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Category:SAFETY EVALUATION REPORT--LICENSING & RELATED ISSUES
MONTHYEARML20212K9781999-09-30030 September 1999
Safety Evaluation Accepting USI A-46 Implementation Program
ML20209H8281999-07-15015 July 1999
Safety Evaluation Accepting GL 95-07, Pressure Locking & Thermal Binding of Safety-Related Power-Operated Gate Valves, for Cooper Nuclear Station
ML20206P0481999-05-12012 May 1999
Safety Evaluation Concluding That NPP Established Acceptable Program to Verify Periodically design-basis Capability of safety-related MOVs at CNS & Adequately Addressed Actions Requested in GL 96-05
ML20204B3701999-03-11011 March 1999
SER Accepting Third 10-year Interval Inservice Insp Plan Requests for Relief for RI-17,Rev 1 and RI-25,Rev 0.Request for Relief RI-13,Rev 2 Involving Snubber Testing & Is Being Evaluated in Separate Report
ML20196J9641998-12-0707 December 1998
Safety Evaluation Accepting Licensee Third 10-yr Interval Inservice Insp Plan Request for Relief RI-27,rev 1
ML20196A2861998-11-23023 November 1998
SER Re Core Spray Piping Weld for Cooper Nuclear Station. Staff Concluded That Operation During Cycle 19 Acceptable with Indication re-examined During RFO 18
ML20196A5241998-11-23023 November 1998
Safety Evaluation Accepting Proposed Alternative to Use UT Techniques Qualified to Objectives of App Viil as Implemented by PDI Program in Performing RPV Shell Weld & Shell to Flange Weld Examinations
ML20196A5061998-11-23023 November 1998
Safety Evaluation Re Flaw Indication Found in Main Steam Nozzle to Shell Weld NVE-BD-N3A at Cns.Plant Can Be Safely Operated for at Least One Fuel Cycle with Indication in as-is Condition
ML20195H1761998-11-17017 November 1998
SER Authorizing Proposed Alternative in Relief Requests RV-06,RV-07,RV-09,RV-11,RV-12 & RV-15 Pursuant to 10CFR50.55a(a)(3)(ii).RV-08 Granted Pursuant to 10CFR50.55a(f)(6)(i) & RV-13 Acceptable Under OM-10
ML20151Z6141998-09-16016 September 1998
SER Accepting Util Responses to NRC Bulletin 95-002 for Cooper Nuclear Station
ML20236R9131998-07-20020 July 1998
SER Accepting Rev 13 to Quality Assurance Program for Operation Policy Document for Plant
ML20203K0351998-02-26026 February 1998
SER Approving Third ten-year Interval Inservice Inspection Program Plan,Request for Relief PR-10 for Cooper Nuclear Station.Technical Ltr Rept on Request Relief PR-10 Also Encl
ML20212E0811997-10-23023 October 1997
SER Accepting Third 10-yr Interval Insp Program Plan & Associated Requests for Relief for Plant
ML20217E6141997-09-23023 September 1997
Safety Evaluation Accepting Util Proposed Changes to Licensing Basis for Plant to Reflect Incorporation of Safer/Gestr Methodology for LOCA Analysis
ML20199F7411997-08-14014 August 1997
Safety Evaluation Rept Accepting Design of torus-to-reactor Bldg Vacuum Breakers at Plant
ML20210J5731997-08-13013 August 1997
Safety Evaluation Denying Relief Request for Plant Third 10-yr Interval Program for Inservice Testing of Pumps. Request Not in Sufficient Detail to Justify Proposed Alternative
ML20148H2381997-06-0606 June 1997
Safety Evaluation Granting Licensee Relief Requests for 10-yr Interval Inservice Insp Program Plan for Plant,Unit 1
ML20138K0241997-05-0707 May 1997
Safety Evaluation Supporting Proposed Rev to RPV Surveillance Capsule Withdrawal Schedule
ML20134N6911997-02-19019 February 1997
Safety Evaluation Related to Third ten-year Interval Inservice Testing Program Nebraska Public Power District Cooper Nuclear Station
ML20198E1091992-11-25025 November 1992
Safety Evaluation Accepting Licensee 920921 120-day Response to GL 87-02, Verification of Seismic Adequacy of Mechanical & Electrical Equipment in Operating Reactors,Usi A-46
ML20127N3741992-11-19019 November 1992
Supplemental SE Accepting Analysis & Results in Response to SBO rule,10CFR50.63
ML20128C2911992-11-19019 November 1992
Safety Evaluation Accepting Revised ACAD Sys Into Nitrogen Containment Atmosphere Dilution,Eliminating Potential post-accident Oxygen Source
ML20059E2781990-08-31031 August 1990
Safety Evaluation Granting Licensee 900525 Relief Requests RP-14 & RP-15 from Requirements to Measure Pump Inlet Pressure & Instrument Ranges,Respectively
ML20246B2501989-05-31031 May 1989
Safety Evaluation on Generic Ltr 83-28,Item 4.5.3 Re Reactor Trip Sys Reliability for All Domestic Operating Reactors. Intervals for on-line Functional Testing Consistent W/ Achieving High Reactor Trip Sys Availability at Reactors
ML20247A4241989-03-20020 March 1989
Safety Evaluation Accepting Revised Process Control Program Re General Methods of Sampling,Processing,Analysis & Waste Formulation During Solidification of Radwaste
ML20205S2031988-11-0303 November 1988
Safety Evaluation Supporting Interim Operability of Piping Sys
ML20147B5161988-02-23023 February 1988
Safety Evaluation Supporting Amend 117 to License DPR-46
ML20148C9591988-01-13013 January 1988
Safety Evaluation Concluding That Inservice Testing Program Submitted w/860730 Ltr as Modified in Subj Safety Evaluation Will Provide Reasonable Assurance of Operational Readiness of safety-related Pumps & Valves
ML20238C4001987-12-23023 December 1987
Safety Evaluation Supporting Proposed Mod to 10CFR50.62, ATWS Rule
ML20237E3261987-12-21021 December 1987
Safety Evalution Supporting Amend 113 to License DPR-46
ML20236B8901987-10-20020 October 1987
Sser Re Alternate Rod Insertion (ARI) Sys.Util Plans for Relocating ARI Position Indication Out of Control Room to Another Location in Control Bldg Acceptable
ML20235H0351987-09-23023 September 1987
Safety Evaluation Re Alternate Rod Injection & Recirculating Pump Trip Sys
ML20235N4581987-07-10010 July 1987
Safety Evaluation Supporting Util 810707,820623,0730 & 831215 Submittals Re Valve Operability Info for 24-inch Isolation Valves in Purge & Vent Sys.Nrc Conclusion Subj to Valves Being Modified to Have Torque Readjustments
ML20214S8741987-05-21021 May 1987
Supplemental Safety Evaluation Re Dcrdr.Listed Activities Must Be Finished in Order to Satisfy Dcrdr Requirements in Suppl 1 to NUREG-0737
ML20212Q9721987-04-16016 April 1987
Safety Evaluation Accepting Util 831104 & 870121 Responses to Generic Ltr 83-28,Items 3.2.1 & 3.2.2, Post-Maint Verification Testing
ML20212L1751987-03-0606 March 1987
Safety Evaluation Supporting Util Methodology in Standby Gas Treatment Suction Analysis & Interim Operation for Fuel Cycle 11 Only
ML20209A7001987-01-30030 January 1987
Safety Evaluation Accepting Util Response to Vendor Recommended Reliability Verification Testing Per Generic Ltr 83-28,Item 4.5.1 Re Reactor Trip Sys Reliability (Sys Functional Testing)
ML20215M5021986-10-27027 October 1986
Safety Evaluation Accepting Util Response to Generic Ltr 82-33 Re Conformance to Rev 2 to Reg Guide 1.97,except for Instrumentation Associated W/Neutron Flux Variable
ML20210K2491986-09-25025 September 1986
Safety Evaluation Supporting Analytical Method Used by Licensee to Evaluate Critical Stresses
ML20141E9291986-04-10010 April 1986
Safety Evaluation Supporting Amend 98 to License DPR-46
ML20151Y2541986-01-27027 January 1986
Safety Evaluation Re Requests for Relief from Inservice Insp Requirements.Relief Not Granted for Surface & Volumetric Exam of Drywell Piping Spray Welds Since Requirements Not Impractical
ML20140C5761986-01-17017 January 1986
Safety Evaluation Supporting 831104 Response to Generic Ltr 83-28,Items 3.1.1 & 3.1.2 Concerning post-maint Testing Verification of Reactor Trip Sys Components
ML20134J6301985-08-21021 August 1985
Safety Evaluation Accepting Proposed Mods as Ensuring Safe Shutdown Capability in Event of Fire in Areas of Concern in Accordance W/Requirements of 10CFR50,App R
ML20127E7281985-06-10010 June 1985
Safety Evaluation Supporting Response to Generic Ltr 83-28, Item 1.2 Re post-trip Review Data & Info Capability
ML20127E1051985-05-0606 May 1985
Safety Evaluation Re Util 831104 Response to Generic Ltr 83-28,Item 1.1 Concerning post-trip Review Program & Procedure
ML20148N2351978-11-0101 November 1978
Safety Eval Rept of Main Stream Isolation Valve Test Results. Util Request for Continuing CNS in Present Fuel Cycle for Addl mid-cycle Msltv Leak Test Is Approved
ML20147D3101978-09-29029 September 1978
Safety Evaluation Rept Supporting Amend 52 to Facil Oper Lic DPR-46 Concludes That Installation & Use of New Fuel Racks Can Be Accomplished Safety & Health & Safety of Pub Will Not Be Endangered
ML20235F1591968-04-0404 April 1968
Safety Evaluation Re Facility
1999-09-30
[Table view]
Category:TEXT-SAFETY REPORT
MONTHYEARML20212K9781999-09-30030 September 1999
Safety Evaluation Accepting USI A-46 Implementation Program
ML20217A9931999-09-30030 September 1999
NRC Regulatory Assessment & Oversight Pilot Program, Performance Indicator Data
ML20217G7461999-09-30030 September 1999
Monthly Operating Rept for Sept 1999 for Cooper Nuclear Station
ML20217A1691999-09-22022 September 1999
Part 21 Rept Re Engine Sys,Inc Controllers,Manufactured Between Dec 1997 & May 1999,that May Have Questionable Soldering Workmanship.Caused by Inadequate Personnel Training.Sent Rept to All Nuclear Customers
ML20212C5001999-08-31031 August 1999
Monthly Operating Rept for Aug 1999 for Cooper Nuclear Station
ML20211D6491999-08-25025 August 1999
Part 21 Rept Re Nonconformance within LCR-25 safety-related Lead Acid Battery Cells Manufactured by C&D.Analysis of Cells Completed.Analysis of Positive Grid Matl Shows Nonconforming Levels of Calcium within Positive Grid Alloy
ML20210R0381999-07-31031 July 1999
Monthly Operating Rept for July 1999 for Cooper Nuclear Station
ML20210J2921999-07-29029 July 1999
Special Rept:On 990406,OG TS & Associated Charcoal Absorbers Were Removed from Svc.Caused by Scheduled Maint on Hpci. Evaluation of Offsite Effluent Release Dose Effects Was Performed to Ensure Plant Remained in Compliance
ML20209H8281999-07-15015 July 1999
Safety Evaluation Accepting GL 95-07, Pressure Locking & Thermal Binding of Safety-Related Power-Operated Gate Valves, for Cooper Nuclear Station
ML20211A9981999-07-12012 July 1999
Draft,Probabilistic Safety Assessment, Risk Info Matrix, Risk Ranking of Systems by Importance Measure
ML20196H8621999-06-30030 June 1999
NRC Regulatory Assessment & Oversight Pilot Program, Performance Indicator Data, June 1999 Rept
ML20209E1061999-06-30030 June 1999
Monthly Operating Rept for June 1999 for Cns.With
ML20196B3851999-06-17017 June 1999
Summary Rept of Facility Changes,Test & Experiments,Per 10CFR50.59 for Period 970901-990331.Summary of Commitment Changes Made During Same Time Period Also Encl
ML20195K2851999-05-31031 May 1999
Monthly Operating Rept for May 1999 for Cooper Nuclear Station.With
ML20206P0481999-05-12012 May 1999
Safety Evaluation Concluding That NPP Established Acceptable Program to Verify Periodically design-basis Capability of safety-related MOVs at CNS & Adequately Addressed Actions Requested in GL 96-05
ML20206J0811999-05-0404 May 1999
Rev 14 to CNS QA Program for Operation
ML20206P9751999-04-30030 April 1999
Monthly Operating Rept for Apr 1999 for Cooper Nuclear Station
ML20205Q0891999-03-31031 March 1999
Monthly Operating Rept for Mar 1999 for Cooper Nuclear Station.With
ML20204G8951999-03-15015 March 1999
CNS Inservice Insp Summary Rept Fall 1998 Refueling Outage (RFO-18)
ML20207M9231999-03-12012 March 1999
Amended Part 21 Rept Re Cooper-Bessemer Ksv EDG Power Piston Failure.Total of 198 or More Pistons Have Been Measured at Seven Different Sites.All Potentially Defective Pistons Have Been Removed from Svc Based on Encl Results
ML20204B3701999-03-11011 March 1999
SER Accepting Third 10-year Interval Inservice Insp Plan Requests for Relief for RI-17,Rev 1 and RI-25,Rev 0.Request for Relief RI-13,Rev 2 Involving Snubber Testing & Is Being Evaluated in Separate Report
ML20204C9751999-02-28028 February 1999
Monthly Operating Rept for Feb 1999 for Cooper Nuclear Station
ML20199E6751999-01-14014 January 1999
Monthly Operating Rept for Dec 1998 for Cooper Nuclear Station
ML20195B9191998-12-31031 December 1998
1998 NPPD Annual Rept. with
ML20196J9641998-12-0707 December 1998
Safety Evaluation Accepting Licensee Third 10-yr Interval Inservice Insp Plan Request for Relief RI-27,rev 1
ML20198D2471998-11-30030 November 1998
Monthly Operating Rept for Nov 1998 for Cooper Nuclear Station.With
ML20196A2861998-11-23023 November 1998
SER Re Core Spray Piping Weld for Cooper Nuclear Station. Staff Concluded That Operation During Cycle 19 Acceptable with Indication re-examined During RFO 18
ML20196A5241998-11-23023 November 1998
Safety Evaluation Accepting Proposed Alternative to Use UT Techniques Qualified to Objectives of App Viil as Implemented by PDI Program in Performing RPV Shell Weld & Shell to Flange Weld Examinations
ML20196A5061998-11-23023 November 1998
Safety Evaluation Re Flaw Indication Found in Main Steam Nozzle to Shell Weld NVE-BD-N3A at Cns.Plant Can Be Safely Operated for at Least One Fuel Cycle with Indication in as-is Condition
ML20196C4241998-11-20020 November 1998
Rev 1 to Cooper Nuclear Station COLR Cycle 19
ML20195H1761998-11-17017 November 1998
SER Authorizing Proposed Alternative in Relief Requests RV-06,RV-07,RV-09,RV-11,RV-12 & RV-15 Pursuant to 10CFR50.55a(a)(3)(ii).RV-08 Granted Pursuant to 10CFR50.55a(f)(6)(i) & RV-13 Acceptable Under OM-10
ML20195F8601998-10-31031 October 1998
Monthly Operating Rept for Oct 1998 for Cooper Nuclear Station.With
ML20155D9961998-10-31031 October 1998
Rev 0 to GE-NE-B13-01980-24, Fracture Mechanics Evaluation on Observed Indication at N3A Steam Outlet Nozzle to Shell Weld at Cooper Nuclear Station
ML20154Q5661998-10-0505 October 1998
Rev 0 to CNS COLR Cycle 19
ML20154L5381998-09-30030 September 1998
Monthly Operating Rept for Sept 1998 for Cooper Nuclear Station.With
ML20151Z6141998-09-16016 September 1998
SER Accepting Util Responses to NRC Bulletin 95-002 for Cooper Nuclear Station
ML20154F7931998-08-31031 August 1998
Rev 0 to J11-03354-10, Supplemental Reload Licensing Rept for CNS Reload 18,Cycle 19
ML20153B1101998-08-31031 August 1998
Monthly Operating Rept for Aug 1998 for Cooper Nuclear Station
ML20237E7771998-08-20020 August 1998
Revised COLR Cycle 18 for Cooper Nuclear Station
ML20151Q1211998-08-14014 August 1998
Rev 0 to Control of Hazard Barriers
ML20237C0591998-07-31031 July 1998
Monthly Operating Rept for Jul 1998 for Cooper Nuclear Station
ML20236R9131998-07-20020 July 1998
SER Accepting Rev 13 to Quality Assurance Program for Operation Policy Document for Plant
ML20236P2971998-07-0707 July 1998
Rev 2 to NPPD CNS Strategy for Achieving Engineering Excellence
ML20236R0931998-06-30030 June 1998
Monthly Operating Rept for June 1998 for Cooper Nuclear Station
ML20249A7701998-05-31031 May 1998
Monthly Operating Rept for May 1998 for Cooper Nuclear Station
ML20247G6131998-05-13013 May 1998
Part 21 Rept Re Defect Contained in Automatic Switch Co, Solenoid Valves,Purchased Under Purchase Order (Po) 970161. Caused by Presence of Brass Strands.Replaced Defective Valves
ML20247G0951998-04-30030 April 1998
Monthly Operating Rept for Apr 1998 for Cooper Nuclear Station
ML20237B6861998-04-24024 April 1998
Vols I & II to CNS 1998 Biennial Emergency Exercise Scenario, Scheduled for 980609
ML20217A1531998-04-16016 April 1998
Closure to Interim Part 21 Rept Submitted to NRC on 970929. New Date Established for Completion of Level I & 2 Setpoint Project Committed to in .Final Approval of Setpoint Calculations Will Be Completed by 980531
ML20216G5331998-03-31031 March 1998
Monthly Operating Rept for Mar 1998 for Cooper Nuclear Station
1999-09-30
[Table view] |
Text
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p UNITED STATES j
!, g NUCLEAR REGULATORY COMMISSION
!' WASHINGTON, D.C. 20656 0001 l SAFETY EVALUATION BY THE OFFICE OF NUCLEAR REACTOR REGULATION l LICENSEE RESPONSE TO GENERIC LETTER 95-07. " PRESSURE LOCKING l
[ AND THERMAL BINDING OF SAFETY-RELATED POWER-OPERATED GATE VALVES" COOPER NUCLEAR STATION DOCKET NO. 50-298 *
1.0 INTRODUCTION
i Pressure locking and thermal binding represent potential common-cause failure mechanisms that can render redundant safety systems incapable of performin thir safety functions. The identification of susceptible valves and the determination of wher & phenomena might occur require a thorough knowledge of components, systems, and plars :perations. Pressure locking occurs in flexible-wedge and double-disk gate valves when fluid becomes pressurized inside the valve bonnet and the actuator is not capable of overcoming the additional thrust requirements resulting from the differential pressure created across both valve disks by the pressurized fluid in the valve bonnet. Thermal binding is generally associated with a wedge L gate valve tnat is closed while the system is hot and then is allowed to cool before an attempt is l made to.open the valve.
i i Pressure locking or thermal binding occurs as a result of the valve design characteristics
- l. (wedge and valve body configuration, flexibility, and material thermal coefficients) when the valve is subjected to specific pressures and temperatures during various modes of plant operation. Operating experience indicates that these situations were not always considered in .
many plants as part of the design basis for valves.
l-2.0 REGULATORY REQUIREMENTS >
l Part 50 of Title 10 of the Code of Federal Reaulations (10 CFR) (Appendix A, General Design Criteria 1 and 4) and plant licensing safety analyses require or commit (or both) that licensees design and test safety-related components and systems to provide adequate assurance that those systems can perform their safety functions. Other individual criteria in Appendix A to 10 CFR Part 50 apply to specific systems. In accordance with those regulations and licensing commitments, and under the additional provisions of 10 CFR Part 50 (Appendix B, Criterion XVI), licensees are expected to act to ensure that safety-related power-operated gate valves susceptible to pressure locking or thermal binding are capable of performing their required safety functions.
On August 17,1995, the NRC issued Generic Letter (GL) 95-07, " Pressure Locking and Thermal Binding of Safety-Related Power-Operated Gate Valves," to request that licensees take certain actions to ensure those safety-related power-operated gate valves that are Enclosure r.
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L 2
susceptible to pressure locking or thermal binding are capable of performing their safety functions within the current licensing bases of the facility. GL 95-07 requested that each licensee, within 180 days of the date of issuance of the generic letter (1) evaluate the operational configurations of safety-related power-operated gate valves in its plant to identify valves that are susceptible to pressure locking or thermal binding, and (2) perform further analyses and take needed corrective actions (or justify longer schedules) to ensure that the sue::sptible valves, identified in (1) above, are capable of performing their intended safety functions under all modes of plant operation, including test configurations. In addition, GL 95-07 requested that licensees, within 180 days of the date of issuance of the generic letter, provide to the NRC a summary description of (1) the susceptibility evaluation used to determine that valves are or are not susceptible to pressure locking or thermal binding, (2) the results of the susceptibility evaluation, including a listing of the susceptible valves identified, and (3) the corrective actions, or other dispositioning, for the valves identified as susceptible to pressure locking or thermal binding. The NRC issued GL 95-07 as a " compliance backfit" pursuant to 10 CFR 60.109(a)(4)(i) because modification may be necessary to bring facilities into compliance with the rules of the Commission referenced above.
In a letter of February 13,1996, Nebraska Public Power District submitted its 180-day response to GL 95-07 for the Cooper Nuclear Station. The NRC staff reviewed the licensee's submittal and requested additional information in a letter dated May 28,1996. In a letter of June 27, 1996, the licensee provided the additional information. In a letter dated March 15,1999, the NRC staff requested additionalinformation. The licensee provided the additional information in a letter dated June 14,1999.
3.0 STAFF EVALUATION 3.1 Scope of Licensee's Review GL 95-07 requested that licensees evaluate the operational configurations of safety-related power-operated gate valves in their plants to identify valves that are susceptible to pressure locking or thermal binding. The Nebraska Public Power District letters of February 13 and June 27,1996, and June 14,1999, described the scope of valves evaluated in response to GL 95-07. Normally open, safety-related power-operated gate valves that are closed for test or surveillance but must return to the open position were evaluated within the scope of GL 95-07. The NRC staff has reviewed the scope of the licensee's susceptibility evaluation performed in response to GL 95-07 and found it complete and acceptable. The criteria for determining the scope of power-operated valves for GL 95-07 are consistent with the staff's acceptance of the scope of motor-operated valves associated with GL 89-10, " Safety-Related Motor-Operated Valve Testing and Surveillance."
3.2 Corrective Actions GL 95-07 requested that licensees, within 180 days, perform further analyses as appropriate, and take appropriate corrective actions (or justify longer schedules), to ensure that the susceptible valves identified are capable of performing their intended safety function under all modes of plant operation, including test configurations. The licensee's submittals discussed corrective actions to address potential pressure-locking and thermal-binding problems. The staff's evaluation of the licensee's actions is d;scussed in the following paragraphs:
j
j- s-
- a. The licensee stated that the following valves were modified to eliminate the potential for pressure locking:
CS-MOV-MO12A/B Core Spray injection Valves HPCI-MOV MO19 High Pressure Coolant injection (HPCI) Injection RCIC-MOV-MO21 Reactor Core Isolation Cooling System injection The staff finds that physical modification to valves susceptible to pressure locking is $'
an appropriate corrective action to ensure operability of the valves and is thus acceptable.
- b. The licensee stated that the residual heat low pressure coolant injection valves, RHR-MOV-MO25A/B, are equipped with body drains and that procedures were revised to align the body of each valve to vent to the reactor side piping to eliminate the potential for the valves to pressure lock. The staff finds that the licensee's ,
procedural changes eliminate the potential for pressure 'ocking conditions, and are ,
thus acceptable.
- c. A flexible wedge pressure locking thrust prediction methodology was used to calculate the thrust required to open the following valves during pressure locking .
conditions: -
HPCI-MO14 Steam Admission to HPCI Turbine .
HPCI-MO58 HPCI Suppression Pool Suction :
RHR-MO39A/B Suppression Pool Cooling Loop Isolation The results of the licensee's flexible wedge pressure locking thrust prediction
](~
methodology demonstrates that there is a positive margin between calculated pressure locking thrust and actuator capability. However, the margin between actuator capability and calculated pressure locking thrust was less than that required for long-term corrective action. As long-term corrective action, the licensee stated that the actuators will be modified to increase actuator capability to obtain the desired margin or the valves will be modified to eliminate the potential for pressure locking. The corrective action is scheduled to be implemented during the 2001 refueling outage. The staff finds that the licensee's pressure locking thrust prediction methodology provides reasonable assurance that flexible wedge gate g
valves susceptible to pressure locking are capable of performing their intended safety-related function, and is an acceptable short-term corrective action.
Pressure locking tests sponsored by the NRC were conducted by Idaho National Engineering and Environmental Laboratory. The results of this testing are documented in NUREG/CR-6611,Results of Pressure Locking and Thermal Binding Tests of Gate Valves." NUREG/CR-6611 test results demonstrate that the licensee's pressure locking thrust prediction methodology conservatively estimates the thrust required to open a pressure locked flexible wedge gate vahre. The staff finds that the licensee's long-term corrective action to modify the actuators to increase actuator capability and use of the pressure locking thrust prediction methodology provides reasonable assurance that flexible wedge gate valves susceptible to pressure locking are capable of performing their intended safety-
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I related function. The staff considers that calculations used to demonstrate that valves can overcome pressure locking are required to meet the requirements of 10 CFR Part 50, Appendix B, Quality Assurance Criteria for Nuclear Power Plants, and therefore, controls are required to be in place to ensure that pressure locking thrust prediction methodology requirements and revisions are properly implemented. Until more definitive industry criteria are developed, the staff concludes that the licensee's action to address pressure locking of these flexible wedge gate valves is acceptable.
- d. The licensee stated that all flexible and solid wedge gate valves in the scope of GL 95-07 were evaluated for thermal binding. When evaluating whether valves were susceptible to thermal binding, the licensee assumed that thermal binding would not occur below specific temperature thresholds. Operating conditions for the LPCI inject:on valves, RHR M039A/B, exceed these temperature thresholds.
The licensee stated that instructions were issued to cycle the valves following evolutions that could potentially create a thermal binding condition. The staff finds that (1) the licensee's procedures to cycle the valves as corrective action provide assurance that thermal binding conditions are identified, (2) the screening criteria used by the licensee appear to provide a reasonable approach to identify those valves that might be susceptible to thermal binding, and (3) until more definitive industry criteria are developed, the licensee's actions to address thermal binding of gate valves are acceptable.
4.0 CONCLUSION
On the basis of this evaluation, the NRC staff finds that the licensee has performed appropriate evaluations of the operational configurations of safety-related power-operated gate valves to identify valves at the Cooper Nuclear Station that are susceptible to pressure locking or thermal
~ binding. In addition, the NRC staff finds that the licensee has taken, or is scheduled to take, ,
appropriate corrective actions to ensure that these valves are capable of performing their intended safety functions. Therefore, the staff concludes that the licensee has adequately
- addressed the requested actions discussed in GL 95-07.
Principal Contributor: S. Tingen Date: July 15,1999 l-
