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)~Qg4i~~t'rg'i'Y4Y0A 5'"'Alai'l,'>Zu+9.5v)r 4wNS4a~~C 12 PMP 4021.TRP.001 LIST OF EFFECTIVE PAGES'PAGE NUMBER Page 1 of 15 Page 2 of 15 Page 3 of 15 Page 4 of 15 Page 5 of 15 Page 6 of 15 Page 7'of 15 Page 8 of 15 Page 9 of 15 Page 10 of 15 REVISION NUMBER AND DATE Revision 0, 3/20/84 Revision 0, 3/20/84 Revision'0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revi'sion 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 e, Page 11 of 15 Page 12 of 15 Revision 0, Revision 0, 3/20/84 3/20/84 Page 13 of 15 Page 14 of 15 Page 15 of 15 1 SIGNOFF SHEET 4.1 Revise.on 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Page 1 of 1 SIGNOFF SHEET 5.1 Revision 0, 3/20/84 Page 1 of 11 Page 2 of ll Page 3 of 11 Page 4 of 11 Page 5 of 11 Page 6 of 11 Page 7 of 11 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Page 1 of 5 Rev.0, 3/20/84 12 PMP 4021.TRP.001 LIST OF EFFECTIVE PAGES PAGE NUMBER SIGNOFF SHEET 5.1 Con't Page 8 of 11 Page 9 of ll.Page 10 of 11 Page ll of 11 SIGNOFF SHEET 5.2 Page 1 of 2 Page 2 of 2 SIGNOFF SHEET 5.3 Page 1 of 4 Page 2 of 4 Page 3 of 4 Page 4 of 4 SIGNOFF SHEET 5.4 Page 1 of 10 Page 2 of 10 ,Page 3 of 10 Page 4 of 10 Page 5 of 10 Page 6 of 10 Page 7 of 10 Page 8 of 10 Page 9 of 10 Page 10 of 10 REVISION NUMBER AND DATE Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84: Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision~0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Page 2 of 5 Rev.0, 3/20/84 12 PMP 4021.TRP.001 (g PAGE NUMBER SIGNOFF SHEET 5.5 Page 1 of 2 Page 2 of 2 LIST OF EFFECTIVE PAGES REV1SION NUMBER AND DATE Revision 0, 3/20/84 Revision 0, 3/20/84 e>SIGNOFF SHEET 6.1 Page 1 of 9 Page 2 of 9 Page 3 of 9 Page 4 of 9 Page 5 of 9 Page 6 of 9-Page7of 9 Page 8 of 9 Page 9 of 9 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 SIGNOFF SHEET 6.2 Page 1 of 4 Page 2 of 4 Page 3 of 4 Page 4 of 4 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 REVIEW REPORT COVER SHEET 6.3 Page 1 of 1 Revision 0, 3/20/84 Page 3 of 5 Rev.0, 3/20/84 12.PMP 4021.TRP.001 LIST OF EFFECTIVE PAGES , Page Page, Page'Page 9 of 40 10 of 40 ll of 40 12 of 40 Page 13 of 40 Page Page 14 of 40 15 of 40 Page 16 of 40 Page 17 of 40 Page 18 of 40 Page 19 of,40 Page 20 of 40 Page Page 21 of 40 22 of 40 Page 23 of 40 Page 24 of 40 PAGE NUMBER APPENDIX A Page 1 of 40 Page 2 of 40 Page 3 of 40 Page 4 of 40 Page 5 of 40 Page 6 of 40 Page 7 of 40 Page 8 of 40.Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, Revision 0, 3/20/84 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Page 4 of 5 Rev.0, 3/20/84 REVISION NUMBER AND DATE 12 PMP 4021.TRP.001 Og PAGE NUMBER APPENDIX A Con't Page 25 o f 40 Page 26 of 40 Page 27 of 40 Page 28 of 40 Page 29 of 40 Page 30 of 40 Page 31 of 40 Page 32 of 40 Page 33 of 40 Page 34 of 40 Page 35 of 40'age 36 of 40 Page 37 of 40 Page 38 of 40 Page 39 of 40 Page 40 of 40 LIST OF EFFECTIVE PAGES REVISION NUMBER AND DATE Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revj.sion 0, 3/20/84.Revision.0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84 Revision 0, 3/20/84~Revision 0, 3/20/84 APPENDIX B Page 1 of 2 Page 2 of 2 Revision 0, 3/20/84 Revision 0, 3/20/84 Page 5 of 5 Rev.0, 3/20/84 12 PMP 4021.TRP.001 INDIANA AND MICHIGAN ELECTRIC COMPANY DONALD C.COOK NUCLEAR PLANT REACTOR TRIP REVIEW 1.0 OB JECTIVES 1.1 To provide for the collection and retention of data required to implement objectives 1.2 and 1'.3.1.2 To ensure that all required automatic responses associated with a reactor trip have functioned.

1.3 To determine the.cause of the reactor trip.1.4 To establish requirements for reactor restart.1.5 To establish criteria for.requesting independent assessment of the event.1.6 To provide a written compilation of event circumstances.

1.7 To provide operating instructions for equipment which provide data useful for event analysis.0)"  

==2.0 REFERENCES==

===2.1 References===

on which the procedure is based.2.1.1 The ATWS Events of February 22 and 25, 1983 at Salem Nuclear Generating Station have demonstrated the need for a procedure for comprehensive data collection and review following a reactor trip.The Salem events are'described in NUREG 0977 and NUREG 1000, Vol.1.2.1.2 2.1.3 This procedure has been written with consideration of items listed in the NRC"Salem Restart Status Report", March 28, 1983 which includes items appropriate for such a procedure.

Generic Letter 83-28,"Required Actions based on Generic Implications of Salem ATWAS Events", July 8, 1983.2.1.4 AFPSC response to Generic Letter 83-28, file AEP: NRC: 0838A Page 1 of 15 Rev.0 12 PMP 4021.TRP.001 2.1.5'.1.6 INPO Good Practice OP-211,"Post Trip Reviews"," 9/83 10 CFR 50.73 (IV)2.1.7 OSO.052, 6/3/82 issue, and OS0.056, 10/27/82 issue 2.1.8 1-OHP 4021.001.002 Rev.11 and 2-OHP 4021.001.002 Rev.5 2.1.9 Oconee Nuclear Station directive, Xnvestigation of Unit Trips, Revision of 10/23/75 2.1.10 Oconee Nuclear Station Performance Manual, Section 4.7, Support of Reactor Trips, Revision of 2/16/83 2.1.11 Memo, V.VanderBurg to W.G.Smith, 6/30/83 2.2 References, to assist in procedure implementation.

====2.2.1 Elementary====

4.0 CONDITION I EVENT REVIEWS Using the description below, the SS and STA shall determine if the trip is to be reviewed as a Condition I event.If the SS and STA do not concur on whether the trip meets Condition I criteria, the matter will be referred to the Operations Superintendent for resolution.

Page 3 of 15 Rev.0 12 PMP 4021.TRP.001 CONDITION I: The cause of the trip is positively known.and has been corrected;.

all safety-related equipment functioned properly during the trip.Examples of events in this.category are lo-lo steam generator level trips during startup and human error during Reactor Protection System Surveillance procedures.

Since the cause, of the event is clearly understood, data collection can be limited to that which cannot be recove ed later, is required to prepare the LER, or is needed to verify proper automatic response.The only data analysis required is verification that automatic protective responses took place and occurred in an acceptable time frame.The judgement that a trip is a Condition I event shall be documented on Signoff Sheet 4.1.For these trips, only procedure sections 5.0, DATA COLLECTION, and 6.1, VERIFICATION OF AUTOMATIC RESPONSES need be completed.

If during performance of VERIFICATION OF AUTOMATIC RESPONSES a malfunction is discovered, the trip no longer satisfies the criteria of a Condition I event.In this case, as well as for trips which cannot initially be classified as Condition I events, completion of the comprehensive review (i.e.performance of all review procedure sections)is required.5.0 DATA COLLECTION 5.1 Checkof f sheets are provided for data collection.

6.0 DATA ANALYSIS NOTE: There are two distinct aspects to the analysis of reactor trip data.These are: a)Verify that required automatic responses took place and occurred within an acceptable time.b)Determine the cause of the trip.Page 6 of 15 Rev.0 12 PMP 4021.TRP.001

===6.1 VERIFICATION===

OF AUTOMATIC RESPONSES NOTE: Signoff sheets 6.1Rx, 6.1TUR, 6.1GEN, for Unit I or Unit II, provide a format for verifying and documenting expected plant response.The signoff sheets include the expected response, an indication of whether the response time is to be measured or only be observed to occur, an indication of plant configuration for which each event is expected, and acceptance

~criteria.Data collected during performance of section 5 provide the information needed to complete signof f sheets 6.1Rx, 6.1TUR, 6.1GEN.The SS and STA are responsible for the review of signoff sheets 6.1Rx, 6.1TUR, and 6.1GEN.If'S.S.cannot participate in this review, he shall designate someone to work-with the STA.They shall look for failed or degraded response of equipment to control signals.For those items of Signoff.Sheet 6.1 where acceptance criteria have yet to be developed, compare performance to that of previous trips (from STA"Rx Trip Writeups" file).Check for major variations in system performance which appear to indicate degradation or failure of protective functions and which cannot be attributed to variations of trip circumstances (such as origin of trip signal).Any such indications must be examined by appropriate support personnel to determine if a failure has occurred.6.1.1 Examine recorder charts and monitor printouts to verify that the SSPS functioned as expected: 6.1.1.1 6.1.1.2 As closely as can be determined, the signal which initiated the reactor trip'as actuated at the proper value of the deviant parameter.

While the events leading to the trip took place, no trip setpoint was exceeded without trip signal actuation.

Document on signoff sheet 6.1 step 6.1.2.Page 7 of 15 Rev.0 12 PMP 4021.TRPB 001 The initial event on signoff sheet 6.1Rx is the initiating event for the reactor trip.This could be steam generator lo-lo level or turbine trip above P-7, for example.This signoff sheet shall be completed for every reactor trip.The initial event on signoff sheet 6.1TUR is the initiating event for the turbine trip.This could be steam generator hi-hi level or turbine trip from reactor trip.This signoff sheet shall be completed fo every reactor trip which occurs with the turbine reset.The initial.event on signoff 6.1GEN is the initiating event for the generator trip.This could be turbine stop valves closed and generator motoring cause overall differential trip.This signoff shall be completed for every reactor trip which occurs with the generator exciter field breaker closed.If expected responses were not obtained or were outside the acceptable time frame, and the trip had initially, been deemed a Condition I event, then the trip no longer satisfies the criteria for a Condition I event and the.full-length performance of this procedure is required.NOTE: Reactor restart may not take place until the failure is corrected if the failure is safety related.Signoff sheet 6.1 includes a signoff (signoff sheet step 6.1.3)to document SS and STA concurrence for acceptability of restart for those trips which are classified as Condition I events in section 4.0 of this procedure.

Completion of this signoff is sufficient to recommend restart of the affected unit to the Plant Manager for Condition I events.NOTE: The Plant Manager's decision to restart is documented in OHP 4021.001.002.

Page 8 of 15 Rev.0 12 PMP 4021.TRP.001 6.1.7 If the event is being reviewed as a Condition I event, complete signoff sheet 6.3, Review Report cover sheet, and attach to it all signoff sheets completed in the Condition I'event review.See Step 6.2.10 for distribution of this review package.I This concludes the Condition I trip review.6.2 INVESTIGATION INTO THE CAUSE OF THE TRIP NOTE: Trouble shooting and diagnosis are activities which cannot be readily described in a procedure.

The following steps include objectives,, authorization to obtain additional assistance, direction for putting the data in.a form which may lead to understanding, and instructions to verify certain automatic responses not addressed in section 6.1.Judgement is permitted in the implementation of this section.The procedural steps are to be used as a-guide.Alternate techniques may be employed to analyze the event as long as the end result is an understanding of the cause of the event, verification that required automatic responses took place, and identification of any, detrimental effects on the plant or equipment.

6.2.1 If the trip has not been classified a Condition I event, a full investigation of the situation is called for.To release the SS to fulfill his other obligations, this function will normally be carried out by the Operations Superintendent, or his designee.After addressing performance of the data gathering and"verification of response" portions of this procedure, the SS shall contact the Operations Superintendent and request that he assume responsibility for completion of the investigation.

The SS may at his~o tion, perform the functions of the Operations Superintendent listed below, relinquishing the responsibility if the investigation becomes too involved or his attentions are required for other functions.

6.2.2 The purpose of the investigation is to determine the cause of the trip and assess the plant's readiness to return to power.If at any point in the investigation, the Operations Superintendent concludes that he is unable to achieve the purpose of the investigation Page 9 of 15 Rev.0 12 PMP 4021.TRP.001 without additional technical support, he shall immediately call the department superintendent(s) who can best supply needed expertise.

If he cannot reach the department superintendents, he shall call the Staff Duty Week End Supervisor.

They shall ensure that appropriate support is supplied.The Operations Superintendent, the STA, and other investigating personnel shall look beyond the obvious indications to diagnose the cause of the trip and evaluate the plant response.They shall review the available information thoroughly, looking for (1)abnormal indications or degraded trends in equipment performance, (2)events occurring out of the normal or anticipated sequence, (3)failed or degraded response of equipment to control signals, (4)unusual radiation read-ings, and (5)unanticipated alarms.The actual or suspected cause of the trip and any abnormal or degraded indication identified during the transient shall be documented in the Reactor Trip Summary, Signoff sheet 6.2 and the Reactor Trip Review Report.The Operations Superintendent or his designee, and the STA will reconstruct the transient using the collected data.A chronological description of the event should be developed, using the Operations Sequence Monitor data as a base.Pertinent alarms, trips, actuations, and isolations will be listed.Selected plant pazameters should be incorporated into the chronological list of events in the reconstruction.

Information from the Turbine Events Monitor, Unit I EHC First Hit Annunciator, Oscillograph, and the P250 Sequence of Events Record shall be used to confirm and augment the Operations Sequence Monitor information.

If the Operations Sequence Monitor is out of service, the event shall be reconstructed using other available data.NOTE: The preparation of signoff sheets 6.1Rx, 6.1TUR, and 6.1GEN will provide much of the input for this step.Page 10 of 15 Rev.0 12 PMP 4021.TRP.001 Plot data from the P250 post-trip review as appropriate to evaluate the behavior of any logged parameter which initiated the trip or which was observed to exhibit unusual response.Review signoff sheet 5.4, System Status and Response, and signoff sheets 5.5, Personnel Interview Form, for clues to the nature of the event and information that should be included in the chronological description of the event prepared in step 6.2.4.Examine recorder charts, monitor printout, and signoff sheets 5.4 and 5.5 to verify that setpoints for the following protective features were not exceeded or that expected automatic responses occurred: 6.2.7.1 Safety Injection (any automatic initiation).

6.2.7.2 Phase B containment isolation and containment spray.,6.2.7;3 Pressurizer PORV or Safety'Valve actuat'ion.

6;2.7.4 Steam'enerator.

PORV or Safety Valve actuation.

6.2.7.5 Steam dump block below-541'F.Verify that RCS temperature changes were within the cooldown limits of Tech.Specs.3.4.9.1 and 3.4.9.2.Document the analysis of the event by completing signof f sheet 6.2.Completion of all signoffs for step 6.2.10.1 OR 6.2.10.2 OR 6.2.10.3 of signoff sheet 6.2 is sufficient to recommend restart of the affected unit to the plant manager.Complete Signoff Cover Sheet, and sheets, operator printout copies.package shall be Sheet 6.3, Review Report attach to it all signoff interviews, and chart and Copies of this trip review supplied to the following:

Operations Department Technical-Engineering Department Page ll of 15 Rev.0 12 PMP 4021.TRP.001 Technical-Chemical/RP Department Managerial Department STA's PNSRC AEPSC Plant Master File (original)

AEPSC Onsite QA The original shall be maintained for the life of the plant.NOTE: The Plant Manager's decision to restart is documented in OHP 4021.001.002.

CRITERIA AND AUTHORITY FOR UNIT RESTART 7.1 Acceptance criteria for specific responses are included on the signoff sheets.7.2 Event Classification and Authority for Plant Restart.NOTE: The following classification scheme differentiates between."minor" and"major" safety.-related equipment.

The classification.

is relative and no implication is intended that"minor" equipment is unimportant.

Failure of major equipment could have a substantial adverse impact on a normal plant shutdown or an accident situation.

Such failures merit examination by the PNSRC prior to plant start-up.Examples: failure of an auxiliary feedpump to start when required, failure of a reactor trip breaker to open, failure of a turbine trip system to depressurize.

Examples of minor equipment failures: failure of a single reactor.trip instrumentation channel, feedwater isolation actuation slightly below spec.553's 554'.Whether a failure has serious safety significance shall be determined by those classifying the event.7.2.1 Condition I The cause ofrthe trip is positively known and has been corrected; all safety-related equipment functioned properly during the trip.If the SS and STA concur that an event satisfies the criteria for condition I, the S.S.shall have the authority to recommend restart of the affected unit to the Plant Manager.Page 12 of 15 Rev.0 12 PMP 4021.TRP.001 Condition II The cause of the trip is positively known and has.been corrected; some minor safety-related equipment did not function properly;however,'the malfunction has been corrected and no Tech.Spec.constraint prohibits start-up.If the Operations Superintendent and STA concur that an event satisfies the criteria for Condition II, the Operations Super-intendent shall have authority to recommend restart of the affected unit to the Plant Manager.Condition III The cause of the trip is not positively known, or some minor safety-related equipment malfunctioned and has not been repaired;or some major safety-related equipment malfunctioned during the event (whether or not, repairs have been made).If the Operations'uperintendent and STA concur that an event.satisfies the criteria for Condition III, the affected unit shall not be restarted until the PNSRC reviews the event.If the Operations Superintendent and the STA do not concur on event classification, the Assistant Plant Manager for Operations shall classify the event.The PNSRC will review all reactor trips.Condition III events shall be reviewed prior to restart of the affected unit.The PNSRC will analyze the event reconstruction, emphasizing the determination of the cause of the trip and the resolution of abnormal or degraded indications.

The PNSRC shall use available expertise to resolve auestions concerning the cause and plant response.Sources of expertise that should be considered by the PNSRC include nuclear steam supply vendors, vendor engineers, on-site engineering staff, corporate engineering staff, and other experienced operations and Page 13 of 15 Rev.0 12 PMP 4021.TRP.001 maintenance personnel.

The PNSRC shall supply the following information to the plant manager: a)the actual or most probable cause of the trip or b)the maintenance and testing necessary before reactor restart including additional measures to verify the most probable cause c)additional monitoring or trending required during and/or after reactor restart d).necessary briefings to operations and/or maintenance personnel concerning specific equipment indications or possible malfunctions e)the conditions necessary for a reactor restart The plant manager shall evaluate the recommendation made by the persdnnel performing the trip investigation and, if'ecessary, the PNSRC review.His decision to restart the reactor shall include th8 following considerations:

a).The cause of the trip is known and , corrected.

b)Major safety-related and other important equipment functioned properly during the transient, or corrective maintenance and satisfactory test'ng has been performed or will be completed when plant conditions permit.c)The plant response during the event has been analyzed and the plant responded as anticipated, or all abnormalities are understood and corrected as required by Technical Specifications.

If the cause of.the trip has not been positively identified, the plant manager shall determine if the cause and the circumstances surrounding the cause have been analyzed Page 14 of 15 Rev.0  

12 PMP 4021.TRP.001 adequately.

He shall ensure adequate measures are taken to prevent repetitive challenges to~safety systems during future power operations.

Page 15 of 15 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 4.1 ABBREVIATED

'II1PZEI%2ITATION OF PROCEDURE CONCURRENCE The reactor trip on Unit, which occurred on't is classified as a Condition I event for which only data collection and verification of automatic response is required., S.S.STA (;Page 1 of 1 Rev.0  

RELAY TARGETS 12 PMP 4021.TRP.001

--REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.1 Check the relay targets on the G panel and panels A-1 through A-14 in the control room, and the relay targets in the switch gear complex.Use the attached data sheets.Place an x in the appropriate square on the data sheets to indicate actuated status.Completed by Page 1 of ll Rev 0 t,'A PAI/EL G"=;;..rARGETS UNIT 1 Tl Turbine Valves (HAA)T2 Generator Relays T3 Excitation Relays (HAA)Tl 1 T12 Turbine Hyd Stator Trip Cooling Soleniod Trip T13 Trans.1 Sudden Pressure-T4 T5 Turbine Transformer Mech.Trip Relays Soleniod T6 Emerg.P.B.Trip Gen.Panel T12 T15 Trans.1AB Trans.1CD Sudden Sudden Pressure Pressure T16 Trans 1 Tap Chgr hndl in UNIT DIFFERENTIAL (HEA)OVERALL DIFFERENTIAL'HEA) 87X-Ul 87X1-Ul 87X2-Ul 87X-OA1 87X1-OA1 87X2-OA1 UNIT 2 (HAA)(HAA)(HAA)T17 T18 T19 Hain TransfHain Transf Hain Transl Sudden Sudden Sudden Press.tj 1 Press.9 2 Press, 9 3 T20 T21 Trans.2AB Trans 2CD Sudden Sudden Press.Press.Tl Turbine-Valves T4 Turbine Trippping (Left Syst)T2 Generator Relays T5 Transformers Relays Excitation Relays T6 Emerg, P.B.Trip Gen.Panel Tll Turbine Tripping (Right Sys)T12 Stator Cooling Trip O fV R~(W Sj~f~O 87X-U2 UNIT DIFFERENTIAL (HEA)87X1-U2 87X2-U2 87 X-OA2 OVERALL DIFFERENTIAL-(HEA)87X 1-OA2 Page 2 of 11 Rev 0 87X2-OA2 CA M~-8 CQ Mo 0 Q D C/l~O CD O CD (D et CL Ul~S j~12 PNP 4021.TRP.001 REACTOR TRIP REVIEW PRtY~WURE SIGNOFF SHEET 5.1 52-KX A-2 52-K1K~-AUX 52-KlX 25P, PANEL A RELAY TARGETS UNIT 1 A-3 25TX A-4 63X-SPl 15 87X UOA AUX 87Xl VOA AUX 25 87-OA.PH.1 87-OA PH.2 87-OA PH.3 87-Al PH.l 87-Al PH.2 87-Al PH.3 83G 839 25Z 25A 64-GF 64-AF 87-T PH.1 87-T PH.2 87-T PH.3 151X-Gls I 96-GlS 151X1-Gls 59 N 87-G PH.1 87-G PH.2 87-G PH.3 151-GlS 159N Page 3 of 11 Rev.0 t'A-8 63X-SPlCD i','PANEL A RELAY TARGETS UNIT 1 A-7 63X-~SPlAB 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PRESSURE SIGNOFF SHEET 5.1 A-6 125A 87T-1CD PH.l 87T-1CD PH.2 87T-1CD PH.3 87T-lAB PH.1 87T-lAB PH.2 87T-lAB PH.3 51TN-1CD 251TN-1CD 51TN-lAB 251TN-lAB 27-4EPl 27-4EP3 Page 4.o f 11 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PR~~SIGNOFF SHEET 5.1 A-ll PANEL A RELAY TARGETS UNIT 1 A-9 51X-B7 51X-B5 27X-TllD1 63X-SP101CD 27KTllD2 27XTllAl 63X-SP101AB 27XT11A2 51T-llA PH.1 51N-TllB 51T-llB PH.1 51 12CD 25-TCD 27XT11D3 51 12AB 25 TAB 27XTllA3 51T-llA-'H.3 51T-1lB PH.3 87-TCDLD PH.l 87-TCDLD PH.2'7-TCLD PH.3 87-TABLD PH.l 87-TABLD PH.2 87-TABLD PH.3 87-DGAB PH.1 87-DGAB PH.2 87-DGAB PH.3 87T-101CD 87T-101CD 87T-101CD PH.1 PH.2 PH.3 87T-101AB PH.1 87T-101AB PH.2 87T-10'1AB PH.3 87T-llA PH.1 87T-11A PH.2 87T-llA PH.3 87T-11B PH.l 87T-llB PH.2 87T-llB PH.3 51TN-101CD 25 ITN-101CD 51TN-101AB 251TN-101AB 51-DGAB PH.1 51N-DGAB 51-DGAB PH.3 27TllD-1 27T11D-2 27TllD-3 27TllA-1 27TllA-2 27TlkA-3 TR llA TR llB Page 5 of 11 Rev.0 12 PNP 4021.TRP.001

(~.''REACTOR TRIP REVIEW PR.ri.URE SIGNOFF SHEET 5.1 51X-C6 PANEL A RELAY TARGETS UNIT 1 A-13 51X-C4 A-12 51T-11C PH.1 51N-T11C 51T-11D PH.l 87 RCP1 PH.1 87 RCP1 PH.2 87 RCP1 PH.3 51T-11C PH.3 51T-11D PH.3 87 RCP2 PH.1 87 RCP2 PH.2 87 RCP2 PH.3 87-DGCD PH.1 87-DGCD PH.2 87-DGCD PH.3 87-TBMC PH.l 87-TBMC PH.2 87-TBMC PH.3 87T-11C PH.l 87T-11C PH.2 87T-11C PH.3 87-TCMC PH.l 87-TCMC PH.2 87-TCMC PH.3 87T-11D PH.'I 87T-llD PH.2 87T-11D PH.3 87-RCP3 PH.1'87-RCP3 PH.2 87-RCP3 PH.3 51DGCD PH.l 51N-DGCD 51DGCD PH.3 87-RCP4 PH.1 87-RCP4 PH.2 87-RCP-4 PH.3 TR11C TRllD Page 6 of 11 Rev.0 jo 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PR""-MURE SIGNOFF SHEET 5.1 52-A2X A-2 52-AlA2-Aux 52-AlX 25P PANEL A RELAY TARGETS.UNIT 2 A-3 25TX 63X-SPM1 A-4 63X-SPM2 63X-SPM3 15 n 25 87-OA PH.1 87-OA PH.2 r 87-OA PH.3 87-A PH.1 87-A PH.2 87-A PH.3 83 G 83B 25 Z 25A 64-GF 64-AF 87-T PH.l 87-T PH.2 87-T PH.3 151X-GlS 96-Gls 151X1-Gls 59N 87-G PH.l 87-G PH.2 87-G PH.3 151-Gl s 159N.=" No Identification Page 7 of ll Rev.0 A-7 63X-SPAB PANEL A RELAY TARGETS UNIT 2 A-8'63X-SPCD 12 PNP 4021.TRP.001 REACTOR TRIP REVIEM PRt'-"MURE SIGNOFF SHEET 5.1 A-9 63X SP201AB 125A 125A 25 TAB 87T-AB PH.1 87T-AB PH.2 87T-AB PH.3 87T-CD PH.1 87T-CD PH.2 87T-CD PH.3 87T-201AB PH.1 87T-201AB 87T-201AB PH.2 PH.3 51TN-AB 251TN-AB 51TN-CD 251TN CD 51TN-201AB 251TN 201AB 27-T21A PH.1 27-T21A PH.2 27-T21A PH.3 Page 8 of ll Rev.0 j 0 A-10 63X-SP201CD 51X-87 PANEL A BELAY TARGETS UNIT 2 A-ll 51X-85~r.w>12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PRM>>=SIGNOFF SHEET 5.1 A-12 25-TCD/51T-21A PH.1 51N-T218 51T-218 PH.1 87-RCPl PH.l 87-RCPl PH.2 87"RCP1 PH.2 51T-21A PII.3 51T-218 PH.3 87-RCP2 P1I;1 87-RCP2 PH.2 87-RCP2 PH.3 87,-9GAB PH.l 87-DGAB PH.2 87-DGAB PH.3 87-TBMC PH.1 87-TBMC PH.2 87-TBMC PH.3 87T-201CD PII.1 87T-201CD PH.2 87T-201CD PH.3 87T-21A PH.l 87T-21A.PH.2 87T-21A PH.3 87-TCMC PH.1 87-TCMC'7-TCMC PH.2 PH.3 51TN-201CD 251TN-201CD 87T218 PH.1 87T218 PH.2 87T218 PH.3 87-RCP3 PH.l 87-RCP3 PH.2 87-RCP3 PH.3 27-T219 PII.1 27-T21D PII.2 27-T21D PH.3 51DGAB PH.1 51NDGAB 51DGAB PH.3 87-RCP4 PH.1 87-RCP4 PH.2 87-RCP4 PH.3 TR-21A TR-218 Page 9 of 11 Rev.0 i 51X-C6 A-13 PANEL A RELAY TARGETS UNIT 2 12 PMP 4021.TRP.001 f'+'EACTOR TRIP REVIEN PR~ORE SIGNOFF SHEET 5.1 51T-21C PH.l 51NT-21C 51T-219 PH.1 51T-21C PH.3 51T-21D PH.3 87-DGCD PH.l 87-DGCD PH.2 87-DGCD PH.3 87T-21C PH.1 87T-21C PH.2 87T-21C PH.3 87T-219 PH.1 87T-21D PH.2 87T-21D PH.3 51-DGCD PH.l 51-DGCD PH.2 51-DGCD PH.3 TR-21C TR-219 Page 10 o f 11 Rev.0 SWITCIIGEAR COHPLEX RELAY TARGETS 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW P~~URE SIGNOFF SHEET 5.1 UNIT.TlkfE DATE PERFOBKD BY: RC Pum Bus and T-bus 4KV Switch ear: I,ist all relay targets actuated.Specify"1","3", or"N".where applicable.

Note alarm lights lit (llGPll IIOTll etc)Breaker Instrument No.Name Attempted Reset Successful

" 600 V Safet Bus Switch ear List all relay targets actuated.Include relays on back of'breaker panels (feeder relays).Reset Instrument No.Name Attempted.

Successful Page ll of ll Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGN OFF SHEET 5.2 Ul EHC FIRST, HIT MNUNCIATOR For a Unit I reactor trip which occurred with the turbine reset, check the first hit annunciator in the EHC control cabinet.Use the attached data sheet.Place x in the appropriate square on the data sheet to indicate actuated status.Page 1 of 2 Rev.0 12;PHP 4021.TRP.+~REACTOR TRIP REVT~ROCEDURE SIGN OFF SHEET 5.2 UNIT I EHC I'IRST HIT ANNUNCIATOR ERST HIT PS 100 ARB I I CUST.TRIP NO EHC DC INPUT POWER FIRST HIT P ONER/LOAD.UNBALANCE I-22VDC!I'I.OST i I SPD SIG HA TRIP BACKUP PAST CLST+30VDC S RESET LOST BUS OVERSPEFD RESET IV'S I,OST ENERGIZER TRIP Page 2 of 2 Rev.0 12 PMP 4021.TRPB 001 REACTOR TRIP REVIEW'ROCEDURE SHEET 5.3 SIGNOFF RECORDER CHART AND MONITOR PRINTOUT DATA NOTE: Except as a general guide to chart and printout retrieval methods this signoff sheet is not applicable to abbreviated reviews of Condition I events.5.'3.1 Step 5.3.5 of this signoff sheet is a list of plant recorder chart data which must be copied and retained in conjunction with a reactor trip analysis.The list includes a column labeled"Requirement".

The codes in this column indicate the circumstances which require obtaining the indicated data.These codes are: All Reset Rolled Turbine Exciter Generator Vacuum FPT SI Judge 5.5 all reactor trips turbine reset turbine rolled off turning gear turbine initiated events except.steam generator hi-hi level during startup exciter field breaker closed generator initiated event vacuum initiated event feed pump turbine initiated events events associated with SI based on SS or STA judgement when required by procedure step 5.5 5.3.2 The list below also includes a column labeled"Copy".A C in this column indicates the recorder chart is to be copied.An 0 in this column indicates the original data is to be attached to the trip review package.An 0 will be found next to data from equipment which is dedicated to monitoring reactor trips.5.3.3 Cut out and remove portions of the listed charts and printouts extending from before the initiation of the transient until after conditions have stabilized.

Judgement must be utilized to ensure that all data which may lead to an understanding of the cause of the event is included.Two to four hours of data before the event shall be included for slow moving (~l"/hour) control room charts.For the OSM, P250 TREND (Post Trip Review), and P250 Alarms (Sequence of Events)4 hours of data prior to the event shall be included.When a strip chart is cut for copying, label with Page 1 of 4 Rev.0 12 PMP,4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.3 recorder number and function for ease of replacement and later analysis.For multipen recorders each trace must be clearly labeled.Be certain to include the time labels and marks made in accordance with procedure step 5.3.After copying, restore these chart and printout segments to their original positions by taping.Ensure proper functioning of the recorders.

5.3.4 For those recorders whose input channels can be selected, ensure that channel selection is identified on the chart.If selection was changed during the transient, identify this on the chart.5.3'Chart Recorder Data to be copied/collected'ecorder Chart Pressurizer pressure chart Pressurizer level chart NI recorder NR045 chart All All All Sicinof f bT chart Tref-Tavg chart All All Steam generator 1'evel/flow charts (4)All Main Steam/First Stage Pressure Chart All P250 sequence of events printout (Alarm typewriter)

All P250 Post-trip review printout (Trend typewriter)

All Operation sequence monitor printout All Turbine events monitor chart BBC turbine events monitor chart Oscillograph chart Generator Voltage and reactance chart I~j Reset Reset (U2 only)Exciter Exciter Page 2 of 4 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.3 Valve position and turbine speed chart (Ul)Rolled Vibration and turbine speed chart (U2)Generator frequency chart*(if selected to generator)

Main Vacuum Chart FPT Steam/Backpressure Chart I'urbine Supervisory Charts Ul: bearing temperature vibration.metal temperature shell, rotor expansion U2: bearing temperature vibration, eccentricity, speed metal temperatures Rolled Exciter Vacuum Vacuum Turbine FPT Vibration Chart FPT Bearing Temperature Chart FPT FPT Feedpump Suction and Discharge Pressure Chart FPT Wide Range Thot and Tcold charts (4)SI Wide Range RCS Pressure Chart, Containment Pressure Chart Computer Analog Trend Charts (2)Computer Alarm Printout RMS 10 minute averages SI SI Judge Judge 5.5 5.3.6 Obtain a copy of control room log to include one full shift of entries prior to the event.Page 3 of 4 Rev.0  

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-REACTOR TRIP REVIEW PROCEDURE, SIGNOFF SHEET 5.3 In addition to those listed above, obtain copies of any recorder charts which are known to apply to the specific transient Include with any additional charts all information necessary for interpretation of these charts, such as chart speed (if variable), channel selected, bank number, etc.Additional charts copied: Comments: (u PERFORMED BY e Page 4 of 4 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.4 SYSTEM STATUS AND RESPONSE Nuclear Instrumentation 5.4.1.1 List all NI drawer"negative rate" trip status lights which are energized.

5.4.1.2 Source Range instrument power restored automatically as designed (both channels)5.4.1.3 Major equipment out of service: 5.4.1.4 Describe any abnormal conditions (such as'loss of detector voltage'r'channel on test')or behavior noticed during the transient.

5.4.2 Reactor Coolant Pum s 5.4.2.1 Describe circumstances, including place in sequence of events, of any RCP trips (manual or automatic) which occurred during the transient.

5.4.2.2 Describe effect of reactor transient on leakoff flows.5.4.2.3 Describe any behavioral abnormalities noticed during the transient.

Page 1 of 10 Rev.0 0

12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.4 RCS Pressure Control 5.4.3.1 Control status prior to trip (man/auto) 5.4.3.2 Backup heaters"on""auto" banks banks 5.4.3.3 Pressure channels selected (control/bistables) 5.4.3.4 Pressurizer PORV's blocked prior to transient:

5.4.3.5~Spray valves in"auto" 5.4.3.6 Did pressurizer PORV's or safeties lift during transient?

Describe circumstances.

5.4.3.7 Major equipment; out of service: 5.4.3.8 Describe any behavioral

'abnormalities noticed during the transient Pressurizer Level Control 5.4.4.1 5.4.4.2 Control Status prior to trip (man/auto)

Charging pump in service 5.4.4.3 Charging flow controller (QRV-251 or Recip speed controller) status prior to trip'man/auto) 5.4.4.4 5.4.4.5 Level channels selected (control/bistables)

Describe any behavioral abnormalities noticed during the transient.

Page 2 of 10 Rev.0 y~~Q+t~I'i~A>

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~Ks 0AOAi M~i 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.4 5.4.5 CVCS Makeu 5.4.5.1 Prior to transient, blender line contained (acid, pri.water, blend)5.4.5.2 Makeup in auto with'start'ignal?(yes/no)5.4.6 Control and Shutdown Rods 5.4.6.1 Pull insertion of all control and shutdown rods verified.Rods thai: did not insert: 5.4.6.2 5.4.6.3 Rod control status prior to trip (auto/man)

Was the rod contzol statuq changed during the transient?

If so, when in the sequence of events?5.4.6.4 Major equipment out of'service:

5.4.6,5 Describe any behavioral abnormalities noticed during the transient.

5.4.7 Main Feedwater Steam Generator Ievel 5.4.7.1 Operating main feed pumps tripped on reactor trip (yes/no/OOS)

EMPP Page 3 of 10 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE'IGNOFF SHEET 5.4'.4.7.2 Feed water isolation received when Tavg<554'F.Valves closed (yes/no)FRV210 FRV220 FRV230 FRV240 FM0201 FM0202 FNO203 FMO204 5.4:7.'3 5.4.7.4 Feedpump control status prior to trip (auto/man)

East feedpump speed control West feedpump speed control DP controller Feedpump steam supply prior to trip East feedpump (reheat/main/aux).West feedpump (reheat/main/aux) 5.4.7.5 Feedwater regulating valve status prior to trip (auto/man)

FRV210 FRV220 FRV230 FRV240 5.4.7.6 5.4.7.7 Condensate bypass valve status prior to trip (auto/man)

CRV224 Feedwater Heater level controls in manual prior to trip: 5.4.7.8 Major equipment out of service: Page 4 of 10 Rev.0 0

5.4.7..9 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW.PROCEDURE SIGNOFF SHEET 5.4 Describe any behavioral abnormalities noticed during the transient.

Auziliary Feedwater 5.4.8.1 MDAFP's started automatically on trip of main feedpumps EMDAFP WMDAFP 5.4.8.2 TDAFP operated?Describe circumstances and approzimate duration of operation.

5.4.8.3 Did operator intervene in the TDAFP response'(manually adjust or trip)?If so, when in the sequence of events?5.4.8.4 Major equipment, out of service: 5.4.8.5 Describe any behavioral abnormalities noticed during the transient.

Steam Dum Steam Generator Pressure Relief 5.4.9.1 Control status prior to trip (Tavg/Steam Pressure/Off) 5.4.9.2 If in Tavg mode, steam dump valves modulated to maintain Tavg~547.(yes/no)5.4.9.3 If Tavg dropped below 541'F, steam dump blocked (yes/no)Page 5 of 10 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.4 5.4.9.4'Did steam dump valve open prior to trip (yes/no)?If yes describe.II 5.4.9.5 If vacuum trip, did steam dump valves stay closed (yes/no)?5.4.9.6 Control status of atmospheric steam dumps prior to trip (auto/manual)

MRV213 MRV223 MRV233 MRV243 5.4.9.7 Did atmospheric steam dumps operate during transient (yes/no)?If yes, describe (automatically, manually, circumstances).

5.4.9.8 Was the control status of atmospheric steam dumps changed during the course of the transient?

If so, when in the sequence of events?5.4.9.9 Did steam generator safeties lift during transient (yes/no)?If yes describe.5.4.9.10 Major equipment out of service.5.4.9.11 Describe any other behavioral abnormalities noticed during transient.

Page 6 of 10 Rev.0 5.4.10 Main Turbine SR 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.4 5.4.10.1 Was there a turbine runback (yes/no),?

5.4.10.2 If yes, provide best estimate of power change and the time in sequence of events when it occurred.5.4.10.3 Did the operator intervene in the turbine runback?If so, when in the sequence of events?5.4.10.4 Turbine trip: Main turbine stop, reheat stop, control, and intercept valves closed e,'L 5.4.10.5 Controlling device prior to trip (load, limit'er/operating'evice/load changer/turbomat) 5.4.10.6 Set rates loading unloading 5.4.10.7 Were valve or misc turbine tests in progress when the trip occurred?Which one?5.4.10.8 Did exhaust hood sprays actuate (yes/no)?5.4.10.9 Vacuum breakers opened following trip?(yes/no)5.4.10.10'Hogging'JAE's in service following trip?(yes/no)Page 7 of 10 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEN PROCEDURE SIGNOFF SHEET 5.4 5.4.10.11 MSR in service prior to trip?(no/partial/full) 5.4.10.12 Did any MSR safety valves lift during the transient (yes/no/identify)?

5.4.10.13 Major equipment out of service: 5.4.10.14 Describe any behavioral abnormalities noticed during the transient.

Generator/Electrical 5.4.11.1 Generator trip.This will occur 30 seconds after the reactor trip unless it results from a generator event.output breakers open (yes/no)K or Al Kl or A2 Exciter breaker open (yes/no)5.4.11.2 If auxiliaries were suppled by the generator, were auxiliaries automatically transferred to normal reserve (yes/no/NA)?

Describe any failures.5.4.11.3 Diesel generators operated?Describe curcumstances.

Page 8 of 10 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.4 5.4.11.4 Any GRID or CRP bus switched to alternate supply?Describe circumstances.

\5.4.11.5 Major equipment out of service: 5.4.11.6 Describe any behavioral abnormalities noticed.during transient.

5.4.12 Safet In'ection 5.4.12.1 Was the event associated with an SI (yes/no)?5.4.12.2 If yes, did verification of automatic actuations indicate failure of any required response (yes/no)?5.4.12.3 If yes, list actuations not received, reason if known, and whether the response was successfully initiated manually.5.4.12.4 List major equipment out of service.5.4.12.5 Describe any abnormalities noticed'in the response of the safety injection system.Page 9 of 10 Rev.0 12 PMP 4021.TRP.001'EACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.4 5.4.13 Phase B 5.4.13.1 Was there a phase B/CTS actuation (yes/no)?5.4.13.2 If yes, did verification of automatic actuations indicate failure of any required response (yes/no)?5.4.13.3 If yes, list actuations not received, reason if known, and whether the response was successfully initiated manually.5.4.13.4 List major equipment out of service.5.4.13.5 Describe any abnormalities noticed in the response of the CTS System.5.4.14 Miscellaneous 5.4.14.1 List any major plant equipment.

not covered above which is out of service and could have had an effect on the progression of the transient.

5.4.14.2 Describe any behavioral abnormalities of systems not covered above which may affect plant safety.COMPLETED BY Page 10 of 10 Rev.0 12 PNP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.5 PERSONNEL INTERVIEW FORMi 5.5.1 5.5.2 5'.5.3 5.5.4 Person interviewed Role in event Interview by Description of the event: Include the plant conditions prior to the trip, your indications that a problem existed, your action as a result of those indications, noted equipment malfunctions or inadequacies, and any identified procedure deficiencies.

5.5.5.Sequence of events and actions taken: Page 1 of 2 Rev.0 12 PNP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 5.5 Apparent cause of the event: Include description of any related activity in progress when the event occurred and any underlying or contributory factors.Additional comments including any unexpected aspect of transient behavior: Page 2 of 2 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.1 VERIFICATION OF AUTOMATIC RESPONSE 6.1.16.1.2 p This signoff sheet.uses forms 6.1RX, 6.1TUR, 6.1GEN for reactor trip, turbine trip, and generator trip, respectively.

Column 1 lists the expected response starting with the initiating event.Column 2 will either indicate obsv.or meas.The former means the response is to be assessed as yes or no based on operator observation.

Meas means the time from the initiating event to that expected response is to be ,measured on a monitoring device such as the OSM, TEM, Oscillograph, or P250 Sequence of Events Recorder.The OSM will be considered the primary device and the quantit'ative acceptance criteria is based on OSM data.Column 3 will indicate whether the expe'cted response should always be present or whether it may only be present under certain circumstances.

For example, an Auxiliary Feed pump start will not be present if the steam generators are being fed from Auxiliary Feed pumps prior to the trip.Column 4 will be used to indicate the time from the initiating event, to the expected event or a yes no entryyfor an operator observation.

Column 5 will contain acceptance criteria.The procedure specifies when each signoff'sheet must be used.Procedure step 6.1.1 has been completed.

Page 1 of 9 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.1 6.1.2.1 As closely as can be determined, the reactor trip initiating signal occurred at the proper value of the deviant parameter.

6.1.2.2 While the events leading to the trip took place, no trip setpoint was exceeded without trip signal actuation.

Page 2 of 9 Rev.0 PMP 4021.TRP.001 ACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.1RX REACTOR TRIP EXPECTED RESPONSE (Ul)Ex ected Res onse Reactor Tri Breaker A Initial Event.Data T e Neas Meas-Re irement All All Acceptance Time Criteria 0 0 Reactor Tri Breaker B Reactor Tri Breaker Undervolta e coil A Reactor Tri Breaker Undervolta e coil B Control Rods Bottom Mechnical Tri 0 crated Turb WNFPT Vacuum Tri EMFPT Vacuum Tri MNFPT H dr Pr Low EMFPT H dr Pr Low Feedwater Isolation MNDAFP Start ENDAFP Start TDAFP Start'eas Meas Neas Obsv Obsv Obsv Obsv Gbsv'bsv Obsv Obsv.Obsv Obsv All All All All All MMFPT Vac Tri Reset EMFPT Vac Tri Reset WMFPT Reset ENFPT Reset.On Main Feed On Main Feed, Aux feed on standb On Maxn Feed, Aux feed on standb On Maxn Feed, Aux feed on standby Yes Yes Yes Yes Yes If start signal re ired~To Be Prepared Page 3 of 9 Rev.0.  

(.0.;:;"'~PMP 4021.TRP.001'-'"",.-.KACTOR TRIP REVIEN PROCEDURE SIGNOPF SHEET 6.1TUR TURBINE TRIP EXPECTED RESPONSE (Ul)Ex ected Res onse RT-Turbine Tri+P7 Mech Tri 0 er Emer Gov OVSP Tri MT Reheat VA CL MT Sto VA CL Overall Diff 0 er EHC Tri S s Tri DC BRG Oil PP Run TRB Oil Bu Run STM Seal PR Low STM Dum Actuation Initial Event Dakota T e Meas.Meas Seas.Neas Meas Meas Neas Neas Meas Neas Obsv Re irement.Turbine Reset 8 above P-7 Turbine Reset Turb Reset.Turb Reset Turb Reset Turb Reset Turb Reset Turb Reset Turb Reset Turb Reset Tav Mode Acceptance Time Criteria 0 0 Yes"To Be Prepared Page 4 of 9 Rev.0  

(.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.1GEN GENERATOR TRIP EXPECTED RESPONSE (Ul)Ex ected Res onse Nech Tri 0 er Initial Event Data T e.Neas Re uirement Generator Exciter Generator Exciter Time Acceptance Criteria o Overall Diff 0 er Alterx Diff er Generat Notorin Unit S s Fre Hi Lo Gen Cool Flow Lo Gen Cool Tri 0 er Trans To Normal Reserve Generator Field Brk.0 en Generator Out ut Brk 0 en Diesel Generator AB Start Diesel Generator CD Start Neas Generator Exciter Meas Generator Exciter Neas Generator=Exciter Nhas Generator Exciter Meas Generator Exciter Meas Generator Exciter Obsv Gen Su lies Auxiliaries Obsv Field Brk Closed Obsv Paralleled.

((;0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.1RX REACTOR TRIP EXPECTED RESPONSE (U2)Ex ected Res onse Data T e Re irement L Time Criteria Reactor Tri Breaker A Reactor Tri Breaker B Initial Event Meas'Meas Meas All All All 0 0 Reactor Tri Breaker Undervolta e coil A Reactor Tri Breaker Undervolta e coil B Control Rods Bottom Main Turbine Left S stem Tri Main Turbine Ri ht.S stem Tri WMFPT Vacuum Tri EMFPT Vacuum Tri WNFPT Emer enc S stem Tri EMFPT Emer enc S stem Tri Feedwater Isolation<554'F WbH)AFP Start EMDAFP Start TDAFP Start Meas Meas Obsv Neas Meas Neas Neas Neas Meas Obsv Gbsv Obsy Obsv All All All All WMFPT Vac Tri Reset EMFPT Vac Tri Reset.WNFPT Reset ENFPT Reset On Main Feed On Main Feed, Aux feed on standb On Mazn Feed, Aux feed on standb On Nazn Feed, Aux feed on standby'es Yes Yes If start signal re ired*To Be Prepared Page 6 of 9 Rev.0 j~12 PNP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.1TUR TURBINE TRIP EXPECTED RESPONSE (U2)Ex ected Res onse Initial Event Data T e Neas Re irement.Turb Reset.Acceptance-Time Criteria 0 0 Main Turbine Left S stem Tri Main Turbine Ri ht S stem Tri Left Emer enc Circuit Tri<8.5 si Ri ht Emer enc Circuit Tri<8.5.si Control Fluid Safet, Circuit Tri Auxilliar Lube Oil Pum Nest Emer enc Lube Oil Pum East Emer enc Lube Oil Pum Main Turbine Sto Valves Closed Main Turbine Interce t Valves Closed Reactor Tri from Turbine Tri Overall Differential Generator Trip from Turbine Sto Valves Closed Steam Dum Actuation Neas Neas Meas Meas Neas Meas Meas Neas Neas Neas'eas Meas Obs Turb Reset Turb Reset Turb Reset Turb Reset.Turb Reset Turb Reset Turb Reset Turb Reset Turb Reset, Turb Reset Above P-7 Turb Reset Tav Mode Yes*To Be Prepared Page 7 of 9 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.1GEN GENERATOR TRIP EXPECTED RESPONSE (U2)Ex ected Res onse Initial Event Data T e Meas Re irement, Generator Exciter.Acceptance Time Criteria 0 0 Nain Turbine Left S stem Tri Nain Tubine Ri ht S stem Tri Transfer to Normal Reserve Generator Field Breakers 0 en Generator Out ut Breakers 0 en Diesel Generator AB Start Diesel Generator CD Start Meas Meas Obs Obs Obs Neas Meas Generator Exciter Generator Exciter Gen Su lies Auxiliaries Field Breaker Closed Paralleled Blackout SI Blackout SI Yes Yes Yes*To Be Prepared Page 8 of 9 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.1 This signoff is to be used only for events classified as Condition I in section 4.0.This classification is documented in signoff sheet 4.1.Automatic responses to the reactor trip on Unit which occurred on at have been'reviewed.

This review determined that reactor restart is.acceptable.

SS STA Page 9 of 9 Rev.0 12 PMP 4021.TRP.001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.2 REACTOR TRIP

==SUMMARY==

Signoff Sheet 5.1 Signoff Sheet 5.2 Signoff Sheet 5.3 Signoff Sheet 5.4 Signoff Sheet 5.5 6.2.5 Verification of expected responses using signoff sheet 6.1 complete.Expected response occurred OR Failure of expected response.Describe the nature of the failure and corrective action taken.NOTE:

== Description:==

Reactor restart may not take place until the failure.is corrected if the failure is safety..related.

Reactor restart may not take place without the approval of the Operations Superintendent and the Plant Manager if the failure is non-safety related.)Failure corrected Page 1 of 4 Rev.0 12 PMP 4021.TRPB 001 REACTOR TRIP REVIEW PROCEDURE SIGNOFF SHEET 6.2 Approval to restart with non-safety related failure Operations Superintendent P ant Manager 6.2.6 , Verification of protective features (procedure step 6.2.7.)complete Expected response occurred OR Failure of expected response Describe the nature of the failure and corrective action taken.NOTE: Reactor restart may not take place until.the failure is corrected

 

 

 

12 PMP 4021.TRP.001 APPENDIX A SAMPLE TEM STRIP CHARTS Page 14 of 40 Rev.0  

0 C,'.-0*-,~~r 0...C 0, C'GA 0" C'0 C-0!C g4A I'C C, sw"'f cl I fag))Y)(gH~~o Pa e15of 40 Rev.0 0~p-0 C'0'4A C" W C C I y n CSA-0 C C ge.J,6.of 40 Rev.0 12 PMP 4021.TRP.001 APPENDIX A III.UNIT I PS 100 A Sc B SPD SIG LOST CUST.TRIP MA TRIP BUS ENERGIZER NO EHC DC INPUT POWER BACKUP OVER-SPEED TRIP POWER LOAD UNBALANCE FAST CLST IV~S-22 VDC LOST OR+30 VDC LOST EHC FIRST HIT MONITOR PANEL Are the Emergency Trip Pressure Switches which signal the electrical trip system logic that, the Emergency Trip System has depressurized.

Activated by concurrent loss of primary and secondary speed signals with turbine speed greater than 200 RPM.Customer trips are the following:

Thrust bearing wear S low bearing oil trip Steam Generator High Level Overall differential Unit differential MSR high level Reactor trip (P-7)Turbine high vibration (1 right plus 1 left)Solenoid trip (Control Switch)Loss of stator cooling Low condensor vacuum EHC hydraulic pressure low: 1100 PSIG'EHC system pressure trip: 800 PSIG Shaft pump oil pressure low>1300 RPM Safety injection Indicates that a turbine trip has occured,'and the master trip bus.has been energized.

Also indicates trip is sealed in.Loss of 24 V DC 61800 RPM or 250 V DC if<1800 RPM.Verify"No Station Battery" Annunciator in Miscellaneous Turbine Test Cabinet.Activated by excessive turbine speed.Initiates rapid control and intercept valve closure on.greater than 40%power/load mismatch.Rapid closure of intercept valves demanded by turbine supervisory instruments.

DC supply for electrical control lost.Verify indication on lambda power supplies to the left of the First Hit Panel.Page 17 of 40 Rev.0 12 PMP 4021.TRP.001 APPENDIX A IV.HATHANAY OSCILLOGRAPH t...,.4 The unit oscillograph has 32 galvanometers.

Each galvanometer will record one analog channel or, if properly modified, 4 on-off functions.

Eight galvanometers have been converted to on-off functions and the remaining galvanometers are reserved for electrical analog quantities.

The unit has a prefault recording feature where all input quantities are continuously recorded on a magnetic disc.Under normal conditions, the data are erased and current recordings written over the old space after approximately 100 milliseconds.

If one of a specific set of events occurs, the data are recorded on ultra-violet sensitive photographic paper such that the information recorded prior to the event is recorded followed by additional data resulting from the event.The recording is.continued for a fixed time period following the everrt.Recording chart speed may be selected to be either 12" or 3" per second, the usual practice being to record the initial portion of the event at the higher chart speed followed by additional recording at.the slower chart speed.Six points are used, to monitor the,A and B train reactor trip circuit breaker posit'ions, undervoltage trip initiation, and safety injection actuation, 2 points monitor the start of onsite power diesel generators, 1 point monitors the trip of the feedwater pumps, 10 points monitor turbine initiated events, 7 points monitor generator and excitation events, and 4 traces are 7 used for references to assist in identification of trace Page 18 of 40 Rev.0 12 PMP 4021.TRP.001 APPENDIX A j"~<<pA.locations.

The.analog traces record generator phase currents, phase and ground voltages, and field'current.

The display provided by the developed photographic paper is a reproduction of the amplitude and wave shapes of the analog electrical quantities.

The on-off events are indicated by a continuous straight line trace for a normal condition or the absence of the trace at that location signifying an off normal event.The photographic paper is developed by exposure to ultra-violet light (fluorescent lights are adequate sources)and no wet chemical processes are required.A sample strip chart is included..at the end of this section.The time descrimination between events during higher-chart speed is better than 5 milliseconds between events and better\.than 10 milliseconds during slower chart speed..g Page 19 of 40 Rev.0 DONALD C.COOK NUCLEAR PLAVI'2 Pt71P 4021.TRP.001 APPENDIX A 1/84 TRACE NO.TRACE ASSIGi%ENT UNIT Pl OSCILLOGRAPH 2 4 Generator Current 51 S are 7000/1 37,960 A/in.Generator Current g3 7000/1 37,960 A/in.4 5 4 4 7 Spare Spare S are Gen.Groundin Trans.Volta e 41.5/1 220 V/in.9 t 9~~.9.9 4.'AI-12 I 7'.13 Gen.Field Current Zero Mirror Gen.Field Current (Shunt-6000 A/100 M.V.)Gen.Metering Pot.Voltage S are 345 1P Pot.Timing Trace 160 M.V./In.220/1'800/1 4 9,466 A/in.227 V/in.213 V/in.14"9 15 Spare (Current)Spare 9~, 16 17~gare (Current OM4 Traces: 1-Reference; 2-Reactor Breaker Tripped'A', 3-Reactor Breaker Tripped'B';4-Reactor Breaker Under-'On/Off-'8 OM4 Traces: 1-Safety Injection'A';2-Safety Injection'B';3-Diesel Gen.'AB'Start; 4-Diesel Gen.'CD'tart.On/Off 19 OM4 Traces: 1-Reference; 2-Feed PP.Turb.'E89'W'rip;3-Spare;4-Spare.On/Off 20 2~21 OM4 Traces: 1-Main Stop Valves Closed;2-Main Turb.Mech$rf;.3-Emerg.Gov.Overspeed Trip;4-Back-up Overspeed OM4 Traces: 1-Reference; 2-FHC System Trip;3-Reactor Bkr.Undervolt Trip'B';4-Thrust Bearing Trip.On/Off On/Off 2 22 OM4 Traces: 1-Moisture Separator Hi.Level Trip;2-Vacuum Trip Operating; 3-Main Turb.High Vib.Trip;4-Lube Oil Press.Low Trip.On/Off 23 OM4 Traces: 1-Reference; 2-Stator Outlet Cooling Water Temp.High;3-Stator Cool Turb.Trip;4-Stator Cool Gen.Tri 9 I On/Off 24 OM4 Traces: 1-Generator Motoring;2-Unit HEA Operated;3-Overall HEA operaced;4-Alterrex

&Excitation Trip~'n/Off OSCILLOGRAPH STARTING SENSOR CALIBRATION 1.-38 Undervoltage

---109.VAC Note: Overcurrent

-(Noc Used)2.-39 Overvoltage

---130 VAC 3'18 Overvoltage

---50 VAC Rage.20 of 40"-Any on/off operation will start oscillograph

'0 Rev.0  

,H~H H 2 12 PMP 4021.TRP.001 APPENDIX A DONALD C.COOK NUCLEAR PLANT 1/84 UNIT NO.2 OSCILLOGRAPH TRACE NO.TRACE ASSIGNMENT RATIO ON Generator Potential E51-2 Volts 220/1 130 V/in.Generator.

Potential E52-3 Volts 220/1 128 V/in.3~.Generator Potential E53-1 Volts 220/1 124 V/in.4 Generator Current Ill 7,000/1 36,119 A/in.Spare Genera r N a V 2'Vi Generator Current 152 7,000/1 36,119 A/in.Generator Current 153 7,000/1 43,914 A/in.10 11 Spare S are S are Spare 14 765 KV Timing Trace 128 V/in.15 16 18 19 20 21'2 OM4 Traces: 1-Reference; 2-Reactor Breaker Tripped"A";3-Reactor Breaker Trinpad,",B,",;

4-Reactor Breaker Undervolta e Tri"A" OM4 Traces: 1-Safety In)ection A;2-Safety In)ection B;3-Diesel Generator AB Start;4-Diesel Gener-OM4 Traces: 1-Reference; 2-Feed Pump Turbine"E" and"W" Trip;3-Feed Pump Turbine"E" and"W" Trip Emer ancv 4-S are OM4 Traces: (IVacgum3T@ip Oparg[ed;L2pn)n ItopTVglye vM4 Traces:,1-Reference; 2-Control Fluid Safety Circ.Tripped;3-Reactor Breaker Undervoltaga Trip"B";4-Thrust Bearing Trip OM4 Traces: 1-Moisture Separator Hi-Level Trip;2-Air-Oil, H2 Diff.Press.Low Trip;3-22ain Tur-bine High Vib.Trip;4-Lube Oil press.Low Trip.OM4 Traces: 1-Reference; 2-Stator Outlet Cooling Water Temp High;3-Stator Cooling Turbine Trip;4-n races:-enarator tor ng;'nit ea perate 3-Overall Hea Operated: 4-Altarrex and Excitation Trip On/Off On/Off On/Off On/Off On/Of f On/Off On/Off On/Off OSCILLOGRAPH STARTING 1.3Itj'Undarvoltage E51-2-102 VAC 2~E02-3-105 VAC E03-I-107 VAC SENSOR CALIBRATION 30 Overvoltage E81-2-128 VAC E52-3-129 VAC 2'53-I-125 VAC 3.10 Overvoltage 52 VAC 4.Any on/o operat on w start osc ograph.Phoae 21 of AA.Rev.0 12 PMP 4021.TRP.001 APPENDIX A SAMPLE OSCILLOGRAPH STRIP CHART Page 22 of 40 Rev.0  

$I*V t 1 a l'~VV re+A 12 PMP 4021.TRP.001 APPENDIX A V.P250 SEQUENCE OF EVENTS RECORDING PROGRAM The Sequence of Events Recording program records the sequence of operation of a number of monitored contacts to a high time resolution.

When one of the monitored contacts changes state, an interrupt is initiated which causes the P250 to scan each monitored contact for any change from its previous state.The program stores such changes and the cycle count since the first event.A cycle is approximately 20 milliseconds in length.Due to a dead time of 2 milliseconds in the interrupt process, an automatic rebid of the program is programmed for the cycle following each interrupt bid.This is done to avoid loss of contact changes during the dead time.The Sequence of Events a Recording program is terminated when either the cycle count II reaches'3600 or 25 contact changes have been recorded.When the program is terminated, an output routine is called.All collected data are first moved to the output program buffers to free the Sequence of.Events Recording program buffers for continued monitoring.

The output routine prints the time of the first event in hours, minutes, and seconds.Following this message, the alpha-numeric address, a 36 character contact description, and cycle count from the first event are printed for each contact change.The first event will always have a cycle count of zero.A sample output is included at the end of this section.Page 24 of 40 Rev.0 Oj F0403D ,F0423D F0493D L0406D L0426D L0446D Z0466D L0483D N0005D N0010D N0024D N0029D N0036D P0407D P0427D P0447D P0467D P0483D P0488D P1003D T0498D T0499D V0324D Y0004D Y0005D Y0006D Y0007D Y0026D Y0027D Y0320D Y0321D Y0322D Y0323D Y0324D Y0335D Y0335D Y0337D Y0390D Y0391D Y0392D Y0393D Y0394D Y0400D Y0401D Y0420D Y0421D Y0440D Y0441D Y0460D Y0461D Y0480D Y0920D Y0921D 12 PMP 4021.TRP.001 APPENDIX A DRESSES TPS129)I SEQUENCE'OF EVENT AD (Reference P250 Manual RCZ LO F ABOVE P-8 CAUS RE RCL LO F ABOVE P-7 CAUS REF STM LINE HI F SI CAUS RE STM GEN A ZO ZO Z CAUS RE STM GEN B LO LO L CAUS RE STM GEN C ZO ZO L CAUS RE STM GEN D LO LO L CAUS RE PRESSURIZER HI 1 CAUS RE PWR RNG CHAN HI Q CAUS RE PWR RNG CHAN ZO Q CAUS RE INTERM RNG HI Q CAUS RE PWR RNG CHAN HI Q RATE CAUS RE SOURCE RNG HI Q CAUSE RE STM LINE A HI DP SI CAUS RE STM LINE B HI DP SI CAUS RE STM LINE C HI DP SI CAUS RE STM LINE D HI DP SI CAUS RE PRESSURIZER HI P CAUS RE PRESSURIZER LO P CAUS RE CONTAINM HI P SI CAUS RE RCL OVERTEMP DI CAUS RE RCL OVERPWR DT CAUS RE RCP BUS UNDER VOZT GP7 CAUSE RE REAC MANUAL TR 1 CAUS RE REAC MANUAL TR 2 CAUS RE REAC MAIN TR'KR A REAC MAIN TR BKR B REAC AUX TR BKR A REAC AUX TR BKR B RCP BUS UNDER FREQ PART RE RCP, BUS UNDER FREQ PART RE RCP BUS UNDER FREQ PART RE RCP BUS,UNDER FREQ PART RE RCP BUS UNDER FREQ CAUS RE UNIT ON LINE TIE OCB A1 BKR UNIT ON LINE TIE OCB A2 BKR UNIT ON LINE TIE OCB Bl BKR TB TRIP CAUSE RE.TB STOP VLV A CI PART RE TB STOP VLV B CI PART RE TB STOP VLV C CI PART RE TB STOP VLV D CI PART RE RCPA BKR OP CAUS RE STM GEN A ZO L S(FW F CAUS RE RCPB BKR OP CAUS RE STM GEN B LO L&FW F CAUS RE RCPC BKR OP CAUS RE STM GEN C LO L Sc FW F CAUS RE RCPD BKR OP CAUS RE STM GEN D LO L 6 FW F CAUS RE PRESUZER LO P&L SI CAUS RE SFTY INJ SET i~AL 1 CAUS RE SFTY INJ SET MANUAL 2 CAUS RE Page 25 o f 40 Rev.0 12 PMP 4021.TRP.001 APPENDIX A SHE'LE SEQUENCE OF EVENTS OUTPUT Page 26 of 40 Rev.0 j~0257 ALARtl III T04iUA 0257 RETRH OR 10430A AI RI'.LB 0257 kf 1ktt OR 104boA Al RCLC 0257 RErRH OR T0470A AI RCLO 0257 ALARtl LO T0400A AI RCLA OVEICTEIIP DT I SP OVERTENP DT 1 SP 159'OVLRILIIP DT 1 SP 164.i.OVERTEIIP Ol'SP 160.3 Al RCLA I TAVG 178 DEGF DEGF OEGF 546 7 L 552 0 DEGF 5 H i52 0 DEGF 0257 SEGUEHCE OF EVENTS RECORD.D25/ALARtl LO T0420A Y03900 18 TRIP CAUSE PE 02bB RE1RH LO 80340A Al UHI1 0258 ALARtl HI 10450A Y00070 REAC tlAlN 1R BKR 8 FIRST EVENT Ar H 2 tl56 S40 AI RCLB i TAVG TR C 0 GEHEkA10k GROSS flit 3.0 AI RCLC OVERTEtlP DT i 8P 1R.C 4 b47 L-2.0 NM ib2 5 L 553 0 4 H i52 0 DEGF DEGF 02b8 ALAT<tt LO TU44UA Al RCLC i 1 A 02bB ALARtl HI UU400 CV RCLA OVERPWR SP DEV FR Y0006D REAC flAIH 1R Btlk A 1R C 5 0258 ALARM LO TU460A AI RCLD 1 TAVG H00290 PIIR RHG CNAH NI 0 RATE CAUS Rf TR C 21 02b8 ALAI(tt tll U0448 CV RCLC OVFRI WR SP DEV FR 0258 ALARtt tII U0468 CV RCLD OVERPWR SP DEV FR Y03'920 18 S1OP VLV B CL PART kE TR C 28 5 COPIPUTED i04 6 L 552 0 2 H 6 0 5 2 L 552 0 7'6 0 H 6 0 COtIPUTED i04 COtIPUTED i04~DEGF PC DEGF PC PC 02bB ALARM tll T04/OA Al RCLD OVERTEtIP DT i SP 0258 ALARtl LO P0142A AI CHARG PtlP DISCH HDR P Y0394D 1B S1OP VLV 0 CL f'AkT RE 1R C 28 0258 DELTA FLUX PROGRAfl IH LOM POllER CU'TOFF IIOOE Y0393D 18 S1OP VLV C CI.PART RE 1R C 30 Y03910 TB STOP VLV A CL PARr RE ibU i 2i65 0 H i5D 0 L 2200 0 DEGF PSIG 1R C 226 TR C 257 TR C 266 OVERPWR SP DEV FR COPIPUTED TR C 271 Tk C 272 OVERTEtIP DT i SP TR C 278 1R C 278 I'R C 307 1R, C 307 Y0441D Sift GEN C LO L 6 lit f CAUS RE L0426D STII GEH 8 LO LO L CAUS RE f'0488D f'RESSURIZER LO P CAUS RE 0259 ALARtl tlI UU428 CV RCLB L04060 STII GEH A LO LO L CAUS RE 10466D S1tl GEH D LO LO L CAUS RE 0259 INCR HI T0470A Al ICCLD L0446D Srtl GEH C LO LO L CAUS RE T042ID Sltl GLH 8 LO L 6 fM F CAUS kf Y04010 Slfl GEN A LO L 6 FM F CAUS RE YD461D S1tl GEk 0 LO L 6 fM f CAUS RE o3oo 2/18/1984 Dc cOOK Uklr 2 Y0461D Sltl GEH 0 LO L 6 fM f CAUS kf Y04610 Sln GEH O t.o L 6 FN F CAUS RE Y0421D Sltl GEH 8 LO L 6 FN f CAUS RE Y04010 srtt GEH A Lo L 6 Flt F cAUs Rf 0300 ALARtt HI 1'0430A AI RCLB Y0461D Srft GEH 0 LO L 6 FM F CAUS RE'104410 S1tl BEN C LO L 6 fit F CAUS kE Po/IBBD PRESSURIZER LO P CAUS RE 0301 INCR Hl T0430A Al RCLB Y0336D UNIT OH LIHE TIE OCB A2 BKR 1033bD UNIT OH LIHE'llf OCB A1 BKR 03ol fuo sfGUEHcE oF EVEHrs RfcORo NT 1R C 317~TR C 323 HT 1k C 660 Hl'R C 666 OVERTEtlP DT i SP Nr TR C 679 kl 1R C 746 HT TR C 1082 OVERTEPIP DT i SP OP C 1476 OP C 1476 0301 SLOULNCL OF f VENTS kfcoko.flkST EVEHT AT N 2 IIN S31 Y03900 TB rRIP CAUSE RE NT TR C 0 104410 Sift Gl.k C LO L 6 fM f CAUS Rf 1R C 1811 Y0441D Srft GEH C LO L 6 Flf F CAUS RE Hr TR C 2250 0301 LHD SLOUI.HCE OF EVEIITS kfcokD 0303 AHALOG TREHO-OE'Vlcf 2 8'TOPPEO i06 0 H 6 0 PC i50 6 H i50 0 DEGF i52 0 I i52 0 DEGF ib2 2 I'ib2 0 DEGF Page 27 of 40 Rev.0 12 PMP 4021.TRP.001 APPENDIX A je VI.POST TRIP REVIEW PROGRAM.The Post Trip Review program periodically records a number of pre-selected inputs.These inputs are stored on a disc in a circular buffer, with newer sets of data replacing the older sets.When a trip occurs, either automatically (Post Trip)or manually (Test Trip), the pre trip data being entered into the circular buffer are frozen and the data are thereafter stored in (Og ,g a post, trip buffer.When this buffer is filled, both sets of data (pre and post)are printed out on the typewriter..

The parameters monitored are analog in nature.At the present time, they include selected RPI indication (for unit 2 only), steam generator feed water flow and steam flow, steam generator narrow range and wide range level, pressurizer level, pressure'izer livel setpoint, source range detector output, intermediate range detector output, power range detector output, first stage turbine pressure, steam generator pressure, pressurizer pressure, containment pressure, unit gross electrical output, Taverage, delta T power, overtemperature delta T setpoint, overpower delta T setpoint, wide range cold leg temperatures, pressurizer steam temperatures, T-reference, auctioneered delta T, and auctioneered Tavg.These parameters remain as selected by the computor vendor, Westinghouse Electric Corporation, except for certain RPI indications on.Unit 2.The RPI indications were substituted'or the four channels of total power range NIS power in order to obtain data on the anomalous response of RPI H-8 upon trip.The individual power range upper Page 28 of 40 Rev.0 12 PMP 4021.TRP.001 APPENDIX A and lower detector outputs remain in the Post Trip Review output for both units to monitor NIS power range indications.

Eight of the parameters in the previous paragraph are sampled at 2'second intervals 6 seconds before and after the trip.These are total NIS power range power on unit 1 and RPI indications on unit 2, turbine first stage pressure, unit gross electrical output, and auctioneered Taverage.All parameters are sampled at 8 second intervals for 2 minutes before and 3 minutes after the trip.These sampling times remain as set by the computor vendor.The Post Trip Print.program first outputs a start message on the appropriate typewriter.

It then outputs a line of headings for the values which will be printed in columnar form.The headings consist of the six-character name of the point.'he I values are printed below their names starting with the oldest set of data on the first line, the next oldest on the next line and so on until the most, recent pre-trip data are printed.Included in each row of data is a column indicating the time.When all the pre-trip data for this set of points are printed, the message POST TRIP DATA-TRIP TIME KXXX is printed.All the post-trip data for these points are printed in the same ormat,'as described above.After all the post-trip data for these points are finished, the program starts over with another set, of data in the same format: 6 character names, pre-trip values, trip message, and I post-trip values.When all the points have been printed, the program outputs a finished message, unblocks the collection Page 29 of 40 Rev.0  

12 PNP 4021.TRP.001

', APPENDIX A programs, and exits.A sample output is included at the end of this section.)4 Page 30 of 40 Rev.0 (g C0010A C0027A C0029A C0075A F0403A F0404A F0405A F0406A F0423A F0424A F0425A F0426A F0443A F0444A F0445A F0446A F0463A F0464A F0465A F0466A L0400A L0401A Z0402A L0403A L0420A Z0421A L0422A L0423A L0440A L0441A Z 0442A L0443A L0460A L0461A L0462A Z0463A L0480A Z0481A Z0482A L0483A'N0031A N0032A N0035A N0036A N0041A N0042A N0043A N0044A N0045A N0046A N0047A N0048A 12 PMP 4021.TRP.001 APPENDIX A DRESSES N08 (Unit 2 Only)P10 (Unit 2 Only)H08 (Unit 2 Only)(Unit 2 Only)POST TRIP REVIEW AD Cont.Rod Bank B Group 1 Pos Cont.Rod Bank D Group 2 Pos Cont,.Rod Bank D Group 2 Pos SD Rod Bank D Group 1 Pos F10 Stm Gen A Feed Wtr in 1 F Stm Gen A Feed Wtr in 2 F Stm Gen A Stm Out 1 F Stm Gen A Stm Out 2 F Stm Gen.B Feed Wtr in 1 F Stm Gen-B Feed Wtr in 2 F Stm Gen B Stm Out 1 F Stm Gen B Stm Out 2 F Stm Gen C Feed Wtr in 1 F Stm Gen C Feed Wtr in 2 F Stm Gen C Stm Out 1 F Stm Gen C Stm Out 2 F Stm Gen D Feed Wtr in 1 F Stm Gen D Feed Wtr in 2 F Stm Gen D Stm Out 1 F Stm Gen D Stm Out 2 F Stm Gen A Nar Rng 1 L Stm Gen A Nar Rng 2 Z Stm Gen A Nar Rng 3 L Stm Gen A Wide Rng L Stm Gen B Nar Rng 1 L Stm Gen B Nar.Rng 2 L Stm Gen B Nar Rng 3 L Stm Gen B Ride Rng L Stm Gen C Nar.Rag.l L Stm Gen C Nar Rng 2 L Stm Gen C Nar Rng 3 L Stm Gen C Wide Rng L Stm Gen D Nar Rng 1 L Stm Gen D Nar gag 2 L Stm Gen D Nar Rng 3 L Stm Gen D Wide Rng L Pressurizer 1 L Pressurizer 2 L Pressurizer 3 L Pressurizer Lvl Control S.P.Source Rng Detector 1 Log Q Source Rng Detector 2 Log Q Source Rng Detector 1 Log Q Interm Rng Detector 2 Log Q PWR Rng 1 Top Detector Q PWR Rng 1 Bottom Detector Q PWR Rng 2 Top Detector Q PWR Rng 2 Bottom Detector Q PWR Rng 3 Top Detector Q PWR Rng 3 Bottom Detector Q PWR Rng 4 Top Detector Q PWR Rng 4 Bottom Detector Q Page 31 of 40 Rev.0 N0049A NOOSOA N0051A N0052A.P0398A P0399A P0400A P0401A P0402A P0420A P0421A P0422A P0440A P 0441'A P0442A P0460A P0461A P0462A P0480A P0481A P0482A P0483A P1000A P1001A P1002A P1003A Q0340A T0400A T0403A T0406A T0407A T0410A T0420A T0423A T0426A T0427A T0430A T0440A T0443A T0446A T0447A T0450A T0460A T0463A T0466A T0467A RCL Overpwr DT 1 SP RCL A Overtemperature hT RCL B 1 T-Avg.RCL B 1 DT RCL B Cold T RCL B Overpwr DT 1 SP RCL B Overtemp DT 1 SP RCL C 1 T-Avg.RCL C 1 DT RCL C Cold T RCL C Overpwr DT 1 SP RCL C Overtemp DT 1 SP RCL D 1 T-Avg.RCL D 1 DT RCL D Cold T RCL D Overpwr DT 1 SP Setpoint 12 PMP 4021.TRP.001 APPENDIX A POST TRIP REVIEW ADDRESSES PWR Rng Channel 1 Q (Unzt 1 Only)PWR Rng Channel 2 Q (Unit 1 Only)PWR Rng Channel 3 Q (Unit 1 Only)PWR Rng Channel 4 Q (Unit 1 Only)Tb First Stage 1 P Tb First Stage 2 P Stm Gen A Stm Out 1 P Stm Gen A Stm Out 2 P Stm Gen A Stm Out, 3 P Stm Gen B Stm Out 1 P Stm Gen B Stm Out 2 P Stm Gen B Stm Out.3 P Stm Gen C Stm Out 1 P Stm Gen C Stm Out, 2 P Stm Gen C Stm Out 3 P Stm Gen D Stm Out 1 P Stm Gen D Stm Out 2 P Stm Gen D Stm Out 3 P Pressurizer 1 P Pressurizer 2 P Pressurizer 3 P Pressurizer 4 P Containment 1 P Containment 2 P Containment.

3 P Containment 4'Unit Generator Gross RCL A 1 T-Avg.RCL A 1 DT RCL A 1 Cold T Pressurizer Stm T RC T-Ref.RCL Auct.DT T0481A T0496A T0497A T0470A RCL D Overpwr DT 1 SP T0499A RCI Auct.T-Avg.Page 32 of 40 Rev.0  

~~+~r'~4'aC J: "Q~>~ca~~<'~e)l}ig'wN~(y~+~j~+~w~~PrWa i fbi'(~~~gdw~&a~kw(~k~d W{Q+',S~~<u~+r~g~V~i~fWSQ~

I 12 PMP 4021.TRP,.001 APPENDIX A SAMPLE POST TRIP REVIEW OUTPUT (+, Page 33 of 40 Rev.0  

nr 8 8 n 0'i2.6 57.8 53.0 53'53.6;t3.7 ti3.9 Ste.9 54.2 ft4, 3 54.6 S OO;IA n.n 8.0 n.n o.o 8.1 o.o n.n o.o 0.0 o.o n,n o.o n,n 0.0 n.n 0.0 T-TR(P 0.0 0.8 o.o n.n 0.0 n.n 0.0 n.n o.o n.n 0.8 n.n o.o I).n O.(I n.n O.(I 0.0 8.0 I), I1 8.0 n.n 8~0 n.n 1 1R)f'OII)8 27I3 10403 rn p08?77 I'08 I 0/77)0272 O?77'i2.1 57.3 52.6 57.9 53.1 53.3'i 3.6 53.6 53.7 ,t3.9.'i4.2 1 ft)f 9 5642.5 5650..'i'ih'in~6 f,t/(lb.,'i I714.5 5//?.b 57'30.6;t738.6 5746.5 ftltt4 5.'i802.5 Sero.?5818.5 St876.f 5834.6 t84?.b nnrn-1 58'1 O.l 5ljlin.5 ft906,5 5'914.5 59/?.6'i938.6;938'i946.6 5/,'i4.:t r..h SO.S 18.5/b.b:34.5 47.5-'in.7 fte.b 186.5 1 14.5 122.6 130.5 138.5 146.6 154.6 68.1 68.1 68.2 68.7 68.3 68.4 68.S 68.4 68.6 68.6 68.7 1048SA 6'i7.S 656.4 6'i7.I 656, 8 656.4 65th, 4 656.8 b'fib.4 656.4 656.4 656.4 6;ib.I 656.8 b,fib.4 6'i6.4 656.8 45.5 45.3 45.1 45.3 45.2 4'i.4 45./45.8 45.9 45.9 T)tlFSO 5647.1'tb't5 5782.8 5711.0'i718.7 5777.S 5734'5/43.0 57'in.8 57;i8.9 5886.I3'814.7 5I323, 0 f'i fl30.9 5839.1 5846.8 R(P fft)E 01584'l 6 fib, 8 656.4 bft6.8 657.9 657.5 656.8 6',i(.8 657.'i 657.1 6'ih.n 657.I 656.4 656.4 656.8 656.4 656.4 6.ftb.8 6S6.4 657'656.8 656.4 656.4 657.1 657.1 58'.t4.9 5982.8 5910.8 591'9.I S977.0 5934.7 5943.1'i950.7 ,t958.9 7.1 14.8 3).O 38.8 47.0'.i4.8 107.9 110'118.8.(26.7 134.8 14:3.1 150.7 15I8.7 45.7 45.5'5.3 45.6 45.6 45.5 45.5 46.0 46.8 46.7 46.1 46.8 46'46.5 46.7 46.6 46.7 46.7 47.1 47.1 47.3 47.3 66.'2 66.3 66.6 66.6 66.7 66.7 hh.o 66.9 67.0 6/.I 67.2 46.2 46.3 46.2 46.3 46.'3 46.5 46.6 46.9 47.1 4/.3 47.4 45.0 4'.i.I 45.3 45.6 4'45.7 45.1 45.8 45.9 46.7 46.5 45.9 46,0 45.9 45.9 45.6 46.0 4h.n 46.7 46.8 46,3 47.0 66.3 bb.?66.3 66.5 66.5 66.7 66.9 66.8 67.n 67,1 67.1.34.4 47.4 in.5 58.4 186.4)14.4 122.4 130.3 138.4 146.4 154.S RFV)f M F n r ooo?n.36.8 A 104/3A 1 tt)ONF ll ROOO4A RO007A ROOISA ROOS?A ROOISA ROOlbn ROO17A ROO19A ROO?4A ROO?SA ROO?bA 0.1 1.7 32.32.5.21.9 l.'i.'9 4~2.11.4.10443A 10463A UO48fi 104OOA T04?OA T0440A'1846(IA 00484 HOO49A N0050A NOO51A n.nno o.ooo O.nnn-O.OOO n.nnn o.ooo n.nnn o.ooo O.nno 0.008 n.ono n.n7o O.O?O n.o?o 0.070 n.n?n O.O?O 8.070 O.O?O n.n/n 0.0/0 0.062-n.nl)8-0.073-n.n23-O.O?3 ,-n.n23*-o.o(ie-O.n23 O.O?3 n.nnl)-o.ooe-n.nn8 Roo?s A Rooos A r oooSA r 007?A 80.0.4 0.2 727.H085'?A USS.0 01169 UIISO 0034OA Page 40 Rev..0 e O of 40

'A i 1 12 PMP 4021.TRP.001 APPENDIX B TRIP DESCRIPTION PROTECTION AND SAFEGUARDS SETPOINTS UNIT 1 SETPOINTS UNIT 2 SETPOINTS 1)Hanual 2)Pwr.Ran e Neutron Flux a)I,ow b)High 3)Pwr.Ran e Flux Rate a)Positive b)Negative 4)Intermediate Ran e Neutron Flux Neutron Flux 6)OTAT 7)OPbT 8)Low PZR.Press lM 10)Hi h PZR Lvl.ll)Loss of Flow Actual N/A 25'/109/5/In 2 sec 5/In 2 sec 25'X (Current E~uival.)(9.6 x 10-amps)9 x 104cps As Per Tech Spec As Per Tech Spec 1872 psig 2378 psig 91'/90/Tech.Spec.N/A=25/~<109$<5'/In R 2 sec$5/In R 2 sec<250/(Current Equival.)<105cps R1865 psig<2385 psig<92/R90/Actual N/A 25'/109/5/In 2 sec 5/In 2 sec 25'X (Current E~uival.)(8.1 x 10-amps)9 x 104cps As Per Tech Spec As Per Tech Spec 1966 psig 2378 psig 91$93%Tech.Spec.N/A$25/<109/$5/'In 8 2 sec<5/In R 2 sec<25/(Current Eq'nival.)

<105cps R1950 psig<2385 psig$92/>90%Page 1 of 2 Rev.0 VA 12 PMP 4021.TRP.001 APPENDIX 8 PROTECTION AND SAFEGUARDS SETPOINTS TRIP DESCRIPTION 12)S/G Wtr.Ivl.Low-Low Actual 17/(N.R.)UNIT I SETPOINTS Tech.Spec.~17/(N.Q.)

Actual 21/(N.R.)UNIT 2 SETPOINTS Tech.Spec.>21/o(N.R.)

13)Stm./Feed Flow Hismatch W/I,ow S/G'Wtr Ivl 0.6 x 10spph Coincident with 26/(N.R.)<0.71 x 10 pph Coincident with R25$(N.R.)0.6 x 10pph Coincident with 26/(N.R.)$1.47 x 10spph Coincident with R25/(N.R.)14)RCP Undervolta e 15)RCP Underfre uenc 58.2 HZ R57.5 HZ 3150 Volts R2750 Volts 3150 Volts 58.2 HZ>2905 Volts>57.5 HZ 16)RCP Bkr.Position 1/4 Open Bkrs Above P-8 NA 2/4 Open Bkrs Between P-7 6 P-8 1/4 Open Bkrs.Above NA P-8, 2/4 Open Bkrs.between P-7 6 P-8 17)Turbine Tri a I.ow Sys.Press.b)Stop Vlv.Position 18)Safet In'ection a)Hanual b)High Containment Press c)Low PZR Press.d)High Stm.Line Diff.Press.e)High Stm.Line Flow Coincident with Lo-Lo Tavg or Low Stm.Line Press.800 psig 1/open NA 1.1 psig 1837 psig 100 psid 1.42 x 10s pph for 0+20/Pwr.Ramped to 3.88 x 10 pph at 100/541 oF 600 psig>800 psig>1/open NA<l.l.psig>1815 psig Q,00 psid<1.42'x 10 pph for 0+20/Pwr.Ramped to 3.88 x 106 pph at 100/R541oF 2600 psig 62 psig 1'j, open NA 1.1 psig 1908 psig 100 psid NA NA 600 psig R58 psig>1/open NA<1.1 psig>1900 psig<100 psid NA NA R600 psig Page 2 of 2 Rev.0 tHFQPEAATI(QM 6>&#xb9;~i' ATTACHMENT II 2.2 Equipment Classification and Vendor Interface (Programs for All Safety-Related Coaponents) 2.2.1 E ui ment Classification 2.2.1.1 Criteria The criteria for classifying-the components of the D.C.Cook Plant were described in Section 2.1, attachment to letter AEP:NRC:0830A, M.P.Alexich to Darrel G.Eisenhut, dated'November 4, 1983.These criteria were used to classify all coayonents, not just the Reactor Trip System components.

2.2.1.2 Information Handling System P Safety-related components (with known exceptions) are entered in a computerized list known as the N-List.Structural items and piping are entered as a single line item.Electrical items such as relays, switchesp conduit, fittings, and trays also are covered by single line items.Since the N-List is not all inclusive and does not individually list such items as pipe spool pi.eces, switches and relays, other documents such as the PSAR, technical specifications, related communications to the NRC, flow diagrams, electrical elementary and one-line diagrams and purchase specifications are also consulted.For example, the boundaries of each pipe specification are shown on the flow diagrams.The control of the N-List, including updating and maintenance, is set forth in corporate level general procedures.

If any one within AEPSC or the plant is unsure of the classification of a component, he is required by procedure to check with the responsible AEPSC cognizant engineer.Drawings are controlled by general procedures and design procedures of the cognizant engineering groups.The D.C.Cook Plant equipment specifications are the documents which were used in specifying the procurement, fabrication, installation and (in some cases)repair of systems or equipment.

The specifications were prepared during the construction phase of the plant and supplemented as required.Control of the speci.fications, including updating and maintenance is set forth in corporate level general procedures.

II Since this information system is cumbersome to use, we plan to transfer the required information to a new computerized component clas sif ication record.This will provide for uniform identification and description of plant components in a single docuaent.

Until the new information system is in place and operational, we will continue to review and update the existing system as required and conduct refresher training for appropriate plant staff.The new system is described in Section 2.2.1.6.2.2.1.3 Plant Use Under the present system of work control, a job order is prepared for all repair and modification work performed at the plant.During the job order preparation process, the safety classification of the equipment, as well as procedures required to perform the work, are entered on the job order form.The same reference documents are used to assure that properly certified replacement parts are used when required.Plant procedures control the ordering of replacement parts.Following completion of every repair and modification, the job orders undergo a review process by experienced and knowledgeable supervisory personnel.

This review process provides verification that the information handling system is being used on a routine basis.Particuiar attention is given to safety related job orders to verify that proper procedures were used and that properly certified replacement parts were installed where required.2.2.1.4 Management Controls The activities described above for work control process are addressed in various plant instructions and procedures.

The Quality Assurance Department performs audits of activities covered by the plant instructions and procedures and notifies appropriate plant management of any deficiencies noted.Thus, the audit program provides additional verification of the routine utilization of the information handling sys tern.2.2.1.5 We are currently engaged in the completion of the qualification of components of safety related systems located in harsh enviroauents associated with IE Bulletin 79%1B.This program includes consideration of aging of these devices.Rule 10 CFR 50.49 requires that replacement components for safety related systems meet the conditions of IEEE 323-1974 which includes aging requirements.

Specif ic criteria for exemptions are provided by Rule 10 CFR 50.49.

Our current specifications used to procure new or replacement components identify normal and accident service conditions or reference applicable codes~Qualification testing and performance evaluation is required for harsh environments and test reports of this qualification testing are required to meet the conditions of the specifications.

Prior to future-use-for procurement, each specification subject to the requirements of 10 CPR 50.49 will be revised to include the'requirements'hat the vendor establish service life by test or performance evaluation=and require the vendor to supply documentation in support of the service life qualif ication.New Classif ication Program We plan to implement a new.computerized component classification record which vill list all plant components, their safety classification and their procurement and QA requirements.

Crossmeferences to drawings and relevant plant and corporate procedures will ensure that the safety role of a component is kept in focus whenever a component is taken out of service, bought, maintained, replaced or returned to service.The job control classification will rely on the record.We recognize the need to address the issue of"important to safety" and to tie it to specific components and their applications.

This subject is being actively debated within the industry and is the subject of Mr.Darrel Eisenhut s Generic Letter 84&1 dated January 5, 1984.At the present time, however, the definition of the scope of the term"important to safety" has not been established; we do not have formal criteria to allow classification on a component by component basis.We are planning our new component classification record to accommodate such classifications.

As additional requirements are developed for the"important to safety" classified equipment these will be reviewed and, if appropriate, incorporated into the program.We are starting work on our new data>>base projects We currently expect to have the new system in place before the end of 1986.

3.2 POST MAINTENANCE TESTING (ALL OTHER SAFETY-REIATED COMPONENTS) 3.2.1 We have reviewed our plant testing and maintenance procedures which cover safety related components and have determined that post maintenance testing is included.We are conducting reviews to verify that the testing specified is adequate to demonstrate that the equipment is capable of performing its safety function.This review is expected to be completed by March 31, 1985.Plant tagout procedures require that operability is demonstrated prior to returning the component or system to service.Components within the tagouts boundary are reviewed for operability verification.

Plant procedures governing job orders require adequate testing upon completion of the job.The testing performed by the department completing the work has to be entered on the job order.When a change is made to a plant structure, system, or component, the request for change (RFC)package is reviewed by the design change coordinator.

RFC installations are normally required to be tested to verify operability.

If such a test is not to be performed, the Lead Engineer has to document the justification for the exception.

Operability testing which is complex is performed by using an approved procedure.

The D.C.Cook Nuclear Plant technical specifications are the standardized format.However, they do not specifically require that post~aintenance testing be conducted before returning a system or component to service (i.e., declared operable).

Specified surveillance test(s)(operability denenstration) are required prior to entry into an operational mode.In addition, when the plant is in a condition that requires entry into a"Technical Specification Action Statement", the relevant plant tagout, job order and change control procedures are activated.

This ensures that the operability of all safety related components is verified before they are returned to service.The plant can then be considered to be out of the Action Statement condition.

3.2.2 We have canmenced a review of the plant maintenance procedures.

The check for vendor and engineering recommendations to determine that appropriate test guidance is included will be included in the review.In addition, a separate review is being made of the technical bulletins for the Westinghouse supplied NSSS safety related equipment as defined by the Westinghouse bulletin.This same review will be made on other safetymelated device bulletins as they are'eceived (including previously issued bulletins) under the program described by Section 2.2.2.In conjunction with our VDCS, we will give you a status report on the results of our review by December 31, 1985.

ATTAQRENT III 2.2.2 The following description expands our November 4, 1983 letter AEP:NRC:0838, Vendor Document Control System and provides an implements t ion schedule General Zn order to ensure that vendor information for safetymelated components is complete, current, and controlled throughout the life of the D.C.Cook Nuclear Plant, a"Vendor Document Control System" (VDCS)has been developed and is in the initial stages of implementation.

The VDCS is comprised of a corporate level general procedure and associated review documentation forms, and is designed to track Vendor Technical Documents (VTD s)from their receipt to final disposition and filing, utilizing positive feedback at each stage to guarantee receipt and on-schedule review.To assure implementation of and adherence to the VDCS, the AEPSC Quality Assurance section has.been assigned the responsibility for monitoring and auditing the general procedure.

VDCS Ob'ectives Prior to the detailed development of the VDCS, it was essential that program objectives be well defined.The resulting objectives were realistic, achievable, and addressed the intent of Generic Letter 83-28, Section 2.2.2.These objectives and the manner in which they were addressed are described as follows: 1.Centralization of Responsibility for VTD s Because the vendors use such diverse methods for trananitting VTD s to AEP, the assigning to one central group the responsibility for receiving, classifying, and determining distribution for all VTD s was a prime requirement.

The Nuclear Operations Section (NOS)within the AEPSC Nuclear Engineering Division has been assigned this responsibility.

All VTD s pertaining to D.C.Cook Plant, regardless of their points of arrival within the AEP System, will be forwarded to the NOS for initial processing.

2.Traceability of all VTD s The ability to trace and locate a VTD, not only during the initial review process but at any time during the life of the plant, will be achieved through the assignment of unique processing and filing numbers.Upon receipt, the NOS will assign to each VTD a unique processing number.This number will be retained from initial sorting through final disposition and filing.During the review of the VTD by the cognizant divisions, all VDCS forms will be identified with this unique processing number.During the review, if the VTD(s)is determined to be"applicable", it will be assigned a unique control number.A"Controlled Document" stamp will be affixed to the VTD, and the control number printed thereon.Both the processing number and the control number along with all other pertinent data, will be recorded in the VDCS.This system-(detailed later)will enable the VTD to be located and its status determined.

System to Record and Track VTD Data Because of the large number of VTD s both existing and projected to be received in the future, a computerized tracking system is under development.

This system will enable all VTD s to be tracked at each point of the review process from initial receipt through final disposition and filing.All data pertinent to the VTD and the component to which it is applicable will be included.Complete Documentation for all VTD s The documentation required for the receipt, review, and dispositioning of each VTD is prescribed by the VDCS corporate level general procedure.

Each step of the review'process requires the use of a form specifically developed for that step.All forms contain a separate"receipt/acknowledgement" section which aust be completed, signed, and returned to the originator.

The VTD, along with all disposition forms, will be microfilmed and filed at the completion of the review process.Timely Review and Determination of Required Actions The time allotted to the cognizant divisions for review on a VTD is specified by the NOS on the transmittal form attached to the VTD.A annthly review of VDCS items will be conducted by the NOS.The NOS will initiate an"overdue notice" to a cognizant division and/or adjust completion dates when necessary.

All VTD s will be processed through the VDCS.However, if a VTD indicates that immediate action is required, and the processing delay through the VDCS could adversely affect either the health and welfare of the general public or Cook Plant operations, the general procedure permits the required action to be taken without immediate VDCS processing and review.After the actions are completed, the general procedure prescribes that the VTD nmst be processed through the VDCS in the normal manner~Ability to Retain and Retrieve all VTD s and Associated Material Upon completion

'of the review process, the VTD and all associated documentation will be microf ilmed for permanent storage and all pertinent information recorded in the VDCS tracking system.Whenever information is required concerning a VTD, a search of the computerized tracking system can be made.Once the VTD is located, it may be viewed on microfilm and/or reproduced as required.Ensure Receipt and Correct Processing of all VTD s To ensure that all VTD s transmitted to AEP by vendors are received, the VDCS contains provisions for a periodic contact with each safetymelated vendor.Over any given twelve (12)month period, each vendor will be sent a form letter, including a"receipt/acknowledgement" section, with an attachment listing the documents received from the vendor during the previous twelve (12)aonth period.If this listing is correct, the vendor will be requested to sign and return the document.If documents are missing, the vendor will be requested to so inform AEP and provide copies of all missing documents.

These VTD s, upon receipt, will be processed through the VDCS.Processing of all VTD S includes an evaluation of"applicability" to D;C;Cook Plant."Applicable" VTD s will be automatically processed through the VDCS.However, if a VTD is classified as"not applicable" by the'NOS, it will be automatically sent to a cognizant engineering group for a second evaluation of applicability.

This step reduces the possibility of an"applicable" document being misclassified and not being reviewed and correctly dispositioned

.8.Incorporation of Existing VTD s into System The incorporation of existing VTD s into the new VDCS is underway.Each document will be reviewed and assigned a unique processing number.Each VTD applicable to D.C.Cook Plant will be classified and stamped as a"Controlled Document" and assigned a control number.All pertinent data will be recorded in the VDCS tracking system.NUTAC AEP actively participated in the Nuclear Utility Task Action Canmittee (NUZAC)on NRC Generic Letter 83-28, Section 2.2.2-Vendor Interface.

While AEP is in general agreement with the NUXAC recommendations (transmitted to the NRC by E.Grif fing, NUZAC Chairman), we have modified the program slightly to meet our specific requirements.

VDCS Current Status and Im lementation Schedule Subsequent to the receipt of Generic Letter 83-28, an intense effort has been underway within AEP to develop and implement a program to address the document control concerns contained therein.AEP is canmitted to the successful and on-schedule implementation of the VDCS.The following schedule is contingent upon the objective previously defined remaining unchanged through the targeted completion dates.Additional regulatory requirements or unforeseeable difficulties arising from the full-scale implementation of the VDCS general procedure could cause delays.Because the implementation schedule is heavily dependent upon the performance of the vendors, the following are targets dates rather than commitment.

dates.1.VDCS General Procedure The corporate level general procedure and associated documents detailing the handling and review process for all VTD s has been completed and forwarded to AEP senior management for review and approval.Anticipating approval, implementation is proceeding and the VDCS is expected to be operational with the completion of the coayonent classification record described under 2.2.1.6.

2.Reactor Trip System (RTS)Component Vendors All RTS vendors have been contacted, and responses are being evaluated for determination of required actions.As the completion of this activity is almost totally dependent upon a vendor response it is not possible to project a completion date.However, the timeliness of responses is being monitored, and those vendors who are late are being recontacted.

3~Safety-Related Coaponent Vendors AEP is in the process of contacting all suppliers of safety-related components and requesting a list of technical documents (VTD s)pertaining to D.C.Cook Plant.Because of the depth of the information which must be gathered and supplied to the vendor for each component, this will be a lengthy undertaking.