Information Notice 2002-22, Degraded Bearing Surfaces in Gm/Emd Emergency Diesel Generators: Difference between revisions

Degraded Bearing Surfaces in Gm/Emd Emergency Diesel Generators

ML021790640
Person / Time
Site:	Sequoyah, Arkansas Nuclear, Surry
Issue date:	06/28/2002
From:	Beckner W NRC/NRR/DRIP/RORP
To:
Petrone C , NRC/NRR/RORP, 415-1027
References
TAC M3057 IN-02-022
Download: ML021790640 (7)
v • d • e

UNITED STATES NUCLEAR REGULATORY COMMISSIONOFFICE OF NUCLEAR REACTOR REGULATIONWASHINGTON, DC 20555June 28, 2002NRC INFORMATION NOTICE 2002-22:DEGRADED BEARING SURFACES IN GM/EMD EMERGENCY DIESEL GENERATORS

Addressees

All holders of operating licenses for pressurized- or boiling-water nuclear power reactors,including those that have ceased operations but have fuel on site.

Purpose

The U.S. Nuclear Regulatory Commission (NRC) is issuing this information notice to informaddressees of the discovery of degraded bearing surfaces on the piston bearings in General

Motors/Electromotive Division (GM/EMD) emergency diesel generator (EDG) engines. It is

expected that recipients will review the information for applicability to their facilities and consider

actions, as appropriate, to avoid similar problems. However, suggestions contained in this

information notice are not NRC requirements; therefore, no specific action or written response

is required.

Description of Circumstances

Surry Power Station, Units 1 and 2

On April 23, 2001, with both units at full power, emergency diesel generator 3 (EDG 3) wastaken out of service to investigate an increase in the silver concentration in samples of EDG

lubricating oil. The piston wristpin bearing inserts in GM/EMD diesel engines have a silver

substrate beneath a lead-tin overlay. An increasing concentration of silver in the lube oil is an

indicator of excessive wear of the bearing surfaces.The engine manufacturer has provided detailed instructions on interpreting the results of lubeoil sample analysis. Silver concentrations in the range 0 to 1 parts per million (ppm) are

considered normal. The range 1 to 2 ppm is considered borderline, and concentrations above 2 ppm indicate a "high correct condition." The manufacturer specifies several inspections, including feeling the side of piston pins in situ for signs of distress and measuring the piston-to- head clearance for the high-correct condition.The silver content of the lube oil samples from Surry EDG 3 gradually rose from 0.63 ppm inApril 2000 to more than 2 ppm in October, but the licensee did not notice this trend because the

action level in the licensee's sampling procedure was too high. In April 2001, there were

indications of abnormal wear on the wrist pin sides. Examination revealed severe damage on

the surfaces of seven of the wristpin bearings and piston carrier bearings. The silver had been

displaced from the wristpin bearing surfaces to the carrier bearing surfaces, blocking some or

all of the lubricating oil channels. The partially blocked oil channels prevented normal oil flow at the bearing-to-wristpin interface, resulting in higher oil and bearing temperatures and wear andextrusion of the bearing surfaces. There was base-metal-to-base-metal contact, which can

lead to catastrophic bearing failure and engine damage. Surveillance testing required by

technical specifications failed to detect the damage in the engine.Based on the as-found condition of EDG 3, the licensee concluded that this engine wasinoperable. All 20 power-pack assemblies (cylinder, cylinder head, piston and connecting rod)

were replaced and the EDG was returned to service.The silver concentration in the oil samples from Surry EDG 1 was also higher than historicalvalues but was in the 1-to-1.2 ppm range when the engine was removed from service in July

2001. Inspecting the removed power-pack assemblies, the licensee found that cylinder #8 had

a severely damaged piston wristpin bearing and a piston carrier bearing all of whose oil

channels were blocked. Seven other cylinders had partially blocked bearing oil channels. All

20 power-pack assemblies were replaced and the EDG was returned to service.Sequoyah Nuclear Plant

In June 2001, the licensee tested an oil sample from Sequoyah EDG 2B-B and found anincrease in silver content to 1.1 ppm, indicating a borderline condition. Two months later, the

wristpin and piston carrier bearings of cylinder #11 were found to be severely degraded. The

bearing material had been worn away, oil channels were blocked, the wristpin was burned and

heavily scored, and parts of the wristpin and carrier were blued from heat. From a record

review, the cylinder #11 measured piston-to-head clearance in March 2001 had exceeded the

acceptance criteria of 0.068 inches by 0.001 inches and was significantly changed, 0.027 inches, from the previous measurement in 1999. The vendor recommends that the associated

power pack be condemned when a change of 0.030 inches is observed. In September 2001 the licensee investigated a slightly elevated silver content in EDG 1A-A. Performance of in-situ feel checks, visual inspections and piston-to-head clearance

measurements were unable to locate the cause of the elevated silver. Visual examination of

the disassembled power packs found damage in cylinder #1 similar to that in EDG 2B-B

cylinder #11. Technical specification required testing did not disclose the damage in either

EDG 1A-A or 2B-B.Arkansas Nuclear One (ANO)

In January 1986, damage similar to that at Sequoyah and Surry was observed in EDG 1A atANO. The wristpins and connecting rod bearing inserts of four cylinders were heavily scored

and burned. At that time, lube oil analysis was not done on a regular schedule. The lube oil

analysis after the discovery of the damage showed a silver content of 9.2 ppm; the action level

was 2.0 ppm. Piston-to-cylinder-head clearances in all four cylinders were found to be greater

than the 0.03 inches permitted by the manufacturer. The licensee attributed the wristpin

bearing failures to insufficient lube oil film but could not identify the mechanism. The licensee

determined that frequent visual inspections of the wristpin bearings and frequent

measurements of piston-to-cylinder-head clearance should be made. The licensee also began

monitoring and trending lube oil samples. DiscussionAs a result of finding damaged bearings in their GM/EMD diesel generator engines, the threelicensees performed technical assessments and root cause analyses. The Surry licensee

contracted several technical organizations to perform independent assessments for this

purpose (see the reference at the end of this notice).The licensees generally agreed about the failure mechanism and the probable root causes. The damage to the wristpin was consistent with a

"lubrication-deprived failure

". Wear andextrusion of the softer silver substrate material is the result of insufficient lubrication or use of a

lubricant with insufficient film strength to remain on the bearings between engine starts. The

problem is possibly aggravated by oil chemistry.The failure is initiated by repeated engine starts under marginal lubrication conditions. Thesilver-and-lead bearing material is displaced into the oil channels of the wristpin bearing, limiting

or preventing lubricant flow across the full surface of the bearing. When the channels are

substantially or completely blocked, the bearing material wears away until the steel wristpin

contacts the steel bearing shell and the bearing fails. Initially, the damage occurs only while the

engine is starting, i.e., until the lubricating system supplies oil to the bearing. However, after

the oil channels are substantially blocked, the bearing is lubrication-deprived and damage can

continue and potentially accelerate while the engine is operating.From the information provided by the Surry licensee (see reference), the change tononchlorinated oils appears to be the root cause of their bearing failures. Chlorine compounds

previously were added specifically to impart extra

"extreme pressure

" (EP) resistance to thebase lube oil. This EP resistance property provides oil adherence to the bearings when the

engine is not run for an extended period, thereby preserving some lubrication for the next start.

However, these chlorine compound additives were determined to be carcinogenic and posed

disposal problems. Therefore, licensees had changed to a non-chlorinated formulation.

Feedback obtained by the licensee from additive formulation experts in the oil industry and from

bearing manufacturers confirms that the chlorinated additive in the earlier lube oil was a paraffin

wax and was there as an extreme-pressure lubricant.Although the licensee changed to an oil that met the engine vendor

's specifications, thenonchlorinated formulation apparently had not been specifically qualified for the standby duty

typically required of diesel engines provided for nuclear power plants. Such oils have been

used successfully in locomotive and marine applications in which engines operate continuously

for long periods, and shutdowns are infrequent and of relatively short duration. The problems at Surry, Sequoyah and ANO indicate that the recommended limits for silver inthe lube oil need to be reexamined. The current 2 ppm limit at which specific actions are

required may not be an appropriate limit for the more stringent demands on the lube oil during

extended standby duty. The limit is based upon uniform wear from all cylinders and not for the

detection of abnormal degradation on single or a few bearings. It may also be prudent to do

more frequent oil analyses and more frequent visual inspections of the relevant engine parts at

lower or at step changes in, silver concentrations. Furthermore, with elevated silver

concentrations, successful completion of surveillance tests feel checks, and piston-to-head

clearance measurements may not be sufficient to confirm that the piston wristpin and piston

carrier bearing are free of severe damage. Although not observed at these three plants, degraded turbocharger bearings can also result in elevated silver concentrations. 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:Jai R. Rajan, NRRKerry D. Landis, RII301-415-3066404-562-4510

Email: jrr@nrc.govEmail: kdl@nrc.govPaul E. Fredrickson, RIILinda Smith, RIV404-562-4530817-860-8137 Email: pef@nrc.govEmail: ljs@nrc.govReference: Letter dated December 12, 2001, from Virginia Electric and Power Company to theNRC, transmitting technical reports on the root cause of the wristpin damage in the Surry Power

Station emergency diesel generators (Accession Nos. ML 0136001720 [Part I] and

ML 0136002070 [Part II])Attachment: List of Recently Issued NRC Information Notices

ML021790640DOCUMENT NAME: G:\REXB\RAB1\IN-EDG4.WPD*See previous concurrenceOFFICERSE:RORP:DRIPTech EditorR-IIR-IINAMECDPetronePKleene*Pfredrickson *e-mailKLandis *emailDATE06/12/200204/04/200206/12/200206/12/2002OFFICER-IVBC:EMEB:DESC:OES:RORP:DRIPPD:ROR:DRIPNAMELsmith *emailGImbroTReisWDBecknerDATE06/12/200206/25/200206/27/200206/28/2002

______________________________________________________________________________________OL = Operating License

CP = Construction PermitAttachment 1 LIST OF RECENTLY ISSUEDNRC INFORMATION NOTICES

_____________________________________________________________________________________InformationDate of

Notice No. SubjectIssuanceIssued to

_____________________________________________________________________________________2002-21Axial Outside-DiameterCracking Affecting Thermally

Treated Alloy 600 Steam

Generator Tubing06/25/2002All holders of operating licensesfor pressurized-water reactors

(PWRs), except those who have

permanently ceased operations

and have certified that fuel has

been permanently removed from

the reactor.2002-19Medical MisadministrationsCaused By Failure to Properly

Perform Tests on Dose

Calibrators for Beta-and Low- Energy Photon-Emitting

Radionuclides06/14/2002All nuclear pharmacies andmedical licensees.2002-18Effect of Adding Gas IntoWater Storage Tanks on the

Net Positive Suction Head For

Pumps06/06/2002All holders of operating licensesfor nuclear power reactors, except those who have

permanently ceased operations

and have certified that fuel has

been permanently removed from

the reactor.2002-17Medical Use of Strontium-90Eye Applicators: New

Requirements for Calibration

and Decay Correction05/30/2002All U.S. Nuclear RegulatoryCommission medical licensees

that use strontium-90 (Sr-90) eye

applicators.2002-16Intravascular BrachytherapyMisadministrations05/01/2002All Medical Licensees.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