Insp Repts 50-237/89-19 & 50-249/89-18 on 890829-1010. Violations Noted.Major Areas Inspected:Previously Identified Items,Lers,Plant Operations,Maint & Surveillance,Safety Assessment/Quality Verification & Emergency Preparedness

ML17202G669
Person / Time
Site:	Dresden
Issue date:	10/30/1989
From:	Lerch R NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION III)
To:
Shared Package
ML17202G667	List: IR 05000237/1989019 ML17202G664 ML17202G668
References
50-237-89-19, 50-249-89-18, NUDOCS 8911080233
Download: ML17202G669 (22)
v • d • e

Text

U.S. NUCLEAR REGULATORY COMMISSION

. REG ION II I Reports No. 50-237 /89019 (DRP );' 50-249/89018_( DRP)

Docket No ; 50-249 Licenses N DPR-19; DPR-25 Licensee:

Commonwealth Edison Company P. 0. Box 767 Chicago, IL 60690 Facility Name:

Dresden Nuclear Power Station, Units 2 and 3 Inspection At:

Dresden Si~e, Morris, Illinois Inspection Conducted:_ August 29 through October 10, 1989 Inspectors:

S. G. Du Pont D. E. Hills

_jf /t/ ~~~tf Approved By: * R. M. Lerch, Acting Chief Reactor Projects Section 18 1!L0 Date

.

Inspection Summary Ins ection October. IO, 1989 (Reports

~ t. I

.

.

Areas InsRected; Routine unannounced resident inspection of previously identifiea inspection items, licensee event reports, plant operatior:s, maintenance and. surveillance, safety assessment/quality verification, eng i neeri ng/techni cal support, emergency preparedness, systematic evaluation program items and report revie *

, Results:

Two violations were identified -during the inspection period as-described in Paragraph One involved a violation of Technical Specifications*

when a reactor water level switch for emergency core cooling system actuation was isolated"without being placed in a tripped conditio The other involved a failure to perform an adequate independent verification during implementation of an equipmerit outag~ checklist resulting in a half

~cram. Both violat1ons invoTved licensed operator inattentiveness to detai *

A licensee review of the circumstances leading to entry into a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> limiting condititi~ for operation (LCO) involving the Unit 2 lciw pressure coolan.t injection (-LPCI) system and the U11it 2 diesel generator, identified ~ number cf deficienci~s in the engineering/technical support functional area. These were addressed by proposed-licensee corrective actions as described in Paragraph * {._

DETAILS Persons Contacted Commonwealth Edison Company

• E. Eenigenburg, Station Manager

• L. Gerner, Technical Superintendent E. Mantel, Services Director C. Allen, Administrative Service Superintendent

• D. Van.Pelt, Assistant Superintendent, Maintenance J. ~otowski, Production Superintendent.

J. Achterberg, Assistant Superintendent, Work Planning

• G. Smith, Assistant Superintendent, Operations

• K. Peterman, Regulatory Assurance Supervisor W. P.ietryga, Operating Engineer

• R. Stobert! Operating Engineer M. Strait, T~chnical Staff-Supervisor

• L. Johnson, Q.Cr Supervisor J. Mayer, Station Security Administrator Morey~ Chemistry Services Supervisor D. Saccomancio, Health Physics Servic~s Supervisor E. Netzel_, Q.A: Superintendent

.

. *R. Falbo, Regulatory A.ssurance Group Leader

• K~ Yates; _Nuciear Safety Superviso The in.specters also talked with and interviewed several other licehs.ee employees, including members of the technical and engineering staffs, reactor and auxiliary operators, shift engineers and foremen, electrical, niechanica l and instrument personnel, and ~ontract security personne *Denotes those attending one or more exit interv1~ws conducted informally at various times throughout the inspection perio.

Previously Identified Inspection Item~ (92701 and 92702)

(Closed) Violation (No. 237/86015-01):

Failure to assure that changes and modifications tri as-built drawings are properly controlled and implemented, and to assure that the as-built drawin_gs are kept updated to reflect the actual condition of the plan NRC Region III management and resident inspectors reviewed this item and determined that this item is closed administratively due to the lack of continuing safety significance since several NRG. inspections have not detected any additional or* continui concerns associated with this ite *

(Closed) Unresolved Item (No. 237/89018-02):

Entry into 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> LCD involving Unit 2 LPCI system loop B and Unit 2 diesel generato On August 7, 1989, while performin*g the LPCI quarterly flow rate test, the flow rate through loop B was below the required 14,500 gp No flow problems had been encountered during a previous LPCI system pump operability tes Prior to taking any action, the flow rate increased to an acceptable range on its own during th~ tes The licensee

• considered various possible causes including calibration of the flow transmitter, an opening system relief valve, or a problem with the LPCI -test return valves or minimurri flow valv The Unit 2 diesel g~nerator had b~en-scheduled to be t~ken out of service for its semi-annual inspection but this was delayed pending study _.of the LPCI system proble The licensee systematically eliminated.these possible ca~s~s. For example, although a disk to stem separation had pre~iously occurred on a LPCI test return valve causing a similar problem, a current trace showed the.valve to be acceptabl *

Another quarterly flow test was conducted on August 17, 1989, to determine the source of _the restriction, and to verify that the system_

was bperable prior to taking the Unit 2 diesel ~enerator out of servi~ During this test, *the required flow of 14,500 gpm w~s met although the test return valve had to be throttl.ed completely ope When flow w transferred to the A loop ~nd then back through the B loop, thi flow ~as found to have increased to 15,500 gpm~ Although this difference was*

indicative of a problem, the Operating Engineer was informed only that *

the required flo0rate was achieved and not of the flow differenc As a final check; current traces were obtained on LPCI outboard injection valves 2-1501-2it. ar.d. These traces were compared to each.other by electrical maintendr1ce personnel and the running currents were tonsiderably-different; this was attributed to a known worn wormgear on the actuator of the 2-1501-21t. vet-Iv However, these current traces were not compared _to previous current trilce There was_ also a noticeable difference in -stroke times but a review bf in-service testing (IST) stroke times indicated that the values were to be expecte The LPCI system was determined to be operable and the Unit 2 diesel generator was taken out*of service ori August 21, 1989 On August 21, 1965, the General Electric (GE) site representative end the motor operated valve (MOY) coordinator discussed the differences between the 2-1501-21 A And R va1~es' stroke times~ The MOV coordinatoi had not been directly involved i~ ihe pr6blem analysis prior to August 21, 198 *They believed thatdifferent limit switch settings may have caused the stroke time differtrrce They requested that the valves be manually stroked opened to determine the distance between their back seats and the open limit switche This testing was conducted on August 22, 1989, and showed that 2-1501-~IA opened 7/8 inches before contacting its backseat while the 2-1501-218 valve was opened over two inches before stroking was stopped due to abnormal sounds from the valve bod Further-testing to determine full stroke lengths indicated that no backseat could be found for the 2-1501-218 v-alve. * The licensee determined that the valve plunger had separated from the stem and thus declared the valve inoperabl Since the Unit 2 diesel generator was currently inoperablef this placed Unit 2

. into a Z4 hour LC The licensee reassembled the diesel generator, filled the fuel oil storage tank, ~hich ~as being drained for cleaning, and successfully tested the diesel ge~erator later that same day (within the

.

24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> LCO).

Repairs to the LPCI outboard injection valve were completed on August 28. 198 **

An analysis as to the adequacy of the licensee's actions pertaining to this event and the affect on system operability are discussed in Paragraph 7~~ of this report. *

(Closed) Unresolved Item (N~. 249/89005-03)~ This item is administra-tively closed due to duplication with a Unit 2 item (No. 237/89005-03).

This item is being tracked and reviewed under the applicable Unit 2

. i tern numbe.

Licensee Event Reports (LER) Followup (90712 and 92700)

Through direct observations, discussions with licensee personnel, and review of records~ the following. event reports w~re reviewed to determine that reportability requirements wer~ fulfilled, immediate corrective action was accomplished, and corrective action to prevent recurrence had been accomplished or planned in acccirdanc~ with Technical Specification (Closed) LER No. 237/88017-01:

High Pressure Coolant Injection (HPCI)

• . -

System Intentionally rv.ade Inoperable to Facilitate Pre-planned Preventa-tive Maintenance Testin During the HPCI overspeed trip test that was conducted prior to the start of the Unit 2 outage, mi~or hydraulic osciliations of the HPCI turbine governor were observe The licensee*

investigation during the outage determined that these insta.bilities w.ere ciue to excessive wear of the HPCI auxiliary oil pump which provided hydr~ulic control oi1 t6 the ~PCI turbine control mechanism The licensee found that the original impeller shaft on the oil pump had been stzed incorrectly which allowed the pump impeller to ride on the pl.imp's casin Resulting metal chips inhibited oil flow to the speed governor assembl In addition, impeller contact with the pump casing caused variations in pump speer A new impeller shaft of the correct s~ze was installed and the hydra~lic system piping was flushe These oscillations were not observed when the testihg was repeated followjng the refueling outag Since the Unit 3 HPCI turbirie had not demonstrated these types of oscillations, inspections for this problem had not been -

s~heduled until the next refueling outag *

(Closed) LER No. 249/89001 and No. 249/89001-01:

Turbine Trip ahd.

• Reactor Scram on Stop Vaive Closure Due to Slow Transfer of House Loads During Loss of Offsite Powe This event and corresp~nding licensee actions were the subject of Inspection Reports No. 50-237/89012; No. 50-249/8901.

• (Closed) LER No. 249/89006:

Reactor Scram Caused by Turbine Stop Valve Closure Due to Control Relay Failure. This event w'hich occurred on April 15, 1989,. and corresponding licensee actions were discussed in Inspection Reports No. 50-237/89011; No~ 50~249/89010.. *In addjtirin to the actions delineated in that report, the licensee plann~d to revise the Operational Analysis Division (OAD) Protective Relay Calibration Pro_cedure to clarify the physical inspection section such that mechanical binding of the relay pivot arm is specifically covere This was to address the failure of the* main generator secondary reverse power relay during the even This failure*was attributed to dirt locateci between the bearing and contact pivot arm on the relay directional unit. A similar failure occurred during another event on March 30, 1989, which s..

the licensee had attributed to the operator not allowing the relays _

suffitient time to react ~rior to manually tripping the turbine-ge~e~ato The licensee's root cause was revised for the first occurrence as a result of this second occurrenc (Closed) LEk No. 237/89015:

Trip of the 2A Reactor Protection Syst~m

. (RPS} Motor Generator (MG) Set Due to High Ambient Tempe~at~res. This event resulted in a loss of RPS Bus B and thus power to reacto~ building ventilation radiation monitor This caused a half scram and an automatic start of the standby gas treatment syste One of the continuous run thermal overloads was found to ha~e. trippe As corr~ctive action, the thermal overload contacts were cleaned. Approximately four days later, the event recurred at which time the licensee attributed the problem to high temperatures in the motor control center cubicle. Thus, the thermal overload heater size wa~ increased and.the thermal overlo~d setting was increased from 100 to 115 perc~nt in accordance with the setpoirif change control administrative procedur The licensee_ also planned to replace the thermal overloads with ambient compensated thermal overload *

(Closed) LER No. 237/89021:

Inadvertent Group V Primary Containment Isolation Due to Wire Lug Failure. This event and corresponding licensee actions wete discussed in Inspection Reports No. 50-237/89018; No. 50-249/8901 (Closed) LER No. 237i89022: - HPCI System Inoperable Due to Room Cooltr *

Broken Drive Belts. This event and the more immediate licensee actions taken were discussed in Inspettion Reports No. 50-237/89018; No, 50-249/8901 Additional long term corrective actioris included a heat load analysis of the HPCI room to determine the cause of elevated HPCl room.

ambient temperature~. *These high temperatures had necessitated increased use of the room coole This a~alysis determined th~t feedwater backflow past HPCI injection motor operated valve MO 2-2301-8 and chetk valve 2-2301~7 was the probable cause of the ele~ated temperatures._ Work r~quests were written to repair these valves during the next -refueling outag (Closed) LER No. 237/89023:

Possible Single Failure Loss of Unit 2 Atmospheric Containment Atmosphere Dilution/Containment Atmosphere Monitoring (CAM) and Unit 3 CAM Due to a Design Deficienc This deficiency was discussed in Inspection.Reports No. 50-237/89018; No. 50-249/89017 and r~solution to this issue is being tracked by previously Unresolved. Item No. 50-237/89018-03;

(Closed) LER No. 237/89024:

Downscale Trip Not Inserted During Emergency Core Cooling System Initiating Instrument Repairs Due to Management Deficienc This event and licensee corrective actions are discussed in Paragraphs 4.b and 4.c of this repor No violations or deviations were identified in this area except as described in Paragraph 4.b of this repor ~-

Plant Operations (71707 and 93702) Enforcement History During this inspection period, two violations were identified in the plant operations fun~tional are Orie of these concerned a failure to adequately perform an independent verificatiori during implementation of an Equipment Outage Checklist, which resulted in an unexpected half scra The other_ involv~d a Technical Specification violation when a reactor low low water level indicating switch for emergency core cooling syste~ initiation was isblated without beirig placed in a tripped conditio Q~ra ti ona l Events (1)

On August 30, 1989~ a Shift Foreman entering the Unit 2 Turbine Building to Reactor Building interlqck, noticed that both interlock doors were open simultaneousl Electrical maintenance personnel were entering the opposite door and a security guard was already in the interloc The doors were open for only 20 secor.ds and reactor building to atmosphere negative differential pressure was maintaine The normal door pu~h~uttons had been used and fu~ther checks indicated that the door functioned properly.. * Jn addition, the fus~s for the door latches were checked due to previous problems encountered with other interlock do6~ No reason was f~und as to.how both doo~s could b~ opened at the same tim The li~ensee is continuing to monitor the interlock (2)

On August 30, 1989, Unit 2 Level Indicating Switch (LIS)

2:...263-72C was not placed in a tripped condition when taken out of service which was contrary to *technical sp~cification requirement This was one* of four switches that provided the low low level (-59 inches) automatic initiation logic fdr core spray, low pressure coolant injection, automatic pressure relief permissive, high pressure coolant injection, standby gas treatment and the Unit 2 and 2/3 diesel generator While performing a routine surveillance, instrument technicians

~oted a fitting that was leaking on a serising line ~t the instrument rac It was decided to repair the leak whicp required isolating LIS 2-263-72 Both the Operating Engineer and Shift En9ineer were aware of the applicability of Technical Specification Table 3.2.2 Note 1 which required its trip system to be-tripped when that instrument was made inoperabl They were under the assumption that this would be done in conjunction with the wor*k package which they indicated in the night orders and informed the instrume*nt maintenance schedule However, the i nstrumer.t *maintenance forerrian was not informed and, this action was not included in the work packag The Shift Control R6orn Engineer's (SCRt) review of the work package was inadequate, in that, through questioning of the

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instrument technicians and actual revi~w of the documentatio he did not ascertain that they planned to fail the instrument upscale instead of the required downscale to satisfy technical specific~tions. The SCRE marked a box on the maintenance procedure indicating that technical specification action wis required, indicating he was aware of the requiremen The work packag~ instructions cle~rly indicated the planned isolation and equalization of the instrument and did not contain any other guidanc~ as to fai1u~e mode of the instrumen The SCRE also discussed the work with instrument d~partment personnel including the need to fail that pa~ticular instrument prior to signing approval for commencement of wor The la~ger pait of this discussion concerned ho\\'.r to isolate the instrur.1ent without introducing adverse' pe.rturbations in the system. *However, the instrum_ent department personnel mistakenly thought that failure in the upscale direction by isolating and equalizing the instrument was adequat Upon isolation and equalization of the instr~ment, the indiction drifted upscal The Shift

• Engineer was later perfdrming control room panel walkdowns and noted that indication and al~rm~ were not as would be expected if the instrument had been failed in the correct direction and initiated corrective actions to meet the technical specification requirement Subsequent licensee investigation determined that this cordition had ~xisted for approximately one hour and fifty minute This failure to place LIS 2-263.;.72C 1n the*

tripped condition contrary to Technical Specification

requirements is considered a violaticr (No. 50-237/89019-0l(ORP)).

Sp~cific licens~e corrective actions and the inspectors'

evaluation of these acti~ns are destribed in Paragraph 4.c of this repor *

On September 21, 1989, while conducting out-of-service (ODS)

II "'.'1209, an unexpected Channel P half scram occurred on Unit 2 when an incorrect fuse was pulled. This OOS was being performed in order to conduct a calibration of Main Steam Line (MSL) Low Pressure Switch (PS) 2-261-30 A Nucl~ar Station Operator, a licensed reactor operator was:performing the OOS with the SCRE, a licensed.senJor *reactor operator, actin~ as the independent verifie The correct fuse to remove, 595-7030, was to have resulted in a half group I isolation signal. Another fuse, 590-7030, in the same control room panel fuse block was incorrectly identified by both indivi*duals as the fuse to remov which instead resulted in the half scra Immediately following the half scram, the fuse was: replaced anci the correct one remove The fuses were clearly identifiable with the correct numbers on tape attached to the wire leading to each fus In addition, the tapes for the scram fuses were orange in color while those foi the isolation fuses were black in colo Labels on the outside of the panel corresponding to the -fuse block locations were also correctly numbered and color code The Equip~ent Outage Checklist also clearly identified the correct fuse to remove.. The: individuals.were inattentive to detail in that they compared onl~ the last part of the fuse number to the actual

plant labelin In addition, the individuals ignored or were confused by the color coding, which should have indicated that additional caution was warranted.. Dresden Administrative Procedure (OAP) 7-27, Independent Verifications, ~evision 0, required that independent verifications ensure that each check constitutes an actual component ideniificatio Fail~re to*

adequately perform the-independent verification is considered to be a violation -(N /89019~02(DRP)). Specific licensee corrective actions and the inspectors' evaluation of these actions are described in_ Paragraph 4.c of this report.. Approach to the Identificatibn and Resolution of Technical Issues From a Safety Standpoint The licensee's ~pproach to the identification and resolution of technical.issu~s in the plant operations functional area w~s not as thorough as would be expected by previous performance in this are Various operator* performance aspects of the September 21, 1989, half-scram event we~e comparable to*a full scram which occurred on March 4~ 198 This full scra~ and corresponding violation were described in Inspection Reports No. 50-237/89005; No. 50-249/8900 The full scram was attributed to a non-licensed operator not using a procedure vrhile checking for grounds and, thereby, causing incorrect breaker~ to be opene In addition, the operator ignored corresponding color-coded labels which identified the prohibited breakers since the1r colors had recently been changed from what h~

was accustomed to seein In the case of the latter half scram, hm licensed operators failed to adequately identify.the correct fuse listed in an equipment outage checklist and thus ~emoved an incorrect fus These operators also ignbred or were confused regarding difference~ in color of the identification labels which should haye indicted to them that. caution would be advise Thus,.

beth violations involved a general in~ttention to detail regardirig deficiencies in -operators *usage of documents governing the activity and their usage of colored labels that could have assisted in that activit *

Licensee actions taken in regard to the previous scram invoJved ensuring operators were familiar with both the specific protedure and identification of the specific -circuit breakers. Licensee actions taken in regard to the half scr.am included counseling the involved individuals concerning properly identifying fuses prior -

to removal and plans to include the event in the licensed operator requalification progra Hbwever, it was ~ot clear ~hether these actions would specifically address the failure *to adequately follow provisions in the independent verification ad~inistrative procedur This was of particular concern since it represented a circumvention of controls specifically instituted to prevent these types of error The inspectors expressed this concern to licensee ~anagemen *

Licensee actions taken in response to the is~lated level instru~ent

• not being placed in the tripped condition included reviewing the evenf with involved.personnel and plans to include' it in a statio tail~ate sessio In addition, the licensee planned to dev~lop a Technical Specification policy statement to *clarify trip requirements for inoperable reactor protection system, primar containment isolation system and emergency core cooling system initiating instrumentatiri This guidance would detail how these trips were.to be inserte While the inspectors believed this Technical Specification policy statement was an excellent idea, the cortective actions regarding the SCRE's involvement were less thari adequate~ The SCRE was aware of the Technical Specification requirement and even discus~ed the requirement with the instrument technicio.n However, his review of the work package was deficient in that he did not ascertain as to how the instrument was to be fai1ed or verify that correct instrument failure actions were actual1y containec in the work request itself._ Genera.l practices concerni~g revi~w of work pa~kages pri6r to authorizing the work to start diffpred considerably since ~rocedural guidance was n6t clear. These practices~ dependent upon the individual performing the review, could involve questioning of the involved workers, revie~1 *of the work package itself and/or bot An inspector review of Oresden Administrative Procedure (OAP) 15-1, Work Request,

• Revision ?J Dnd OAP 15-3, Preparation of Safety-Related, Regulatory Related or r:ehability Related 1-Jork Packages on Off-Shifts, Revisic;rn 2, indicated that little guidance was given.as to the methods to be employed in conducting this review, including items to be verified, documentation to be physically reviewed and level of detail required in thi~ review. Although.individuals wete required to complete Q Precautions Taken for Reactor Safety and Technical Specifications Compliance checklist, this checklist did not address all of the aspects on how to conduct a thorough review and, in this*

case, wa$ insufficient to preclude the even *

A detailed r~view prior to authorizing perfotmance of a work request is necessary when work packages a re prepared essentially independent of attual plarit condition For example, many work packages have already been prepared for the upcomings Unit 3, December 1989, refueling outage. Since it is impossible to forecast all future plant conditions when a work request is prepared, a detailed review of the work.package just prior to implementation is essential to identifying any pot.ential problem *The ~dministrative guidance currently provided is inadequate to as*sure a detai_led rev*iew is performe Individual opl*r~tor performance including approach to technical issues was mi~ed during th~ inspection period as opposed to the excellent performance exhi~ited.in this area during the previous ihspection perio The half-scram that was received on

September 21, 1989, when an incorrect f~se was removed, and the level instrument that was allowed to be isolated without being

placed in a tripped condition, contrary to technical -specificati6ns, were indicative of an inattentiveness to detail by licensed

• operators. The Shift Engineer who noted by control room panel indications that the level instr~ment had not been tripped w~s particularly astute in identifying-the problem. _However,. in

• ~ontrast, other individuals were present *in th~ control room and iould have also id~ntified the problem earlier but did rio In addition, the Shift Foreman who noticed that both Unit 2 Turbine Building to Reactor Building interlock doors were open simultaneously showed.good attentiveness and strong regard for proper functioning of equipment. _Finally, the operator who noticed the inoperable Unit 2 fuel zone level indicator as described in Paragrap~ 5.b of this report was also astute in identifying the proble Assurance of Quality, Includin9 Management Involv~rnent and-Control The inspectors.noted a strong commitment on the part of managen1ent to ehsure compliance with Technical Specifications. This was -

indicated by plans to develop a Technical Specification policy statement ~hi ch kould provide guidance on how-to comply with specific action statements requiring tripping of various instru-mentation. This was necessitated by rec.ent events in which*

backshift int~tpretations of somewhat ambigucus Technical Specification action statements had to be mad As thes circumst~nces were not considered ideal under whi~h to make these decisions, the lic~n~ee believed-that this guidance woul~

be beneficia-One of these recent events concerned the inoperable fuel zone level indicator discussed in Paragraph 5.b of this report. Licensee

management was very involved in the interpretation as to the method to simulate a tripped condition for the failed Unit 3 fuel zone level indicator and showed a conservative approach to safety in this involvemen By failing the instrument in a lO\\'J level condition,.

use of the override switch would have been required to initiate containment spra Thus, the intent of.the override switch remained; that is tu prevent inadvertent initiation of the syste This'arrangement required the override switch to also be re-position~d to initiate containment spray with leve] ~bove two-thirds core heigh This w.as not required under normal circumstance However, since containment spray initiation was

. normally a manual operation, this was not regarded as detrimenta Caution tags were hung explaining this arrangement and control room operators were instructed on the conditions of the containment spray syste Observation of Operations The inspectors observed control room operations, reviewed applicable logs and conducted discussions with control roo~ operators during this perio The inspectors verified the operability of selected emergency systems, reviewed tagout records and verified proper return to service of affected component Tours of Units 2 and 3

• reactor buildings ~nd turbine buildings were conducted to obsefve.

plant equip~ent conditions, including potential fire hazards, fluid leaks, and excessive vibrations and to verify.that maintenance re~uests had been initiated for equipment in need of maintenanc During this inspection period, no violations of the fire protection program were observe *

-

The inspectors~ by observation and dire~t interview, verified that the physical security p1an was being implemented in accordance \\'1ith the station security pla The inspectors review~d new procedures and changes to procedures

• that were implemented during the inspection perio The review consisted of a verification for accu.racy, correctness, and compliance with regulatory requirement *

The inspectors ~lso witnessed portions of the r~diuactive waste system ccr.trols associated with radwaste shipments and barrelin These reviews.and observations were conducted to verify that fac.ility operations were in conformance w_ith the requirements established under Technical Specifications, 10 CFR, and administrative procedure.

.Maintenance and Surveillance (62703, 61726 and 93702) Enforcement History During this inspection period, no violations or deviitions were identified in the maintenance and surveillance functional are Operational Events Various maintenance activitieg associated.with the followi~g events were observed or reviewed tc ascertain that they were conducted in accordance with approved procedures, regulatory guides and industry codes or standards and in conformance with Technical Specific~tions~

The folfowing items were considered during this review:

The LCOs were met while components or systems were removed from service; ~ppro~als were obtained prior to initiatfng the work; activities were accomplished using approved procedures and were inspected as appli.cable; functional testing and/or calibrations were performed prioi to returriing components or systems to service; quality control. records \\'1ere maintained; activities were accorr.plished by qualified personnel; parts and materials used were properly certified; rad~ological controls were implemented; and, fire preventio~ controls were implemente Work requests were reviewed to determine status bf dutstanding jobs and to assure that priority. is assigned to safety related equipment maintenance which may affect system performanc ] 2

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( 4.)

On August 30, 1989, Unit 2 fuel zone level indicator B ~as d~tefmined to be inoperable when operators noticed an indication different f~om the exp~cted. This instrument provided i11put to the* LPCI systeni logic to prevent inadvertent initiation of containment spra Containment spray initiation is norrr:ally accomplished by the manual operation of variOus valves.~ If less than two-thirds core coverage existed as indicated by the fuel zone level instruments a manual override switch.would be required to be re-positioned to allow containment spray initiation. If greater than two-ttdrd.s core coverage, the position of this switch wbuld have no effect on the ability to initiate containment spray. This arrangerrer1t prov*ides. additiona 1 assurance that* flow would not.be inadvertently taken from LPCI system injection into the vessel during conditioris when vessel level could not be maintained above the two-thirds core co~erage. Dtesden Technic2l Specificatitin Table 3.2.2 required that if an instrument was inoperable, it was to be placed ir. th~ tripped conditior so that it would riot prevent containment spra The licensee accomplished this by installing a jumper which continuously simulated a less than two~thirds core height signal to the*

• circuitry.. A failed Rosemont transmitter was subsequently

.

replaced and sci.tisfactori.ly tested and the jumper was remove On September 5, 1989, the licensee declared all four

.

Containment Cociling Service Water {CCSW) pumps inoperable on both units due to* low suction level in the service, water suction bay Neither the main circulation or service water systems were affected during the even The licensee found that the suction bay screens were fouled due to a recent rafo storm washing grass and other debris down the Kankakee Ri~er, one of two rivers feeding the Illinois Rive The Kankakee

_River is normally a shallow river and was easily affected by rain wash of With all of the CCSW pumps inoperable the*

licensee entered a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> LC Later that same day the licensee returned three CCSW pumps on Unit 3 and two on Unit 2 back to service by flooding the suction bays and prir.iing the pumps.* These actions removed the licensee from the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> LCO and placed Unit 2 into a seven day LCO until later that

~ftern6on when an additional Unit 2 CCSW pump was returned to servic *

On September 11, 1989, a packing leak developed on the Unit 3 HPCI test return to Condensate Storage Tank valve during-2 surveillance test. *Water sp~aying from the leak caused the valve torque switch to be submerged in water such that it did not functi~n correctly. * As a result, during the test the valve was driven into its seat ahd the valve motor w~s damage Valve packing and the valve motor were replace On September 1~, 1969, during an instrument calibration surveillance, it was discovered that all four Unit 2 HPCI steamline pressur~ switches were out of calibration. These*

• iwitches were to provide a HPCI isolation at less than 80 psig to prevent low quality steam from entering and causing damage to the liPCI turbin They were arranged in a one-out-of-two twice logic. These switches.were all found fo be actuating in the 40 to.50 psig rang However, the. licensee considered* the HPCI systems still able to meet the design function since this particular HPCI isolation *signal was not addressed in Technical Specification HPCI isolation signals that were addressed dealt with sensing -0f a HPCI steam line brea The licensee also determined that this problem wou.ld not adversely affect the transient safety analysi The licensee re-calibrated th~ee of these switches but encountered difficulties with the fourt It's actuation setpoint readjusted to-200 psig during the calibration and could not be change The licensee determined that a malfunctioning master trip card in a local panel required replacemeH Prior to replacirig the card, a half isolation signal was cons~rvatively in~erted to ensure that the ful.l automatic isclation would remain functional during the card replacemen However, whi1e removing the card a full HPCI isolation resulte The licensee attributed the cause to inadvertent jarring of anoth'er card to the other

.

isolation channel in the same panel as the*malfunctioning card was remove The HPCI isolation was reset and returned to normal -standby lineu The malfunctioning card was replaced

• .and all HPCI stear11line pressure switches were determined to be operable..

(5)

On Septemb~r 23, 1989, Unit 2 ~as placed into single loop operation when Recirculati-0n Pump B was taken out of servic A noisy tachometer to Reci~culation MG Set B was re~lace Single loop operation was in effect for approximately two hour After r~starting.the idle recirculation pump, operators noted that the inner seal pressure for that pump was reading zero psi However, the local indication was reading correctly at 1030 psig. A work request was initiated to jnvestigate the proble (6}

On September 24, 1989,* a reactor building ventilation isolation and standby gas treatment system (SGTS) automatic start occurre Reactor building ventilation radiation mdnitor 28 had previously been reading erratically and instru~ent maintenance personnel were preparing :to investigate the problem when the monitor spiked h*ig This caused the Engineered Safety feature (ESF) actuatio Reactor building venti iaticn and the SGTS were left in that condition pending completion *

of ttoubleshootin~ cf the monito The licehsee found and replaced a bad cable connector to the monito Following a subsequent successful surveillance test on the monitor, reatto building ventilation and the SGTS were -returned to norma (7)

On October 9, 1989, the Unit 2 diesel generator was declared inoperable when it's output breaker failed to close. during testin The licensee found that secoridary contacts in the J4

breaker cubicle were dirty which were subsequently cleane Further troubleshooting activities did not identify any other problems.. The breaker was retested several times and operated*

satisfactorily. The Unit 2 diesel generator was declared operable.on October 10, 1989.. Approach to the Identification and Resolution of Technical Issues From a Safety Standpoint Maintenance related a~tivities continued to indicate ~ good approach to resolution of technical issues in regard to the area of roqt cause analysis of equipment failure This was exemplified by the licerisee's investigation of minor hydraulic oscillations of the Unit 2 HPCI turbine governor, which occurred during a HPCI 6verspeed

. trip test in the l_a*st Unit 2.outage as described in Paragraph 3 of this report.. Although the HPCI turbine satisfactorily tripped on *

overspeed during the test, the identification of other abnormalities and the willingness to pursue corrective actions showed a genuine concern for prop~r functioning of equipmen * Response tb NRC Initiatives Duri~g Thi~ Inspection Period*

T~e inspectors not~d t~at little ~rogress was being made in the backlog of non-outage corrective maintenance work request As noted in Insrection Reports No. 50-237/89018; No. 50-249/89017, the inspectors had previously expressed concern regarding an excessive number of pending control room work requests and, a a result, the licensee had instituted appropriate corrective action In contrast~ the number of non-outage corrective maintenance work requests had remained nearly constant since completion of the Unit 2 refueling outage in February 198 No progress was evident toward approaching the better pre-refueling outage figure~ of the previous yea The inspectbrs also noted that little progress was being achieved regarding the number of ~ending.work requests involving oil and water leak Comparison with the pre-refueling outage figures of the previous _yeo.r also iridicated an overall negative tren Finally, the riumber of problem analysis data sheets remaining open had steadii.Y increased during the last year with very few being complete The inspectors expressed concerns to 1 icensee management regarding maintenance trends which correlate to material condition of the plan At the end of the ins~ection peri6d, the licensee provided*

recent data that indicated a substantial decrease in the number of pending non-outage corr~~tive work requests during the previous two month These numbers were closely approaching those existin~ prior

_to the last refueling out~ge. The lice~see attributed this decrease to the ability to assign additional personnel to the backlog who had previously been busy with the Unit 3 transformer outage and preparing for the Security regulatory *effectiveness review earlier 1n the year~

In general, this is considered to be good response to NRC initiative Observation of Surveillance Activities

. The inspectors observed surveillance testing required by Technical Specifications for the items listed below and verified that testing

was perf6rmed in accordance with adequate procedures, that test instrumentation was calibrated, that limiting condition~ for

.operation were met, that removal and restoration of the affEcted components were accomplished, that test results conformed with Technical Specifications and procedure requirements and were reviewed by personnel other than the individual directing t_he test; and that any defi~iencies identified during the testing were properly reviEwed and resolved by appropriate~management personne The inspectors witnessed portions of the following test activities pertaining to Units 2 and/or-3:

0 Re~ctor Building Ventilation Radiation Monitor L inec:;rity CheCk Fue.l *As sernb ly I nspecfi on* (Exxon Fue 1) Safety Assessmn1t/Quality Verification 35502 and 40500) *Enforcement Hi story During this inspection period, no violations _or de~iations were identified in the safety assessmEnt/quality verification functional

. are *Assurance of Qt:2lity, Ir.eluding Management Involvement and Ccntrol The inspectors observed the monthly performance revie\\'1 meeting conducted on S~ptember -12, 198 Plant management reviewed items of interest which occurred since the last meeting including engineered safety feature actuations, specific technical specification limiting conditions for operati~n entered, continuous or recurring control room alarms, degraded or out of service equipment and potentiall significarit eve~ts. In addition, the status of the top technical issues and performance review action items were discuss~d. The*

inspectors found this ~1eeting to ~mphasize the sharing of information between plart departments on these issues and allo~ed management to expedite resolution to items requiring specifit actio As such, the inspectors viewed it a5 a beneficial management tool toward efficient a11d safe plant operatio.

Engineering/Tec~nical Support (37828) E nf orceme r: t_Ji is t Q_ry During this inspection p~rjod, no violations. or deviations were identified in the engineering/technical support functional are b. * Approach to the Identification and Resolution of Technical Issues From a Saf~ty Standpoint.

The licensee's approach to LPCI outboard injection valve, 2-1501-218, stem to plu~ger separation diagnosis (as described in Paragraph 3 of

this report) was mixe While it was commendable that the licensee

\\'ias diligent in eventually identifying the correct cause of a diff1cult to diagnose problem, several management breakdowns hindered the progress of this diag,nosi These are discussed as fo1lillows:

The knowledge and training of technical staff engineers was

. 0

deficient in.regard to analysis of motor operated va.lve test dat A noticeable.decrease in the running current of the valve from current traces taken on February 10, 1987, and December 18, 1988, did not cause further analysis for possible problem In addition; valve stroke times obtained on February 1, 1989, showed a marked increase from the previous operating*cycl The difference in the valve* stroke times *were attributed to replacement of the actuator's phenolic limit

. SHitch block However, changiilg the limit S\\'1itch block without resetting-the liniit would not change the stroke time bf the valv Thus,. data was available pribr *to thE August 7, 1989, SU(Veillance test failure which indicated a possib.1E nee for ciciditional study, but was not identified as such.by the engineers..

Involvement of the technical staff engineers in prob;lem analysis was inadequat Current signatures taken on. the valve on August 17, 1989, were revi~wed*bj electrical main-tenance department personnel without invo_lvement of the MOV coordinato Based on this review and previous survei1 lance test resu*lts, the Unit 2 diesel generator was taken out of service *.

However, this review didn':t compare the trace to previous traces which would have identified a problem:.

Instead, the LPCI A and 8 valve results were compared! and the difference attributed to ~ known problem with the A valv tlOV coordinator involvement, which eventually led to diagnosis of the problem, was an individual decision and ~ot a normal program practic *

• *

Ineffective communications re~ulted in personnel not being adequately informed of all pertinent informatibn on which to

• judge valve operabilit The Operatin_g Engineer who determined operability was not aware of the flow differences in the surveillance test data obtaihed on Augu~t. 17, 198 In addition, he was not aware of changes in the running current and stroke time Thus, the decision was made with insufficient informatio It was fortuitpus that the problem was eventually ciiagnosed at all in that the final diagnosis was not the result of a.ny formal program that could be consistently relied upo Instead, diagnosis was due to an overall philosophy stressing quality operations which, in this case kept individuals searching for a root caus Further review of the valve desi~n follmdng the event shewed that the type of separt:tion that occurred just ca.used the valve.to operate as a check valve and did not ir. fact, render the system inoperabl The valve design and the orientation of the valve in the piping \\'.'as also

fortuitous in that the system was still technical_ly operable and.

thus rende~ing the Unit 2 diesel generator inoperable at the same time did not seriously jeopardize'the safety status of the facilit However, du~ to the programmatic problems cited above, the licensee identified the following corrective actions:

0 Provide motor operated valve actuator training for the IST valve timing reviewer and appropriate system engineers to assist them in determining root causes of the actuator timing discrepancie Change Dresden Maintenance*Procedure (DMP) 040-6, Safety-Related

~~otor Operated Valves Data and Setting, to add a review by the

~IOV coordinator veri_fying the current trace taken is reviewed and

• compared to the ptevious trace if a~ai!abl *

Conduc:t training sessions by the Oper~tions Department and the Technical Staff to emphasiie the importance of effective and timely communication of surveillance test data results a.r.d to clarify the Technical. Staff system engineers' role in problem solvin~ anilysi Additional actions planned by the licensee specific to this event included disassembly of the 2-1501-21A valve actuator to repair _the worn ~orm gear during t~e next refueling outag Furthermort, a

~etallurgical analysis on the fractured-stem was planned to determine the failure mechanism and thus to determine whether other valves of this type may be accessible to similar failur Licensee actions taken to determine the cause of elevated Unit 2 HPCI room amb1ent temperatores, as described in Parag~aph 3 of this report, represented an excellent approach to root cause analysi The conduct of a heat load analysis on the HPCI room was iridicative of a desire to solve repeated problems. * A.ssurance of Quality, Including Management Involvement and Control Management involvement in identifying and developing corrective *

actions in this functional afea was particularly eviden Various management breakdowns which became apparent as a result of the LPCI outboard injection valve problem diagnosis were aggressively pursued by the license However, continued licensee management attention was needed to ensure ~roper implementation of a system engineer concep.

Emergency Pre pa redness ( 9.3702). Enforcement Hi story Ouring this* in~pection period no violations or deviations were

• identified in the emergency prepare-dness functional area'.

18 Operational_Events On September 24, 1989, ~ith Unit 2 at 70 perc~nt power ~nd Unit 3 at 98 percent power, ari unusual even~ was declared when two nearby offsite telephone cables were severed by individl,lals digging post holes for a fence installatio As a re,sult, commercial, Emergency Notification System and Nuclear Accident Reporting System telephone service was rendered inoperabl~. Appropriate notifications were made by use of the company microwave systen1 through the Chicago.load dispatcher.. In addition, a portable cellular telephone was obtained to supplement offsite com~unications. Complete telepho~e service was restored and the unusual event terminated later that same da *~ach to the Identification and Resolution of Technical Issues Fron;. a Safety Standpoint The licens~e's response to loss of telephone communications on September 24, 19M, ir.dicated a high priority for emergenC.}'

preparedness. De.spite the problem, operations personnel-quickly assessed the situation, reco~nized the importance of reporting requirements and completed the notifications within 15 minute *. Systematic Evaluation Progra~ (SEP)

(9~701)

The inspectors reviewed the foll0~ing SEP items for implementation per NUREG-0823 criteria and licensee commitment Of the original 12 SEP.

items assigned for inspection on Dresden Unit 2, the following six were con~idered to be *open at the start of this inspection perio Listed below is the current status associated with these items:

. 4. Revision of Emergency Plan to Cope ~Jith Design Basi.s Flooding.

(No. 237/89019-03(DRP))

.

The licensee revised the Flood Emergency Plari (Emergency Plan*

Implementing Procedure {EPfP) 200-11) to meet the criteria of NUREG-0823 as documerited in inspection report No. 237/8503 However, a commitment (as documented in Inspec.tiori Reports No. 237/83032 and No. 237/85030) was made to either install a canal intake level monitor or the means to indicate heavy precipitation to alert the load dispatcher of the potential of flooding above the 507 foot elevation.. Initially, the licensee developed a modification (Ml2-2/3-83-001) to install river level indicators by the control room, but it was not approved and sub~equently cancelled. A new modification request w~s d~veloped on March 2, 1989, to provide a river water level indicc.tion and alarm within the control roo The modification is scheduled to be installed bJ-* mid 199 This. topic is considered close However, the instal)atirin and iesting of

. the riv~r level indication and alarm in the control room is considered to be an open item*(No. 237/89019-04(DRP)).

4.1.1. 21. 2 4.2 Review Containment P~netrations and Provide Locking Devices

• arid Administrative Controls as Necessary. (Ne. 237/89019-0S(DRP))

An interim inspection of this topic was conducted a~ documented in Inspction Report No. 237/8303 This.interim inspection verified that the required review of locked valves had been completed *and adini"nistrative controls (procedures) h~d.been revised to include the required valve This topic was

.

considered to be open during the interim insp~ction because the the locking devises.had not been installed. Subsequent tu the inspection, all valves required by this topic were locked on

. March ~' 198 This topic is *considered to b~ close Lock Identified Manual I~c*lation Valves and Modify Associated Proced~re (Nu. 237/89019-06(DRP))

This t0pic was considered to be cipen during an interim

inspection (documented in.Inspection Report No. 237/83032)

since valves 4327-500, 4327-502 and 1916-500 had not been locked closed or added to the locked valve control procedur Subsequently, manual isolation valves 4327~500, 4327-502,

1916-500 and 4609-501 were verified locked and included iri locked valve chec.klists DOP 404*Ml, M2 and M3. *This topic is considered to be close Provide Procedures to Assure Disconnect Links Are Properly Positioned Following t'iaintenance. (No. 237/89019-07(DRP))

This topic was considered to be open during an interim inspection (documented in inspection report No. 237/83032)

since.procedures had not been implemented.to control disconnect link Dresden Operating Procedure (DOP) 6900-E2 was revised (Revision 7) in June 1987 to include requirements for

verification of elect~ical discbnnect links after completion of maintenance on the associated busses. Additionally, the lic~nsee

s actions associated with this topic was determined to be acceptable per letter from Daniel R. Muller, Director Project Directorate 111~2 (NRR) to L. D. Butterfie}d, J (CECo) dated October 14, 198 This topic is considered to be close Bypas*s of Diesel Generator Underfrequency Protective Trips During Emergency Operatiori (No.r 237/89019-0B(DRP))

This topic was considered to be open during ar. interim inspection (documented in inspection report No. 237/83032) in that modifications (M12-2-82-38 for Unit 2 diesel generator, M12-3-82-38 for Unit 3 diesel generator and M12-2/3-82-38 for Unit 2/3 diesel generator) were developed and con~idered acceptabl However, these modifications were not compl~ted prior to the completion of the interim inspection. A second interim inspectitn (documented in Inspectinn Report No. 237/85030) Vrified that two of the three modifications

(Ml2-2-82-38 and Ml2-3-82-38) had been ccimplete Subsequently, the third modification (Ml2-2/3-82-38) was completed on September 15; 198 This topjt is considered to be close.28 Provide Monitoring of D. C. System in Control Roo (No. 237/89019-09(DRP))

.

The licensee committed to provide battery voltage indication in*

the control room per letter dated October 5~ 198 Two interim inspectipns (as documented in Inspection Reports No. 237/83032 and No. 237/85030) were cond~cted and considered this topic to be open based on the r~quirements of this toptc being accomplished through the plant modification process; The October 5, 1982, commitment provided for indications of battery voltC1ge, battery current, battery cha-rger output current, battery breaker * *

indiC:ation and battery charger breaker indication in the control room for the 125/250 and 2.4/48 VDC batterie The indication of battery voltage for the 125v, 250v ana 24/48v batteries w~re acc6mplished by modifications Ml2-2(3)-81-28~

Ml2-2(3)-81-29 and Ml2-2(3)-82-However, the licensee requested a change to their October 5, 1987 commftment in a letter dated August 11, 198 The change re~uested the deletion of the requirements to monitor battery currents and battery/charger br,eaker statu The bases of thi; request

~ontluded that the normaJ maintenance surveillances, installed high distharge current/low voltage alar~ (per modifications Ml2-2(3)-83..:6 on the 125v and 250v systems) and the battery voltage fndicati.Qn provided in the control room would alert

• operators. to upsetting battery conditions on the safety related batterie The A0gust 11, 1987 change request also committed to provide a high discharge current/low voltage alarm fof the*

24/48v system per modifications Ml2-2(3)-87-5 These modifications are *scheduled to be completed on Unit 2 during the December 1990 refu~ling outage and on Unit 3 during the March 1991 refueling outag Thes~ change requests were reviewed and* accepted per the Safety Evaluation Report (SER)

dated June 27, 1988 (Subject:

IPSAR Topic VIII-3.B, DC Power Systems Bus Voltage Monitoring and Annunciating (TAC 66029)).

This topic is considered closed since the current Unit 2 and Unit 3 monitoring scheme meets the SE No violations or deviations were identified in this are.

Report Review (90713)

During the inspection period, the inspectors reviewed the licensee's Monthly Operating Report for Augus The inspectors confirmed that the information provided met the requirements -0f Technical Specification 6.6.A.3 and Regulatory Guide 1.1.

Ope!!_lter11s Open items are matters ~l1ich have been discussed with the licensee, which will be reviewed further by the inspe~tor, and which involve some action

on the part of the NRC or licensee or bot An open item d~sclosed

. during the inspection is discusse.d in Paragraph _ 1 Exit Interview (30703)

The in~pectors met with licensee ~epresentati~es (denoted in Paragraph I)

on October 10, 1989, and informally throughout the inspection period, and stimmarized the scope and findings of the inspection activitie The inspectors also discussed the likely inf6rmati6nal content of the inspection report witf. rE*gard to documents or processes reviewed by the inspector during the inspectio The licensee did not ider1tify any such documents/processes 2 s proprietar The licensee acknowiedged the findings o~ tht inspectio