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MONTHYEARNL-05-0984, Technical Specifications Revision Spent Fuel Cask Loading Requirements Response to Draft Request for Additional Information2005-06-13013 June 2005 Technical Specifications Revision Spent Fuel Cask Loading Requirements Response to Draft Request for Additional Information Project stage: Draft Request 2CAN070503, Arkansas, Unit 2 - License Amendment Request to Add Cask Loading Restrictions2005-07-21021 July 2005 Arkansas, Unit 2 - License Amendment Request to Add Cask Loading Restrictions Project stage: Request 2CAN080501, Supplement to License Amendment Request Criticality Analysis for Cask Loading Restrictions2005-08-0404 August 2005 Supplement to License Amendment Request Criticality Analysis for Cask Loading Restrictions Project stage: Supplement 2CAN080502, Supplement to License Amendment Request for Cask Loading Restrictions - Response to Request for Additional Information2005-08-26026 August 2005 Supplement to License Amendment Request for Cask Loading Restrictions - Response to Request for Additional Information Project stage: Supplement ML0525500582005-09-0606 September 2005 ANO Unit 2, Technical Specification Pages Re Addition of Cask Loading Restrictions Project stage: Other ML0524501212005-09-0606 September 2005 ANO, Unit 2 - Issuance of Amendment Request to Add Cask Loading Restrictions Project stage: Approval ML0528002642005-09-26026 September 2005 Holtec International, Request for Withholding Information from Public Disclosure for ANO, Unit 2 Project stage: Withholding Request Acceptance ML0529104182005-11-18018 November 2005 ANO, Unit 2 - Correction Letter - Issuance of Amendment Request to Add Cask Loading Restrictions Project stage: Approval 2005-08-26
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Category:Letter type:
MONTHYEAR2CAN012401, U.S. Additional Protocol2024-01-17017 January 2024 U.S. Additional Protocol 2CAN012403, Supplemental Information - Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42024-01-11011 January 2024 Supplemental Information - Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 0CAN012401, Registration of Cask Use2024-01-10010 January 2024 Registration of Cask Use 1CAN122301, Responses to Request for Additional Information for Request for Alternative for Implementation of Extended Reactor Vessel Inservice Inspection Interval (ANO1-ISl-037)2023-12-14014 December 2023 Responses to Request for Additional Information for Request for Alternative for Implementation of Extended Reactor Vessel Inservice Inspection Interval (ANO1-ISl-037) 2CAN112302, Submittal of Amendment 31 to Safety Analysis Report2023-11-16016 November 2023 Submittal of Amendment 31 to Safety Analysis Report 0CAN102303, Registration of Cask Use2023-10-24024 October 2023 Registration of Cask Use 0CAN102302, (ANO) Emergency Plan Revision 49 and Emergency Plan On-Shift Staffing Analysis Revision 32023-10-11011 October 2023 (ANO) Emergency Plan Revision 49 and Emergency Plan On-Shift Staffing Analysis Revision 3 0CAN102301, Evacuation Time Estimate (ETE) Study2023-10-0404 October 2023 Evacuation Time Estimate (ETE) Study 1CAN092301, Supplemental Information - Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42023-09-21021 September 2023 Supplemental Information - Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 0CAN092302, Supplement to Request for Alternative Frequency to Containment Unbonded Post-Tensioning System Inservice Inspection (ANO-CISI-002)2023-09-14014 September 2023 Supplement to Request for Alternative Frequency to Containment Unbonded Post-Tensioning System Inservice Inspection (ANO-CISI-002) 2CAN092301, Reply to a Notice of Violation2023-09-0808 September 2023 Reply to a Notice of Violation 0CAN092301, Emergency Plan Implementing Procedure Revision2023-09-0505 September 2023 Emergency Plan Implementing Procedure Revision 0CAN082301, Units 1 and 2 - Changes to the Quality Assurance Program Approval Form for Radioactive Material Package No. 03412023-08-17017 August 2023 Units 1 and 2 - Changes to the Quality Assurance Program Approval Form for Radioactive Material Package No. 0341 2CAN082301, Inservice Inspection Summary Report for the Arkansas Nuclear One, Unit 2, Twenty-Ninth Refueling Outage (2R29)2023-08-10010 August 2023 Inservice Inspection Summary Report for the Arkansas Nuclear One, Unit 2, Twenty-Ninth Refueling Outage (2R29) 0CAN072301, Registration of Cask Use2023-07-18018 July 2023 Registration of Cask Use 1CAN062304, Supplement Related to License Amendment Request to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation2023-06-29029 June 2023 Supplement Related to License Amendment Request to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation 0CAN062301, Status of Actions to Return to Compliance2023-06-26026 June 2023 Status of Actions to Return to Compliance 0CAN062302, Submittal of Revision 22 of the ANO Fire Hazards Analysis2023-06-20020 June 2023 Submittal of Revision 22 of the ANO Fire Hazards Analysis 1CAN062301, Request for Alternative for Implementation of Extended Reactor Vessel Inservice Inspection Interval (ANO1-ISI-037)2023-06-0808 June 2023 Request for Alternative for Implementation of Extended Reactor Vessel Inservice Inspection Interval (ANO1-ISI-037) 0CAN052303, Annual 10 CFR 50.46 Report for Calendar Year 20222023-05-24024 May 2023 Annual 10 CFR 50.46 Report for Calendar Year 2022 0CAN052302, Emergency Plan Rev. 482023-05-11011 May 2023 Emergency Plan Rev. 48 0CAN052301, Units 1 and 2 - Annual Radiological Environmental Operating Report for 20222023-05-0909 May 2023 Units 1 and 2 - Annual Radiological Environmental Operating Report for 2022 2CAN052301, Cycle 30 Core Operating Limits Report (COLR)2023-05-0303 May 2023 Cycle 30 Core Operating Limits Report (COLR) 0CAN042302, Annual Occupational Radiation Exposure Report for 20222023-04-27027 April 2023 Annual Occupational Radiation Exposure Report for 2022 0CAN042301, Radioactive Effluent Release Report for 20222023-04-14014 April 2023 Radioactive Effluent Release Report for 2022 2CAN042301, License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42023-04-0505 April 2023 License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 1CAN032301, License Amendment Request to Modify the Arkansas Nuclear One, Unit 1, Technical Specification 3.3.1, Reactor Protection System Instrumentation, Turbine Trip Function on Low Control Oil Pressure2023-03-30030 March 2023 License Amendment Request to Modify the Arkansas Nuclear One, Unit 1, Technical Specification 3.3.1, Reactor Protection System Instrumentation, Turbine Trip Function on Low Control Oil Pressure 2CAN032303, Responses to Request for Additional Information Concerning the Request for Alternative Regarding the Half-Nozzle Repair of Reactor Vessel Closure Head Penetration 462023-03-29029 March 2023 Responses to Request for Additional Information Concerning the Request for Alternative Regarding the Half-Nozzle Repair of Reactor Vessel Closure Head Penetration 46 2CAN032304, Supplement to the Request for Alternative Regarding the Half-Nozzle Repair of Reactor Vessel Closure Head Penetration 462023-03-29029 March 2023 Supplement to the Request for Alternative Regarding the Half-Nozzle Repair of Reactor Vessel Closure Head Penetration 46 2CAN032305, 03 Post Examination Analysis2023-03-23023 March 2023 03 Post Examination Analysis 1CAN032302, Inspection Summary Report for the Thirtieth Refueling Outage (1R30)2023-03-20020 March 2023 Inspection Summary Report for the Thirtieth Refueling Outage (1R30) 1CAN012301, Responses to Request for Additional Information for Request for Relief ANO1-ISI-0352023-01-30030 January 2023 Responses to Request for Additional Information for Request for Relief ANO1-ISI-035 2CAN012303, U.S. Additional Protocol2023-01-23023 January 2023 U.S. Additional Protocol 2CAN012302, Relief Request ANO2-RR-23-001, Half-Nozzle Repair of Reactor Vessel Closure Head Penetration 462023-01-20020 January 2023 Relief Request ANO2-RR-23-001, Half-Nozzle Repair of Reactor Vessel Closure Head Penetration 46 1CAN122201, License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42022-12-22022 December 2022 License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 0CAN122202, Registration of Cask Use2022-12-21021 December 2022 Registration of Cask Use 0CAN122201, Reply to a Notice of Violation; EA-22-0992022-12-0808 December 2022 Reply to a Notice of Violation; EA-22-099 0CAN112201, Request for Alternative Frequency to Containment Unbonded Post-Tensioning System Inservice Inspection (ANO-CISI-002)2022-11-10010 November 2022 Request for Alternative Frequency to Containment Unbonded Post-Tensioning System Inservice Inspection (ANO-CISI-002) 1CAN102202, Application to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation2022-10-31031 October 2022 Application to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation 1CAN102203, Cycle 31 Core Operating Limits Report2022-10-24024 October 2022 Cycle 31 Core Operating Limits Report 1CAN102201, Supplement to Proposed Technical Specifications 3.4.12 and 3.4.13 Revised Dose Calculations2022-10-13013 October 2022 Supplement to Proposed Technical Specifications 3.4.12 and 3.4.13 Revised Dose Calculations 0CAN092201, Supplement to License Amendment Request for Approval of Changes to the Emergency Plan Staffing Requirements2022-09-29029 September 2022 Supplement to License Amendment Request for Approval of Changes to the Emergency Plan Staffing Requirements 1CAN092201, Supplement to Request for Relief from American Society of Mechanical Engineers Section XI Volumetric Examination Requirements - Fifth 10-Year Interval, First Period2022-09-0808 September 2022 Supplement to Request for Relief from American Society of Mechanical Engineers Section XI Volumetric Examination Requirements - Fifth 10-Year Interval, First Period 0CAN082201, License Amendment Request for Approval of Changes to the Emergency Plan Staffing Requirements2022-08-30030 August 2022 License Amendment Request for Approval of Changes to the Emergency Plan Staffing Requirements 1CAN082201, Request for Relief from American Society of Mechanical Engineers Section XI Volumetric Examination Requirements - Fifth 10-Year Interval, First Period2022-08-24024 August 2022 Request for Relief from American Society of Mechanical Engineers Section XI Volumetric Examination Requirements - Fifth 10-Year Interval, First Period 2CAN072201, Response to Request for Additional Information Requests for Relief from American Society of Mechanical Engineers Section XI Volumetric Examination Requirements - Fourth 10-Year Interval, Second and Third Periods2022-07-20020 July 2022 Response to Request for Additional Information Requests for Relief from American Society of Mechanical Engineers Section XI Volumetric Examination Requirements - Fourth 10-Year Interval, Second and Third Periods 0CAN072201, Registration of Cask Use2022-07-14014 July 2022 Registration of Cask Use 0CAN062202, Registration of Cask Use2022-06-0909 June 2022 Registration of Cask Use 1CAN062201, Response to the Request for Additional Information Proposed Technical Specifications 3.4.12 and 3.4.13 Revised Dose Calculations2022-06-0202 June 2022 Response to the Request for Additional Information Proposed Technical Specifications 3.4.12 and 3.4.13 Revised Dose Calculations 1CAN052201, Request for Relief Related to American Society of Mechanical Engineers (ASME) Code Case N-729-6 Augmented Examination Requirements ANO1-ISI-0352022-05-31031 May 2022 Request for Relief Related to American Society of Mechanical Engineers (ASME) Code Case N-729-6 Augmented Examination Requirements ANO1-ISI-035 2024-01-17
[Table view] Category:License-Application for Facility Operating License (Amend/Renewal) DKT 50
MONTHYEARML23208A2112023-07-27027 July 2023 Entergy Operations Inc., Application to Revise Technical Specifications to Adopt TSTF-205, Revision of Channel Calibration, Channel Functional Test, and Related Definitions ML23142A2022023-06-29029 June 2023 Issuance of Amendment Nos. 279 and 332 Emergency Plan Staffing Requirements 2CAN042301, License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42023-04-0505 April 2023 License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 1CAN032301, License Amendment Request to Modify the Arkansas Nuclear One, Unit 1, Technical Specification 3.3.1, Reactor Protection System Instrumentation, Turbine Trip Function on Low Control Oil Pressure2023-03-30030 March 2023 License Amendment Request to Modify the Arkansas Nuclear One, Unit 1, Technical Specification 3.3.1, Reactor Protection System Instrumentation, Turbine Trip Function on Low Control Oil Pressure 1CAN122201, License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42022-12-22022 December 2022 License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 1CAN102202, Application to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation2022-10-31031 October 2022 Application to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation 0CAN082201, License Amendment Request for Approval of Changes to the Emergency Plan Staffing Requirements2022-08-30030 August 2022 License Amendment Request for Approval of Changes to the Emergency Plan Staffing Requirements ML21279A2312021-10-0606 October 2021 Application to Revise Technical Specifications to Adopt TSTF-554, Revise Reactor Coolant Leakage Requirements Using the Consolidated Line-Item Improvement 1CAN102101, SAR Amendment 30, TRM, TS Bases, 10 CFR 50.59 Report, and Commitment Change Summary Report2021-10-0606 October 2021 SAR Amendment 30, TRM, TS Bases, 10 CFR 50.59 Report, and Commitment Change Summary Report 1CAN092101, License Amendment Request Proposed Technical Specifications 3.4.12 and 3.4.13 Revised Dose Calculations2021-09-30030 September 2021 License Amendment Request Proposed Technical Specifications 3.4.12 and 3.4.13 Revised Dose Calculations ML21266A1612021-09-23023 September 2021 Application to Revise Technical Specifications to Adopt TSTF-541, Add Exceptions to Surveillance Requirements for Valves and Dampers Locked in the Actuated ML21182A1582021-07-0101 July 2021 Application to Revise Technical Specifications to Adopt TSTF 577, Revised Frequencies for Steam Generator Tube Inspections 2CAN052102, Application to Adopt 10 CFR 50.69, Risk-informed Categorization and Treatment of Structures, Systems, and Components for Nuclear Power Reactors2021-05-26026 May 2021 Application to Adopt 10 CFR 50.69, Risk-informed Categorization and Treatment of Structures, Systems, and Components for Nuclear Power Reactors 1CAN052102, Application to Adopt 10 CFR 50.69, Risk-informed Categorization and Treatment of Structures, Systems, and Components for Nuclear Power Reactors2021-05-26026 May 2021 Application to Adopt 10 CFR 50.69, Risk-informed Categorization and Treatment of Structures, Systems, and Components for Nuclear Power Reactors 1CAN022102, Supplement Related to License Amendment Request to Replace the Reactor Hydroxide Additive with a Passive Reactor Building Sump Buffering Agent Sodium Tetraborate2021-02-22022 February 2021 Supplement Related to License Amendment Request to Replace the Reactor Hydroxide Additive with a Passive Reactor Building Sump Buffering Agent Sodium Tetraborate 0CAN022102, Unit 2; License Amendment Request - One-Time Change to Support Proactive Upgrade of the Emergency - Cooling Pond Supply Piping2021-02-0808 February 2021 Unit 2; License Amendment Request - One-Time Change to Support Proactive Upgrade of the Emergency - Cooling Pond Supply Piping 2CAN112004, License Amendment Request - Application to Adopt a Safety Function Determination Program (SFDP)2020-11-17017 November 2020 License Amendment Request - Application to Adopt a Safety Function Determination Program (SFDP) 2CAN092003, License Amendment Request, Revise Technical Specifications to Adopt TSTF-569, Revision of Response Time Testing Definitions2020-09-24024 September 2020 License Amendment Request, Revise Technical Specifications to Adopt TSTF-569, Revision of Response Time Testing Definitions 1CAN072001, Supplemental Information Related to License Amendment Request to Replacement of Reactor Building Spray Sodium Hydroxide Additive with a Passive Reactor Building Sump Buffering Agent Sodium Tetraborate2020-07-21021 July 2020 Supplemental Information Related to License Amendment Request to Replacement of Reactor Building Spray Sodium Hydroxide Additive with a Passive Reactor Building Sump Buffering Agent Sodium Tetraborate 1CAN022001, License Amendment Request: Replacement of Reactor Building Spray Sodium Hydroxide Additive with a Passive Reactor Building Sump Buffering Agent Sodium Tetraborate2020-02-24024 February 2020 License Amendment Request: Replacement of Reactor Building Spray Sodium Hydroxide Additive with a Passive Reactor Building Sump Buffering Agent Sodium Tetraborate 1CAN012002, License Amendment Request: Revise Loss of Voltage Relay Allowable Values2020-01-24024 January 2020 License Amendment Request: Revise Loss of Voltage Relay Allowable Values 2CAN121903, License Amendment Request, Revise Control Element Assembly Drop Time2019-12-18018 December 2019 License Amendment Request, Revise Control Element Assembly Drop Time 2CAN121901, License Amendment Request Technical Specification Deletions, Additions, and Relocations2019-12-16016 December 2019 License Amendment Request Technical Specification Deletions, Additions, and Relocations 1CAN101903, Supplement to License Amendment Request: Application to Revise Technical Specifications to Adopt TSTF-439, Eliminate Second Completion Times Limiting Time from Discovery of Failure to Meet an LCO2019-10-23023 October 2019 Supplement to License Amendment Request: Application to Revise Technical Specifications to Adopt TSTF-439, Eliminate Second Completion Times Limiting Time from Discovery of Failure to Meet an LCO 0CAN091901, Unit 2: License Amendment Request - Change in Implementation Date for Amendments 263 and 3142019-09-0505 September 2019 Unit 2: License Amendment Request - Change in Implementation Date for Amendments 263 and 314 2CAN081903, License Amendment Request Technical Specification (TS) Change Related to Revised Fuel Handling Accident Analysis and Adoption of TS Improvements Consistent with NUREG-14322019-08-29029 August 2019 License Amendment Request Technical Specification (TS) Change Related to Revised Fuel Handling Accident Analysis and Adoption of TS Improvements Consistent with NUREG-1432 1CAN051901, License Amendment Request Application to Revise Technical Specifications to Adopt TSTF 563, Revise Instrument Testing Definitions to Incorporate the Surveillance Frequency Control Program.2019-05-29029 May 2019 License Amendment Request Application to Revise Technical Specifications to Adopt TSTF 563, Revise Instrument Testing Definitions to Incorporate the Surveillance Frequency Control Program. 0CAN041904, License Amendment Request to Incorporate Tornado Missile Risk Evaluator Into the Licensing Basis2019-04-29029 April 2019 License Amendment Request to Incorporate Tornado Missile Risk Evaluator Into the Licensing Basis 1CAN031901, License Amendment Request Application to Revise Technical Specifications to Adopt TSTF-439, Eliminate Second Completion Times Limiting Time from Discovery of Failure to Meet an Lco.2019-03-25025 March 2019 License Amendment Request Application to Revise Technical Specifications to Adopt TSTF-439, Eliminate Second Completion Times Limiting Time from Discovery of Failure to Meet an Lco. CNRO-2019-00003, Application to Revise Technical Specifications to Adopt TSTF-529 11 Clarify Use and Application Rules, 11 Revision 42019-01-31031 January 2019 Application to Revise Technical Specifications to Adopt TSTF-529 11 Clarify Use and Application Rules, 11 Revision 4 1CAN121801, Application to Revise Technical Specifications to Adopt TSTF-567, Add Containment Sump TS to Address GSI-191 Issues2018-12-19019 December 2018 Application to Revise Technical Specifications to Adopt TSTF-567, Add Containment Sump TS to Address GSI-191 Issues 2CAN121801, License Amendment Request, Add Actions to Address Inoperability of the Containment Building Sump2018-12-19019 December 2018 License Amendment Request, Add Actions to Address Inoperability of the Containment Building Sump 2CAN051801, License Renewal Pressurizer Surge Line and Safety Injection Nozzle Inspection2018-05-24024 May 2018 License Renewal Pressurizer Surge Line and Safety Injection Nozzle Inspection ML18094A1552018-03-29029 March 2018 Enclosures 2 - 6: Proposed EAL Technical Basis Document, NEI 99-01. Rev. 6., Proposed EAL Matrix Chart/Review Table and Supporting Referenced Document Pages 0CAN031801, Unit 2 - License Amendment Request - Adoption of Emergency Action Level Schemes Pursuant to NEI 99-01, Revision 62018-03-29029 March 2018 Unit 2 - License Amendment Request - Adoption of Emergency Action Level Schemes Pursuant to NEI 99-01, Revision 6 1CAN031801, Application for Technical Specification Change Regarding Risk-Informed Justification for the Relocation of Specific Surveillance Frequency Requirements to a Licensee Controlled Program (TSTF-425)2018-03-12012 March 2018 Application for Technical Specification Change Regarding Risk-Informed Justification for the Relocation of Specific Surveillance Frequency Requirements to a Licensee Controlled Program (TSTF-425) 2CAN121702, License Amendment Request Post-Accident Instrumentation Technical Specification Revision2017-12-14014 December 2017 License Amendment Request Post-Accident Instrumentation Technical Specification Revision 2CAN111702, License Amendment Request - Updating the Reactor Coolant System Pressure-Temperature Limits2017-11-20020 November 2017 License Amendment Request - Updating the Reactor Coolant System Pressure-Temperature Limits 1CAN101701, License Amendment Request Revision to Technical Specification Bases Related to Emergency Feedwater Turbine-Driven Pump Steam Supply Valves2017-10-0202 October 2017 License Amendment Request Revision to Technical Specification Bases Related to Emergency Feedwater Turbine-Driven Pump Steam Supply Valves ML17268A2132017-09-21021 September 2017 ISFSI, River Bend Station Unit 1 & ISFSI, Waterford 3 Steam Electric Station & ISFSI, Grand Gulf Nuclear Station & ISFSI, Application for Order Approving Transfers of Licenses and Conforming License Amendments 2CAN081701, Application to Revise Technical Specifications to Adopt TSTF-427, Allowance for Non-Technical Specification Barrier Degradation on Supported System Operability.2017-08-14014 August 2017 Application to Revise Technical Specifications to Adopt TSTF-427, Allowance for Non-Technical Specification Barrier Degradation on Supported System Operability. 1CAN081701, Application to Revise Technical Specifications to Adopt TSTF-427, Allowance for Non-Technical Specification Barrier Degradation on Supported System Operability.2017-08-14014 August 2017 Application to Revise Technical Specifications to Adopt TSTF-427, Allowance for Non-Technical Specification Barrier Degradation on Supported System Operability. 2CAN071701, License Amendment Request, Application for Technical Specification Improvement to Provide Actions for Emergency Feedwater Pump Inoperability Consistent with NUREG-14322017-07-17017 July 2017 License Amendment Request, Application for Technical Specification Improvement to Provide Actions for Emergency Feedwater Pump Inoperability Consistent with NUREG-1432 1CAN071701, License Amendment Request, Application for Technical Specification Improvement to Revise Actions for Inoperable Using the Consolidated Line Item Improvement Process2017-07-17017 July 2017 License Amendment Request, Application for Technical Specification Improvement to Revise Actions for Inoperable Using the Consolidated Line Item Improvement Process 1CAN061701, Amendment 27 of the SAR, TRM, TS Bases, 10 CFR 50.59 Report, and Commitment Change Summary Report2017-06-0707 June 2017 Amendment 27 of the SAR, TRM, TS Bases, 10 CFR 50.59 Report, and Commitment Change Summary Report 1CAN041702, License Amendment Request Application to Revise Technical Specifications to Adopt TSTF-510, Revision to Steam Generator Program Inspection Frequencies and Tube Sample Selection, Using the Consolidated Line.2017-04-24024 April 2017 License Amendment Request Application to Revise Technical Specifications to Adopt TSTF-510, Revision to Steam Generator Program Inspection Frequencies and Tube Sample Selection, Using the Consolidated Line. 2CAN041702, License Amendment Request Application to Revise Technical Specifications to Adopt TSTF-510, Revision to Steam Generator Program Inspection Frequencies and Tube Sample Selection.2017-04-24024 April 2017 License Amendment Request Application to Revise Technical Specifications to Adopt TSTF-510, Revision to Steam Generator Program Inspection Frequencies and Tube Sample Selection. 2CAN101601, License Amendment Request to Revise the National Fire Protection Association (NFPA) Standard 805 Modifications2016-10-27027 October 2016 License Amendment Request to Revise the National Fire Protection Association (NFPA) Standard 805 Modifications 1CAN051602, Update to Tables S-1 and S-2 - Adoption of National Fire Protection Association Standard NFPA-8052016-05-19019 May 2016 Update to Tables S-1 and S-2 - Adoption of National Fire Protection Association Standard NFPA-805 2CAN031602, Application to Revise Technical Specifications to Adopt TSTF-545, Revision 3, TS Inservice Testing Program Removal & Clarify SR Usage Rule Application to Section 5.5 Testing, and to Request an Alternative to the Asme..2016-03-25025 March 2016 Application to Revise Technical Specifications to Adopt TSTF-545, Revision 3, TS Inservice Testing Program Removal & Clarify SR Usage Rule Application to Section 5.5 Testing, and to Request an Alternative to the Asme.. 2023-07-27
[Table view] Category:Technical Specification
MONTHYEAR2CAN112302, Submittal of Amendment 31 to Safety Analysis Report2023-11-16016 November 2023 Submittal of Amendment 31 to Safety Analysis Report 1CAN092301, Supplemental Information - Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42023-09-21021 September 2023 Supplemental Information - Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 ML23208A2112023-07-27027 July 2023 Entergy Operations Inc., Application to Revise Technical Specifications to Adopt TSTF-205, Revision of Channel Calibration, Channel Functional Test, and Related Definitions 1CAN032301, License Amendment Request to Modify the Arkansas Nuclear One, Unit 1, Technical Specification 3.3.1, Reactor Protection System Instrumentation, Turbine Trip Function on Low Control Oil Pressure2023-03-30030 March 2023 License Amendment Request to Modify the Arkansas Nuclear One, Unit 1, Technical Specification 3.3.1, Reactor Protection System Instrumentation, Turbine Trip Function on Low Control Oil Pressure 1CAN122201, License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42022-12-22022 December 2022 License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 1CAN102202, Application to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation2022-10-31031 October 2022 Application to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation 1CAN102201, Supplement to Proposed Technical Specifications 3.4.12 and 3.4.13 Revised Dose Calculations2022-10-13013 October 2022 Supplement to Proposed Technical Specifications 3.4.12 and 3.4.13 Revised Dose Calculations ML21279A2312021-10-0606 October 2021 Application to Revise Technical Specifications to Adopt TSTF-554, Revise Reactor Coolant Leakage Requirements Using the Consolidated Line-Item Improvement 1CAN102101, SAR Amendment 30, TRM, TS Bases, 10 CFR 50.59 Report, and Commitment Change Summary Report2021-10-0606 October 2021 SAR Amendment 30, TRM, TS Bases, 10 CFR 50.59 Report, and Commitment Change Summary Report ML21266A1612021-09-23023 September 2021 Application to Revise Technical Specifications to Adopt TSTF-541, Add Exceptions to Surveillance Requirements for Valves and Dampers Locked in the Actuated ML21182A1582021-07-0101 July 2021 Application to Revise Technical Specifications to Adopt TSTF 577, Revised Frequencies for Steam Generator Tube Inspections 1CAN012002, License Amendment Request: Revise Loss of Voltage Relay Allowable Values2020-01-24024 January 2020 License Amendment Request: Revise Loss of Voltage Relay Allowable Values 2CAN121901, License Amendment Request Technical Specification Deletions, Additions, and Relocations2019-12-16016 December 2019 License Amendment Request Technical Specification Deletions, Additions, and Relocations 1CAN061902, Supplemental Change Related to Revise Technical Specifications to Adopt TSTF-567, Add Containment Sump TS to Address GSI-191 Issues2019-06-18018 June 2019 Supplemental Change Related to Revise Technical Specifications to Adopt TSTF-567, Add Containment Sump TS to Address GSI-191 Issues 1CAN031901, License Amendment Request Application to Revise Technical Specifications to Adopt TSTF-439, Eliminate Second Completion Times Limiting Time from Discovery of Failure to Meet an Lco.2019-03-25025 March 2019 License Amendment Request Application to Revise Technical Specifications to Adopt TSTF-439, Eliminate Second Completion Times Limiting Time from Discovery of Failure to Meet an Lco. 1CAN111802, ANO Unit 1 SAR Amendment 28, TRM, TS Bases, 10 CFR 50.59 Report, and Commitment Change Summary Report2018-11-12012 November 2018 ANO Unit 1 SAR Amendment 28, TRM, TS Bases, 10 CFR 50.59 Report, and Commitment Change Summary Report 2CAN121705, Exigent License Amendment Request Allowance to Exclude Exercise of Control Element Assembly 4 with Respect to Surveillance Requirement 4.1.3.1.2 for the Remainder of Cycle 262017-12-28028 December 2017 Exigent License Amendment Request Allowance to Exclude Exercise of Control Element Assembly 4 with Respect to Surveillance Requirement 4.1.3.1.2 for the Remainder of Cycle 26 2CAN111702, License Amendment Request - Updating the Reactor Coolant System Pressure-Temperature Limits2017-11-20020 November 2017 License Amendment Request - Updating the Reactor Coolant System Pressure-Temperature Limits 1CAN031604, Arkansas, Unit 1 - Application to Revise Technical Specifications to Adopt TSTF-545, Revision 3, TS Inservice Testing Program Removal & Clarify SR Usage Rule Application to Section 5.5 Testing, and to Request an Alternative to the ASME Co2016-03-25025 March 2016 Arkansas, Unit 1 - Application to Revise Technical Specifications to Adopt TSTF-545, Revision 3, TS Inservice Testing Program Removal & Clarify SR Usage Rule Application to Section 5.5 Testing, and to Request an Alternative to the ASME Code 2CAN031602, Application to Revise Technical Specifications to Adopt TSTF-545, Revision 3, TS Inservice Testing Program Removal & Clarify SR Usage Rule Application to Section 5.5 Testing, and to Request an Alternative to the Asme..2016-03-25025 March 2016 Application to Revise Technical Specifications to Adopt TSTF-545, Revision 3, TS Inservice Testing Program Removal & Clarify SR Usage Rule Application to Section 5.5 Testing, and to Request an Alternative to the Asme.. 2CAN121502, Application to Revise Technical Specifications to Adopt TSTF-426, Revise or Add Actions to Preclude Entry Into LCO 3.0.3 - RITSTF Initiatives 6b & 6c, Using the Consolidated Line Item Improvement Process2015-12-22022 December 2015 Application to Revise Technical Specifications to Adopt TSTF-426, Revise or Add Actions to Preclude Entry Into LCO 3.0.3 - RITSTF Initiatives 6b & 6c, Using the Consolidated Line Item Improvement Process 1CAN121403, License Amendment Request Supplemental ANO-1 Adoption of TSTF-431, Revision 3, Change in Technical Specifications End States (BAW-2441).2014-12-0505 December 2014 License Amendment Request Supplemental ANO-1 Adoption of TSTF-431, Revision 3, Change in Technical Specifications End States (BAW-2441). 2CAN101401, Arkansas, Unit 2 - License Amendment Request Supplemental Adoption of Technical Specification Task Force (TSTF)-422, Revision 2, Change in Technical Specifications End States (CE NPSD-1186)2014-10-22022 October 2014 Arkansas, Unit 2 - License Amendment Request Supplemental Adoption of Technical Specification Task Force (TSTF)-422, Revision 2, Change in Technical Specifications End States (CE NPSD-1186) 1CAN011406, Amendment 25 of the ANO Unit 1 Safety Analysis Report2014-01-29029 January 2014 Amendment 25 of the ANO Unit 1 Safety Analysis Report 1CAN121301, Clarification of Proposed Change to Technical Specification 2.1.1.1 Reactor Core Safety Limits2013-12-11011 December 2013 Clarification of Proposed Change to Technical Specification 2.1.1.1 Reactor Core Safety Limits 2CAN061302, License Amendment Request - Supplemental Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-4712013-06-18018 June 2013 License Amendment Request - Supplemental Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-471 1CAN031306, License Amendment Request, Adoption of Technical Specification Task Force (TSTF)-431, Revision 3 Change in Technical Specifications End States (BAW-2441)2013-03-26026 March 2013 License Amendment Request, Adoption of Technical Specification Task Force (TSTF)-431, Revision 3 Change in Technical Specifications End States (BAW-2441) 2CAN071201, License Amendment Request - Supplemental Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-4712012-07-0909 July 2012 License Amendment Request - Supplemental Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-471 2CAN041201, License Amendment Request, Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-4712012-04-0404 April 2012 License Amendment Request, Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-471 1CAN041102, License Amendment Request, Adoption of Technical Specification Task Force (TSTF)513, Revision 3, Revise PWR Operability Requirements and Actions for RCS Leakage Instrumentation.2011-04-29029 April 2011 License Amendment Request, Adoption of Technical Specification Task Force (TSTF)513, Revision 3, Revise PWR Operability Requirements and Actions for RCS Leakage Instrumentation. 1CAN081001, License Amendment Request, Technical Specification Change Associated with Main Feedwater Isolation Valves2010-08-24024 August 2010 License Amendment Request, Technical Specification Change Associated with Main Feedwater Isolation Valves 2CAN081009, Emergency License Amendment Request Extension of ANO-2 Emergency Diesel Generator Allowed Outage Time2010-08-19019 August 2010 Emergency License Amendment Request Extension of ANO-2 Emergency Diesel Generator Allowed Outage Time 1CAN081002, License Amendment Request, Changes to Technical Specification 3.9.3, Technical Change Traveler - TSTF-312, Rev. 12010-08-10010 August 2010 License Amendment Request, Changes to Technical Specification 3.9.3, Technical Change Traveler - TSTF-312, Rev. 1 2CAN061003, Arkansas Nuclear One, Unit 2 - License Amendment Request, Technical Specification Change to Extend the Type a Test Frequency to 15 Years2010-06-17017 June 2010 Arkansas Nuclear One, Unit 2 - License Amendment Request, Technical Specification Change to Extend the Type a Test Frequency to 15 Years ML1016803802010-06-17017 June 2010 License Amendment Request, Technical Specification Change to Extend the Type a Test Frequency to 15 Years 1CAN021004, Response to Request for Additional Information, Application for Technical Specification Improvement to Adopt TSTF-490, Revision 0, Deletion of E Bar Definition and Revision to RCS Specific Activity Tech Spec.2010-02-28028 February 2010 Response to Request for Additional Information, Application for Technical Specification Improvement to Adopt TSTF-490, Revision 0, Deletion of E Bar Definition and Revision to RCS Specific Activity Tech Spec. 2CAN060903, License Amendment Request, Technical Specification Changes to Relocate Pressurizer Heater Requirements to Technical Requirements Manual2009-06-18018 June 2009 License Amendment Request, Technical Specification Changes to Relocate Pressurizer Heater Requirements to Technical Requirements Manual 2CAN050902, License Amendment Request to Revise Technical Specification 6.6.5, Core Operating Limits Report2009-05-15015 May 2009 License Amendment Request to Revise Technical Specification 6.6.5, Core Operating Limits Report 2CAN050901, License Amendment Request to Revise the Departure from Nucleate Boiling Ratio (DNBR) Safety Limit2009-05-13013 May 2009 License Amendment Request to Revise the Departure from Nucleate Boiling Ratio (DNBR) Safety Limit ENOC-09-00009, Entergy Nuclear Operations, Inc. - License Amendment Request; Proposed Adoption of TSTF-511 Regarding Elimination of Technical Specification Work Hour Restrictions2009-04-27027 April 2009 Entergy Nuclear Operations, Inc. - License Amendment Request; Proposed Adoption of TSTF-511 Regarding Elimination of Technical Specification Work Hour Restrictions 2CAN030902, License Amendment Request, Technical Specification Change to Delete COLR References2009-03-10010 March 2009 License Amendment Request, Technical Specification Change to Delete COLR References 1CAN030901, License Amendment Request on Technical Specification Change to Delete Low Pressurizer Level Limit2009-03-10010 March 2009 License Amendment Request on Technical Specification Change to Delete Low Pressurizer Level Limit 2CAN120801, License Amendment Request Supplemental Regarding Technical Specification Change to Add LCO 3.0.8 on the Inoperability of Snubbers and Relocate TS 3.7.8 to the TRM2008-12-11011 December 2008 License Amendment Request Supplemental Regarding Technical Specification Change to Add LCO 3.0.8 on the Inoperability of Snubbers and Relocate TS 3.7.8 to the TRM 2CAN070801, Supplement to License Amendment Request Regarding Technical Specification Changes Associated with Adoption of TSTF-3592008-07-0808 July 2008 Supplement to License Amendment Request Regarding Technical Specification Changes Associated with Adoption of TSTF-359 2CAN030806, Supplemental to License Amendment Request, Technical Specification 3.1.1.4, Moderator Temperature Coefficient2008-03-27027 March 2008 Supplemental to License Amendment Request, Technical Specification 3.1.1.4, Moderator Temperature Coefficient 2CAN100701, License Amendment Request - Technical Specification Changes Regarding Mode Change Limitations and Associated Bases Using the Consolidated Line Item Improvement Process2007-10-22022 October 2007 License Amendment Request - Technical Specification Changes Regarding Mode Change Limitations and Associated Bases Using the Consolidated Line Item Improvement Process 1CAN100703, License Amendment Request - Technical Specification Changes and Analyses Relating to Use of Alternate Source Term2007-10-22022 October 2007 License Amendment Request - Technical Specification Changes and Analyses Relating to Use of Alternate Source Term 2CAN100703, Unit 2 License Amendment Request for Technical Specification Change Associated with Replacement of Containment Sump Buffer2007-10-0505 October 2007 Unit 2 License Amendment Request for Technical Specification Change Associated with Replacement of Containment Sump Buffer ML0726300862007-09-28028 September 2007 License and Technical Specification Pages - Amendment No. 273 Revisions to TS to Support Partial Re-Rack and Revised Loading Patterns in the Spent Fuel Pool ML0722901082007-08-0202 August 2007 Supplement to Amendment Request to Delete the Fuel Handling Area Ventilation System and Associated Filter Testing Program Requirements 2023-09-21
[Table view] Category:Amendment
MONTHYEAR1CAN092301, Supplemental Information - Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42023-09-21021 September 2023 Supplemental Information - Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 ML23208A2112023-07-27027 July 2023 Entergy Operations Inc., Application to Revise Technical Specifications to Adopt TSTF-205, Revision of Channel Calibration, Channel Functional Test, and Related Definitions 1CAN032301, License Amendment Request to Modify the Arkansas Nuclear One, Unit 1, Technical Specification 3.3.1, Reactor Protection System Instrumentation, Turbine Trip Function on Low Control Oil Pressure2023-03-30030 March 2023 License Amendment Request to Modify the Arkansas Nuclear One, Unit 1, Technical Specification 3.3.1, Reactor Protection System Instrumentation, Turbine Trip Function on Low Control Oil Pressure 1CAN122201, License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 42022-12-22022 December 2022 License Amendment Request to Revise Technical Specifications to Adopt Risk-Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4 1CAN102202, Application to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation2022-10-31031 October 2022 Application to Remove Technical Specification Condition Allowing Two Reactor Coolant Pump Operation ML21266A1612021-09-23023 September 2021 Application to Revise Technical Specifications to Adopt TSTF-541, Add Exceptions to Surveillance Requirements for Valves and Dampers Locked in the Actuated ML21182A1582021-07-0101 July 2021 Application to Revise Technical Specifications to Adopt TSTF 577, Revised Frequencies for Steam Generator Tube Inspections 1CAN012002, License Amendment Request: Revise Loss of Voltage Relay Allowable Values2020-01-24024 January 2020 License Amendment Request: Revise Loss of Voltage Relay Allowable Values 1CAN061902, Supplemental Change Related to Revise Technical Specifications to Adopt TSTF-567, Add Containment Sump TS to Address GSI-191 Issues2019-06-18018 June 2019 Supplemental Change Related to Revise Technical Specifications to Adopt TSTF-567, Add Containment Sump TS to Address GSI-191 Issues 2CAN121705, Exigent License Amendment Request Allowance to Exclude Exercise of Control Element Assembly 4 with Respect to Surveillance Requirement 4.1.3.1.2 for the Remainder of Cycle 262017-12-28028 December 2017 Exigent License Amendment Request Allowance to Exclude Exercise of Control Element Assembly 4 with Respect to Surveillance Requirement 4.1.3.1.2 for the Remainder of Cycle 26 2CAN101401, Arkansas, Unit 2 - License Amendment Request Supplemental Adoption of Technical Specification Task Force (TSTF)-422, Revision 2, Change in Technical Specifications End States (CE NPSD-1186)2014-10-22022 October 2014 Arkansas, Unit 2 - License Amendment Request Supplemental Adoption of Technical Specification Task Force (TSTF)-422, Revision 2, Change in Technical Specifications End States (CE NPSD-1186) 1CAN121301, Clarification of Proposed Change to Technical Specification 2.1.1.1 Reactor Core Safety Limits2013-12-11011 December 2013 Clarification of Proposed Change to Technical Specification 2.1.1.1 Reactor Core Safety Limits 2CAN071201, License Amendment Request - Supplemental Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-4712012-07-0909 July 2012 License Amendment Request - Supplemental Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-471 2CAN041201, License Amendment Request, Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-4712012-04-0404 April 2012 License Amendment Request, Technical Specification (TS) Change Related to Revised Fuel Assembly Drop Analysis and Adoption of TSTF-51, TSTF-272, TSTF-286, and TSTF-471 ML1016803802010-06-17017 June 2010 License Amendment Request, Technical Specification Change to Extend the Type a Test Frequency to 15 Years 2CAN061003, Arkansas Nuclear One, Unit 2 - License Amendment Request, Technical Specification Change to Extend the Type a Test Frequency to 15 Years2010-06-17017 June 2010 Arkansas Nuclear One, Unit 2 - License Amendment Request, Technical Specification Change to Extend the Type a Test Frequency to 15 Years 2CAN050902, License Amendment Request to Revise Technical Specification 6.6.5, Core Operating Limits Report2009-05-15015 May 2009 License Amendment Request to Revise Technical Specification 6.6.5, Core Operating Limits Report 2CAN050901, License Amendment Request to Revise the Departure from Nucleate Boiling Ratio (DNBR) Safety Limit2009-05-13013 May 2009 License Amendment Request to Revise the Departure from Nucleate Boiling Ratio (DNBR) Safety Limit ENOC-09-00009, Entergy Nuclear Operations, Inc. - License Amendment Request; Proposed Adoption of TSTF-511 Regarding Elimination of Technical Specification Work Hour Restrictions2009-04-27027 April 2009 Entergy Nuclear Operations, Inc. - License Amendment Request; Proposed Adoption of TSTF-511 Regarding Elimination of Technical Specification Work Hour Restrictions 2CAN030806, Supplemental to License Amendment Request, Technical Specification 3.1.1.4, Moderator Temperature Coefficient2008-03-27027 March 2008 Supplemental to License Amendment Request, Technical Specification 3.1.1.4, Moderator Temperature Coefficient 2CAN100701, License Amendment Request - Technical Specification Changes Regarding Mode Change Limitations and Associated Bases Using the Consolidated Line Item Improvement Process2007-10-22022 October 2007 License Amendment Request - Technical Specification Changes Regarding Mode Change Limitations and Associated Bases Using the Consolidated Line Item Improvement Process 2CAN100703, Unit 2 License Amendment Request for Technical Specification Change Associated with Replacement of Containment Sump Buffer2007-10-0505 October 2007 Unit 2 License Amendment Request for Technical Specification Change Associated with Replacement of Containment Sump Buffer ML0726300862007-09-28028 September 2007 License and Technical Specification Pages - Amendment No. 273 Revisions to TS to Support Partial Re-Rack and Revised Loading Patterns in the Spent Fuel Pool 2CAN050702, License Amendment Requesting, Technical Specification 3.1.1.4, Moderator Temperature Coefficient2007-05-0808 May 2007 License Amendment Requesting, Technical Specification 3.1.1.4, Moderator Temperature Coefficient ML0704400422007-02-26026 February 2007 Corrected Tech Spec Pgs - Correction to Amendment No. 228 for the Use of Metamic Poison Insert Assemblies in the Spent Fuel Pool 1CAN080601, License Amendment Request Regarding the Relocation of Inverter Y-28 and Panel C-540 Requirements from TSs to TRM2006-08-31031 August 2006 License Amendment Request Regarding the Relocation of Inverter Y-28 and Panel C-540 Requirements from TSs to TRM 1CAN070603, License Amendment Request to Support the Use of Metamic@ Polson Insert Assembles in the Spent Fuel Pool2006-07-27027 July 2006 License Amendment Request to Support the Use of Metamic@ Polson Insert Assembles in the Spent Fuel Pool 2CAN020601, License Amendment Request to Modify Technical Specification Surveillance Requirement 4.6.1.1.a2006-02-14014 February 2006 License Amendment Request to Modify Technical Specification Surveillance Requirement 4.6.1.1.a 2CAN090504, Arkansas, Unit 2 - License Amendment Request to Modify Technical Specification 3.1.1.5, Minimum Temperature for Criticality2005-09-19019 September 2005 Arkansas, Unit 2 - License Amendment Request to Modify Technical Specification 3.1.1.5, Minimum Temperature for Criticality 2CAN090502, Arkansas, Unit 2 - License Amendment Request to Allow One-Time Extension of Containment Spray System Allowable Outage Time2005-09-19019 September 2005 Arkansas, Unit 2 - License Amendment Request to Allow One-Time Extension of Containment Spray System Allowable Outage Time 2CAN070503, Arkansas, Unit 2 - License Amendment Request to Add Cask Loading Restrictions2005-07-21021 July 2005 Arkansas, Unit 2 - License Amendment Request to Add Cask Loading Restrictions ML0513700652005-05-13013 May 2005 ANO, Unit 2 -Technical Specification Pages Elimination of Requirements to Provide Monthly Operating Reports ML0509000042005-03-23023 March 2005 ANO Unit 2, Technical Specification.Pages Request to Support Cycle 18 Core Reload ML0414105232004-05-12012 May 2004 Arkansas, Unit 2, License Amendment Request to Support Cycle 18 Core Reload 1CAN120301, ANO, Unit 1 - Supplement to Amendment Request to Add a New Control Room Emergency Ventilation System Surveillance Requirement2003-12-16016 December 2003 ANO, Unit 1 - Supplement to Amendment Request to Add a New Control Room Emergency Ventilation System Surveillance Requirement ML0325906772003-09-11011 September 2003 Amendment 251 to License Re. Emergency Core Cooling Systems Technical Specification Pages ML0323104992003-08-12012 August 2003 Supplement to Amendment Request to Revise the Spent Fuel Pool Loading Pattern ML0322304332003-08-0808 August 2003 Amendment No. 249, Technical Specifications, Re. Emergency Diesel Generator Allowable Outage Time ML0318907712003-06-30030 June 2003 License Amendment Request, to Revise Spent Fuel Pool Loading Pattern 2CAN050304, Arkansas, Unit 2, License Amendment Request to Change Containment Spray System Surveillance2003-05-0101 May 2003 Arkansas, Unit 2, License Amendment Request to Change Containment Spray System Surveillance 2CAN090202, Arkansas Unit 2, Application for Amendment to License NPF-6 to Amend Technical Specifications to Extend Allowable Outage Time (AOT) for Emergency Diesel Generators (Edgs) from 72 Hours to Maximum of 14 Days2002-09-19019 September 2002 Arkansas Unit 2, Application for Amendment to License NPF-6 to Amend Technical Specifications to Extend Allowable Outage Time (AOT) for Emergency Diesel Generators (Edgs) from 72 Hours to Maximum of 14 Days 2023-09-21
[Table view] |
Text
Entergy Operations, Inc.
- Entergy 1448 S.R. 333 Russellville, AR 72802 Tel 479-858-4888 Jeffery S. Forbes Vice President Operations ANO 2CAN070503 July 21, 2005 U.S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, DC 20555
SUBJECT:
License Amendment Request To Add Cask Loading Restrictions Arkansas Nuclear One, Unit 2 Docket No. 50-368 License No. NPF-6
REFERENCES:
- 1. NRC Regulatory Issue Summary 2005-05, Regulatory Issues Regarding Criticality Analyses for Spent Fuel Pools and Independent Spent Fuel Storage Installations
- 2. Entergy letter to the NRC dated July 7, 2005, Pre-Application Review for License Amendment Request Regarding ANO-2 Cask Loading Pit Criticality Analysis (2CAN070502)
Dear Sir or Madam:
Pursuant to 10 CFR 50.90, Entergy Operations, Inc. (Entergy) hereby requests an amendment to the Technical Specifications (TS) for Arkansas Nuclear One, Unit 2 (ANO-2).
The proposed change will modify TS 3.9.12, Fuel Storage, to define spent fuel loading restrictions for the Holtec International HI-STORM 100 Cask System Multi-Purpose Canister (MPC) -32. Entergy also proposes a change to the licensing bases for the SFP to include the methods, assumptions and results associated with the criticality analysis developed to support loading/unloading of an MPC-32.
The Nuclear Regulatory Commission (NRC) issued Regulatory Issue Summary (RIS) 2005-05, Regulatory Issues Regarding Criticality Analyses for Spent Fuel Pools and Independent Spent Fuel Storage Installations, on March 23, 2005. RIS 2005-05 highlighted differences in the NRC Part 50 criticality requirements for the spent fuel pool and Part 72 requirements for spent fuel storage casks and emphasized that licensees are expected to comply with both Part 50 and Part 72 during cask loading operations. This request results from Entergy's review of the RIS.
M
2CAN070503 Page 2 of 3 Entergy submitted a pre-application review (Reference 2) to discuss the proposed change and provide a basis for continuing loading activities while NRC reviews the proposed change as a non-exigent request. While developing the proposed change, it was identified that the summary of the Part 50 and Part 72 boron concentrations that were included in the pre-application inappropriately reported the Part 72 boron concentration associated with Babcock
& Wilcox (B&AJ fuel rather than Combustion Engineering (CE) 16x1 6 fuel. The summary provided in Attachment 1 is corrected for CE fuel.
The proposed change has been evaluated in accordance with 10 CFR 50.91(a)(1) using criteria in 10 CFR 50.92(c) and it has been determined that this change involves no significant hazards consideration. The basis for this determination is included in the attached submittal.
The proposed change includes new commitments.
Entergy requests approval of this amendment by August 31, 2005, on an exigent basis in accordance with 10 CFR 50.91, paragraph (a)(6). This request meets the criteria of 10 CFR 50.91 (a)(6) because time does not permit the NRC to publish a Federal Register notice allowing 30 days for prior public comment and the requested amendment involves no significant hazards considerations. In accordance with 10 CFR 50.91 (a)(6)(vi), the exigency could not be avoided by Entergy as further discussed in Attachment 1 of this submittal.
If you have any questions or require additional information, please contact Dana Millar at 601-368-5445.
I declare under penalty of perjury that the foregoing is true and correct. Executed on July 21, 2005.
Sincerely, JSF/DM Attachments:
- 1. Analysis of Proposed Technical Specification Changes
- 2. Proposed Technical Specification Changes (mark-up)
- 3. List of Regulatory Commitments
2CAN070503 Page 3 of 3 cc: Dr. Bruce S. Mallett Regional Administrator U. S. Nuclear Regulatory Commission Region IV 611 Ryan Plaza Drive, Suite 400 Arlington, TX 76011-8064 NRC Senior Resident Inspector Arkansas Nuclear One P. 0. Box 310 London, AR 72847 U. S. Nuclear Regulatory Commission Attn: Mr. Drew Holland MS 0-7D1 Washington, DC 20555-0001 Mr. Bernard R. Bevill Director Division of Radiation Control and Emergency Management Arkansas Department of Health 4815 West Markham Street Little Rock, AR 72205
Attachment 1 2CAN070503 Analysis of Proposed Technical Specification Changes to 2CAN070503 Page 1 of 16
1.0 DESCRIPTION
This letter is a request to amend Operating License NPF-6 for Arkansas Nuclear One, Unit 2 (ANO-2).
The proposed change will revise the ANO-2 Technical Specifications (TS) associated with the spent fuel pool (SFP) to assure the regulatory requirements related to criticality in the SFP and applied to Holtec International's HI-STORM Multi-Purpose Canister (MPC-32) when it is in the SFP with the cask loading pit gate open are reflected in the ANO-2 TS. Following approval of the proposed change, changes will be made to the associated TS Bases and ANO-2 Safety Analysis Report (SAR) to reflect the association of the cask with the SFP criticality requirements.
Entergy requests approval of this amendment by August 31, 2005, on an exigent basis in accordance with 10 CFR 50.91, paragraph (a)(6). This request meets the criteria of 10 CFR 50.91 (a)(6) because time does not permit the NRC to publish a Federal Register notice allowing 30 days for prior public comment and the requested amendment involves no significant hazards considerations. In accordance with 10 CFR 50.91(a)(6)(vi), the exigency could not be avoided by Entergy.
Entergy believed that the calculation that considered the requirements of 10 CFR 50.68 for loading/unloading an MPC-32 met the criteria of 10 CFR 50.59 and 10 CFR 50.36 and did not require NRC review and approval. However, based on RIS 2005-05, Entergy submitted a pre-application letter to the NRC outlining the plans to submit a non-exigent TS change and justification for continued operations without prior NRC approval based on guidance contained in Administrative Letter 98-10 and Generic Letter 91-18. In a teleconference between Entergy and the NRC Staff held on July 19, 2005, the NRC stated that they did not believe ANO was in compliance with 10 CFR 50.68 and therefore the proposed change required NRC approval prior to proceeding with cask loading activities.
Currently, should it become necessary, the ANO-2 SFP does not contain enough space to allow a full core offload of fuel in the reactor core. Spent fuel assemblies must be relocated to dry cask storage to regain full core offload capability and to allow for the receipt of new fuel prior to the next ANO-2 refueling outage. An aggressive cask loading campaign has been initiated which is impacted by the need for the approval of the proposed TS change. Entergy could not have avoided the exigency due to the rapidly developing nature of this situation and its applicability to continue to move spent fuel for ANO-2.
Cask loading activities are scheduled to commence on or about September 6, 2005.
2.0 PROPOSED CHANGE
The proposed change to the ANO-2 TSs will modify TS 3.9.12. It has been determined by evaluation that the criticality analysis requirements for the SFP will be met when loading/unloading an MPC-32 in the SFP with the cask loading pit gate open only when loading restrictions are applied. Therefore, the following changes are proposed to ANO-2 TS:
to 2CAN070503 Page 2 of 16
- A new TS Limiting Condition for Operation (LCO) will be added, LCO 3.9.12.d, to identify that there are loading restrictions for the MPC-32 included in TS Figure 3.9-1.
- An additional loading restriction for the MPC-32 will be added as TS Figure 3.9-1.
- A note will be added to the applicability stating that the cask loading pit and tilt pit are considered part of the SFP when their associated gates are open.
- SR 4.9.12.d will be added to verify that fuel assemblies are placed in a storage cask within the limits of Figure 3.9-1 by checking the assemblies' design and burnup documentation.
In summary, the ANO-2 TSs will be modified to govern the fuel loading restrictions related to the Holtec HI-STORM 100 MPC-32. Following approval of the proposed change, Entergy will make changes to the ANO-2 SAR and the ANO-2 TS Bases to appropriately reflect the criticality analysis that was performed for the MPC-32.
3.0 BACKGROUND
NRC Regulatory Issue Summary (RIS) 2005-05 NRC RIS 2005-05, Regulatory Issues Regarding Criticality Analyses for Spent Fuel Pools and Independent Spent Fuel Storage Installations, describes a concern that when loading, unloading or handling a dry cask in the SFP, the requirements of 10 CFR 50.68, Criticality accident requirements, should be met. The RIS notes that the requirements associated with preventing SFP criticality are included in General Design Criteria (GDC) 62, Prevention of criticality in fuel storage and handling and 10 CFR 50.68, Criticality accident requirements.
Requirements associated with detection of SFP criticality events are described in 10 CFR 70.24, Criticality accident requirements. The RIS also highlighted the differences in the NRC Part 50 criticality requirements for the SFP and the Part 72 requirements for the spent fuel storage casks and emphasized that licensees are expected to comply with both Part 50 and Part 72 during cask loading and unloading operations.
ANO-2 Spent Fuel Pool Storage The ANO-2 SFP racks are designed to assure that when fuel assemblies of less than or equal to 4.55 +/- 0.05 weight percent (wt%) Uranium-235 (U-235) are stored within the limits of TS Figure 3.9-2, a subcritical array with the effective neutron multiplication factor (keff) of less than or equal to 0.95 will be maintained when a concentration of 240 parts per million (ppm) of soluble boron is present in the SFP water.
The SFP contains racks that have the capacity of storing 988 spent fuel assemblies. Control components, which have been removed from the reactor core, may be stored in the spent fuel assemblies. In addition, new fuel may be stored in the SFP.
Adjacent to the SFP are two smaller pools. One pool contains the fuel transfer mechanism; the other pool is a loading area for the spent fuel shipping cask. These two pools are connected to the main pool by short water channels and may be isolated from the spent fuel pool by gates. These smaller pools may be pumped down to allow dry handling of spent fuel shipping cask, maintenance of the fuel transfer mechanism, etc.
to 2CAN070503 Page 3 of 16 The ANO-2 SFP is described in detail in Section 9.1.2 of the ANO-2 SAR.
ANO-2 TSs for the SFP The following ANO-2 TSs are related to spent fuel storage or rack criticality.
- TS 3.9.12.a limits fuel enrichment for fuel assemblies stored in the SFP to 4.55 +/- 0.5 wt% U-235.
- TS 3.9.12.b limits fuel storage in the SFP to designated patterns defined in Figure 3.9-2.
- TS 3.9.12.c specifies that boron concentration shall be greater than 2000 ppm in the ANO-2 SFP during storage of fuel in the SFP.
- TS 5.3.1 includes the description of the criticality requirements associated with the design of the spent fuel storage racks.
When the cask pit gate is open to the SFP these TSs apply to the fuel stored in the cask.
SFP Criticality Analysis The objective of the SFP criticality analysis was to ensure that keff is less than or equal to 0.95 with the storage rack fully loaded with fuel of the highest permissible reactivity and the pool flooded with borated water at a temperature corresponding to the highest reactivity. In addition, the analysis demonstrated that keff is less than 1.0 under the assumed accident of the loss of soluble boron in the SFP water. The maximum calculated reactivities include a margin for uncertainty in reactivity calculations, including manufacturing tolerances, and are calculated with a 95% probability at a 95% confidence level.
Criticality of fuel assemblies in the SFP storage racks is prevented by the design of the rack which limits fuel assembly interaction, and by limiting fuel storage to five allowable loading patterns defined in TS Figure 3.9-2. The loading patterns are based on initial enrichment, burnup, cooling time, and the presence of control element assemblies (CEAs) in selected fuel assemblies. During normal conditions a credit of 240 ppm of soluble boron is required in the SFP water to ensure kff is maintained less than or equal to 0.95.
ANO-2 Spent Fuel Storage Accident Analysis When performing the analysis for postulated accidents in the SFP, the double contingency principle of ANS N16.1-1975 was applied. This states that it is unnecessary to assume two unlikely, independent, concurrent events to ensure protection against a criticality accident.
Therefore, for accident conditions, the presence of soluble boron in the SFP water can be assumed as a realistic initial condition since its absence would be a second unlikely event.
Table 1 provides the analytical results for the boron concentration that is required to ensure keff remains below 0.95 for the credible accidents. As required, in all cases the minimum boron concentration (2000 ppm) required by ANO-2 TS 3.9.12.c bounds the analytically determined soluble boron concentration required to assure keff is maintained less than or equal to 0.95.
to 2CAN070503 Page 4 of 16 Table 1 ANO-2 SFP Rack Accident Analysis Boron Requirements ANO-2 SFP Accident Evaluated Boron Concentration (ppm) required to assure ke f* 0.95 Dropped fuel assembly 825 Misloading Accident 825 Misalignment of Active Fuel 2000 Region___________________
ANO-2 Dry Cask Storage The SFP is designed with a spent fuel shipping cask pool that is hydraulically coupled to the SFP through a short water channel or transfer canal. The pool can be isolated from the SFP with the installation of a gate. By letter (Reference 1) to the NRC, Entergy submitted a request to increase the heavy loads limits associated with the ANO spent fuel crane. The NRC approved (Reference 2) the use of the upgraded L-3 crane for below-the-hook loads up to 130 tons, which is the design capacity of the new single-failure-proof crane. These letters (References 1 and 2) also included the recognition that when the gate is closed between the spent fuel shipping cask pool and the SFP, the spent fuel shipping cask pool is no longer consider part of the SFP.
Spent fuel cannot be stored in the transfer canal or in the cask storage area. Spent fuel is only moved into the vicinity of the MPC for the purpose of loading the spent fuel in the MPC.
Three dry cask storage designs are used at ANO-2; the Pacific Sierra Nuclear Associates' Ventilated Storage Cask (VSC-24), the Holtec International's HI-STORM 100 Cask MPC-24, and the HI-STORM MPC-32. The casks are described in their associated SAR, Certificate of Compliance (CoC), the ANO site specific storage cask specifications, drawings, and engineering documents. The HI-STORM MPC-32 is the primary cask used to store ANO-2 fuel assemblies.
4.0 TECHNICAL ANALYSIS
A criticality analysis was performed to ensure that kff is less than or equal to 0.95 with an MPC-32 cask fully loaded with fuel of the highest permissible reactivity. For normal.
conditions, the MPC-32 was analyzed with no credit for boron, and for accident conditions, credit for soluble boron was permitted. It was conservatively assumed that the initial U-235 fuel enrichment was 4.95 wt% with a tolerance of 0.05 wt%. The use of this enrichment and tolerance in the analyses of the normal storage and accident cases bounds the current allowable fuel enrichment for fuel assemblies stored in the SFP of 4.55 +/- 0.5 wt%
(TS 3.9.12.a and 5.3.2.a). The maximum calculated reactivity values included a margin for uncertainty in reactivity calculations, manufacturing tolerances, and temperature effects, and were calculated with a 95% probability at a 95% confidence level.
to 2CAN070503 Page 5 of 16 The Combustion Engineering (CE) 16 x 16 fuel assembly is the only fuel type used at ANO-2.
The design specifications for the CE fuel assemblies, as used in the analysis, are provided in Table 2:
Table 2 Fuel Assembly Specifications Assembly Data Rod Array Size 16 x 16 Rod Pitch (inches) 0.506 Total Length (inches) 176.803 Active Fuel Length (inches) 150 Fuel Rod Data Total Number of Fueled Rods 236 Fuel Rod Outer Diameter (inches) 0.382 Fuel Rod Inner Diameter (inches) 0.332 Cladding Thickness (inches) 0.025 Cladding Material Zircaloy Pellet Diameter (inches) 0.3255 UO2 Stack Density (gm/cc) 10.522 Guide Tube Data Number of Tubes 5 Tube Outer Diameter (inches) 0.980 Tube Thickness (inches) 0.040 Tube Material Zircaloy A slightly larger than nominal pellet diameter was modeled in the criticality analyses to account for any pellet uncertainties.
CASK CRITICALITY ANALYTICAL METHODOLOGY The principle methods for the criticality analysis for loading/unloading the cask in the SFP were performed using the following NRC approved computer codes:
0 Monte Carlo code MCNP4a CASMO-4 MCNP4a is a continuous energy three-dimensional Monte Carlo code developed at Los Alamos National Laboratory. MCNP4a was the primary code used in the MPC-32 criticality calculations. Benchmark calculations indicate a bias of 0.0009 with an uncertainty of +/-0.0011 for MCNP4a, evaluated with a 95% probability at the 95% confidence level. The MCNP code bias effect was also applied directly in each of the final ket calculations as a bias. The relative statistical error was calculated in each MCNP run, and the two sigma value was included as an uncertainty.
The convergence of a Monte Carlo criticality problem is sensitive to the following parameters:
the number of histories per cycle; the number of cycles skipped before averaging; the total number of cycles; and the initial source distribution. The MCNP4a criticality output contains a great deal of useful information that may be used to determine the acceptability of the
Attachment I to 2CAN070503 Page 6 of 16 problem convergence. This information has been used in parametric studies to develop appropriate values for the aforementioned four criticality parameters to be used in criticality calculations. Based on these studies, the final calculations use a minimum of 10,000 histories per cycle, a minimum of 25 cycles were skipped before averaging, a minimum of 100 cycles were accumulated, and the initial source was specified as uniform over the fueled regions (assemblies).
Fuel depletion analyses during core operations were performed with CASMO-4. CASMO-4 is a two-dimensional multi-group transport theory code developed by Studsvik of Sweden.
CASMO-4 performs cell criticality calculations and burnup. CASMO-4 has the capability of analytically restarting burned fuel assemblies in an infinite representation of the MPC-32 configuration. This code was used to determine the isotopic composition of the fuel and the reactivity effects of tolerances (e.g., manufacturing tolerances of the MPC-32 basket and fuel enrichment tolerances) and fuel depletion. For spent fuel criticality calculations in the MPC-32, some of the fission product isotope concentrations including Xenon-1 35 in the fuel were conservatively set to zero.
To perform the criticality evaluation for spent fuel in MCNP, the isotopic composition of the fuel was calculated with the depletion code CASMO and then specified as input data in the MCNP run. The CASMO calculations used to obtain the isotopic compositions for MCNP were performed generically, with one calculation for each enrichment, and burnups in increments of 2.5 gigawatt days per metric ton of Uranium (GWD/MTU) or less. The isotopic composition for any given burnup was then determined by linear interpolation.
Initially, fuel loaded into the reactor will burn with a slightly skewed cosine power distribution.
As burnup progresses, the burnup distribution will tend to flatten, becoming more highly burned in the central regions than in the upper and lower ends. At high burnup, the more reactive fuel near the ends of the fuel assembly (less than average burnup) occurs in regions of lower reactivity worth due to neutron leakage. Consequently, it would be expected that over most of the burnup history, distributed burnup fuel assemblies would exhibit a slightly lower reactivity than that calculated for the average burnup. As burnup progresses, the distribution, to some extent, tends to be self-regulating as controlled by the axial power distribution, precluding the existence of large regions of significantly reduced burnup.
Generic analytic results of the axial burnup effect for assemblies without axial blankets were provided based upon calculated and measured axial burnup distributions. These analyses confirmed the minor and generally negative reactivity effect of the axially distributed burnup, becoming positive at burnups greater than about 30 GWD/MTU. The trends observed suggest the possibility of a small positive reactivity effect above 30 GWD/MTU increasing to slightly over 1% Ak at 40 GWD/MTU. To assess the effect of axial burnup distribution on the reactivity, the MCNP criticality calculations were carried out. The calculations indicate that the uniform axial burnup yields higher multiplication factor. To maintain conservative conditions, the uniform axial bumup was deployed in criticality calculations.
Pool water temperature effects on reactivity were calculated with CASMO-4. The results show that the spent fuel pool temperature coefficient of reactivity is negative, i.e. a lower temperature results in a higher reactivity. In MCNP, the Doppler treatment and cross-sections are valid only at 300K (27°C). Therefore, a Ak was determined in CASMO-4 from 300K to 273K, and was included in the final keff calculation as a bias. Based on this, the moderator temperature was treated as 1.0 g/cc in the analysis.
to 2CAN070503 Page 7 of 16 Uncertainties The uncertainties were statistically combined via square root of the sum of the squares. The statistical combination of uncertainties plus the biases were added to the MCNP calculated keff in order to determine the maximum keff. The maximum keff was then verified to meet the requirements of 10 CFR 50.68. Since the analysis did not credit soluble boron under normal conditions, itwas necessary to demonstrate that keff was less than 0.95 with the MPC flooded with fresh water. The maximum calculated reactivities were calculated with a 95% probability at a 95% confidence level. Reactivity effects of accident conditions were also evaluated to assure that under all credible conditions, the reactivity will not exceed the regulatory limit of 0.95, considering the presence of an acceptable soluble boron level.
Depletion Calculations Since critical experiment data with spent fuel is not available for determining the uncertainty in burnup-dependent reactivity calculations, an allowance for uncertainty in reactivity was assigned based upon other considerations. Assuming the uncertainty in depletion calculations is less than 5% of the total reactivity decrement; a burnup dependent uncertainty in reactivity for burnup calculations may be assigned. The depletion uncertainty was determined using two MCNP calculations, one with the highest burnup fuel and one with fresh fuel of the same enrichment. The depletion uncertainty was then equal to 5% of the difference in kiff between the two cases.
Eccentric Fuel Assembly Positioning The base criticality calculations assumed that the fuel assemblies are centered within their respective basket cells. To account for shifting of assemblies within the cell that result in a more reactive configuration, MCNP calculations were performed to obtain an eccentric positioning uncertainty. One model had all assemblies shifted towards the center of the basket, and the other model had all assemblies shifted towards the periphery of the basket.
The more reactive of the two cases was compared with the nominal and the difference was used as the uncertainty.
MPC-32 DESIGN The MPC-32 basket geometry model is based on the MPC-32 licensing drawings in conjunction with the MPC-32 design drawings and the basic layout drawing is provided in Figure 1. The MPC-32 is placed within a transfer cask and is positioned within the ANO-2 cask loading pit.
to 2CAN070503 Page 8 of 16
~Fuel Cell Sheai
- - - - Location I/MB oralMetarmic and Sheathing Figure 1, MPC-32 Basket The criticality calculation adequately represents an MPC-32 loaded into a transfer cask; however, the system was not modeled exactly. The basket and fuel assembly characteristics that are of most important to the criticality evaluation were modeled. Differences between the model and the actual configuration were either conservative or have insignificant effects on reactivity and are listed below:
- 1. Only the active region of the fuel assembly was explicitly modeled. This included the basket poison material and the sheathing.
- 2. Six inches of water was modeled above the active fuel, followed by 15.5 inches of steel.
- 3. Four inches of water was modeled below the active fuel followed by 8.5 inches of steel.
- 4. Radially, the MPC-32 basket was inscribed in a 67.378 inch diameter cylinder of water, followed by 9 inches of steel.
- 5. The MPC-32 shell internals were not modeled.
- 6. The MPC-32 basket plates radially extend through the exterior water to the steel.
- 7. Material composition of the structural materials was considered to be stainless steel.
- 8. The poison material was modeled as a homogenous material with an elemental composition representative of Boral panels. The B-1 0 areal density of the poison material was assumed to be 0.031 g/cm 2, consistent with the proposed B-1 0 areal density for Metamic poison panels in the MPC-32. This value bounds the minimum required B-10 loading for Boral of 0.0372g/ cm2. Boral and Metamic have been demonstrated as identical from a criticality perspective. Therefore, this analysis is valid for an MPC-32 cask with either Metamic or Boral as the poison material.
- 9. A cell wall (basket plate) thickness tolerance of 0.06 inches was used.
- 10. The MPC-32 was assumed to be located in a HI-STAR overpack which bounds the Hl-TRAC.
- 11. The MPC-32 nominal fuel assembly cell pitch used is 9.158".
to 2CAN070503 Page 9 of 16 ANALYSES CONSIDERATIONS The following assumptions were employed in the analysis:
- 1. All depletion calculations were performed with 3 years of cooling time credited, which bounds the minimum cooling time allowed for spent fuel storage in the MPC-32.
- 2. Neutron absorption in minor structural members was neglected, i.e., spacer grids were replaced with water.
- 3. No credit was taken for the potential presence of control components in fuel assemblies when the assemblies are in the MPC-32.
- 4. The clad pellet gap was conservatively assumed to be flooded with water.
- 5. The MPC-32 and the HI-TRAC are located in the cask pit area, which is assumed to be neutronically isolated from the rest of the SFP because the loaded fuel will be at least 12 inches from fuel stored in the adjacent racks. Therefore interfaces need not be considered.
- 6. The pellet outside dimension was modeled at 0.3255 inches, which bounds the actual 0.325 inch dimension.
Table 3 shows the relationship between the Part 50 and Part 72 fuel enrichment allowances and analytical assumptions, as well as the center to center distance between fuel assemblies placed in either the SFP racks or in the MPC-32. It is clearly demonstrated that the requirements of ANO-2 TS 3.9.12.a is bounding. The center to center distance between fuel assemblies in the MPC-32 is smaller than the center to center distance between fuel assemblies in the fuel racks.
Table 3 SFP Rack Verse MPC-32 Enrichment and Cell Pitch Requirements Center to Center Distance Fuel Enrichment between Fuel Assemblies in (wt%) Storage Racks ANO-2 TS 3.9.12.a I TS 5.3.1.d 4.55 +/- 0.05 (TS 3.9.12.a) Nominal 9.8 (TS 5.3.1.d)
MPC-32 Part 50 Analysis Assumption 4.95 9.158 MPC-32 Part 72 Analysis Assumption 5.0 (CoC. Appendix B) 9A x B)
SUMMARY
OF MPC-32 CRITICALITY ANALYSES The maximum calculated reactivity values included the effects of uncertainties and basis in each reactivity calculation, calculated with a 95% probability at a 95% confidence level.
Table 4 summarizes these effects.
to 2CAN070503 Page 10 of 16 Table 4 Keff Adjustment for Uncertainties and Biases Uncertainties Bias Uncertainty (95%/95%) 0.0011 Calculational Statistics (95%/95%, 2.Oxa) 0.0016 Min Cell ID, Reduced Pitch 0.0033 Increased box thickness, Reduced Inside Diameter 0.0040 Fuel Enrichment Tolerance 0.0020 Depletion 0.0097 Eccentric Positioning 0.0050 Statistical Combination of Uncertainties 0.0124 Biases Calculational Bias 0.0009 Temperature Ak (from 300K to 273K) 0.0030 0.0164 Total keff Adjustment (Note 1)
Note 1: Round-off is included.
In order to assure keff does not exceed the 10 CFR 50.68 limit of 0.95 with no credit for soluble boron, fuel assembly burnup and fission product decay was credited. The calculations were performed with credit for 3 years of decay in the changes in fission product concentrations.
Calculations for various U-235 fuel enrichments were performed to determine acceptable minimum burnups up to a bounding value of 4.95 wt%. The enrichments were varied from 2.5 wt% to 4.95 wt%. The burnup verse enrichment values are tabulated in Table 5, and are plotted in the proposed TS Figure 3.9-1 in Attachment 2. A bounding linear equation was established based on this data yielding the following:
FA BU 2 9E -16 (GWDIMTU)
FA CT ? 3 (years)
Where FA BU = Fuel assembly burnup E = Initial average fuel assembly enrichment FA CT = Fuel assembly cooling time from last at power operations For an assembly with 3 years or greater cooling time an assembly will have to obtain a burnup greater than the calculated value using this equation for a given average fuel assembly enrichment.
The Part 50 analysis concluded that keff would remain below 0.95 when fuel was loaded/unloaded in the MPC-32 when a combination of cooling time, burnup and initial enrichment was considered prior to inserting the assembly in the MPC-32 basket. The associated loading restrictions represent the proposed change to the ANO-2 TS.
Attachment I to 2CAN070503 Page 11 of 16 Table 5 Enrichment Verses Burnup for an MPC-32 with CE 16 x 16 Fuel and 3 Years Cooling Time Enrichment 235U wt% Burnup (GWD/MTU) keff 2.2 0 0.9494 2.5 5 0.9367 3.0 10 0.9384 3.5 15 0.9413 4.0 19 0.9475 4.5 24 0.9453 4.95 28 0.9482 Abnormal and Accident Conditions The Part 50 analysis also evaluated the effects on reactivity for credible abnormal and accident conditions. There are fuel handling scenarios described below that can be postulated to increase reactivity. However, for these accident conditions, the double contingency principle of ANS N16.1-1975 is applied. This states that it is unnecessary to assume two unlikely, independent, concurrent events to ensure protection against a criticality accident. Thus, for accident conditions, the presence of soluble boron in the storage pool water can be assumed as a realistic initial condition since its absence would be a second unlikely event.
For the abnormal operating condition where there is a loss of SFP Cooling, boiling or the creation of voids could occur. These water density and temperature effects on reactivity have been calculated and the results show that the SFP temperature coefficient for the MPC-32 reactivity is negative, and that introducing voids in the water internal to the storage cell (to simulate boiling) further decreases reactivity. The soluble boron in the SFP water assures that the true reactivity is always less than the limiting value for this abnormal condition.
Two types of drop accidents have been considered: a vertical drop accident and a horizontal drop accident. The current TS SFP boron concentration of 2000 ppm ensures that the fuel remains in a subcritical array for both of these drop accidents.
- A vertical drop resulting in an assembly leaning immediately adjacent to the HI-TRAC overpack would have an insignificant effect on reactivity due the thickness of the HI-TRAC overpack itself (at least 12 inches) between loaded assemblies and the dropped assembly.
- A fuel assembly dropped on top of the MPC-32 basket will come to rest horizontally on top of the MPC since the assembly is longer than the diameter of the HI-TRAC overpack. Even if the assembly were to land partially on top of the basket, there would be approximately 12 inches of space between active fuel regions, which is sufficient to preclude interaction between the dropped assembly and the stored fuel.
It is also possible to vertically drop an assembly into a location occupied by another assembly. Such a vertical impact would, at most, cause a small compression of the stored assembly, reducing the water-to-fuel ratio and thereby reducing reactivity. In addition the distance between the active fuel regions of both assemblies will be more than sufficient to to 2CAN070503 Page 12 of 16 ensure no neutron interaction between the two assemblies. The soluble boron in the SFP water assures that the true reactivity is always less than the limiting value for this dropped fuel accident.
Analyses were performed to evaluate misalignment of the active fuel region within a MPC-32 by means of a dropped fuel assembly. A very conservative bounding accident condition was analyzed postulating the loss of all absorber material throughout the entire basket. For this accident analysis, a 950 ppm soluble boron concentration was assumed which is below the Unit 2 minimum SFP TS limit of 2000 ppm. The results of this postulated accident condition shows that the maximum keff, including bias and tolerance uncertainties, is below 0.95. This is a very conservative evaluation since an actual dropped assembly at most would be expected to only damage absorber panels in and around one cell.
The misplacement of a fresh unburned fuel assembly was performed with fresh fuel assemblies with an U-235 enrichment up to 5.0 wt%. The results of the analyses demonstrate that a misplacement event would require the presence of 400 ppm soluble boron in the pool water to ensure a five percent subcriticality margin.
As discussed in Section 9.1.2 of the ANO-2 SAR, a dilution event is a credible event. The impact on criticality within the MPC-32 was addressed by performing the analysis to show that kff remains below 0.95 when fully flooded with unborated water. Table 6 shows the relationship between the Part 50 and Part 72 criticality analysis that were performed in relationship to boron concentration. The conclusions clearly reflect that the ANO-2 TS 3.9.12.c minimum boron requirements (i.e., SFP boron concentration > 2000 ppm) ensure kff remains below 0.95 in all postulated accident conditions.
Table 6 Summary of Part 50 and Part 72 Boron Concentraion Requirements Ciiaiy Critilty Misloading Accident Dropped Fuel Misalignment of TS Assumptions Analysis Assembly Active Fuel Criticality Boron Boron Any Boron Region Analysis Concentration Concentration Boron Concentration Boron (ppm) (ppm) Concentration (ppm) Concentration keff S0.95 (ppm) kef *0.95 (ppm) kef *095keff *0.95 SFP Part 50 >2000 240 825 825 2000 MPC-32 >2000 0 400 0 950 Part 50 1900 not ale onyd taz MPart32 >190033. 1900 not analyzed not analyzed not analyzed HI-STORM 100 MPC-32 Conclusions By imposing loading/unloading restrictions on fuel that will be loaded in the MPC-32 in accordance with the proposed TS 3.9.12.d, 10 CFR 50.68 criticality requirements are satisfied. Adherence to the loading/unloading restrictions ensures that k, remains below 0.95 with no credit for soluble boron at a 95% probability with a 95% confidence level.
to 2CAN070503 Page 13 of 16 The accidents that have been postulated to occur in the SFP were analyzed for the MPC-32.
The maximum boron concentration requirement was determined to be 950 ppm. The calculations were performed to show kff remains below 0.95 at a 95% probability with a 95%
confidence level. The ANO-2 TS requirement to maintain boron concentration greater than 2000 ppm is bounding and therefore no change is required.
5.0 REGULATORY ANALYSIS
5.1 Applicable Regulatory Requirements/Criteria The proposed changes have been evaluated to determine whether applicable regulations and requirements continue to be met.
Because no design changes are associated with Spent Fuel Pool (SFP) storage or handling systems to support loading/unloading a Holtec International Multi-Purpose Canister (MPC)-32, the following 10 CFR 50, Appendix A, General Design Criteria (GDC) remain satisfied:
- GDC 61 - Fuel Storage and Handling Radioactivity Control
- GDC 62 - Prevention of Criticality in Fuel Storage and Handling
- GDC 63 - Monitoring Fuel and Waste Storage Arkansas Nuclear One, Unit 2 (ANO-2) complies with the requirements of 10 CFR 50.68, Criticalityaccident requirements.
Entergy has determined that the proposed changes do not require any exemptions or relief from regulatory requirements, and do not affect conformance with any GDC differently than described in the Safety Analysis Report (SAR). Entergy has determined that a Technical Specification (TS) change is appropriate to support loading/unloading an MPC-32.
5.2 Evaluation of 10 CFR 50.36 Criteria in Consideration for Modification of ANO-2 Technical Specifications Section 182a of the Atomic Energy Act of 1954, as amended, requires applicants for nuclear power plant operating licenses to include technical specifications as a part of the license. The NRC regulatory requirements related to the content of TSs are set forth in 10 CFR 50.36, which requires that the TSs include items in five specific categories, specifically (1) safety limits, limiting safety system settings and limiting control settings; (2) limiting conditions for operation (LCO); (3) surveillance requirements (SR); (4) design features; and (5) administrative controls.
10 CFR 50.36 sets forth the following four criteria to be used in determining whether an LCO is required to be included in the TSs:
to 2CAN070503 Page 14 of 16 (1) Installed instrumentation that is used to detect, and indicate in the control room, a significant abnormal degradation of the reactor coolant pressure boundary (RCPB):
(2) A process variable, design feature, or operating restriction that is an initial condition of a design basis accident (DBA) or transient analysis that either assumes the failure of or presents a challenge to the integrity of a fission product barrier; (3) A structure, system, or component (SSC) that is part of the primary success path and which functions or actuates to mitigate a DBA or transient that either assumes the failure of or presents a challenge to the integrity of a fission product barrier, or (4) An SSC which operating experience or probabilistic risk assessment (PRA) has shown to be significant to public health and safety.
The results indicate that the ANO-2 TS for SFP boron concentration provides adequate margin and assurance that during fuel loading/unloading activities in an MPC-32, a subcritical margin of at least 5% is maintained. The analyses also demonstrated that required subcriticality margins are maintained in the event of a postulated accident or credible abnormal condition.
Entergy believes that the four criteria of 10 CFR 50.36 are met as related to loading/unloading an MPC-32 when loading restrictions related to burnup, fuel enrichment and decay time are considered. Therefore, for consistency with the current philosophy of the ANO-2 TS, a change is proposed to add loading restrictions for the MPC-32 to the ANO-2 TS.
5.3 No Significant Hazards Consideration Entergy Operations, Inc. has evaluated whether or not a significant hazards consideration is involved with the proposed amendment(s) by focusing on the three standards set forth in 10 CFR 50.92, Issuance of Amendment, as discussed below.
The Arkansas Nuclear One, Unit 2 (ANO-2) Technical Specifications (TS) govern the spent fuel pool (SFP) boron concentration, the maximum Uranium-235 (U-235) fuel enrichment that can be stored in the SFP, and the loading restrictions based on cooling time, initial fuel enrichment, and fuel burnup. In addition, the ANO-2 TSs govern the criticality requirements, which include maintaining the effective multiplication factor (kef) less than or equal to 0.95 associated with fuel stored in the SFP. Spent fuel pool loading is also governed by requirements in the Code of Federal Regulations (CFR), specifically 10 CFR 50.68, Criticality Accident Requirements. Criticality evaluations are performed for spent fuel that will be stored in the SFP based on the requirements set forth in 10 CFR 50.68.
When loading an MPC-32, a loading restriction is required to ensure the margins to criticality are maintained for both normal and postulated accident conditions. The ANO-2 TS boron concentration in conjunction with the loading restriction ensures the requirements of 10 CFR 50.68 are met while loading/unloading fuel into a storage cask.
The TS governing activities in the SFP will be modified to include loading restrictions for the MPC-32.
to 2CAN070503 Page 15 of 16
- 1. Does the proposed change involve a significant increase in the probability or consequences of an accident previously evaluated?
Response: No.
The fuel handling accidents described below can be postulated to increase reactivity.
However, for these accident conditions, the double contingency principle of ANS N16.1-1975 is applied. This states that it is unnecessary to assume two unlikely, independent, concurrent events to ensure protection against a criticality accident.
Thus, for accident conditions, the presence of soluble boron in the SFP water can be assumed as a realistic initial condition since its absence would be a second unlikely event.
Loading/unloading a storage cask in the SFP does not affect the previously evaluated fuel handling accidents (i.e., criticality effects) in the SFP. The ANO-2 TS for SFP boron concentration ensures subcritical conditions in the SFP during fuel movement activities, whether within the SFP racks or to a storage cask during normal and accident conditions.
The cask configuration for the storage cask (MPC-32) is sufficiently similar to spent fuel racks in the SFP as to not induce new or different spent fuel assembly damage in the unlikely event of the occurrence of a fuel handling accident during storage cask loading/unloading activities. The fuel handling accident includes four drop scenarios (fuel drop horizontally on a cask, fuel drop on a fuel assembly, fuel drop next to a cask, and a fuel drop on the cask basket). The same equipment and procedural controls for controlling fuel within the SFP are utilized when loading/unloading a storage cask. In addition, the postulated fuel handling accidents associated with loading/unloading a storage cask are bounded by current ANO-2 TS SFP requirements for minimum boron concentration.
Loading/unloading a storage cask will have no impact on the boron dilution event probability. The same controls for prohibiting a dilution event during spent fuel movement activities in the SFP are in use when loading/unloading fuel in a cask located in the cask pit.
Therefore, the proposed change does not involve a significant increase in the probability or consequences of an accident previously evaluated.
- 2. Does the proposed change create the possibility of a new or different kind of accident from any accident previously evaluated?
Response: No.
The storage casks have the same basic design and control of a SFP rack. The cask cell walls are thicker than the SFP rack walls; the outside wall on the cask is thicker than the SFP racks and the space for mishandling is tighter than around the racks.
When the cask loading pit gate is open and the Technical Specifications are applicable, the pit is in direct communications with the spent fuel pool. Boron concentrations and decay heat removal for fuel in the cask loading pit is controlled in the same manner as it is for fuel in the spent fuel pool proper.
to 2CAN070503 Page 16 of 16 An accident analysis for the MPC-32 was performed assuming the same SFP rack accidents that are discussed in the ANO-2 SAR. The ANO-2 TS boron concentration assures that a subcritical margin is maintained during any postulated accident condition (i.e., keff is less than or equal to 0.95).
Therefore, the proposed change does not create the possibility of a new or different kind of accident from any previously evaluated.
- 3. Does the proposed change involve a significant reduction in a margin of safety?
Response: No.
The ANO-2 TSs require for criticality concerns in the SFP that keff remain less than or equal to 0.95. For the MPC-32, the criticality analysis demonstrated that when the ANO-2 TS for SFP boron concentration is met, a loading restriction is required to ensure kff remains less than or equal to 0.95. The proposed change to the ANO-2 TS will ensure the criticality margin is maintained.
Therefore, the proposed change does not involve a significant reduction in a margin of safety.
Based on the above, Entergy concludes that the proposed amendment(s) present no significant hazards consideration under the standards set forth in 10 CFR 50.92(c), and, accordingly, a finding of 'no significant hazards consideration" is justified.
5.4 Environmental Considerations The proposed amendment does not involve (i) a significant hazards consideration, (ii) a significant change in the types or significant increase in the amounts of any effluent that may be released offsite, or (iii) a significant increase in individual or cumulative occupational radiation exposure. Accordingly, the proposed amendment meets the eligibility criterion for categorical exclusion set forth in 10 CFR 51.22(c)(9). Therefore, pursuant to 10 CFR 51.22(b), no environmental impact statement or environmental assessment need be prepared in connection with the proposed amendment.
6.0 REFERENCES
- 1. Entergy letter to the NRC dated February 24, 2003, 'Proposed License Amendment for Increase in Handling Heavy Loads for Arkansas Nuclear One's Spent Fuel Crane" (OCAN020307)
- 2. NRC letter to Entergy dated July 25, 2003, "Issuance of Amendments RE: Allowing the use of the Spent Fuel Crane to Lift Heavy Loads in Excess of 100 Tons (TAC NOS. MB7799 AND MB7800) (OCNA070304)
- 3. Entergy letter to the NRC dated July 7, 2005, Pre-Application Review for License Amendment Request Regarding ANO-2 Cask Loading Pit Criticality Analysis (2CAN070502)
Attachment 2 2CAN070503 Proposed Technical Specification Changes (mark-up)
REFUELING OPERATIONS FUEL STORAGE LIMITING CONDITION FOR OPERATION 3.9.12.a Storage in the spent fuel pool shall be restricted to fuel assemblies having initial enrichment less than or equal to 4.55 +/- 0.05 w/o U-235. The provisions of Specification 3.0.3 are not applicable.
3.9.12.b Storage in the spent fuel pool shall be further restricted by the limits specified in Figure 3.9.2. The provisions of Specification 3.0.3 are not applicable.
3.9.12.c The boron concentration in the spent fuel pool shall be maintained (at all times) at greater than 2000 parts per million.
3.9.12.d Storage in the MPC-32 shall be further restricted by the limits specified in Figure 3.9-1. The provisions of Specification 3.0.3 are not applicable.
APPLICABILITY: During storage of fuel in the spent fuel pool (Note: The tilt pit and cask loading pit are considered part of the spent fuel pool when their respective gates are open).
ACTION:
Suspend all actions involving the movement of fuel in the spent fuel pool if it is determined a fuel assembly has been placed in an incorrect location until such time as the correct storage location is determined. Move the assembly to its correct location before resumption of any other fuel movement.
Suspend all actions involving the movement of fuel in the spent fuel pool if it is determined the pool boron concentration is less than 2001 ppm, until such time as the boron concentration is increased to 2001 ppm or greater.
SURVEILLANCE REQUIREMENTS 4.9.12.a Verify all fuel assemblies to be placed in the spent fuel pool have an initial enrichment of less than or equal to 4.55 +/- 0.05 w/o U-235 by checking the assemblies' design documentation.
4.9.12.b Verify all fuel assemblies to be placed in the spent fuel pool are within the limits of Figure 3.9.2 by checking the assemblies' design and bumup documentation.
4.9.12.c Verify at least once per 31 days the spent fuel pool boron concentration is greater than 2000 ppm.
4.9.12.d Verify all fuel assemblies to be placed in a storage cask are within the limits of Figure 3.9-1 by checking the assemblies' design and burnup documentation.
ARKANSAS - UNIT 2 3/4 9-14 Amendment No. 43,47-8,224,250,
Figure 3.9-1 Loading Restrictions for MPC-32 (Fuel Cooling Time > 3 years) 30i on-Restricted Acceptable Region 20.
~100_
ox-.
52 7 2Unaccept4able C3 Initial Enrichment (wt% U-235)
ARKANSAS -UNIT 2 3/4 9-15 Amendment No. 43,M,
Attachment 3 2CAN070503 List of Regulatory Commitments to 2CAN070503 Page 1 of I List of Regulatory Commitments The following table identifies those actions committed to by Entergy in this document. Any other statements in this submittal are provided for information purposes and are not considered to be regulatory commitments.
TYPE (Check one) SCHEDULED ONE- CONTINUING COMPLETION COMMITMENT TIME COMPLIANCE DATE (If ACTION Required)
The ANO-2 SAR will be modified for MPC-32 to x reflect the assumptions and conclusions of the criticality analyses performed using the criticality analysis requirements associated 10 CFR 50.68.