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Category:DEFICIENCY REPORTS (PER 10CFR50.55E & PART 21)
MONTHYEARML18016A9011999-04-12012 April 1999
Part 21 Rept Re Defect in Component of DSRV-16-4,Enterprise DG Sys.Caused by Potential Problem with Connecting Rod Assemblies Built Since 1986,that Have Been Converted to Use Prestressed Fasteners.Affected Rods Should Be Inspected
ML20236V3121998-07-29029 July 1998
Final Part 21 Rept Re Enterprise DSR-4 & DSRV-4 Edgs.Short Term Instability Was Found During post-installation Testing & Setup as Part of Design mod/post-work Testing Process. Different Methods Were Developed to Correct Problem
ML20248A1671998-05-22022 May 1998
Interim Part 21 Re Enterprise DSR-4 & DSRV-4 Emergency diesel.Post-installation Testing Revealed,High Em/Rfi Levels Affected New Controllers,Whereas Original Controllers Were unaffected.Follow-up Will Be Provided No Later than 980731
ML17309A6211997-09-29029 September 1997
Part 21 Rept Re Final Disposition of Masterflow 713 & Embeco 636 Grout Nonconformance Reported by Master Builders,Inc. Licensee Continuing to Monitor shelf-life of Masterflow 713 & Embeco 636 Grouts Produced at Rancho Cucamonga
ML20140G4481997-05-0101 May 1997
Part 21 Rept Re Potential Defect in Component of Dsrv & Dsr Enterprise Standby Diesel Generator Sys.Recommends That Springs Be Inspected on Periodic Basis,Such as During Refueling Outages
ML20133E8001997-01-0808 January 1997
Deficiency Rept Re Nonconformance Related to Masterflow 713 Grout,Which Master Builders,Inc Has Supplied as Nuclear SR Product to 18 Npps.Cause Unknown.Requests That Listed Info Be Provided to Gain Insight as to Scope & Possible Cause
ML20134H3361996-11-0505 November 1996
Part 21 Rept Re Defective Inner Thrust Bearing 1801461-01 Used in PSA 35 Mechanical Shock Arrestor Used as Restraint on Piping Sys for Nuclear Generating Plant.Lot of Defective Parts Located & Isolated to Three Customers
ML20115D2001996-07-0909 July 1996
Part 21 Rept Re Mfg Defect of Enterprise DSR-4 & DSRV-4 Edgs,Originally Mfg by Calcon Corp.Amot Control Corp Purchased Calcon Product Line & Maintains Design & Production.Valves Returned to Cooper Energy Svcs on 960131
ML20117G4641996-05-14014 May 1996
Part 21 Rept Re Cooper Bessemer Reciprocating Products,Div of Cooper Cameron Corp,Issued Ltr to Define Utils/Plants Containing Similar Equipment as Supplied on Cooper Bessemer Ksv & Enterprise Dsr EDGs
ML18038A8971994-09-0707 September 1994
Part 21 Rept Re Defect in Latching Mechanism of Potter & Brumfield Relay on C&D High Voltage Shut Down Alarm Assembly Printed Circuit Boards.Pull Test on Relay Reset Button Incorporated Into Receiving Insp Procedures
ML20059H7721994-01-17017 January 1994
Part 21 Rept Re Virginia Power Notifying Fairbands Morse Via Failure Analysis Rept NESML-Q-058 of Defective Air Start Distributor cam,16104412
ML20059F2631994-01-0707 January 1994
Part 21 Rept Re Air Start Distributor Cam Mfg by Fairbanks Morse.Mfg Suggests That Site Referenced in Encl App I Inspect Air Start Distributor Cam as Soon as Practical
ML20058K3841993-12-0909 December 1993
Part 21 Rept Re Potential Defect in Component of Dsrv & Dsr Enterprise Standby DG Sys,Regarding Potential Problem W/ Subcover Assembled Atop Power Head
ML20127H2301993-01-15015 January 1993
Part 21 Rept Re Potential Defeat in Component of Dsrv & Dsr Enterprise Standby DG Sys.Starting Air Distributor Housing Assemblies Installed as Replacement Parts at Listed Sites
ML20126J5961992-12-31031 December 1992
Part 21 Rept Re Potential Loss of RHR Cooling During Nozzle Dam Removal.Nozzle Dams May Create Trapped Air Column Behind Cold Leg Nozzle Dam.Mod to Nozzle Dams Currently Underway. Ltrs to Affected Utils Encl
ML20126B0421992-12-17017 December 1992
Final Part 21 Rept Re Potential Problem W/Steel Cylinder Heads.Initially Reported on 921125.Caused by Inadequate Cast Wall Thickness at 3/4-inch-10 Bolt Hole.Stud at Location Indicated on Encl Sketch Should Be Removed
ML20127D1491992-09-0404 September 1992
Part 21 Rept Re Defect in Component of DSRV-16-4 Enterprise Standby DG Sys Jacket Water Pump Shaft.Caused by Incorrect Tapers Machined on Shaft Due to Vendor Mismatching.All Affected Shafts Recalled & Quality Insp Plans Changed
ML17289A6971992-06-26026 June 1992
Amend 1 to Part 21 Rept 158 Re gear-wear Induced Failures in engine-driven Jacket Water Pump in DSRV-16-4 Standby DG Sys. Initially Reported on 911029.Grand Gulf Station Observed Wear Characteristics in as Little as 500 Operating Hours
ML20094L1271992-03-13013 March 1992
Amend 1 to Part 21 Rept 159 Re Potential Defect in Power Cylinder Liner.Initially Reported on 920115.Caused by Liner/ Block Fit & Localized Matl Microstructure.All Drawings & Specs Revised to Address Matl Design Requirements
ML20087D3191992-01-14014 January 1992
Potential Part 21 Rept Re Problems W/Elmwood/Fasco Contactor Carriers Breaking in Contactor Model 30-FO-30. Caused by Distortion/Shrinkage of Molded Phenolic Contactor Carrier.Replacement Contactors Installed
ML17223A5941990-03-0909 March 1990
Errata to 900126 Part 21 Rept Re Anchor/Darling Actuators Incorporating Use of Teldyne-Republic four-way Valves.Lists Plants Inadvertently Left Out in Original Rept
ML20005G6831990-01-0505 January 1990
Part 21 Rept Re Installation Instructions for Grommet Use Range for Patel Conduit Seal P/N 841206.Conduit Seals in Environ Qualification Applications Inspected for Proper Wire Use Range & Grommets Replaced
ML20248E0121989-09-13013 September 1989
Supplemental Part 21 Rept Re Potential Problem W/Six Specific Engine Control Devices in Air Start,Lube Oil, Jacket Water & Crankcase Sys.Initially Reported on 890429. California Controls Co Will Redesign Valve Seating
ML20246K7401989-04-26026 April 1989
Part 21 Rept Re Incorrectly Stamped Name Plates on Certain Asco Nuclear Qualified Valves.Vendor Will Contact Each Affected Facility & Furnish Correctly Stamped Plates & in Near Future Discontinue Sale of Rebuild Kits for Valves
ML20247P7991989-04-0404 April 1989
Part 21 Rept Re Atmospheric Dump Valves.Cause of Failure Speculative But Result of Piston Ring That Failed to Seal. Resolution to Problem Requires Increasing Pilot Valve Capacity & Reworking of Plug to Enlarge Pilot Flow Area
ML20206M4401988-11-21021 November 1988
Deficiency Rept Re Misapplication of Raychem Criteria in Selection of Some Matl Used in Electrical Cable Field Splice Kits.Initially Reported on 880920.Investigation Is in Process.Final Rept Will Be Submitted by 881222
ML20205C9291988-10-18018 October 1988
Part 21 & Deficiency Rept Re Valves Installed Opposite to Direction of Flow,Per 10CFR21 & 50.55 Requirements.Item Being Tracked by MTS EAI B-5115 & Scheduled for Completion 881030
ML20205D6651988-10-18018 October 1988
Part 21 & Deficiency Rept Re Penetration Seals Found Not to Be Watertight.Initially Reported on 880609.Water Leakage Tests Performed on Unit Upper Cable Spreading Room Seals. All Floor Penetration Seal Assemblies Repaired
ML20207P0451988-10-0505 October 1988
Part 21 Rept 146 Re Defect in Left Intercooler Inlet Adapter on Standby Diesel Engine Generator.Recommends Utils Inspect Left Intake Manifold Drain as Part of Operating Plan.Addl Info Expected by 881015
ML20155D6471988-09-28028 September 1988
Deficiency Rept Re Valves Installed Opposite to Direction of Flow.Initially Reported on 880629.Final Rept Delayed Until 881020
ML20207J7361988-09-20020 September 1988
Interim Deficiency Rept Re Misapplication of Vendor Criteria in Selection of Some Matl Used in Electrical Cable Field Splice Kits.Initially Reported on 880601.Final Rept Expected Prior to 881123
ML20153E2271988-09-0101 September 1988
Part 21 & Deficiency Rept Re ESF Filtration Unit Bolts. Initially Reported on 880628.Contractor Conducted Training Session for Personnel to Stress Importance of Clarifying Incomplete Drawing Info & Requirements of Bolting Procedure
ML20151V1901988-08-16016 August 1988
Deficiency Rept Re non-water Tight Penetration Seals.Test Rig Constructed to Simulate Typical Upper Cable Spreading Room Configuration & Sealants Verified to Provide Waterproof Seal.Next Rept Will Be Submitted by 881020
ML20196L4811988-07-0707 July 1988
Part 21 & Deficiency Rept Re Valves Installed Opposite to Direction of Flow.Initially Reported on 880601.Investigation in Progress to Determine Full Scope of Condition.Final Rept Will Be Submitted by 881001
ML20151A7781988-07-0606 July 1988
Deficiency Rept Re nonwater-tight Penetration Seals. Initially Reported on 880609.Investigation Incomplete.Next Rept Expected by 880818
ML20196C2971988-06-28028 June 1988
Deficiency Rept Re ESF Filtration Bolts.Initially Reported on 880601.Investigation of Root Cause of Condition Ongoing. Final Rept Will Be Submitted by 880901
ML20195D8541988-06-16016 June 1988
Part 21 Rept Re Potentially Reportable Condition Associated W/Dresser Model 7440W Check Valves Supplied W/Flow Direction Arrow Stamped Opposite to Valve Flow.Investigation Being Conducted.Evaluation of Bechtel Western Power Co Ltr Encl
ML20154J4101988-05-12012 May 1988
Addendum 1 to Supplemental Part 21 Rept 145 Re Potential Problem w/F-573-156 Pressure Sensor/Lube Oil Trip.Initially Reported on 880429.Addl 1-1/8-inch Diameter W/Deep Counterbone in Pressure Head Added to Activate Valve
ML20154A6841988-05-10010 May 1988
Deficiency Rept Re Electrical Cable Tray Separation. Initially Reported on 880414.Walkdown of All safety-related Cable Trays Conducted to Ensure Any Unacceptable Separation Distance Identified
ML20153B6191988-04-29029 April 1988
Part 21 Rept Re Potential Defect in Component of Dsr or Dsrv Standby Diesel Generators Supplied to Utils.Recommends Return of Subj Components in Onsite Warehouse Storage & Suggests Surveillance of Devices Already Installed
ML20151K2621988-04-14014 April 1988
Interim Deficiency & Part 21 Rept Re Control Room Essential HVAC Sys.Initially Reported on 870914.Addl Concern Noted Re Incorrect Assumption in Design Calculation.Corrective Action Beyond Calculation Review Involves Logic Mod
ML20151K2371988-04-14014 April 1988
Part 21 & Deficiency Rept Re Damage to Emergency Diesel Generator Jacket Water HX During Flushing.Initially Reported on 860917.HX Repaired & Installed in Unit 2.Thermostatic Valves Being Modified
ML20148R6441988-01-27027 January 1988
Part 21 & Deficiency Rept Re Protection of Containment Electrical Penetration Assemblies Fabricated by Conax Buffalo Corp.Initially Reported on 871203.LOCA Could Cause One or More of nonsafety-related Circuits to Short Circuit
ML20237E9941987-12-22022 December 1987
Deficiency Rept Re Protection of Containment Electrical Penetration Assemblies (Epa).Initially Reported on 871203. Investigations in Progress.Final Rept Will Be Submitted by 880130
ML20236V2981987-11-19019 November 1987
Deficiency Rept Re Electrical Separation Criteria Specified in Const Spec X3AR01.Initially Reported on 870909.Second Test of Electrical Separation Requirements Very Positive. Final Rept Expected to Be Submitted Prior to 880301
ML20236K1431987-11-0202 November 1987
Interim Part 21 & Deficiency Rept Re Inductive Current Interruptive Capacity of Solid State Protection Sys Motor Driven Relay Contacts.Shunt Suppression Device Will Be Added to Solenoid
ML20236J5371987-10-29029 October 1987
Part 21 & Deficiency Rept Re Solid State Protection Sys motor-driven Relay Contacts Inductive Current Interruptive Capacity.Initially Reported on 870110.Hardware Mods to Affected Circuits Planned Prior to Fuel Load
ML20239A2111987-09-14014 September 1987
Part 21 & Deficiency Rept Re Design of Control Room Essential (CRE) HVAC Sys.Initially Reported on 870713. Backdraft Dampers Added to Unit 1 CRE HVAC Units & Will Be Added to Unit 2 Commensurate W/Const Schedule
ML20237H7741987-08-12012 August 1987
Interim Deficiency Rept Re Emergency HVAC Sys in Control Room.Initially Reported on 870713.Engineering Evaluation in Progress to Determine Potential Impacts of Condition on Plant Safety.Final Rept Will Be Submitted by 870915
ML20216E4721987-05-28028 May 1987
Part 21 Rept 140 Re Potential Defect in Air Pressure Regulators Mfg by Bellofram.Dripwell Gasket May Fail Due to Mismachining of Gasket Seating Surface Causing Loss of Control Air & Starting Air Pressure
1999-04-12
[Table view]
Category:TEXT-SAFETY REPORT
MONTHYEARML20217K4591999-09-30030 September 1999
Monthly Operating Repts for Sept 1999 for Vogtle Electric Generating Plant,Units 1 & 2.With
ML20217K8041999-09-30030 September 1999
Rev 1 to Vegp,Unit 2 Cycle 7 Colr
ML20217K7741999-09-30030 September 1999
Rev 1 to Vegp,Unit 1 Cycle 9 Colr
ML20216E5061999-08-31031 August 1999
Monthly Operating Repts for Aug 1999 for Vegp,Units 1 & 2. with
ML20210P9841999-07-31031 July 1999
Monthly Operating Repts for July 1999 for Vogtle Electric Generating Plant,Units 1 & 2.With
ML20209H1211999-06-30030 June 1999
Monthly Operating Repts for June 1999 for Vogtle Electric Generating Plant,Units 1 & 2.With
ML20196F9711999-05-31031 May 1999
Owner Rept for ISI for Vogtle Electric Generating Plant, Unit 1 Eighth Maint/Refueling Outage
ML20195G1731999-05-31031 May 1999
Monthly Operating Repts for May 1999 for VEGP Units 1 & 2. with
ML20206N2141999-04-30030 April 1999
Monthly Operating Repts for Apr 1999 for Vogtle Electric Generating Plant,Units 1 & 2.With
ML20206A6561999-04-21021 April 1999
Safety Evaluation Authorizing Licensee Re Rev 9 to First 10-year ISI Interval Program Plan & Associated Requests for Relief (RR) 65 from ASME Boiler & Pressure Vessel Code
ML18016A9011999-04-12012 April 1999
Part 21 Rept Re Defect in Component of DSRV-16-4,Enterprise DG Sys.Caused by Potential Problem with Connecting Rod Assemblies Built Since 1986,that Have Been Converted to Use Prestressed Fasteners.Affected Rods Should Be Inspected
ML20206C2291999-03-31031 March 1999
Revised Monthly Operating Repts for Mar 1999 for Vogtle Electric Generating Plant,Units 1 & 2
ML20205Q8081999-03-31031 March 1999
Monthly Operating Repts for Mar 1999 for Vegp,Units 1 & 2. with
ML20205A9581999-03-31031 March 1999
Rev 0 to VEGP Unit 1 Cycle 9 Colr
ML20207K6051999-02-28028 February 1999
Monthly Operating Repts for Feb 1999 for Vogtle Electric Generating Plant,Units 1 & 2.With
ML20209H3951999-02-15015 February 1999
Rev 2 to ISI Program Second 10-Year Interval Vogtle Electric Generating Plant Units 1 & 2
ML20209H4091999-02-15015 February 1999
Rev 1 to ISI Program Second 10-Year Interval Vogtle Electric Generating Plant Units 1 & 2
ML20202H9851999-01-29029 January 1999
Safety Evaluation Accepting Rev 8 to First 10-year Interval Inservice Insp Program & Associated Requests for Relief for Vogtle Electric Generating Plant,Unit 1
ML20199F8041999-01-13013 January 1999
Corrected Pages to VEGP-2 ISI Summary Rept for Spring 1998 Maint/Refueling Outage
ML20199E7561998-12-31031 December 1998
Monthly Operating Repts for Dec 1998 for Vogtle Electric Generating Plant,Units 1 & 2.With
ML20198S1781998-12-31031 December 1998
SER Re Second 10-year Interval Inservice Insp Program Plan & Associated Requests for Relief for Southern Nuclear Operating Co,Inc Units 1 & 2
ML20196E5221998-12-0101 December 1998
Rev 8 to ISI-P-014, ISI Program for VEGP-2
ML20198B8571998-11-30030 November 1998
Monthly Operating Repts for Nov 1998 for Vogtle Electric Generating Plant,Units 1 & 2.With
ML20195H2131998-10-31031 October 1998
Monthly Operating Repts for Oct 1998 for Vogtle Electric Generating Station,Units 1 & 2.With
ML20154L5681998-09-30030 September 1998
Monthly Operating Repts for Sept 1998 for Vegp,Units 1 & 2
ML20151W3681998-08-31031 August 1998
Monthly Operating Repts for Aug 1998 for Vogtle Electric Generating Plant Units 1 & 2.With
ML20154L5721998-08-31031 August 1998
Corrected Page from MOR for Aug 1998 for Vegp,Unit 2
ML20237D2051998-07-31031 July 1998
Monthly Operating Repts for July 1998 for Vogtle Electric Generating Plant Units 1 & 2
ML20236V3121998-07-29029 July 1998
Final Part 21 Rept Re Enterprise DSR-4 & DSRV-4 Edgs.Short Term Instability Was Found During post-installation Testing & Setup as Part of Design mod/post-work Testing Process. Different Methods Were Developed to Correct Problem
ML20236P6991998-06-30030 June 1998
Monthly Operating Repts for June 1998 for Vogtle Electric Generating Plant,Units 1 & 2
ML20236Q3051998-06-30030 June 1998
Owner'S Rept for ISI for Sixth Maint/Refueling Outage of Vogtle Electric Generating Plant,Unit 2
ML20249A3911998-05-31031 May 1998
Monthly Operating Repts for May 1998 for Vogtle Electric Generating Plant
ML20248A1671998-05-22022 May 1998
Interim Part 21 Re Enterprise DSR-4 & DSRV-4 Emergency diesel.Post-installation Testing Revealed,High Em/Rfi Levels Affected New Controllers,Whereas Original Controllers Were unaffected.Follow-up Will Be Provided No Later than 980731
ML20249A3931998-04-30030 April 1998
Revised MOR for Apr 1998 for Vogtle Electric Generating Plant Unit 1
ML20247F3841998-04-30030 April 1998
Monthly Operating Repts for Apr 1998 for Vogtle Electric Generating Plant,Units 1 & 2
ML20154Q9721998-04-20020 April 1998
10CFR50.59(B) Rept of Facility Changes,Tests & Experiments for Vogtle Electric Generating Plant,Units 1 & 2
ML20217H7181998-04-0101 April 1998
Corrected Page 5 to 980324 SER Re Relief Requests Associated W/Second 10-year Interval Insp program.RR-21 in Error in That Component,Suction Damper Inadvertently Omitted. Corrected Page 7 of Technical Ltr Rept Also Encl
ML20216D6141998-03-31031 March 1998
Monthly Operating Repts for Mar 1998 for Vogtle Electric Generating Plant,Units 1 & 2
ML20217Q1301998-03-31031 March 1998
Rev 0 to Vepc Unit 2 Cycle 7,COLR
ML20217B8831998-03-24024 March 1998
SER Accepting Relief Request RR-5,RR-19,RR-20,RR-21,RR-23 & RR-24 for Second 10-yr Interval ISI Program Plan
ML20216E2421998-02-28028 February 1998
Monthly Operating Repts for Feb 1998 for Vogtle Electric Generating Plant,Units 1 & 2
ML20203H9551998-02-23023 February 1998
SER Denying Quality Assurance Program Description Change for Vogtle Electric Generating Plant,Units 1 & 2
ML20203E4831998-02-11011 February 1998
Rev 1 to Vogtle Electric Generating Plant,Units 1 & 2 Second Ten-Yr Interval Pump Inservice Test Program
ML20198T1211998-01-31031 January 1998
Owners Rept for Inservice Inspection for Seventh Maintenance/Refueling Outage
ML20202G5441998-01-31031 January 1998
Monthly Operating Repts for Jan 1998 for Vogtle Electric Generating Plant,Units 1 & 2
ML20199E5431998-01-31031 January 1998
Rev 3 to WCAP-14720, Vogtle Units 1 & 2 Spent Fuel Rack Criticality Analysis W/Credit for Soluble Boron
ML20198L6471997-12-31031 December 1997
Monthly Operating Repts for Dec 1997 for Vogtle Electric Generating Plant,Units 1 & 2
ML20203C2811997-12-0909 December 1997
Safety Evaluation Authorizing Request for Relief of Second 10 Yr Interval Inservice Insp Program
ML20202B7881997-12-0101 December 1997
Rev 8 to ISI-P-006, ISI Program for Gpc Vogtle Electric Generating Plant Unit 1
ML20203H0601997-11-30030 November 1997
Monthly Operating Repts for Nov 1997 for Vegp,Units 1 & 2
1999-09-30
[Table view] |
Text
__
,. ', Georgia Power Company
.,3 Post Office Box 282 Waynesboro. Georgia 30830 Telephone 404 554-9961, Ext. 3360 404 724-8114, Ext. 3360
- 0. 0. Fost., GeorgiaPower I ect ite s u} elec:nc sptem September 17, 1986 M
-o E$
m United States Nuclear Regulatory Commission .,_.,
Region II File: X78G03-M120 Suite 2900 Log: GN dO77 101 Marietta Street, Northwest ro Atlanta, Georgia 30323
Reference:
Vogtle Electric Generating Plant-Units 1 and 2; 50-424, 50-425; Valcor Solenoid Valves; Letter GN-1023 dated July 31, 1986 Attention: Mr. J. Nelson Grace In previous correspondence, Georgia Power Company informed the USNRC of a potentially reportable condition involving the potential for hydrogen embrittlement failure of Valcor solenoid valve springs.
This condition is the subject of USNRC I&E Information Notice 86-72.
Georgia Power Company has completed its evaluation and has concluded that this condition is reportable pursuant to the requirements of 10 CFR 21 and 10 CFR 50.55(e).
While in the process of evaluating the sprina failure concern, another condition involving Valcor solenoid valves was detected during Unit 1 preoperational testing. This second condition involves the failure of reed-type position switches mounted on the valves. The failure was caused by the use of an inappropriate control circuit design which caused the switches to be exposed to currents in excess of their rating. This condition is also reportable pursuant to 10 CFR 21 and 10 CFR 50.55(e).
Based upon guidance in NUREG-0302, Revision 1, and other USNRC correspondence, Georgia Power Company is reporting both of these conditions pursuant to the reporting requirements of 10 CFR 50.55(e).
A summary of our evaluations for both conditions is attached.
This response contains no proprietary information and may be placed in the NRC Public Document Room.
8 Your truly ph00 100 860917 S OcK 0500o424 PDR
- V D. O. Foster REF/D0F/tdm (Distribution on Page Two) t
Page Two i
i
, 'xc: U. S. Nuclear Regulatory Commission
, Document Control Desk Washington, D. C. 20555
! J. H. Miller R. A. Thomas L. T. Gucwa l J. P. O'Reilly D. R. Altman C. W. Hayes G. F. Head P. R. Bemis G. A. McCarley
- R. E. Conway J. A. Bailey D. S. Read J. T. Beckham 0. Batum Sr. Resident (NRC)
R. H. Pinson G. Bockhold- C. C. Garrett (0PC)
P. D. Rice C.~ E. Belflower J. E. Joiner (TSLA)
B. M. Guthrie J. F. D'Amico D. Feig (GANE)
D. E. Dutton E. D. Groover NORMS 1
i J
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i I
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i 4
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EVALUATION OF A P0TENTIALLY REPORTABLE CONCERN VALCOR SOLEN 0ID VALVES Initial Report: On July 2,1986, Mr. R. E. Folker, Vogtle Project Quality Assurance Engineer, informed Mr. E. F. Christnot of the USNRC Region II of a potentially reportable condition concerning Valcor Solenoid Valves. Valcor Engineering Corporation informed Georgia Power Company that solenoid valve springs could fail when exposed to high temperature reactor coolant containing hydrogen.
Background Information: On August 19, 1986, the USNRC issued Information Notice 86-72; Failure 17-7 PH Stainle:s Steel Springs in Valcor Valves Due to Hydrogen Embrittlement. Valcor Engineering Corporation had in-formed the NRC that valve springs may fail when exposed to high tempera-ture reactor coolant containing hydrogen. h this information notice, it was indicated that spring failures had occurred at three operating reactors. It also stated that the manufacturer had concluded that hydro-gen embrittlement of stainless steel springs was a complex function of high temperatures, water chemistry, water flow conditions, and time of exposure to the service conditions. All springs made of 17-7 PH (precipitation-hardened) stainless steel used in Valcor valves in nuclear power plants may be susceptible to this failure mode under these condi-tions and should be considered for replacement. A copy of Information Notice 86-72 is included as Attachment 1.
Valcor process solenoid valves were supplied on the Vogtle Project on Specification X5AC07. Bechtel Power Corporation identified the following six valves in each unit that could be subjected to conditions identified in the information notice:
t Tag Number Service i
HV-3520 Residual Heat Removal - Train A Sample HV-3521 Residual Heat Removal - Train B Sample HV-3526 CVCS - Downstream of Letdown Heat Exchanger HV-8208 PASS - Liquid Sample Return HV-8209 PASS - Liquid Sample Return HV-8220 Reactor Coolant System - Hot Leg Sample Bechtel Power Corporation requested Valcor's assistance to determine which valve springs could potentially fail. Valcor rewmmended that the springs of valves HV-8208 and HV-8209 (Units 1 and 2) be replaced.
Valcor's response indicated that valve HV-8220 (Units 1 and 2) was shipped
- with spring material (Elgiloy) that was not susceptible to hydrogen embri ttlement. The other valves were acceptable as supplied for their service conditions.
Subsequent to the report to the NRC of the potential deficiency concerning the hydrogen embrittlement of Valcor solenoid valve spring 3, another condition was encountered associated with the use of underrated seal-in contacts on Valcor valves (0perational Deficiency Reports T-1-86-1932,
_ . __ ___ _ _ _ , _ _ . _ . _ _ _ _ , _ _ _ _ _ _ - _ - ~
Page Two l
4 T-1-86-1970). This condition concerned - direct-acting process solenoid operat.i valves, also manufactured by Valcor Engineering Corporation,
-which have been used in various safety-related process systems. A listing of these valves appears in Table 1.
l.
} The control circuits for these solenoid valves use reed switches for-i seal-in contacts to maintain the solenoid in an energized condition after initial manual energization has been performed by an operator.
One design utilized a safety signal to automatically de-energize the solenoid causing the valve to close. The other design utilized a manually
] actuated handswitch to break the seal-in circuit and close the valve.
> The reed switches are rated at 0.5 amps at 125V DC. A review of this
' condition indicated that the reed switches were carrying a solenoid current of 1.5 amps at - 125V DC, which exceeded their rated capability.
j A test was conducted that demonstrated that after a short period .of i time (approximately 15 minutes), the switch overheated and the reed switch contacts tialded together, which prevented the switch contacts
- from opening when required.
i i The switch contacts can fail in one of two ways: either by burning l open or by burning closed. The effect on plant safety for each of these i failure modes is as follows.
! 1. Burning Open
{'
If the handswitch (HS) associated with the valve is in the " normal" position, swith contact failure by burning open will result in the de-energization of the solenoid. Since these valves utilize a fail-safe design, the valves move to their safe position. The valve can be opened by an operator moving the handswitch to the "open" position, but it will go closed when the handswitch is released to its spring-return-to-normal ' position. Therefore, this 2 switch failure mode cannot degrade plant safety.
- 2. Welding Closed l Switch contact failure by burning closed, which has been experienced
! during preoperational testing, could result in a loss of control i
of these valves. Since these valves utilize other contacts which ,
i open in response to the safety signal or operation of the associated I handswitch, the solenoid would be de-energized allowing the valve
! to close as long as these other contacts are open. However, after
! reset of the safety signal or release of the spring-return-to-normal I handswitch, the valve (s) with welded closed seal-in contacts would j re-open, resulting in an uncontrolled change in plant status. This j could result in an inadvertent loss of containment isolation.
l Engineering Evaluation: An engineering evaluation was conducted to i determine if an unsafe condition could occur as a result of a failure <
! of Valcor solenoid valve springs due to hydrogen embrittlement. Valves 4
I l
3 Page Three HV-8208 and HV-8209 are used in the post-accident sampling system liquid return line. These valves are active containment isolation valves that receive a containment isolation signal' for closure. One of these valves is also a break point between safety-related and nonsafety-related piping.
These process solenoid valves were' designed to return by spring action to the closed position (fail-closed). A condition in which the spring
. fails could render the solenoid valves inoperable 'and in an unsafe (open) position resulting in a potential containment atmosphere leak during a design basis event.
An engineering evaluation was also conducted to determine the cause for the failure of the seal-in contacts. The root cause of this condition was determined to be the use of a control circuit scheme by Bechtel Power Corporation that is normally used for pilot solenoid valve applica-tions. Pilot solenoid valve current is typically 0.1 to 0.2 amps, which is within the rating of the seal-in contact. The Valcor valves are i
direct-acting solenoid valves and have significantly higher coil current.
This difference in coil current requirements was overlooked during the design process, thereby allowing underrated reed switch and seal-in contacts to be used.
As a result of this condition, Bechtel Power Corporation conducted a review of other direct-acting solenoid valves. Five other safety-related Valcor valves were found to have circuit designs that used adequately j rated seal-in contacts using auxiliary relays instead of the reed t switches. Other valves, all of which were supplied under the NSSS i contract, either properly addressed the high coil currents or did not use seal-in contacts. Therefore, this problem is limited to the valves listed in Table 1.
A review of this condition indicated that it could also result in an inadvertent loss of containment isolation. In fact, valves HV-8208 and HV-8209 were affected by both conditions.
I Evaluation of Quality Assurance Program Breakdown: A quality assurance program review has concluded that a significant quality assurance program breakdown did not occur because:
- 1. The valve spring deficiency had been previously reported to the NRC and, subsequently, passed on to the industry by Information Notice 86-72. Valcor appears to be acting responsibly since the valve spring problem was passed on to customers along with recommended corrective action.
- 2. The design problem associated with the use of underrated seal-in contacts occurred only in isolated instances and applications as verified by a complete review of all similar Valcor valves used in the plant. Furthermore, the error was discovered as part of the quality assurar.ce program preoperational testing.
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'Page Four
Conclusion:
Georgia Power Company has evaluated the condition associated with the potential failure of the valve springs of Valcor solenoid valves due to hydrogen embrittlement and has concluded that a reportable condi-i tion does exist as defined . by the reporting criteria of Part 10 CFR 50.55(e). A Part 10 CFR 21 notification is not required since the NRC 4
has been adequately informed of the existence of this condition. (See Information Notice 86-72.)
Georgia Power Company has also evaluated the condition associated with the use of underrated seal-in contacts by Bechtel Power Corporation.
Georgia Power Company has concluded that this condition is reportable per the reporting criteria of Parts 10 CFR 21 and 10 CFR 50.55(e). Based upon guidance in NUREG-0302, Revision 1 and other NRC correspondence, l Georgia Power Company is reporting this condition pursuant to the reporting requirements of Part 10 CFR 50.55(e).
4 Corrective Action:
- 1. For the - condition associated with the potential hydrogen embrittle-j ment of the springs:
Valcor recommends retrofitting the valves with a spring material suitable for the intended service. Bechtel has initiated change control package D10284J to replace the existing springs in valves HV-8208 and HV-8209 from 17-7 PH to Elgiloy.
For Unit 2 valves, a Field Equipment Change Order will be issued.
This action will be tracked by PCW' action item 2B1509 for startup system RP03.
- 2. For the condition associated with the use of underrated seal in i
contacts:
Project Field Engineering -
Operations (PFE-0) has issued Field l
Change Requests (FCR's) to implement the necessary control circuit
- changes for all valves indicated in Table 1.
Unit 2 valves will be corrected by the issuance of Design Change Notices by Bechtel Power Corporation and PFE-0.
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,,.-r- - - - .
_ , , , _ , , . , _ ,_,_,,-_,,__.,____,__m,,,.__,,. , _ __,,,_.. _ ,_ _ _ ,,_ .,_,,..,,,, r._,- _,-. _ _,,c .,__,,__. ,, _ . - . .
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TABLE 1 VALVES WITH UNDERRATED SEAL-IN CONTACTS
~
I#TATETY RfLfffD APPLICATIONS
- TSpecification fifC67)
Associated Startup Elementary System & Normal /
Valve Diagram P&ID Failure Scheme Type) (X4DB-) Mode Function Signal Number ,_
GS00 NC/FC Cont H2 None HV-2790A 1X3D-BG-B05B (2) 213-2 Monitor GS00 NC/FC Cont H2 None HV-2790B 1X3D-BG-B05B (2) 213-2 Monitor GS00 NC/FC Cont H2 None HV-2791A 1X3D-BG-BOSE (2) 213-2 Monitor GS00 NC/FC Cont H2 None HV-2791B 1X3D-BG-3053 (2) 213-2 Monitor GS00 NC/FC Cont H2 None HV-2792A 1X3D-BG-305E (2) 213-2 Monitor GS00 NC/FC Cont H2 None HV-2792B 1X3D-BG-905E (2) 213-2 Monitor GS00 NC/FC Cont H2 None HV-2793A 1X3D-BG-305E (2) 213-2 Monitor GS00 NC/FC Cont H2 None HV-27933 1X3D-BG-BG53 (2) 213-2 Monitor RP02 NC/FC PASS liq. CI-A HV-8208 1X3D-BH-YO2C rtn to ctat.
(1) 110(F-8)
RP02 NC/FC PASS lig. CI-A HV-8209 1X3D-BH-YO2D (1) 110(F-8) rtn to etmt.
RP02 NC/FC PASS gas CI-A HV-3211 1X3D-SH-Y02D rtn to ctat.
(1) 110(C-7)
RP02 NC/FC PASS gas CI-A HV-3212 1X3D-BH-YO2C rtn to ctat.
(1) 110(C-7)
BC00 NC/FC PASS ctmt. CI-A HV-8986A 1X3D-BD-E02L sump (1) 122(B-4)
BC00 NC/FC PASS ctmt. CI-A HV-8986B 1X3D-BD-E02M sump (1) 122(B 4)
RCO2 NJ/FC S/G #1 AFW star-HV-9451 1X3D-BC-007F Sample signa:
(1) 159-3 851MLC
r ._
4 4 o
S TABLE 1 (CONTINUED)
- Associated Startup Elementary System & Normal /
Valve Diagram P&ID Failure (Scheme Type) (X4DB-) Mode Function Signal Number HV-guS2 1X3D-BC-007E RCO2 N0/FC S/G #2 AFW start (1) 159-3 Sample signal HV-9453 1X3D-BC-Q07E RCO2 N0/FC S/G #3 AFW start (1) 159-1 Sample signal HV-9454 1X3D-BC-Q07F RCO2 N0/FC S/G #4 AFW start (1) 159-1 Sample signal BJ02 NC/FC Acc. tank CI-A HV-10950 1X3D-BD-D0aW (1) 120 1 sampling 1X3D-BD-D0nX BJ02 NC/FC Acc. tank CI-A HV-10951 2 sampling (1) 120 CI-A BJ02 NC/FC Acc. tank HV-10952 1X3D-BD-D04W 3 sampling (1) 120 1X3D-BD-DouX BJ02 NC/FC Acc. tank CI-A HV-10953 4 sampling (1) 120 851MLC
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