Letter Sequence Supplement |
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CAC:MF6363, Clarify Application of Setpoint Methodology for LSSS Functions (Approved, Closed) |
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Category:Letter
MONTHYEARML23304A1422024-02-0101 February 2024
Issuance of Environmental Scoping Summary Report Associated with the U.S. Nuclear Regulatory Commission Staffs Review of the Oconee Nuclear Station, Units 1, 2, & 3, Subsequent License Renewal Application
ML24005A2492024-01-24024 January 2024
Exemption from Select Requirements of 10 CFR Part 73 (Security Notifications, Reports, and Recordkeeping and Suspicious Activity Reporting)
IR 05000269/20243012024-01-11011 January 2024
Notification of Licensed Operator Initial Examination 05000269/2024301, 05000270/2024301, and 05000287/2024301
ML23331A7982023-12-14014 December 2023
Review of the Fall 2022 Steam Generator Tube Inspection Report (01R32)
ML23262A9672023-12-13013 December 2023
Alternative to Use RR-22-0174, Risk-Informed Categorization and Treatment for Repair/Replacement Activities in Class 2 and 3 Systems Section XI, Division 1
ML23317A3462023-11-14014 November 2023
Duke Fleet - Correction Letter to License Amendment Nos. 312 & 340 Issuance of Amendments Regarding the Adoption of Technical Specifications Task Force Traveler TSTF-554, Revision 1
IR 05000269/20230032023-11-14014 November 2023
Integrated Inspection Report 05000269/2023003, 05000270/2023003, and 05000287/2023003; and IR 07200040/2023001; and Exercise of Enforcement Discretion
ML23219A1402023-10-10010 October 2023
Audit Report Proposed Alternative to Use ASME Code Case N-752, Risk Informed Categorization and Treatment for Repair/Replacement Activities in Class 2 and 3 Systems XI, Division 1
ML23269A1102023-10-0606 October 2023
Letter to Steven Snider-Revised Schedule for the Environmental Review of the Oconee Nuclear Station, Unit 1, 2, and 3, Subsequent License Renewal Application
ML23256A0882023-09-25025 September 2023
Issuance of Alternative to Steam Generator Welds
ML23195A0782023-08-29029 August 2023
Issuance of Amendments Regarding the Adoption of Technical Specifications Task Force Traveler TSTF-554, Revision 1
IR 05000269/20230112023-08-25025 August 2023
Comprehensive Engineering Team Inspection Report 05000269/2023011 and 05000270/2023011 and 05000287/2023011
IR 05000269/20230052023-08-25025 August 2023
Updated Inspection Plan for Oconee Nuclear Station Units 1, 2 and 3 (Report 05000269/2023005, 05000270/2023005, and 05000287/2023005)
IR 05000269/20230022023-07-28028 July 2023
Integrated Inspection Report 05000269/2023002, 05000270/2023002 and 05000287/2023002
ML23208A0972023-07-27027 July 2023
Subsequent License Renewal List of Threatened and Endangered Species That May Occur in Your Proposed Project Location or May Be Affected
IR 05000269/20230102023-07-19019 July 2023
Biennial Problem Identification and Resolution Inspection Report 05000269/2023010 and 05000270/2023010 and 05000287/2023010 and Notice of Violation
ML23178A0682023-07-0303 July 2023
Audit Plan Proposed Alternative to Use ASME Code Case N-752, Risk-Informed Categorization and Treatment for Repair/Replacement Activities in Class 2 & 3 Systems Section XI, Division 1
ML23132A2392023-06-0101 June 2023
Summary of the April 2023 Remote Environmental Audit Related to the Review of the Subsequent License Renewal Application
ML23144A0192023-05-25025 May 2023
Review of the Spring 2022 Steam Generator Tube Inspection Report (O3R31)
IR 05000269/20230012023-05-12012 May 2023
Integrated Inspection Report 05000269/2023001 and 05000270/2023001 and 05000287/2023001
ML23121A0552023-05-0303 May 2023
Acknowledgement of Withdrawal Request to Revise TS 5.5.2 Containment Leakage Rate Testing Program
ML23118A0762023-05-0101 May 2023
Approval for Use of Specific Provision of a Later Edition of the American Society of Mechanical Engineers Boiler and Pressure Vessel Code, Section XI
ML23117A0432023-04-20020 April 2023
Framatome, Inc., Part 21 Notification of Existence of a Defect
ML23075A0732023-04-0505 April 2023
License Renewal Regulatory Audit Regarding the Environmental Review of the Subsequent License Renewal Application Supplement (EPID Number L-2021-SLE-0002)
ML23045A1332023-03-15015 March 2023
Request for Scoping Comments Concerning the Supplemental Environmental Review of Oconee Nuclear Station, Units 1, 2, and 3, Subsequent License Renewal Application - Achp Letter
ML23045A1402023-03-15015 March 2023
Request for Scoping Comments Concerning the Supplemental Environmental Review of Oconee Nuclear Station, Units 1, 2, and 3, Subsequent License Renewal Application - Shpo Letter
ML23045A1432023-03-15015 March 2023
Request for Scoping Comments Concerning the Supplemental Environmental Review of Oconee Nuclear Station, Units 1, 2, and 3, Subsequent License Renewal Application - State Tribe Letter
ML22332A4932023-03-10010 March 2023
William States Lee III 1 and 2 - Issuance of Amendments Regarding the Relocation of the Emergency Operations Facility
ML23069A1102023-03-10010 March 2023
Notification of Inspection and Request for Information for NRC Problem Identification and Resolution Inspection
ML23061A1772023-03-0303 March 2023
Notification of Oconee Nuclear Station Comprehensive Engineering Team Inspection - NRC Inspection Report 05000269/2023011, 05000270/2023011 and 05000287/2023011
IR 05000269/20220062023-03-0101 March 2023
Annual Assessment Letter for Oconee Nuclear Nuclear Station, Units 1, 2 and 3 (NRC Inspection Report 05000269/2022006, 05000270/2022006, and 05000287/2022006)
ML23039A1632023-02-0808 February 2023
Requalification Program Inspection
ML23037A0772023-02-0606 February 2023
402 Cyber Notification and RFI Letter Final
IR 05000269/20220042023-02-0202 February 2023
Integrated Inspection Report 05000269 2022004 and 05000270/2022004 and 05000287/2022004
ML22363A3942023-01-12012 January 2023
Subsequent License Renewal Environmental Report Supplement - Proposed Review Schedule
ML22356A0512022-12-14014 December 2022
Curtiss-Wright Nuclear Division, Letter Regarding Potential Efect in a Configuration of the 11/2 Inch Quick Disconnect Connector Cable Assemblies Supplied to Duke Energy (See Attached Spreadsheet) for a Total of 460 of Connectors Only Suppl
ML22321A0492022-12-0808 December 2022
Issuance of Amendment Nos. 426, 428 and 427, Additional Mode Change Limitations Applicable to the Adoption of TSTF- 359, Revision 9, Increase Flexibility in Mode Restraints
ML22329A1042022-11-29029 November 2022
Review of the Fall 2021 Steam Generator Tube Inspection Report
ML22321A1582022-11-22022 November 2022
Summary of Conference Call Regarding the Fall 2022 Steam Generator Tube Inspections
ML22096A0032022-11-18018 November 2022
McGuire Nuclear Station and Shearon Harris Nuclear Power Plant Authorization of RA-19-0352 Regarding Use of Alternative for RPV Head Closure Stud Examinations
ML22256A2532022-11-14014 November 2022
Issuance of Amendments Regarding the Adoption of Technical Specifications Task Force Traveler TSTF-541, Rev. 2
IR 05000269/20220032022-11-0707 November 2022
Integrated Inspection Station 05000269/2022003 and 05000270/2022003 and 05000287/2022003
ML22301A0112022-11-0303 November 2022
Request for Withholding Information from Public Disclosure Regarding the SLR Application - September 2, 2022
ML22298A0752022-10-27027 October 2022
Request for Withholding Information from Public Disclosure Regarding the Subsequent License Renewal Application Duke Energy Letter Dated July 25, 2022
ML22264A0322022-10-20020 October 2022
_Request for Withholding Information from Public Disclosure Regarding the Subsequent License Renewal Application - Duke Energy Letter Dated July 8, 2022
IR 05000269/20220112022-09-26026 September 2022
NRC Inspection Report 05000269/2022011 and 05000270/2022011 and 05000287/2022011
ML22258A0302022-09-15015 September 2022
Evacuation Time Estimate Reports
ML22222A0072022-09-14014 September 2022
Request for Withholding Information from Public Disclosure Regarding the Subsequent License Renewal Application
ML22231B1362022-09-0101 September 2022
Review of the Draft Environmental Assessment and Findings of No Significant Impact for Catawba Nuclear Station, H.B. Robinson Steam Electric Plant, and Oconee Nuclear Station Independent Spent Fuel Storage Installation Decommissioning Fundi
ML22234A0062022-08-30030 August 2022
SLRA - Closed Public Meeting Summary - August 18, 2022
2024-02-01
[Table view]
Category:Response to Request for Additional Information (RAI)
MONTHYEARRA-23-0275, Subsequent License Renewal Application, Appendix E, Responses to Requests for Additional Information (Rai), and Request for Confirmation of Information (RCI)2023-10-12012 October 2023
Subsequent License Renewal Application, Appendix E, Responses to Requests for Additional Information (Rai), and Request for Confirmation of Information (RCI)
RA-23-0136, Duke Energy Response to Request for Additional Information Regarding Proposed Alternative for Steam Generator Welds in Accordance with 10 CFR 50.55a(z)(1)2023-07-20020 July 2023
Duke Energy Response to Request for Additional Information Regarding Proposed Alternative for Steam Generator Welds in Accordance with 10 CFR 50.55a(z)(1)
RA-23-0154, Duke Energy - Response to Request for Additional Information Regarding Proposed Alternative for Pressurizer Welds in Accordance with 10 CFR 50.55a(z)(1)2023-07-20020 July 2023
Duke Energy - Response to Request for Additional Information Regarding Proposed Alternative for Pressurizer Welds in Accordance with 10 CFR 50.55a(z)(1)
RA-23-0142, Mcguire, Units 1 and 2, Oconee, Units 1, 2, and 3, H. B. Robinson, Unit 2, Response to Request for Additional Information Regarding the License Amendment Request to Revise Restrictive Technical Specification Surveillance Require2023-07-0707 July 2023
Mcguire, Units 1 and 2, Oconee, Units 1, 2, and 3, H. B. Robinson, Unit 2, Response to Request for Additional Information Regarding the License Amendment Request to Revise Restrictive Technical Specification Surveillance Require
RA-23-0146, Subsequent License Renewal Application, Appendix E, Responses to Requests for Additional Information (Rai), and Request for Confirmation of Information (RCI)2023-06-20020 June 2023
Subsequent License Renewal Application, Appendix E, Responses to Requests for Additional Information (Rai), and Request for Confirmation of Information (RCI)
RA-23-0104, Response to Request for Additional Information (RAI) Regarding Oconee Unit 3, Refuel 31 (O3R31) Steam Generator Tube Inspection Report2023-04-26026 April 2023
Response to Request for Additional Information (RAI) Regarding Oconee Unit 3, Refuel 31 (O3R31) Steam Generator Tube Inspection Report
RA-23-0051, Response to Request for Additional Information (RAI) Regarding Proposed Alternative to Use American Society of Mechanical Engineers Code Case N-752, Risk-Informed Categorization and Treatment for Repair/Replacement Activities2023-03-0909 March 2023
Response to Request for Additional Information (RAI) Regarding Proposed Alternative to Use American Society of Mechanical Engineers Code Case N-752, Risk-Informed Categorization and Treatment for Repair/Replacement Activities
RA-22-0270, Response to Request for Additional Information Regarding License Amendment Request to Address Technical Specifications Mode Change Limitations2022-10-0707 October 2022
Response to Request for Additional Information Regarding License Amendment Request to Address Technical Specifications Mode Change Limitations
RA-22-0192, Subsequent License Renewal Application Response to ONS SLRA Second Round RAI B2.1.7-4a2022-09-0202 September 2022
Subsequent License Renewal Application Response to ONS SLRA Second Round RAI B2.1.7-4a
RA-22-0160, Subsequent License Renewal Application: Responses to ONS SLRA - Second Round RAIs - Trp 76 (Irradiation Structural) - FE 3.5.2.2.2.62022-07-25025 July 2022
Subsequent License Renewal Application: Responses to ONS SLRA - Second Round RAIs - Trp 76 (Irradiation Structural) - FE 3.5.2.2.2.6
RA-22-0193, Subsequent License Renewal Application Response to ONS SLRA Second Round RAI B2.1.7-4b2022-07-0808 July 2022
Subsequent License Renewal Application Response to ONS SLRA Second Round RAI B2.1.7-4b
RA-22-0158, Subsequent License Renewal Application - Response to ONS SLRA Second Round RAI B2.1.9-2a2022-06-0808 June 2022
Subsequent License Renewal Application - Response to ONS SLRA Second Round RAI B2.1.9-2a
RA-22-0159, Subsequent License Renewal Application Response to ONS SLRA Request for Additional Information (RAI) 3.1.2-12022-05-27027 May 2022
Subsequent License Renewal Application Response to ONS SLRA Request for Additional Information (RAI) 3.1.2-1
RA-22-0137, Subsequent License Renewal Application Response to ONS SLRA Second Round RAI 4.6.1-1a2022-05-20020 May 2022
Subsequent License Renewal Application Response to ONS SLRA Second Round RAI 4.6.1-1a
RA-22-0147, Duke Energy Carolinas, LLC, and Duke Energy Progress, LLC, Response to Request for Additional Information (RAI) Regarding License Amendment Request for Relocating the Duke Energy Emergency Operations Facility2022-05-13013 May 2022
Duke Energy Carolinas, LLC, and Duke Energy Progress, LLC, Response to Request for Additional Information (RAI) Regarding License Amendment Request for Relocating the Duke Energy Emergency Operations Facility
RA-22-0145, Subsequent License Renewal Application Response to NRC Requests for Confirmation of Information - RAI 3.5.2.2.2.6-L2022-05-11011 May 2022
Subsequent License Renewal Application Response to NRC Requests for Confirmation of Information - RAI 3.5.2.2.2.6-L
RA-22-0124, Subsequent License Renewal Application Responses to NRC Request for Additional Information Set 42022-04-22022 April 2022
Subsequent License Renewal Application Responses to NRC Request for Additional Information Set 4
RA-22-0129, Subsequent License Renewal Application, Response to ONS SLRA 2nd Round RAI B4.1-32022-04-20020 April 2022
Subsequent License Renewal Application, Response to ONS SLRA 2nd Round RAI B4.1-3
RA-22-0089, Response to Request for Additional Information Regarding Application to Revise Technical Specification 3.7.7, Low Pressure Service Water System, to Extend the Completion Time for One Required Inoperable LPSW2022-04-14014 April 2022
Response to Request for Additional Information Regarding Application to Revise Technical Specification 3.7.7, Low Pressure Service Water System, to Extend the Completion Time for One Required Inoperable LPSW
RA-22-0111, Subsequent License Renewal Application, Follow-up Request for Additional Information Set 2 and 3 Updates2022-03-31031 March 2022
Subsequent License Renewal Application, Follow-up Request for Additional Information Set 2 and 3 Updates
RA-22-0105, Subsequent License Renewal Application - Responses to NRC Requests for Confirmation of Information - Set 42022-03-22022 March 2022
Subsequent License Renewal Application - Responses to NRC Requests for Confirmation of Information - Set 4
ML22075A2032022-03-11011 March 2022
Email from Duke to NRC - Follow-Up Items from March 7, 2022 Public Meeting
ML22074A0022022-03-11011 March 2022
Email from Duke to NRC - Follow-up Item from March 7, 2022 Public Meeting - SSW Tendon AMP
RA-22-0040, Subsequent License Renewal Application: Responses to NRC Request for Additional Information Set 32022-02-21021 February 2022
Subsequent License Renewal Application: Responses to NRC Request for Additional Information Set 3
RA-22-0023, Subsequent License Renewal Application - Response to NRC Requests for Confirmation of Information - Set 32022-01-21021 January 2022
Subsequent License Renewal Application - Response to NRC Requests for Confirmation of Information - Set 3
RA-22-0025, Supplemental Information for Relief Request to Utilize an Alternative Acceptance Criteria for Code Case, PWR Class 1 Primary Piping Alloy 600 Full Penetration Branch Connection Weld Metal Buildup for Material2022-01-20020 January 2022
Supplemental Information for Relief Request to Utilize an Alternative Acceptance Criteria for Code Case, PWR Class 1 Primary Piping Alloy 600 Full Penetration Branch Connection Weld Metal Buildup for Material
RA-21-0332, Subsequent License Renewal Application Responses to NRC Request for Additional Information Set 1 and Second Round Request for Additional Information B2.1.27-1a2022-01-0707 January 2022
Subsequent License Renewal Application Responses to NRC Request for Additional Information Set 1 and Second Round Request for Additional Information B2.1.27-1a
ML22019A1182022-01-0707 January 2022
Enclosures 1,2 & 3: Oconee Nuclear Station, Units 1, 2 & 3, Subsequent License Renewal Application, Appendix E, Environmental Report - Index of Duke Energy'S Responses, Responses to NRC Requests for Confirmation of Information and NRC Reque
ML22019A1232022-01-0707 January 2022
Subsequent License Renewal Application, Appendix E, Responses to Requests for Additional Information and Request for Confirmation of Information
ML22019A1202022-01-0707 January 2022
Appendix K
ML22019A1192022-01-0707 January 2022
Appendix 1-A - Oconee Nuclear Station 122.21(r)(2)-(13) Submittal Requirement Checklist
ML22019A1242022-01-0707 January 2022
Attachment 1: Oconee Nuclear Station, Units 1, 2 & 3, Subsequent License Renewal Application, Appendix E - HDR, Inc., 2020 Clean Water Act Documents
ML22019A1212022-01-0707 January 2022
Appendix 13-B Peer Reviewer Communication Log
ML22019A1222022-01-0707 January 2022
Calculation of Permeability by the Falling Head Method
RA-22-0002, Appendix 10-B - Pump and Pipe Selection Calculations for a Hypothetical Cooling Tower Retrofit at Oconee Nuclear Station2022-01-0707 January 2022
Appendix 10-B - Pump and Pipe Selection Calculations for a Hypothetical Cooling Tower Retrofit at Oconee Nuclear Station
ML22007A0152022-01-0707 January 2022
Subsequent License Renewal Application, Appendix E Responses to Requests for Additional Information (Rai), and Request for Confirmation of Information
RA-21-0325, Response to NRC Requests for Confirmation of Information - Set 22021-12-17017 December 2021
Response to NRC Requests for Confirmation of Information - Set 2
RA-21-0307, Subsequent License Renewal Application Response to NRC Requests for Confirmation of Information - Set 12021-12-0202 December 2021
Subsequent License Renewal Application Response to NRC Requests for Confirmation of Information - Set 1
RA-21-0269, Response to Request for Additional Information Regarding Alternative Request to Utilize American Society of Mechanical Engineers (ASME) Code Case OMN-282021-11-0909 November 2021
Response to Request for Additional Information Regarding Alternative Request to Utilize American Society of Mechanical Engineers (ASME) Code Case OMN-28
RA-21-0270, Response to Second Request for Additional Information (RAI) Regarding Relief Request to Utilize an Alternative Acceptance Criteria for Code Case N-8532021-10-28028 October 2021
Response to Second Request for Additional Information (RAI) Regarding Relief Request to Utilize an Alternative Acceptance Criteria for Code Case N-853
RA-21-0242, Response to Request for Additional Information, Regarding Relief Request to Utilize an Alternative Acceptance Criteria for Code Case N-853, PWR Class 1 Primary Piping Alloy 600 Full Penetration Branch Connection2021-08-31031 August 2021
Response to Request for Additional Information, Regarding Relief Request to Utilize an Alternative Acceptance Criteria for Code Case N-853, PWR Class 1 Primary Piping Alloy 600 Full Penetration Branch Connection
RA-21-0219, Response to Request for Additional Information for Request for Alternative for Implementation of Extended Reactor Vessel Inservice Inspection Intervals2021-08-0505 August 2021
Response to Request for Additional Information for Request for Alternative for Implementation of Extended Reactor Vessel Inservice Inspection Intervals
RA-21-0063, 1, 2; Catawba Nuclear Station 1, 2; H. B. Robinson Steam Electric Plant 2; Mcgguire Nuclear Station 1, 2; Oconee Nuclear Station 1, 2, 3; Shearon Harris Nuclear Power Plant 1 - Response to RAI Re Amend for Emergency Plan2021-03-11011 March 2021
1, 2; Catawba Nuclear Station 1, 2; H. B. Robinson Steam Electric Plant 2; Mcgguire Nuclear Station 1, 2; Oconee Nuclear Station 1, 2, 3; Shearon Harris Nuclear Power Plant 1 - Response to RAI Re Amend for Emergency Plan
RA-21-0032, Duke Energy - Response to Requests for Additional Info for Request to Use a Provision of Later Edition & Addenda of the ASME Boiler & Pressure Vessel Code, Section XI for Repair/Replacement Activities in Accordance with 10 CFR 50.55a(g)(42021-02-11011 February 2021
Duke Energy - Response to Requests for Additional Info for Request to Use a Provision of Later Edition & Addenda of the ASME Boiler & Pressure Vessel Code, Section XI for Repair/Replacement Activities in Accordance with 10 CFR 50.55a(g)(4)(
RA-20-0267, Proposed License Amendment Request to Revise Oconee Nuclear Station Current Licensing Basis for High Energy Line Breaks Outside of Containment Building - Responses to Request for Additional Information2020-09-17017 September 2020
Proposed License Amendment Request to Revise Oconee Nuclear Station Current Licensing Basis for High Energy Line Breaks Outside of Containment Building - Responses to Request for Additional Information
RA-19-0281, Response to NRC Request for Additional Information for the Fall 2018 Oconee Unit 1 Steam Generator Tube Rupture Inspection Report (RA-19-0093)2019-07-31031 July 2019
Response to NRC Request for Additional Information for the Fall 2018 Oconee Unit 1 Steam Generator Tube Rupture Inspection Report (RA-19-0093)
RA-19-0301, Proposed Amendment to Renewed Facility Operating Licenses Regarding Revisions to Final Safety Analysis Report Sections Associated with Oconee Tornado Licensing Basis -Responses to Request for Additional Information2019-07-31031 July 2019
Proposed Amendment to Renewed Facility Operating Licenses Regarding Revisions to Final Safety Analysis Report Sections Associated with Oconee Tornado Licensing Basis -Responses to Request for Additional Information
RA-19-0134, Duke Energy Response to NRC Request for Additional Information (RAI) Related to Oconee License Amendment Request 2018-052019-03-0707 March 2019
Duke Energy Response to NRC Request for Additional Information (RAI) Related to Oconee License Amendment Request 2018-05
RA-19-0116, Duke Energy Response to NRC Request for Additional Information (RAI) Related to Oconee License Amendment Request 2017-052019-02-26026 February 2019
Duke Energy Response to NRC Request for Additional Information (RAI) Related to Oconee License Amendment Request 2017-05
RA-19-0026, Response to Request for Additional Information (RAI) Regarding Proposed Alternative to the Depth Sizing Qualification Requirement of Appendix Viii, Supplements 2 and 10 (18-GO-001)2019-02-11011 February 2019
Response to Request for Additional Information (RAI) Regarding Proposed Alternative to the Depth Sizing Qualification Requirement of Appendix Viii, Supplements 2 and 10 (18-GO-001)
2023-07-07
[Table view] |
Text
tDUKE ENERGY SttL. Basen Vice President Oconee Nuclear Station Duke Energy ONO1VP 7800 Rochester Hwy Seneca, SC 29672 0; 864.873.3274 f* 864.873.4208 0NS-201 5-096 10 C FR 50.90 Scott.Batson@duke-energy.com August 20, 2015 ATTN: Document Control Desk U.S. Nuclear Regulatory Commission 11555 Rockville Pike Rockville, MD 20852 Duke Energy Carolinas, LLC (Duke Energy)
Oconee Nuclear Station (ONS), Units 1, 2, and 3 Docket Numbers 50-269, 50-270, and 50-287 Renewed License Numbers DPR-38, DPR-47, and DPR-55
Subject:
License Amendment Request (LAR) to Add High Flux Trip for 3 Reactor Coolant Pump Operation License Amendment Request No. 2014-05, Supplement 1 On May 19, 2015, Duke Energy submitted a License Amendment Request (LAR) proposing to add a Reactor Protective System (RPS) Nuclear Overpower - High Setpoint trip for three (3) reactor coolant pump (RCP) operation to Technical Specification Table 3.3.1-1. By letter dated August 6, 2015, the Nuclear Regulatory Commission (NRC) requested Duke Energy submit supplemental information to enable the NRC Staff to complete the acceptance review for the LAR.
The enclosure provides the supplemental information. If there are any additional questions, please contact Boyd Shingleton, ONS Regulatory Affairs, at (864) 873-4716.
I declare under penalty of perjury that the foregoing is true and correct. Executed on August 20, 2015.
Sincerely, Scott L. Batson Vice President Oconee Nuclear Station
Enclosure:
Duke Energy Response to Acceptance Review Information Request A j www.duke-energy.com
U. S. Nuclear Regulatory Commission August 20, 2015 Page 2 cc w/enclosure:
Mr. Victor McCree Administrator Region II U.S. Nuclear Regulatory Commission Marquis One Tower 245 Peachtree Center Ave., NE, Suite 1200 Atlanta, GA 30303-1257 Mr. James R. Hall Senior Project Manager (by electronic mail only)
Office of Nuclear Reactor Regulation U.S. Nuclear Regulatory Commission 11555 Rockville Pike-Mail Stop O-8G9A Rockville, MD 20852 Mr. Jeffrey A. Whited Project Manager (by electronic mail only)
Office of Nuclear Reactor Regulation U.S. Nuclear Regulatory Commission 11555 Rockville Pike Mail Stop O-8B1A Rockville, MD 20852 Mr. Eddy Crowe NRC Senior Resident Inspector Oconee Nuclear Station Ms. Susan E. Jenkins, Manager, Infectious and Radioactive Waste Management Bureau of Land and Waste Management Department of Health & Environmental Control 2600 Bull Street Columbia, SC 29201
ENCLOSURE Duke Energy Response to Acceptance Review Information Request
License Amendment Request No. 20 14-05, Supplement 1 Page 1 of 6 August 20, 2015 Enclosure Duke Energy Response to Acceptance Review Information Request NRC Information Request 1 Provide a more in-depth discussion on which regulatory criteria are applicable to the LAR. The LAR cited 10 CFR 50.36 as its regulatory basis. 10 CFR 50.36 states that limiting conditions for operation (LCO's) must be established for items meeting one of the four criteria cited in the regulation. Specifically, provide which of the 50.36 criteria are applicable to the proposed new setpoint, and a discussion of whether the existing TS requirements are sufficient to ensure operation within the bounds of the accident analysis.
Duke Energy Response The NRC's regulatory requirements related to the content of the Technical Specification (TS) are contained in Title 10 of the Code of Federal Regulations (10 CFR) Section 50.36. Paragraph (c)(2)(i) of 10 CFR 50.36 states that Limiting Conditions for Operation (LCOs) are the lowest functional capability or performance levels of equipment required for safe operation of the facility. Paragraph (c)(2)(ii) of 10 CFR 50.36 lists four criteria for determining whether particular items are required to be included in the TS LCOs. The third criterion applies to a structure, system, or component that is part of the primary success path and which functions or actuates to mitigate a design basis accident or transient that either assumes the failure of or presents a challenge to the integrity of a fission product barrier. The Nuclear Overpower - High Setpoint trip function meets Criterion 3. The proposed change adds an additional trip setpoint for three reactor coolant pump (RCP) operation. A new trip function is not added.
In MODES 1 and 2, the Nuclear Overpower - High Setpoint trip, along with other Reactor Protective System (RPS) trips, are required to be OPERABLE because the reactor can be critical in these MODES. These trips are designed to take the reactor subcritical to maintain the TS Safety Limits during anticipated transients and to assist the ESPS in providing acceptable consequences during accidents. While the existing overpower protection for three reactor coolant pump (RCP) operation (provided by the Nuclear Overpower Flux/Flow/Imbalance trip function) is adequate, the proposed Nuclear Overpower flux trip setpoint for three RCP operation provides improved protection for power excursion events initiated from three RCP operation, most notably the small steam line break accident. The Nuclear Overpower flux trip provides an absolute setpoint that can be actuated regardless of transient or Reactor Coolant System (RCS) flow conditions. The faster response time provides additional departure from nucleate boiling (DNB) and RCS protection than provided by the slower acting nuclear overpower flux/flow/imbalance trip function. The proposed high flux trip setpoint will result in significant margin improvement to the departure from nucleate boiling ratio (DNBR) acceptance criterion.
NRC Information Request 2 Provide the regulatory basis for the new reactor trip. Please describe which regulations the new reactor trip is intended to comply with (e.g., 10 CFR Part 100, GDC 10 or alternative criteria that establish the Oconee licensing basis).
License Amendment Request No. 2014-05, Supplement 1 Page 2 of 6 Enclosure - Duke Energy Response to Acceptance Review Issues August 20, 2015 Duke Energy Response The regulation of General Design Criteria (GDC) 10 of Appendix A to 10 CFR Part 50, "Reactor design," requires that the reactor core and associated coolant, control, and protection systems be designed with appropriate margin to assure that specified acceptable fuel design limits are not exceeded during any condition of normal operation, including the effects of anticipated operational occurrences.
The regulation of GDC 20 of Appendix A to 10 CFR Part 50, "Protection System Functions,"
requires protection system functions to be designed to 1) to initiate automatically the operation of appropriate systems including the reactivity control systems, to assure that specified acceptable fuel design limits are not exceeded as a result of anticipated operational occurrences and (2) to sense accident conditions and to initiate the operation of systems and components important to safety.
The principal design criteria (POC) for ONS were developed in consideration of the seventy General Design Criteria for Nuclear Power Plant Construction Permits proposed by the Atomic Energy Commission (AEC) in a proposed rule-making published for 10CFR Part 50 in the Federal Register on July 11, 1967. The ONS, Units 1, 2, and 3, construction permits were issued on November 6, 1967, preceding the issuance of the GDC specified in 10 CFR 50 Appendix A. The proposed trip setpoint is intended to comply with PDC 6 and 14, which are comparable to GDC 10 and 20, respectively.
PDC 6 specifies that the reactor core shall be designed to function throughout its design lifetime without exceeding acceptable fuel damage limits which have been stipulated and justified. The core design, together with reliable process and decay heat removal systems, shall provide for this capability under all expected conditions of normal operation with appropriate margins for uncertainties and for transient situations which can be anticipated, including the effects of the loss of power to recirculation pumps, tripping out of a turbine generator set, isolation of the reactor from its primary heat sink, and loss of all off-site power. ONS Updated Final Safety Analysis Report (UFSAR) Section 3.1.6 states that the reactor is designed with the necessary margins to accommodate, without fuel damage, expected transients from steady-state operation including the transients given in the criterion. The design margins allow for deviations of temperature, pressure, flow, reactor power, and reactor turbine power mismatch. Above 15 percent power, the reactor is operated at a constant average coolant temperature and has a negative power coefficient to damp the effects of power transients. The Reactor Control System will maintain the reactor operating parameters within preset limits, and the Reactor Protective System will shut down the reactor if normal operating limits are exceeded by preset amounts PDC 14 specifies that core protective systems, together with associated equipment, shall be designed to act automatically to prevent or to suppress conditions that could result in exceeding acceptable fuel damage limits. ONS UFSAR Section 3.1.14 states that the ONS reactor design meets this criterion by reactor trip provisions and engineered safety features. The ONS Reactor Protective System is designed to limit reactor power which might result from unexpected reactivity changes, and provides an automatic reactor trip to prevent exceeding acceptable fuel damage limits.
License Amendment Request No. 20 14-05, Supplement 1 Page 3 of 6 Enclosure - Duke Energy Response to Acceptance Review Issues August 20, 2015 NRC Information Request 3 Provide a description of the accident analysis that demonstrates the 80.5% reactor trip setpoint is adequate to meet the applicable AAO*/Accident acceptance criteria. The description should be at a level consistent with the description of accidents in the FSAR and include the analysis codes and methods, key analysis assumptions as well as the applicable acceptance criteria.
Duke Energy Response The main accident for which credit will be taken for the proposed three RCP High Flux Trip setpoint is the UFSAR Chapter 15.17 Small Steam Line Break (SSLB) transient initiated from three RCP operation. Other accidents initiated from three RCP operation could credit the proposed trip function, but the motivation for the proposal is the SSLB transient analysis. The accident starts at the maximum power level allowed when operating with three RCPs and is analyzed in such a manner as to maximize the primary system overcooling and subsequent power increase while avoiding and/or delaying a valid RPS trip signal. The existing three RCP SSLB credits two flux related RPS trip functions. The first is the existing TS High Flux trip function and setpoint, which is set at 105.5% Rated Thermal Power (RTP). The second is the Flux/Flow/Imbalance trip function, which is a dynamic setpoint based on the measured power and measured RCS flow rate. Since SSLB is an overcooling event, as the RCS gets colder the coolant becomes more dense, the measured RCS flow rate increases. This overcooling causes two responses to the Oconee RPS. First, the colder reactor vessel downcomer fluid attenuates neutrons and masks the excore detectors from measuring the true core power. This causes the true power to potentially increase much higher than what the excore detectors would indicate and hence, delay and or avoid either a high flux trip or a flux/flow/imbalance trip, both of which use indicated (i.e., excore detectors) core power as an input. The SSLB event in UFSAR Chapter 15.17 conservatively models downcomer attenuation and its impact on the excore detector signal. The second response is that the colder, more dense coolant, causes measured RCS flow to increase which causes the flux/flow/imbalance trip to increase. This also delays and/or avoids reactor trip on flux/flow/imbalance. This is a physical phenomenon and no special modeling techniques are required to account for this effect. With four RCPs operating, the high flux trip is more effective at tripping the reactor than the flux/flow/imbalance trip, even before the flux/flow/imbalance trip setpoint increases due to increasing flow. With three RCPs operating, the flux/flow/imbalance trip is the main trip function and, with the dynamic setpoint increasing as the coolant becomes more dense, a much larger increase in true core power occurs relative to the power increase calculated with four RCPs in operation. Therefore, the current limiting SSLB accident documented in UFSAR 15.17 for the DNBR acceptance criterion is the SSLB initiated from three RCP operation.
The NRC-approved analysis (documented in DPC-NE-3005-PA) of the SSILB transient uses the NRC approved code RETRAN-3D to determine a limiting combination of steam line break size and moderator temperature coefficient (MTC) to produce the largest true core power excursion thereby challenging DNBR and centerline fuel melt (CFM), both of which are acceptance criteria
License Amendment Request No. 2014-05, Supplement 1 Page 4 of 6 Enclosure - Duke Energy Response to Acceptance Review Issues August 20, 2015 for the UFSAR Chapter 15.17 event. A larger break size increases the primary system overcooling while a more negative moderator temperature coefficient (MTC) maximizes the power excursion as a result of that overcooling. Too large a break will result either in a low RCS pressure or variable low pressure-temperature reactor trip or a faster power increase resulting in a high flux or flux/flow/imbalance trip. Too negative an MTC will result in a faster power increase resulting in a high flux or flux/flow/imbalance trip. The most conservative combination of break size and MTC either avoids a RPS trip altogether or delays it long enough to maximize the true core power.
Centerline fuel melt is only a concern for 4 RCP operation and will not be addressed further in this LAR. Departure from nucleate boiling ratio calculations are performed with the NRC approved VIPRE-01 code using the RETRAN-3D forcing functions as input. Departure from nucleate boiling ratio is more limiting for three RCP operation (vs. four RCP operation) due to the combination of lower RCS flow and higher relative power increase. The type of steam line breaks analyzed in UFSAR 15.17 can only occur if there were an actual pipe break (vs. valve failures), which is classified as an infrequent fault and therefore, DNB fuel failures are allowed.
However, Duke Energy treats the SSLB as a fault of moderate frequency with respect to the DNB acceptance criteria and consequently, no DNB related fuel failures are allowed. The analysis of the three RCP SSLB with the proposed high flux trip setpoint for when three RCPs are operating demonstrates that true core power is significantly reduced before reactor trip occurs. In fact, with the proposed high flux trip setpoint for three RCP operation, the limiting SSLB transient with respect to both CFM and DNB becomes the SSLB initiated from four RCPs.
NRC Information Request 4 Provide a sample calculation that shows the uncertainty determination in the elements of the setpoint calculations for the high flux trip.
Duke Energy Response As stated in the [AR, the 80.5% RTP setpoint was chosen to maintain the delta between nominal 100% RTP and the current TS allowable value of 105.5% RTP. The 5.5% RTP delta is simply added to the maximum power level allowed for three RCP operation, which is 75% RTP.
Adding 5.5% RTP to 75% RTP results in the proposed high flux trip setpoint of 80.5%RTP. This value is verified acceptable in the SSLB analysis initiated from three RCP operation.
The method described in the NRC-approved DPC-NE-3005-PA (Chapter 4), for performing Chapter 15 analyses specifies that the trip setpoint assumed in the analyses is the TS trip setpoint plus (or minus) an uncertainty to account for the trip setpoint uncertainty itself. Any uncertainty or adjustments in the signal that is used to compare to the setpoint is accounted for in the specific analysis, if applicable. For the SSLB DNB analyses, the Statistical Core Design (SCD) method is employed (NRC approved DPC-NE-2005-PA) which accounts for the various uncertainties in core power and RCS flow in the DNB limit itself. What is not accounted for in the SCD method is transient effects such as downcomer attenuation, which the SSLB RETRAN-3D analysis specifically accounts for as described in DPC-NE-3005-PA. As mentioned previously, reactor vessel downcomer attenuation affects the excore detector signal
License Amendment Request No. 2014-05, Supplement 1 Page 5 of 6 Enclosure - DLdke Energy Response to Acceptance Review Issues August 20, 2015 response and acts to mask the true power increase. Basically, if this were put in mathematical terms, it would be:
q~r >Žs + trip setpoint uncertainty allowance Where era = flux measured at excore detectors adjusted for transient effects (e.g.,
downcomer attenuation) and excore detector calibration tolerances
=~p Technical Specification allowable value trip setpoint Trip setpoint uncertainty = current analysis assumes 1.0% RTP for convenience since that is the old analog RPS trip bistable uncertainty and it bounds the uncertainty on the setpoint in the digital RPS. There is no uncertainty on the trip setpoint in the digital RPS.
NRC Information Request 5 Identify and describe the procedure that will be used by control room operators to manually insert the high flux trip setpoint when going from 4 RCP operation to 3 RCP operation. Please also describe how this procedure accomplishes the setpoint changes to avoid overpower operation or spurious trips.
Duke Energy Response If a condition arises which requires Operations to reduce reactor power on an operating unit so that a reactor coolant pump can be shutdown, Operations procedural guidance (OP/I1,2,3/A/11102/004 - Operation at Power) triggers a notification to maintenance personnel to change the RPS high flux trip set point from the four RCP value to the three RCP value. This is done following power reduction and shutdown of the problematic RCP. A maintenance procedure (AM/I1,2,3/A/031 5/017 - TXS RPS Channels A, B, C, and D Parameter Changes For Abnormal/Normal Operating Conditions) is utilized to perform the following action one RPS channel at a time. The RPS is a digital system. From the RPS service unit, a graphical service monitor screen which has design features specific to changing the high flux trip set point is used to lower the high flux set point to the required three RCP value.
When conditions permit returning to four RCP operation, the fourth RCP is placed in service, the high flux trip set point for each RPS channel is changed to the four RCP value via Operations notification to Maintenance who use the same Maintenance procedure to change the set point, and then escalation to full power operation is allowed.
License Enclosure Amendment Request No. 2014-05, Supplement 1
- Duke Energy Page 6 of 6 Response to Acceptance Review Issues August 20, 2015 NRC Information Request 6 Provide an explanation of how the 80.5% RTP high flux trip setpoint will be verified to be applicable to each new reactor core loading.
Duke Energy Response Maximum allowed peaking limit curves are generated with the VIPRE-01 computer code for the SSLB transient, and will continue to be generated for the three RCP SSLB transient once the proposed high flux trip setpoint is approved and implemented. These peaking limit curves are performed once for the bounding analysis then verified acceptable for each reload core. The peaking limit curves for SSLB restrict peaking to preclude the occurrence of DNB. Duke Energy verifies that the DNB acceptance criteria is met for each reload by comparing potential pin powers from the SIMULATE neutronics code to the peaking limit curves generated by VIPRE.
Duke Energy intends to continue this practice for the SSLB transient initiated from three RCP operation unless and until it is demonstrated that the four RCP SSLB transient is more limiting and bounding than the three RCP SSLB transient. If such a situation were to occur, Duke Energy would perform reload checks to the four RCP SSLB peaking limit curves and only verify the three RCP SSLB peaking limits remain bounded for any future fuel design change, DNB correlation change, or any plant modification that would be unbounded by the existing UFSAR Chapter 15.17 analysis assumptions.
