2.89 3.18 2.89 23 3.31 3.01 3.31 3.01 100 1.84 1.84 1.84 1.84 2.12 2.12 90 2.06 2.06 2.06 2.06 2.47 2.47 77.6 2.09 2.09 2.09 2.09 2.47 2.47 65 2.09 2.09 2.09 2.09 2.47 2.47 50 2.11 2.11 2.11 2.11 2.49 2.49 26 2.56 2.56 2.56 2.56 2.63 2.63 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.78 2.99 2.78 3.18 2.89 23 3.25 2.92 3.25 2.92 3.31 3.01 100 1.70 1.70 1.70 1.70 90 1.70 1.70 1.70 1.70 77.6 1.90 1.90 1.90 1.90 65 1.99 1.99 1.99 1.99 50 2.09 2.09 2.09 2.09 26 2.59 2.59 2.59 2.59 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.80 2.69 2.80 2.69 23 2.96 2.82 2.96 2.82 100 2.12 2.12 2.12 2.12 90 2.47 2.47 2.47 2.47 77.6 2.47 2.47 2.47 2.47 65 2.47 2.47 2.47 2.47 50 2.49 2.49 2.49 2.49 26 2.63 2.63 2.63 2.63 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.18 2.89 3.18 2.89 23 3.31 3.01 3.31 3.01 RCPOOS TBVOOS FHOOS RCPOOS TBVOOS PLUOOS RCPOOS FHOOS PLUOOS RCPOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 31 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.5 MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis10F10F13F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.55 1.55 1.50 1.48 1.62 1.60 90 1.64 1.64 1.64 1.63 1.71 1.63 77.6 1.79 1.79 1.78 1.78 1.78 1.78 65 1.91 1.91 1.91 1.79 1.99 1.79 50 2.07 2.07 2.07 2.07 2.19 2.19 26 2.65 2.65 2.31 2.31 2.41 2.41 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 100 1.81 1.81 1.81 1.81 1.86 1.86 90 1.93 1.93 1.93 1.93 2.01 2.01 77.6 2.14 2.14 2.14 2.14 2.23 2.23 65 2.19 2.19 2.19 2.19 2.23 2.23 50 2.21 2.21 2.21 2.21 2.27 2.27 26 2.68 2.68 2.68 2.68 2.82 2.82 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.95 2.78 2.95 2.78 3.16 2.86 23 3.27 2.90 3.27 2.90 3.40 2.96 100 1.67 1.67 1.62 1.60 90 1.72 1.72 1.71 1.63 77.6 1.87 1.87 1.78 1.78 65 1.99 1.99 1.99 1.79 50 2.19 2.19 2.19 2.19 26 2.77 2.77 2.41 2.41 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 100 1.55 1.55 1.50 1.50 1.62 1.62 90 1.64 1.64 1.64 1.64 1.71 1.71 77.6 1.79 1.79 1.78 1.78 1.78 1.78 65 1.91 1.91 1.91 1.91 1.99 1.99 50 2.07 2.07 2.07 2.07 2.19 2.19 26 2.65 2.65 2.31 2.31 2.41 2.41 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 Base Case TBVOOS FHOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 32 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.5 MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis (continued)1F1F14F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.86 1.86 1.86 1.86 90 2.01 2.01 2.01 2.01 77.6 2.23 2.23 2.23 2.23 65 2.23 2.23 2.23 2.23 50 2.27 2.27 2.27 2.27 26 2.82 2.82 2.82 2.82 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.16 2.86 3.16 2.86 23 3.40 2.96 3.40 2.96 100 1.81 1.81 1.81 1.81 1.86 1.86 90 1.93 1.93 1.93 1.93 2.01 2.01 77.6 2.14 2.14 2.14 2.14 2.23 2.23 65 2.19 2.19 2.19 2.19 2.23 2.23 50 2.21 2.21 2.21 2.21 2.27 2.27 26 2.68 2.68 2.68 2.68 2.82 2.82 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.95 2.78 2.95 2.78 3.16 2.86 23 3.27 2.90 3.27 2.90 3.40 2.96 100 1.67 1.67 1.62 1.62 90 1.72 1.72 1.71 1.71 77.6 1.87 1.87 1.78 1.78 65 1.99 1.99 1.99 1.99 50 2.19 2.19 2.19 2.19 26 2.77 2.77 2.41 2.41 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 100 1.86 1.86 1.86 1.86 90 2.01 2.01 2.01 2.01 77.6 2.23 2.23 2.23 2.23 65 2.23 2.23 2.23 2.23 50 2.27 2.27 2.27 2.27 26 2.82 2.82 2.82 2.82 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.16 2.86 3.16 2.86 23 3.40 2.96 3.40 2.96 TBVOOS FHOOS TBVOOS PLUOOS FHOOS PLUOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 33 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.5 MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis (continued)1F1F15F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.56 1.56 1.51 1.49 1.63 1.61 90 1.65 1.65 1.65 1.64 1.72 1.64 77.6 1.80 1.80 1.79 1.79 1.79 1.79 65 1.92 1.92 1.92 1.80 2.00 1.80 50 2.08 2.08 2.08 2.08 2.20 2.20 26 2.66 2.66 2.32 2.32 2.42 2.42 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.84 2.58 2.84 2.58 2.91 2.67 23 2.95 2.61 2.95 2.61 3.06 2.71 100 1.82 1.82 1.82 1.82 1.87 1.87 90 1.94 1.94 1.94 1.94 2.02 2.02 77.6 2.15 2.15 2.15 2.15 2.24 2.24 65 2.20 2.20 2.20 2.20 2.24 2.24 50 2.22 2.22 2.22 2.22 2.28 2.28 26 2.69 2.69 2.69 2.69 2.83 2.83 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.96 2.79 2.96 2.79 3.17 2.87 23 3.28 2.91 3.28 2.91 3.41 2.97 100 1.68 1.68 1.63 1.61 90 1.73 1.73 1.72 1.64 77.6 1.88 1.88 1.79 1.79 65 2.00 2.00 2.00 1.80 50 2.20 2.20 2.20 2.20 26 2.78 2.78 2.42 2.42 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.91 2.67 2.91 2.67 23 3.06 2.71 3.06 2.71 100 1.56 1.56 1.51 1.51 1.63 1.63 90 1.65 1.65 1.65 1.65 1.72 1.72 77.6 1.80 1.80 1.79 1.79 1.79 1.79 65 1.92 1.92 1.92 1.92 2.00 2.00 50 2.08 2.08 2.08 2.08 2.20 2.20 26 2.66 2.66 2.32 2.32 2.42 2.42 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.84 2.58 2.84 2.58 2.91 2.67 23 2.95 2.61 2.95 2.61 3.06 2.71 Base Case RCPOOS RCPOOS TBVOOS RCPOOS FHOOS RCPOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 34 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.5 MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis (continued)1F1F16F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.87 1.87 1.87 1.87 90 2.02 2.02 2.02 2.02 77.6 2.24 2.24 2.24 2.24 65 2.24 2.24 2.24 2.24 50 2.28 2.28 2.28 2.28 26 2.83 2.83 2.83 2.83 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.87 3.17 2.87 23 3.41 2.97 3.41 2.97 100 1.82 1.82 1.82 1.82 1.87 1.87 90 1.94 1.94 1.94 1.94 2.02 2.02 77.6 2.15 2.15 2.15 2.15 2.24 2.24 65 2.20 2.20 2.20 2.20 2.24 2.24 50 2.22 2.22 2.22 2.22 2.28 2.28 26 2.69 2.69 2.69 2.69 2.83 2.83 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.96 2.79 2.96 2.79 3.17 2.87 23 3.28 2.91 3.28 2.91 3.41 2.97 100 1.68 1.68 1.63 1.63 90 1.73 1.73 1.72 1.72 77.6 1.88 1.88 1.79 1.79 65 2.00 2.00 2.00 2.00 50 2.20 2.20 2.20 2.20 26 2.78 2.78 2.42 2.42 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.91 2.67 2.91 2.67 23 3.06 2.71 3.06 2.71 100 1.87 1.87 1.87 1.87 90 2.02 2.02 2.02 2.02 77.6 2.24 2.24 2.24 2.24 65 2.24 2.24 2.24 2.24 50 2.28 2.28 2.28 2.28 26 2.83 2.83 2.83 2.83 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.87 3.17 2.87 23 3.41 2.97 3.41 2.97 RCPOOS TBVOOS FHOOS RCPOOS TBVOOS PLUOOS RCPOOS FHOOS PLUOOS RCPOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 35 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.6 MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis8F8F17F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.65 1.65 1.65 1.65 1.84 1.84 90 1.75 1.75 1.75 1.75 1.87 1.87 77.6 1.94 1.94 1.94 1.94 2.04 2.04 65 2.12 2.12 2.12 2.12 2.12 2.12 50 2.24 2.24 2.24 2.24 2.24 2.24 26 2.60 2.60 2.60 2.60 2.69 2.69 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 100 2.60 2.60 2.60 2.60 2.82 2.82 90 2.62 2.62 2.62 2.62 2.82 2.82 77.6 2.62 2.62 2.62 2.62 2.82 2.82 65 2.62 2.62 2.62 2.62 2.82 2.82 50 2.64 2.64 2.64 2.64 2.84 2.84 26 2.66 2.66 2.66 2.66 2.86 2.86 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.98 2.77 2.98 2.77 3.17 2.88 23 3.24 2.91 3.24 2.91 3.30 3.00 100 1.84 1.84 1.84 1.84 90 1.87 1.87 1.87 1.87 77.6 2.04 2.04 2.04 2.04 65 2.12 2.12 2.12 2.12 50 2.24 2.24 2.24 2.24 26 2.69 2.69 2.69 2.69 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 100 1.65 1.65 1.65 1.65 1.84 1.84 90 1.75 1.75 1.75 1.75 1.87 1.87 77.6 1.94 1.94 1.94 1.94 2.04 2.04 65 2.12 2.12 2.12 2.12 2.12 2.12 50 2.24 2.24 2.24 2.24 2.24 2.24 26 2.60 2.60 2.60 2.60 2.69 2.69 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 Base Case TBVOOS FHOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 36 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.6 MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis (continued)9F9F18F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.82 2.82 2.82 2.82 90 2.82 2.82 2.82 2.82 77.6 2.82 2.82 2.82 2.82 65 2.82 2.82 2.82 2.82 50 2.84 2.84 2.84 2.84 26 2.86 2.86 2.86 2.86 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.88 3.17 2.88 23 3.30 3.00 3.30 3.00 100 2.60 2.60 2.60 2.60 2.82 2.82 90 2.62 2.62 2.62 2.62 2.82 2.82 77.6 2.62 2.62 2.62 2.62 2.82 2.82 65 2.62 2.62 2.62 2.62 2.82 2.82 50 2.64 2.64 2.64 2.64 2.84 2.84 26 2.66 2.66 2.66 2.66 2.86 2.86 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.98 2.77 2.98 2.77 3.17 2.88 23 3.24 2.91 3.24 2.91 3.30 3.00 100 1.84 1.84 1.84 1.84 90 1.87 1.87 1.87 1.87 77.6 2.04 2.04 2.04 2.04 65 2.12 2.12 2.12 2.12 50 2.24 2.24 2.24 2.24 26 2.69 2.69 2.69 2.69 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 100 2.82 2.82 2.82 2.82 90 2.82 2.82 2.82 2.82 77.6 2.82 2.82 2.82 2.82 65 2.82 2.82 2.82 2.82 50 2.84 2.84 2.84 2.84 26 2.86 2.86 2.86 2.86 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.88 3.17 2.88 23 3.30 3.00 3.30 3.00 TBVOOS FHOOS TBVOOS PLUOOS FHOOS PLUOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 37 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.6 MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis (continued)9F9F19F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.66 1.66 1.66 1.66 1.85 1.85 90 1.76 1.76 1.76 1.76 1.88 1.88 77.6 1.95 1.95 1.95 1.95 2.05 2.05 65 2.13 2.13 2.13 2.13 2.13 2.13 50 2.25 2.25 2.25 2.25 2.25 2.25 26 2.61 2.61 2.61 2.61 2.70 2.70 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.73 2.54 2.73 2.54 2.80 2.69 23 2.86 2.73 2.86 2.73 2.96 2.82 100 2.61 2.61 2.61 2.61 2.83 2.83 90 2.63 2.63 2.63 2.63 2.83 2.83 77.6 2.63 2.63 2.63 2.63 2.83 2.83 65 2.63 2.63 2.63 2.63 2.83 2.83 50 2.65 2.65 2.65 2.65 2.85 2.85 26 2.67 2.67 2.67 2.67 2.87 2.87 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.78 2.99 2.78 3.18 2.89 23 3.25 2.92 3.25 2.92 3.31 3.01 100 1.85 1.85 1.85 1.85 90 1.88 1.88 1.88 1.88 77.6 2.05 2.05 2.05 2.05 65 2.13 2.13 2.13 2.13 50 2.25 2.25 2.25 2.25 26 2.70 2.70 2.70 2.70 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.80 2.69 2.80 2.69 23 2.96 2.82 2.96 2.82 100 1.66 1.66 1.66 1.66 1.85 1.85 90 1.76 1.76 1.76 1.76 1.88 1.88 77.6 1.95 1.95 1.95 1.95 2.05 2.05 65 2.13 2.13 2.13 2.13 2.13 2.13 50 2.25 2.25 2.25 2.25 2.25 2.25 26 2.61 2.61 2.61 2.61 2.70 2.70 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.73 2.54 2.73 2.54 2.80 2.69 23 2.86 2.73 2.86 2.73 2.96 2.82 Base Case RCPOOS RCPOOS TBVOOS RCPOOS FHOOS RCPOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 38 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.6 MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis (continued)9F9F20F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.83 2.83 2.83 2.83 90 2.83 2.83 2.83 2.83 77.6 2.83 2.83 2.83 2.83 65 2.83 2.83 2.83 2.83 50 2.85 2.85 2.85 2.85 26 2.87 2.87 2.87 2.87 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.18 2.89 3.18 2.89 23 3.31 3.01 3.31 3.01 100 2.61 2.61 2.61 2.61 2.83 2.83 90 2.63 2.63 2.63 2.63 2.83 2.83 77.6 2.63 2.63 2.63 2.63 2.83 2.83 65 2.63 2.63 2.63 2.63 2.83 2.83 50 2.65 2.65 2.65 2.65 2.85 2.85 26 2.67 2.67 2.67 2.67 2.87 2.87 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.78 2.99 2.78 3.18 2.89 23 3.25 2.92 3.25 2.92 3.31 3.01 100 1.85 1.85 1.85 1.85 90 1.88 1.88 1.88 1.88 77.6 2.05 2.05 2.05 2.05 65 2.13 2.13 2.13 2.13 50 2.25 2.25 2.25 2.25 26 2.70 2.70 2.70 2.70 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.80 2.69 2.80 2.69 23 2.96 2.82 2.96 2.82 100 2.83 2.83 2.83 2.83 90 2.83 2.83 2.83 2.83 77.6 2.83 2.83 2.83 2.83 65 2.83 2.83 2.83 2.83 50 2.85 2.85 2.85 2.85 26 2.87 2.87 2.87 2.87 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.18 2.89 3.18 2.89 23 3.31 3.01 3.31 3.01 RCPOOS TBVOOS FHOOS RCPOOS TBVOOS PLUOOS RCPOOS FHOOS PLUOOS RCPOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 39 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.7 MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis10F10F21F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.61 1.61 1.57 1.55 1.62 1.60 90 1.71 1.71 1.71 1.68 1.76 1.68 77.6 1.86 1.86 1.80 1.79 1.80 1.79 65 2.00 2.00 2.00 1.82 2.10 1.82 50 2.22 2.22 2.22 2.22 2.25 2.25 26 2.77 2.77 2.31 2.31 2.42 2.42 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 100 2.55 2.55 2.55 2.55 2.60 2.60 90 2.55 2.55 2.55 2.55 2.77 2.77 77.6 2.55 2.55 2.55 2.55 2.77 2.77 65 2.55 2.55 2.55 2.55 2.77 2.77 50 2.57 2.57 2.57 2.57 2.79 2.79 26 2.86 2.86 2.86 2.86 2.99 2.99 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.95 2.78 2.95 2.78 3.16 2.86 23 3.27 2.90 3.27 2.90 3.40 2.96 100 1.78 1.78 1.62 1.60 90 1.89 1.89 1.76 1.68 77.6 1.97 1.97 1.80 1.79 65 2.10 2.10 2.10 1.82 50 2.25 2.25 2.25 2.25 26 2.90 2.90 2.42 2.42 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 100 1.61 1.61 1.57 1.57 1.62 1.62 90 1.71 1.71 1.71 1.71 1.76 1.76 77.6 1.86 1.86 1.80 1.80 1.80 1.80 65 2.00 2.00 2.00 2.00 2.10 2.10 50 2.22 2.22 2.22 2.22 2.25 2.25 26 2.77 2.77 2.31 2.31 2.42 2.42 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 Base Case TBVOOS FHOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 40 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.7 MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis (continued)1F1F2F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.60 2.60 2.60 2.60 90 2.77 2.77 2.77 2.77 77.6 2.77 2.77 2.77 2.77 65 2.77 2.77 2.77 2.77 50 2.79 2.79 2.79 2.79 26 2.99 2.99 2.99 2.99 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.16 2.86 3.16 2.86 23 3.40 2.96 3.40 2.96 100 2.55 2.55 2.55 2.55 2.60 2.60 90 2.55 2.55 2.55 2.55 2.77 2.77 77.6 2.55 2.55 2.55 2.55 2.77 2.77 65 2.55 2.55 2.55 2.55 2.77 2.77 50 2.57 2.57 2.57 2.57 2.79 2.79 26 2.86 2.86 2.86 2.86 2.99 2.99 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.95 2.78 2.95 2.78 3.16 2.86 23 3.27 2.90 3.27 2.90 3.40 2.96 100 1.78 1.78 1.62 1.62 90 1.89 1.89 1.76 1.76 77.6 1.97 1.97 1.80 1.80 65 2.10 2.10 2.10 2.10 50 2.25 2.25 2.25 2.25 26 2.90 2.90 2.42 2.42 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 100 2.60 2.60 2.60 2.60 90 2.77 2.77 2.77 2.77 77.6 2.77 2.77 2.77 2.77 65 2.77 2.77 2.77 2.77 50 2.79 2.79 2.79 2.79 26 2.99 2.99 2.99 2.99 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.16 2.86 3.16 2.86 23 3.40 2.96 3.40 2.96 TBVOOS FHOOS TBVOOS PLUOOS FHOOS PLUOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 41 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.7 MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis (continued)1F1F23F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.62 1.62 1.58 1.56 1.63 1.61 90 1.72 1.72 1.72 1.69 1.77 1.69 77.6 1.87 1.87 1.81 1.80 1.81 1.80 65 2.01 2.01 2.01 1.83 2.11 1.83 50 2.23 2.23 2.23 2.23 2.26 2.26 26 2.78 2.78 2.32 2.32 2.43 2.43 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.84 2.58 2.84 2.58 2.91 2.67 23 2.95 2.61 2.95 2.61 3.06 2.71 100 2.56 2.56 2.56 2.56 2.61 2.61 90 2.56 2.56 2.56 2.56 2.78 2.78 77.6 2.56 2.56 2.56 2.56 2.78 2.78 65 2.56 2.56 2.56 2.56 2.78 2.78 50 2.58 2.58 2.58 2.58 2.80 2.80 26 2.87 2.87 2.87 2.87 3.00 3.00 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.96 2.79 2.96 2.79 3.17 2.87 23 3.28 2.91 3.28 2.91 3.41 2.97 100 1.79 1.79 1.63 1.61 90 1.90 1.90 1.77 1.69 77.6 1.98 1.98 1.81 1.80 65 2.11 2.11 2.11 1.83 50 2.26 2.26 2.26 2.26 26 2.91 2.91 2.43 2.43 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.91 2.67 2.91 2.67 23 3.06 2.71 3.06 2.71 100 1.62 1.62 1.58 1.58 1.63 1.63 90 1.72 1.72 1.72 1.72 1.77 1.77 77.6 1.87 1.87 1.81 1.81 1.81 1.81 65 2.01 2.01 2.01 2.01 2.11 2.11 50 2.23 2.23 2.23 2.23 2.26 2.26 26 2.78 2.78 2.32 2.32 2.43 2.43 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.84 2.58 2.84 2.58 2.91 2.67 23 2.95 2.61 2.95 2.61 3.06 2.71 Base Case RCPOOS RCPOOS TBVOOS RCPOOS FHOOS RCPOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 42 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.7 MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis (continued)1F1F24F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.61 2.61 2.61 2.61 90 2.78 2.78 2.78 2.78 77.6 2.78 2.78 2.78 2.78 65 2.78 2.78 2.78 2.78 50 2.80 2.80 2.80 2.80 26 3.00 3.00 3.00 3.00 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.87 3.17 2.87 23 3.41 2.97 3.41 2.97 100 2.56 2.56 2.56 2.56 2.61 2.61 90 2.56 2.56 2.56 2.56 2.78 2.78 77.6 2.56 2.56 2.56 2.56 2.78 2.78 65 2.56 2.56 2.56 2.56 2.78 2.78 50 2.58 2.58 2.58 2.58 2.80 2.80 26 2.87 2.87 2.87 2.87 3.00 3.00 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.96 2.79 2.96 2.79 3.17 2.87 23 3.28 2.91 3.28 2.91 3.41 2.97 100 1.79 1.79 1.63 1.63 90 1.90 1.90 1.77 1.77 77.6 1.98 1.98 1.81 1.81 65 2.11 2.11 2.11 2.11 50 2.26 2.26 2.26 2.26 26 2.91 2.91 2.43 2.43 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.91 2.67 2.91 2.67 23 3.06 2.71 3.06 2.71 100 2.61 2.61 2.61 2.61 90 2.78 2.78 2.78 2.78 77.6 2.78 2.78 2.78 2.78 65 2.78 2.78 2.78 2.78 50 2.80 2.80 2.80 2.80 26 3.00 3.00 3.00 3.00 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.87 3.17 2.87 23 3.41 2.97 3.41 2.97 RCPOOS TBVOOS FHOOS RCPOOS TBVOOS PLUOOS RCPOOS FHOOS PLUOOS RCPOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of
* All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 43 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.8 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel: Nominal Scram Time Basis12F12F25F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.23 2.23 2.23 2.23 2.23 2.23 50 2.23 2.23 2.23 2.23 2.23 2.23 26 2.84 2.84 2.84 2.84 2.84 2.84 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.68 2.99 2.68 2.99 2.68 23 2.99 2.81 2.99 2.81 2.99 2.81 100 2.48 2.48 2.48 2.48 2.48 2.48 50 2.48 2.48 2.48 2.48 2.48 2.48 26 2.84 2.84 2.84 2.84 2.84 2.84 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.48 3.17 3.48 3.17 3.48 3.17 23 3.62 3.17 3.62 3.17 3.62 3.17 100 2.23 2.23 2.23 2.23 2.23 2.23 50 2.23 2.23 2.23 2.23 2.23 2.23 26 2.84 2.84 2.84 2.84 2.84 2.84 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.68 2.99 2.68 2.99 2.68 23 2.99 2.81 2.99 2.81 2.99 2.81 100 2.48 2.48 2.48 2.48 2.48 2.48 50 2.48 2.48 2.48 2.48 2.48 2.48 26 2.84 2.84 2.84 2.84 2.84 2.84 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.48 3.17 3.48 3.17 3.48 3.17 23 3.62 3.17 3.62 3.17 3.62 3.17 Startup FHOOS 2 TBVIS Startup FHOOS 2 TBVOOS NEOC EOCLB Coast Startup FHOOS 1 TBVIS Startup FHOOS 1 TBVOOS BOC NEOC EOCLB to to to End of
* Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
Limits are applicable for all other EOOS scenarios, apart from TBV.
Limits are only valid up to 50% rated core power.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 44 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.8 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel: Nominal Scram Time Basis (continued)12F12F26F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.24 2.24 2.24 2.24 2.24 2.24 50 2.24 2.24 2.24 2.24 2.24 2.24 26 2.85 2.85 2.85 2.85 2.85 2.85 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.00 2.69 3.00 2.69 3.00 2.69 23 3.00 2.82 3.00 2.82 3.00 2.82 100 2.49 2.49 2.49 2.49 2.49 2.49 50 2.49 2.49 2.49 2.49 2.49 2.49 26 2.85 2.85 2.85 2.85 2.85 2.85 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.49 3.18 3.49 3.18 3.49 3.18 23 3.63 3.18 3.63 3.18 3.63 3.18 100 2.24 2.24 2.24 2.24 2.24 2.24 50 2.24 2.24 2.24 2.24 2.24 2.24 26 2.85 2.85 2.85 2.85 2.85 2.85 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.00 2.69 3.00 2.69 3.00 2.69 23 3.00 2.82 3.00 2.82 3.00 2.82 100 2.49 2.49 2.49 2.49 2.49 2.49 50 2.49 2.49 2.49 2.49 2.49 2.49 26 2.85 2.85 2.85 2.85 2.85 2.85 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.49 3.18 3.49 3.18 3.49 3.18 23 3.63 3.18 3.63 3.18 3.63 3.18 Startup RCPOOS FHOOS 1 TBVIS Startup RCPOOS FHOOS 1 TBVOOS Startup RCPOOS FHOOS 2 TBVIS Startup RCPOOS FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC
* Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
Limits are applicable for all other EOOS scenarios, apart from TBV.
Limits are only valid up to 50% rated core power.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 45 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.9 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Nominal Scram Time Basis13F13F27F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.21 2.21 2.21 2.21 2.21 2.21 50 2.21 2.21 2.21 2.21 2.21 2.21 26 2.77 2.77 2.77 2.77 2.77 2.77 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.08 2.66 3.08 2.66 3.08 2.66 23 3.19 2.70 3.19 2.70 3.19 2.70 100 2.44 2.44 2.44 2.44 2.44 2.44 50 2.44 2.44 2.44 2.44 2.44 2.44 26 3.03 3.03 3.03 3.03 3.03 3.03 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.39 3.03 3.39 3.03 3.39 3.03 23 3.63 3.03 3.63 3.03 3.63 3.03 100 2.21 2.21 2.21 2.21 2.21 2.21 50 2.21 2.21 2.21 2.21 2.21 2.21 26 2.77 2.77 2.77 2.77 2.77 2.77 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.08 2.66 3.08 2.66 3.08 2.66 23 3.19 2.70 3.19 2.70 3.19 2.70 100 2.44 2.44 2.44 2.44 2.44 2.44 50 2.44 2.44 2.44 2.44 2.44 2.44 26 3.03 3.03 3.03 3.03 3.03 3.03 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.39 3.03 3.39 3.03 3.39 3.03 23 3.63 3.03 3.63 3.03 3.63 3.03 Startup FHOOS 1 TBVIS Startup FHOOS 1 TBVOOS Startup FHOOS 2 TBVIS Startup FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC
* Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
Limits are applicable for all other EOOS scenarios, apart from TBV.
Limits are only valid up to 50% rated core power.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 46 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.9 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Nominal Scram Time Basis (continued)13F13F28F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.22 2.22 2.22 2.22 2.22 2.22 50 2.22 2.22 2.22 2.22 2.22 2.22 26 2.78 2.78 2.78 2.78 2.78 2.78 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.09 2.67 3.09 2.67 3.09 2.67 23 3.20 2.71 3.20 2.71 3.20 2.71 100 2.45 2.45 2.45 2.45 2.45 2.45 50 2.45 2.45 2.45 2.45 2.45 2.45 26 3.04 3.04 3.04 3.04 3.04 3.04 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.40 3.04 3.40 3.04 3.40 3.04 23 3.64 3.04 3.64 3.04 3.64 3.04 100 2.22 2.22 2.22 2.22 2.22 2.22 50 2.22 2.22 2.22 2.22 2.22 2.22 26 2.78 2.78 2.78 2.78 2.78 2.78 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.09 2.67 3.09 2.67 3.09 2.67 23 3.20 2.71 3.20 2.71 3.20 2.71 100 2.45 2.45 2.45 2.45 2.45 2.45 50 2.45 2.45 2.45 2.45 2.45 2.45 26 3.04 3.04 3.04 3.04 3.04 3.04 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.40 3.04 3.40 3.04 3.40 3.04 23 3.64 3.04 3.64 3.04 3.64 3.04 Startup RCPOOS FHOOS 1 TBVIS Startup RCPOOS FHOOS 1 TBVOOS Startup RCPOOS FHOOS 2 TBVIS Startup RCPOOS FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC
* Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
Limits are applicable for all other EOOS scenarios, apart from TBV.
Limits are only valid up to 50% rated core power.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 47 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.10 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis14F14F29F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.38 2.38 2.38 2.38 2.38 2.38 50 2.38 2.38 2.38 2.38 2.38 2.38 26 2.94 2.94 2.94 2.94 2.94 2.94 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.68 2.99 2.68 2.99 2.68 23 2.99 2.81 2.99 2.81 2.99 2.81 100 2.84 2.84 2.84 2.84 2.84 2.84 50 2.84 2.84 2.84 2.84 2.84 2.84 26 2.96 2.96 2.96 2.96 2.96 2.96 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.48 3.17 3.48 3.17 3.48 3.17 23 3.62 3.17 3.62 3.17 3.62 3.17 100 2.38 2.38 2.38 2.38 2.38 2.38 50 2.38 2.38 2.38 2.38 2.38 2.38 26 2.94 2.94 2.94 2.94 2.94 2.94 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.68 2.99 2.68 2.99 2.68 23 2.99 2.81 2.99 2.81 2.99 2.81 100 2.84 2.84 2.84 2.84 2.84 2.84 50 2.84 2.84 2.84 2.84 2.84 2.84 26 2.96 2.96 2.96 2.96 2.96 2.96 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.48 3.17 3.48 3.17 3.48 3.17 23 3.62 3.17 3.62 3.17 3.62 3.17 Startup FHOOS 1 TBVIS Startup FHOOS 1 TBVOOS Startup FHOOS 2 TBVIS Startup FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC
* Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
Limits are applicable for all other EOOS scenarios, apart from TBV.
Limits are only valid up to 50% rated core power.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 48 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.10 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis (continued)14F14F30F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.39 2.39 2.39 2.39 2.39 2.39 50 2.39 2.39 2.39 2.39 2.39 2.39 26 2.95 2.95 2.95 2.95 2.95 2.95 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.00 2.69 3.00 2.69 3.00 2.69 23 3.00 2.82 3.00 2.82 3.00 2.82 100 2.85 2.85 2.85 2.85 2.85 2.85 50 2.85 2.85 2.85 2.85 2.85 2.85 26 2.97 2.97 2.97 2.97 2.97 2.97 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.49 3.18 3.49 3.18 3.49 3.18 23 3.63 3.18 3.63 3.18 3.63 3.18 100 2.39 2.39 2.39 2.39 2.39 2.39 50 2.39 2.39 2.39 2.39 2.39 2.39 26 2.95 2.95 2.95 2.95 2.95 2.95 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.00 2.69 3.00 2.69 3.00 2.69 23 3.00 2.82 3.00 2.82 3.00 2.82 100 2.85 2.85 2.85 2.85 2.85 2.85 50 2.85 2.85 2.85 2.85 2.85 2.85 26 2.97 2.97 2.97 2.97 2.97 2.97 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.49 3.18 3.49 3.18 3.49 3.18 23 3.63 3.18 3.63 3.18 3.63 3.18 Startup RCPOOS FHOOS 1 TBVIS Startup RCPOOS FHOOS 1 TBVOOS Startup RCPOOS FHOOS 2 TBVIS Startup RCPOOS FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC
* Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
Limits are applicable for all other EOOS scenarios, apart from TBV.
Limits are only valid up to 50% rated core power.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 49 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.11 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis15F15F31F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.36 2.36 2.36 2.36 2.36 2.36 50 2.36 2.36 2.36 2.36 2.36 2.36 26 2.90 2.90 2.90 2.90 2.90 2.90 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.08 2.66 3.08 2.66 3.08 2.66 23 3.19 2.70 3.19 2.70 3.19 2.70 100 2.79 2.79 2.79 2.79 2.79 2.79 50 2.79 2.79 2.79 2.79 2.79 2.79 26 3.22 3.22 3.22 3.22 3.22 3.22 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.39 3.03 3.39 3.03 3.39 3.03 23 3.63 3.03 3.63 3.03 3.63 3.03 100 2.36 2.36 2.36 2.36 2.36 2.36 50 2.36 2.36 2.36 2.36 2.36 2.36 26 2.90 2.90 2.90 2.90 2.90 2.90 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.08 2.66 3.08 2.66 3.08 2.66 23 3.19 2.70 3.19 2.70 3.19 2.70 100 2.79 2.79 2.79 2.79 2.79 2.79 50 2.79 2.79 2.79 2.79 2.79 2.79 26 3.22 3.22 3.22 3.22 3.22 3.22 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.39 3.03 3.39 3.03 3.39 3.03 23 3.63 3.03 3.63 3.03 3.63 3.03 Startup FHOOS 1 TBVIS Startup FHOOS 1 TBVOOS Startup FHOOS 2 TBVIS Startup FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC
* Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
Limits are applicable for all other EOOS scenarios, apart from TBV.
Limits are only valid up to 50% rated core power.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 50 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 5.11 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis (continued)15F15F32F*
Pow er
(% of rated)
Flow Flag -->
> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.37 2.37 2.37 2.37 2.37 2.37 50 2.37 2.37 2.37 2.37 2.37 2.37 26 2.91 2.91 2.91 2.91 2.91 2.91 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.09 2.67 3.09 2.67 3.09 2.67 23 3.20 2.71 3.20 2.71 3.20 2.71 100 2.80 2.80 2.80 2.80 2.80 2.80 50 2.80 2.80 2.80 2.80 2.80 2.80 26 3.23 3.23 3.23 3.23 3.23 3.23 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.40 3.04 3.40 3.04 3.40 3.04 23 3.64 3.04 3.64 3.04 3.64 3.04 100 2.37 2.37 2.37 2.37 2.37 2.37 50 2.37 2.37 2.37 2.37 2.37 2.37 26 2.91 2.91 2.91 2.91 2.91 2.91 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.09 2.67 3.09 2.67 3.09 2.67 23 3.20 2.71 3.20 2.71 3.20 2.71 100 2.80 2.80 2.80 2.80 2.80 2.80 50 2.80 2.80 2.80 2.80 2.80 2.80 26 3.23 3.23 3.23 3.23 3.23 3.23 NDS Flow Flag
> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.40 3.04 3.40 3.04 3.40 3.04 23 3.64 3.04 3.64 3.04 3.64 3.04 Startup RCPOOS FHOOS 1 TBVIS Startup RCPOOS FHOOS 1 TBVOOS Startup RCPOOS FHOOS 2 TBVIS Startup RCPOOS FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC
* Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.
Limits are applicable for all other EOOS scenarios, apart from TBV.
Limits are only valid up to 50% rated core power.
RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 51 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 6 Thermal-Hydraulic Stability Protection (Technical Specification 3.3.1.1)
Technical Specification Table 3.3.1.1-1, Function 2f, identifies the function.
Instrument setpoints are established, such that the reactor will be tripped before an oscillation can grow to the point where the SLMCPR is exceeded. With application of Reference 31, the DSS-CD stability solution as originally per Reference 32 is now used in a hybrid manner, per Reference 27. The DSS-CD SAD setpoint is 1.10 for TLO and SLO.
New analyses have been developed based on Reference 27. With the implementation of the MELLLA+ operating domain expansion, an ABSP trip is required when the OPRM is out-of-service. The ABSP trip settings define a region of the power to flow map within which an automatic reactor scram occurs. The ABSP trip settings are provided in Table 6.1. If both the OPRM and ABSP are out-of-service, operation within the MELLLA+ domain is not allowed and the MBSP Regions provide stability protection. Table 6.2 and Table 6.3 provide the endpoints for the MBSP regions for nominal and reduced feedwater temperature conditions.
Table 6.1 ABSP Setpoints for the Scram Region Parameter Symbol Setting Value (unit)
Comments Slope for Trip mTRIP 2.00 (% RTP/% RDF)
Slope of ABSP APRM low Flow Biased Trip Linear Segment Constant Power Line for Trip PBSP-TRIP 35.0 (% RTP)
ABSP APRM Flow Biased Trip Setpoint Power Intercept. Constant Power Line for Trip from Zero Drive Flow to Flow Breakpoint Value Constant Flow Line for Trip WBSP-TRIP 49 (% RDF)
ABSP APRM Flow Biased Trip Setpoint Drive Flow Intercept.
Constant Flow Line for Trip (see Note 1 below)
Flow Breakpoint WBSP-BREAK 30.0 (% RDF)
Flow Breakpoint Value Note 1: WBSP-TRIP can be set to 49.0 % RDF or any higher value up to the intersection of the ABSP sloped line w ith the APRM Flow Biased STP scram line.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 52 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 6.2 Analyzed MBSP Endpoints: Nominal Feedwater Temperature Endpoint Power
(% Rated)
Core Flow
(% Rated)
Definition A1 75.9 52.7 Scram Region (Region I)
Boundary Intercept on MELLLA+ Line B1 35.5 29.0 Scram Region (Region I)
Boundary Intercept on Natural Circulation Line (NCL)
A2 66.1 52.0 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 25.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)
Table 6.3 Analyzed MBSP Endpoints: Reduced Feedwater Temperature Endpoint Power
(% Rated)
Core Flow
(% Rated)
Definition A1 64.9 50.5 Scram Region (Region I)
Boundary Intercept on MELLLA Line B1 29.4 29.0 Scram Region (Region I)
Boundary Intercept on Natural Circulation Line (NCL)
A2 68.3 54.9 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 24.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 53 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 7 APRM Flow Biased Rod Block Trip Settings (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)
The APRM rod block trip setting is based upon References 28 & 30, and is defined by the following:
for two loop operation:
SRB d (0.61Wd + 63.3)
Allowable Value SRB d (0.61Wd + 62.0)
Nominal Trip Setpoint (NTSP) where:
SRB
=
Rod Block setting in percent of rated thermal power (3952 MWt)
Wd
=
Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow) and for single loop operation:
SRB d (0.55(Wd-'W) + 60.5)
Allowable Value SRB d (0.55(Wd-'W) + 58.5)
Nominal Trip Setpoint (NTSP) where:
SRB
=
Rod Block setting in percent of rated thermal power (3952 MWt)
Wd
=
Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow)
'W
=
Difference between two-loop and single-loop effective recirculation flow at the same core flow ('W=0.0 for two-loop operation)
The APRM rod block trip setting is clamped at a maximum allowable value of 115%
(corresponding to a NTSP of 113%).
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 54 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 8 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)
The RBM trip setpoints and applicable power ranges, based on References 28 & 29, are shown in Table 8.1. Setpoints are based on an HTSP, unfiltered analytical limit of 114%. Unfiltered setpoints are consistent with a nominal RBM filter setting of 0.0 seconds; filtered setpoints are consistent with a nominal RBM filter setting less than 0.5 seconds. Cycle specific CRWE analyses of OLMCPR are documented in Reference 1, superseding values reported in References 28, 29, and 30.
Table 8.1 Analytical RBM Trip Setpoints18F18F3F*
RBM Trip Setpoint Allowable Value (AV)
Nominal Trip Setpoint (NTSP)
LPSP 27%
25%
IPSP 62%
60%
HPSP 82%
80%
LTSP - unfiltered
- filtered 121.7%
120.7%
120.0%
119.0%
ITSP - unfiltered
- filtered 116.7%
115.7%
115.0%
114.0%
HTSP - unfiltered
- filtered 111.7%
110.9%
110.0%
109.2%
DTSP 90%
92%
As a result of cycle specific CRWE analyses, RBM setpoints in Technical Specification Table 3.3.2.1-1 are applicable as shown in Table 8.2. Cycle specific setpoint analysis results are shown in Table 8.3, per Reference 1.
Table 8.2 RBM Setpoint Applicability Thermal Power
(% Rated)
Applicable MCPR19F19F34F Notes from Table 3.3.2.1-1 Comment 27% and < 90%
< 1.64 (a), (b), (f), (h) two loop operation
< 1.66 (a), (b), (f), (h) single loop operation 90%
< 1.39 (g) two loop operation20F20F35F
* Values are considered maximums. Using lower values, due to RBM system hardware/software limitations, is conservative, and acceptable.
MCPR values shown correspond with, (support), values identified in Table 1.1.
Greater than 90% rated power is not attainable in single loop operation.
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 55 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Table 8.3 Control Rod Withdrawal Error Results RBM CRWE HTSP Analytical Limit OLMCPR Unfiltered 107 1.30 111 1.34 114 1.36 117 1.37 Results, compared against the base case OLMCPR results of Table 5.2 & Table 5.3, indicate Table 2.1 MCPR99.9 remains protected for RBM inoperable conditions (i.e., 114% unblocked).
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 56 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 9 Shutdown Margin Limit (Technical Specification 3.1.1)
Assuming the strongest OPERABLE control blade is fully withdrawn, and all other OPERABLE control blades are fully inserted, the core shall be sub-critical and meet the following minimum shutdown margin:
SDM 0.38% dk/k
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 57 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 10 Overpressure Protection System (Technical Specification 3.4.3)
The as-found OPS lift pressures of the required SRVs are specified below:
Table 10.1 SRV Lift Setpoints As-Found Lift Number of SRVs Pressure Limit (psig) 3 1169 4
1179 5
1189
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page A-1 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final)
Appendix A: MBSP Maps
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page A-2 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0 10 20 30 40 50 60 70 80 90 100 110 0
10 20 30 40 50 60 70 80 90 100 110 120 Core Flow (% Rated: 100% =102.5 MLbm/hr)
Core Power (% Rated: 100% = 3952MWt)
Natural Circulation MELLLA Region ICF Region 20% Pump Speed Line Min. Pow er Line Min. Flow Control 87.5% Rod Line MELLLA Upper Boundary MELLLA+ Region Manual Scram Region I Controlled Entry Region II BSP Boundary Figure A.1 MBSP Boundaries For Nominal Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature)
 
ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page A-3 Core Operating Limits Report, (120% OLTP, MELLLA+)
TVA-COLR-BF3C22, Revision 1 (Final) 0 10 20 30 40 50 60 70 80 90 100 110 0
10 20 30 40 50 60 70 80 90 100 110 120 Core Flow (% Rated: 100% =102.5 MLbm/hr)
Core Power (% Rated: 100% = 3952MWt)
Natural Circulation MELLLA Region ICF Region 20% Pump Speed Line Min. Pow er Line Min. Flow Control 87.5% Rod Line MELLLA Upper Boundary MELLLA+ Region Controlled Entry Region II Manual Scram Region I BSP Boundary Figure A.2 MBSP Boundaries For Reduced Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for a Reduced Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature)}}

Latest revision as of 18:02, 29 October 2025

Core Operating Limits Report for Unit 1 Cycle 16 Operation, Revision 1; Unit 2 Cycle 24 Operation, Revision 1; and Unit 3 Cycle 22 Operation, Revision 1
ML25268A301
Person / Time
Site: Browns Ferry  Tennessee Valley Authority icon.png
Issue date: 09/25/2025
From: Komm D
Tennessee Valley Authority
To:
Office of Nuclear Reactor Regulation, Document Control Desk
References
TVA-COLR-BF1C16, Rev. 1, TVA-COLR-BF2C24, Rev. 1, TVA-COLR-BF3C22, Rev. 1
Download: ML25268A301 (1)
v  d  e


Text

Post Office Box 2000, Decatur, Alabama 35609-2000 September 25, 2025 10 CFR 50.4 ATTN: Document Control Desk U.S. Nuclear Regulatory Commission Washington, D.C. 20555-0001 Browns Ferry Nuclear Plant, Units 1, 2, and 3 Renewed Facility Operating License Nos. DPR-33, DPR-52, and DPR-68 NRC Docket Nos. 50-259, 50-260, and 50-296

Subject:

Browns Ferry Nuclear Plant, Core Operating Limits Report for Unit 1 Cycle 16 Operation, Revision 1; Unit 2 Cycle 24 Operation, Revision 1; and Unit 3 Cycle 22 Operation, Revision 1.

References:

1. Browns Ferry Nuclear Plant, Unit 1 Core Operating Limits Report for Cycle 16 Operation, Revision 0
2. Browns Ferry Nuclear Plant, Unit 2 Core Operating Limits Report for Cycle 24 Operation, Revision 0
3. Browns Ferry Nuclear Plant, Unit 3 Core Operating Limits Report for Cycle 22 Operation, Revision 0 In accordance with the requirements of Technical Specification (TS) 5.6.5.d, the Tennessee Valley Authority (TVA) is submitting an update to the Browns Ferry Nuclear Plant (BFN), Unit 1, Cycle 16 Core Operating Limits Report (COLR). Revision 0 (Reference 1) of the Unit 1 COLR included all Modes of operation (Modes 1 through 5). Revision 1 adds section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3), and defines associated acronyms for Overpressure Protection System (OPS) and Safety Relief Valve (SRV).

Additionally, TVA is submitting an update to the BFN, Unit 2, Cycle 24 COLR. Revision 0 (Reference 2) of the Unit 2 COLR included all Modes of operation (Modes 1 through 5).

Revision 1 adds section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3), and defines acronyms for OPS and SRV.

Finally, TVA is submitting an update to the BFN, Unit 3, Cycle 22 COLR. Revision 0 (Reference

3) of the Unit 3 COLR included all Modes of operation (Modes 1 through 5). Revision 1 adds section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3), and defines acronyms for OPS and SRV.

U.S. Nuclear Regulatory Commission Page 2 September 25, 2025 There are no new regulatory commitments in this letter. If you have any questions, please contact D. J. Renn, Nuclear Site Compliance Manager, at (256) 729-2636.

Respectfully, Daniel A. Komm Site Vice President

Enclosures:

1. Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 1 Cycle 16 Operation, TVA-COLR-BF1C16, Revision 1
2. Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 2 Cycle 24 Operation, TVA-COLR-BF2C24, Revision 1
3. Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 3 Cycle 22 Operation, TVA-COLR-BF3C22, Revision 1 cc: (w/ Enclosure)

NRC Regional Administrator - Region II NRC Senior Resident Inspector - Browns Ferry Nuclear Plant NRC Project Manager - Browns Ferry Nuclear Plant Tennessee Valley Authority Browns Ferry Nuclear Plant Unit 1 Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 1 Cycle 16 Operation, TVA-COLR-BF1C16, Revision 1 (See Attached)

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page ii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table of Contents Total Number of Pages = 53 (including review cover sheet)

List of Tables................................................................................................................................. iii List of Figures.............................................................................................................................. iv Revision Log................................................................................................................................. v Nomenclature............................................................................................................................... vi References.................................................................................................................................. viii 1

Introduction.......................................................................................................................... 1

1.1

Purpose......................................................................................................................... 1

1.2

Scope............................................................................................................................ 1

1.3

Fuel Loading.................................................................................................................. 2

1.4

Acceptability.................................................................................................................. 2

2

MCPR99.9% Safety Limit........................................................................................................ 3

3

APLHGR.............................................................................................................................. 4

3.1

Rated Power and Flow Limit: APLHGRRATED................................................................. 4

3.2

Off-Rated Power Dependent Limit: APLHGRP.............................................................. 4

3.2.1

Startup without Feedwater Heaters....................................................................... 4

3.3

Off-Rated Flow Dependent Limit: APLHGRF................................................................. 4

3.4

Single Loop Operation Limit: APLHGRSLO..................................................................... 4

3.5

Equipment Out-Of-Service Corrections......................................................................... 6

4

LHGR Limits......................................................................................................................... 7

4.1

Rated Power and Flow Limit: LHGRRATED...................................................................... 7

4.2

Off-Rated Power Dependent Limit: LHGRP................................................................... 7

4.2.1

Startup without Feedwater Heaters....................................................................... 7

4.3

Off-Rated Flow Dependent Limit: LHGRF...................................................................... 8

4.4

Equipment Out-Of-Service Corrections......................................................................... 8

5

OLMCPR Limits................................................................................................................. 12

5.1

Flow Dependent MCPR Limit: MCPRF....................................................................... 12

5.2

Power Dependent MCPR Limit: MCPRP.................................................................... 12

5.2.1

Startup without Feedwater Heaters..................................................................... 12

5.2.2

Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)................................. 13

5.2.3

Exposure Dependent Limits................................................................................ 13

5.2.4

Equipment Out-Of-Service (EOOS) Options....................................................... 14

5.2.5

Single-Loop-Operation (SLO) Limits................................................................... 14

5.2.6

Flow Flags........................................................................................................... 14

6

Thermal-Hydraulic Stability Protection............................................................................... 35

7

APRM Flow Biased Rod Block Trip Settings...................................................................... 37

8

Rod Block Monitor (RBM) Trip Setpoints and Operability.................................................. 38

9

Shutdown Margin Limit....................................................................................................... 40

10

Overpressure Protection System....................................................................................... 41

Appendix A:

MBSP Maps...................................................................................................... A-1

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page iii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 List of Tables Nuclear Fuel Types0F0F0F................................................................................................................. 2

MCPR99.9%..................................................................................................................................... 3

APLHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel.............................................................. 5

Startup Feedwater Temperature Basis......................................................................................... 7

LHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel................................................................... 9

LHGRFACP for ATRIUM 10XM and ATRIUM 11 Fuel............................................................... 10

LHGRFACF for ATRIUM 10XM and ATRIUM 11 Fuel................................................................ 11

Nominal Scram Time Basis......................................................................................................... 13

MCPRF for ATRIUM 10XM and ATRIUM 11 Fuel....................................................................... 15

TLO MCPRP Limits for OSS, BOC to NEOC............................................................................... 16

TLO MCPRP Limits for NSS, BOC to NEOC............................................................................... 17

TLO MCPRP Limits for TSSS, BOC to NEOC............................................................................. 20

TLO MCPRP Limits for OSS, NEOC to EOCLB.......................................................................... 23

TLO MCPRP Limits for NSS, NEOC to EOCLB.......................................................................... 24

TLO MCPRP Limits for TSSS, NEOC to EOCLB........................................................................ 27

TLO MCPRP Limits for OSS, EOCLB to End of Coast.............................................................. 30

TLO MCPRP Limits for NSS, EOCLB to End of Coast............................................................... 31

TLO MCPRP Limits for TSSS, EOCLB to End of Coast............................................................. 33

ABSP Setpoints for the Scram Region....................................................................................... 35

Analyzed MBSP Endpoints: Nominal Feedwater Temperature.................................................. 36

Analyzed MBSP Endpoints: Reduced Feedwater Temperature................................................. 36

Analytical RBM Trip Setpoints18F18F3F............................................................................................... 38

RBM Setpoint Applicability.......................................................................................................... 38

Control Rod Withdrawal Error Results........................................................................................ 39

SRV Lift Setpoints....................................................................................................................... 41

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page iv Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 List of Figures MBSP Boundaries for Nominal Feedwater Temperature.......................................................... A-1

MBSP Boundaries for Reduced Feedwater Temperature........................................................ A-2

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page v Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Revision Log Number Page Description 0

All New document.

1 vii Added OPS and SRV acronyms.

41 Added Section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3).

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page vi Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Nomenclature ABSP Automatic Backup Stability Protection APLHGR Average Planar Linear Heat Generation Rate APRM Average Power Range Monitor BOC Beginning of Cycle BSP Backup Stability Protection BWR Boiling Water Reactor CAVEX Core Average Exposure CMSS Core Monitoring System Software COLR Core Operating Limits Report CPR Critical Power Ratio CRWE Control Rod Withdrawal Error CSDM Cold Shutdown Margin DSS-CD Detect and Suppress Solution - Confirmation Density EOC End of Cycle EOCLB End of Cycle Licensing Basis EOOS Equipment Out-of-Service EPU Extended Power Uprate (120% Original Licensed Thermal Power)

FFWTR Final Feedwater Temperature Reduction FHOOS Feedwater Heaters Out-Of-Service Framatome Vendor (AREVA, Siemens)

GNF Vendor (General Electric, Global Nuclear Fuels)

GWd Giga Watt Day HTSP High Trip Setpoint ICA Interim Corrective Action ICF Increased Core Flow (beyond rated)

IS In-Service LCO License Condition of Operation LHGR Linear Heat Generation Rate LHGRFAC LHGR Multiplier (Power or Flow dependent)

LPRM Local Power Range Monitor MAPFAC Maximum Planar Linear Heat Generation Rate multiplier MAPLHGR Maximum Planar Linear Heat Generation Rate MBSP Manual Backup Stability Protection MCPR Minimum Critical Power Ratio MELLLA Maximum Extended Load Line Limit Analysis MELLLA+

Maximum Extended Load Line Limit Analysis Plus MTU Metric Ton Uranium MWd/MTU Mega Watt Day per Metric Ton Uranium

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page vii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 NEOC Near End of Cycle NRC United States Nuclear Regulatory Commission NSS Nominal Scram Speed NTSP Nominal Trip Setpoint OLMCPR Operating Limit, Minimum Critical Power Ratio OLTP Original Licensed Thermal Power OOS Out-Of-Service OPRM Oscillation Power Range Monitor OPS Overpressure Protection System OSS Optimum Scram Speed PBDA Period Based Detection Algorithm Pbypass Power below which TSV Position and TCV Fast Closure Scrams are Bypassed PLU Power Load Unbalance PLUOOS PLU Out-of-Service PRNM Power Range Neutron Monitor RBM Rod Block Monitor RCPOOS Recirculation Pump Out-Of-Service (SLO)

RDF Rated Drive Flow RPS Reactor Protection System RPT Recirculation Pump Trip RPTOOS Recirculation Pump Trip Out-Of-Service RTP Rated Thermal Power SDM Shutdown Margin SLMCPR MCPR Safety Limit SLO Single Loop Operation (RCPOOS)

SRV Safety Relief Valve SRVOOS Safety Relief Valve Out-Of-Service STP Average Power Range Monitor Simulated Thermal Power TBV Turbine Bypass Valve TBVIS Turbine Bypass Valve In-Service TBVOOS Turbine Bypass Valves Out-of-Service TCV Turbine Control Valve TIP Traversing In-core Probe TIPOOS Traversing In-core Probe Out-of-Service TLO Two Loop Operation TSP Trip Setpoint TSSS Technical Specification Scram Speed TSV Turbine Stop Valve TVA Tennessee Valley Authority

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page viii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 References

1.

ANP-4106, Revision 1, Browns Ferry Unit 1 Cycle 16 Reload Analysis, Framatome, Inc., July 2024.

2.

ANP-3860P Revision 1, Mechanical Design Report for Browns Ferry ATRIUM 11 Fuel Assemblies, Framatome Inc., June 2022.

3.

ANP-3150P, Revision 4, Mechanical Design Report for Browns Ferry ATRIUM 10XM Fuel Assemblies, AREVA Inc., November 2017.

4.

ANP-4082P, Revision 0, Browns Ferry Unit 1 Cycle 16 Plant Parameters Document, Framatome Inc., February 2024.

5.

BFE-4873, Revision 0, Browns Ferry Unit 1 Cycle 16 In Core Shuffle, Calculation File, Tennessee Valley Authority, July 2024.

Methodology References

6.

XN-NF-81-58(P)(A) Revision 2 and Supplements 1 and 2, RODEX2 Fuel Rod Thermal-Mechanical Response Evaluation Model, Exxon Nuclear Company, March 1984.

7.

XN-NF-85-67(P)(A) Revision 1, Generic Mechanical Design for Exxon Nuclear Jet Pump BWR Reload Fuel, Exxon Nuclear Company, September 1986.

8.

EMF-85-74(P) Revision 0 Supplement 1(P)(A) and Supplement 2(P)(A), RODEX2A (BWR) Fuel Rod Thermal-Mechanical Evaluation Model, Siemens Power Corporation, February 1998.

9.

ANF-89-98(P)(A) Revision 1 and Supplement 1, Generic Mechanical Design Criteria for BWR Fuel Designs, Advanced Nuclear Fuels Corporation, May 1995.

10.

XN-NF-80-19(P)(A) Volume 1 and Supplements 1 and 2, Exxon Nuclear Methodology for Boiling Water Reactors - Neutronic Methods for Design and Analysis, Exxon Nuclear Company, March 1983.

11.

XN-NF-80-19(P)(A) Volume 4 Revision 1, Exxon Nuclear Methodology for Boiling Water Reactors: Application of the ENC Methodology to BWR Reloads, Exxon Nuclear Company, June 1986.

12.

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

13.

XN-NF-80-19(P)(A) Volume 3 Revision 2, Exxon Nuclear Methodology for Boiling Water Reactors, THERMEX: Thermal Limits Methodology Summary Description, Exxon Nuclear Company, January 1987.

14.

ANP-10307PA, Revision 0, AREVA MCPR Safety Limit Methodology for Boiling Water Reactors, AREVA NP Inc., June 2011.

15.

EMF-2361(P)(A) Revision 0, EXEM BWR-2000 ECCS Evaluation Model, Framatome ANP Inc., May 2001, as supplemented by the site specific approval in NRC safety evaluation dated April 27, 2012, and July 31, 2014.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page ix Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1

16.

EMF-2292(P)(A) Revision 0, ATRIUM'-10: Appendix K Spray Heat Transfer Coefficients, Siemens Power Corporation, September 2000.

17.

EMF-CC-074(P)(A), Volume 4, Revision 0, BWR Stability Analysis: Assessment of STAIF with Input from MICROBURN-B2, Siemens Power Corporation, August 2000.

18.

BAW-10247PA, Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors, AREVA NP, February 2008.

19.

ANP-10298P-A, Revision 1, ACE/ATRIUM 10XM Critical Power Correlation, AREVA Inc., March 2014.

20.

NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.

21.

BAW-10247P-A Supplement 2P-A Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors Supplement 2: Mechanical Methods, Framatome Inc., August 2018.

22.

ANP-10300P-A Revision 1, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Transient and Accident Scenarios, Framatome Inc.,

January 2018.

23.

ANP-10332P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Loss of Coolant Accident Scenarios, Framatome Inc.,

March 2019.

24.

ANP-10333P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Control Rod Drop Accident (CRDA), Framatome Inc.,

March 2018 (as supplemented by Section 6.4 of ANP-3908P Revision 4, Applicability of Framatome BWR Methods to Browns Ferry with ATRIUM 11 Fuel, Framatome Inc., June 2022)

25.

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

26.

ANP-10340P-A Revision 0, Incorporation of Chromia Doped Fuel Properties in AREVA Approved Methods, Framatome Inc., May 2018.

27.

ANP-3907P Revision 0, Application of BEO-III Methodology with the Confirmation Density Algorithm at Browns Ferry, Framatome Inc., April 2021.

Setpoint References

28.

EDQ2092900118, R40, Setpoint and Scaling Calculations for Neutron Monitoring System & Recirculation Flow Loops, Calculation File, Tennessee Valley Authority, June 2024.

29.

Task T0500, Revision 0, Neutron Monitoring System w/RBM, Project Task Report, GE Hitachi Nuclear Energy, June 2017.

30.

Task T0506, Revision 0, TS Instrument Setpoints, Project Task Report, Tennessee Valley Authority, August 2017.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page x Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1

31.

NEDC-33006P-A, Revision 3, General Electric Boiling Water Reactor Maximum Extended Load Line Limit Analysis Plus, GE Energy Nuclear, June 2009.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 1 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 1 Introduction In anticipation of cycle startup, it is necessary to describe the expected limits of operation.

1.1 Purpose The primary purpose of this document is to satisfy requirements identified by unit technical specification section 5.6.5. This document may be provided, upon final approval, to the NRC.

1.2 Scope This document will discuss the following areas:

3/4 Minimum Critical Power Ratio Safety Limit (MCPR99.9%)

(Technical Specifications 2.1.1.2, 3.2.2, and 5.6.5.a(3))

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Average Planar Linear Heat Generation Rate (APLHGR) Limit (Technical Specifications 3.2.1 and 3.7.5)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Linear Heat Generation Rate (LHGR) Limit (Technical Specification 3.2.3, 3.3.4.1, and 3.7.5)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Minimum Critical Power Ratio Operating Limit (OLMCPR)

(Technical Specifications 3.2.2, 3.3.4.1, 3.7.5 and Table 3.3.2.1-1)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Thermal-Hydraulic Stability Protection (Technical Specification Table 3.3.1.1)

Applicability: Mode 1, (as specified in Technical Specifications Table 3.3.1.1-1) 3/4 Average Power Range Monitor (APRM) Flow Biased Rod Block Trip Setting (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)

Applicability: Mode 1, (as specified in Technical Requirements Manuals Table 3.3.4-1) 3/4 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)

Applicability: Mode 1, % RTP as specified in Table 3.3.2.1-1 (TS definition of RTP) 3/4 Shutdown Margin (SDM) Limit (Technical Specification 3.1.1)

Applicability: All Modes

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 2 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 1.3 Fuel Loading The core will contain fresh ATRIUM 11 and exposed ATRIUM 10XM and ATRIUM 11. Nuclear fuel types used in the core loading are shown in Table 1.1. The core shuffle and final loading were explicitly evaluated for BOC cold shutdown margin performance as documented per Reference 5.

Table 1.1 Nuclear Fuel Types0F0F0F*

Fuel Description Original Cycle Number of Assemblies Nuclear Fuel Type (NFT)

Fuel Names (Range)

ATRIUM 10XM XMLC-3943B-15GV80-FAE 14 23 33 FAE333-FAE428 ATRIUM 10XM XMLC-3944B-14GV80-FAE 14 21 34 FAE429-FAE568 ATRIUM 10XM XMLC-4001B-12GV80-FAE 14 64 35 FAE569-FAE648 ATRIUM 10XM XMLC-4051B-15GV80-FAF 15 144 36 FAF659-FAF802 ATRIUM 10XM XMLC-4046B-14GV80-FAF 15 100 37 FAF803-FAF902 ATRIUM 10XM XMLC-4031B-14GV70-FAF 15 24 38 FAF903-FAF926 ATRIUM 10XM XMLC-4030B-12GV70-FAF 15 56 39 FAF927-FAF982 ATRIUM 11 AT11-3995B-14GV100-FAH 16 260 40 FAH001-FAH260 ATRIUM 11 AT11-4174B-13GV80-FAH 16 72 41 FAH261-FAH332 1.4 Acceptability Limits discussed in this document were generated based on NRC approved methodologies per References 6 through 27.

  • The table identifies the expected fuel type breakdown in anticipation of final core loading. The final composition of the core depends upon uncertainties during the outage such as discovering a failed fuel bundle, or other bundle damage. Minor core loading changes, due to unforeseen events, will conform to the safety and monitoring requirements identified in this document.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 3 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 2 MCPR99.9% Safety Limit (Technical Specifications 2.1.1.2, and 3.2.2)

SLMCPR of Technical Specification 2.1.1.2 has been changed by approval of Traveler TSTF-564, Revision 2. Now, the SLMCPR of Technical Specification 2.1.1.2 represents the MCPR95/95, relative to the critical power correlations being used. Values in TS 2.1.1.2 would only potentially change if there is a change to critical power correlation being used or system measurement uncertainty.

Values provided in Table 2.1, per Reference 1, represent the integral MCPR99.9% considering all forms of uncertainties, and cycle specific fuel designs, core loading, and projected cycle operation.

Table 2.1 MCPR99.9%

SLMCPR BOC to NEOC NEOC to EOCLB EOCLB to End of Coast TLO 1.08 1.08 1.08 SLO 1.09 1.09 1.09

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 4 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 3 APLHGR (Technical Specifications 3.2.1 & 3.7.5)

The APLHGR limit is determined by adjusting the rated power APLHGR limit for off-rated power, off-rated flow, and SLO conditions. The most limiting of these is then used as follows:

APLHGR limit = MIN ( APLHGRP, APLHGRF, APLHGRSLO )

where:

APLHGRP off-rated power APLHGR limit

[APLHGRRATED

  • MAPFACP]

APLHGRF off-rated flow APLHGR limit

[APLHGRRATED

  • MAPFACF]

APLHGRSLO SLO APLHGR limit

[APLHGRRATED

  • SLO Multiplier]

3.1 Rated Power and Flow Limit: APLHGRRATED The rated conditions APLHGR for all fuel are identified per Reference 1. The rated conditions APLHGR for ATRIUM 10XM and ATRIUM 11 fuel are shown in Table 3.1.

3.2 Off-Rated Power Dependent Limit: APLHGRP Reference 1 does not specify a power dependent APLHGR. Therefore, MAPFACP is set to a value of 1.0.

3.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. No additional power dependent limitation is required.

3.3 Off-Rated Flow Dependent Limit: APLHGRF Reference 1 does not specify a flow dependent APLHGR. Therefore, MAPFACF is set to a value of 1.0.

3.4 Single Loop Operation Limit: APLHGRSLO The single loop operation multiplier for ATRIUM 10XM and ATRIUM 11 fuel is 0.85, per Reference 1.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 5 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 3.1 APLHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 6 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 3.5 Equipment Out-Of-Service Corrections The limits shown in Table 3.1 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options. Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. For RCPOOS, use the APLHGRSLO multiplier in Section 3.4.

In-Service All Equipment In-Service1F1F1F RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 7 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 4 LHGR Limits (Technical Specification 3.2.3, 3.3.4.1, & 3.7.5)

The LHGR limit is determined by adjusting the rated power LHGR limit for off-rated power and off-rated flow conditions. The most limiting of these is then used as follows:

LHGR limit = MIN ( LHGRP, LHGRF )

where:

LHGRP off-rated power LHGR limit

[LHGRRATED

  • LHGRFACP]

LHGRF off-rated flow LHGR limit

[LHGRRATED

  • LHGRFACF]

4.1 Rated Power and Flow Limit: LHGRRATED The rated conditions LHGR for all fuel are identified per Reference 1. The rated conditions LHGR for ATRIUM 10XM and ATRIUM 11 are shown in Table 4.2. The LHGR limits are consistent with References 2 & 3.

4.2 Off-Rated Power Dependent Limit: LHGRP LHGR limits are adjusted for off-rated power conditions using the LHGRFACP multiplier provided in Reference 1. The multiplier is split into two sub cases: turbine bypass valves in and out-of-service. The base case multipliers are shown in Table 4.3.

4.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Additional limits are shown in Table 4.3, based on temperature conditions identified in Table 4.1.

Table 4.1 Startup Feedwater Temperature Basis Temperature Power Range 1 Range 2

(% Rated)

(°F)

(°F) 23 155.0 150.0 30 162.0 157.0 40 172.0 167.0 50 182.0 177.0

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 8 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 4.3 Off-Rated Flow Dependent Limit: LHGRF LHGR limits are adjusted for off-rated flow conditions using the LHGRFACF multiplier provided in Reference 1. Multipliers are shown in Table 4.4.

4.4 Equipment Out-Of-Service Corrections The limits shown in Table 4.2 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options. Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service.

In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service Off-rated power corrections shown in Table 4.3 are dependent on operation of the Turbine Bypass Valve system. For this reason, separate limits are to be applied for TBVIS or TBVOOS operation. The limits have no dependency on RPTOOS, PLUOOS, FHOOS/FFWTR, or SLO.

Off-rated flow corrections shown in Table 4.4 are bounding for all EOOS conditions.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 9 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 4.2 LHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 10 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 4.3 LHGRFACP for ATRIUM 10XM and ATRIUM 11 Fuel*

Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 4.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 4.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 11 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 4.4 LHGRFACF for ATRIUM 10XM and ATRIUM 11 Fuel

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 12 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 5 OLMCPR Limits (Technical Specification 3.2.2, 3.3.4.1, & 3.7.5)

OLMCPR is calculated to be the most limiting of the flow or power dependent values OLMCPR limit = MAX ( MCPRF, MCPRP )

where:

MCPRF core flow-dependent MCPR limit MCPRP power-(and flow flag) dependent MCPR limit 5.1 Flow Dependent MCPR Limit: MCPRF MCPRF limits are dependent upon core flow (% of Rated), and the max core flow limit, (Rated or Increased Core Flow, ICF). MCPRF limits are shown in Table 5.2, per Reference 1. Limits are valid for all EOOS combinations. No adjustment is required for SLO conditions.

5.2 Power Dependent MCPR Limit: MCPRP MCPRP limits are dependent upon:

Core Power (% of Rated) for a specified flow flag bin.

Technical Specification Scram Speed (TSSS), Nominal Scram Speed (NSS), or Optimum Scram Speed (OSS)

Cycle Operating Exposure (NEOC, EOCLB, and End of Coast)

Equipment Out-Of-Service Options Two or Single Recirculation Loop Operation (TLO vs. SLO)

The TLO MCPRP limits are provided in Table 5.3 through Table 5.11, where each table contains a specified scram speed and exposure range. The CMSS determines MCPRP limits, from these tables, based on linear interpolation between the specified powers.

5.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Table 5.3 through Table 5.11 also contain TLO MCPRP limits based on temperature conditions identified in Table 4.1.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 13 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 5.2.2 Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)

MCPRP limits are provided for three different sets of assumed scram speeds. The Technical Specification Scram Speed (TSSS) MCPRP limits are applicable at all times, as long as the scram time surveillance demonstrates the times in Technical Specification Table 3.1.4-1 are met. Both Nominal Scram Speeds (NSS) and/or Optimum Scram Speeds (OSS) may be used, as long as the scram time surveillance demonstrates Table 5.1 times are applicable. 3F3F3F*

4F4F4F Table 5.1 Nominal Scram Time Basis Notch Position Nominal Scram Timing Optimum Scram Timing (index)

(seconds)

(seconds) 46 0.380 0.350 36 0.960 0.930 26 1.590 1.560 6

2.900 2.800 In demonstrating compliance with the NSS and/or OSS scram time basis, surveillance requirements from Technical Specification 3.1.4 apply; accepting the definition of SLOW rods should conform to scram speeds shown in Table 5.1. If conformance is not demonstrated, TSSS based MCPRP limits are applied.

On initial cycle startup, TSSS limits are used until the successful completion of scram timing confirms NSS and/or OSS based limits are applicable.

5.2.3 Exposure Dependent Limits Exposures are tracked on a Core Average Exposure basis (CAVEX, not Cycle Exposure).

Higher exposure MCPRP limits are NOT always more limiting. Per Reference 1, MCPRP limits are provided for the following exposure ranges:

BOC to NEOC NEOC corresponds to 30,883.7 MWd / MTU NEOC to EOCLB EOCLB corresponds to 34,005.7 MWd / MTU EOCLB to End of Coast End of Coast 35,699.2 MWd / MTU The EOCLB exposure point is not the true end of cycle exposure. Instead, it corresponds to a licensing exposure window exceeding expected end-of-full-power-life.

  • Reference 1 analysis results are based on information identified in Reference 4.

Drop out times consistent with method used to perform actual timing measurements (i.e., including pickup/dropout effects).

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TVA-COLR-BF1C16, Revision 1 The End of Coast exposure point represents a licensing exposure point exceeding the expected end of cycle exposure including cycle extension options.

5.2.4 Equipment Out-Of-Service (EOOS) Options Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. EOOS options covered by MCPRP limits are given by the following:

In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service RPTOOS+TBVOOS Combined RPTOOS and TBVOOS PLUOOS Power Load Unbalance Out-Of-Service PLUOOS+RPTOOS Combined PLUOOS and RPTOOS PLUOOS+TBVOOS Combined PLUOOS and TBVOOS PLUOOS+TBVOOS+RPTOOS Combined PLUOOS, RPTOOS, and TBVOOS FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service (or Final Feedwater Temperature Reduction)

RCPOOS One Recirculation Pump Out-Of-Service For exposure ranges up to NEOC and EOCLB, additional combinations of MCPRP limits are also provided including FHOOS. The End of Coast exposure range assumes application of FFWTR. FHOOS based MCPRP limits for the End of Coast exposure are redundant because the temperature set down assumption is identical with FFWTR.

5.2.5 Single-Loop-Operation (SLO) Limits When operating with one recirculation pump out-of-service (RCPOOS/SLO), MCPRp limits are constructed differently from the normal operating RCP conditions. The limiting event for RCPOOS is a pump seizure scenario, which sets the upper bound for allowed core power and flow. This event is not impacted by scram time assumptions. Specific SLO MCPRP limits are obtained by the addition of a 0.01 adder to the corresponding TLO MCPRP limit. RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

5.2.6 Flow Flags A flow flag is a point on the core flow axis of the power/flow map defining core flow bins where limits are applicable. For the cycle, a 90% core flow flag is employed. Hence, there are 2 core flow bins generated. While not every flow flag bin pair has a benefit, there are two MCPRP values for each exposure bin, and each power level. It should be noted that values for a bin pair may be equal. Below Pbypass (26% rated power), a flow flag of 50% is utilized.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 15 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.2 MCPRF for ATRIUM 10XM and ATRIUM 11 Fuel

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 16 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.3 TLO MCPRP Limits for OSS, BOC to NEOC Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 17 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 18 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC (Continued)

Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 19 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC (Continued)

Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 20 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 21 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC (Continued)

Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 22 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC (Continued)

Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 23 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.6 TLO MCPRP Limits for OSS, NEOC to EOCLB Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

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TVA-COLR-BF1C16, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 25 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB (Continued)

Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 26 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB (Continued)

Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.

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TVA-COLR-BF1C16, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

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TVA-COLR-BF1C16, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB (Continued)

Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 29 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB (Continued)

Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.

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TVA-COLR-BF1C16, Revision 1 Table 5.9 TLO MCPRP Limits for OSS, EOCLB to End of Coast*

Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 31 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.10 TLO MCPRP Limits for NSS, EOCLB to End of Coast*

Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 32 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.10 TLO MCPRP Limits for NSS, EOCLB to End of Coast (Continued)

Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 33 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.11 TLO MCPRP Limits for TSSS, EOCLB to End of Coast*

Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+

operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 34 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 5.11 TLO MCPRP Limits for TSSS, EOCLB to End of Coast (Continued)

Turbine bypass valves in-service (TBVIS) limits are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS. TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS 1 and Startup FHOOS 2 temperatures are presented as Temperature Range 1 and Temperature Range 2, respectively in Table 4.1. Note feedwater heaters out-of-service / FFWTR and single-loop operating conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 35 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 6 Thermal-Hydraulic Stability Protection (Technical Specification 3.3.1.1)

Technical Specification Table 3.3.1.1-1, Function 2f, identifies the function.

Instrument setpoints are established, such that the reactor will be tripped before an oscillation can grow to the point where the SLMCPR is exceeded. With application of Reference 31, the DSS-CD stability solution as originally per Reference 20 is now used in a hybrid manner, per Reference 27. The DSS-CD SAD setpoint is 1.10 for TLO and SLO.

New analyses have been developed based on Reference 27. With the implementation of the MELLLA+ operating domain expansion, an ABSP trip is required when the OPRM is out-of-service. The ABSP trip settings define a region of the power to flow map within which an automatic reactor scram occurs. The ABSP trip settings are provided in Table 6.1. If both the OPRM and ABSP are out-of-service, operation within the MELLLA+ domain is not allowed and the MBSP Regions provide stability protection. Table 6.2 and Table 6.3 provide the endpoints for the MBSP regions for nominal and reduced feedwater temperature conditions. These endpoints are connected using the generic shape function of Reference 20 and have been graphed in Appendix A.

Table 6.1 ABSP Setpoints for the Scram Region Parameter Symbol Setting Value (unit)

Comments Slope for Trip mTRIP 2.00 (% RTP/% RDF)

Slope of ABSP APRM Flow-Biased Trip Linear Segment Constant Power Line for Trip PBSP-TRIP 35.0 (% RTP)

ABSP APRM Flow-Biased Trip Setpoint Power Intercept. Constant Power Line for Trip from Zero Drive Flow to Flow Breakpoint Value Constant Flow Line for Trip WBSP-TRIP 49 (% RDF)

ABSP APRM Flow-Biased Trip Setpoint Drive Flow Intercept.

Constant Flow Line for Trip (see Note 1 below)

Flow Breakpoint WBSP-BREAK 30.0 (% RDF)

Flow Breakpoint Value Note 1: WBSP-TRIP can be set to 49.0 % RDF or any higher value up to the intersection of the ABSP sloped line with the APRM Flow Biased STP scram line.

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TVA-COLR-BF1C16, Revision 1 Table 6.2 Analyzed MBSP Endpoints: Nominal Feedwater Temperature Endpoint Power

(% Rated)

Core Flow

(% Rated)

Definition A1 75.9 52.7 Scram Region (Region I)

Boundary Intercept on MELLLA+ Line B1 35.5 29.0 Scram Region (Region I)

Boundary Intercept on Natural Circulation Line (NCL)

A2 66.1 52.0 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 25.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)

Table 6.3 Analyzed MBSP Endpoints: Reduced Feedwater Temperature Endpoint Power

(% Rated)

Core Flow

(% Rated)

Definition A1 64.9 50.5 Scram Region (Region I)

Boundary Intercept on MELLLA Line B1 29.4 29.0 Scram Region (Region I)

Boundary Intercept on Natural Circulation Line (NCL)

A2 68.3 54.9 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 24.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 37 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 7 APRM Flow Biased Rod Block Trip Settings (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)

The APRM rod block trip setting is based upon References 28 & 30, and is defined by the following:

for two loop operation:

SRB d (0.61Wd + 63.3)

Allowable Value SRB d (0.61Wd + 62.0)

Nominal Trip Setpoint (NTSP) where:

SRB

=

Rod Block setting in percent of rated thermal power (3952 MWt)

Wd

=

Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow) and for single loop operation:

SRB d (0.55(Wd-'W) + 60.5)

Allowable Value SRB d (0.55(Wd-'W) + 58.5)

Nominal Trip Setpoint (NTSP) where:

SRB

=

Rod Block setting in percent of rated thermal power (3952 MWt)

Wd

=

Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow)

'W

=

Difference between two-loop and single-loop effective recirculation flow at the same core flow ('W=0.0 for two-loop operation)

The APRM rod block trip setting is clamped at a maximum allowable value of 115%

(corresponding to a NTSP of 113%).

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 38 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 8 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)

The RBM trip setpoints and applicable power ranges, based on References 28 & 29, are shown in Table 8.1. Setpoints are based on an HTSP, unfiltered analytical limit of 114%. Unfiltered setpoints are consistent with a nominal RBM filter setting of 0.0 seconds; filtered setpoints are consistent with a nominal RBM filter setting less than 0.5 seconds. Cycle specific CRWE analyses of OLMCPR are documented in Reference 1, superseding values reported in References 28, 29, and 30.

Table 8.1 Analytical RBM Trip Setpoints18F18F3F*

RBM Trip Setpoint Allowable Value (AV)

Nominal Trip Setpoint (NTSP)

LPSP 27%

25%

IPSP 62%

60%

HPSP 82%

80%

LTSP - unfiltered

- filtered 121.7%

120.7%

120.0%

119.0%

ITSP - unfiltered

- filtered 116.7%

115.7%

115.0%

114.0%

HTSP - unfiltered

- filtered 111.7%

110.9%

110.0%

109.2%

DTSP 90%

92%

As a result of cycle specific CRWE analyses, RBM setpoints in Technical Specification Table 3.3.2.1-1 are applicable as shown in Table 8.2. Cycle specific setpoint analysis results are shown in Table 8.3, per Reference 1.

Table 8.2 RBM Setpoint Applicability Thermal Power

(% Rated)

Applicable MCPR19F19F34F Notes from Table 3.3.2.1-1 Comment 27% and < 90%

< 1.67 (a), (b), (f), (h) two loop operation

< 1.69 (a), (b), (f), (h) single loop operation 90%

< 1.41 (g) two loop operation20F20F35F

  • Values are considered maximums. Using lower values, due to RBM system hardware/software limitations, is conservative, and acceptable.

MCPR values shown correspond with, (support), values identified in Table 1.1.

Greater than 90% rated power is not attainable in single loop operation.

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 39 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Table 8.3 Control Rod Withdrawal Error Results RBM CRWE HTSP Analytical Limit OLMCPR Unfiltered 107 1.32 111 1.33 114 1.35 117 1.38 Results, compared against the base case OLMCPR results of Table 5.3, indicate Table 2.1 MCPR99.9 remains protected for RBM inoperable conditions (i.e., 114% unblocked).

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TVA-COLR-BF1C16, Revision 1 9 Shutdown Margin Limit (Technical Specification 3.1.1)

Assuming the strongest OPERABLE control blade is fully withdrawn, and all other OPERABLE control blades are fully inserted, the core shall be sub-critical and meet the following minimum shutdown margin:

SDM 0.38% dk/k

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page 41 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 10 Overpressure Protection System (Technical Specification 3.4.3)

The as-found OPS lift pressures of the required SRVs are specified below:

Table 10.1 SRV Lift Setpoints As-Found Lift Number of SRVs Pressure Limit (psig) 3 1169 4

1179 5

1189

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page A-1 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Appendix A: MBSP Maps Figure A.1 MBSP Boundaries for Nominal Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature) 0 10 20 30 40 50 60 70 80 90 100 110 0

10 20 30 40 50 60 70 80 90 100 110 120 CorePower(%Rated:100%=3952MWt)

CoreFlow(%Rated:100%=102.5Mlb/hr)

MELLLA+Region Manual

Scram

RegionI BSP Boundary MELLLARegion ICFRegion ControlledEntry

RegionII Min.FlowControl Min.Power Line 20%Pump

Speed Line Natural

Circulation MELLLAUpperBoundary 87.5% RodLine

ECM: L32 250630 800 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 1 Cycle 16 Page A-2 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF1C16, Revision 1 Figure A.2 MBSP Boundaries for Reduced Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for a Reduced Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature) 0 10 20 30 40 50 60 70 80 90 100 110 0

10 20 30 40 50 60 70 80 90 100 110 120 CorePower(%Rated:100%=3952MWt)

CoreFlow(%Rated:100%=102.5Mlb/hr)

MELLLA+Region Manual

Scram

RegionI BSP Boundary MELLLARegion ICFRegion ControlledEntry

RegionII Min.FlowControl Min.Power Line 20%Pump

Speed Line Natural

Circulation 87.5% RodLine MELLLAUpperBoundary

Tennessee Valley Authority Browns Ferry Nuclear Plant Unit 2 Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 2 Cycle 24 Operation, TVA-COLR-BF2C24, Revision 1 (See Attached)

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page ii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table of Contents Total Number of Pages = 53 (including review cover sheet)

List of Tables................................................................................................................................. iii List of Figures.............................................................................................................................. iv Revision Log................................................................................................................................. v Nomenclature............................................................................................................................... vi References.................................................................................................................................. viii 1

Introduction.......................................................................................................................... 1

1.1

Purpose......................................................................................................................... 1

1.2

Scope............................................................................................................................ 1

1.3

Fuel Loading.................................................................................................................. 2

1.4

Acceptability.................................................................................................................. 2

2

MCPR99.9% Safety Limit........................................................................................................ 3

3

APLHGR.............................................................................................................................. 4

3.1

Rated Power and Flow Limit: APLHGRRATED................................................................. 4

3.2

Off-Rated Power Dependent Limit: APLHGRP.............................................................. 4

3.2.1

Startup without Feedwater Heaters....................................................................... 4

3.3

Off-Rated Flow Dependent Limit: APLHGRF................................................................. 4

3.4

Single Loop Operation Limit: APLHGRSLO..................................................................... 4

3.5

Equipment Out-Of-Service Corrections......................................................................... 6

4

LHGR Limits......................................................................................................................... 7

4.1

Rated Power and Flow Limit: LHGRRATED...................................................................... 7

4.2

Off-Rated Power Dependent Limit: LHGRP................................................................... 7

4.2.1

Startup without Feedwater Heaters....................................................................... 7

4.3

Off-Rated Flow Dependent Limit: LHGRF...................................................................... 8

4.4

Equipment Out-Of-Service Corrections......................................................................... 8

5

OLMCPR Limits................................................................................................................. 12

5.1

Flow Dependent MCPR Limit: MCPRF....................................................................... 12

5.2

Power Dependent MCPR Limit: MCPRP.................................................................... 12

5.2.1

Startup without Feedwater Heaters..................................................................... 12

5.2.2

Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)................................. 13

5.2.3

Exposure Dependent Limits................................................................................ 13

5.2.4

Equipment Out-Of-Service (EOOS) Options....................................................... 14

5.2.5

Single-Loop-Operation (SLO) Limits................................................................... 14

5.2.6

Flow Flags........................................................................................................... 14

6

Thermal-Hydraulic Stability Protection............................................................................... 35

7

APRM Flow Biased Rod Block Trip Settings...................................................................... 37

8

Rod Block Monitor (RBM) Trip Setpoints and Operability.................................................. 38

9

Shutdown Margin Limit....................................................................................................... 40

10

Overpressure Protection System....................................................................................... 41

Appendix A:

MBSP Maps...................................................................................................... A-1

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page iii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 List of Tables Nuclear Fuel Types0F0F0F................................................................................................................. 2

MCPR99.9%..................................................................................................................................... 3

APLHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel.............................................................. 5

Startup Feedwater Temperature Basis......................................................................................... 7

LHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel................................................................... 9

LHGRFACP for ATRIUM 10XM and ATRIUM 11 Fuel............................................................... 10

LHGRFACF for ATRIUM 10XM and ATRIUM 11 Fuel................................................................ 11

Nominal Scram Time Basis......................................................................................................... 13

MCPRF for ATRIUM 10XM and ATRIUM 11 Fuel....................................................................... 15

TLO MCPRP Limits for OSS, BOC to NEOC............................................................................... 16

TLO MCPRP Limits for NSS, BOC to NEOC............................................................................... 17

TLO MCPRP Limits for TSSS, BOC to NEOC............................................................................. 20

TLO MCPRP Limits for OSS, NEOC to EOCLB.......................................................................... 23

TLO MCPRP Limits for NSS, NEOC to EOCLB.......................................................................... 24

TLO MCPRP Limits for TSSS, NEOC to EOCLB........................................................................ 27

TLO MCPRP Limits for OSS, EOCLB to End of Coast.............................................................. 30

TLO MCPRP Limits for NSS, EOCLB to End of Coast............................................................... 31

TLO MCPRP Limits for TSSS, EOCLB to End of Coast............................................................. 33

ABSP Setpoints for the Scram Region....................................................................................... 35

Analyzed MBSP Endpoints: Nominal Feedwater Temperature.................................................. 36

Analyzed MBSP Endpoints: Reduced Feedwater Temperature................................................. 36

Analytical RBM Trip Setpoints18F18F3F............................................................................................... 38

RBM Setpoint Applicability.......................................................................................................... 38

Control Rod Withdrawal Error Results........................................................................................ 39

SRV Lift Setpoints....................................................................................................................... 41

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page iv Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 List of Figures MBSP Boundaries for Nominal Feedwater Temperature.......................................................... A-1

MBSP Boundaries for Reduced Feedwater Temperature........................................................ A-2

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page v Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Revision Log Number Page Description 0

All New document.

1 vii Added OPS and SRV acronyms.

41 Added Section 10 OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3).

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page vi Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Nomenclature ABSP Automatic Backup Stability Protection APLHGR Average Planar Linear Heat Generation Rate APRM Average Power Range Monitor BOC Beginning of Cycle BSP Backup Stability Protection BWR Boiling Water Reactor CAVEX Core Average Exposure CMSS Core Monitoring System Software COLR Core Operating Limits Report CPR Critical Power Ratio CRWE Control Rod Withdrawal Error CSDM Cold Shutdown Margin DSS-CD Detect and Suppress Solution - Confirmation Density EOC End of Cycle EOCLB End of Cycle Licensing Basis EOOS Equipment Out-of-Service EPU Extended Power Uprate (120% Original Licensed Thermal Power)

FFWTR Final Feedwater Temperature Reduction FHOOS Feedwater Heaters Out-Of-Service Framatome Vendor (AREVA, Siemens)

GNF Vendor (General Electric, Global Nuclear Fuels)

GWd Giga Watt Day HTSP High Trip Setpoint ICA Interim Corrective Action ICF Increased Core Flow (beyond rated)

IS In-Service LCO License Condition of Operation LHGR Linear Heat Generation Rate LHGRFAC LHGR Multiplier (Power or Flow dependent)

LPRM Local Power Range Monitor MAPFAC Maximum Planar Linear Heat Generation Rate multiplier MAPLHGR Maximum Planar Linear Heat Generation Rate MBSP Manual Backup Stability Protection MCPR Minimum Critical Power Ratio MELLLA Maximum Extended Load Line Limit Analysis MELLLA+

Maximum Extended Load Line Limit Analysis Plus MTU Metric Ton Uranium MWd/MTU Mega Watt Day per Metric Ton Uranium

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page vii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 NEOC Near End of Cycle NFT Nuclear Fuel Type NRC United States Nuclear Regulatory Commission NSS Nominal Scram Speed NTSP Nominal Trip Setpoint OLMCPR Operating Limit, Minimum Critical Power Ratio OLTP Original Licensed Thermal Power OOS Out-Of-Service OPRM Oscillation Power Range Monitor OPS Overpressure Protection System OSS Optimum Scram Speed PBDA Period Based Detection Algorithm Pbypass Power below which TSV Position and TCV Fast Closure Scrams are Bypassed PLU Power Load Unbalance PLUOOS PLU Out-of-Service PRNM Power Range Neutron Monitor RBM Rod Block Monitor RCPOOS Recirculation Pump Out-Of-Service (SLO)

RDF Rated Drive Flow RPS Reactor Protection System RPT Recirculation Pump Trip RPTOOS Recirculation Pump Trip Out-Of-Service RTP Rated Thermal Power SDM Shutdown Margin SLMCPR MCPR Safety Limit SLO Single Loop Operation (RCPOOS)

SRVOOS Safety Relief Valve Out-Of-Service SRV Safety Relief Valve STP Average Power Range Monitor Simulated Thermal Power TBV Turbine Bypass Valve TBVIS Turbine Bypass Valve In-Service TBVOOS Turbine Bypass Valves Out-of-Service TCV Turbine Control Valve TIP Traversing In-core Probe TIPOOS Traversing In-core Probe Out-of-Service TLO Two Loop Operation TSP Trip Setpoint TSSS Technical Specification Scram Speed TSV Turbine Stop Valve TVA Tennessee Valley Authority

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page viii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 References

1.

ANP-4128, Revision 1, Browns Ferry Unit 2 Cycle 24 Reload Analysis, Framatome Inc., December 2024. [L32 250106 800]

2.

ANP-3860P, Revision 3, Mechanical Design Report for Browns Ferry ATRIUM 11 Fuel Assemblies, Framatome Inc., December 2024. [L86 250106 001]

3.

ANP-3150P, Revision 4, Mechanical Design Report for Browns Ferry ATRIUM 10XM Fuel Assemblies, AREVA Inc., November 2017. [L86 190311 001]

4.

ANP-4111P, Revision 0, Browns Ferry Unit 2 Cycle 24 Plant Parameters Document, Framatome Inc., June 2024. [L32 241015 800]

5.

BFE-4897, Revision 0, Browns Ferry Unit 2 Cycle 24 In-Core Shuffle, Tennessee Valley Authority, December 2024. [L32 241119 800]

Methodology References

6.

XN-NF-81-58(P)(A) Revision 2 and Supplements 1 and 2, RODEX2 Fuel Rod Thermal-Mechanical Response Evaluation Model, Exxon Nuclear Company, March 1984.

7.

XN-NF-85-67(P)(A) Revision 1, Generic Mechanical Design for Exxon Nuclear Jet Pump BWR Reload Fuel, Exxon Nuclear Company, September 1986.

8.

EMF-85-74(P) Revision 0 Supplement 1(P)(A) and Supplement 2(P)(A), RODEX2A (BWR) Fuel Rod Thermal-Mechanical Evaluation Model, Siemens Power Corporation, February 1998.

9.

ANF-89-98(P)(A) Revision 1 and Supplement 1, Generic Mechanical Design Criteria for BWR Fuel Designs, Advanced Nuclear Fuels Corporation, May 1995.

10.

XN-NF-80-19(P)(A) Volume 1 and Supplements 1 and 2, Exxon Nuclear Methodology for Boiling Water Reactors - Neutronic Methods for Design and Analysis, Exxon Nuclear Company, March 1983.

11.

XN-NF-80-19(P)(A) Volume 4 Revision 1, Exxon Nuclear Methodology for Boiling Water Reactors: Application of the ENC Methodology to BWR Reloads, Exxon Nuclear Company, June 1986.

12.

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

13.

XN-NF-80-19(P)(A) Volume 3 Revision 2, Exxon Nuclear Methodology for Boiling Water Reactors, THERMEX: Thermal Limits Methodology Summary Description, Exxon Nuclear Company, January 1987.

14.

ANP-10307PA, Revision 0, AREVA MCPR Safety Limit Methodology for Boiling Water Reactors, AREVA NP Inc., June 2011.

15.

EMF-2361(P)(A) Revision 0, EXEM BWR-2000 ECCS Evaluation Model, Framatome ANP Inc., May 2001, as supplemented by the site specific approval in NRC safety evaluation dated February 15, 2013, and July 31, 2014.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page ix Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1

16.

EMF-2292(P)(A) Revision 0, ATRIUM'-10: Appendix K Spray Heat Transfer Coefficients, Siemens Power Corporation, September 2000.

17.

EMF-CC-074(P)(A), Volume 4, Revision 0, BWR Stability Analysis: Assessment of STAIF with Input from MICROBURN-B2, Siemens Power Corporation, August 2000.

18.

BAW-10247PA, Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors, AREVA NP, February 2008.

19.

ANP-10298P-A, Revision 1, ACE/ATRIUM 10XM Critical Power Correlation, AREVA Inc., March 2014.

20.

NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.

21.

BAW-10247P-A Supplement 2P-A Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors Supplement 2: Mechanical Methods, Framatome Inc., August 2018.

22.

ANP-10300P-A Revision 1, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Transient and Accident Scenarios, Framatome Inc.,

January 2018.

23.

ANP-10332P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Loss of Coolant Accident Scenarios, Framatome Inc.,

March 2019.

24.

ANP-10333P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Control Rod Drop Accident (CRDA), Framatome Inc.,

March 2018 (as supplemented by Section 6.4 of ANP-3908P Revision 4, Applicability of Framatome BWR Methods to Browns Ferry with ATRIUM 11 Fuel, Framatome Inc., June 2022)

25.

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

26.

ANP-10340P-A Revision 0, Incorporation of Chromia Doped Fuel Properties in AREVA Approved Methods, Framatome Inc., May 2018.

27.

ANP-3907P Revision 0, Application of BEO-III Methodology with the Confirmation Density Algorithm at Browns Ferry, Framatome Inc., April 2021.

Setpoint References

28.

EDQ2092900118, R41, Setpoint and Scaling Calculations for Neutron Monitoring System & Recirculation Flow Loops, Calculation File, Tennessee Valley Authority, October 2024.

29.

Task T0500, Revision 0, Neutron Monitoring System w/RBM, Project Task Report, GE Hitachi Nuclear Energy, June 2017.

30.

Task T0506, Revision 0, TS Instrument Setpoints, Project Task Report, Tennessee Valley Authority, August 2017.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page x Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1

31.

NEDC-33006P-A, Revision 3, General Electric Boiling Water Reactor Maximum Extended Load Line Limit Analysis Plus, GE Energy Nuclear, June 2009.

32.

NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 1 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 1 Introduction In anticipation of cycle startup, it is necessary to describe the expected limits of operation.

1.1 Purpose The primary purpose of this document is to satisfy requirements identified by unit technical specification section 5.6.5. This document may be provided, upon final approval, to the NRC.

1.2 Scope This document will discuss the following areas:

3/4 Minimum Critical Power Ratio Safety Limit (MCPR99.9%)

(Technical Specifications 2.1.1.2, 3.2.2, and 5.6.5.a(3))

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Average Planar Linear Heat Generation Rate (APLHGR) Limit (Technical Specifications 3.2.1 and 3.7.5)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Linear Heat Generation Rate (LHGR) Limit (Technical Specification 3.2.3, 3.3.4.1, and 3.7.5)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Minimum Critical Power Ratio Operating Limit (OLMCPR)

(Technical Specifications 3.2.2, 3.3.4.1, 3.7.5 and Table 3.3.2.1-1)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Thermal-Hydraulic Stability Protection (Technical Specification Table 3.3.1.1)

Applicability: Mode 1, (as specified in Technical Specifications Table 3.3.1.1-1) 3/4 Average Power Range Monitor (APRM) Flow Biased Rod Block Trip Setting (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)

Applicability: Mode 1, (as specified in Technical Requirements Manuals Table 3.3.4-1) 3/4 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)

Applicability: Mode 1, % RTP as specified in Table 3.3.2.1-1 (TS definition of RTP) 3/4 Shutdown Margin (SDM) Limit (Technical Specification 3.1.1)

Applicability: All Modes

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 2 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 1.3 Fuel Loading The core will contain fresh ATRIUM 11 and exposed ATRIUM 10XM and ATRIUM 11. Nuclear fuel types used in the core loading are shown in Table 1.1. The core shuffle and final loading were explicitly evaluated for BOC cold shutdown margin performance as documented per Reference 5.

Table 1.1 Nuclear Fuel Types0F0F0F*

Fuel Description Original Cycle Number of Assemblies Nuclear Fuel Type Fuel Names (Range)

ATRIUM 10XM XMLC-4058B-15GV80-FBJ 22 28 24 FBJ331-FBJ546 ATRIUM 10XM XMLC-4015B-15GV80-FBJ 22 68 25 FBJ547-FBJ638 ATRIUM 11 AT11-3974B-14GV100-FBK 23 84 26 FBK649-FBK732 ATRIUM 11 AT11-3971B-14GV100-FBK 23 160 27 FBK733-FBK892 ATRIUM 11 AT11-4175B-13GV80-FBK 23 88 28 FBK893-FBK980 ATRIUM 11 AT11-3998B-14GV100-FBL 24 160 29 FBL001-FBL160 ATRIUM 11 AT11-3998B-14GV100a-FBL 24 104 30 FBL161-FBL264 ATRIUM 11 AT11-4180B-11GV90-FBL 24 72 31 FBL265-FBL336 1.4 Acceptability Limits discussed in this document were generated based on NRC approved methodologies per References 6 through 27.

  • The table identifies the expected fuel type breakdown in anticipation of final core loading. The final composition of the core depends upon uncertainties during the outage such as discovering a failed fuel bundle, or other bundle damage. Minor core loading changes, due to unforeseen events, will conform to the safety and monitoring requirements identified in this document.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 3 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 2 MCPR99.9% Safety Limit (Technical Specifications 2.1.1.2, and 3.2.2)

SLMCPR of Technical Specification 2.1.1.2 has been changed by approval of Traveler TSTF-564, Revision 2. Now, the SLMCPR of Technical Specification 2.1.1.2 represents the MCPR95/95, relative to the critical power correlations being used. Values in TS 2.1.1.2 would only potentially change if there is a change to critical power correlation being used or system measurement uncertainty.

Values provided in Table 2.1, per Reference 1, represent the integral MCPR99.9% considering all forms of uncertainties, and cycle specific fuel designs, core loading, and projected cycle operation.

Table 2.1 MCPR99.9%

SLMCPR BOC to NEOC NEOC to EOCLB EOCLB to End of Coast TLO 1.08 1.08 1.08 SLO 1.09 1.09 1.09

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 4 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 3 APLHGR (Technical Specifications 3.2.1 & 3.7.5)

The APLHGR limit is determined by adjusting the rated power APLHGR limit for off-rated power, off-rated flow, and SLO conditions. The most limiting of these is then used as follows:

APLHGR limit = MIN ( APLHGRP, APLHGRF, APLHGRSLO )

where:

APLHGRP off-rated power APLHGR limit

[APLHGRRATED

  • MAPFACP]

APLHGRF off-rated flow APLHGR limit

[APLHGRRATED

  • MAPFACF]

APLHGRSLO SLO APLHGR limit

[APLHGRRATED

  • SLO Multiplier]

3.1 Rated Power and Flow Limit: APLHGRRATED The rated conditions APLHGR for all fuel are identified per Reference 1. The rated conditions APLHGR for ATRIUM 10XM and ATRIUM 11 fuel are shown in Table 3.1.

3.2 Off-Rated Power Dependent Limit: APLHGRP Reference 1 does not specify a power dependent APLHGR. Therefore, MAPFACP is set to a value of 1.0.

3.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. No additional power dependent limitation is required.

3.3 Off-Rated Flow Dependent Limit: APLHGRF Reference 1 does not specify a flow dependent APLHGR. Therefore, MAPFACF is set to a value of 1.0.

3.4 Single Loop Operation Limit: APLHGRSLO The single loop operation multiplier for ATRIUM 10XM and ATRIUM 11 fuel is 0.85, per Reference 1.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 5 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 3.1 APLHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 6 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 3.5 Equipment Out-Of-Service Corrections The limits shown in Table 3.1 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options. Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. Base case, FHOOS, PLUOOS, combined FHOOS and PLUOOS, and RCPOOS analyses support 1 TBVOOS. For RCPOOS, use the APLHGRSLO multiplier in Section 3.4.

In-Service All Equipment In-Service1F1F1F RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 7 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 4 LHGR Limits (Technical Specification 3.2.3, 3.3.4.1, & 3.7.5)

The LHGR limit is determined by adjusting the rated power LHGR limit for off-rated power and off-rated flow conditions. The most limiting of these is then used as follows:

LHGR limit = MIN ( LHGRP, LHGRF )

where:

LHGRP off-rated power LHGR limit

[LHGRRATED

  • LHGRFACP]

LHGRF off-rated flow LHGR limit

[LHGRRATED

  • LHGRFACF]

4.1 Rated Power and Flow Limit: LHGRRATED The rated conditions LHGR for all fuel are identified per Reference 1. The rated conditions LHGR for ATRIUM 10XM and ATRIUM 11 are shown in Table 4.2. The LHGR limits are consistent with References 2 & 3.

4.2 Off-Rated Power Dependent Limit: LHGRP LHGR limits are adjusted for off-rated power conditions using the LHGRFACP multiplier provided in Reference 1. The multiplier is split into two sub cases: TBVIS and TBVOOS. The TBVIS case assumes 1 TBVOOS. The base case multipliers are shown in Table 4.3.

4.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Additional limits are shown in Table 4.3, based on temperature conditions identified in Table 4.1. The reduced feedwater temperatures are not applicable above 50 % of rated power.

Table 4.1 Startup Feedwater Temperature Basis Power Temperature

(% Rated)

(°F) 23 150.0 30 157.0 40 167.0 50 177.0

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 8 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 4.3 Off-Rated Flow Dependent Limit: LHGRF LHGR limits are adjusted for off-rated flow conditions using the LHGRFACF multiplier provided in Reference 1. Multipliers are shown in Table 4.4.

4.4 Equipment Out-Of-Service Corrections The limits shown in Table 4.2 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options.2F2F2F Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. Base case, FHOOS, PLUOOS, combined FHOOS and PLUOOS, and RCPOOS analyses support 1 TBVOOS.

In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service Off-rated power corrections shown in Table 4.3 are dependent on operation of the Turbine Bypass Valve system. For this reason, separate limits are to be applied for TBVIS or TBVOOS operation. The TBVIS case assumes 1 TBVOOS. The limits have no dependency on RPTOOS, PLUOOS, FHOOS/FFWTR, or SLO.

Off-rated flow corrections shown in Table 4.4 are bounding for all EOOS conditions.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 9 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 4.2 LHGRRATED for ATRIUM 10XM and ATRIUM 11 Fuel

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 10 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 4.3 LHGRFACP for ATRIUM 10XM and ATRIUM 11 Fuel*

TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 4.4 except those that include TBVOOS.

TBVOOS limits are applicable for all EOOS scenarios presented in Section 4.4. Startup FHOOS temperatures are presented in Table 4.1.

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 11 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 4.4 LHGRFACF for ATRIUM 10XM and ATRIUM 11 Fuel

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 12 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 5 OLMCPR Limits (Technical Specification 3.2.2, 3.3.4.1, & 3.7.5)

OLMCPR is calculated to be the most limiting of the flow or power dependent values OLMCPR limit = MAX ( MCPRF, MCPRP )

where:

MCPRF core flow-dependent MCPR limit MCPRP power-(and flow flag) dependent MCPR limit 5.1 Flow Dependent MCPR Limit: MCPRF MCPRF limits are dependent upon core flow (% of Rated), and the max core flow limit, (Rated or Increased Core Flow, ICF). MCPRF limits are shown in Table 5.2, per Reference 1. Limits are valid for all EOOS combinations. No adjustment is required for SLO conditions.

5.2 Power Dependent MCPR Limit: MCPRP MCPRP limits are dependent upon:

Core Power (% of Rated) for a specified flow flag bin.

Technical Specification Scram Speed (TSSS), Nominal Scram Speed (NSS), or Optimum Scram Speed (OSS)

Cycle Operating Exposure (NEOC, EOCLB, and End of Coast)

Equipment Out-Of-Service Options Two or Single Recirculation Loop Operation (TLO vs. SLO)

The TLO MCPRP limits are provided in Table 5.3 through Table 5.11, where each table contains a specified scram speed and exposure range. The CMSS determines MCPRP limits, from these tables, based on linear interpolation between the specified powers.

5.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Table 5.3 through Table 5.11 also contain TLO MCPRP limits based on temperature conditions identified in Table 4.1. The reduced feedwater temperatures are not applicable above 50 % of rated power.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 13 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 5.2.2 Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)

MCPRP limits are provided for three different sets of assumed scram speeds. The Technical Specification Scram Speed (TSSS) MCPRP limits are applicable at all times, as long as the scram time surveillance demonstrates the times in Technical Specification Table 3.1.4-1 are met. Both Nominal Scram Speeds (NSS) and/or Optimum Scram Speeds (OSS) may be used, as long as the scram time surveillance demonstrates Table 5.1 times are applicable. 3F3F3F*

4F4F4F Table 5.1 Nominal Scram Time Basis Notch Position Nominal Scram Timing Optimum Scram Timing (index)

(seconds)

(seconds) 46 0.380 0.350 36 0.960 0.930 26 1.590 1.560 6

2.900 2.800 In demonstrating compliance with the NSS and/or OSS scram time basis, surveillance requirements from Technical Specification 3.1.4 apply; accepting the definition of SLOW rods should conform to scram speeds shown in Table 5.1. If conformance is not demonstrated, TSSS based MCPRP limits are applied.

On initial cycle startup, TSSS limits are used until the successful completion of scram timing confirms NSS and/or OSS based limits are applicable.

5.2.3 Exposure Dependent Limits Exposures are tracked on a Core Average Exposure basis (CAVEX, not Cycle Exposure).

Higher exposure MCPRP limits are NOT always more limiting. Per Reference 1, MCPRP limits are provided for the following exposure ranges:

BOC to NEOC NEOC corresponds to 30,599.7 MWd / MTU NEOC to EOCLB EOCLB corresponds to 34,001.2 MWd / MTU EOCLB to End of Coast End of Coast 35,698.7 MWd / MTU The EOCLB exposure point is not the true end of cycle exposure. Instead, it corresponds to a licensing exposure window exceeding expected end-of-full-power-life.

  • Reference 1 analysis results are based on information identified in Reference 4.

Drop out times consistent with method used to perform actual timing measurements (i.e., including pickup/dropout effects).

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 14 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 The End of Coast exposure point represents a licensing exposure point exceeding the expected end of cycle exposure including cycle extension options.

5.2.4 Equipment Out-Of-Service (EOOS) Options Base case and each EOOS condition are supported with 1 SRVOOS, up to 18 TIP channels out-of-service, and up to 50% of the LPRMs out-of-service. Base case, FHOOS, PLUOOS, combined FHOOS and PLUOOS, and RCPOOS analyses support 1 TBVOOS. EOOS options covered by MCPRP limits are given by the following:

In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service RPTOOS+TBVOOS Combined RPTOOS and TBVOOS PLUOOS Power Load Unbalance Out-Of-Service PLUOOS+RPTOOS Combined PLUOOS and RPTOOS PLUOOS+TBVOOS Combined PLUOOS and TBVOOS PLUOOS+TBVOOS+RPTOOS Combined PLUOOS, RPTOOS, and TBVOOS FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service (or Final Feedwater Temperature Reduction)

RCPOOS One Recirculation Pump Out-Of-Service For exposure ranges up to NEOC and EOCLB, additional combinations of MCPRP limits are also provided including FHOOS. The End of Coast exposure range assumes application of FFWTR. FHOOS based MCPRP limits for the End of Coast exposure are redundant because the temperature set down assumption is identical with FFWTR.

5.2.5 Single-Loop-Operation (SLO) Limits When operating with one recirculation pump out-of-service (RCPOOS/SLO), MCPRp limits are constructed differently from the normal operating RCP conditions. The limiting event for RCPOOS is a pump seizure scenario, which sets the upper bound for allowed core power and flow. This event is not impacted by scram time assumptions. Specific SLO MCPRP limits are obtained by the addition of a 0.01 adder to the corresponding TLO MCPRP limit. RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

5.2.6 Flow Flags A flow flag is a point on the core flow axis of the power/flow map defining core flow bins where limits are applicable. For the cycle, a 90% core flow flag is employed. Hence, there are 2 core flow bins generated. While not every flow flag bin pair has a benefit, there are two MCPRP values for each exposure bin, and each power level. It should be noted that values for a bin pair may be equal. Below Pbypass (26% rated power), a flow flag of 50% is utilized.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 15 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.2 MCPRF for ATRIUM 10XM and ATRIUM 11 Fuel

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 16 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.3 TLO MCPRP Limits for OSS, BOC to NEOC FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 17 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 18 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC (Continued)

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 19 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.4 TLO MCPRP Limits for NSS, BOC to NEOC (Continued)

TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.

TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 20 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 21 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC (Continued)

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 22 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.5 TLO MCPRP Limits for TSSS, BOC to NEOC (Continued)

TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.

TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 23 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.6 TLO MCPRP Limits for OSS, NEOC to EOCLB FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 24 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 25 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB (Continued)

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 26 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.7 TLO MCPRP Limits for NSS, NEOC to EOCLB (Continued)

TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.

TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 27 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 28 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB (Continued)

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 29 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.8 TLO MCPRP Limits for TSSS, NEOC to EOCLB (Continued)

TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.

TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 30 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.9 TLO MCPRP Limits for OSS, EOCLB to End of Coast*

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 31 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.10 TLO MCPRP Limits for NSS, EOCLB to End of Coast*

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 32 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.10 TLO MCPRP Limits for NSS, EOCLB to End of Coast (Continued)

TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.

TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 33 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.11 TLO MCPRP Limits for TSSS, EOCLB to End of Coast*

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 34 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 5.11 TLO MCPRP Limits for TSSS, EOCLB to End of Coast (Continued)

TBVIS limits assume 1 TBVOOS and are applicable for all EOOS scenarios presented in Section 5.2.4 except those that include TBVOOS.

TBVOOS limits are applicable for all EOOS scenarios presented in Section 5.2.4. Startup FHOOS temperatures are presented in Table 4.1.

FHOOS / FFWTR and SLO conditions are not allowed when operating in the MELLLA+ operating domain.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 35 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 6 Thermal-Hydraulic Stability Protection (Technical Specification 3.3.1.1)

Technical Specification Table 3.3.1.1-1, Function 2f, identifies the function.

Instrument setpoints are established, such that the reactor will be tripped before an oscillation can grow to the point where the SLMCPR is exceeded. With application of Reference 31, the DSS-CD stability solution as originally per Reference 20 is now used in a hybrid manner, per Reference 27. The DSS-CD SAD setpoint is 1.10 for TLO and SLO.

New analyses have been developed based on Reference 27. With the implementation of the MELLLA+ operating domain expansion, an ABSP trip is required when the OPRM is out-of-service. The ABSP trip settings define a region of the power to flow map within which an automatic reactor scram occurs. The ABSP trip settings are provided in Table 6.1. If both the OPRM and ABSP are out-of-service, operation within the MELLLA+ domain is not allowed and the MBSP Regions provide stability protection. Table 6.2 and Table 6.3 provide the endpoints for the MBSP regions for nominal and reduced feedwater temperature conditions. These endpoints are connected using the generic shape function of Reference 20 and have been graphed in Appendix A.

Table 6.1 ABSP Setpoints for the Scram Region Parameter Symbol Setting Value (unit)

Comments Slope for Trip mTRIP 2.00 (% RTP/% RDF)

Slope of ABSP APRM Flow-Biased Trip Linear Segment Constant Power Line for Trip PBSP-TRIP 35.0 (% RTP)

ABSP APRM Flow-Biased Trip Setpoint Power Intercept. Constant Power Line for Trip from Zero Drive Flow to Flow Breakpoint Value Constant Flow Line for Trip WBSP-TRIP 49 (% RDF)

ABSP APRM Flow-Biased Trip Setpoint Drive Flow Intercept.

Constant Flow Line for Trip (see Note 1 below)

Flow Breakpoint WBSP-BREAK 30.0 (% RDF)

Flow Breakpoint Value Note 1: WBSP-TRIP can be set to 49.0 % RDF or any higher value up to the intersection of the ABSP sloped line with the APRM Flow Biased STP scram line.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 36 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 6.2 Analyzed MBSP Endpoints: Nominal Feedwater Temperature Endpoint Power

(% Rated)

Core Flow

(% Rated)

Definition A1 75.9 52.7 Scram Region (Region I)

Boundary Intercept on MELLLA+ Line B1 35.5 29.0 Scram Region (Region I)

Boundary Intercept on Natural Circulation Line (NCL)

A2 66.1 52.0 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 25.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)

Table 6.3 Analyzed MBSP Endpoints: Reduced Feedwater Temperature Endpoint Power

(% Rated)

Core Flow

(% Rated)

Definition A1 64.9 50.5 Scram Region (Region I)

Boundary Intercept on MELLLA Line B1 29.4 29.0 Scram Region (Region I)

Boundary Intercept on Natural Circulation Line (NCL)

A2 68.3 54.9 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 24.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 37 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 7 APRM Flow Biased Rod Block Trip Settings (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)

The APRM rod block trip setting is based upon References 28 & 30, and is defined by the following:

for two loop operation:

SRB d (0.61Wd + 63.3)

Allowable Value SRB d (0.61Wd + 62.0)

Nominal Trip Setpoint (NTSP) where:

SRB

=

Rod Block setting in percent of rated thermal power (3952 MWt)

Wd

=

Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow) and for single loop operation:

SRB d (0.55(Wd-'W) + 60.5)

Allowable Value SRB d (0.55(Wd-'W) + 58.5)

Nominal Trip Setpoint (NTSP) where:

SRB

=

Rod Block setting in percent of rated thermal power (3952 MWt)

Wd

=

Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow)

'W

=

Difference between two-loop and single-loop effective recirculation flow at the same core flow ('W=0.0 for two-loop operation)

The APRM rod block trip setting is clamped at a maximum allowable value of 115%

(corresponding to a NTSP of 113%).

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 38 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 8 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)

The RBM trip setpoints and applicable power ranges, based on References 28 & 29, are shown in Table 8.1. Setpoints are based on an HTSP, unfiltered analytical limit of 114%. Unfiltered setpoints are consistent with a nominal RBM filter setting of 0.0 seconds; filtered setpoints are consistent with a nominal RBM filter setting less than 0.5 seconds. Cycle specific CRWE analyses of OLMCPR are documented in Reference 1, superseding values reported in References 28, 29, and 30.

Table 8.1 Analytical RBM Trip Setpoints18F18F3F*

RBM Trip Setpoint Allowable Value (AV)

Nominal Trip Setpoint (NTSP)

LPSP 27%

25%

IPSP 62%

60%

HPSP 82%

80%

LTSP - unfiltered

- filtered 121.7%

120.7%

120.0%

119.0%

ITSP - unfiltered

- filtered 116.7%

115.7%

115.0%

114.0%

HTSP - unfiltered

- filtered 111.7%

110.9%

110.0%

109.2%

DTSP 90%

92%

As a result of cycle specific CRWE analyses, RBM setpoints in Technical Specification Table 3.3.2.1-1 are applicable as shown in Table 8.2. Cycle specific setpoint analysis results are shown in Table 8.3, per Reference 1.

Table 8.2 RBM Setpoint Applicability Thermal Power

(% Rated)

Applicable MCPR19F19F34F Notes from Table 3.3.2.1-1 Comment 27% and < 90%

< 1.58 (a), (b), (f), (h) two loop operation

< 1.60 (a), (b), (f), (h) single loop operation 90%

< 1.38 (g) two loop operation20F20F35F

  • Values are considered maximums. Using lower values, due to RBM system hardware/software limitations, is conservative, and acceptable.

MCPR values shown correspond with, (support), values identified in Table 1.1.

Greater than 90% rated power is not attainable in single loop operation.

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 39 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Table 8.3 Control Rod Withdrawal Error Results RBM CRWE HTSP Analytical Limit OLMCPR Unfiltered 107 1.23 111 1.29 114 1.32 117 1.36 Results, compared against the base case OLMCPR results of Table 5.7, indicate Table 2.1 MCPR99.9 remains protected for RBM inoperable conditions (i.e., 114% unblocked).

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 40 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 9 Shutdown Margin Limit (Technical Specification 3.1.1)

Assuming the strongest OPERABLE control blade is fully withdrawn, and all other OPERABLE control blades are fully inserted, the core shall be sub-critical and meet the following minimum shutdown margin:

SDM 0.38% dk/k

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page 41 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 10 Overpressure Protection System (Technical Specification 3.4.3)

The as-found OPS lift pressures of the required SRVs are specified below:

Table 10.1 SRV Lift Setpoints As-Found Lift Number of SRVs Pressure Limit (psig) 3 1169 4

1179 5

1189

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page A-1 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Appendix A: MBSP Maps Figure A.1 MBSP Boundaries for Nominal Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature) 0 10 20 30 40 50 60 70 80 90 100 110 0

10 20 30 40 50 60 70 80 90 100 110 120 CorePower(%Rated:100%=3952MWt)

CoreFlow(%Rated:100%=102.5Mlb/hr)

MELLLA+Region Manual

Scram

RegionI BSP Boundary MELLLARegion ICFRegion ControlledEntry

RegionII Min.FlowControl Min.Power Line 20%Pump

Speed Line Natural

Circulation MELLLAUpperBoundary 87.5% RodLine

ECM: L32 250630 801 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 2 Cycle 24 Page A-2 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF2C24, Revision 1 Figure A.2 MBSP Boundaries for Reduced Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for a Reduced Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature) 0 10 20 30 40 50 60 70 80 90 100 110 0

10 20 30 40 50 60 70 80 90 100 110 120 CorePower(%Rated:100%=3952MWt)

CoreFlow(%Rated:100%=102.5Mlb/hr)

MELLLA+Region Manual

Scram

RegionI BSP Boundary MELLLARegion ICFRegion ControlledEntry

RegionII Min.FlowControl Min.Power Line 20%Pump

Speed Line Natural

Circulation 87.5% RodLine MELLLAUpperBoundary

Tennessee Valley Authority Browns Ferry Nuclear Plant Unit 3 Core Operating Limits Report, (120% OLTP, MELLLA+), for Unit 3 Cycle 22 Operation, TVA-COLR-BF3C22, Revision 1 (See Attached)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page ii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table of Contents Total Number of Pages = 72 (including review cover sheet)

List of Tables................................................................................................................................ iv List of Figures............................................................................................................................... v Revision Log................................................................................................................................ vi Nomenclature............................................................................................................................... vii References.................................................................................................................................... x 1

Introduction.......................................................................................................................... 1

1.1

Purpose......................................................................................................................... 1

1.2

Scope............................................................................................................................ 1

1.3

Fuel Loading.................................................................................................................. 2

1.4

Acceptability.................................................................................................................. 2

2

MCPR99.9% Safety Limit........................................................................................................ 3

3

APLHGR.............................................................................................................................. 4

3.1

Rated Power and Flow Limit: APLHGRRATED................................................................ 4

3.2

Off-Rated Power Dependent Limit: APLHGRP............................................................. 4

3.2.1

Startup without Feedwater Heaters....................................................................... 4

3.3

Off-Rated Flow Dependent Limit: APLHGRF................................................................ 4

3.4

Single Loop Operation Limit: APLHGRSLO.................................................................... 4

3.5

Equipment Out-Of-Service Corrections......................................................................... 7

4

LHGR Limits......................................................................................................................... 8

4.1

Rated Power and Flow Limit: LHGRRATED..................................................................... 8

4.2

Off-Rated Power Dependent Limit: LHGRP.................................................................. 8

4.2.1

Startup without Feedwater Heaters....................................................................... 8

4.3

Off-Rated Flow Dependent Limit: LHGRF..................................................................... 9

4.4

Equipment Out-Of-Service Corrections......................................................................... 9

5

OLMCPR Limits................................................................................................................. 20

5.1

Flow Dependent MCPR Limit: MCPRF....................................................................... 20

5.2

Power Dependent MCPR Limit: MCPRP.................................................................... 20

5.2.1

Startup without Feedwater Heaters..................................................................... 20

5.2.2

Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)................................. 21

5.2.3

Exposure Dependent Limits................................................................................ 21

5.2.4

Equipment Out-Of-Service (EOOS) Options....................................................... 22

5.2.5

Single-Loop-Operation (SLO) Limits................................................................... 22

5.2.6

Flow Flags........................................................................................................... 22

5.2.6.1

Below Pbypass Limits....................................................................................... 22

6

Thermal-Hydraulic Stability Protection............................................................................... 51

7

APRM Flow Biased Rod Block Trip Settings...................................................................... 53

8

Rod Block Monitor (RBM) Trip Setpoints and Operability.................................................. 54

9

Shutdown Margin Limit....................................................................................................... 56

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page iii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 10

Overpressure Protection System....................................................................................... 57

Appendix A:

MBSP Maps...................................................................................................... A-1

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page iv Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

List of Tables Nuclear Fuel Types0F0F0F................................................................................................................. 2

MCPR99.9%..................................................................................................................................... 3

Startup Feedwater Temperature Basis......................................................................................... 8

Nominal Scram Time Basis......................................................................................................... 21

MCPRP Limits for ATRIUM-10XM Fuel: Optimum Scram Time Basis7F7F7F................................... 25

MCPRP Limits for ATRIUM-11 Fuel: Optimum Scram Time Basis7F7F8F........................................ 26

MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis8F8F9F.................................... 27

MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis10F10F13F......................................... 31

MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis8F8F17F.............................. 35

MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis10F10F21F................................... 39

Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel:

Nominal Scram Time Basis12F12F25F................................................................................................... 43

Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Nominal Scram Time Basis13F13F27F................................................................................................................. 45

Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel:

Tech. Spec. Scram Time Basis14F14F29F............................................................................................. 47

Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Tech.

Spec. Scram Time Basis15F15F31F....................................................................................................... 49

ABSP Setpoints for the Scram Region....................................................................................... 51

Analyzed MBSP Endpoints: Nominal Feedwater Temperature................................................. 52

Analyzed MBSP Endpoints: Reduced Feedwater Temperature................................................ 52

Analytical RBM Trip Setpoints18F18F3F............................................................................................... 54

RBM Setpoint Applicability.......................................................................................................... 54

Control Rod Withdrawal Error Results........................................................................................ 55

SRV Lift Setpoints....................................................................................................................... 57

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page v Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

List of Figures APLHGRRATED for ATRIUM-10XM Fuel......................................................................................... 5

APLHGRRATED for ATRIUM-11 Fuel............................................................................................... 6

LHGRRATED for ATRIUM-10XM Fuel............................................................................................ 10

LHGRRATED for ATRIUM-11 Fuel................................................................................................. 11

Base Operation LHGRFACP for ATRIUM-10XM Fuel................................................................. 12

Base Operation LHGRFACP for ATRIUM-11 Fuel...................................................................... 13

LHGRFACF for ATRIUM-10XM Fuel........................................................................................... 14

LHGRFACF for ATRIUM-11 Fuel................................................................................................ 15

Startup Operation LHGRFACP for ATRIUM-10XM Fuel: Table 4.1 Temperature Range 1........ 16

Startup Operation LHGRFACP for ATRIUM-10XM Fuel: Table 4.1 Temperature Range 2........ 17

Startup Operation LHGRFACP for ATRIUM-11 Fuel: Table 4.1 Temperature Range 1.............. 18

Startup Operation LHGRFACP for ATRIUM-11 Fuel: Table 4.1 Temperature Range 2.............. 19

MCPRF for ATRIUM-10XM Fuel................................................................................................. 23

MCPRF for ATRIUM-11 Fuel....................................................................................................... 24

MBSP Boundaries For Nominal Feedwater Temperature........................................................ A-2

MBSP Boundaries For Reduced Feedwater Temperature....................................................... A-3

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page vi Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Revision Log Number Page Description 0-R0 All New document.

1 viii Added OPS and SRV acronyms.

57 Added Section 10, OPS SRV Lift Setpoints (TSTF-576, TS 3.4.3).

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page vii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Nomenclature ABSP Automatic Backup Stability Protection APLHGR Average Planar LHGR APRM Average Power Range Monitor AREVA NP Vendor (Framatome, Siemens)

BOC Beginning of Cycle BSP Backup Stability Protection BWR Boiling Water Reactor CAVEX Core Average Exposure CD Coast Down CMSS Core Monitoring System Software COLR Core Operating Limits Report CPR Critical Power Ratio CRWE Control Rod Withdrawal Error CSDM Cold SDM DIVOM Delta CPR over Initial CPR vs. Oscillation Magnitude DSS-CD Detect and Suppress Solution - Confirmation Density EOC End of Cycle EOCLB End-of-Cycle Licensing Basis EOOS Equipment OOS EPU Extended Power Uprate (120% OLTP)

FFTR Final Feedwater Temperature Reduction FFWTR Final Feedwater Temperature Reduction FHOOS Feedwater Heaters OOS ft Foot: English unit of measure for length GNF Vendor (General Electric, Global Nuclear Fuels)

GWd Giga Watt Day HTSP High TSP ICA Interim Corrective Action ICF Increased Core Flow (beyond rated)

IS In-Service kW kilo watt: SI unit of measure for power.

LCO License Condition of Operation LFWH Loss of Feedwater Heating LHGRFAC LHGR Multiplier (Power or Flow dependent)

LPRM Low Power Range Monitor LRNB Generator Load Reject, No Bypass MAPFAC MAPLHGR multiplier (Power or Flow dependent)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page viii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

MBSP Manual Backup Stability Protection MCPR Minimum CPR MELLLA Maximum Extended Load Line Limit Analysis MELLLA+

Maximum Extended Load Line Limit Analysis Plus MSRV Moisture Separator Reheater Valve MSRVOOS MSRV OOS MTU Metric Ton Uranium MWd/MTU Mega Watt Day per Metric Ton Uranium NDS No Direct Scram (below Pbypass)

NEOC Near EOC NRC United States Nuclear Regulatory Commission NSS Nominal Scram Speed NTSP Nominal TSP OLMCPR MCPR Operating Limit OLTP Original Licensed Thermal Power OOS Out-Of-Service OPRM Oscillation Power Range Monitor OPS Overpressure Protection System OSS Optimum Scram Speed PBDA Period Based Detection Algorithm Pbypass Power below which TSV Position and TCV Fast Closure Scrams are Bypassed PLU Power Load Unbalance PLUOOS PLU OOS PRNM Power Range Neutron Monitor RBM Rod Block Monitor RCPOOS Recirculation Pump OOS (SLO)

RDF Rated Drive Flow RPS Reactor Protection System RPT Recirculation Pump Trip RPTOOS RPT OOS RTP Rated Thermal Power SDM Shutdown Margin SLMCPR MCPR Safety Limit SLO Single Loop Operation SRV Safety Relief Valve STP APRM Simulated Thermal Power TBV Turbine Bypass Valve TBVIS TBV IS TBVOOS Turbine Bypass Valves OOS TIP Traversing In-core Probe TIPOOS TIP OOS TLO Two Loop Operation TSP Trip Setpoint TSSS Technical Specification Scram Speed

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page ix Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

TVA Tennessee Valley Authority

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page x Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

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ANP-4067, Revision 0, Browns Ferry Unit 3 Cycle 22 Reload Analysis, Framatome, Inc., November 2023.

2.

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3.

ANP-3150P, Revision 4, Mechanical Design Report for Browns Ferry ATRIUM 10XM Fuel Assemblies, AREVA Inc., November 2017.

4.

ANP-4047P, Revision 0, Browns Ferry Unit 3 Cycle 22 Plant Parameters Document, Framatome Inc., May 2023.

5.

BFE-4837, Revision 0, Browns Ferry Unit 3 Cycle 22 In Core Shuffle, Calculation File, Tennessee Valley Authority, January 2024.

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7.

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8.

EMF-85-74(P) Revision 0 Supplement 1(P)(A) and Supplement 2(P)(A), RODEX2A (BWR) Fuel Rod Thermal-Mechanical Evaluation Model, Siemens Power Corporation, February 1998.

9.

ANF-89-98(P)(A) Revision 1 and Supplement 1, Generic Mechanical Design Criteria for BWR Fuel Designs, Advanced Nuclear Fuels Corporation, May 1995.

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XN-NF-80-19(P)(A) Volume 1 and Supplements 1 and 2, Exxon Nuclear Methodology for Boiling Water Reactors - Neutronic Methods for Design and Analysis, Exxon Nuclear Company, March 1983.

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XN-NF-80-19(P)(A) Volume 4 Revision 1, Exxon Nuclear Methodology for Boiling Water Reactors: Application of the ENC Methodology to BWR Reloads, Exxon Nuclear Company, June 1986.

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

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ANP-10307PA, Revision 0, AREVA MCPR Safety Limit Methodology for Boiling Water Reactors, AREVA NP Inc., June 2011.

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EMF-2361(P)(A) Revision 0, EXEM BWR-2000 ECCS Evaluation Model, Framatome ANP Inc., May 2001, as supplemented by the site specific approval in NRC safety evaluation dated February 15, 2013 and July 31, 2014.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page xi Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

16.

EMF-2292(P)(A) Revision 0, ATRIUM'-10: Appendix K Spray Heat Transfer Coefficients, Siemens Power Corporation, September 2000.

17.

EMF-CC-074(P)(A), Volume 4, Revision 0, BWR Stability Analysis: Assessment of STAIF with Input from MICROBURN-B2, Siemens Power Corporation, August 2000.

18.

BAW-10247PA, Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors, AREVA NP Inc., February 2008.

19.

ANP-10298P-A, Revision 1, ACE/ATRIUM 10XM Critical Power Correlation, AREVA Inc., March 2014.

20.

NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.

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BAW-10247P-A Supplement 2P-A Revision 0, Realistic Thermal-Mechanical Fuel Rod Methodology for Boiling Water Reactors Supplement 2: Mechanical Methods, Framatome Inc., August 2018.

22.

ANP-10300P-A Revision 1, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Transient and Accident Scenarios, Framatome Inc.,

January 2018.

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ANP-10332P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Loss of Coolant Accident Scenarios, Framatome Inc.,

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24.

ANP-10333P-A Revision 0, AURORA-B: An Evaluation Model for Boiling Water Reactors; Application to Control Rod Drop Accident (CRDA), Framatome Inc.,

March 2018 (as supplemented by Section 6.4 of ANP-3908P Revision 4, Applicability of Framatome BWR Methods to Browns Ferry with ATRIUM 11 Fuel, Framatome Inc., June 2022)

25.

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

26.

ANP-10340P-A Revision 0, Incorporation of Chromia Doped Fuel Properties in AREVA Approved Methods, Framatome Inc., May 2018.

27.

ANP-3907P Revision 0, Application of BEO-III Methodology with the Confirmation Density Algorithm at Browns Ferry, Framatome Inc., April 2021.

Setpoint References

28.

EDQ2092900118, R39, Setpoint and Scaling Calculation for Neutron Monitoring System & Recirculation Flow Loops, Calculation File, Tennessee Valley Authority, October 14, 2022.

29.

Task T0500, Revision 0, Neutron Monitoring System w/RBM, Project Task Report, GE Hitachi Nuclear Energy, June 2017.

30.

Task T0506, Revision 0, TS Instrument Setpoints, Project Task Report, Tennessee Valley Authority, August, 2017.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page xii Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

31.

NEDC-33006P-A, Revision 3, General Electric Boiling Water Reactor Maximum Extended Load Line Limit Analysis Plus, GE Energy Nuclear, June 2009.

32.

NEDC-33075P-A, Revision 8, GE Hitachi Boiling Water Reactor Detect and Suppress Solution - Confirmation Density, GE Hitachi, November 2013.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 1 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 1 Introduction In anticipation of cycle startup, it is necessary to describe the expected limits of operation.

1.1 Purpose The primary purpose of this document is to satisfy requirements identified by unit technical specification section 5.6.5. This document may be provided, upon final approval, to the NRC.

1.2 Scope This document will discuss the following areas:

3/4 Minimum Critical Power Ratio Safety Limit (MCPR99.9%)

(Technical Specifications 2.1.1.2, 3.2.2, and 5.6.5.a(3))

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Average Planar Linear Heat Generation Rate (APLHGR) Limit (Technical Specifications 3.2.1 and 3.7.5)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Linear Heat Generation Rate (LHGR) Limit (Technical Specification 3.2.3, 3.3.4.1, and 3.7.5)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Minimum Critical Power Ratio Operating Limit (OLMCPR)

(Technical Specifications 3.2.2, 3.3.4.1, 3.7.5 and Table 3.3.2.1-1)

Applicability: Mode 1, 23% RTP (Technical Specifications definition of RTP) 3/4 Thermal-Hydraulic Stability Protection (Technical Specification Table 3.3.1.1)

Applicability: Mode 1, (as specified in Technical Specifications Table 3.3.1.1-1) 3/4 Average Power Range Monitor (APRM) Flow Biased Rod Block Trip Setting (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)

Applicability: Mode 1, (as specified in Technical Requirements Manuals Table 3.3.4-1) 3/4 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)

Applicability: Mode 1, % RTP as specified in Table 3.3.2.1-1 (TS definition of RTP) 3/4 Shutdown Margin (SDM) Limit (Technical Specification 3.1.1)

Applicability: All Modes

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 2 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 1.3 Fuel Loading The core will contain fresh ATRIUM-11 and exposed ATRIUM-10XM. Nuclear fuel types used in the core loading are shown in Table 1.1. The core shuffle and final loading were explicitly evaluated for BOC cold shutdown margin performance as documented per Reference 5.

Table 1.1 Nuclear Fuel Types0F0F0F*

Fuel Description Original Cycle Number of Assemblies Nuclear Fuel Type (NFT)

Fuel Names (Range)

ATRIUM 10XM XMLC-3920B-14GV80-FCJ 20 56 24 FCJ345-FCJ568 ATRIUM 10XM XMLC-3957B-12GV80-FCJ 20 48 25 FCJ569-FCJ656 ATRIUM 10XM XMLC-4000B-15GV80-FCK 21 144 26 FCK667-FCK810 ATRIUM 10XM XMLC-4001B-14GV80-FCK 21 100 27 FCK811-FCK910 ATRIUM 10XM XMLC-3986B-14GV80-FCK 21 24 28 FCK911-FCK934 ATRIUM 10XM XMLC-3992B-12GV80-FCK 21 64 29 FCK935-FCK998 ATRIUM 11 AT11-3992B-14GV100-FCL 22 160 30 FCL001-FCL160 ATRIUM 11 AT11-3993B-14GV100-FCL 22 88 31 FCL161-FCL248 ATRIUM 11 AT11-4178B-13GV80-FCL 22 80 32 FCL249-FCL328 1.4 Acceptability Limits discussed in this document were generated based on NRC approved methodologies per References 6 through 27.

  • The table identifies the expected fuel type breakdown in anticipation of final core loading. The final composition of the core depends upon uncertainties during the outage such as discovering a failed fuel bundle, or other bundle damage. Minor core loading changes, due to unforeseen events, will conform to the safety and monitoring requirements identified in this document.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 3 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 2 MCPR99.9% Safety Limit (Technical Specifications 2.1.1.2, and 3.2.2)

SLMCPR of Technical Specification 2.1.1.2 has been changed by approval of Traveler TSTF-564, Revision 2. Now, the SLMCPR of Technical Specification 2.1.1.2 represents the MCPR95/95, relative to the critical power correlations being used. Values in TS 2.1.1.2 would only potentially change if there is a change to critical power correlation being used or system measurement uncertainty.

Values provided in Table 2.1, per Reference 1, represent the integral MCPR99.9% considering all forms of uncertainties, and cycle specific fuel designs, core loading, and projected cycle operation.

Table 2.1 MCPR99.9%

TLO SLO SLMCPR BOC NEOC EOCLB to to to End of NEOC EOCLB Coast 1.09 1.09 1.09 1.08 1.08 1.08

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 4 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 3 APLHGR (Technical Specifications 3.2.1 & 3.7.5)

The APLHGR limit is determined by adjusting the rated power APLHGR limit for off-rated power, off-rated flow, and SLO conditions. The most limiting of these is then used as follows:

APLHGR limit = MIN ( APLHGRP, APLHGRF, APLHGRSLO )

where:

APLHGRP off-rated power APLHGR limit

[APLHGRRATED

  • MAPFACP]

APLHGRF off-rated flow APLHGR limit

[APLHGRRATED

  • MAPFACF]

APLHGRSLO SLO APLHGR limit

[APLHGRRATED

  • SLO Multiplier]

3.1 Rated Power and Flow Limit: APLHGRRATED The rated conditions APLHGR for all fuel are identified per Reference 1. The rated conditions APLHGR for ATRIUM-10XM fuel are shown in Figure 3.1. The rated conditions APLHGR for ATRIUM-11 are shown in Figure 3.2.

3.2 Off-Rated Power Dependent Limit: APLHGRP Reference 1 does not specify a power dependent APLHGR. Therefore, MAPFACP is set to a value of 1.0.

3.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. No additional power dependent limitation is required.

3.3 Off-Rated Flow Dependent Limit: APLHGRF Reference 1 does not specify a flow dependent APLHGR. Therefore, MAPFACF is set to a value of 1.0.

3.4 Single Loop Operation Limit: APLHGRSLO The single loop operation multiplier for ATRIUM-10XM and ATRIUM-11 fuel is 0.85, per Reference 1.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 5 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0 3

6 9

12 15 0

20 40 60 80 APLHGR (kW/ft)

Planar Average Exposure (GWd/MTU)

Planar Avg.

APLHGR Exposure Limit (GWd/MTU)

(kW/ft) 0.0 13.0 15.0 13.0 67.0 7.6 Figure 3.1 APLHGRRATED for ATRIUM-10XM Fuel

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 6 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0 3

6 9

12 15 0

20 40 60 80 APLHGR (kW/ft)

Planar Average Exposure (GWd/MTU)

Planar Avg.

APLHGR Exposure Limit (GWd/MTU)

(kW/ft) 0.0 11.5 20.0 11.5 60.0 9.0 69.0 7.2 Figure 3.2 APLHGRRATED for ATRIUM-11 Fuel

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 7 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 3.5 Equipment Out-Of-Service Corrections The limits shown in Figure 3.1 and Figure 3.2 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options. For RCPOOS, use the APLHGRSLO multiplier in Section 3.4.

In-Service All Equipment In-Service1F1F1F*

RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service

  • All equipment service conditions assume 1 SRVOOS.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 8 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 4 LHGR Limits (Technical Specification 3.2.3, 3.3.4.1, & 3.7.5)

The LHGR limit is determined by adjusting the rated power LHGR limit for off-rated power and off-rated flow conditions. The most limiting of these is then used as follows:

LHGR limit = MIN ( LHGRP, LHGRF )

where:

LHGRP off-rated power LHGR limit

[LHGRRATED

  • LHGRFACP]

LHGRF off-rated flow LHGR limit

[LHGRRATED

  • LHGRFACF]

4.1 Rated Power and Flow Limit: LHGRRATED The rated conditions LHGR for all fuel are identified per Reference 1. The rated conditions LHGR for ATRIUM-10XM are shown in Figure 4.1. The rated conditions LHGR for ATRIUM-11 fuel is shown in Figure 4.2. The LHGR limits are consistent with References 2 & 3.

4.2 Off-Rated Power Dependent Limit: LHGRP LHGR limits are adjusted for off-rated power conditions using the LHGRFACP multiplier provided in Reference 1. The multiplier is split into two sub cases: turbine bypass valves in and out-of-service. The base case multipliers are shown in Figure 4.3 and Figure 4.4.

4.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Additional limits are shown in Figure 4.7 through Figure 4.10, based on temperature conditions identified in Table 4.1.

Table 4.1 Startup Feedwater Temperature Basis Power Range 1 Range 2

(% Rated)

(°F)

(°F) 23 155.0 150.0 30 162.0 157.0 40 172.0 167.0 50 182.0 177.0 Temperature

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 9 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 4.3 Off-Rated Flow Dependent Limit: LHGRF LHGR limits are adjusted for off-rated flow conditions using the LHGRFACF multiplier provided in Reference 1. Multipliers are shown in Figure 4.5 through Figure 4.6.

4.4 Equipment Out-Of-Service Corrections The limits shown in Figure 4.1 and Figure 4.2 are applicable for operation with all equipment In-Service as well as the following Equipment Out-Of-Service (EOOS) options; including combinations of the options.2F2F2F*

In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service PLUOOS Power Load Unbalance Out-Of-Service FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service or Final Feedwater Temperature Reduction RCPOOS One Recirculation Pump Out-Of-Service Off-rated power corrections shown in Figure 4.3 and Figure 4.4 are dependent on operation of the Turbine Bypass Valve system. For this reason, separate limits are to be applied for TBVIS or TBVOOS operation. The limits have no dependency on RPTOOS, PLUOOS, FHOOS/FFWTR, or SLO.

Off-rated flow corrections shown in Figure 4.5 and Figure 4.6 are bounding for all EOOS conditions.

Off-rated power corrections shown in Figure 4.7 through Figure 4.10 are also dependent on operation of the Turbine Bypass Valve system. In this case, limits support FHOOS operation during startup. These limits have no dependency on RPTOOS, PLUOOS, or SLO.

  • All equipment service conditions assume 1 SRVOOS.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 10 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0 3

6 9

12 15 0

20 40 60 80 LHGR (kW/ft)

Pellet Exposure (GWd/MTU)

Pellet LHGR Exposure Limit (GWd/MTU)

(kW/ft) 0.0 14.1 18.9 14.1 74.4 7.4 Figure 4.1 LHGRRATED for ATRIUM-10XM Fuel

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 11 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0 3

6 9

12 15 0

20 40 60 80 100 LHGR (kW/ft)

Pellet Exposure (GWd/MTU)

Pellet LHGR Exposure Limit (GWd/MTU)

(kW/ft) 0.0 13.6 21.0 13.6 53.0 10.2 80.0 3.5 Figure 4.2 LHGRRATED for ATRIUM-11 Fuel

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 12 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)

Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP

(% Rated)

(% Rated) 100.0 0.99 100.0 0.97 26.0 0.59 26.0 0.56 26.0 0.42 26.0 0.38 23.0 0.40 23.0 0.34 26.0 0.45 26.0 0.43 23.0 0.44 23.0 0.39 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.3 Base Operation LHGRFACP for ATRIUM-10XM Fuel (Independent of other EOOS conditions)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 13 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)

Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP

(% Rated)

(% Rated) 100.0 0.95 100.0 0.94 26.0 0.54 26.0 0.45 26.0 0.37 26.0 0.33 23.0 0.36 23.0 0.30 26.0 0.41 26.0 0.38 23.0 0.39 23.0 0.35 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.4 Base Operation LHGRFACP for ATRIUM-11 Fuel (Independent of other EOOS conditions)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 14 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0.50 0.55 0.60 0.65 0.70 0.75 0.80 0.85 0.90 0.95 1.00 1.05 1.10 25 35 45 55 65 75 85 95 105 LHGRFACF Core Flow (% Rated)

Core Flow LHGRFACF

(% Rated) 0.0 0.62 30.0 0.62 77.9 1.00 107.0 1.00 Figure 4.5 LHGRFACF for ATRIUM-10XM Fuel (Values bound all EOOS conditions)

(107.0% maximum core flow line is used to support 105% rated flow operation, ICF)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 15 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0.50 0.55 0.60 0.65 0.70 0.75 0.80 0.85 0.90 0.95 1.00 1.05 1.10 25 35 45 55 65 75 85 95 105 LHGRFACF Core Flow (% Rated)

Core Flow LHGRFACF

(% Rated) 0.0 0.62 30.0 0.62 78.3 1.00 107.0 1.00 Figure 4.6 LHGRFACF for ATRIUM-11 Fuel (Values bound all EOOS conditions)

(107.0% maximum core flow line is used to support 105% rated flow operation, ICF)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 16 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)

Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP

(% Rated)

(% Rated) 100.0 0.99 100.0 0.97 26.0 0.53 26.0 0.48 26.0 0.39 26.0 0.32 23.0 0.37 23.0 0.29 26.0 0.44 26.0 0.39 23.0 0.41 23.0 0.34 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.7 Startup Operation LHGRFACP for ATRIUM-10XM Fuel:

Table 4.1 Temperature Range 1 (no Feedwater heating during startup)

(Limits valid at and below 50% power)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 17 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)

Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP

(% Rated)

(% Rated) 100.0 0.99 100.0 0.97 26.0 0.53 26.0 0.48 26.0 0.39 26.0 0.32 23.0 0.37 23.0 0.29 26.0 0.44 26.0 0.39 23.0 0.41 23.0 0.34 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.8 Startup Operation LHGRFACP for ATRIUM-10XM Fuel:

Table 4.1 Temperature Range 2 (no Feedwater heating during startup)

(Limits valid at and below 50% power)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 18 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)

Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP

(% Rated)

(% Rated) 100.0 0.95 100.0 0.94 26.0 0.45 26.0 0.37 26.0 0.35 26.0 0.28 23.0 0.33 23.0 0.26 26.0 0.39 26.0 0.35 23.0 0.38 23.0 0.30 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.9 Startup Operation LHGRFACP for ATRIUM-11 Fuel:

Table 4.1 Temperature Range 1 (no Feedwater heating during startup)

(Limits valid at and below 50% power)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 19 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 20 30 40 50 60 70 80 90 100 110 LHGRFACP Core Power (% Rated)

Turbine Bypass Valve Out-of-Service, TBVOOS Turbine Bypass Valve In-Service, TBVIS TBVIS, > 50% Core Flow TBVIS, 50% Core Flow TBVOOS, > 50% Core Flow TBVOOS, 50% Core Flow Core Core Power LHGRFACP Power LHGRFACP

(% Rated)

(% Rated) 100.0 0.95 100.0 0.94 26.0 0.45 26.0 0.37 26.0 0.35 26.0 0.28 23.0 0.33 23.0 0.26 26.0 0.39 26.0 0.35 23.0 0.38 23.0 0.30 Turbine Bypass In-Service Turbine Bypass Out-of-Service Core Flow > 50% Rated Core Flow > 50% Rated Core Flow 50% Rated Core Flow 50% Rated Figure 4.10 Startup Operation LHGRFACP for ATRIUM-11 Fuel:

Table 4.1 Temperature Range 2 (no Feedwater heating during startup)

(Limits valid at and below 50% power)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 20 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 5 OLMCPR Limits (Technical Specification 3.2.2, 3.3.4.1, & 3.7.5)

OLMCPR is calculated to be the most limiting of the flow or power dependent values OLMCPR limit = MAX ( MCPRF, MCPRP )

where:

MCPRF core flow-dependent MCPR limit MCPRP power-(and flow flag) dependent MCPR limit 5.1 Flow Dependent MCPR Limit: MCPRF MCPRF limits are dependent upon core flow (% of Rated), and the max core flow limit, (Rated or Increased Core Flow, ICF). MCPRF limits are shown in Figure 5.1 for ATRIUM-10XM; Figure 5.2 for ATRIUM-11 fuel, per Reference 1. Limits are valid for all EOOS combinations. No adjustment is required for SLO conditions.

5.2 Power Dependent MCPR Limit: MCPRP MCPRP limits are dependent upon:

Core Power (% of Rated) for a specified flow flag bin.

Technical Specification Scram Speed (TSSS), Nominal Scram Speed (NSS), or Optimum Scram Speed (OSS)

Cycle Operating Exposure (NEOC, EOC, and CD - as defined in this section)

Equipment Out-Of-Service Options Two or Single recirculation Loop Operation (TLO vs. SLO)

The MCPRP limits are provided in Table 5.2 through Table 5.7, where each table contains the limits for a single fuel type, and EOOS options (for a specified scram speed and exposure range). The CMSS determines MCPRP limits, from these tables, based on linear interpolation between the specified powers.

5.2.1 Startup without Feedwater Heaters There is a range of operation during startup when the feedwater heaters are not placed into service until after the unit has reached a significant operating power level. Additional power dependent limits are shown in Table 5.8 through Table 5.11 based on temperature conditions identified in Table 4.1.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 21 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 5.2.2 Scram Speed Dependent Limits (TSSS vs. NSS vs. OSS)

MCPRP limits are provided for three different sets of assumed scram speeds. The Technical Specification Scram Speed (TSSS) MCPRP limits are applicable at all times, as long as the scram time surveillance demonstrates the times in Technical Specification Table 3.1.4-1 are met. Both Nominal Scram Speeds (NSS) and/or Optimum Scram Speeds (OSS) may be used, as long as the scram time surveillance demonstrates Table 5.1 times are applicable. 3F3F3F*

4F4F4F Table 5.1 Nominal Scram Time Basis Notch Nominal Optimum Position Scram Timing Scram Timing (index)

(seconds)

(seconds) 46 0.380 0.350 36 0.960 0.930 26 1.590 1.560 6

2.900 2.800 In demonstrating compliance with the NSS and/or OSS scram time basis, surveillance requirements from Technical Specification 3.1.4 apply; accepting the definition of SLOW rods should conform to scram speeds shown in Table 5.1. If conformance is not demonstrated, TSSS based MCPRP limits are applied.

On initial cycle startup, TSSS limits are used until the successful completion of scram timing confirms NSS and/or OSS based limits are applicable.

5.2.3 Exposure Dependent Limits Exposures are tracked on a Core Average Exposure basis (CAVEX, not Cycle Exposure).

Higher exposure MCPRP limits are NOT always more limiting. Per Reference 1, MCPRP limits are provided for the following exposure ranges:

BOC to NEOC NEOC corresponds to 30,919.0 MWd / MTU NEOC to EOCLB EOCLB corresponds to 33,270.1 MWd / MTU EOCLB to End of Coast End of Coast 34,917.8 MWd / MTU The EOCLB exposure point is not the true End-Of-Cycle exposure. Instead, it corresponds to a licensing exposure window exceeding expected end-of-full-power-life.

  • Reference 1 analysis results are based on information identified in Reference 4.

Drop out times consistent with method used to perform actual timing measurements (i.e., including pickup/dropout effects).

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 22 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

The End of Coast exposure point represents a licensing exposure point exceeding the expected end-of-cycle exposure including cycle extension options.

5.2.4 Equipment Out-Of-Service (EOOS) Options EOOS options5F5F5F* covered by MCPRP limits are given by the following:

In-Service All equipment In-Service RPTOOS EOC-Recirculation Pump Trip Out-Of-Service TBVOOS Turbine Bypass Valve(s) Out-Of-Service RPTOOS+TBVOOS Combined RPTOOS and TBVOOS PLUOOS Power Load Unbalance Out-Of-Service PLUOOS+RPTOOS Combined PLUOOS and RPTOOS PLUOOS+TBVOOS Combined PLUOOS and TBVOOS PLUOOS+TBVOOS+RPTOOS Combined PLUOOS, RPTOOS, and TBVOOS FHOOS (or FFWTR)

Feedwater Heaters Out-Of-Service (or Final Feedwater Temperature Reduction)

RCPOOS One Recirculation Pump Out-Of-Service For exposure ranges up to NEOC and EOCLB, additional combinations of MCPRP limits are also provided including FHOOS. The coast down exposure range assumes application of FFWTR. FHOOS based MCPRP limits for the coast down exposure are redundant because the temperature setdown assumption is identical with FFWTR.

5.2.5 Single-Loop-Operation (SLO) Limits When operating in RCPOOS conditions, MCPRp limits are constructed differently from the normal operating RCP conditions. The limiting event for RCPOOS is a pump seizure scenario, which sets the upper bound for allowed core power and flow 6F6F6F. This event is not impacted by scram time assumptions. Specific MCPRP limits are shown with all other limits identified per Table 5.2 through Table 5.11, using the RCPOOS equipment out-of-service descriptor.

5.2.6 Flow Flags A flow flag is simply a point on the core flow axis of the power/flow map defining core flow bins where limits are applicable. For the cycle, a 90% core flow flag is employed. Hence, there are 2 core flow bins generated. While not every flow flag bin pair has a benefit, there are two MCPRP values for each exposure bin, and each power level, (values for a bin pair may be equal).

5.2.6.1 Below Pbypass Limits Below Pbypass (26% rated power), a flow flag of 50% is utilized.

  • All equipment service conditions assume 1 SRVOOS.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 23 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 1.00 1.20 1.40 1.60 1.80 2.00 30 40 50 60 70 80 90 100 110 MCPRF Core Flow (% Rated)

Core Flow MCPRf

(% Rated) 30.0 1.64 84.0 1.40 107.0 1.40 Figure 5.1 MCPRF for ATRIUM-10XM Fuel (Values bound all EOOS conditions)

(107.0% maximum core flow line is used to support 105% rated flow operation, ICF)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 24 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 1.00 1.20 1.40 1.60 1.80 2.00 30 40 50 60 70 80 90 100 110 MCPRF Core Flow (% Rated)

Core Flow MCPRf

(% Rated) 30.0 1.70 84.0 1.45 107.0 1.45 Figure 5.2 MCPRF for ATRIUM-11 Fuel (Values bound all EOOS conditions)

(107.0% maximum core flow line is used to support 105% rated flow operation, ICF)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 25 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.2 MCPRP Limits for ATRIUM-10XM Fuel: Optimum Scram Time Basis7F7F7F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.58 1.58 1.58 1.58 1.62 1.62 90 1.61 1.61 1.61 1.61 1.69 1.69 77.6 1.74 1.74 1.74 1.74 1.81 1.81 65 1.83 1.83 1.83 1.83 1.94 1.94 50 1.93 1.93 1.93 1.93 2.00 2.00 26 2.50 2.50 2.50 2.50 2.58 2.58 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 100 1.62 1.62 1.62 1.62 90 1.69 1.69 1.69 1.69 77.6 1.81 1.81 1.81 1.81 65 1.94 1.94 1.94 1.94 50 2.00 2.00 2.00 2.00 26 2.58 2.58 2.58 2.58 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 Base Case FHOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR/FHOOS is supported for the EOCLB to End of Coast limits.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 26 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.3 MCPRP Limits for ATRIUM-11 Fuel: Optimum Scram Time Basis7F7F8F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.51 1.51 1.48 1.48 1.60 1.60 90 1.63 1.63 1.63 1.63 1.63 1.63 77.6 1.79 1.79 1.73 1.73 1.73 1.73 65 1.84 1.84 1.84 1.84 1.84 1.84 50 1.95 1.95 1.95 1.95 2.08 2.08 26 2.58 2.58 2.31 2.31 2.41 2.41 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 100 1.60 1.60 1.60 1.60 90 1.72 1.72 1.63 1.63 77.6 1.87 1.87 1.73 1.73 65 1.99 1.99 1.84 1.84 50 2.08 2.08 2.08 2.08 26 2.71 2.71 2.41 2.41 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 FHOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast Base Case

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR/FHOOS is supported for the EOCLB to End of Coast limits.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 27 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.4 MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis8F8F9F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.58 1.58 1.58 1.58 1.69 1.69 90 1.61 1.61 1.61 1.61 1.69 1.69 77.6 1.79 1.79 1.79 1.79 1.89 1.89 65 1.97 1.97 1.97 1.97 1.98 1.98 50 2.07 2.07 2.07 2.07 2.08 2.08 26 2.50 2.50 2.50 2.50 2.58 2.58 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 100 1.83 1.83 1.83 1.83 2.11 2.11 90 2.05 2.05 2.05 2.05 2.46 2.46 77.6 2.08 2.08 2.08 2.08 2.46 2.46 65 2.08 2.08 2.08 2.08 2.46 2.46 50 2.10 2.10 2.10 2.10 2.48 2.48 26 2.55 2.55 2.55 2.55 2.62 2.62 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.98 2.77 2.98 2.77 3.17 2.88 23 3.24 2.91 3.24 2.91 3.30 3.00 100 1.69 1.69 1.69 1.69 90 1.69 1.69 1.69 1.69 77.6 1.89 1.89 1.89 1.89 65 1.98 1.98 1.98 1.98 50 2.08 2.08 2.08 2.08 26 2.58 2.58 2.58 2.58 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 100 1.58 1.58 1.58 1.58 1.69 1.69 90 1.61 1.61 1.61 1.61 1.69 1.69 77.6 1.79 1.79 1.79 1.79 1.89 1.89 65 1.97 1.97 1.97 1.97 1.98 1.98 50 2.07 2.07 2.07 2.07 2.08 2.08 26 2.50 2.50 2.50 2.50 2.58 2.58 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 to End of Coast BOC to NEOC NEOC to EOCLB EOCLB Base Case TBVOOS FHOOS PLUOOS

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 28 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.4 MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis (continued)9F9F10F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.11 2.11 2.11 2.11 90 2.46 2.46 2.46 2.46 77.6 2.46 2.46 2.46 2.46 65 2.46 2.46 2.46 2.46 50 2.48 2.48 2.48 2.48 26 2.62 2.62 2.62 2.62 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.88 3.17 2.88 23 3.30 3.00 3.30 3.00 100 1.83 1.83 1.83 1.83 2.11 2.11 90 2.05 2.05 2.05 2.05 2.46 2.46 77.6 2.08 2.08 2.08 2.08 2.46 2.46 65 2.08 2.08 2.08 2.08 2.46 2.46 50 2.10 2.10 2.10 2.10 2.48 2.48 26 2.55 2.55 2.55 2.55 2.62 2.62 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.98 2.77 2.98 2.77 3.17 2.88 23 3.24 2.91 3.24 2.91 3.30 3.00 100 1.69 1.69 1.69 1.69 90 1.69 1.69 1.69 1.69 77.6 1.89 1.89 1.89 1.89 65 1.98 1.98 1.98 1.98 50 2.08 2.08 2.08 2.08 26 2.58 2.58 2.58 2.58 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 100 2.11 2.11 2.11 2.11 90 2.46 2.46 2.46 2.46 77.6 2.46 2.46 2.46 2.46 65 2.46 2.46 2.46 2.46 50 2.48 2.48 2.48 2.48 26 2.62 2.62 2.62 2.62 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.88 3.17 2.88 23 3.30 3.00 3.30 3.00 BOC NEOC EOCLB to to to End of NEOC EOCLB Coast TBVOOS FHOOS TBVOOS PLUOOS FHOOS PLUOOS TBVOOS FHOOS PLUOOS

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 29 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.4 MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis (continued)9F9F1F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.59 1.59 1.59 1.59 1.70 1.70 90 1.62 1.62 1.62 1.62 1.70 1.70 77.6 1.80 1.80 1.80 1.80 1.90 1.90 65 1.98 1.98 1.98 1.98 1.99 1.99 50 2.08 2.08 2.08 2.08 2.09 2.09 26 2.51 2.51 2.51 2.51 2.59 2.59 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.73 2.54 2.73 2.54 2.80 2.69 23 2.86 2.73 2.86 2.73 2.96 2.82 100 1.84 1.84 1.84 1.84 2.12 2.12 90 2.06 2.06 2.06 2.06 2.47 2.47 77.6 2.09 2.09 2.09 2.09 2.47 2.47 65 2.09 2.09 2.09 2.09 2.47 2.47 50 2.11 2.11 2.11 2.11 2.49 2.49 26 2.56 2.56 2.56 2.56 2.63 2.63 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.78 2.99 2.78 3.18 2.89 23 3.25 2.92 3.25 2.92 3.31 3.01 100 1.70 1.70 1.70 1.70 90 1.70 1.70 1.70 1.70 77.6 1.90 1.90 1.90 1.90 65 1.99 1.99 1.99 1.99 50 2.09 2.09 2.09 2.09 26 2.59 2.59 2.59 2.59 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.80 2.69 2.80 2.69 23 2.96 2.82 2.96 2.82 100 1.59 1.59 1.59 1.59 1.70 1.70 90 1.62 1.62 1.62 1.62 1.70 1.70 77.6 1.80 1.80 1.80 1.80 1.90 1.90 65 1.98 1.98 1.98 1.98 1.99 1.99 50 2.08 2.08 2.08 2.08 2.09 2.09 26 2.51 2.51 2.51 2.51 2.59 2.59 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.73 2.54 2.73 2.54 2.80 2.69 23 2.86 2.73 2.86 2.73 2.96 2.82 Base Case RCPOOS RCPOOS TBVOOS RCPOOS FHOOS RCPOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 30 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.4 MCPRP Limits for ATRIUM-10XM Fuel: Nominal Scram Time Basis (continued)9F9F12F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.12 2.12 2.12 2.12 90 2.47 2.47 2.47 2.47 77.6 2.47 2.47 2.47 2.47 65 2.47 2.47 2.47 2.47 50 2.49 2.49 2.49 2.49 26 2.63 2.63 2.63 2.63 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.18 2.89 3.18 2.89 23 3.31 3.01 3.31 3.01 100 1.84 1.84 1.84 1.84 2.12 2.12 90 2.06 2.06 2.06 2.06 2.47 2.47 77.6 2.09 2.09 2.09 2.09 2.47 2.47 65 2.09 2.09 2.09 2.09 2.47 2.47 50 2.11 2.11 2.11 2.11 2.49 2.49 26 2.56 2.56 2.56 2.56 2.63 2.63 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.78 2.99 2.78 3.18 2.89 23 3.25 2.92 3.25 2.92 3.31 3.01 100 1.70 1.70 1.70 1.70 90 1.70 1.70 1.70 1.70 77.6 1.90 1.90 1.90 1.90 65 1.99 1.99 1.99 1.99 50 2.09 2.09 2.09 2.09 26 2.59 2.59 2.59 2.59 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.80 2.69 2.80 2.69 23 2.96 2.82 2.96 2.82 100 2.12 2.12 2.12 2.12 90 2.47 2.47 2.47 2.47 77.6 2.47 2.47 2.47 2.47 65 2.47 2.47 2.47 2.47 50 2.49 2.49 2.49 2.49 26 2.63 2.63 2.63 2.63 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.18 2.89 3.18 2.89 23 3.31 3.01 3.31 3.01 RCPOOS TBVOOS FHOOS RCPOOS TBVOOS PLUOOS RCPOOS FHOOS PLUOOS RCPOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 31 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.5 MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis10F10F13F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.55 1.55 1.50 1.48 1.62 1.60 90 1.64 1.64 1.64 1.63 1.71 1.63 77.6 1.79 1.79 1.78 1.78 1.78 1.78 65 1.91 1.91 1.91 1.79 1.99 1.79 50 2.07 2.07 2.07 2.07 2.19 2.19 26 2.65 2.65 2.31 2.31 2.41 2.41 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 100 1.81 1.81 1.81 1.81 1.86 1.86 90 1.93 1.93 1.93 1.93 2.01 2.01 77.6 2.14 2.14 2.14 2.14 2.23 2.23 65 2.19 2.19 2.19 2.19 2.23 2.23 50 2.21 2.21 2.21 2.21 2.27 2.27 26 2.68 2.68 2.68 2.68 2.82 2.82 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.95 2.78 2.95 2.78 3.16 2.86 23 3.27 2.90 3.27 2.90 3.40 2.96 100 1.67 1.67 1.62 1.60 90 1.72 1.72 1.71 1.63 77.6 1.87 1.87 1.78 1.78 65 1.99 1.99 1.99 1.79 50 2.19 2.19 2.19 2.19 26 2.77 2.77 2.41 2.41 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 100 1.55 1.55 1.50 1.50 1.62 1.62 90 1.64 1.64 1.64 1.64 1.71 1.71 77.6 1.79 1.79 1.78 1.78 1.78 1.78 65 1.91 1.91 1.91 1.91 1.99 1.99 50 2.07 2.07 2.07 2.07 2.19 2.19 26 2.65 2.65 2.31 2.31 2.41 2.41 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 Base Case TBVOOS FHOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 32 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.5 MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis (continued)1F1F14F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.86 1.86 1.86 1.86 90 2.01 2.01 2.01 2.01 77.6 2.23 2.23 2.23 2.23 65 2.23 2.23 2.23 2.23 50 2.27 2.27 2.27 2.27 26 2.82 2.82 2.82 2.82 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.16 2.86 3.16 2.86 23 3.40 2.96 3.40 2.96 100 1.81 1.81 1.81 1.81 1.86 1.86 90 1.93 1.93 1.93 1.93 2.01 2.01 77.6 2.14 2.14 2.14 2.14 2.23 2.23 65 2.19 2.19 2.19 2.19 2.23 2.23 50 2.21 2.21 2.21 2.21 2.27 2.27 26 2.68 2.68 2.68 2.68 2.82 2.82 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.95 2.78 2.95 2.78 3.16 2.86 23 3.27 2.90 3.27 2.90 3.40 2.96 100 1.67 1.67 1.62 1.62 90 1.72 1.72 1.71 1.71 77.6 1.87 1.87 1.78 1.78 65 1.99 1.99 1.99 1.99 50 2.19 2.19 2.19 2.19 26 2.77 2.77 2.41 2.41 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 100 1.86 1.86 1.86 1.86 90 2.01 2.01 2.01 2.01 77.6 2.23 2.23 2.23 2.23 65 2.23 2.23 2.23 2.23 50 2.27 2.27 2.27 2.27 26 2.82 2.82 2.82 2.82 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.16 2.86 3.16 2.86 23 3.40 2.96 3.40 2.96 TBVOOS FHOOS TBVOOS PLUOOS FHOOS PLUOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 33 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.5 MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis (continued)1F1F15F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.56 1.56 1.51 1.49 1.63 1.61 90 1.65 1.65 1.65 1.64 1.72 1.64 77.6 1.80 1.80 1.79 1.79 1.79 1.79 65 1.92 1.92 1.92 1.80 2.00 1.80 50 2.08 2.08 2.08 2.08 2.20 2.20 26 2.66 2.66 2.32 2.32 2.42 2.42 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.84 2.58 2.84 2.58 2.91 2.67 23 2.95 2.61 2.95 2.61 3.06 2.71 100 1.82 1.82 1.82 1.82 1.87 1.87 90 1.94 1.94 1.94 1.94 2.02 2.02 77.6 2.15 2.15 2.15 2.15 2.24 2.24 65 2.20 2.20 2.20 2.20 2.24 2.24 50 2.22 2.22 2.22 2.22 2.28 2.28 26 2.69 2.69 2.69 2.69 2.83 2.83 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.96 2.79 2.96 2.79 3.17 2.87 23 3.28 2.91 3.28 2.91 3.41 2.97 100 1.68 1.68 1.63 1.61 90 1.73 1.73 1.72 1.64 77.6 1.88 1.88 1.79 1.79 65 2.00 2.00 2.00 1.80 50 2.20 2.20 2.20 2.20 26 2.78 2.78 2.42 2.42 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.91 2.67 2.91 2.67 23 3.06 2.71 3.06 2.71 100 1.56 1.56 1.51 1.51 1.63 1.63 90 1.65 1.65 1.65 1.65 1.72 1.72 77.6 1.80 1.80 1.79 1.79 1.79 1.79 65 1.92 1.92 1.92 1.92 2.00 2.00 50 2.08 2.08 2.08 2.08 2.20 2.20 26 2.66 2.66 2.32 2.32 2.42 2.42 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.84 2.58 2.84 2.58 2.91 2.67 23 2.95 2.61 2.95 2.61 3.06 2.71 Base Case RCPOOS RCPOOS TBVOOS RCPOOS FHOOS RCPOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 34 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.5 MCPRP Limits for ATRIUM-11 Fuel: Nominal Scram Time Basis (continued)1F1F16F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.87 1.87 1.87 1.87 90 2.02 2.02 2.02 2.02 77.6 2.24 2.24 2.24 2.24 65 2.24 2.24 2.24 2.24 50 2.28 2.28 2.28 2.28 26 2.83 2.83 2.83 2.83 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.87 3.17 2.87 23 3.41 2.97 3.41 2.97 100 1.82 1.82 1.82 1.82 1.87 1.87 90 1.94 1.94 1.94 1.94 2.02 2.02 77.6 2.15 2.15 2.15 2.15 2.24 2.24 65 2.20 2.20 2.20 2.20 2.24 2.24 50 2.22 2.22 2.22 2.22 2.28 2.28 26 2.69 2.69 2.69 2.69 2.83 2.83 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.96 2.79 2.96 2.79 3.17 2.87 23 3.28 2.91 3.28 2.91 3.41 2.97 100 1.68 1.68 1.63 1.63 90 1.73 1.73 1.72 1.72 77.6 1.88 1.88 1.79 1.79 65 2.00 2.00 2.00 2.00 50 2.20 2.20 2.20 2.20 26 2.78 2.78 2.42 2.42 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.91 2.67 2.91 2.67 23 3.06 2.71 3.06 2.71 100 1.87 1.87 1.87 1.87 90 2.02 2.02 2.02 2.02 77.6 2.24 2.24 2.24 2.24 65 2.24 2.24 2.24 2.24 50 2.28 2.28 2.28 2.28 26 2.83 2.83 2.83 2.83 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.87 3.17 2.87 23 3.41 2.97 3.41 2.97 RCPOOS TBVOOS FHOOS RCPOOS TBVOOS PLUOOS RCPOOS FHOOS PLUOOS RCPOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 35 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.6 MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis8F8F17F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.65 1.65 1.65 1.65 1.84 1.84 90 1.75 1.75 1.75 1.75 1.87 1.87 77.6 1.94 1.94 1.94 1.94 2.04 2.04 65 2.12 2.12 2.12 2.12 2.12 2.12 50 2.24 2.24 2.24 2.24 2.24 2.24 26 2.60 2.60 2.60 2.60 2.69 2.69 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 100 2.60 2.60 2.60 2.60 2.82 2.82 90 2.62 2.62 2.62 2.62 2.82 2.82 77.6 2.62 2.62 2.62 2.62 2.82 2.82 65 2.62 2.62 2.62 2.62 2.82 2.82 50 2.64 2.64 2.64 2.64 2.84 2.84 26 2.66 2.66 2.66 2.66 2.86 2.86 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.98 2.77 2.98 2.77 3.17 2.88 23 3.24 2.91 3.24 2.91 3.30 3.00 100 1.84 1.84 1.84 1.84 90 1.87 1.87 1.87 1.87 77.6 2.04 2.04 2.04 2.04 65 2.12 2.12 2.12 2.12 50 2.24 2.24 2.24 2.24 26 2.69 2.69 2.69 2.69 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 100 1.65 1.65 1.65 1.65 1.84 1.84 90 1.75 1.75 1.75 1.75 1.87 1.87 77.6 1.94 1.94 1.94 1.94 2.04 2.04 65 2.12 2.12 2.12 2.12 2.12 2.12 50 2.24 2.24 2.24 2.24 2.24 2.24 26 2.60 2.60 2.60 2.60 2.69 2.69 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.72 2.53 2.72 2.53 2.79 2.68 23 2.85 2.72 2.85 2.72 2.95 2.81 Base Case TBVOOS FHOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 36 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.6 MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis (continued)9F9F18F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.82 2.82 2.82 2.82 90 2.82 2.82 2.82 2.82 77.6 2.82 2.82 2.82 2.82 65 2.82 2.82 2.82 2.82 50 2.84 2.84 2.84 2.84 26 2.86 2.86 2.86 2.86 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.88 3.17 2.88 23 3.30 3.00 3.30 3.00 100 2.60 2.60 2.60 2.60 2.82 2.82 90 2.62 2.62 2.62 2.62 2.82 2.82 77.6 2.62 2.62 2.62 2.62 2.82 2.82 65 2.62 2.62 2.62 2.62 2.82 2.82 50 2.64 2.64 2.64 2.64 2.84 2.84 26 2.66 2.66 2.66 2.66 2.86 2.86 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.98 2.77 2.98 2.77 3.17 2.88 23 3.24 2.91 3.24 2.91 3.30 3.00 100 1.84 1.84 1.84 1.84 90 1.87 1.87 1.87 1.87 77.6 2.04 2.04 2.04 2.04 65 2.12 2.12 2.12 2.12 50 2.24 2.24 2.24 2.24 26 2.69 2.69 2.69 2.69 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.79 2.68 2.79 2.68 23 2.95 2.81 2.95 2.81 100 2.82 2.82 2.82 2.82 90 2.82 2.82 2.82 2.82 77.6 2.82 2.82 2.82 2.82 65 2.82 2.82 2.82 2.82 50 2.84 2.84 2.84 2.84 26 2.86 2.86 2.86 2.86 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.88 3.17 2.88 23 3.30 3.00 3.30 3.00 TBVOOS FHOOS TBVOOS PLUOOS FHOOS PLUOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 37 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.6 MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis (continued)9F9F19F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.66 1.66 1.66 1.66 1.85 1.85 90 1.76 1.76 1.76 1.76 1.88 1.88 77.6 1.95 1.95 1.95 1.95 2.05 2.05 65 2.13 2.13 2.13 2.13 2.13 2.13 50 2.25 2.25 2.25 2.25 2.25 2.25 26 2.61 2.61 2.61 2.61 2.70 2.70 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.73 2.54 2.73 2.54 2.80 2.69 23 2.86 2.73 2.86 2.73 2.96 2.82 100 2.61 2.61 2.61 2.61 2.83 2.83 90 2.63 2.63 2.63 2.63 2.83 2.83 77.6 2.63 2.63 2.63 2.63 2.83 2.83 65 2.63 2.63 2.63 2.63 2.83 2.83 50 2.65 2.65 2.65 2.65 2.85 2.85 26 2.67 2.67 2.67 2.67 2.87 2.87 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.78 2.99 2.78 3.18 2.89 23 3.25 2.92 3.25 2.92 3.31 3.01 100 1.85 1.85 1.85 1.85 90 1.88 1.88 1.88 1.88 77.6 2.05 2.05 2.05 2.05 65 2.13 2.13 2.13 2.13 50 2.25 2.25 2.25 2.25 26 2.70 2.70 2.70 2.70 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.80 2.69 2.80 2.69 23 2.96 2.82 2.96 2.82 100 1.66 1.66 1.66 1.66 1.85 1.85 90 1.76 1.76 1.76 1.76 1.88 1.88 77.6 1.95 1.95 1.95 1.95 2.05 2.05 65 2.13 2.13 2.13 2.13 2.13 2.13 50 2.25 2.25 2.25 2.25 2.25 2.25 26 2.61 2.61 2.61 2.61 2.70 2.70 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.73 2.54 2.73 2.54 2.80 2.69 23 2.86 2.73 2.86 2.73 2.96 2.82 Base Case RCPOOS RCPOOS TBVOOS RCPOOS FHOOS RCPOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 38 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.6 MCPRP Limits for ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis (continued)9F9F20F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.83 2.83 2.83 2.83 90 2.83 2.83 2.83 2.83 77.6 2.83 2.83 2.83 2.83 65 2.83 2.83 2.83 2.83 50 2.85 2.85 2.85 2.85 26 2.87 2.87 2.87 2.87 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.18 2.89 3.18 2.89 23 3.31 3.01 3.31 3.01 100 2.61 2.61 2.61 2.61 2.83 2.83 90 2.63 2.63 2.63 2.63 2.83 2.83 77.6 2.63 2.63 2.63 2.63 2.83 2.83 65 2.63 2.63 2.63 2.63 2.83 2.83 50 2.65 2.65 2.65 2.65 2.85 2.85 26 2.67 2.67 2.67 2.67 2.87 2.87 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.78 2.99 2.78 3.18 2.89 23 3.25 2.92 3.25 2.92 3.31 3.01 100 1.85 1.85 1.85 1.85 90 1.88 1.88 1.88 1.88 77.6 2.05 2.05 2.05 2.05 65 2.13 2.13 2.13 2.13 50 2.25 2.25 2.25 2.25 26 2.70 2.70 2.70 2.70 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.80 2.69 2.80 2.69 23 2.96 2.82 2.96 2.82 100 2.83 2.83 2.83 2.83 90 2.83 2.83 2.83 2.83 77.6 2.83 2.83 2.83 2.83 65 2.83 2.83 2.83 2.83 50 2.85 2.85 2.85 2.85 26 2.87 2.87 2.87 2.87 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.18 2.89 3.18 2.89 23 3.31 3.01 3.31 3.01 RCPOOS TBVOOS FHOOS RCPOOS TBVOOS PLUOOS RCPOOS FHOOS PLUOOS RCPOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 39 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.7 MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis10F10F21F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.61 1.61 1.57 1.55 1.62 1.60 90 1.71 1.71 1.71 1.68 1.76 1.68 77.6 1.86 1.86 1.80 1.79 1.80 1.79 65 2.00 2.00 2.00 1.82 2.10 1.82 50 2.22 2.22 2.22 2.22 2.25 2.25 26 2.77 2.77 2.31 2.31 2.42 2.42 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 100 2.55 2.55 2.55 2.55 2.60 2.60 90 2.55 2.55 2.55 2.55 2.77 2.77 77.6 2.55 2.55 2.55 2.55 2.77 2.77 65 2.55 2.55 2.55 2.55 2.77 2.77 50 2.57 2.57 2.57 2.57 2.79 2.79 26 2.86 2.86 2.86 2.86 2.99 2.99 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.95 2.78 2.95 2.78 3.16 2.86 23 3.27 2.90 3.27 2.90 3.40 2.96 100 1.78 1.78 1.62 1.60 90 1.89 1.89 1.76 1.68 77.6 1.97 1.97 1.80 1.79 65 2.10 2.10 2.10 1.82 50 2.25 2.25 2.25 2.25 26 2.90 2.90 2.42 2.42 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 100 1.61 1.61 1.57 1.57 1.62 1.62 90 1.71 1.71 1.71 1.71 1.76 1.76 77.6 1.86 1.86 1.80 1.80 1.80 1.80 65 2.00 2.00 2.00 2.00 2.10 2.10 50 2.22 2.22 2.22 2.22 2.25 2.25 26 2.77 2.77 2.31 2.31 2.42 2.42 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.83 2.57 2.83 2.57 2.90 2.66 23 2.94 2.60 2.94 2.60 3.05 2.70 Base Case TBVOOS FHOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 40 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.7 MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis (continued)1F1F2F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.60 2.60 2.60 2.60 90 2.77 2.77 2.77 2.77 77.6 2.77 2.77 2.77 2.77 65 2.77 2.77 2.77 2.77 50 2.79 2.79 2.79 2.79 26 2.99 2.99 2.99 2.99 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.16 2.86 3.16 2.86 23 3.40 2.96 3.40 2.96 100 2.55 2.55 2.55 2.55 2.60 2.60 90 2.55 2.55 2.55 2.55 2.77 2.77 77.6 2.55 2.55 2.55 2.55 2.77 2.77 65 2.55 2.55 2.55 2.55 2.77 2.77 50 2.57 2.57 2.57 2.57 2.79 2.79 26 2.86 2.86 2.86 2.86 2.99 2.99 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.95 2.78 2.95 2.78 3.16 2.86 23 3.27 2.90 3.27 2.90 3.40 2.96 100 1.78 1.78 1.62 1.62 90 1.89 1.89 1.76 1.76 77.6 1.97 1.97 1.80 1.80 65 2.10 2.10 2.10 2.10 50 2.25 2.25 2.25 2.25 26 2.90 2.90 2.42 2.42 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.90 2.66 2.90 2.66 23 3.05 2.70 3.05 2.70 100 2.60 2.60 2.60 2.60 90 2.77 2.77 2.77 2.77 77.6 2.77 2.77 2.77 2.77 65 2.77 2.77 2.77 2.77 50 2.79 2.79 2.79 2.79 26 2.99 2.99 2.99 2.99 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.16 2.86 3.16 2.86 23 3.40 2.96 3.40 2.96 TBVOOS FHOOS TBVOOS PLUOOS FHOOS PLUOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 41 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.7 MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis (continued)1F1F23F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 1.62 1.62 1.58 1.56 1.63 1.61 90 1.72 1.72 1.72 1.69 1.77 1.69 77.6 1.87 1.87 1.81 1.80 1.81 1.80 65 2.01 2.01 2.01 1.83 2.11 1.83 50 2.23 2.23 2.23 2.23 2.26 2.26 26 2.78 2.78 2.32 2.32 2.43 2.43 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.84 2.58 2.84 2.58 2.91 2.67 23 2.95 2.61 2.95 2.61 3.06 2.71 100 2.56 2.56 2.56 2.56 2.61 2.61 90 2.56 2.56 2.56 2.56 2.78 2.78 77.6 2.56 2.56 2.56 2.56 2.78 2.78 65 2.56 2.56 2.56 2.56 2.78 2.78 50 2.58 2.58 2.58 2.58 2.80 2.80 26 2.87 2.87 2.87 2.87 3.00 3.00 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.96 2.79 2.96 2.79 3.17 2.87 23 3.28 2.91 3.28 2.91 3.41 2.97 100 1.79 1.79 1.63 1.61 90 1.90 1.90 1.77 1.69 77.6 1.98 1.98 1.81 1.80 65 2.11 2.11 2.11 1.83 50 2.26 2.26 2.26 2.26 26 2.91 2.91 2.43 2.43 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.91 2.67 2.91 2.67 23 3.06 2.71 3.06 2.71 100 1.62 1.62 1.58 1.58 1.63 1.63 90 1.72 1.72 1.72 1.72 1.77 1.77 77.6 1.87 1.87 1.81 1.81 1.81 1.81 65 2.01 2.01 2.01 2.01 2.11 2.11 50 2.23 2.23 2.23 2.23 2.26 2.26 26 2.78 2.78 2.32 2.32 2.43 2.43 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.84 2.58 2.84 2.58 2.91 2.67 23 2.95 2.61 2.95 2.61 3.06 2.71 Base Case RCPOOS RCPOOS TBVOOS RCPOOS FHOOS RCPOOS PLUOOS BOC NEOC EOCLB to to to End of NEOC EOCLB Coast

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 42 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.7 MCPRP Limits for ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis (continued)1F1F24F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.61 2.61 2.61 2.61 90 2.78 2.78 2.78 2.78 77.6 2.78 2.78 2.78 2.78 65 2.78 2.78 2.78 2.78 50 2.80 2.80 2.80 2.80 26 3.00 3.00 3.00 3.00 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.87 3.17 2.87 23 3.41 2.97 3.41 2.97 100 2.56 2.56 2.56 2.56 2.61 2.61 90 2.56 2.56 2.56 2.56 2.78 2.78 77.6 2.56 2.56 2.56 2.56 2.78 2.78 65 2.56 2.56 2.56 2.56 2.78 2.78 50 2.58 2.58 2.58 2.58 2.80 2.80 26 2.87 2.87 2.87 2.87 3.00 3.00 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.96 2.79 2.96 2.79 3.17 2.87 23 3.28 2.91 3.28 2.91 3.41 2.97 100 1.79 1.79 1.63 1.63 90 1.90 1.90 1.77 1.77 77.6 1.98 1.98 1.81 1.81 65 2.11 2.11 2.11 2.11 50 2.26 2.26 2.26 2.26 26 2.91 2.91 2.43 2.43 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.91 2.67 2.91 2.67 23 3.06 2.71 3.06 2.71 100 2.61 2.61 2.61 2.61 90 2.78 2.78 2.78 2.78 77.6 2.78 2.78 2.78 2.78 65 2.78 2.78 2.78 2.78 50 2.80 2.80 2.80 2.80 26 3.00 3.00 3.00 3.00 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.17 2.87 3.17 2.87 23 3.41 2.97 3.41 2.97 RCPOOS TBVOOS FHOOS RCPOOS TBVOOS PLUOOS RCPOOS FHOOS PLUOOS RCPOOS TBVOOS FHOOS PLUOOS NEOC EOCLB Coast BOC NEOC EOCLB to to to End of

  • All limits, including Base Case, support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

FFWTR and FHOOS assume the same value of temperature drop. Consequently, FHOOS limits are not provided for EOCLB to End of COAST due to redundancy.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 43 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.8 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel: Nominal Scram Time Basis12F12F25F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.23 2.23 2.23 2.23 2.23 2.23 50 2.23 2.23 2.23 2.23 2.23 2.23 26 2.84 2.84 2.84 2.84 2.84 2.84 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.68 2.99 2.68 2.99 2.68 23 2.99 2.81 2.99 2.81 2.99 2.81 100 2.48 2.48 2.48 2.48 2.48 2.48 50 2.48 2.48 2.48 2.48 2.48 2.48 26 2.84 2.84 2.84 2.84 2.84 2.84 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.48 3.17 3.48 3.17 3.48 3.17 23 3.62 3.17 3.62 3.17 3.62 3.17 100 2.23 2.23 2.23 2.23 2.23 2.23 50 2.23 2.23 2.23 2.23 2.23 2.23 26 2.84 2.84 2.84 2.84 2.84 2.84 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.68 2.99 2.68 2.99 2.68 23 2.99 2.81 2.99 2.81 2.99 2.81 100 2.48 2.48 2.48 2.48 2.48 2.48 50 2.48 2.48 2.48 2.48 2.48 2.48 26 2.84 2.84 2.84 2.84 2.84 2.84 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.48 3.17 3.48 3.17 3.48 3.17 23 3.62 3.17 3.62 3.17 3.62 3.17 Startup FHOOS 2 TBVIS Startup FHOOS 2 TBVOOS NEOC EOCLB Coast Startup FHOOS 1 TBVIS Startup FHOOS 1 TBVOOS BOC NEOC EOCLB to to to End of

  • Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

Limits are applicable for all other EOOS scenarios, apart from TBV.

Limits are only valid up to 50% rated core power.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 44 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.8 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel: Nominal Scram Time Basis (continued)12F12F26F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.24 2.24 2.24 2.24 2.24 2.24 50 2.24 2.24 2.24 2.24 2.24 2.24 26 2.85 2.85 2.85 2.85 2.85 2.85 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.00 2.69 3.00 2.69 3.00 2.69 23 3.00 2.82 3.00 2.82 3.00 2.82 100 2.49 2.49 2.49 2.49 2.49 2.49 50 2.49 2.49 2.49 2.49 2.49 2.49 26 2.85 2.85 2.85 2.85 2.85 2.85 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.49 3.18 3.49 3.18 3.49 3.18 23 3.63 3.18 3.63 3.18 3.63 3.18 100 2.24 2.24 2.24 2.24 2.24 2.24 50 2.24 2.24 2.24 2.24 2.24 2.24 26 2.85 2.85 2.85 2.85 2.85 2.85 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.00 2.69 3.00 2.69 3.00 2.69 23 3.00 2.82 3.00 2.82 3.00 2.82 100 2.49 2.49 2.49 2.49 2.49 2.49 50 2.49 2.49 2.49 2.49 2.49 2.49 26 2.85 2.85 2.85 2.85 2.85 2.85 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.49 3.18 3.49 3.18 3.49 3.18 23 3.63 3.18 3.63 3.18 3.63 3.18 Startup RCPOOS FHOOS 1 TBVIS Startup RCPOOS FHOOS 1 TBVOOS Startup RCPOOS FHOOS 2 TBVIS Startup RCPOOS FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC

  • Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

Limits are applicable for all other EOOS scenarios, apart from TBV.

Limits are only valid up to 50% rated core power.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 45 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.9 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Nominal Scram Time Basis13F13F27F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.21 2.21 2.21 2.21 2.21 2.21 50 2.21 2.21 2.21 2.21 2.21 2.21 26 2.77 2.77 2.77 2.77 2.77 2.77 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.08 2.66 3.08 2.66 3.08 2.66 23 3.19 2.70 3.19 2.70 3.19 2.70 100 2.44 2.44 2.44 2.44 2.44 2.44 50 2.44 2.44 2.44 2.44 2.44 2.44 26 3.03 3.03 3.03 3.03 3.03 3.03 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.39 3.03 3.39 3.03 3.39 3.03 23 3.63 3.03 3.63 3.03 3.63 3.03 100 2.21 2.21 2.21 2.21 2.21 2.21 50 2.21 2.21 2.21 2.21 2.21 2.21 26 2.77 2.77 2.77 2.77 2.77 2.77 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.08 2.66 3.08 2.66 3.08 2.66 23 3.19 2.70 3.19 2.70 3.19 2.70 100 2.44 2.44 2.44 2.44 2.44 2.44 50 2.44 2.44 2.44 2.44 2.44 2.44 26 3.03 3.03 3.03 3.03 3.03 3.03 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.39 3.03 3.39 3.03 3.39 3.03 23 3.63 3.03 3.63 3.03 3.63 3.03 Startup FHOOS 1 TBVIS Startup FHOOS 1 TBVOOS Startup FHOOS 2 TBVIS Startup FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC

  • Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

Limits are applicable for all other EOOS scenarios, apart from TBV.

Limits are only valid up to 50% rated core power.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 46 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.9 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Nominal Scram Time Basis (continued)13F13F28F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.22 2.22 2.22 2.22 2.22 2.22 50 2.22 2.22 2.22 2.22 2.22 2.22 26 2.78 2.78 2.78 2.78 2.78 2.78 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.09 2.67 3.09 2.67 3.09 2.67 23 3.20 2.71 3.20 2.71 3.20 2.71 100 2.45 2.45 2.45 2.45 2.45 2.45 50 2.45 2.45 2.45 2.45 2.45 2.45 26 3.04 3.04 3.04 3.04 3.04 3.04 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.40 3.04 3.40 3.04 3.40 3.04 23 3.64 3.04 3.64 3.04 3.64 3.04 100 2.22 2.22 2.22 2.22 2.22 2.22 50 2.22 2.22 2.22 2.22 2.22 2.22 26 2.78 2.78 2.78 2.78 2.78 2.78 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.09 2.67 3.09 2.67 3.09 2.67 23 3.20 2.71 3.20 2.71 3.20 2.71 100 2.45 2.45 2.45 2.45 2.45 2.45 50 2.45 2.45 2.45 2.45 2.45 2.45 26 3.04 3.04 3.04 3.04 3.04 3.04 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.40 3.04 3.40 3.04 3.40 3.04 23 3.64 3.04 3.64 3.04 3.64 3.04 Startup RCPOOS FHOOS 1 TBVIS Startup RCPOOS FHOOS 1 TBVOOS Startup RCPOOS FHOOS 2 TBVIS Startup RCPOOS FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC

  • Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

Limits are applicable for all other EOOS scenarios, apart from TBV.

Limits are only valid up to 50% rated core power.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 47 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.10 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis14F14F29F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.38 2.38 2.38 2.38 2.38 2.38 50 2.38 2.38 2.38 2.38 2.38 2.38 26 2.94 2.94 2.94 2.94 2.94 2.94 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.68 2.99 2.68 2.99 2.68 23 2.99 2.81 2.99 2.81 2.99 2.81 100 2.84 2.84 2.84 2.84 2.84 2.84 50 2.84 2.84 2.84 2.84 2.84 2.84 26 2.96 2.96 2.96 2.96 2.96 2.96 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.48 3.17 3.48 3.17 3.48 3.17 23 3.62 3.17 3.62 3.17 3.62 3.17 100 2.38 2.38 2.38 2.38 2.38 2.38 50 2.38 2.38 2.38 2.38 2.38 2.38 26 2.94 2.94 2.94 2.94 2.94 2.94 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 2.99 2.68 2.99 2.68 2.99 2.68 23 2.99 2.81 2.99 2.81 2.99 2.81 100 2.84 2.84 2.84 2.84 2.84 2.84 50 2.84 2.84 2.84 2.84 2.84 2.84 26 2.96 2.96 2.96 2.96 2.96 2.96 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.48 3.17 3.48 3.17 3.48 3.17 23 3.62 3.17 3.62 3.17 3.62 3.17 Startup FHOOS 1 TBVIS Startup FHOOS 1 TBVOOS Startup FHOOS 2 TBVIS Startup FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC

  • Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

Limits are applicable for all other EOOS scenarios, apart from TBV.

Limits are only valid up to 50% rated core power.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 48 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.10 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-10XM Fuel: Tech. Spec. Scram Time Basis (continued)14F14F30F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.39 2.39 2.39 2.39 2.39 2.39 50 2.39 2.39 2.39 2.39 2.39 2.39 26 2.95 2.95 2.95 2.95 2.95 2.95 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.00 2.69 3.00 2.69 3.00 2.69 23 3.00 2.82 3.00 2.82 3.00 2.82 100 2.85 2.85 2.85 2.85 2.85 2.85 50 2.85 2.85 2.85 2.85 2.85 2.85 26 2.97 2.97 2.97 2.97 2.97 2.97 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.49 3.18 3.49 3.18 3.49 3.18 23 3.63 3.18 3.63 3.18 3.63 3.18 100 2.39 2.39 2.39 2.39 2.39 2.39 50 2.39 2.39 2.39 2.39 2.39 2.39 26 2.95 2.95 2.95 2.95 2.95 2.95 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.00 2.69 3.00 2.69 3.00 2.69 23 3.00 2.82 3.00 2.82 3.00 2.82 100 2.85 2.85 2.85 2.85 2.85 2.85 50 2.85 2.85 2.85 2.85 2.85 2.85 26 2.97 2.97 2.97 2.97 2.97 2.97 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.49 3.18 3.49 3.18 3.49 3.18 23 3.63 3.18 3.63 3.18 3.63 3.18 Startup RCPOOS FHOOS 1 TBVIS Startup RCPOOS FHOOS 1 TBVOOS Startup RCPOOS FHOOS 2 TBVIS Startup RCPOOS FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC

  • Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

Limits are applicable for all other EOOS scenarios, apart from TBV.

Limits are only valid up to 50% rated core power.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 49 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.11 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis15F15F31F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.36 2.36 2.36 2.36 2.36 2.36 50 2.36 2.36 2.36 2.36 2.36 2.36 26 2.90 2.90 2.90 2.90 2.90 2.90 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.08 2.66 3.08 2.66 3.08 2.66 23 3.19 2.70 3.19 2.70 3.19 2.70 100 2.79 2.79 2.79 2.79 2.79 2.79 50 2.79 2.79 2.79 2.79 2.79 2.79 26 3.22 3.22 3.22 3.22 3.22 3.22 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.39 3.03 3.39 3.03 3.39 3.03 23 3.63 3.03 3.63 3.03 3.63 3.03 100 2.36 2.36 2.36 2.36 2.36 2.36 50 2.36 2.36 2.36 2.36 2.36 2.36 26 2.90 2.90 2.90 2.90 2.90 2.90 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.08 2.66 3.08 2.66 3.08 2.66 23 3.19 2.70 3.19 2.70 3.19 2.70 100 2.79 2.79 2.79 2.79 2.79 2.79 50 2.79 2.79 2.79 2.79 2.79 2.79 26 3.22 3.22 3.22 3.22 3.22 3.22 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.39 3.03 3.39 3.03 3.39 3.03 23 3.63 3.03 3.63 3.03 3.63 3.03 Startup FHOOS 1 TBVIS Startup FHOOS 1 TBVOOS Startup FHOOS 2 TBVIS Startup FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC

  • Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

Limits are applicable for all other EOOS scenarios, apart from TBV.

Limits are only valid up to 50% rated core power.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 50 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 5.11 Startup Operation MCPRP Limits for Table 4.1 Temperature Ranges, ATRIUM-11 Fuel: Tech. Spec. Scram Time Basis (continued)15F15F32F*

Pow er

(% of rated)

Flow Flag -->

> 90%F 90%F > 90%F 90%F > 90%F 90%F 100 2.37 2.37 2.37 2.37 2.37 2.37 50 2.37 2.37 2.37 2.37 2.37 2.37 26 2.91 2.91 2.91 2.91 2.91 2.91 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.09 2.67 3.09 2.67 3.09 2.67 23 3.20 2.71 3.20 2.71 3.20 2.71 100 2.80 2.80 2.80 2.80 2.80 2.80 50 2.80 2.80 2.80 2.80 2.80 2.80 26 3.23 3.23 3.23 3.23 3.23 3.23 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.40 3.04 3.40 3.04 3.40 3.04 23 3.64 3.04 3.64 3.04 3.64 3.04 100 2.37 2.37 2.37 2.37 2.37 2.37 50 2.37 2.37 2.37 2.37 2.37 2.37 26 2.91 2.91 2.91 2.91 2.91 2.91 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.09 2.67 3.09 2.67 3.09 2.67 23 3.20 2.71 3.20 2.71 3.20 2.71 100 2.80 2.80 2.80 2.80 2.80 2.80 50 2.80 2.80 2.80 2.80 2.80 2.80 26 3.23 3.23 3.23 3.23 3.23 3.23 NDS Flow Flag

> 50%F 50%F > 50%F 50%F > 50%F 50%F 26 3.40 3.04 3.40 3.04 3.40 3.04 23 3.64 3.04 3.64 3.04 3.64 3.04 Startup RCPOOS FHOOS 1 TBVIS Startup RCPOOS FHOOS 1 TBVOOS Startup RCPOOS FHOOS 2 TBVIS Startup RCPOOS FHOOS 2 TBVOOS NEOC EOCLB to to to End of NEOC EOCLB Coast BOC

  • Limits support RPTOOS operation; operation is supported for any combination of 1 MSRVOOS, up to 2 TIPOOS (or the equivalent number of TIP channels), and up to 50% of the LPRMs out-of-service.

Limits are applicable for all other EOOS scenarios, apart from TBV.

Limits are only valid up to 50% rated core power.

RCPOOS limits are only valid up to 43.75% rated core power, 50% rated core flow, and an active recirculation drive flow of 17.73 Mlbm/hr.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 51 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 6 Thermal-Hydraulic Stability Protection (Technical Specification 3.3.1.1)

Technical Specification Table 3.3.1.1-1, Function 2f, identifies the function.

Instrument setpoints are established, such that the reactor will be tripped before an oscillation can grow to the point where the SLMCPR is exceeded. With application of Reference 31, the DSS-CD stability solution as originally per Reference 32 is now used in a hybrid manner, per Reference 27. The DSS-CD SAD setpoint is 1.10 for TLO and SLO.

New analyses have been developed based on Reference 27. With the implementation of the MELLLA+ operating domain expansion, an ABSP trip is required when the OPRM is out-of-service. The ABSP trip settings define a region of the power to flow map within which an automatic reactor scram occurs. The ABSP trip settings are provided in Table 6.1. If both the OPRM and ABSP are out-of-service, operation within the MELLLA+ domain is not allowed and the MBSP Regions provide stability protection. Table 6.2 and Table 6.3 provide the endpoints for the MBSP regions for nominal and reduced feedwater temperature conditions.

Table 6.1 ABSP Setpoints for the Scram Region Parameter Symbol Setting Value (unit)

Comments Slope for Trip mTRIP 2.00 (% RTP/% RDF)

Slope of ABSP APRM low Flow Biased Trip Linear Segment Constant Power Line for Trip PBSP-TRIP 35.0 (% RTP)

ABSP APRM Flow Biased Trip Setpoint Power Intercept. Constant Power Line for Trip from Zero Drive Flow to Flow Breakpoint Value Constant Flow Line for Trip WBSP-TRIP 49 (% RDF)

ABSP APRM Flow Biased Trip Setpoint Drive Flow Intercept.

Constant Flow Line for Trip (see Note 1 below)

Flow Breakpoint WBSP-BREAK 30.0 (% RDF)

Flow Breakpoint Value Note 1: WBSP-TRIP can be set to 49.0 % RDF or any higher value up to the intersection of the ABSP sloped line w ith the APRM Flow Biased STP scram line.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 52 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 6.2 Analyzed MBSP Endpoints: Nominal Feedwater Temperature Endpoint Power

(% Rated)

Core Flow

(% Rated)

Definition A1 75.9 52.7 Scram Region (Region I)

Boundary Intercept on MELLLA+ Line B1 35.5 29.0 Scram Region (Region I)

Boundary Intercept on Natural Circulation Line (NCL)

A2 66.1 52.0 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 25.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)

Table 6.3 Analyzed MBSP Endpoints: Reduced Feedwater Temperature Endpoint Power

(% Rated)

Core Flow

(% Rated)

Definition A1 64.9 50.5 Scram Region (Region I)

Boundary Intercept on MELLLA Line B1 29.4 29.0 Scram Region (Region I)

Boundary Intercept on Natural Circulation Line (NCL)

A2 68.3 54.9 Controlled Entry Region (Region II) Boundary Intercept on MELLLA Line B2 24.5 29.0 Controlled Entry Region (Region II) Boundary Intercept on Natural Circulation Line (NCL)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 53 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 7 APRM Flow Biased Rod Block Trip Settings (Technical Requirements Manual Section 5.3.1 and Table 3.3.4-1)

The APRM rod block trip setting is based upon References 28 & 30, and is defined by the following:

for two loop operation:

SRB d (0.61Wd + 63.3)

Allowable Value SRB d (0.61Wd + 62.0)

Nominal Trip Setpoint (NTSP) where:

SRB

=

Rod Block setting in percent of rated thermal power (3952 MWt)

Wd

=

Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow) and for single loop operation:

SRB d (0.55(Wd-'W) + 60.5)

Allowable Value SRB d (0.55(Wd-'W) + 58.5)

Nominal Trip Setpoint (NTSP) where:

SRB

=

Rod Block setting in percent of rated thermal power (3952 MWt)

Wd

=

Recirculation drive flow rate in percent of rated (100% drive flow required to achieve 100% core power and flow)

'W

=

Difference between two-loop and single-loop effective recirculation flow at the same core flow ('W=0.0 for two-loop operation)

The APRM rod block trip setting is clamped at a maximum allowable value of 115%

(corresponding to a NTSP of 113%).

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 54 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 8 Rod Block Monitor (RBM) Trip Setpoints and Operability (Technical Specification Table 3.3.2.1-1)

The RBM trip setpoints and applicable power ranges, based on References 28 & 29, are shown in Table 8.1. Setpoints are based on an HTSP, unfiltered analytical limit of 114%. Unfiltered setpoints are consistent with a nominal RBM filter setting of 0.0 seconds; filtered setpoints are consistent with a nominal RBM filter setting less than 0.5 seconds. Cycle specific CRWE analyses of OLMCPR are documented in Reference 1, superseding values reported in References 28, 29, and 30.

Table 8.1 Analytical RBM Trip Setpoints18F18F3F*

RBM Trip Setpoint Allowable Value (AV)

Nominal Trip Setpoint (NTSP)

LPSP 27%

25%

IPSP 62%

60%

HPSP 82%

80%

LTSP - unfiltered

- filtered 121.7%

120.7%

120.0%

119.0%

ITSP - unfiltered

- filtered 116.7%

115.7%

115.0%

114.0%

HTSP - unfiltered

- filtered 111.7%

110.9%

110.0%

109.2%

DTSP 90%

92%

As a result of cycle specific CRWE analyses, RBM setpoints in Technical Specification Table 3.3.2.1-1 are applicable as shown in Table 8.2. Cycle specific setpoint analysis results are shown in Table 8.3, per Reference 1.

Table 8.2 RBM Setpoint Applicability Thermal Power

(% Rated)

Applicable MCPR19F19F34F Notes from Table 3.3.2.1-1 Comment 27% and < 90%

< 1.64 (a), (b), (f), (h) two loop operation

< 1.66 (a), (b), (f), (h) single loop operation 90%

< 1.39 (g) two loop operation20F20F35F

  • Values are considered maximums. Using lower values, due to RBM system hardware/software limitations, is conservative, and acceptable.

MCPR values shown correspond with, (support), values identified in Table 1.1.

Greater than 90% rated power is not attainable in single loop operation.

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 55 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Table 8.3 Control Rod Withdrawal Error Results RBM CRWE HTSP Analytical Limit OLMCPR Unfiltered 107 1.30 111 1.34 114 1.36 117 1.37 Results, compared against the base case OLMCPR results of Table 5.2 & Table 5.3, indicate Table 2.1 MCPR99.9 remains protected for RBM inoperable conditions (i.e., 114% unblocked).

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 56 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 9 Shutdown Margin Limit (Technical Specification 3.1.1)

Assuming the strongest OPERABLE control blade is fully withdrawn, and all other OPERABLE control blades are fully inserted, the core shall be sub-critical and meet the following minimum shutdown margin:

SDM 0.38% dk/k

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page 57 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 10 Overpressure Protection System (Technical Specification 3.4.3)

The as-found OPS lift pressures of the required SRVs are specified below:

Table 10.1 SRV Lift Setpoints As-Found Lift Number of SRVs Pressure Limit (psig) 3 1169 4

1179 5

1189

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page A-1 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final)

Appendix A: MBSP Maps

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page A-2 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0 10 20 30 40 50 60 70 80 90 100 110 0

10 20 30 40 50 60 70 80 90 100 110 120 Core Flow (% Rated: 100% =102.5 MLbm/hr)

Core Power (% Rated: 100% = 3952MWt)

Natural Circulation MELLLA Region ICF Region 20% Pump Speed Line Min. Pow er Line Min. Flow Control 87.5% Rod Line MELLLA Upper Boundary MELLLA+ Region Manual Scram Region I Controlled Entry Region II BSP Boundary Figure A.1 MBSP Boundaries For Nominal Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature)

ECM: L32 250630 802 Reactor Engineering and Fuels - BWRFE 1101 Market Street, Chattanooga TN 37402 Date: July 2, 2025 Browns Ferry Unit 3 Cycle 22 Page A-3 Core Operating Limits Report, (120% OLTP, MELLLA+)

TVA-COLR-BF3C22, Revision 1 (Final) 0 10 20 30 40 50 60 70 80 90 100 110 0

10 20 30 40 50 60 70 80 90 100 110 120 Core Flow (% Rated: 100% =102.5 MLbm/hr)

Core Power (% Rated: 100% = 3952MWt)

Natural Circulation MELLLA Region ICF Region 20% Pump Speed Line Min. Pow er Line Min. Flow Control 87.5% Rod Line MELLLA Upper Boundary MELLLA+ Region Controlled Entry Region II Manual Scram Region I BSP Boundary Figure A.2 MBSP Boundaries For Reduced Feedwater Temperature (Operation in the MELLLA+ Region Prohibited for a Reduced Feedwater Temperature greater than 10 degrees F below the Nominal Feedwater Temperature)

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