RIS 2000-05, Resolution of Generic Safety Issue 165, Spring-Actuated Safety and Relief Valve Reliability
| ML003689694 | |
| Person / Time | |
|---|---|
| Issue date: | 03/16/2000 |
| From: | Matthews D Division of Regulatory Improvement Programs |
| To: | |
| Matthews D | |
| References | |
| GSI 165 RIS-00-005 | |
| Download: ML003689694 (5) | |
UNITED STATES
NUCLEAR REGULATORY COMMISSION
OFFICE OF NUCLEAR REACTOR REGULATION
WASHINGTON, DC 20555-0001 March 16, 2000
NRC REGULATORY ISSUE SUMMARY 2000-05 RESOLUTION OF GENERIC SAFETY ISSUE 165, SPRING-ACTUATED SAFETY AND RELIEF VALVE RELIABILITY
ADDRESSEES
All holders of operating licenses for nuclear power reactors, except those licensees who have permanently ceased operations and have certified that fuel has been permanently removed from the reactor vessel.
INTENT
The U.S. Nuclear Regulatory Commission (NRC) is issuing this regulatory issue summary (RIS)
to notify nuclear power reactor licensees about the staffs resolution of Generic Safety Issue (GSI) 165, Spring-Actuated Safety and Relief Valve Reliability, and to provide information that may help licensees determine possible improvements in configuring and/or operating various plant systems to reduce safety and relief valve (SRV) malfunctions. This RIS does not transmit any new requirements or staff positions. No specific action or written response is required.
BACKGROUND INFORMATION
Spring-actuated SRVs are used in many systems to protect piping and components from potential overpressure conditions. GSI 165 was identified after failure of a spring-actuated SRV
at the Shearon Harris nuclear plant degraded the high-head safety injection (HHSI) system and went undetected for a significant period. The concerns that led to the development of the GSI
were as follows: (1) the failure was serious, (2) there were no American Society of Mechanical Engineers Boiler and Pressure Vessel Code (ASME Code) requirements for testing most SRVs, and (3) little attention had been focused on these components. Consequently, it could not be concluded that the failure at Shearon Harris was unique. The combination of the operating conditions of the HHSI SRVs, the normally cross-tied configuration of the system trains, and the difficulty of detecting the failures, resulted in a conditional core damage probability of 6 X 10-3 per reactor-year (RY) at the Shearon Harris plant, that could be attributed to failure of the HHSI
SRVs to open or close as required. In its initial assessment, the staff used a conservatively bounding methodology in which it was estimated that up to 8 percent of the approximately
60 valves of this type in various safety-related systems in a typical plant could be significant contributors to core damage frequency (CDF), if they failed. In addition, the staff estimated that
10 percent of the SRVs would have the capability to fail their trains. A preliminary analysis ML003689694
RIS 2000-05 March 16, 2000 indicated that failure of SRVs in a typical plant could raise the CDF to an upper bound value of
5 X 10-2/RY. Finally, the staff estimated that the SRV failure probability could be significantly reduced by having licensees perform economical tests in their plants.
Because significant NRC and industry resources had been spent on both evaluating the risk and improving the reliability of pressurizer safety valves and main steam safety valves in pressurized-water reactors and main steam SRVs in boiling-water reactors, the focus of this issue was limited to smaller spring-actuated SRVs in safety-related support systems and the effects of their unreliability on plant operation.
SUMMARY OF ISSUE
In its evaluation and resolution of GSI 165, the staff found that its initial assumptions used in estimating the risk significance of the issue were overly conservative or had changed. Review of piping and instrument diagrams for important safety-related systems revealed that Shearon Harris was somewhat unique and that the type of system cross-tying that contributed to the seriousness of the Shearon Harris degradation was not present at most other plants. Review of related valve data identified only a single valve configuration found in high pressure safety injection (HPSI) systems in Combustion Engineering plants that had the potential for failing its train. That SRV configuration was analyzed as a worst case. Due to the low probability of failure of both trains of the system, the analysis showed that the increase in CDF for that SRV
configuration was acceptably low, (6 X 10-6/RY). Review of licensee event reports and Nuclear Plant Reliability Data System narratives during data gathering for failure rate estimation did not reveal any other instances of valve spring failure, other than the failure at Shearon Harris.
Finally, and perhaps most significantly, the additional testing requirements for these SRVs contemplated in the initial assessment for the resolution of this GSI were included in the 1986 Edition of the ASME Code inservice testing (IST) requirements and continue to be required in the ASME Code. The additional testing is already being performed at all but a few plants, which still use earlier editions of the ASME Code (i.e., 1983 Edition). It is expected that all plants will have updated their IST programs to include the additional testing by the end of 2002.
As a result, the NRC staff closed GSI 165 without any new regulatory requirements being issued.
Backfit Discussion
This RIS requests no action or written response. Consequently, the staff did not perform a backfit analysis.
RIS 2000-05 March 16, 2000
Federal Register Notification
A notice of opportunity for public comment was not published in the Federal Register because this RIS is informational.
If there are any questions about this matter, please contact one of the persons listed below, or the appropriate Office of Nuclear Reactor Regulation project manager for a specific nuclear power plant.
/RA/
David B. Matthews, Director Division of Regulatory Improvement Programs Office of Nuclear Reactor Regulation Technical Contacts: Owen Gormley, RES
301-415-6793 E-mail: opg@nrc.gov Gary Hammer, NRR
301-415-2791 E-mail: cgh@nrc.gov Attachment: List of Recent NRC Regulatory Issue Summaries
RIS 2000-05 March 16, 2000
Federal Register Notification
A notice of opportunity for public comment was not published in the Federal Register because this RIS is informational.
If there are any questions about this matter, please contact one of the persons listed below, or the appropriate Office of Nuclear Reactor Regulation project manager for a specific nuclear power plant.
/RA/
David B. Matthews, Director Division of Regulatory Improvement Programs Office of Nuclear Reactor Regulation Technical Contacts: Owen Gormley, RES
301-415-6793 E-mail: opg@nrc.gov Gary Hammer, NRR
301-415-2791 E-mail: cgh@nrc.gov Attachment: List of Recent NRC Regulatory Issue Summaries DOCUMENT NAME:C:\RIs165.WPD
- See previous concurrence ML003689694 TEMPLATE NRR-052 INDICATE IN BOX: C=COPY W/O ATTACHMENT/ENCLOSURE, E=COPY W/ATT/ENCL, N=NO COPY
OFFICE EMEB:DE TECH:ED EMEB:DE EMEB:DE RES:DET DD:DE D:DE
NAME GHammer* BCalure * DTerao* EImbro* MMayfield* RWessman* JStrosnider*
DATE 2/8 /00 01 / 24 /00 2/9/00 2/10/00 2/10/00 2/10/00 2 /26/00
OFFICE ADPT REXB:DRIP D:DRIP
NAME BSheron* LMarsh* DMatthews DATE 3/3/00 3/9/00 3/16/00
OFFICIAL RECORD COPY
Attachment RIS 2000-05 March 16, 2000 LIST OF RECENTLY ISSUED
NRC REGULATORY ISSUE SUMMARIES
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Regulatory Issue Date of Summary No. Subject Issuance Issued to
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2000-04 Operating Reactor Licensing 03/16/2000 All power reactor licensees Action Estimates
2000-03 Resolution of Generic Safety Issue 03/15/2000 All holders of OLs for nuclear
158: Performance of Safety- reactors, except for those Related Power-Operated Valves licensees who have permanently Under Design Basis Conditions ceased operations and have certified that fuel has been permanently removed from the reactor vessel
2000-02 Closure of Generic Safety Issue 02/15/2000 All holders of OLs for nuclear
23, Reactor Coolant Pump Seal reactors, except for those Failure licensees who have permanently ceased operations and have certified that fuel has been permanently removed from the reactor vessel
2000-01 Changes Concerning Foreign 01/27/2000 All NRC licensees Ownership, Control, or Domination of Nuclear Reactor Licensees
1999-06 Voluntary Submission of 12/01/1999 All holders of OLs for nuclear Performance Indicator Data reactors, except for those licensees who have permanently ceased operations and have certified that fuel has been permanently removed from the reactor vessel
1999-05 Implementing Procedure for Power 12/01/1999 All holders of OLs for nuclear Reactor NOEDs Processed During power reactors, except for those the Y2K Transition licensees who have permanently ceased operations and have certified that fuel has been permanently removed from the reactor vessel
_______________________________________________________________________________________
OL = Operating License CP = Construction Permit
_______________________________________________________________________________________
OL = Operating License CP = Construction Permit