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Category:SAFETY EVALUATION REPORT--LICENSING & RELATED ISSUES
MONTHYEARML20210T2161999-08-0606 August 1999
Draft SE Supporting Proposed Conversion of Current TS to ITS for Plant
ML20206G7471999-05-0404 May 1999
Safety Evaluation Accepting Corrective Actions Taken by SNC to Ensure That Valves Perform Intended Safety Functions & Concluding That SNC Adequately Addressed Requested Actions in GL 95-07
ML20199D8611999-01-12012 January 1999
SER Accepting Relief Request for Inservice Insp Program for Plant,Units 1 & 2
ML20195E2281998-11-16016 November 1998
Safety Evaluation Authorizing Relief Request for Second 10-year ISI Program Relief Request 56 for Plant,Unit 1
ML20155E0271998-10-29029 October 1998
SER Approving & Denying in Part Inservice Testing Program Relief Requests for Plant.Relief Requests Q1P16-RR-V-3 & Q2P16-RR-V Denied Since Requests Do Not Meet Size Requirement of GL 89-04
ML20154B6121998-10-0101 October 1998
Safety Evaluation Granting Second 10-year ISI Requests for Relief RR-13 & RR-49 Through RR-55 for Jm Farley NPP Unit 1
ML20237C5471998-08-20020 August 1998
Suppl to SE Re Amends 137 & 129 to Licenses NPF-2 & NPF-8, Respectively.Se Being Supplemented to Incorporate Clarifications/Changes & Revise Commitment for Insp of SG U-bends in Rows 1 & 2 for Unit 2 Only
ML20236U6141998-07-23023 July 1998
Safety Evaluation Authorizing Use of Alternative Alloy 690 Welds (Inco 52 & 152) as Substitute for Other Weld Metal
ML20236R8671998-07-0909 July 1998
Safety Evaluation Concluding That Southern Nuclear Operating Co USI A-46 Implementation Program Has Met Purpose & Intent of Criteria in GIP-2 & Staff SSER-2 on GIP-2 for Resolution of USI A-46
ML20217D2591998-04-21021 April 1998
Safety Evaluation Accepting Licensee Proposed Alternative Re Augmented Exam of Reactor Vessel Shell Welds for Plant
ML20217H3191998-03-31031 March 1998
Safety Evaluation Accepting Proposed Changes to Plant Matl Surveillance Programs
ML20217D4081998-03-24024 March 1998
Safety Evaluation Accepting Proposed Changes to Maintain Calibration Info Required by ANSI N45.2.4-1972
ML20216H6731998-03-17017 March 1998
SER Accepting Quality Assurance Program Description Change for Joseph M Farley Nuclear Plant,Units 1 & 2
ML20199B0371998-01-22022 January 1998
SER Accepting Request for Relief (RR-27) for Plant,Units 1 & 2 from Certain Provisions of Section XI to ASME Boiler & Pressure Vessel Code.Relief Will Remove Insulation on ASME Code Class 1 Sys During Inservice Insp
ML20198R5221997-10-29029 October 1997
Safety Evaluation Supporting Amends 132 & 124 to Licenses NPF-02 & NPF-08,respectively
ML20216G9521997-09-0404 September 1997
Safety Evaluation Authorizing Request for Relief for IEEE 279-1971,Section 4.7.3 Requirements Concerning Steam Generator Water Level Control
ML20236N3331997-08-21021 August 1997
SER Re Request for Interpretation of EDG TS 4.8.1.1.2.e for Farley Nuclear Plant,Units 1 & 2
ML20137E2951997-03-24024 March 1997
Safety Evaluation Supporting Amends 125 & 119 to Licenses NPF-2 & NPF-8,respectively
ML20137B4371997-03-20020 March 1997
SER Accepting Request for Relief for 120-month Update of Facility Inservice Insp & Inservice Testing Programs & Code Addition & Addenda of Asme/Ansi Parts 6 & 10
ML20135E4811997-03-0404 March 1997
Safety Evaluation Accepting Implementation of 10CFR50.55a Requirements Related to Repair & Replacement Activities for Containment at Plant
ML20056H1341993-08-23023 August 1993
Safety Evaluation Accepting Licensee 921217 Response to NRC 920917 SE Re Inservice Testing Program Relief Request
ML20062D7001990-11-0909 November 1990
Safety Evaluation Supporting Util 881123 & 900917 Responses to Generic Ltr 88-11, NRC Position on Radiation Embrittlement of Reactor Vessel Matls & Its Effect on Plant Operations. Submittals Acceptable.Beltline Welds Discussed
ML20245A8601989-06-13013 June 1989
Safety Evaluation Supporting Util 831104 & 850422 Responses to Generic Ltr 83-28,Item 4.5.3, Reactor Trip Sys Reliability for All Domestic Operating Reactors
ML20195D5391988-10-31031 October 1988
Safety Evaluation Supporting ATWS Rule,10CFR50.62
ML20154C9651988-05-12012 May 1988
Safety Evaluation Re Flaw Indications in Reactor Pressure Vessel
ML20147E2621987-11-16016 November 1987
Corrected Page 2 of Safety Evaluation Re Amends 74 & 66 to Licenses NPF-2 & NPF-8,respectively,deleting Ref to Quarterly Surveillance Testing on Staggered Test Basis
ML20235K4441987-07-0808 July 1987
Safety Evaluation Supporting Granting Licensee Relief from Volumetric Exam of Steam Generator Primary Side Noozles Inside Radiused Sections
ML20212E2241987-02-27027 February 1987
Safety Evaluation Accepting Util 831104 Response to Item 4.5.2 of Generic Ltr 83-28 Re on-line Functional Testing of Reactor Trip Sys,Including Independent Testing of Diverse Trip Features of Reactor Trip Breakers
ML20212F5101987-01-0707 January 1987
Safety Evaluation Accepting Licensee 831104 Response to Generic Ltr 83-28,Item 2.1 (Part 1), Equipment Classification (Reactor Trip Sys Components)
ML20211D5341987-01-0707 January 1987
Safety Evaluation Re Rev 1 to EGG-EA-6794, Conformance to Reg Guide 1.97,Joseph M Farley Nuclear Plant,Units 1 & 2 & Licensee Submittals.Response Acceptable
ML20207C2671986-12-15015 December 1986
Safety Evaluation Accepting Licensee Responses to Generic Ltr 83-28,Item 2.1 (Part 2) & Item 2.2.2 Re Vendor Interface Programs for Reactor Trip Sys & All Other Site safety- Related Components
ML20214Q1891986-11-17017 November 1986
Safety Evaluation Granting Relief Re Inservice Evaluation Criteria for Disposition of Linear Indication in Reactor Coolant pipe-to-safe End Weld on Cold Leg Pipe of Loop C
ML20211H9811986-06-19019 June 1986
Safety Evaluation Supporting Util Request for Relief from Inservice Testing/Insp Requirements Re pressure-retaining Valve Body Welds & Internal Pressure Boundary Surfaces of Valves Exceeding 4 Inches Nominal Pipe Size
ML20198C7851986-05-16016 May 1986
Safety Evaluation Concluding That Util Pressurized Thermal Shock Screening Criteria for Reactor Pressure Vessels Complies w/10CFR50.61
ML20140C9901986-03-19019 March 1986
Suppl 1 to Safety Evaluation Supporting Util 851114 Response to Generic Ltr 83-28,Item 3.2.2 Re Test & Maint Procedures
ML20136H6821985-12-27027 December 1985
Safety Evaluation Granting Relief from Certain Inservice Testing/Insp Requirements Re Reactor Vessel Flange Ligaments,Reactor Coolant Pump Casing Internal Surfaces & Flange Bolts
ML20136C4251985-11-12012 November 1985
Safety Evaluation Accepting Util 831104 & 850215 Responses to Generic Ltr 83-28,Items 3.1.3 & 3.2.3 Re post-maint Testing Requirements in Existing Tech Specs for Reactor Trip Sys Components
ML20209J1941985-10-24024 October 1985
SER Accepting Licensee 831104 & 850422 Responses to Items 4.2.1 & 4.2.2 of Generic Ltr 83-28 Concerning Preventative Maint Program & Trending Parameters for DS-416 Type Reactor Trip Breakers,Respectively
ML20135H3891985-09-12012 September 1985
Safety Evaluation Re Compliance W/License Condition 2.C.(12)(b),requiring Provisions to Assure That safety-grade Backup Means of RCS Depressurization Meets Requirements of Rev 1 to Branch Technical Position Rsb 5-1.Addl Info Needed
ML20209G9691985-09-10010 September 1985
Safety Evaluation Re Generic Ltr 83-28,Items 3.1.1,3.1.2, 3.2.1,3.2.2,4.1 & 4.5.1.Addl Info Required for Item 3.2.2 Re Check of Vendor & Engineering Recommendations for Testing & Maint
ML20127N3131985-06-12012 June 1985
SER Re Util 831104 Response to Generic Ltr 83-28,Item 1.2, Post-Trip Review (Data & Info Capability). Licensee post-trip Review Data & Info Capabilities Acceptable
ML20129D5451985-05-21021 May 1985
SER Re Util 831104 Response to Generic Ltr 83-28,Item 1.1 Re post-trip Review Program & Procedures.Program & Procedures Acceptable Subj to Implementation of Listed Recommendations
1999-08-06
[Table view]
Category:TEXT-SAFETY REPORT
MONTHYEARML20217P0761999-10-0606 October 1999
Non-proprietary, Farley Units 1 & 2 LBB Calculation Results Due to SG Replacement & SG Snubber Elimination Programs
ML20217G0361999-09-30030 September 1999
Monthly Operating Repts for Sept 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20212E7451999-08-31031 August 1999
Monthly Operating Rept for Aug 1999 for Hcgs,Unit 1.With Summary of Changes,Tests & Experiments Implemented During Aug 1999.With
ML20216E4941999-08-31031 August 1999
Monthly Operating Repts for Aug 1999 for Jmfnp.With
ML20210T2161999-08-0606 August 1999
Draft SE Supporting Proposed Conversion of Current TS to ITS for Plant
ML20211B2011999-08-0404 August 1999
Informs Commission About Results of NRC Staff Review of Kaowool Fire Barriers at Farley Nuclear Plant,Units 1 & 2 & Staff Plans to Address Technical Issues with Kaowool & FP-60 Barriers
ML20210R6031999-07-31031 July 1999
Monthly Operating Repts for July 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20196J3791999-06-30030 June 1999
Safety Evaluation of TR WCAP-14750, RCS Flow Verification Using Elbow Taps at Westinghouse 3-Loop Pwrs. Rept Acceptable
ML20209G0661999-06-30030 June 1999
Monthly Operating Repts for June 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
L-99-267, Monthly Operating Repts for June 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With1999-06-30030 June 1999
Monthly Operating Repts for June 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
L-99-023, Monthly Operating Repts for May 1999 for Jfnp Units 1 & 2. with1999-05-31031 May 1999
Monthly Operating Repts for May 1999 for Jfnp Units 1 & 2. with
ML20206G7471999-05-0404 May 1999
Safety Evaluation Accepting Corrective Actions Taken by SNC to Ensure That Valves Perform Intended Safety Functions & Concluding That SNC Adequately Addressed Requested Actions in GL 95-07
L-99-020, Monthly Operating Repts for Apr 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With1999-04-30030 April 1999
Monthly Operating Repts for Apr 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20206C9461999-04-30030 April 1999
1:Final Cycle 16 Freespan ODSCC Operational Assessment
L-99-161, Monthly Operating Repts for Mar 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With1999-03-31031 March 1999
Monthly Operating Repts for Mar 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20205N0961999-03-31031 March 1999
Monthly Operating Repts for Mar 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20204D7271999-03-15015 March 1999
ISI Refueling 15,Interval 2,Period 3,Outage 3 for Jm Farley Nuclear Generating Plant,Unit 1
ML20207M6421999-02-28028 February 1999
Monthly Operating Repts for Feb 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20203A2651999-01-31031 January 1999
Monthly Operating Repts for Jan 1999 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20199D8611999-01-12012 January 1999
SER Accepting Relief Request for Inservice Insp Program for Plant,Units 1 & 2
ML20199E6591998-12-31031 December 1998
Monthly Operating Repts for Dec 1998 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20206C8081998-12-31031 December 1998
Alabama Power 1998 Annual Rept
ML20198K4091998-12-18018 December 1998
COLR for Jm Farley,Unit 1 Cycle 16
ML20198B2561998-11-30030 November 1998
Monthly Operating Repts for Nov 1998 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20195E2281998-11-16016 November 1998
Safety Evaluation Authorizing Relief Request for Second 10-year ISI Program Relief Request 56 for Plant,Unit 1
ML20195C9681998-10-31031 October 1998
Monthly Operating Repts for Oct 1998 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20155E0271998-10-29029 October 1998
SER Approving & Denying in Part Inservice Testing Program Relief Requests for Plant.Relief Requests Q1P16-RR-V-3 & Q2P16-RR-V Denied Since Requests Do Not Meet Size Requirement of GL 89-04
ML20154B6121998-10-0101 October 1998
Safety Evaluation Granting Second 10-year ISI Requests for Relief RR-13 & RR-49 Through RR-55 for Jm Farley NPP Unit 1
ML20151V8341998-09-30030 September 1998
Non-proprietary Rev 2 to NSA-SSO-96-525, Jm Farley Nuclear Plant Safety Analysis IR Neutron Flux Reactor Trip Setpoint Change
ML20154H6001998-09-30030 September 1998
Monthly Operating Repts for Sept 1998 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20154H0121998-09-30030 September 1998
Submittal-Only Screening Review of Farley Nuclear Plant IPEEE (Seismic Portion)
ML20197C8991998-08-31031 August 1998
Monthly Operating Repts for Aug 1998 for Jm Farley Nuclear Plant,Units 1 & 2.With
ML20237C5471998-08-20020 August 1998
Suppl to SE Re Amends 137 & 129 to Licenses NPF-2 & NPF-8, Respectively.Se Being Supplemented to Incorporate Clarifications/Changes & Revise Commitment for Insp of SG U-bends in Rows 1 & 2 for Unit 2 Only
ML20236Y1121998-07-31031 July 1998
Voltage-Based Repair Criteria 90-Day Rept
ML20237B1891998-07-31031 July 1998
Monthly Operating Repts for July 1998 for Jm Farley Nuclear Plant,Units 1 & 2
ML20237A2181998-07-24024 July 1998
Jm Farley Unit 2 ISI Rept Interval 2,Period 3 Outage 1, Refueling Outage 12
ML20236U6141998-07-23023 July 1998
Safety Evaluation Authorizing Use of Alternative Alloy 690 Welds (Inco 52 & 152) as Substitute for Other Weld Metal
ML20236R8671998-07-0909 July 1998
Safety Evaluation Concluding That Southern Nuclear Operating Co USI A-46 Implementation Program Has Met Purpose & Intent of Criteria in GIP-2 & Staff SSER-2 on GIP-2 for Resolution of USI A-46
ML20236M5981998-06-30030 June 1998
Monthly Operating Repts for June 1998 for Jm Farley Nuclear Plant,Units 1 & 2
ML20154H0461998-06-30030 June 1998
Technical Evaluation Rept on Review of Farley Nuclear Plant IPEEE Submittal on High Winds,Flood & Other External Events (Hfo)
ML20248M3121998-05-31031 May 1998
Monthly Operating Repts for May 1998 for Jm Farley Nuclear Plant,Units 1 & 2
ML20247F3631998-04-30030 April 1998
Monthly Operating Repts for Apr 1998 for Jm Farley Nuclear Plant,Units 1 & 2
ML20217D2591998-04-21021 April 1998
Safety Evaluation Accepting Licensee Proposed Alternative Re Augmented Exam of Reactor Vessel Shell Welds for Plant
ML20247E8851998-03-31031 March 1998
FNP Unit 2 Cycle 13 Colr
ML20217H3191998-03-31031 March 1998
Safety Evaluation Accepting Proposed Changes to Plant Matl Surveillance Programs
ML20216D5941998-03-31031 March 1998
Monthly Operating Repts for Mar 1998 for Joseph M Farley Nuclear Plant,Units 1 & 2
ML20217D4081998-03-24024 March 1998
Safety Evaluation Accepting Proposed Changes to Maintain Calibration Info Required by ANSI N45.2.4-1972
ML20216H6731998-03-17017 March 1998
SER Accepting Quality Assurance Program Description Change for Joseph M Farley Nuclear Plant,Units 1 & 2
ML20216J6851998-03-16016 March 1998
Revised Pages 58 & 59 to Fnp,Units 1 & 2,Power Uprate Project BOP Licensing Rept
ML20216D9811998-02-28028 February 1998
Monthly Operating Repts for Feb 1998 for Jm Farley Nuclear Plant,Units 1 & 2
1999-09-30
[Table view] |
Text
( .
p neo g 4y k UNITED STATES
~* -[ NUCLEAR REGULATORY COMMISSION WASHINGTON, D.C. 20688-0001
' SAFETY EVALUATION BY THE OFFICE OF NUCLEAR REACTOR REGULATION
~
LICENSEE RESPONSE TO GENERIC LETTER 95-07. " PRESSURE LOCKING AND THERMAL BINDING OF SAFETY-RELATED POWER-OPERATED GATE VALVES" JOSEPH M. FARLEY NUCLEAR PLANT. UNITS 1 AND 2 DOCKET NOS. 50-348 AND 50-364 1.0 ' INTRODUCTION .
l Pressure locking and thermal binding represent potential common-cause failure mechanisms
~
- that can render redundant safety systems incapable of performing their safety functions. The
. identification of susceptible valves and the determination of when the phenomena might occur require a thorough knowledge of components, systems, and plant operations. Pressure locking 1 occurs in flexible-wedge and double-disk gate valves when fluid becomes pressurized inside i the valve bonnet and 'he actuator is not capable of overcoming the additional thrust .
l
' 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 gate valve that is closed while the system is hot and then is allowed to cool before an attempt is
.made to open the valve.
. Pressure locking or thermal binding occurs as a result of the valve design characteristics (wedge and valve body configuration, flexibility, and material thermal coefficients) when the l valve is subjected to specific pressures and temperatures during various modes of plant i operation. Operating experience indicates that these situations were not always considered in many plants as part of the design basis for valves.
2.0 REGULATORY REQUIREMENTS Title 10 of the Code of Federal Reaulations (10 CFR) Part 50 (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 Valve: ' to request that licensees take.certain actions to ensure that safety-related power-operated gate valves that are 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 I L9905100134'990504
'PDR .ADOCK 05000348 i
!. 1 P PDR ; ;
I 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 l 4
analyses and take needed corrective actions (or justify longer schedules) to ensure that the susceptible valves, identified in (1) above, are capable of performing their intended safety functions under all modes of plant operation including test configuration. 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 surnmary 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 50.109(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 12,1996, Southern Nuclear Operating Company, Inc. (SNC) submitted l
its 180-day response to GL 95-07 for Joseph M. Farley Nuclear Plant, Units 1 and 2 (Farley).
The NRC staff reviewed SNC's submittal and requested additional information in a letter dated July 1,1996. In a letter of July 30,1996, SNC provided the additionalinformation. In addition, in a letter dated April 13,1999, you submitted an amended page to your February 12,1996, GL 95-07 response to correct an error.
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. SNC letters of February 12 and July 30,1996, described the scope of valves evaluated in response to 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 licensing basis for Farley, Units 1 and 2, is Hot Standby; therefore, valves that are operated during conditions below Hot Standby are not in the scope of GL 95-07. Normally open, safety-related power-operated gate valves which are closed for test or surveillance but must return to the open position were evaluated within the scope of GL 95-07. The staff finds 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 configuration. SNC's submittals discussed proposed corrective actions to address potential pressure-locking and thermal-binding problems. The staff's evaluation of the licensee's actions is discussed in the following paragraphs:
3-
- a. SNC stated that it used a thrust-prediction methodology developed by Commonwealth Edison Company (Comed) to demonstrate that the following valves could open under pressure-locking conditions:
1(2)-8000A/B Pressurizer Power Operated Relief Valve Block 1(2)-8801 A/B Boron Injection Tank Isolation 1(2)-8803A/B Boron Injection Tank isolation 1(2)-8884 Charging Pump to Reactor Coolant System Hot Leg 1(2)-8885 Charging Pump to Reactor Coolant System Cold Leg 1(2)-8886 Charging Pump to Reactor Coolant System Hot Leg On April 9,1997, the staff held a public meeting to discuss the technical adequacy of the Comed pressure-locking thrust prediction methodology and its generic use by licensees in their submittals responding to GL 95-07. The minutes of the public meet;ng were issued on April 25, 1997. At the public meeting, Comed recommended that, when using its methodology, minimum margins should be applied between calculated pressure-locking thrust and actuator capability. These margins along with diagnostic equipment accuracy and methodology limitations are defined in a letter from Comed to the NRC dated May 29,1998 (Accession Number 9806040184). The NRC considers tt,e use of the Comed pressure locking methodology acceptable provided these margins, diagnostic equipment accuracy requirements and methodology limitations are incorporated into the pressure-locking calculations. Comed indicated that its methodology may be revised. The staff considers that calculations that are 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 any industry pressure-locking thrust prediction methodology requirements and revisions are properly implemented.
Under this condition, the staff finds that the Comed methodology provides a technically sound basis for assuring that valves susceptible to pressure locking are capable of performing their intended safety-related function.
- b. SNC stated that procedures require that the piping between the residual heat removal pump containment sump suction valve,2-MOV8811 A, and the containment sump be filled with water to a level that maintains approximately 10 feet of filled piping between 2-MOV8811 A and the containment sump to insulate the valve from the hot, post-accident sump fluid. The staff finds that SNC's procedural change to fill the piping between 2-MOV8811 A and the containment sump provide assurance that pressure locking conditions are eliminated and is acceptable corrective action.
- c. SNC stated that the residual heat removal to reactor coolant system hot leg injection valves,1(2)-MOV8889, are susceptible to pressure locking but are not opened until approximately 11 hours1.273148e-4 days <br />0.00306 hours <br />1.818783e-5 weeks <br />4.1855e-6 months <br /> after the initiating event. These valves are not exposed to thermal induced pressure-locking conditions during the 11-hour period, and seat leakage during the 11-hour period will prevent the valve from pressure locking. Also, there are 2 reactor coolant system hot leg injection flow paths (1(2)-
8884 and 1(2)-8888) from the charging pumps that were evaluated for pressure locking and are capable of operating during pressure locking conditions. The staff finds SNC's pressure locking analysis acceptable.
eg 1
)
o *
.4
- d. SNC 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, SNC assumed that thermal binding would not occur below specific temperature thresholds. The screening criteria used by SNC appears to provide a reasonable approach to identify those valves that might be susceptible to thermal binding. Until more definitive industry criteria are developed, the staff concludes that SNC'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 SNC has performed appropriate . !
evaluations of the operational configurations of safety-related power-operated gate valves to l identify valves at Farley, Units 1 and 2, that are susceptible to pressure locking or thermal !
binding. In addition, the NRC staff finds that SNC has taken appropriate corrective actions to ensure that these valves are capable of performing their intended safety functions. Therefore, the staff concludes that SNC has adequately addressed the requested actions discussed in GL 95-07.
Principal Contributor: S. Tingen, NRR l Date: May 4, 1999 1
l l
l i
