Information Notice 2003-01, Failure of a Boiling Water Reactor Target Rock Main Steam Safety/Relief Valve
ML030140543 | |
Person / Time | |
---|---|
Issue date: | 01/15/2003 |
From: | Beckner W D NRC/NRR/DRIP/RORP |
To: | |
Billings, Danny, NRR/OES/ROR, 415-1175 | |
References | |
TAC M6480 IN-03-001 | |
Download: ML030140543 (8) | |
UNITED STATESNUCLEAR REGULATORY COMMISSIONOFFICE OF NUCLEAR REACTOR REGULATIONWASHINGTON, DC 20555-0001January 15, 2003NRC INFORMATION NOTICE 2003-01:FAILURE OF A BOILING WATER REACTORTARGET ROCK MAIN STEAM SAFETY/RELIEF
VALVE
Addressees
All holders of operating licenses or construction permits for nuclear power reactors, exceptthose that have permanently ceased operations and have certified that fuel has been
permanently removed from the reactor.
Purpose
The U.S. Nuclear Regulatory Commission (NRC) is issuing this information notice to alertaddressees to a recent failure of a main steam safety/relief valve on a boiling water reactor
(BWR). The NRC anticipates that recipients will review the information for applicability to their
facilities and consider taking appropriate actions. However, suggestions contained in this
information notice are not NRC requirements; therefore, no specific action or written response
is required.
Description of Circumstances
In April 2002, following a Unit 1 refueling outage at the Hatch Nuclear Plant, the safety/reliefvalve (S/RV) in the 1J location began leaking. In an effort to stop the assumed pilot valve
leakage, the licensee cycled the S/RV at rated pressure and temperature. The valve failed to
fully open and then failed to reseat. The licensee continued the startup to allow identification of
potential balance-of-plant leakage. During the balance-of-plant startup, the associated S/RVvacuum breaker failed due to repeated cycling, resulting in high unidentified drywell leakage. The plant was shut down when the leakage exceeded the technical specification allowableleakage (reference LER 50-321/2002-002). The S/RVs installed in Unit 1 are Target Rock two-stage S/RVs. The main stage valve internals(shown in attached Figure 1) are assembled by screwing the main piston onto the main stem so
that the piston moves inside the guide, installing a locking tab washer, and installing the stem
nut against the washer's locking tab. The piston is torqued to 100 ft-lbs, the stem nut is torqued
to 50 ft-lbs, and the locking tab is bent to capture the stem nut. During the S/RV inspection
after the April 2002 shutdown, the failed valve was found to have a .003-inch clearance
between the main disc and its seat. When the valve was disassembled, the stem nut and the piston were found to be loose. The stem nut was removed by hand and the piston was alsounthreaded by hand from the stem. However, the threads on the stem were severely damaged.
The piston was unthreaded by working it up to the good threads under the stem nut and
threading it onto this portion of the stem. The inside of the guide was heavily grooved and was
also worn by the piston edge wearing on the guide. The piston was visibly cocked on the valve
stem. In an earlier event in 1999, the licensee had a different S/RV fail on the test stand. This failureoccurred during the fourth valve actuation when the stem nut fell off the stem and jammed in
the preload spring coils. The resulting uneven force caused the piston to cock in the guide.
The stem nut had lost torque and came unscrewed from the stem threads in spite of the locking
tab. Following this failure, the licensee instituted a program to check the torque on both the
stem nut and the piston. The licensee found in most cases, both the stem nut and the piston
had lost torque.Following the failure of the 1J S/RV, the licensee closely examined three valves which had beenremoved during the April 2002 refueling outage. The stem nuts and pistons of all three valves
had lost torque, the stems of two of the valves showed significant wear on the valve threads, and one valve exhibited some thread wear. All three valves showed signs of damage on the
stem shoulder, which is designed to contact the piston. In October 2002, the licensee removed
three additional S/RVs from Unit 1 for testing, disassembly, and inspection. All three valves
successfully stroked with steam pressure but when disassembled and inspected, were found to
have lost torque on both the stem nut and the piston. Two valves had fairly good threads and
the final valve (1F) had significant thread damage and a visibly cocked piston. All three valve
stems showed varying degrees of damage in the shoulder area.The licensee believes the loss of torque and damage of the valve internals can be attributed tothe manufacturing tolerances of the valve stem and piston and to the lengthy service time
without adequate inspection and maintenance. The valve is designed so the valve stem screws
into the piston. The stem has a shoulder that seats against the piston shoulder. For the valves
that show little to no thread damage, the stem apparently seats properly against the piston and
most of the valve actuation force is carried by the stem and piston shoulders. For the valves
with thread damage, the licensee believes that the end of the lead thread of the piston contacts
the fillet that is machined into the shoulder of the valve stem. As shown in Figure 1, when this
occurs, the shoulder of the stem does not properly seat against the shoulder of the piston.
Thread damage starts with the first actuation on the test stand, resulting in a loss of torque.
Over time, vibration from normal plant operations causes fretting and wear of the valve stem
shoulder and threads. The piston rocks in the guide and wears grooves where the piston rings
contact the guide. Eventually the piston could significantly cock on the stem and wedge in the
guide during valve actuation, which would prevent proper opening or closing of the valve. The
licensee has not been able to determine the time in operation required to damage a valve to the
point of failure. The licensee believes the failed 1J valve and the damaged 1F valve were in
service for approximately 20 years without maintenance. The licensee is currently removing
several S/RVs during each plant outage to ensure that all installed S/RVs are inspected and
maintained at least every 6 years. There are 11 S/RVs installed in each unit. DiscussionAs the result of the 1J valve failure, the licensee performed a root cause analysis following theevent and contracted an independent engineering firm to perform a separate root cause
analysis. The licensee believes that the failure of the S/RV is related to the manufacturing
tolerances of the valve stem and piston assembly and to the lengthy service time without
adequate inspection and maintenance. The independent root cause analysis determined that
the lead thread of the piston was contacting the fillet of the shoulder, preventing shoulder-to- shoulder contact. Since the piston was not adequately attached to the stem, operational
vibration and valve actuation caused thread damage and eventual valve failure. The valve
vendor (Curtiss Wright Flow Control Corporation) has developed changes to the inspection and
refurbishment procedures to ensure proper shoulder-to-shoulder contact during valve
assembly. The BWR vendor (GE Nuclear Energy) is issuing a Service Information Letter (SIL)
to address the degradation found in the Hatch S/RVs.The above-described circumstances emphasize the importance of periodic inspection of S/RVmain stage components to identify deficiencies and necessary corrective actions. All Target
Rock two-stage and three-stage S/RVs have similarly designed main stage components.
Currently 11 BWR plants in the U.S. have two-stage S/RVs, and 11 BWR plants have three- stage S/RVs.The above described problems found in the main stages of Target Rock S/RVs are not relatedto the problems found previously in the pilot stages of the S/RVs that were discussed in
Regulatory Issue Summary 2000-12, "Resolution of Generic Safety Issue B-55." This information notice requires no specific action or written response. If you have anyquestions about the information in this notice, please contact one of the technical contacts
listed below or the appropriate Office of Nuclear Reactor Regulation (NRR) project manager./RA/William D. Beckner, Program Director
Operating Reactor Improvements Program
Division of Regulatory Improvement Programs
Office of Nuclear Reactor RegulationTechnical Contacts:Norman Garrett, Region IICharles G. Hammer, NRR(912) 367-9881(301) 415-2791 Email: nxg@nrc.govEmail: cgh@nrc.govDanny Billings, NRR(301) 415-1175 Email: deb1@nrc.govAttachments:1. Figure 1 - Target Rock Safety/Relief Valve2. List of Recently Issued NRC Information Notices As the result of the 1J valve failure, the licensee performed a root cause analysis following theevent and contracted an independent engineering firm to perform a separate root cause
analysis. The licensee believes that the failure of the S/RV is related to the manufacturing
tolerances of the valve stem and piston assembly and to the lengthy service time without
adequate inspection and maintenance. The independent root cause analysis determined that
the lead thread of the piston was contacting the fillet of the shoulder, preventing shoulder-to- shoulder contact. Since the piston was not adequately attached to the stem, operational
vibration and valve actuation caused thread damage and eventual valve failure. The valve
vendor (Curtiss Wright Flow Control Corporation) has developed changes to the inspection and
refurbishment procedures to ensure proper shoulder-to-shoulder contact during valve
assembly. The BWR vendor (GE Nuclear Energy) is issuing a Service Information Letter (SIL)
to address the degradation found in the Hatch S/RVs.The above-described circumstances emphasize the importance of periodic inspection of S/RVmain stage components to identify deficiencies and necessary corrective actions. All Target
Rock two-stage and three-stage S/RVs have similarly designed main stage components.
Currently 11 BWR plants in the U.S. have two-stage S/RVs, and 11 BWR plants have three- stage S/RVs.The above described problems found in the main stages of Target Rock S/RVs are not relatedto the problems found previously in the pilot stages of the S/RVs that were discussed in
Regulatory Issue Summary 2000-12, "Resolution of Generic Safety Issue B-55." This information notice requires no specific action or written response. If you have anyquestions about the information in this notice, please contact one of the technical contacts
listed below or the appropriate Office of Nuclear Reactor Regulation (NRR) project manager./RA/William D. Beckner, Program Director
Operating Reactor Improvements Program
Division of Regulatory Improvement Programs
Office of Nuclear Reactor RegulationTechnical Contacts:Norman Garrett, Region IICharles G. Hammer, NRR(912) 367-9881(301) 415-2791 Email: nxg@nrc.govEmail: cgh@nrc.govDanny Billings, NRR(301) 415-1175 Email: deb1@nrc.govAttachments:1. Figure 1 - Target Rock Safety/Relief Valve2. List of Recently Issued NRC Information NoticesDISTRIBUTION:ADAMS
IN File
ADAMS ACCESSION NUMBER: ML030140543 DOCUMENT NAME: G:\RORP\OES\Staff Folders\Info\Hatch SRV\Billings\Hatch SRV\Hatch SRV
IN.rev2.wpdOFFICEOES:RORP:DRIPTech EditorEMEB:DEEMEB:DENAMEDBillingsPKleeneBRBonserCGHammer DATE12/12/200212/04/200201/09/200312/18/2002OFFICERegion IIRegion IISC:OES:RORP:DRIPPD:RORP:DRIPNAMENPGarrettBRBonserTReisWDBeckner
DATE12/20/2002 / /200201/13/200301/15/2003OFFICIAL RECORD COPY
Attachment 1 ______________________________________________________________________________________OL = Operating License
CP = Construction PermitAttachment 2 LIST OF RECENTLY ISSUEDNRC INFORMATION NOTICES_____________________________________________________________________________________InformationDate of
Notice No. SubjectIssuanceIssued to_____________________________________________________________________________________2002-35Changes to 10 CFR Parts 71and 72 Quality Assurance
Programs12/20/2002All holders of 10 CFR Part 71quality assurance program
approvals and all 10 CFR Part 72 licensees and certificate holders.2002-34Failure of Safety-RelatedCircuit Breaker External
Auxiliary Switches at Columbia
Generating Station11/25/2002All holders of operating licensesor construction permits for
nuclear power reactors.2002-33Notification of PermanentInjunction Against Neutron
Products Incorporated of
Dickerson, Maryland11/21/2002All teletherapy and radiationprocessing licensees. 2002-29(Errata)Recent Design Problems in Safety Functions of Pneumatic
Systems11/06/2002All holders of operating licensesor construction permits for
nuclear power reactors.2002-32Electromigration onSemiconductor Integrated
Circuits10/31/2002All holders of operating licensesfor nuclear power reactors except
those who have ceased
operations and have certified that
fuel has been permanently
removed from the reactor vessel.2002-31Potentially Defective UF6Cylinder Valves (1-inch)10/31/2002All licensees authorized topossess and use source material
and/or special nuclear material for
the heating, emptying, filling, or
shipping of uranium hexafluoride
(UF6) in 30- and 48-inch cylinders.2002-30Control and Surveillance ofPortable Gauges During Field
Operations10/30/2002All NRC licensees authorized topossess, use, transport, and store
portable gauges.Note:NRC generic communications may be received in electronic format shortly after they areissued by subscribing to the NRC listserver as follows:To subscribe send an e-mail to <listproc@nrc.gov >, no subject, and the followingcommand in the message portion:subscribe gc-nrr firstname lastname