ML20125D917

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Simulator 4-Yr Recertification Rept
ML20125D917
Person / Time
Site: Hope Creek PSEG icon.png
Issue date: 12/11/1992
From:
Public Service Enterprise Group
To:
Shared Package
ML20125D907 List:
References
NUDOCS 9212160087
Download: ML20125D917 (41)
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Text

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4-YEAR RECERTIFICATION SIMULATOR REPORT FOR HOPE CREEF. I i

1.0 Purpose l To comply with 10CFR Part 55.45 which states that " simulator facilities submit, every four years on the anniversary of the certification, a report to the Commicolon which identifies any )

uncorrected performance test failures, and submit a schedule for  ;

correction of such performance test failures, if any. In addition, '

this report must include a description of performance testing completed for the simulation facility, and must include a description of the performance tests, if different, to be conducted on the simulation facility during the subsequent four-year period, and a schedule for the conduct of approximately 25 percent of the performance tests per year for the subsequent four years." Although not required, this report does contain a list of exceptions to ANS-3.5-1985 with reason / justification.

2.0 References 2.1 Title 10, Code of Federal Regulations, Part 55, " Operator Licenses", Section 45 (b) ( 5) (ii) 2.2 U.S. Nuclear Regulatory Guide 1.149 " Nuclear Power Plant Simulation Facilities for use in Operator License Examinations", April 1987 2.3 ANSI /ANS-3.5-1985: Nuclear Power Plant Simulators for Use in Operator Training O 2.4 Hope Creek Simulator Procedure No. 206, Rev. #5, ANS. 3-5 Validation 3.0 Definitions 3.1 " Performance Test Procedures" -

(PTPs) are test procedures used to test and validate those malfunctions and transients that have been selected to meet the requirements addressed in Section 3.1.2 and Appendix B of ANS-3.5-1985.

3.2 " Malfunction Test Procedures" -

(MTPs) are test procedures used ta test and validate all simulator malfunctions and other plant transients not listed via Performance Test Procedures.

3.3 " Partial Tests" are performance tests which evaluate modifications of a simulated system or component in response to a design change or operator feedback which primarily impact the affected system and not significantly alter the performance of the simulator as a whole.

3.4 " Exceptions to the Standard" will be those commitments identified in ANS-3.5-1985 which cannot be fully met.

O 9212160007 921211 PDR ADOCK 05000354 V PDR

4.0 Rec 0rtificction Report 4.1 10CFR Part 55.45, concerning recortification of simulators,

(~' can be broken down into four (4) basic requirements. A reply to each requirement will follow.

4.2 Requirement 1 - "A report to the Commission which identifies any uncorrected performance test failures and-a schedule for correction of such performance test failures, if any."

4.2.1 Reply to Requirement 1 To date, no performance test has failed. All tests that were scheduled (25%/ year) have been ccmpleted.

4.3 Requirement 2 -

"A description of performance testing completed for the simulation facility."

4.3.1 Reply to Requirement 2 A total of 905 tests have been performed on the Hope Creek Simulator since January 1, 1989. The tests performed can be broken down into the following:

Malfunction Test Procedures (MTP): 563 tests Performance Test Procedures (PTP) : 141 tests Surveillance Tests: 56 tests Partial Tests (1989): 52 tests Partial Tests (1990): 31 tests

() Partial Tests (1991): 35 tests Partial Tests (1992): 27 tests For a further breakdown of number of times that an MTP/PTP was performed for each simulator malfunction used for training, refer to enclosed MTP/PTP Database (Attachment 1).

Total number of Man-Hours spent for ANS 3.5 testing was approximately 9,710 hours0.00822 days <br />0.197 hours <br />0.00117 weeks <br />2.70155e-4 months <br />.-

4.4 Requirement 3 -

"A description of the performance tests, if different, to be conducted on the simulation facility during '

the subsequent four-year period."

4.4.1 Reply to Requirement 3 A basic description of each Malfunction / Performance Test Procedure to be performed during the next four years is- enclosed in the MTP/PTP Database (Attachment 1).

4.5 Requirement 4 "A schedulo for the conduct of approximately.

25% (per year) of the performance tests for the subsequent four years." ,

4.5.1 Reply to Requirement 4 ,

For the subsequent 4 years, the number of Perfor -

mance Tests have been-increased to expand the scope of testing for Sections 3.1.1 and 3.1.2 of ANSI /ANS-3.5-1985. Refer to Attachment 2 for details. In addition on Attachment 2 is a breakdown '

showing which Performance Tests (PTPs) apply to Sec-tion 3.1.1 (Normal Plant Evolutions), Section 3.1.2 (Plant Malfunctions) and Appendix B (Simulator Operability Tests) of ANSI /ANS-3.5-1985.

A schedule of all Malfunction / Performance Test Procedures to be performed during the next four years is enclosed in the MTP/PTP Database 4 (Attachment 1).

5.0 Exceptions to ANS-3.5-1985 5.1 Degree of Panel Simulation and Controls on Panels 5.1.1 Justification Differences between Reference Plant Control Room and Simulator Control Room are noted in Appendix 1 of O SP-206 (Attachment 3). It should be noted that physical differences are reviewed continuously for impact. In addition, physical differences are reviewed annually with the Training Department and Operations Department with differences prioritized for implementation.

5.2 Communication Equipment 5.2.1 Justification ,

Radio Network is in working order for EP Drills, but is not functional for normal training -

Will be functional for normal training usage by start of 3rd-Quarter-of Operator Requalification Program - 1993.

5.3- Recording of Transient Parameters 5.3.1 Justification In accordance with Appendix'B, Simulator Operability

  • Tests, from attachment to ANSI /ANS-3.5-1985, one of-the transient parameters to be recorded is " Turbine l Steam Flow". At .the Plant and Simulator, this parameter is not indicated either on-Control Room ~

indications or from the- CRIDS Display. As ' such,

" Turbine 1st Stage Pressure" is used as a recorded substituto parameter which would change in value as Turbine Steam Flow changes.

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Page No. 1 11/18/92 HOPE CREEK SIMULATOR O- MALFUNCTION TEST PROCEDURES (MTP) &  !'

PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACHMENT 1 TIMES TEST WHEN PERFORMED NUMBER TES7' DESCRIPTION DUE LAST 4 YR MTP-AD01 FAILURE OF ADS VALVES TO OPEN 1994 03 PTP-AD02 SAFETY RELIEF VALVE FAILURE 1994 03 MTP-AD03 ADS / RELIEF VLV LEAKS 1995 03 MTP-AD04 ADS / RELIEF VALVE TEMPERATURE FAILURE (V) 1996 03 '

MTP-ADOS FAILURE OF LOW-LOW SET TO ARM 1996 03 MTP-AN CRY WOLF 1993 02 MTP-CC01 CRIDS COMPUTER FAILURE 1994 02 PTP-CD01 CONTROL ROD DRIFTS IN 1995 04 MTP-CD02 CONTROL ROD DRIFTS OUT 1995 03 O PTP-CD03 STUCK CONTROL ROD 1996 02 PTP-CD04 UNCOUPLED CONTROL ROD 1995 03 MTP-CDOS ACCUMULATOR TROUBLE 1994 03 PTP-CD06 SCRAMMED CONTROL ROD 1995 04 MTP-CD07 CRD DOUBLE REED SWITCH FAILURE 1996 03

p. MTP-CD09 CRD FLOW CONTROLLER FAILURE-(V) 1995 03 MTP-CD10 CRD PUMP FAILURE 1995 03 MTP-CD11 CRD HIGH TEMPERATURE 1993 02 MTP-CD12 4-ROD DISPLAY FAILURE 1994 02 MTP-CD13 STABILIZER VALVE FAILURE 1995 03 MTP-CD15 RPIS FAILURE ON CURRENTLY SELECTED ROD ~1996 03 MTP-CD16 RMC FAILS TO DE-SELECT 1993 02

'MTP-CD17 RMCS TIMER MALFUNCTION 1994 02' MTP-CD18 EXCESSIVE ROD REACTIVITY (V) 1993 04-PTP-CRO1 FUEL-CLADDING LEAK (V) 1993 03-l MTP-CS01 CORE SPRAY-PUMP TRIP 1996 03

. .u - . . _ _ _ _ _ _ _ _ . _ _ _ _ _ . - _ . _ _ - - _ _ _ _ _ __ . _ . _ _ _ _

___._..._________-._.._m -

Pago No. 2 11/18/92 HOPE CREEK SIMULATOR O MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP) i i

DATABASE ATTACl! MENT 1 TIMES TEST WiiEN PERFORMED i NUMBER TEST DESCRIPTION DUE LAST 4 YR i i

MTP-CUO1 RWCU PUMP TRIP 1993 02 MTP-CUO2 RWCU SYSTEM DRAIN VLV (F033) FAILS (V) 1995 02 PTP-CUO3 RWCU SYSTEM LEAK (V) 1995 03 MTP-CUO4 RWCU DEMIN IIIGli DELTA P 1996 02 '

MTP-CUO5 RWCU RESIN DEPLETION 1993 02 MTP-CUO6 RWCU BYPASS VALVE FAILS OPEN 1993 02

! MTP-CUO7 RWCU NRHX TUBE FAILURE (V) 1996 04 MTP-COO 8 RWCU DEMIN INLET 11I TEMP 1994 02 MTP-CUO9 RWCU REuENERATION llX LEAK (V) 1995 02 -

O "re-cu1o awcu vo"e 88^' 't^x 1"ro ax 8'oo 1993 as .

MTP-Cull RWCU VLVS F001 & F004 FAILURE TO AUTO 1994 01 CLOSE '

MTP-CWO1 LOSS OF RECIRC MG FLUID COOLER (V) 1996 01 MTP-CWO2 LOSS OF COOLING WATER TO RECIRC PUMP 1993 03 -

MOTOR MTP-CWO3 LOSS OF RACS TO RECIRC PUMP LUBE OIL 1994 04 MTP-CWO4 LOSS OF COOLING TO RECIRC PUMPS MOTOR 1995 04 AND SEALS PTP-CWO5 LOSS OF SERVICE WATER 1995 01 MTP-CWO6 SSW LEAK AT IIV-2198 (V) 1996 01 MTP-CWO7 FUEL POOL PUNP TRIP 1993 02  ;

PTP-CWOB LOSS OF RACS 1993 03 MTP-CWO9 COMPLETE LOSS OF TACS 1994 01 MTP-CW10 SACS PUMP TRIP 1996 01 MTP-DG01 DIESEL FAILURE TO START 1994 02 PTP-DG02 DIESEL GENERATOR FAILURE 1994 03-MTP-DG03 LOCA SEQUENCER FAILURE TO INITIATE 1996- 03

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Page No. 3 t 11/18/92 ,

HOPE CREEK SIMULATOR O MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACHMENT 1 I

TIMES TEST WilEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR MTP-DG04 LOP SEQUENCER FAILURE TO INITIATE 1993 -04 i

MTP-DG05 LOCA SEQUENCER INADVERTANT INITIATION 1994 01 MTP-DG06 LOP SEQUENCER INADVERTANT INITIATION- 1995 02 MTP-ED01 STATION SERVICE TRANSFORMER FAULT 1995 02 .l MTP-ED02 STATION POWER TRANSFORMER FAILURE 1996 04 MTP-ED03 LOSS OF 7.2KV BUS 10A110 1995 03 MTP-ED04 LOSS OF 7.2KV BUS 10A120 1996 03 MTP-ED05 LOSS OF 10A501 1993 03

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MTP-ED06 LOSS OF 10A502 1994 03

()MTP-ED07 LOSS OF 10A102 1996 03 MTP-ED08 LOSS OF 10A101 1995 03 MTP-ED09Al LOSS OF 120 VAC CLASS 1E INVERTER AD481 1993' 03 MTP-ED09A2 LOSS OF 120 VAC CLASS 1E INVERTER AD482 1993 02 MTP-ED09A3 LOSS OF 120 VAC MISC-INVERTER AD483 1993 .03 MTP-ED09A4 LOSS OF 120 VAC MISC INVERTER AD484 1993 02 MTP-ED09AS LOSS OF 120 VAC BOP COMPUTER AD492 1993 02 MTP-ED09B1 LOSS OF 120 VA2 CLASS 1E INVERTER BD481 1994 03 MTP-ED09B2 LOSS OF 120 VAC CLASS 1E INVERTER BD482 1994 03 MTP-ED09B3 LOSS OF 120 VAC MISC INVERTER-BD483 . 1994 03 MTP-ED09B4 LOSS OF 120 VAC MISC INVERTER BD484 1994 '03 i

MTP-ED09BS LOSS OF 120 VAC BOP COMPUTER BD492 1994 03 l MTP-ED09C1 LOSS OF 120 VAC CLASS 1E INVERTER CD481 1995 03-MTP-ED09C2 LOSS OF 120 VAC CLASS 1E INVERTER CD482 1995 03-

)MTP-ED09C3 LOSS OF 120-VAC MISC INVERTER CD483- 1995 03-MTP-ED09C4 LOSS OF 120 VAC MISC INVERTER CD484 1995 04-

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!! OPE CREEK SIMULATOR O

v MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP) t DATABASE i ATTACHMENT 1 TIMES  !

TEST WHEN PERFORMED i NUMBER TEST DESCRIPTION DUE LAST 4 YR  !

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PTP-ED09D1 LOSS OF 120 VAC CLASS 1E INVERTER DD481 1996 03 MTP-ED09D2 LOSS OF 120 VAC CLASS 1E INVERTER DD482 1996 03 MTP-ED09D3 LOSS OF 120 VAC MISC INVERTER DD483 1996 03 '

4 MTP-ED09D4 LOSS OF 120 VAC MISC INVERTER DD484 1996 03 '

MTP-ED09D5 LOSS OF 120 VAC NSSSS INVERTER 10D485 1993 04 1 MTP-ED10A LOSS OF 250 VDC HPCI MCC 10D251 1994 03 MTP-ED10B LOSS OF 250 VDC RCIC MCC 10D261 1995 03 MTP-ED10C LOSS OF 250 VDC NON-ESSENTIAL MCC 10D170 1996 03 MTP-ED11A LOSS OF 125 VDC CLASS 1E BUS 10D410 1995 03 O err-to11a toss or 12s voc ct^ss 18 aus 1oo42o 1996 os MTP-ED11C1 LOSS OF 125 VDC CLASS 1E BUS 10D430 1993 03 MTP-ED11C2 LOSS OF 125 VDC CLASS 1E BUS 10D436 1994 03 MTP-ED11D1 LOSS OF 125 VDC CLASS 1E BUS 10D440 1995 03 MTP-ED11D2 LOSS OF 125 VDC CLASS 1E BUS 10D446 1996 03 MTP-ED11E LOSS OF 125 VDC NON-ESSENTIAL BUS 10D470 1993 03 MTP-ED11F LOSS OF 125 VDC NON-ESSENTIAL BUS 10D476 1994 03 MTP-ED11G LOSS OF 125 VDC NON-ESSENTIAL BUS 10D480 1995 03 MTP-ED11H LOSS OF 125 VDC NON-ESSENTIAL BUS 10D486 1996 03 MTP-ED12A LOSS OF NON-ESSENTIAL 480V USS 10B110 - 1993 03 MTP-ED12B LOSS OF NON-ESSENTIAL 480V USS 10B120 1994 03 MTP-ED12C LOSS OF NON-ESSENTIAL 480V USS 10B130 1995 03 MTP-ED12D LOSS OF NON-ESSENTIAL 480V USS 10B140 1996 03 MTP-ED12E LOSS OF NON-ESSENTIAL 480V USS 10B250 1993 03 MTP-ED12F LOSS OF NON-ESSENTIAL 480V USS 10B260 -1994 03 MTP-ED12G LOSS OF NON-ESSENTIAL 480V USS 00B500 1995 03

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Pago No. 5 11/18/92 IlOPE CREEK SIMULATOR

.O V MALFUNCTION TEST PROCEDURES (MTP) & t PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACHMENT 1 TIMES  ;

TEST WifEN PERFORMED  !

NUMBER TEST DESCRIPTION DUE LAST 4.YR MTP-ED1211 LOSS OF NON-ESSENTIAL 480V BUS '10B490 1996 03 MTP-ED13A1 LOSS OF ESSENTIAL 480V USS 10B410 1993 04 MTP-ED13A2 LOSS OF ESSENTIAL 480V USS 10B450 1993 03 MTP-ED13B1 LOSS OF ESSENTIAL 480V USS 10B420 1994 03 MTP-ED1382 LOSS OF ESSENTIAL 480V USS 10B460 1994 03 MTP-ED13C1 LOSS OF ESSENTIAL 480V USS 10B430 1995 03 MTP-ED13C2 LOSS OF ESSENTIAL 480V USS 10B470 1995 03 PTP-ED13D1 LOSS OF ESSENTIAL 480V USS 10B440 1996 03 MTP-ED13D2 LOSS OF ESSENTIAL 480V USS 10B480 1996 03-MTP-ED14 LOSS OF 10A401 1993 01 ,

MTP-ED15 LOSS OF 10A402 1994 03 MTP-ED16 LOSS OF 10A403 1995 03 MTP-EDi~ LOSS OF 10A404 1996 03 MTP-ED18 LOSS OF CHANNEL "A" 24 VDC (V) 1993 04 MTP-EG01 MAIN GENERATOR GAS TEMPERATURE LOW 1993 02 MTP-EG02 MAIN GENERATOR CORE MONITOR ALARM 1994 02 MTP-EG03 SEAL OIL PUMP TRIP 1995 01 MTP-EG04 LOSS OF STATOR-WATER COOLING 1994 01 MTP-EGOS AUTO VOLTAGE REGULATOR TRIP 1996 02 MTP-EG06 FIELD CURRENT LIMITING DEVICE FAILURE 1993 01 (V)

MTP-EG07 MAIN TRANSFORMER: COOLING SYSTEM FAILURE 1994 02 MTP-EG08 MAIN TRANSFORMER HIGH DIFFERENTIAL 1995 03 CU'RRENT MTP-EG09 LOSS OF ISOPHASE BUS DUCT COOLING FAN 1996 03 MTP-EG10 MAIN GENERATOR DISCONNECT LINK FAILURE 1996 03

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Pago No. 6 11/18/92 HOPE CREEK SIMULATOR O MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP) i DATABASE ATTACHMENT 1 TIMES TEST WHEN PERFORMED  ;

NUMBER TEST DESCRIPTION DUE LAST 4 YR  :

i PTP-EGil MAIN GENERATOR TRIP 1994 03  !

MTP-EG12 LOSS OF ALL GRID CONNECTIONS 1996 03 MTP-EG13 ELECTRICAL NETWORK LOAD LOSS (V) 1993 01 MTP-EG14 LOSS OF ALTEREX EXCITER 1993 01  !

MTP-EG15 MAIN GENERATOR BEARING HIGH VIBRATION 1994 02 MTP-EG16 ALTEREX BEARING VIBRATION HIGH 1995 02 ,

MTP-EG17 GEN HYDROGEN LEAK INTO ISOL PHASE DUCT 1993 03 MTP-FWO1 PRIMARY CONDENSATE PUMP TRIP 1996 01 MTP-FWO2 PRIMARY CONDENSATE PUMP SHAFT SHEAR 1996 03

()HTP-FWO3 LOW PRESSURE HEATER TUBE LEAK (V) 1993 03 MTP-FWO4 SECONDARY CONDENSATE PUMP TRIP 1993 01 PTP-FWO4 TOTAL LOSS OF ALL HIGH PRESSURE 1995 03 FEEDWATER MTP-FWOS SECONDARY CONDENSATE PUMP SEIZURE (V) 1993 02 MTP-FWO6 SECONDARY CONDENSATE PUMP SHAFT SHEAR 1994 03 MTP-FWO7 RFPT SHAFT SHEARS 1995 03 MTP-FWO8 FEED PUMP LOCKED ROTOR 1993 04 MTP-FWO9 FEEDWATER CONTROLLER FAILURE (V) 1994 03 MTP-FW10 RFP SIGNAL FAILURE 1996 02 MTP-FW11 FEEDWATER BYPASS LEVEL CONTROLLER 1993 04 FAILURE (V) j_ MTP-FW12 HIGH _ PRESSURE HEATER TUBE LEAK -(V) 1994 03  !

i L MTP-FW13 STEAM FLOW TOTALIZER FAILURE (V) 1995 01 MTP-FW15 HIGH PRESSURE HEATER LEVEL SENSOR FAIL 1993 03 MTP-FW16 LOW PRESSURE HEATER LEVEL SENSOR FAIL 1994 03 ,

MTP-FW17 HEATER DRAIN COOLER LEVEL FAILURE 1995 03

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Pago No. 7 11/18/92 l HOPE CREEK SIMULATOR O MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACHMENT 1 TIMES TEST WHEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR MTP-FW18 CONDENSATE DEMIN OUT OF SERVICE 1996 03 1

MTP-FW20 CONDENSATE DEMIN RESIN BED DEPLETION 1994 03 MTP-FW21 CST LOW LEVEL 1995 03 ,

MTP-FW22 FEEDWATER HEATER EXTRACTION FAILURE 1996 03 MTP-FW23 FEEDWATER PUMP LUBE OIL SYSTEM LEAK (V) 1993 03 MTP-FW24 FIRE IN RFPT OIL SYSTEM 1994 03 MTP-FW25 FEEDWATER PUMP CONTROLLER FAILURE (V) 1995 01 PTP-FW26 SELECTED RFPT TRIPS 1995 02 PTP-FW26 LOSS OF FEEDWATER FLOW ANNUAL 03

()MTP-FW27 RFPT LOSS OF STEAM SUPPLY (HP ONLY) 1996 03 MTP-FW28 TOTAL FEED FLOW SUMMER FAILURE (V) 1993 04 MTP-FW29 FEEDWATER LEVEL SENSOR FAILURE (V) 1994 03 MTP-FW30 SPURIOUS TRIP OF #2 FEEDWATER HEATER 1995 03 MTP-FW31 FEEDWATER BREAK OUTSIDE CONTAINMENT (BY 1993 01 PCPS)

PTP-FW32 FEEDWATER BREAK INSIDE CONTAINMENT (V) 1993 01 PTP-FW33 FEEDWATER LINE BREAK OUTSIDE CONTAINMENT 1996 01 (V) 1 -.

MTP-HP01 HPCI SYSTEM AUTO START FAILURE 1995 03 MTP-HP02 SUPP POOL LEVEL TRANSMITTER FAILURE HIGH 1996 03 MTP-HP03 HPCI TURBINE TRIP 1993 04 MTP-HPO4 HPCI FAILS TO START 1994 03 MTP-HP05 HPCI JOCKEY PUMP TRIP 1995 03 MTP-HP06E HPCI AUX _ OIL PUMP ELECTRICAL FAILURE 1995 01 PTP-HP06M HPCI AUX OIL PUMP MECHANICAL FAILURE 1994 03 MTP-HP07- HPCI STEAM LINE BREAK INSIDE DRYWELL (V) 1994 01 1 -

Page No. 8 11/18/92 llOPE CREEK SIMULATOR O MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACl! MENT 1 TIMES TEST WiiEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR MTP-i!P08 IIPCI FLOW TRANSMITTER FAILURE (V) 1995 01 MTP-IIV01 CONTROL AREA EQUIPMENT ROOM SUPPLY FAN 1996 03 TRIP MTP-l!V02 CONTROL ROOM SUPPLY FAN TRIP 1993 03 MTP-ilV03 DRYWELL PURGE DAMPER FAILURE (V) 1994 03 MTP-ilV04 LOSS OF COOLING TO D/W COOLING COILS 1993 03 MTP-ilV05 Cl!ILLED WATER COMPRESSOR FAILURE 1994 03 MTP-ilV06 FRVS EXilAUST FAN TRIP 1995 03 MTP-ilV07 FRVS VEllT FAN INLET SUPPLY DAMPER BINDS 1996 03 AS IS ravs ex>i^ust o^"eca n'"os ^s s 1993 o4 O "re-><voa MTP-l!V09 FRVS TRAIN FAILS TO START 1994 03 MTP-IA01 SERVICE AIR COMPRESSOR TRIP 1995 03 PTP-IA02 LOSS OF INSTRUMENT AIR (V) 1994 01 MTP-IA03 LOSS OF DRYWELL INSTRUMENT GAS 1994 03 MTP-IA04 CRD PILOT AIR llEADER LEAK 1994 03 MTP-MC01 TURBINE EXilAUST BELLOWS LEAK (V) 1996 03 PTP-MC01 LOSS OF CONDENSER VACUUM 1993 03 MTP-MCO3 CONDENSER LVL TRANSMITTER SELECTOR 1994 03 FAILURE MTP-MC04 MAIN CONDENSER TUBE RUPTURE (V) 1993 01 MTP-MC05 CONDENSER PRESSURE TRANSMITTER FAILURE 1994 03 MTP-MC06 SJAE STEAM SUPPLY FAILURE 1995 03 MTP-MC07 MECllANICAL VACUUM PUMP FAILURE 1996 03 MTP-MC08 SELECTED CIRC WATER PUMP TRIP 1996 03 MTP-MC09 CIRCULATING WATER llIGli TEMPERATURE 1993 04 MTP-MC10 PLUGGED TUBE SilECT (V) 1994 03

Pago No. 9  ;

11/18/92 '

110PE CREEK SIMULATOR O MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACllMENT 1 TIMES TEST WilEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR MTP-MC11 CIRC WATER PUMP GRADUAL SEIZURE 1995 03 MTP-MC12 COOLING TOWER INADVERENT BYPASSED 1996 03 PTP-MC13 CONDENSER LVL TRANSMITTER LT-1657 1994 03 FAILURE (V)

PTP-MS01 STEAM LINE RUPTURE IN Tile DRYWELL ANNUAL 03 PTP-MS02 STEAM LINE RUPTURE IN Tile TUNNEL 1995 03 E

MTP-MS03 STEAM LEAK IN DRYWELL (V) 1993 03 PTP-MSO4 STEAM LEAK IN TUNNEL (V) 1994 03 PTP-MS05 INSTRUMENT LINE BREAK IN CONTAINMENT 1995 03 MTP-MS06 MSIV INADVERTENT CLOSURE 1994 03 O MTP-MS07 MOISTURE SEPERATOR IIIGil LEVEL 1995 03 MTP-MS08 STEAM FLOW TRANSMITTER N003 FAILS (V) 1996 03 MTP-MSO9 STEAM LINE HEADER PRESSURE TRANSMITTER 1993 04 (v)

MTP-MS10 FIRST STAGE PRESSURE TRANSMITTER FAILURE 1994 03 l

MTP-MS12 TURBINE GLAND SEAL REGULATOR FAILURE 1996 03 l MTP-MS13 STEAM PACKING EXHAUST FAN FAILURE -1993 03 PTP-MS15A GROUP 1 ISOLATION w 1 SRV OPEN, HP ECCS ANNUAL 03' INOP PTP-MS15B CLOSURE OF ALL MSIVS ANNUAL 03 MTP-MS16 STM LINE DRAIN VALVE HV-1026 FAILS OPEN 1994 03.

.MTP-MS18 MAIN STEAM LINE RUPTURE IN THE TURBINE 1995 03-BLDG MTP-NM01 SELECTED SRM INOP 1996 03 MTP-NM02 SELECTED SRM DETECTOR IMPROPER SPEED (V) 1995 02 MTP-NM03 SELECTED SRM DRIVE STUCK 1993 03 PTP-NM04 SRM CHANNEL FAILURE (V)- 1994 03

. . _ _ _ _ _ _ _ _ . _ . _ _ _ _ _ _ _ _ . _ _ _ _ . _ _ . _ . _ _ _ _ _ _ . ~ . - . _ _ . . _ _ _ _

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11/18/92 ilOPE CREEK SIMULATOR MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACHMENT 1 4 t

TIMES TEST WHEN PERFORMED HUMBER TEST DESCRIPTION DUE LAST 4 YR t

MTP-NMOS ROD WITilDRAW NOT BLOCKED BY SPN FAILURE 1996 03 MTP-NM06 SELECTED IRM FAILURE (V) 1996 03 PTP-NM07 SELECTED IRM INOP 1996 01 MTP-NM08 SELECTED IRM DRIVE STUCK 1993 02 MTP-NM09 ROD WITilDRAW NOT BLOCKED BY IRMS 1993 04 .

MTP-NM10 IRM CHANNEL IMPROPER DRIVE SPEED (V) 1994 02 MTP-NM11 APRM CHANNEL INOPERABLE 1995 03 i MTP-NM12 RECIRC LOOP FLOW SUMMER FAILURE 1996 03 '

MTP-NM13 RBM CHANNEL FAILURE-(V) 1993 04 O are-""14 naa en^""z' 'nosta^atz 1994 o1 MTP-NM15 ROD WITHDRAWAL NOT BLOCK BY RBM 1995 03 MTP-NM16 RBP MANUAL BYPASS FAILURE 1996 03 PTP-NM20 SEL ECTED LPRM FAILURE (V) . 1996 03 MTP-NM21 SELECTED APRM CHANNEL FAILURE (V) 1996 03 MTP-OG01 AIR EJECTOR DISCHARGE EXPLOSION- 1996 03 MTP-PC01 LOSS OF CONTAINMENT INTEGRITY 1995 03 MTP-PCO2 D/W RECIRC FAN OUTLET DAMPER FAILS 1996 03-CLOSED l MTP-PC03 DRYWELL PRESSURE TRANSMITTER FAILURE.(V) 1993- 01 MTP-PC04 PRIMARY CONTAINMENT DOWNCOMER FAILURE 1996 03 l MTP-PCO5 SRV "H" TAILPIPE CRACK' 1993 03 i

l MTP-PC06 VARIABLE BREAK IN THE SUPPRESSION POOL 1993 03 (V)

MTP-PC07'- SEISMIC EVENT 1993 02 PTP-PE01 STARTUP-FROM COLD S/D TO RATED POWER -1993. 02 PTP-PE02 REACTOR TRIP WITH RECOVERY TO RATED 1994 02-POWER

- .. - . -, ; - .._;.. , , . .--,-..,,--.--,,--,,u,, -  :. .. - , . ,

Page No. 11 11/18/92 llOPE CREEK SIMULATOR O MALFUNCTION TEST-PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACl! MENT 1 TIMES '

TEST WilEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR PTP-PE03 OPERATIONS FROM HOT STANDBY 1995 02 PTP-PE04 ENTERING SINGLE LOOP OPERATION 1995 02 PTP-PE05 S/D FROM RATED POWER TO COLD S/D 1996 02 PTP-PE06 SI TESTING ON ECCS EQUIPMENT 1996 02 PTP-PR01 POWER RAMP FROM 100% TO 75% TO 100% ANNUAL 03 MTP-RC01 RCIC TURBINE OVERSPEED 1994 03 MTP-RCO2 RCIC AUTO START FAILURE 1995 03 MTP-RCO3 RCIC TURBINE SPEED CONTROLLER FAILURE 1996 03 MTP-RC04 RCIC TURBINE TRIP 1994 03 0 "re-ncos ac1c r'ow Ta^ns" Tren r^une (v) 1993 o4 MTP-RC06 RCIC SYSTEM ISOLATION 1994 03 MTP-RC07 RCIC FLOW CONTROLLER MODE SWITCil FAILURE 1995 03 MTP-RC08 RCIC OIL PUMP MECHANICAL FAILURE 1994 04 MTP-RIiO1 RHR HEAT EXCHANGER TUBE LEAK (V) 1996 03 MTP-R1103 RHR INLET VALVE F047 FAILS CLOSED 1994 03 MTP-RH04- RHR PUMP TRIP 1995 03 l MTP-RHOS RilR LOOP LOW FLOW 1996 03

. MTP-RIIO 7 SUPPRESSSION POOL LEAK VIA RllR PUMP 1994 03 SUCTION MTP-RM01 MSL RADIATION MONITOR FAILURE (V) 1993 -

01 MTP-RM02 CONTROL ROOM RADIATION MONITOR FAILURE 1996 03 PTP-RP01 ATWS WIT!I A SPURIOUS GROUP 1 ISOLATION ANNUAL 03 PTP-RP02 RPS MG SET FAILURE 1995 01 PTP-RP03 SPURIOUS SCRAM ANNUAL 03 MTP-RPO4 FAILURE OF RPS TO SCRAM 1995 01 MTP-RPOS LOSS OF SELECTED RPS SCRAM CHANNEL 1993 02

__. _-_ c _ _._ _c - - - ~ .

Page No. 12 11/18/92 HOPE CREEK SIMULATOR

.fj MALFUNCTION TEST PROCEDURES (MTP) &

v PERFOR6ANCE TEST PROCEDURES (PTP)

DATABASE ATTACHMENT 1 TIMES TEST WHEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR MTP-RP06 PARTIAL ATWS 1993 01 MTP-RP08 TRIP OF RPS EPA BREAKER 1995 01 MTP-RP09 RPS LEVEL FAILURE TO SCRAM 1996 04 MTP-RP10 RPS IRM "C" INOP FAILURE TO SCRAM 1993 04 ,

MTP-RP11 RPS IRM HI-HI FAILURE TO SCRAM 1994 04

- MTP-RP12 RPS APRM "B" INOP FAILURE TO SCRAM 1995 04 MTP-RP13 RPS APRM HI-HI FAILURE TO SCRAM 1996 04 MTP-RR01 RECIRC FLOW CONTROL FAILURE - DECREASING 1996 03 MTP-RR02 RECIRC MG SET FIELD BREAKER TRIP 1996 03

-()MTr-RR03 hL2TRC PUMP SL'CTION PIPE BREAK - 1995 01 PTP-RR03 DBA-LOCA ANNUAL 03 MTP-RR04 RECIRC PUMP INCOMPLETE START SEQUENCE 1993 04 MTP-RR05 RECIRC PUMP INBOARD SEAL FAILURE 1993 01 MTP-RR06 RECIRC PUMP OUTBOARD SEAL FAILURE 1994 03 MTP-RR07 RECIRC PUMP MASTER CONTROLLER FAILS (V) 1994 03 PTP-RROS INDIVIDUAL RECIRC FLOW' CONTROLLER 1995 01 FAILURE MTP-RR09 JET PUMP RISER FAILURE 1994 01 MTP-RR10 RECIRC SYSTEM SPEED FEEDBAJK SIGNAL FAIL 1995 03 PTP-RR11A TRIP OF ONE RECIRC PUMP . ANNUAL 03 PTP-RR11B TRIP OF BOTH RECIRC PUMPS ANNUAL 03 MTP-RR12 RECIRC MG SET VENT FAN ?AILURE 1994 03 MTP-RR13 RECIRC PUMP MOTOR BEARING FAILURE 1993 04 l RECIRC MG SET LUBE OIL PRLSSURE LOW 1994 03

[ } M1;?-RR14 MTP-RR15 RECIRC PUMP MOTOR COOLER LEVEL HIGH 1995 03 MTP-RR16 REACTOR VESSEL HEAD FLANGE INNER SEAL 1996 03 LEAK l-

. . . - . . .- -~ - -- . _ _ _

i Page No. 13

-11/18/92 - .

HOPE CREEK SIMULATOR MALFUNCTION TEST PROCEDURES (MTP) &

1s PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACHMENT 1 TIMES TEST WHEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR MTP-RR17 RECIRC PUMP SEIZURE 1994 o01 MTP-RR18 RECIRC LOOP RUPTURE (DISCHARGE) 1993 01 MTP-RR19 RE' .

' LOW TRANSMITTER FAILURE (V) 1994 03 MTP-RR20 ECCS LEVEL TRANSMITTER FAILURE (LO/HI) 1995 10 3 MTP-RR21 JET PUMP TRANSMITTER FAILURE (V) 1996 03 PTP-RR23 NSSSS LEVEL TRANSMITTER N081 FAILURE (V) 1994 03 MTP-RR24 FUEL ZONE LEVEL INDICATOR FAILS 1995 03 DOWNSCALE MTP-RR25 REACTOR VENT FAILS 1996 03

( ) MTP-RR26 RECIRC PUMP HI VIBRATION 1996 03 MTP-RR27 RECIRC SYS INADVERTENT FULL RUNBACK 1994 01 MTP-RR28 RECIRC SYS INADVERTENT INTERMEDIATE 1995 01 PUNBACK MTP-RR29 P4 CIRC SYS FAILURE OF FULL RUNBACK TO 1994 01 CCCUR ,

MTP-RR30 RECIRC SYS' FAILURE OF INTERMEDIATE 1995' 01 RUNBACK TO OCC.

PTP-RR31 VARIABLE LOCA (V) 1995 01 3 MTP-RR32 REACTOR INSTABILITY (V) -1996 03 MTP-RR33 REACTOR RECIRC PUMP SHAFT BREAK 1993 04 MTP-RR34 RPT BREAKER TRIP 195 01

.MTP-RR35 FAILURE OF RECIRC RPT BREAKERS TO. TRIP 1995 03 MTP-RS01 RWM WITHDRAWAL BLOCK 1993 04 PTP-RS02 INABILITY TO MOVE CONTROL RODS 1993 01 MTP-RZ01- RRCS LEVEL TRANSMITTER (LT-N402) FAILURE 1994 R01 MTP-RZO2 RRCS PRESSURE TRANSMITTER (PT-N403) 1995 02 FAILURE

. - . . -- . - - . - . - - - . .- - - . . . . ~

Pa g o -- No . 14 11/18/92 HOPE CREEK SIMULATOR G MALFUNCTION TEST PROCEDURES (MTP)- &

(/- PERFORMANCE TEST PROCEDURES (PTP) >

DATABASE ATTACHMENT 1 TIMES TEST WHEN PERFORMED NUMBER TEST DESCRIPTION DUE. LAST 4 YR MTP-SL01 SBLC INJECTION PUMP FAILURE 1994 03 MTP-SLO 2 LOSS OF CONTINUITY TO SLC SQUIB VALVE 1995 03-MTP-SLO 3 INADVERTENT INITIATION OF SBLC 1993 02 MTP-TC01 TURBINE BYPASS VALVES FAILURE (V) 1996 01-MTP-TCO2 TURBINE CONTROL VALVE FAILURE (V) 1993 04 .

PTP-TCO3 MAIN TURBINE TRIP 1995 03 PTP-TC03 MAIN TURBINE TRIP W IST STAGE PRESS < ANNUAL 03 30%

MTP-TC04 MAIF *URBINE FAILURE TO TRIP 1994 03 MTP-TCOS T';RElNF IOP VALVE FAILURE (V) 1995 03 O MTP-TC06 I A?: LURE OF MAIN TURBINE AUTOMATIC 1996 03 1 UNBACK MTP-TC07 EHC PUMP TRIP 1995 03 MTP-TC08 EHC PRESSURE REGULATOR OSCILLATIONS 1993 04 MTP-TC09 MAIN TURBINE ACCELERATION FAILS HIGH 1994 03' MTP-TC10 EHC FLUID LEAK (V) 1995 03 MTP-TC11 PRESSURE-REGULATOR FAILURE - LOW (V) 1996 04 PTP-TC11 PhESSURE REGULATOR FAILURE - HIGH (V) 1993 04 MTP-TC12 -EHC PRESSURE REG FAILS TO TRANSFER TO 1996 01 3 BACKUP MTP-TC13 MAIN TURBINE GOVERNOR FAILURE (V) 1993 04-MTP-TC14 MAIN TURBINE STOP VALVE OPEN ONLY PART 1994 03-WAY MTP-TC15 FAILURE OF~TURB-GEN TO TRIP ON REVERSE 1995 01 POWER MTP-TC16 EHC CISCHARGE FILTER PLUGGED (V) 1995 03 MTP-TUO1 MAIN TURBINE HIGH ECCENTRICITY 1995- 03 MTP-TUO2 MAIN TURBINE ROTOR DIFFERENTIAL 1996 03 EXPANSION HI (V)

- ~ - . .-. . - - _ . . . . -- - - . _ _ - - . . - . . - . - . - . ..

L Page No. 15 11/18/92 HOPE CREEK SIMULATOR lp. MALFUNCTION TEST-PROCEDURES (MTP) &

v PERFORMANCE TEST PROCEDURES (PTP)-

DATABASE ATTACHMENT 1 TIMES TEST WHEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR MTP-TUO3 MAIN TURBINE TURNING GEAR MOTOR TRIPS 1993 04 MTP-TUO4 MAIN THRUST BEARING WEAR DETECTOR TRIP 1994 03 MTP-TU0S TURNING GEAR FAILS TO AUTO ENGAGE 1995 03 MTP-TUO6 EXHAUST HOOD SPRAY FAILURE 1996 03 MTP-TUO7 MAIN TURBINE METAL TEMPERATURE HIGH 1993 04 MTP-TUO8 MAIN TURBINE LUBE OIL TEMPERATURE HIGH 1994 03 MTP-TUO9 MAIN TURBINE OIL RESERVOIR LVL TRANS.. 1995 03 l FAILURE (V)

MTP-TU10 MAIN TURBINE LUBE OIL LINE RUPTURE (V) 1996 03

()MTP-TUll MAIN TURBINE LOW BEARING OIL PRESSURE 1993 04 MTP-TU12 TURBINE BEARING HIGH TEMPERATURE (V) 1994 03 MTP-TU13 TURBINE LUBE OIL TANK LOW LEVEL 1995 03-l L MTP-TU14 SHAFT DRIVEN OIL PUMP COUPLING BREAKS 1996 03 MTP-TU15 TURBINE BEARING VIBRATION HIGH 1995 03 MTP-ZZOI LOSS OF 10A103 1993 03 MTP-ZZO2 LOSS OF 10A104 1994 03~

MTP-ZZO3 LOSS OF SSW TO RACS 1994 04 PTP-ZZO4 DROPPED CONTROL ROD 1996 03 PTP-ZZOS. LOSS OF-SHUTDOWN COOLING 1993' 04 MTP-ZZO6 INADVERTENT RHR SHUTDOWN COOLING 1996 o01 OPERATION i

l MTP-ZZO7 LOSS OF FEEDWATER HEATING 1995 03 MTP-ZZO8 ABNORMAL STARTUP OF AN IDLE RECIRC PUMP 1994 03 INADVERTENT HPCI PUMP START 1996 03

{)MTP-ZZO9 MTP-ZZ10 LOSS'OP OPERATING OFF GAS RECOMBINER 1994 03-MTP-ZZ11- NEUTRON MONITORING SHORTING LINKS 1994 ~03 REMOVED

l Page No. 16 11/18/92 HOPE CREEK SIMULATOR O MALFUNCTION TEST PROCEDURES (MTP) &

PERFORMANCE TEST PROCEDURES (PTP)

DATABASE ATTACHMENT 1 TIMES TEST WHEN PERFORMED NUMBER TEST DESCRIPTION DUE LAST 4 YR PTP-ZZ12 IIEAT BALANCE (100%) & DRIFT 'IEST ANNUAL 03 PTP-ZZ13 IIEAT BALANCE (75%) ANNUAL 03 PTP-ZZ14 IIEAT BALANCE (50%) ANNUAL 03 MTP-ZZ15 LOSS OF BOTl! RECIRC PUMP SEALS 1993 03 MTP-ZZ16 CONTINUOUS ROD WITilDRAWAL DURING REACTOR 1995 03 STARTUP MTP-ZZ17 ROD WITHDRAWAL ERROR - AT POWER 1995 04 O

t O

i - - - - - - - - - - - - - -- - - - _ - - - _ - --- - -

LTTACEMENT 2 ANSI 3.5 NOREAL PLANT EVOLUTIONS SECTION 3.1.1 O %x/ (1) Plant startup - cold to hot standby PTP-PE01; Startup From Cold Shutdown to Rated Power (1993)

(2) Nuclear startup from hot standby to rated power PTP-PE01; Startup From Cold Fautdown to hated Power (1993)

(3) Turbine startup and generator synchronization PTP-PE01; Startup From Cold Shutdown to Rated Power (1993)

(4) Reactor trip followed by recovery to rated power PTP-PE02; Reactor Trip Followed by Recovery to Rated Power (1994)

(5) Operations at hot standby PTP-PE03; Operations From Hot Standby (1995)

(6) Load changes PTP-PE01; Startup From Cold Shutdown to Rated Power (1993)

> (7) Startup, shutdown and power operations with less than full

\

reactor coolant flow PTP-PE04; Entering Single Loop Operation (1995)

_-___n------_-------------------------------______---------------

(8) Plant shutdown from rated power to hot standby and cooldown to cold shutdown conditions -

PTP-PE05; Shutdown From Rated Power to Cold Shutdown (1996)

(9) Core performance testing l

I

___------$$$$!$2iUS"I_$"b""S$_1$$$I["S!_S5b[I$$$I1I""S"b[_--_____

- l (10) Operator conducted surveillance testing on safety-related equipment or systems PTP-PE06; Surveillance Testing on Safety Related Equipment (1996)

\

Attachment 2 Page 1 of 7

1 i

I ANSI 3.5 PLANT KALFUNCTIONS BECTION 3.1.2

- (1) (a) Loss of coolant: significant PWR steam generator leaks N/A (1) (b) Loss of coolant: inside and outside primary containment PTP-CUO3; RWCU System Leak (1995)

PTP-FW32; Feedwater Break Inside Containment (1993)

PTP-FW33; Feedwater Line Break Outside Containment (1996)

PTP-MS01; Steam Line Rupture in the Drywell (Annual)

PTP-MSO2; Steam Line Rupture in the Tunnel (1995)

PTP-MSO4; Steam Lc.ak in Tunnel (1994)

PTP-MS05; Instrument Line Break in Containment (1995)

PTP-RR03; DBA - LOCA (Annual)

PTP-RR31; Variable LOCA (1995)

(1) (c) Loss of coolant: large and small reactor coolant breaks including demonstrations of saturation condition PTP-CUO3; RWCU System Leak (1995)

PTP-FW32; Feedwater Break Inside Containment (1993)

PTP-FW33; Feedwater Line Break Outside Containment (1996)

PTP-MS01; Steam Line Rupture in the Drywell (Annual)

PTP-MSO2; Steam Line Rupture in the Tunnel (1995)

PTP-MSO4; Steam Leak in Tunnel (1994)

PTP-MS05; Instrument Line Break in Containment (1995)

O PTP-RR03; DBA - LOCA (Annual)

PTP-RR31; Variable LOCA (1995)

(1) (d) Loss of coolant: failure of safety and relief valves PTP-AD02; Safety Relief Valve Failure (1994)

PTP-MS15A; Group 1 Isolation with 1 SRV Open, High Pressure ECCS Inop (Annual)

(2) Loss of instrument air to the extent that the whole system or individual headers can lose pressure and affect the plant's static or dynamic performance PTP-IA02; Loss of Instrument Air (1994)

(3) Loss or degraded electrical power to the station, including loss of offsite power,. loss of emergency power., loss- of emergency generators, loss of power to the plant's electrical-distribution buses and loss of power to the individual instrumentation buses (AC as well as DC) that-provide power.to control room indication or plant control functions affecting the plant's response PTP-ED11B; Loss of 125 VDC Class 1E Bus 10D420 (1996)

PTP-DG02; Diesel Generator Failure (1994)

PTP-ED09D1; Loss of 120 VAC Class 1E Inverter DD481 (1996)

[

O' PTP-ED13D1; Loss of Bus 10B440 (1996)

PTP-RR03; DBA - LOCA (Annual) l Attachment 2 l Page 2 of 7

l. . _

(4) Loss of forced core coolant flow due to single or_ multiple' pump failure f 'N - PTP-RR11A; Trip of_One Recirc Pump f((_) PTP-RR11B; Trip of Both Reciro Pumps (5) Loss of condenser vacuum including loss of condenser level control PTP-CWO8; Loss of RACS (1993)

PTP-MC01; Loss of Condenser Vacuum (1993)

PTP-MC13; Condenser Lvl Transmitter LT-1657 Failure-(1994)

(6) Loss of service _ water or cooling to individual components PTP-CWOS; Loss of Service Water (1995) ,

(7) Loss of shutdown cooling PTP-ZZO5; Loss of Shutdown Cooling (1993)

(8) Loss of component cooling system or cooling to individual-components PTP-CWO8; Loss of RACS (1993)

(9) Loss of normal feodwater or normal feedwater system failure PTP-FW26; Selected RFPT Trips (1995)

(10) Loss of all feodwater (normal and emergency)

PTP-FWO4; Total Loss of All High Pressure Feedwater (1995)

PTP-MS15A; Group 1 Isolation with 1 SRV Open,-High Pressure

(11) Loss of protective system channel PTP-RP02; RPS M/G Set Failure (1995)

(12) Control rod f ailure _ including stuck rods, uncoupled rods, drifting rods, rod drops, and misaligned rods PTP-CD03; Stuck Control Rod (1996)

PTP-CD04; Uncoupled Control-Rod (1995)

PTP-CD01; Control Rod Drifts In (1995)

PTP-ZZO4; Dropped Control Rod (1996)

PTP Scrammed Control Rod (1995)

______________-CD06; _________________________________________________________

(13) Inability to drive control rods PTP-RS02; Inability to Move Control Rods (1993)-

O Attachment 2 Page 3 of 7

(14) Fuel cladding failure resulting in high-activity in reactor coolant or off gas and the associated high radiation alarms PTP-CR01; Fulo Cladding Leak (1993)

(j'S

\ - ___ .. __________.. ___________________________________________________

(15) Turbine trip PTP-MC01; Loss of Condenser Vacuum (1993)

PTP-TCO3; Main Turbine Trip (1995)

PTP-TCO3B; Main Turbine Trip with 1st Stage Pressure < 30% l (Annual) l (16) Generator trip PTP-EG01; Main Generator Trip (1994) l (17) Failure in automatic control system (s) that affect renctivity and core heat removal i l

PTP-RR08; Individual Recirc Flow Controller Failure (1995) l

_______________________________________________________________________ 1 (18) Failure of reactor coolant pressure and volume control systems (PWR)

N/A (19) Reactor trip PTP-RP03; Spurious Scram (Annual)

) _(___)

20

______ Main steam line as well as main feed line break (both inside mad cutside containment)

PTP-FW32; Feedwater Break Inside Containment'(1993)

PTP-FW33; Feedwater Line Break Outside Containment (1996)

PTP-MS01; Steam Line Rupture in the Drywell (Annual)

PTP-MS02; Steam Lino Rupture in the Tunnel (1995)

PTP-MSO4; Steam Leak in Tunnel (1994)

(21) Nuclear instrumentation failure (s)

PTP-NM04; SRM Channel Failure-(1994)

PTP-NM07; Selected IRM Inop (1996)

PTP-NM20; Selected LPRM Failure (1996)

(22) Process instrumention, alarms, ai.d control system failures PTP-MS05; Instrument Line Break in Containment (1995)

PTP-RR23; NSSSS Level Transmitter N081 Failure (1994)

-(23} Passive malfunctions in systems, such as engineered safety features, emergency feedwater systemr PTP-HP06M; HPCI Aux Oil Pump Mechanical Failure (1994)

/^N PTP-RR23; NSSSS Level Transmitter N081 Failure (1994) i l

l Attachment 2 Page 4 of 7 -

(24) Failure of the automatic reactor trip system PTP-RP01;fATWS with a Spurious Group 1 Isolation (Annual)

I(25) Reactor-pressure control system failure including turbine'

. bypass failure (BWR)

PTP-MS15B; Closure of all MSIVs (Annual)

PTP-TCO3; Main Turbine Trip (1995)

PTP-TCO3; Main Turbine Trip w ist_ Stage Press < 30% (Annual)

PTP-TC11; Pressure Regulator Failure - High (1993)

O 0:

Attachment 2 Page 5 of 7

ANSI 3.5 - APPENDIX B simulator Operability Tests l

TBl.1 Steady State Performance Record the following data at those power levels for which heat balance-data is normally available, or record the data at approximately 25%, 75%, and 100% rated thermal power. Verify simulator stability at 100% rated thermal power for 60 minutes PTP-ZZ12; Heat Balance (100%) & Drift Test (Annual)

PTP-ZZ13; Heat Balance (75%)

PTP-ZZ14; Heat Balance (50%)

Bl.2 Transient Performance (1) Manual Scram PTP-RP03; Spurious Scram (Annual)

(2) Simultaneous trip of all feedwater pumps PTP-FW26; Loss of Feedwater Flow (Annual)

(3) Simultaneous closure of all Main Steam Isolation Valves PTP-MS15B; Closure of all MSIVs (Annual)

(4) Simultaneous trip of all recirculation pumps O PTP-RR11B; Trip of Both Recirc Pumps (Annual)

(5) Single recirculation pump trip PTP-RR11A; Trip of One Recirc Pump (Annual)

(6) Main turbine trip (maximum power level which does not result in immediate reactor scram)

PTP-TC03; Main Turbine Trip with 1st Stage Pressure

< 30% (Annual)

(7) Maximum rate power ramp (master recirculation flow controller in " manual") down to approximately 75% and back up to 100%

PTP-PRO 1; Power Ramp from 100% to 75% to 100% (Annual)

(8) Maximum size reactor coolant system rupture combined with loss of all offsite power PTP-RR03; DBA - LOCA (Annual)

O Attachment 2 Page 6 of 7

(9) Maximum size unisolable main steam line rupture PTP-MS01; Steam Line Rupture in the Drywell (Annual)

(10) Simultaneous closure of all Main Steam Isolation Valves combined with single stuck open safety / relief. (Inhibit activation of high pressure Emergency Core Cooling Systems)

PTP-MS15A; Group 1 Isolation with 1 SRV Open, HP ECCS Inop (Annual)

O O

Attachment 2 Page 7 of 7

SP-206

() HOPE CREEK BIMULATOR Station vs Simulator Hardware Differences Database

'The physical fidelity between the simulator and station control room hardware is reviewed as part of the Annual Review. The arrangement and control room envjronment are evaluated utilizing one or more of the following as determinad by the Simulator Configuration Engineer:

Static Photocraphy: All simulated panels of the control room, are photographed in color with sufficient resolution to determine:

all switch, status light, and annunciator encravinas all component, meter, recorder, and indicator scale craduations, mimics, and labeling all operator aid lamicoid engravings and placement Video Recordina: The entire control room is recorded on videotape to obtain an overall orientation and placement of movable objects /materialc such as tables, bookcases, procedures, etc.

AMdio Recordina: The control room audio environment is recorded to obtain a background " noise" level. All annunciators are individually recorded for volume, tone, and rate characteristics.

The collected data is reviewed and the simulator panel drawings are updated by the Simulator Support Group as required. All differences are identified in the associated Simulator Differences Database and evaluated for training / operator impact and assigned one of the following status codes by the Simulator Performance Engineer:

l N None No confusion or error likely (e.g. type & style of support equipment, minor deviation in dimensions)

S Slight May result in minor disorientation, no error likely (e.g. smoked vs. clear bezel, letter spacing, etc)

M Moderate May result in confusion, recoverable operator error possible (e.g. labeling or scale graduation errors)

L Large May inhibit operator attention / action, non-recoverable operator error possible (e.g.

equipment / control relocation, addition, or removal)

Note: Differences in character " fonts" have been determined to have no impact and therefore will not be listed in this database.

l All data will be entered into a database from which a monthly Simulator Status Report is generated. This report will be used to track progress and aid the Principal Training Supervisor - Simulator Support in material acquisition and work scheduling.

The database is comprised of the following fields:

PHOTO FUMBER/ VIDEO FRAME Reference documenting the hardware differences.

COMPONENT The affected component / device.

Appendix 1 Date: 02/14/92 Page 1 of 3 Rev.: 2

SP-206 EANEL The affected panel where the difference is located.

11EM NUMQEE The simulator designator for the affected component / device, if applicable

~

GROUP NUMBER The bezel group number for the affected component / device, if applicable QATE_QQBX Component group where the difference exists. Possible entries include:

Ahnunciators Controllers Demarcation lines Meters Mimics Operator Aids Recorders Status lights Switches PLANT DEDCRIPTIO.H Brief description of the existing condition of the reference plant.

SlH_ULATOR_ DESCRIPTION Brief description of the existing condition of the Simulator.

DATE IDENTIEEEQ Date the difference was noted.

COMMENTS Amplified information to describe the difference, if O applicable.

IMPECT A certified "SRO" will review the difference (s) between the simulator and the reference plant and determine how the difference (s) will " impact" the actions taken by an operator.

Impact assessment is assigned by Simulator Performance Engineer.

Guidance for determining the training impact is presented on page 1 (N, S, M, L) of this procedure.

During the Annual Review, all open Hardware Differences Database entries are reviewed, noting the IMPACT on training, to determine what items will be scheduled for implementation during the 12 months following the Annual Review.

All proposed changes to the simulator hardware are evaluated by the Simulator Configuration Engineer for possible software modification to support the change (i.e. meter scale change, the addition / deletion of a status light, switch, or annunciator). If a software change is reguired to support the hardware modification, a work package is developed in accordance with SP-205.

If a software change is not required (i.e. a change in a label plate, or the addition of an operator aid) the change is made by the Simulator Support Group as scheduled. The simulator database is then updated to reflect the modification.

O Appendix 1 Date: 02/14/92 Page 2 of 3 Rev.: 2

- . . . .. . - - - . -. - - . ~. -. . __ - - . . . .

SP-206 HOPE CREEK / SALEM SIMULATOR SIMULATOR vs STATION DIFFERENCES PHOTO NUMBER / VIDEO FRAME: PANEL:

ITEM NUMBER: GROUP NUMBER:-

COMPONENT: CATEGORY:

=w__

PLANT DESCRIPTION:

__ 1 SIMULATOR DESCRIPTION:

COMMENTS:

=

.O -IMPACT:

.DATE IDENTIFIED: DATE CLEARED:

CATEGORY Possible entries include:

Annunciators Controllers Demarcation, lines Meters Mimics Operator Aids Recorders Status lights- Switches L IMPAQT Possible entries-include:

N None No confusion or error likely (e.g. type & style

, of support equipment, minor devistion--in-1 dimensions)-

S Slight May result in' minor _ disorientation, no-error likely (e.g. smoked vs. clear bezel, letter i spacing, etc) l M -Moderate- May result in_-confusion,= recoverable operator error possible (e.g. labeling .cn scale graduation-errors)

L Large May innibit operator attention / action, non-recoverable operator error possible'(e.g.

equipment / control relocation, addition, or removal)

Appendix 1 Date: 02/14/92 Page 3 of 3 Rev.: 2 l

. - . . ~ . - - - ,, _ .-

Page No. 1 11/19/92 HOPE CREEK SIMULATOR

$1MULATOR vs STATION DIFFERENCES DATABASE SORTED BT PANEL ATTACHMENT 3 PHOTO NUMBER /

VIDEO PLANT SIMULATOR FRAME PANEL COMPONENT CATEGORT DESCRIPTION DESCRIPTION COMMENTS IMPACT 607 2 10C607 MUX MISC. 10C607 HAS TWO THESE MUX N DRAWERS EQUIPMENT MUX DRAWERS IN - DRAWERS ARE NOT THE TOP RIGHT INSTALLED AT CORNER. THE SIMULATOR.

609 1 10C609 DS$/6/7/BA STATUS LAMPS FOR TCV LAMPS IN N LIGHTS FAST CLOSURE SIMULATOR HAVE LOGIC TEST HAVE WHITE LENS / BULB CLEAR LENS / BULB COVER.

COVER.

609 1 10C609 ROSEMOUNTS SWITCHES /S GROSS Fall AND THESE ITEMS ARE S TATUS TRIP STATUS NOT CURRENTLY LIGHTS LIGHTS AND SIMULATED.

RESET O' PUSHBUTTONS ARE OPENAil0NAL, 611-3 10C611 MUX MISC. THERE ARE TWO THE MUX N DRAWERS EQUIPMENT MUX DRAWERS CAalhETS ARE LOCATED BELOW NOT IN THE RPS POWER $1MULATOR.

SUPPLY TRANSFER SECTION OF

.10C611.

611-1 10C611 DS5/6/7/8B STATUS LAMPS FOR TCV LAMPS HAVE N LIGHTS FAST CLOSURE WHITE BULB / LENS LOGIC TEST HAVE COVER.

CLEAR LENS / BULB COVERS .

611-5,6,9 10C611 ROSEMOUNTS SWITCNES/S GROSS FAIL THESE ITEMS ARE S TATUS . LIGHTS, RESET NOT CURRENTLY LIGHTS P.B.'s AND TRIP SIMULATED.

INDICATIONS ARE -

,. OPERATIONAL.

l.

l- 635-4A/B 10C635 TEST- MISC. LOCATED BELOW THESE ITEMS ARE N l- SECTION EQUIPMENT THE MSL RAD NOT INSTALLED l MONITORS ARE A IN THE

[ SET OF TEST SlHULATOR i

PolNTS, AN.

ff INDICATING

~ LIGHT FOR IRM RUN MODE l DEFEAT, AND A

! KEYLOCK SWITCH l .-

TKti SAYS i

Page No. 2 11/19/92 HOPE CREEK SIMULATOR

$1MULATOR vs STATION DIFFERENCES DATABASE SORTED Bf PANEL ATTACHMENT 3 PHOTO NUMBER /

V10E0 PLANT SIMULAT3R FRAME PANEL COMPONENT CATE GORY DESCRIPTION DESCRIPTION COMMENTS IMPACT "NOR* TEST" VARIOUS 10C635/6 MSL RAD. SWITCHES ALL FOUR DNLY CHANNEL A N MON. CHANNELS FOR  !$ FUNCTIONAL.

MSL RADIATION CHANNELS B, C &

MONITORING ARE D ARE NOT FUNCTIONAL. OPERATIONAL DUPLICATE HARDWARE ONLY.

636-4A/B 10C636 TEST MISC. LOCATED BELOW THESE ITEMS ARE N SECTION EQUIPMENT THE MSL RAD NOT INSTALLED MONITORS ARE A IN THE SET OF TEST SIMULATOR.

POINTS, AN INDICATING O-_, LIGHT FOR 1RM RUN MODE DEFEAT AND A KEYLOCK THAT SAYS "NOR-TEST" N/A 10C649 SECURITY COMMUNICAT THERE IS A $1MULATOR DOES S INTERCOM IONS SECURITY NOT HAVE THIS PHONE / INTERCOM PHohE/ INTERCOM.

THAT CAN BE l USED TO LISTEN TO THE GUARD HOUSE.

N/A 10C649 SPEAKER MISC. SEVFRAL SIMULATOR HAS N EQUIPMENT CIRCULAR ITEMS ONLY ONE j (SPEAKER / PANEL CIRCULAR koLE PLUGS) ARE IN THIS AREA LOCATED (N0' SPEAKER OR ADJACENT TO THE PANEL PLUGS).

PLANT ALARM!

SECTION OF 10C649 l N/A 10C649 PHONES COMMUNICAT TELEPHONES ON TELEPHONES HAVE N l IONS THE VERTICAL SMALLER RINGER SECTION OF LIGHTS.

I O 10C649 HAVE LARCE RINGER LIGHit TO l

INDICATE WHAT Ph0NE IS RINGING.

L i

. - . . _ . ~ ._ . - - . - - - ..

Page No. 3 11/19/92 HOPE CREEK $1MULATOR SIMULATOR vs STAfl0N DIFFERENCES DATABASE SORTED SY PANEL ATTACHMENT 3 PHOTO NUMBER /

VIDEO PLANT SIMUL ATOR FRAME PANEL COMPONENT CATEGORY DESCRIPTION DESCRIPTION COMMENTS- IMPACT H50A 5 10C650A BLANKS MISC. FIRE PROTECTION $1MULATOR HAS A N EQUIPMCNT AND POST TOTAL OF TWO ACCIDENT HOLE COVERS IN SAMPLING THl$ SECTION.

SECTIONS OF 10C650A HAVE A TOTAL OF 9 BLANK COVERS INSTALLED FOR OLD SWITCH HOLES.

H500 21 10C650C SEISMIC SWITCHES OPERATE-TEST /RE SWITCH IS N MON. SET SWITCH 18 LABELLED LABELLED "T/R" " TEST / RESET" ON ON LEFT AND THE BOTTOM.

O- "0PR" DN THE BOTTOM.

VAR 10C650C FULL CORE OPERATOR " ROW THESE LAMAC010$ N DISPLAY AIDS COORDINATES" ARE IN A AND " COLUMN SLIGHTLY C00RDINATis" DIFFERENT LAMAC0lDS ARE - LOCATION ON LOCATED PAhEL AND ADJACENT TO THE DIRECTION OF FULL CORE PRINT IS.

DISPLAY. SLIGHTLY DIFFERENT-IN SOME CASES.

H500 4 10C6500 BOP BYP. STATUS LAMAC0!D FOR LAMAC0!D SATS N DISPLAY LIGHTS STAil0N SW "STA SVC WTR PUMPS (TOP LEFT PMPS & SCREEN OF DISPLAY) SPRAY" SAYS "$TN SVCE WTR PMPS &

SCREEN SPRAY" H50E-2 10C650E VIB. SWITCHES THE FACEPLATE FACEPLATE IS N FILTER FOR THE BLACK.

VIBRA!79W DHASE METER f: iER -

O Ah3 SWITCH UNIT IS SILVER "i' i 10C650E XR 7051 RECORDERS TURBINE TURSINE CASE SIZE AND $

.VfBRATION VIBRATION LOCATION ARE RECORDER HAS RECORDER HAS THE SAME. SIM

1 1

Page No. 4 11/19/92

.( -

HOPE CREEK SIMULATOR SIMULATOR vs STATION DIFFERENCES DATABASE SORTED BT PANEL ATTACHMENT 3 PHOTO NUMBER /

VIDEO PLANT SIMUL ATOR FRAME PANEL C04POWENT CATEGORY DESCRIPTION DESCRIPTION COMMENTS IMPACT TWO 0-15 SCALES ONE 0 15 SCALE HAS NEWER (ONE Is LOWER COVERING FULL MODEL, WHICH HALF OF RANGE ON ONE THE PLANT IS UPPERSCALE, ONE WIDE SCALE,- SUPPOSED TO 15 UPPER HALF CASE AND 000R EVENTUALLY OR BOTTOM ARE BLACK, UPDATE TO.

SCALE), GREY PolNT CASE / DOOR. IDENTIFIER IS LOCATED IN UPPER RIGHT CORNER, AND l$

, A SLIGHTLY DIFFERENT MODE L .'

l j H50E 3 10C650E XR 7052 RECORDERS TEMP / EXPANSION RECORDER NAS -RECORDER SIZE S RECORDER HAS BLACK DOOR AND AND LOCATION l

GREY CASE, CASE, POINT ARE THE SAME.

l POINT INDICATOR INDICATOR IS PLANT IS ROTATES WITH DIGITAL IN SUPPOSED TO ROLLER. UPPER RIGHT UPDATE TO THE ,

HAND CORNER, NEWER RECORDERS AND !$ SLIGHTLY EVENTUALLY.

NEWER MODEL THAN PLANT.

H50E-4 10C650E TR3529-1 RECORDERS GENERATOR TEMP RECORDER CASE RECORDER SIZE S RECORDER HAS .AND 000R ARE AND LOCATION GREY DOOR / CASE BLACK, PolNT .ARE SAME AS AND PolNT IDENTIFIER IS PLANT. PLANT INDICATOR- DIGITAL LED IN IS SUPPOSED TO ROTATES WITH UPPER RIGHT EVENTUALLY ROLLER. CORNER, AND TS UPDATE TO NEWER SLIGHTLY NEWER. RECORDERS.

MODEL THAN AT PLANT.

l i

H505-4A 10C650E TBWD SWITCHES LOCKOUT BYPASS LOCKOUT BYPASS N KEYLOCK SWITCH SWITCH IS IS LOCATED- SHIFTED DOWN DIRECTLY A." PROX. 1/4".

ACROSS/IN LINE WITH THE MECHANICAL TRIP TEST PUSH BUTTONS.

H50E-5 10c650E TR3112 PECORDERS TG BEARING TEMP RECORDER HAS RECORDER SIZE S RECORDER HAS BLACK DOOR AND AND LOCATION GREY DOOR / CASE, CASE, DIGITAL ARE SAME.

.. ., . -. . -- _~ -_

Page No. 5 11/19/92 f%

(,,,) HOPE CREEK SIMULATOR

$1MULATOR vs STATION DIFFERENCES DATABASE SORTED bY PANEL ATTACHMENT 3 PHOTO NUMBER /

VIDEO PLANT SIMULATOR FRAME PAkEL COMPONENT CATEGORT DESCRIPTION DESCRIPTION COMMENTS IMPACT PolMT POINT PLANT IS IDENTIFIER IDENTIFIER IN SUPPOSED TO ROTATES ON UPPER RIGHT EVENTUALLY ROLLER. CORNER AND IS UPDATE TO NEWER SLIGHTLY NEWER RECORDERS.

MODEL THAN PLANT.

H50E-6 10C650E TR3529 2 RECORDERS MISC. GENERATOR RECORDER HAS RECORDER S TEMP RECORDER BLACK LOCATION AND HAS GREY DOOR / CASE, SIZE ARE THE-DOOR / CASE, PolWT SAME. PLAki IS POINT IDENTIFIER l$ SUPPOSED TO IDENTIFIER DIGITAL IN UPCRADE TO ROTATES ON UPPER RIGHT NEWER ROLLER. CORNER, AND IS RECORDERS.

SLIGHTLY NEWER

{

MODEL THAN PLANT.

H50E-9 10C650E FR 6294 F ECORDERS GEN / SWITCHYARD RECORDER HAl RECORDER SIZE S.

FREQUENCY DLACK DOOR AND AND LOCATION RECORDER HAS CASE, DIGITAL ARE THE SAME.

GREY DOOR / CASE. POINT PLANT IS IDENTIFIER IN SUPPOSED TO UPPER RIGHT EVENTUALLY CORNER, AND IS UPDATE TO NEWER A SLIGHTLY RECORDERS.

NEWER MODEL TRAN PLANT.

H50E 9 10C650E WATTHOUR METERS WATTHOUR METER METER HAS 4 N METER HAS 5 ROTARY ROTARY PolNTERS '

PolNTERS ON THE ON THl3 CENTER FACEPLATE IN FACEPLATE FOR SIMULATOR.

FILOWATT HOURS.

H50E-11 10C650E H202 SWITCHES REMOTE SELECTOR PEMOTE SELECTOR S ANALYZERS SWITCH IS A SWITCH IS A BLACK THREE POSITION PUSHBUTTON. -SILVER THUMB SWITCK.

) H50E 11 10C650L H202 SWITCHES ALARM RESET' ALARM RESET N ANALTZERS P.B. IS BLACK P.B. IS RED WITH BLACK WITH SILVER RETAINING RING. ?ETAINiNG RING.

- ~~. - _ . - - .- . .. - .-

Page No. '6 11/19/92 ROPE CREEK SIMULATOR

$1MULATOR vs STAT!DN DIFFERENCES DATABASE SORTED BY PANEL ATTACHMENT 3 PHof0 NUMBER /

VIDEO PLANT SIMULATOR FRAME PANEL COMPONENT CATE GORY DESCRIPTION DESCRIPTION COMMENTS IMPACT HSDE 3 10C650E VR 7051 RECORDERS RECORDER HAS A RECORDER HAS S HIGH SPEED ONLY LOW SPEED.

CAPABILITY.

N/A 10C651 ELEC. MISC. SEVERAL NO ELECTRICAL N DUTLETS EDUlPMENT ELECTRICAL OUTLETS ARE OUTLETS ARE LOCATED AT THE LOCATED Ai INE BOTTOH OF BOTTOM OF 10C650.

10C650 INSIDE THE HORSESHOE.

H51A 14 10C651A RACS OPERATOR DUAL RY FOR LAMAColD SAYS N AMPMETER AIDS RACS PUMP B ANO "PMP B (OVER)

C HAS A Al- (DVIR)

LAMICotD ABOVE 6461" ON LEFT

, _ THAT SAYS "PMP SIDE AND "PHP B (OVER) Al " C" ON RIGHT ON THE LEFT SIDE.

SIDE AND *PMP C (OVER) 6461" ON THE RIGHT.

H51A 16 10C651A ANN ACK SWITCHES ANNUNCIATOR ANNUNCIATOR N ACKNOWLEDGE ACKNOM EDGE P.8. SAYS P.B. SAYS

"$1LENCE" IN "ACK/S!LENCE" DARK BLACK AND IS BARELY LETTERS. RE ADABLE .

H51C 7 10C651C SDV SCRAM SWITCHES KEY FOR SWITCH KEY HAS LARGE N BYPASS HAS LARGE BLACK SILVER METAL

- PLA$flC HANDLE. HANDLE.

H51C 8 10C651C RPS MODE SWITCHES MODE SWliCH KEY KEY HAS A SMALL N SWITCH- HAS A LARGE SILVER METAL l BLACK PLASilC HANDLE.

HANDLE.

H51C 10 10C651C MT TURN STATUS TURNING GEAR STATUS LIGHT N GEAR LIGHf5 " LOW SPEED" HAS YELLOW STATUS LIGHT ON LENS.

RZ MAS WHITE / CLEAR LENS.

H51C-15 10C651C HV-3980 OPERATOR RWCU l$0LAil0N LAMACOID SAYS N AIDS VALVES BEZEL "RWCU RTN TO t FOR HV 3980 HAS CHEM W TA' I' LAMACOID TO

Page No. 7 11/19/92 HOPE CREEK SIMULATOR S!MULATOR vs STATION DIFFERENCES DATABASE SORTED BY PANEL ATTACHMENT 3' PHOTO NUMBER /

VIDEO PLANT SIMULATOR ,

FRAME PANEL COMPONENT CATEGORY DESCRIPTION DESCRIPTION COMMENTS IMPACT RIGHT THAT SAYS "RWCU RTN TO CHEM WASTE TK" H51C 15 10C651C HVF034 OPERATOR RWCU ISotATION LAMACCID IN SIM N AIDS VALVES BEZEL READS "RWCU RTN FOR HVF034 MAS TO COND" LAMACOID TO LEFT THAT STATES "RWCU RTN TO CNDSR" H51C 15 10C651C KWFGS OPERATOR RWCU !$0LATION LAMACCID SAYS S AIDS VALVES BE2EL " BLDG TO EQ DR FOR HVF035 HAS COLL" LAMAColD TO RIGHT THAT SAYS O- "RWtv TO EQPf DRN" H51C-25 10C651C RWM STATUS " BYPASS" STATUS " BYPASS" LENS IS S LIGHTS LIGHTS ARE IN A ENGRAVED SPLIT BEZEL " MANUAL" ON TOP PUSHBUTTON THAT AND " AUTO ON HAS NO BOTTOM.

ENGRAVING ON THE LENS.

H510 4 10C651D EHC PANEL METERS ALL HETER VARIOUS METER N RETAINING RINGS RETAINING RINGS ARE SILVER.' ARE BLACK, THE

~

RING / PLATE FOR REST ARE CIV 1 SILVER.

INDICATlGNS IS RING / PLATE FOR MISSING. CIV-1 INDICATIONS IS PRESENT, RING FOR CIV 6 IS MISSING.

H510-4 10C6510 PRESS METERS PRESSURE SET PT PRESSURE SET PT $

STPT. A/B A/B METERS HAVE A/B HETERS HAVE SUB DIVISIONS SUB DIVISIONS EVERY 20 PSI. EVERY 50 PSI.

%,/

H51E 36 10C651E BVH407 OPERATOR LAMAcolo ABOVE L AMAC010 ABOVE N AIDS THE BEZEL FOR ' EvH407 CEZEL BVH407 READS READS " CONT EQ

" CONT EQPT RM" RM"

-, . = . . . . . . . ~ . , . .-

Page No. 8 11/19/92 HOPE CREEK SIMULATOR SIMULATOR vs STATION DlFFERENCES DATABASE SORTED BY PANEL ATTACHMENT 3 PHOTO NUMBER /

VIDEO PLAN 1 SIMULATOR

. FRAME PANEL COMPONENT CATEGORY DESCRIPTION DESCRIPil0N COMMENTS IMPACT +

H51E 38/40 10C651E FRVS FANS MISC. THE BEZELS TO BEZELS TO THE S BEZELS EQUIPMENT THE RIGHT RIGHT OF THESE (FACING) 0F FRYS FANS HAVE FRVS RECIRC BEZEL COVERS F ANS HAVE FULL (BLACK)

BEZELS OF BLANK INSTALLED.

SWITCHES FOR FANS AV213, sv213 CV213, DV213.

N/A 10C660 RM 11 ANNUNCIATO AN AUDIBLE THIS AUDIBLE S RS ALARM IS ALARM 15 NOT RECE!VED AT THE CURRENTLY RM-11 CONSOLE SIMULATED.

O- WNENEVER A DETECTOR GOES INTO AN ALARM STATE.

N/A 10C660 RM 11 MISC. RM 11 PRINTER RM 11 PRINTER N EQUIPMENT .IS LOCATED LOCATED IN SAME BEHIND RMS AREA BUT IS TERMINAL. DIFFERENT MODEL.

ANN-C1 10C800-C1 WikDOW F3 ANNUNCIATO WINDOW READS WINDOW READS N RS " ADS DRTWELL " ADS DRYWELLc PRESS BYPASS PRESS BYP TIMER TIMER INIT" INIT" ANN-C6 10c800-C6 WINDOW 05 ANNUNCIATO WINDOW SAYS WINDOW IS BLANK - S RS " THERMAL MONITOR ALARM /TRBL" l

~

l - 633 3_ 1AC633 H2 CONTROLLER "REAC CHAMBER . CONTROLLER 13 M l RECOMBINER S TEMP CONTROL PRESET WITH NO

{ DEGREES THUMB WHEELS.

FAHRENHEIT" l:

l CONTROLLER HAS I -

4 THUMB WHEELS TO DIAL IN TEMPERATURE SETTING.

I:

i 633 2 1AC633 H2 METERS THE " INLET THESE METERS N RECOMBINER VALVE FLOW" AND. ARE SLIGHTLY l

- . - - . ~- . . .. - . _ . . . .- . . . ~ _ . -

Page No. -9 11/19/92 HOPE CREEK SIMULATOR SIMULATOR vs STATION DIFFERENCES DATABASE SORTED BY PANEL ATTACHMENT 3 PHOTO NUMBER /

VIDEO PLANT SIMULATOR FRAME PANEL COMPONENT CATE GORY DESCRIPTION DESCRIPTION COMMENTS IMPACT "RECOMBINER CLOSER 10 THE TOTAL FLOW" ANNUNCIATOR BOX METERS ARE IN THE APPROX. 2 1/2" SIMULAT OR .

BELOW THE ANNUNCI ATOR Bot.

N/A ALL PANEL MISC. MCR PANEL HAVE $1MULATOR N VENTS EQUIPMENT PANEL VENTS AT PANELS 00 NOT BOTTOM OF HAVE THESE PANELS. VENTS.

N/A ALL BAR C00ES OPERATOR ALL PANELS IN NO BAR CODE N AIDS THE MCR HAVE LABELS FOR BAR CODE PANELS ARE USED LABELS. IN THE

\ SIMULATOR.

N/A N/A PLANT PAGE OPERATOR ALL COMPONENTS CAITRONICS N AIDS OF THE PLANT COMPGNENTS HAVE PAGE GAITRONICS NO SUCH HAVE BLACY ON LABELLING.

WHITE LABELS NEARBY THAT STATE.

(EXAMPLE):

10$p432 N/A N/A EMERG. MIEC. DVERNEAD EMERGENCY N LIGHTS EQUIPMENT. EMERGENCY LIGHT LIGHTING IS TEST BOXES ARE SlHULATED WITH LOCATED POWER RELAYS, A0JACENT TO NO TEST BOXES EACH LIGHT. IN SIMULATOR.

N/A . N/A ' TELEPHONES COMMUNICAT LOCATED ALONG THE. SIMULATOR $

IONS THE BACK WALL DOES NOT HAVE OF THE CONTROL THESE PHONES.

ROOM, THERE ARE FOUR PHONES (1.

NETS, 2. NRC,

3. FIRE, 4 s

g EXT. 3340, LEFT

_- TO RIGHT).

-N/A N/A FP SYSTEM MISC, -ALONG THE BACK THESE S.

l TERMINAL- EQUIPMENT WALL OF THE _ COMPONENTS ARE CONTROL ROOM IS NOT IN THE ,

LOCATED A FIRE S!MULATOR.

r Page No. 10 11/19/92 HOPE CREEK SIMULATOR

$1MULATOR vs stall 0N DIFFERENCES DATABASE SORTED BY PANEL AliACHMENT 3 PHOTO WUMBER/

VIDEO PLANT SIMULATOR FRAME PANEL COMPONENT CATEGORY DESCRIPTION DESCRIPT10N COMMENTS IMPACT PROTECTION SYSTEM TERMINAL AND ALARM TYPER.

N/A VARIOUS NO TRIPS OPERATOR VARIOUS $1MULATOR DOES N STICKERS AIDS LOCATIONS ON NOT HAVE THESE 10C609, 611, STICKERS.

608 (AkD SCNE OTHER PANELS)

THERE ARE SIGNS / STICKERS CAUTIONING THAT EQUIPMENT IN THE VICINITY IS =

SENSITIVE AND MISOPERATION O. COUI.D CAUSE A REACTOR TRIP.

VARIOUS VARIOUS RZ BEZES SWITCHES VARIOUS THESE LOCATIONS MOSTLY ON $

LOCATIONS HAVE HAVE COLORED 10C650E, SOME CLEAR / WHITE LENS ON BEZEL ON 10C6510.

BE2EL AND USE AND USE BULB COVERS . WHITE / STANDARD UNDER THE LENS BULB TO ACHIEVE TO ACHIEVE A THE SWITCH SWITCH COLOR. COLOR, O

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