01S4s I l

_ _ . _ _ _ . - )

i 18-343-1 Simulator Operability Test This procedure checks the accuracy of plant simulation as compared with the reference plant. The procedure will be performed on an annual basis such that all systems and processes are checked at least every four years. The product of this procedure will be data. Analysis of f data and resolution of "- ?pancies will be included in Section VIII of the Simulator Annual Report.

These-procedures govern the internal requirements for configuration management and fidelity of the Simulator. The plant operating procedures are used for operation of the simulator.

VI. CHANGES SINCE LAST REPORT ,

None - Initial Report This section will list all modification reports written and accomplished since the last report.

VII. SIMULATOR DATA BASE The Simulator Data Base is composed of several parts. The data sent to Singer-Link to design and construct the Siumulator is the initial data base. The listing of material sent is kept on file on the IBM System 34 and the hard copy is stored in the vault on site at Maine Yankee.

The materials comprise Technical Manuals, drawings, design data, process computer data, component specifications, and analytical data.

Another portion of the data base is the Final Design Specifications (FDS). These documents list all design assumptions and actual math equations used in all systems of the Simulator. These are living documents which change as a result of modifications made to the Simulator's hardware and software.

The final section of the data base is the process used to determine if changes need to be made to the Simulator as a result of modifications .

made to the actual _ plant or discrepancy recorts. The system used is  !

explained in Section V, Simulator Procedures.

VIII. SIMULATOR OPERATIONS The ability of the Simulator to operate as the plant operates is tested in many ways. Initially thi.s was accomplished by the Acceptance Test Procedure (ATP) which is a series of tests including steady state and transient operations. The ATP was conducte.d by licensed personnel from J Maine Yankee. Subsequent to acceptance of the Simulator, McIne Yankee  !

developed a test procedure, 18-343-1, Simulator Operability Test.

I l

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0154s 1 1

- _ _ _ _ _ _ - _ _ _ _ _ _ - _ _ _ _ l

1 1 '

The test procedure will be performed every calender year starting with 1986. The prccedure utilizes portions of the original ATP along with plant procedures. The results of_the procedure will be data. This report will analyze the data to determine the appropriate action to be taken. The results of the test and analysis will be presented to the Simulator Review Board for possible action.

The following tests have been performed:

^

'ATP The ATP was performed at Singer-Link as a basis for accepting the Simulator. A copy of the ATP is on file on the Simulator computer.

The results were used to generate discrepancy reports (DRs) which are on file. The hard copy of all DRs are controlled by the Simulator Group. ,

Benchmark Analysis A benchmark analysis was performed by Yankee Atomic Electric Company.

The results of tne original analysis are in YAEC-1445. The report showed several discrepancies between the engineering code and the Simulator model. Upon close investigation it was learned that the majority of the problems resulted from comparing incorrect variables.

One major discrepancy was noted concerning the reflood of the pressurizer on a steam line break accident. A DR was written for Singer-Link to upgrade the pressurizer model. The DR was satisfactorily completed on 7/5/85. Subsequent to this it was decided to perform the analysis again. The results of the re-analysis will be in the next report.

Steady State Heat Balance A comparison was made between the design, plant, and the Simulator data concerning the secondary heat balance. Appendix B lists the results. q' A brief explanation of the headings is appropriate:

SIMULATOR - Simulator Data PEPSI - Plant Data (PEPSI Code)

HEAT BALANCE - Design Data j i

The column labeled "% Diff" is the percentage difference between the j Simulator and either plant data or design data whichever is closer. If the Simulator data fell between the plant or design data, no % Diff was j listed since we were comparing different computer codes. The column j marked PEPSI is the result of the PEPSI code which has as inputs plant l data. This data is then used to generate a portion of the PEPSI t

information.

The results will be presented to the Simulator Review Board for possible action.

0154s

I

_5_

Core Physics Test During formal testing at Singer-Link the " Low Power Physics Test" and

" Power Escalation Test" procedures were performed. The results are shown in Appendix C. The acceptance criteria used were the same as used in the Plant. This is the determining factor as to whether or not we upgrade the core model. The Simulator data must be within the acceptance criteria when compared against actual plant test data.

IX. UPGRADE PLANS The Simulator software and hardware maintenance are controlled by the Simulator group. There are two types of changes, Modification Requests (MRs) and Discrepancy Reports (DRs).

Modification Reauests (MR's)

A Modification Request is a document generated as a result of either a design change in the reference plant or an enhancement to the Simulator. The system used for tracking and implementing this process is described in Procedure 10-340-2 Simulator Modification. The MR summary as of 12/31/85 is listed in Appendix D.

Discrepancy Reports (DR's)

A Discrepancy Report is a document generated as a result of a problem with the Simulator. DRs are handled in approximately the same manner as MRs except for their initiation and the required testing. DRs are initiated by Trouble Reports that anyone can initiate to describe a problem with the Simulator hardware or software. Since the DRs do not alter the design data base, the testing requirements are somewhat relaxed. The system used for tracking and implementing this process is described in Procedure 18-340-1 Hardware / Software Discrepancies to Simulator. The DR summary as of 12/31/85 is listed in Appendix E.

0154s

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Appendix'A~

12/13/85 39:48:22 TAS< # 18000033 SYSTEMS MP X-32 1.5 A INDEX PAGE ONEe IX1-REAL TIME PROBLEM TIME IX2 INDEX PAGE TWO IX3: INDEX PAGE.THREE OPT SIMJLATION OPTI3NS a IC1 INITIAL CONDITIONS 1-10 -

IC2: INITIAL CONDITIONS 11-20 IC3 INITIAL: CONDITIONS 21-30 IC4 INITIAL: CONDITIONS 31-40 MF MALFUNCTION.

SUMMARY

13 ~ ' I/O OVERRIDE

SUMMARY

1 MP1' MONITORED PARAMETERS

. MP2 MONITORED PARAMETERS RP3 MONITORED PARAMETERS MP4 MONITORED PARAMETERS TPR TRAINEE PERFORMANCE REVIEW CAE COMPUTER ASSISTED EXERCISE PROGRAM ENTER >-

l I

F: . j 12/13/85 09:48:22 TAS< # 13000033 SYSTEMS MPX-32 1.5A

^

INDEX PAGE TWO, IX2 REAL TIME PROBLEM TIME j MALFUNCTION-REMOTE FUNCTION INDEX AN- ANNUNCIAT3RS CC1-CC2 COMPONENT COOLING  !-

CR CORE REACTIVITY.

CH- CONTAINMENT /HVAC CS CONTAINMENT SPRAY CV1-CV4 CHEMICAL AND VOLUME CONTROL C41-cd3 CIRCULATING 4ATER ED1-ED2. ELECTRICAL DISTRIBUTION i

1 EG1-EG2 ELECTRICA GENERATION '

- Fd1-FW3 FEED WATER '

IA1-IA2 INSTRUMENT AIR MS1-MS3 MAID STE A1:

NI NUCLEAR I N S T R'J M E N T AT I O N EVTER>-

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t 12/13/85: 09:43:22: TAS< # 18000033 SY STEMS MPX-32 1.5 A INDEX PAGE-THREE, IX3-

'REAL TIME- PROBLEM-' TIME MALFUNCTION-REMOTE FUNCTION INDEX pct PROCESS'C3MPUTER RC1-RC2- REACTOR C3OLANT

'RD1-R)2- CONTROL R3D DRIVE RH1-RH3 RESIDUAL-4 EAT REMOVAL R9 ' RADIATION MONITORING RP ' REACTOR. PROTECTION RX1-RX2 REACTOR REGULATION SG1-SG2 STEAM GENERATION-( S W1 -S d 2 - SERVICE WATER TC1-TC2 TURBINE C3NTROL

~TU. TURSINE Y P~ INSTRUCTOR STATION.

ENTER >'

6

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

12/13/85 09:48:22- TASC # 1B000033 SYSTEMS MPX-32 1.5A i

I SIMULATION OPTION $r OPT REAL. TIME- PROBLEM TIME LINE:#

1 DATE-(M0/DA/YR) l 2 TIME-(HR:MN:SC)

FAST TIMES.

3 CORE (XENONrSAMARIUMrDECAY~ HEAT) 10-60 6- HEAT UP R ATE 1-10 5 COOL DOWN RATE 1-13

~6- CONDENSER EVACUATION 1-10 7' REQUEST' DAILY READINESS CHECK (ACT) 1 8 REQUEST MAP LOA) (ACT)

ENTER >

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12/13/85. 09:27:14 TAS< # 2300001 F SYSTEMS MPX-32 1.5A l INITIAL CONDITIONS C01-13) P AGEr IC1 l REAL TIME PROBLEM TIME RX 33RON T

.IC. PWR CONCE4 AVERA3E PRESSURE N0i  % (PPM) (DEG.F) (PSIA) REMARKS

'1 3 1699 139 248 IC#1 RHR, PZR SOLID, BOL, 4/5/S4 2 3 1499 117 2B6 IC#2 RHR, PIR SOLID, SOL, 4/5/34 3 0 1500 285 342 IC#3 H/Ur PZR SUBi RHR OFFr BOL, 4/6 6= 0 1200 532 2240 IC#4' HSDr ATMOS. DUMPS, BOL, 4/6/34 5 .3 .1159 532 2255 IC#5 SUB-CRIT, 59113, 30L, 4/7/84 .  ;

6 , 12' 1139 537 2263 IC#6 TURB SPINr OFF LINE, SOL, 4/9/8 7 '21; 1335 540 22B1 IC#7 PHASED ON, XE INCr RES PWR 11/5 >

a 52 928 555 2266 IC#8 TDFP OFF DIL TO PWRe10/23/85-9 99- 799 574 2251- IC#9 TDFP ON BOL 10/23/85 10 0 799 531' 2069 IC#10 30L 10 MIN POST TRI* 10/23/85 LINE 41 ' INITIALIZE TO .IC NO.. 03 42 SNAP SHOT TO IC NO. CUNLOCKJ 03 43 9AC< TRACK'TIMECHR:M9) 03:00

.44 REPLAY (FILE) (PR03., TIME HR:MN) 03 CJ:00 45 REPLAY STATUS (ACTIVATE / TERMINATE)

ENTER >-

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n a, 12/13/85 09i27:14' ~ TASK #~2300001F- SY S TEMS . MPX-3 2 .1. 5 A INITIAL CONDITIONS (11-23)'PAGEr IC2.

a.EAL TIME PROBLEM' TIME RX BORON T IC- PdR CONCEN AVERA3E PRESSURE N0' .% (PPM) (DEG F) (PSIA) REMARKS

1 0 B54 533^ 2324~~~ 40% BUP HSD NO.STM 4/6/84 1 2- '3 1163- 523 2302 40% BUP, HOT SB,NO XE 32/24/84 )

3 12 943 '537 2264 40% BUP eXE INC, 01/24/84 1

4. 20- 942 539- 2249 40% BU' eXE INC, 01/24/84 l

'5' 53 763 -555 2248 43% Bu: eXE 'INCr13/23/35 5s .130 583 573 2256 40% BUPr 10/23,85

-7: .0 1501 531 2246 80% BUDrHOT SDiNO XErARI 02/24/84

3. O. 1163 530 2336 ,

80% BUP HOT S3,NO XE 02/24/84

9. 11 '682 537 2254 80% RUP eXE INC, 02/06/85 10 472 573 552 -2247 80% BUPiXE INC,10/23435 LL3NE 1

41 INITIALIZE TO IC'NO.

42 SNAP SHOT TO'IC NO. CUNLOCK3

'43 - BACKTRACK TIME (HR:MN).

44 : REPLAY (FILE) (PRO 3. TIME HR:MN) 4 5.. REPLAY STA1US (ACTIVATE / TERMINATE)

-ENTER)

I e

_______---.___m.m.-.___m____....____m_. _

t 12/13/85 09:27:14 T AS< #. 2000031 F SYSTEMS MPX-32 1.5A

' INITIAL-CONDITIONS (21-30) PAGE, IC3 RE TIME PROBLEM TIME I;

RX BORON T IC. PWR CONCEN. AVERA3E PRESSURE NO  % (PPM) (DEG F) (PSIA). REMARKS-1, 133 343 575 2257 83% Bd> FULL PdR 10/23/85 2 0 344 532 2049 80% BUP 5 MIN POST TRIP 10/23/85 3 0 10 529 1947 100% 3)P RX TRIPiEQ XE 02/24/34 4- 98 0 566 2263 100% SUP E0L S/17/85 5 97 787 574 2287 No G03DeTURS CONT PROSS 1 6 133: 575 574 2264 100%,M3LiEQ.XE.i65DEG.INJ.r(MI<E E)

Er 97. 4 563 2256 EOL IC 3 130 343 574 2264- TEST 3/21/85 i 9 69 393 562 2273 TV TEST 8/21/85 10- 0 345 51 4 1735 YAEC TEST 8/17/85 LINE 41' NITIALIZE TO IC NO.

42 SNAP SH3T TO IC NO. CUNLOC(3 63 BAC< TRACK TIME (HR:MM)

-44 REPLAY (FILE) (PRCB. TIME HR:MN) 45 RE? LAY STATUS (ACTIVATE / TERMINATE) l ENTER >

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-12/13/85' 39:27:14 TASC # 2000001 F SYSTEMS MPX-32 1.5A INITIAL CONDITIONS (31-40) PAGEi IC4 REAL TIME PROBLEM TIME RX 30RON T IC PdR CONCEN AVERA3E PRESSURE NO C (*PM) (DEG'F) (PSIA) REMARKS

'1 86 69. 535 2264 100%9UP COAST DOWN 2- 23 1379 542 2264 N/I SPIKING PROBLEMS 10/25/85 3 21: 1382 540 2269 IC#7 TEMP 10/24/85 4 53 928 554 2268 CVCS FLOW.0SC PROSS 1/14/B5 i 5- 3 1194 85 39 RAS /RdST' LOGIC TEST

-6: 130 343 575 2256 80%BUP FULL PWR 13/22/B5 7; 91 361 571 2234* SAVE FOR BILL TC PROBLEMS

'B 100 583 573 2243 SAVE FOR HAROLD 9 47 573 552 2250 SAVE FOR HAROLD 11 0 . 56 759 556- 223B JIMSSrP-2C ON 10/31/85 LINE 41 INITIALIZE TO IC No. 21 42 SNAP SHOT TO IC NO. CUNLOCK3- 36 43 BAC(TRACK TIME (HR:MN) 00:00 44 REPLAY (FILE) (PROS. TIME 4R:MN) 03 00:00 45 REPLAY STATUS CACTI /'"ATE / TERMINATE)

ENTER >

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l 12/13/85 10:02:00- TAS< # 1E000038 SYSTEMS.MPX-32 1.5A  !

MALFUNCTION

SUMMARY

PAGE, MF A I E PROBLEM TIME I

'LINE- MALF- DELAY RE9 SV% RAMP ST- DESCRIPTION N O -. NO ' TIME NO /RD TIME j HR:MN HR:MN-1:

2

'3 4

5  !

6

, 7 ,

B-9 13:

'11 12 1

J ' '13 14 15 ENTER)

\

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I 12/13/85 10:02:00 TAS< # 1E000038 SYSTEMS MPX-32 1.5A I/O OVERRIDE

SUMMARY

PAGEr IO REAL TIME PROBLEM TIME NO. DEVICE TAG DELAY STATE DESCRIPTION 1,

2 3-4 5

6 7

8 9

10 11 12 13-16 15 16 I

ENTER >

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12/13/85 10:02:00 TASC # 1E003338 SYSTEMS MPX-32 1.5A I

MONITORED PARAMETERS PAGEr. MP1 REAL TIME PROBLEM TIME I

TEMPERATURES SYMBOL DEGREE F l 1; TC LOOP 1 ( TC#1 )

2 TC LOOP.2 ( TC#2 )

( TC#3 )'

~ ~

3 TC LOOP 3 4 TH LOOP 1. ( TH#1.)

5 TH L30P.2 ( TH#2 )

6 T4 LOOP 3 ( TH#3 )

7 TAVE ,

( TAVE )

S . TREF. ( TREF )

9 THEAD ( THEAD ) ~

10- T P'Z R ( TPZR )

11. HDT T/C ( T/C HOT )'

12 TSUBC00 LING- ( SUBCOOLT )

13 TRHR INLET. ( TRHR IN-).

14 TRHR DUTLET ( TRHR.0UT )

15 TPCC DUTLET ( 'tPCC OUT )

C TSCC.0UT )

16 TSCC OUTLET 17 TCIRC OUTLET C C/W TOUT )

18 TSW INLET ( SW TIN )

ENTER >-

l L__ -

1

[

i 12/13/85 10:02:00 TASK 1# 1E00003S SYSTEMS MPX-32 1.5A; l 1 MONITORED PARAMETERS PAGE, MP2 L REAL TIME PROBLEM TIME f PRESSURES SYMBOL i

.1 RCS (PSIG) ( RC PRESG-) {

2 S/G #1: (PSIA) ( S/G#1 PR )

3 S/G #2 (PSIA) ( S/G#2 PR )

4~ S/G #3- (PSIA)- (: S/G#3 PR )

5, 9AIN STEAM (PSIG) ( MS PR )

5 CONDENSER (IN HG A) ( COND VAC')

.7 CONDENSER. DELTA'(IN H3 A ) ( COND D/* )

8- TURBINE 1ST STAGE (PSIG) ( TU1STPR )

9 PSUBC30 LING (PSI 3) ( SUBCOOLS )

LEVELS SY9BOL  %

1; VCT ( VCT LVL )

2 PZR (ACTUAL) ( PIR LVL )

3 PZR (RRS) ( PZR RRSL )

4; S/G #1 ( G#1:LVL.)

5 S/G 12 (-SG#2 LVL )

$ S/G W3 ( SG#3 LVL )

ENTER)

O

12/13/85- 10:02:00 TASK # 1E000038 -

• STEMS MPX-32 1.5A {

MONITORED PARAMETERS PAGEr MP3 REAL TIME PROBLEM TIME MISCELLANEOUS- SYMBOL ~

1 RCS C3 (PPM) ( RCS BOR )

2 NI P0 DER (%) ( NI POWER )

3 DELTA T POWER (%) (.DT POWER )

6 S/0 (%) ( S/0 )

.5 CORE REACTIVITY (% DELTA RHO) ( DRHO )

6' DELTA P CORE (PSI) ( DPCR )

7 SJR (DPM) ( SUR )

• B MWE (-MWE ).

9 MWTH ( MWTH )

13 MVARS ( MVARS-)

11 VOLTS- ( GEN KV )

• 12 4*SI FLOW (GPM) ( HPSI FL3.)

13 LPSI FLOW (GPM) ( LPSI FLO ) 1

14. -CORE FLOW (#/S) ( CORE FL3 )

ENTER) 4 i

i i

12/13/85 10:02:00 TASK # 1E000038 SYSTEMS MPX-32 1.5A MONITORED PARAMETERS PAGEe MP4 REAL TIME PROBLEM TIME ADDITIONAL PARAMETERS SYMBOL 1> PIR CORON CONCENTRATION (PP9) ( PZR 30RN )

2 VCT BORON CONCENTRATION (PPM) ( VCT BORN )

3 CHARGING FLOW (GDM) ( CHRG FLO )

4 LETD04N FLOW (GPM) ( LTDN FLO )

5 LETDOWN COOLER OUT. TEMP. (F) C LTDN TMP )

6 4: LOOP #1 FLOW (GPM) ( RC#1 FL3 )

7 RC LOOP #2 FLOW (GPM) *( RC32 FL3 )

8 RC LOOP #3 FLOW (GPM) ( RC#3 FL3 )

9 33 #1 LEVEL (%) ( SG#1.LVL')

10 SG #2 LEVEL (%) ( SG#2 LVL )

11 SG #3 LEVEL (%) ( SG#3 LVL )

12 SG #1.FD FLOW (L3M/HR

• 1E6) ( SG1FDFLO )

13 S3 #1 STM FLOW- ('BM/HR.* 1E6) ( SG1 TFLO ) .

14 SG #2 FD FLOW (L3M/HR

• 1E6) ( SG2FDFLO )

15 SG #2 STM FLOW (.BM/HR

• 1E6) ( SG2STFLO )

16 SG #3 FD FLOW (L3M/HR

• 1E6) ( SG3FDFL3 )

17 S3 #3 ST9 FLOW ('BM/HR

• 1E6) ( SG3STFLD ) .

ENTER)

\

M

- - - - _ - _ _ - _ - -___.___-_..__.___.m_ _ _ . _ _ _ _ _ . _ _ _ _ _ _ _ . _ _ _ _ _ _ . _ . _ _ _ _ _ _ _ _ _ _ __ _

12/13/85 10:02:00 TASK # 1E000038 SYSTEMS MPX-32 1.5A l TRAINEE PROFICIENCY REVIEW PAGE, TPR l REAL TIME PROBLEM TIME LINE PARM LOW HIGH CURRENT -MAX COUNT OUT NO TAG LIMIT LIMIT VALUE DEVIATION LOW HIGH 1

2

-3

4 .

5 .I 6

7 8

9 j 10 11

-12 I

~13 EXERCISE NO.

14 STUDENT NAME-15~ INSTRUCTOR NAME 16.TPR STATUS (A/T)

ENTER >

l

12/13/85- 10:02:00 TASK # 1E000038 SYSTEMS MPX-32 1.5A C3MPUTER ASSISTED EXERCISE PAGEr CAE REAL TIME PROBLEM TIME i EXERCISE NUMBER CHOSEN 2 CAEP STATUS CACTIVATE/ TERMINATE)

ENTER >-

12/13/85' 10:02:00 TAS< # 1E000038 SYSTEMS MPX-32 1.5A~

ANNUNCIATOR MALFUNCTIONS PAGE, AN REAL TIME PROBLEM TIME 1 AN01A LOSS OF' ANNUNCI ATOR P ANEL PS-S

2. AN019 LOSS OF ANNUNCIATOR PANEL PS-W 3 A N01 C LOSS OF ANNUNCIATOR PANEL PS-G 6~ AN01D LOSS OF ANNUNCIATOR PANEL PS-T 5 AN01E LOSS OF ANNUNCIATOR' PANEL PS-FI 5 A N01 F - LOSS OF ANNUNCIATOR PANEL PS-R 7 A N01 G ' LOSS OF ANNUNCIATOR PANEL.PS-P 3' AN01H LDSS OF ANNUNCIATOR PANEL PS-C 7 AN01J LOSS Of. ANNUNCIATOR PANEL PS-L 10 AN01X LOSS OF ANNUNCIATOR PANEL PS-RH 11- A N01 L 1.0SS OF ANNUNCIATOR PANEL PS-HU+R 12 A N01 M LOSS'0F ANNUNCIATOR PANEL PS-SS 13 A N01 N LOSS OF ANNUNCIATOR PANEL PS-F0 ENTEk>

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f12/13/85 10:02:00 TASK # 1E000038 SYSTEMS MPX-32 1 5A'

/

C09PONENT COOLING MALFUNCTIONS PAGE, CC1 REAL TIME PROBLEM TIME (COMPONENT COOLING REMOTE FJNCTIONS PAGE CC2) 1 CC01: LOSS OF.PCCd- 130% = 15300 GAL 2 CCO2 LOSS'0F SCCJ 130%.= 15300 GAL 3 CCO3 LOSS OF,CCW TO LPSI PUMPS [CA)AL(3)B3

4. -CC04 CCW HX.3YPASS FAILURE. 100% = FULL OPEN C( A)PCC (3) SCC]

5' CC05 .CCW PUMP'LO4 CAPACITY.100% = NO FL3W [(A)9A (B)98 (C)13A (D)103]

G CC06 LOSS OF CCW.TO DIESELS 100% = FULL"OPENCCA)A (B)B3' 17- CC07 PCCW SURGE TK LVL. FAIL. [(A)PCC H (3)PCC L (C) SCC H (D) SCC L3 3( CC08- CCW 2 INCH SUPPLY.HDR BREAX 100% = 150 GPM LEAK C(A)PCC (3) SCC 3 7, CC09 LOSS OF COM* C00 LING TO LETDOWN HEAT EXCHANGER L13 CC10' HIGH TEMP TJRB LUBE OIL c11 CC11 LOSS OF CCW TO HYD COOLERS 11 2 - CC121 SEAL OIL SYSTEM. FAILURE N2 LEA <'100% =.10 PSIG/ MIN c

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-12/13/85 10:02:00 TASK # 1E000038 SYSTEMS MPX-32 1 5A i

COMPO4ENT CO3 LING REMOTE FUNCTIONS PAGEe CC2  !

REAL. TIME PROBLEM TIME I

RANGE STATUS 1 C C101 ' S C C ISOLATION VALVES OPEN/CLOSE i 2 CC102 SCC-8 P-10A DISCHARGE 100%-0 3 C C103' SCC-15 P-10 3 DISCHARGE 100%-0' 4- CC104 PCC-7 P-9A DISCHARGE 100%-0 5- ~CC105 PCC-14 P-98 DISCHARGE 100%-0 6 CC106 PCC COOLERS C A=1, 9:2, 30 TH= 3 3 7- CC107 SCC COOLERS [ Amir B= 2, 3 0 TH =3 J 3 CC108 SCC TK FILL PW-133 & 136 CLOSE/0 PEN 9 CC109 PCC TK FILL PW-71, 171r 73 CLOSE/0 PEN 10- CC110' PCC500 3YPS PCC-M-43 SUP T3 E-3A R4R 0-100%

11 CC111. SCC 462 SYPS SCC-M-165 SUP TO'E-39 RHR 0-100%

1E CC112 COMPS COOLING 4 ATER SUPPLY SCC /RW 13 CC113' GEN-H2 FILL VALVE (9160 PSI /HR) CLOSE/0PE 14 CC114 GEN.'H2 VENT CLOSE/0 PEN 1 5 >- CC115 HY3. PANEL A.AR4 RESET 1

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12/13/85 10:02:00 TAS< # 1E000038 SYSTEMS MPX-32 1 5A' C3RE REACTIVITY MALFUNCTION PAGE, CR REAL TIME PROBLEM TIME 1 CRO1 FUEL CLADDING FAILURE 100% = 1% FJEL FAILURE ENTER >

12/13/85 10:02:00 TASK # 1E000038 SYSTEMS MPX-32 1.5A CONTAINMENT /HVAC REMOTE FUNCTIONS PAGE, CH REAL TIME PROBLEM TIME RANGE STATUS 1 C H101 CEDM FAN #1 0FF/0N 2 CH102 CED4 F AN #3 0FF/0N 3 CH103 CEDM FAN #2 C OFF=1r ON=2r BYPASS =3 3 4 C H104 AUX BLDG ALARM RESET ENTER >

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17./13/85 10:02:00 TASK # 1E000038. SYSTEMS MPX-32 1 5A CONTAINMENT SPRAY REMOTE FUNCTIONS PAGE, CS REAL TIME PROBLEM TIME RANGE STATUS

1. C S101 P-61 A SUPPLf:T3 HEAT EXCHANGER Ars 2 C S102 P-618 SUPPLY TO HEAT EXCHANGER B/A 3 C S103 P-61 S POWE R SUS SELECT C RACK OUT=1r BUS 5=2r BUS 6=3 J 4 CS104 P-61S CS/LPSI M3DE SELECT CS/LPSI.

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.CHEPtsC'L AND9 VOLUME CONTROL MALFUNCTIONS PAGE, CV1 REAL TIMM PROBLEM TIME i (CV' MALFUNCTIONS PAGE CV2e REMOTE FUNCTIONS CV3-4) 1 CV00 L90 PRES. C3NT. VALVE FAIL. C(A)LO (B)HI]

2 CV01 PA3 LETDOWN CONTROLLE3 LY101 100% = FULL OUTPUT C(A)P (B)Q3 3 CV02 CCA AF GING IS DL ATION' CH-F-38  !

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4 CV03 VOLUME CONTROL TANK LEVEL FAILURE 100% = 100% LVL 5 CV04 CHARGING LINE LEAK 100% = 500 GPM 6 CVOS PR31ARY WATER PUMP FAILURE C(A)A (3)B3 1 7 CV06 BORIC ACID DUMP FAILURE C(A)A (B)B (C)CJ ,

8 CV07 LETDOWN ISL3ATN VLV LEA < 100% = 230 GPM C( A) 9 (B)10]

9 CV08 CHARG FLOW IND LOST C(A)H (B)L3 . I.

13 CV09 L/D ISOL LD-T-5 FAIL 100% = FULL 3 PEN 11 CV10 UNCONTROLLED) BORATION 100% = 25 GPMC(A3HSI-M-50 (3)HS -M-51]

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12/13/85 10:02:00- TAS( # 1E000038 SYSTEMS MPX-32 1.SA CHEMICAL AND VOLUME CONTROL MALFUNCTIONS'PAGEi CV2 REAL TIME PROBLEM TIME (REMOTE FUNCTIONS PAGES CV3-4) 1 CV11 UNCONTROLLED) DILUTION.~100% = 75 GPM 2 CV12 CHARGING PUMP FAILURE C(A)A (B)B (C)S3

3 C V13 INADVERTENT DILUTION /BORATION [( A) 3 - (B)16003 4 CV14 RCP - LOWER' SEAL FA'ILURE [CA)1 (3)2 (C)33

'S CV15 RCP - MIDDLE SEAL FAILURE C(A)1.(B)2 (C)33 6- CV16 RCP - UPPER SEAL FAILURE C(A)1 (B)2 (C)33 7' CV17 RCP - LOW PRESSURE VAPOR SEAL FAILURECCA)1 (B)2 (C)33 S. CV18 RCP - LOSS OF SEAL WA*!- C(A)1 (3)2 (C)33 1

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-12/13/85' _10:02:00 .T ASK: #?1E000038 SYS~ EMS MPX-32 1.5A CHEMICAL AND VOLUME CONTROL RFMOTE FUNCTIONS PAGEi CV3 REAL TIME PR03LEM TIME CV RE10TE. FUNCTIONS PAGEr CV4 RANGE STATUS 1 CV101 P-14A CHG. SUMP BKR. RACK IN/00T 2 CV102 P-148 CHG. SUMP BKR. RACK IN/0UT 3 C V103 P-14S. C HG. '

• UMP BKR. - RACK OUT/IN 4 CV104 DEMINERALIZED ON/ BYPASS.

5 CV105 DE-30RATOR SYPASS/0N 6 C V106. P-7 CNG' PUM*1 SUCTION FROM PWST CH-5 9 - CLOSE/0 PEN 7 C V107 P-7 CHG PUM8 DISCHARGE TO 3 HPSI HDR CLOSE/0 PEN 3 CV108 P-7:CHG PUM* DISCHARGE TO A HPSI H)R CLOSE/0 PEN 9 CV109'P-7'CHG PUM?' DISCHARGE TO CHG HDR CH 65 CLOSE/0 PEN 13 CV110 P-14S OIL PJMP POWER C OFF=1, SUS 7=2, BUS 8=3 3 11 CV111 LD-B LETDOWN DRAG ISOLATION OPEN/CLOSE-12 CV112 LD-7. LETDOWN DRAG ISOLATION 3 PEN /CLOSE 13 CV113 P-14S POWER C 0FF=1r BUSS =2,-BUS 6=3 3 14 CV114 CH 66 P-7 C 4G. PUMP EMERGENCY BORATION CLOSE/0 PEN ENTER >'

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12/1'3/85 10:02:00 TASK # 1E000038 SYSTEMS MPX-32 1.5A CHEMICAL AND VOLUME C3NTRCL' REMOTE FUNCTIONS PAGEr CV4 REAL TIME PROBLEM TIME RANGE STATUS 15 CV115 H2 SUPPLY TO VCT OFF/ FILL 16 CV116 CH- Ac32 CH ARG VLV (1%= SHUT) 100%-1 17 CV117: CH- A-33 CH ARG VLV- (1%= SHUT) 100%-1 18 CV118 CH-67 EMER'CHARGIN3 ISOL CLOSE/0 PEN 19 CV119.BORONOMETER' RANGE SELECT p

C 0-550=1, 5 0 3-13 5 0 = 2 r .1330-15 5 0 = 3, 1500-2050=4 3 l 23 CV120 CH - 169 V ALVE FOR LTOP FLOW RESTRICT. OPEN/CLOSE 21 C V121 P-7 SUPPLY FROM BA HOR CH-113 CLOSE/0 PEN 22 CV122 P-7 RECIRC VLV CH156 (0-3000 PSI) 0-130%

23 CV123 CH-M-1 SU) PLY BREAKER OPEN/ CLOSED l

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12/13/85' 10:02:00'- TAS< # 1E000338 . SYSTEMS MPX-32 1.5A d

CIRCULATING' WATER MALFUNCTIONS PAGEi 'CW1 k REAL TIME PROBLEM TIME (REMOTE-FUNCTIONS PAGE CW2)

~1 . CWO1 LOSS OF CIRC WTR PUMP C(A)A~(B)B (C)C (D)D3 2 CWO2 CONDENSER TJBE LEAK 103% = 50 GPMC( A) A N (9)A S'(C)B '4-(D)3 S3 3 CdO3 LOSS'0F VAC'JUM PR I9ING C(A)A'(B)B3 i

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o 12/13/85 10:02:00 TAS< # 1E000038 SYSTEMS MPX-32 1 5A CIRCU.ATING JATER REMOTE FUNCTIONS PAGE, CW2 REAL TIME PROBLEM TIME Cd REMOTE FUNCTIONS PAGE, CW3 RANGE STATUS 1 C4101. PUMP P-28A C STOP=1r START =2r AUT0=3 3 2 CW102 PUMP P-28B C ST3P-1r START =2r AUT0=3 3 3 CW103 CW-M-9 A & 3 WATER BOX CROSS-CONNECT CLOSE/0 PEN 4 Cd104 CW-9-10 C &D 4ATER BOX CROSS-CONNECT CLOSE/0 PEN 5 CW105 CW-M-5 A WATER 30X OUTLET 0-100%

6 CW106 CW-M-7 B WATER 90X OUTLFT 0-100%

/ CW107 CW-M-6 C WATER BOX OUTLET 0-130%

3 Cd10B CW-M-8 0 WATER 30X OUTLET 0-100%

9 CW109 CW-M-1 P-26A CIRC PUMP DISCH.

C AUT0=1e 25%=2, CLOSE=3 J 10 C W113 CW-9-3 P-26 3 CIPC PJMP DISCH.  !

[ AUTO =1r 25%=2s CLOSE=3 3 4

11; Cd111 CW-M-2 P-26C CIRC PUMP DISCH. '

C 0T0=1, 25%=2r CLOSE=3 3 12 CM112 CW-9-4 P-260 CIRC JUMP DISCH.

C AUT0=1e 25%=2r CLOSE=3 J 13 C W113 AR-30 A WATER 30X AIR REMOVAL 3 PEN /CLOSE 14 CW114 AR-46 8 WATER 33X AIR REMOVAL 3 PEN /CLOSE ENTER >-

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112/13/85 10:02:00 TASK # 1C000038 SYSTEMS MPX-32 1.5A C IR C U L AT I-N G 4ATER REMOTE FUNCTIONS PAGE, CW3 REAL~TIfE' PROBLEM TIME RAN3E STATUS 15 CW115 AR-62 C WATER 30X AIR REMOVAL OPEN/CLOSE 16' CW116 AR-78 D WATER 30X AIR REMOVAL 3 PEN /CLOSE 17 C W117 AR-P-31 A WATER BOX VACUUM BKR. 0-100% ~~

18 -CW11 B AR-P-47 8 W ATER BOX' V ACUUM BKR.. '0-100%

19 .Cd119 AR-P-63 C WATER BOX VACUUM BKR.' 0-100%

23 CW120 AR-P-79 D WATER BOX VACUUM BKR. 0-100%

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12/13/85- .10:02:00 T ASC # 1E003338' SY STEMS MPX-32 1.5 A ELECTRICAL DISTRIBUTION: MALFUNCTIONS PAGEr E01 REAL-TIME PROBLEM TIME (REMOTE FUNCTIONS PAGE ED2)

1. ED01 TOTAL LOSS OF OFF SITE POWER 2 ED02 LOSS-0F STA SERVICE ~TRANS C(A)24 (3)263 3 E303 LOSS OF STA AUX TRANS C(A)14 (B)163-6 ED04 BUS TIE BREAKER FAILURE C(A-H J t) A B 9 13 11 7 8 10 14 123

5. E?OS LOSS OF DC SUS CCA)1 (B)2 (C)3 (D)4 (E)S3

-6. E306 LOSS OF VITAL AC BJS C C A)1' (B)2 (C) 3 (D)43 7 ED07. ' RING BUS FAIL C(A)378-1-(B)KG1 (C)<378/392 (D)KG1/375 (E)K392-13 B' ED08- FAIL TO A;T3-SHIFT FROM STA TO RES PWR ENTER >

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12/13/85 10:02:00 TASX # 1E000038 SYSTEMS MPX-32'1.5A'

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ELECTRICAL DISTRIBUTION REMOTE FUNCTIONS PAGE, ED2 REAL TIME PROBLEM TIME RANGE

~

STATUS

'11 E D101 DP/ PAC POWER PANEL SUPPLY ~ 7A/BA

+

'2 'ED102"DP/IAC POWER PANEL SA/7A 3- ED103L GRID VOLTAGE V ARI ATE 3N 340-380 KV-- 0-130%

~4 50104 GRID FREQUENCY 58-62'HZ 0-100%

5 E0105'123V AC BUS.1. ALTERVATE SUPPLY OPEN/CLOSE 6 E0106?120V AC BUS ~2 ALTF*NATE SUPPLY. 'OPEN/CLOSE

'7

. E0107~123VJAC. BUS ~3' ALTERNATE SUPPLY -3 PEN /CLOSE 8 ED103 120V AC BUS-4 ALTERNATE SUPPLY OPEN/CLOSE 9 ED109 MCC-7AT8A MCC7A-8A TIE SKR *0 PEN /CLOSE 10 ED110 BYPASS 5R/3T5 INTERLOCK OFF/0N.

11' 2D111 115 KV DROP /100%=35KV' DROP 0-100%

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'12/13/85 10:02:00 TAS< # 1E000036 SYSTEMS.MPX-32 1.5A ELECTRICAL GENERATION MAL' UNCTIONS PAGEr.EG1 REAL TIME PROBLEM TIME (REMOTE FUNCTIONS PAGE EG2),

1- EG01 AUTO VOLTAGE REG FAILURE

.2 E302 LOSS OF MAIN TRANSFORMER [( A) A (B)]

3 EG03 DIESEL GENERATOR FAILS TO. START C(A)A (B)B3 4' 'E304 DIESEL: GENERATOR TRIP C(A)A (B)B3 5 EGOS GENERATOR BREAKER FAILS TO OPEN AFTER TRIP

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10:02:00 TASK'#'1E000038- SYSTEMS MPX-32 1.5A,-

.12/13/85-ELECTRICAL GENERATION REMOTE FUNCTIONS PAGEr EG2-REAL TIME PROBLEM TIME RANGE -STATUS 1 EG101.1A DIESEL L" JCAL ALARM RESET 2 EG102 13 DIESEL LOCAL ALARM- RESET l

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l1 12/13/85 10:02:00 TAS< 8.1E000038 SYSTEMS MPX-32 1 5 A FEED WATER MALFUNCTIONS PAGEr FW1 REAL TIME. PROBLEM TIME  !

(REMOTE FUNCTIONS P4SE FW2) 1- FWO1. LOSS'0F CONDENSATE PUMP C(A)A (B)B ( C) C3 2 F402 LOSS'0F-MAIN ELEC F/W PUMP C(A)A (3)B3-3 F403 LOSS OF AUX F/d ELEC PJMP C(A)A (3)B3 4 FWO4 LOSS 0F TUR3 AUX'F/W PU9P 5 FWOS P-2C TURB F/W PUMP LOSS OF OIL

.6 FWO6 TOFP RECIRC CCNT. AUTO SIG FAILS T3 100%=10000 GP9 i .7 FdO7 ELEC F/W PUMP HIGH TEMP C(A)A (B)B3 8 FWOB HD TK LVL FAILURE 100% = 100% LVL ,

9 FdO9 SPILL VALVE FAILURE 103% = FULL OPEN 13 F J10 HOTWELL LEVEL' CONTROL FAILURE 11 FW11 FEEDWATER HEADER LEAK 100% = 30000 GPM 12 FW12 LOSS OF HEATER DRAIN PUMP 13 FW13 LOSS OF FEE) WATER TO STEAM GEN C(A)1 (B)2 (C)33 14 FW14 LOSS OF CONDENSER VACUMN 100% = 33 HG "

15 F W15 AUXILIARY FEEDWATER FAILURE l 16- FW16 P-2C F/W PUMP LOW CAP. 100% = NO FLOW ,

17 F W17 J P-2C TDFP PJMP SPEED CONT. FAIL. 0-100% 3000-5100 RPM  ;

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l>

l L l FEED WATER REMOTE. FUNCTIONS PAGEr FW2 j

< REAL TIME PROBLEM TIME )

FW REMOTE FUNCTIONS PAGE, FW3 i RANGE STATUS 1 FW101.P-27A CONDEVSATE PUMP DISCH. CD-6 0-100% i 2 FW102 P-278 CONDEMSATE PUMP DISCH. CD-16 0-100%  !

-3~ FW103 P-27C.CONDEMSATE PUMP DISCH. CD-26 0-100%  !

4 FW104 CD-7 P-27A > UMP SYPASS CLOSE/0 PEN l 5 FW105 CD-17 P-279 PUMP'SYPASS CLOSE/0 PEN (

6 .FW106 CD-27 P-27C PUMP BfPASS- CLOSE/0 PEN ) '

7 FJ107 AFW-4 AUX FEED SUCTION C DWST=1.r. PWST=2r FIRE HDR=3 J S FW108 MFW PUMP P-2A L.O. PUMPS OFF/0N

.9 FW109 MFW PUMP P-2B L.O. PdMPS OFF/0N 10 FW110 WT-105 H2O 1AKE-UP TO DdST/ CST CLOSE/0 PEN i 11 - F W111. EJ 1 A AIR EJECTOR OFF/0N.

12 FW112 EJ 18 AIR' EJECTOR OFF/'N 13 FW113.EJ 2A AIR EJECTOR OFF/0N 16- FW114'EJ 23 AIR EJECTOR 0FF/0N

.1 5 ' ;FW115 CD-98 DWST DUTLET TO CONDENSER CLOSE/0 PEN .

16 F d116 CD-271 CST 3UTLET TO CONDENSER CLOSE/0 PEN 17 FW117 WT-103 WT MAKEUP TD DWSi DIRECT CLOSE/0 PEN ENTER >

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FEED WATER REMOTE FUNCTIONS PAGE, FW3 REAL: TIME PROBLEM TIME- ,

RANGE STATUS.

-15 FW115 AR-92 CONDEMSER VACUUM'SKR. 100%-0 16 FW116 TD AFWP P-253 LOCAL RESET RESET / TRIP  !

17- FW117.AF4-33' AUX FD SUPPLY-T3 #1 HTRS ISOL AUX FD CLOSE/0 PEN-

'18 F W118 P-2C .T D F F L3 CAL ALARM RESET 19 FW119 TDFP LOC AL START MCS/ LOCAL 23- FW123 BRK 28 ON D*/ Bur P2C 1ST OUT AN OPEN/CLOSE ENTER >

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'12/13/85 10:0?:00 TASK'#11E000038 SYSTEMS MPX-32 1~5A' .

, INSTRUMENT AIR MALFUNCTI3NS PAGE, IA1 REAL. TIME. PP.0BLEM TIME' (REMOTE FUNCTIONS PAGE IA2)-

1' ;IA01. LOSS OF CONTROL AIR 100% = 1000 CFMC(A)A-(B)B3 2 IA02 LOSS.0F CONT CTL AIR.. 100% = 35'CFM C(A)A (B)B3-i i

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'l INSTRUMENT AIR REMOTE FUNCTIONS PAGE, IA2 (

REAL' TIME.

- PROBLEM TIME RANGE STATUS

1. I4101 C-1A COMP. SW. C RJN=1r AUT0=2r OFF=3 3 2' I A102 C-13 COMP. SW. C RUN=1r,AUT0=2r OFF=3 3 3' I4103 C-1C" COMP. SW. C RUN=1r AUT0=2r 0FF=3 3 4 IA104<C-5A CONT. AIR COMP C RUN=1, AUT0=2r OFF=3 3 .

5 I A10 5. C-5 B C ONT. AIR COMP C RJN=1, AUT0=2r 0FF=3.3' I 6 IA106 C-1C COMPRESSOR PWR SUSPLY. 7A/3A 7 I A107 INST. AIR H)R. . CROSS-C3MNECT- 3 PEN /CLOSE ENTER >

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12/13/85 10:02:00: TASK # 1E000038 SYSTEMS MPX-32 1.5A MAIN STEAM MALFUNCTIONS PAGEr MS1 REAL TIME PROBLEM TIME (REMOTE FUNCTIONS PAGES MS2-3) 1 .9S01- STM LEAK INSIDE CONT 100% = 4E6 LS/HR CCA)1 (3)2 (C)33 2 9S02- STM LEAK OJT CONTAIY. DOWNSTR EFCV 100% = BE6 LB/HR C( A)1 ~ (3)2 .(C)2 3- MS03 STM LEAK OUT CONTAIN. UPSTR EFCV 133% = 4E6 LB/HR C(A)1 (B)2 (C133 6 9504 EFCV CLOSURE C(A)11 (B)22 (C)33]

5 MS05 STM GEN SAFETY VLV. FAIL. 100% = 7E5LB/HR C(A)14 (3)24 (C)343  !

l 6 MS06 DECAY HEAT RELEASE VAh'fE FAIL

7. 9507 DECAY HEAT RELEASE ISOL MOV FAIL 3 9508 AUX STEAM REG FAIL 100% = FULL OPEN ,

9 MSO9 GLAND STEAM REG FAIL

'Il MS10 STM DUMP /TURB BYPASS VLV FAIL C(A)142&143 (B-H,J-L)144-1533: k l

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12/13/85< 10:0'2:00 TAS<-# 1E003033 SYSTEMS MPX-32 1.5A MAIN STEAM REMOTE'FUNCTI3NS PAGEr MS2 REAL TIME PROBLEM TIME MS REMOTE FUNCTIONS PA3Er MS3 RANGE STATUS 1 9S101 MSR PURGE MS-13B 0-100%

2 MS102 MSR PURGE MS-139 0-100%

3 MS103 GS-4 BYP AS S G S-P 0-130%

4 MS104 AS-6 BYPASS AS-P-3 0-100%

5 M S105 . M S-5 0, 70s 90 NON-RETURN BYPASSES 0-130%

6 .MS106 MS-114 A MSR ISOL.- OPEN/CLOSE-7 MS107 MS-115 B MSR ISOL. 3 PEN /CLOSE 8 95108 MS-118 C MiR ISOL. OPEN/CLOSE 9 MS109 MS-119 0 MSR IS3L. OPEN/CLOSE 10 MS110 AS-126, AS-141 AUX 30ILER SUPPLY / ALARM- CLOSE/0 PEN D 11 MS111 ES-4 EXTRACTION STEAM 3 HTR. TRAIN OPEN/CLOSE 12 MS112 ES-10 EXTRACTION STEAM 3 HTR. TRAIN OPEN/CLOSE I

13 9S113 ES-16 EXTR ACTION ST AM 3 HTR. TRAIN 3 PEN /CLOSE

'14 9S114 MS-128 EXTRACTION STEAM S HTR. TRAIN OPEN/CLOSE <

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~12/13/85 10:02:00 TASK # 1E000038' SY S TEMS MP X-3 2 1. 5 A' MAIN STEA9 REM 3TE FUNCTIONS PAGE, MS3 REAL TIME -PROBLEM TIME- l I

RANGE' . STATUS J

15 - 'MS115 AS-597 AUX STM TO SEAL' WATER HEATER 0-100%;

16 MS116 AS-*-56 AUX STM SUPPLY FROM M.S. 0-130%

17 MS117: MSR. RTN TO SERV SLK OP1 C OFF=1r T132=2r T103=3 3

-18 MS118 HIGH -PRESS STM SUPPLY TO TDFP MS-219' 0-100%

19 MS119 LO4 PRESS STM . SUPPLY TO TDFP ES-37538 0-100%

20: 9S120 AUX STM SUPPLY 70 #1-FW HTR AS12 CLOSE/0 PEN 21- 9S121. AUX'STM.SUPDLY AS-P-3 0-100% .

22 MS122 GS-2 ISOL F3R GS-P-1 CLOSE/0 PEN' i' 23- .9S123.MS-T-163 OVERRIDE . NORM /0 PEN-24 9S124 #1.5/G Knot <ER VALVE MS-59 3 PEN / CLOSED 25 MS125 #2 S/G KNOC(ER VALVE.MS-79 3 PEN / CLOSED 26 MS126 #3'S/G KNOC(ER VALVE MS-99. OPEN CLOSED ENTER >

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112/13/85 10:0'2:00 TASX # 1E000038- S Y S T E M'i - M P X,-3 2 1. 5 A .,

NUCLEAR INSTR'JMENTATION MALFUNCTIONS PAGEr NI REAL TIMEc PROBLEM TIME 1' NIO1 WIDE RA.GE NI. FAILURE [(A-D)1-43 2 NIO2.. POWER RANGE NI. FAILURE (A) CHAN 5 U HI (3) CHAN 5 U LO-(C)"CHANES'LO HI ~~ ~ "~ CD).CHAN 5 L3 LO (E) CHAN 6 U HI- (F) CHAN 6 U LO (G) CHAN-6 LO HI (H) CHAN 6-LO LO (I)'CHAN 7 U HI (J) CHAN 7 U LO

'(<) CHAN 7 LO HI (L).CHAN 7.L3 LO

-(9) CHAN 8 U HI: (N) CHAN 8 U LO (0) CHAN 8 LO HI ,

(P).CHAN 8 L3 LO I

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12/13/85 '10:02:03. TASK # 1E000038 ~ SYSTEMS MPX-32 1.5 A i f

PROCESS COMPUTER MALFUNCTI3NS PAGEr.PC .)

REAL TIME PROBLEM TIME  !

4 1

1 PC01 LOSS OF PLANT C3MPUTER.

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12/13/85 10:02:00 TAS<.# 1E000038 SYSTEMS MPX-32 1.5A REACTOR COOLANT MALFUNCTIONS PAGEr RC1 REAL TIME PROBLEM TIME (REM 3TE FJNCTIONS PA35 RC2) ,

1 1 RC01' HOT LEG LOSS OF COOLANT [(A)1 (B)2 (C)3]

2 RCO2 HOT LEG COOLANT LEAK 133%=2000 GPMC(A)1 (B)2 (C)33 3 RCO3 COLD LEG LOSS OF CO3LANT E7A)1 (B)2 (~C)3]

4 RC04 COLD LEG COOLANT LEAK 130D 200 GPMC(A)1 (B)2 (C)3]

5 RC05 LOSS OF REACTOR COOLANT PUMc C(A)1 (B)2 (C)33 6 RC06 RCP - LOCKED ROT 3R C(A)1 (B)2 (C)33 7 RC07 RCP - EXC VIS 100%=50 MILS ABOVE N3R.C( A)1 (C)2 (C)3]

B RCOB RCP - HI BRG TEMP. 100%=500 DEG AB3VENOR. C(A)1 (B)2 (C)33 9 RC09 PZR PORV FAILURE *100%= FULL OPEN C(A)A (B)B]

13 RC10 PZR PORV ISOL ATION VALVE FAILURE C(A)A (B)B3 11 RC11 REACTOR HEAD VENT LEAK 100%=200 GPM 12 RC12 URGE LINE SAMPLE LINE. LEAK 100%=25 3PM 13 RC13 RCP FAILS TO START C(A)1 (B)2 (C)3]

14 RC14A XMITTER F AIL.130%=2500 PSI PT 103 15 RC149 XMITTER FAI.i133%=2500 PSI PT 105 ENTER)-

12/13/85: 10:02:00- TAM #'1E000038 SYSTEMS'MPX-32.1.5A I

(!

i REACTOR COOLANT. REMOTE FUNCTIONS PA3Er RC2- '

REAL< TIME. PROBLEM TIME RANGE '3TATUS.

1 R C101 PR-5' SPRAY BYPASS A (3-4 TURNS) 0-100%

2 RC102 PR-6. SPR AY 3YF ASS B (3-4 TURNS) 0-130%

'3 'R C103 c R C BORON' CONCENTRATION (PPM) 0-2000- l 4 .RC104'HL.AND CL ISOL VLU POWER ON/0FF

. CURRENT VALUE OF~BOROM CONCENTRATION-(PPM)

ENTER) 1 i

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_________________m _-

112/13i35 10:02:00 TASK # 1E000038. SYSTEMS MPX-32 1.5A CONTROL R3D MALF'NCTIONS J PAGE, RD1  ;

REAL. TIME PROBLEM TIME

1. RD01., DROPPED ROD 2' 4002 STUCK ROD 3 .- RD03 ROD WITHDRAdAL FAILURE 4: RD04 ROD, INSERTION FAILURE 5 RDOS ROD EJECTIO4 6' RD06 CEDM LOSS OF.C33LIN3 <53%=1 FAMr<133%=2 FANS, 100%=ALL

-7 RD07 LOSS OF MG FOR CEDi 3 RDOS CEDM FAILUFI TO TRIP [ (A) AUTO (3)-MAN 3 9 RD09 UNC3NT. MOVE. [(A)WITHDRAWL (3)INSERTJ 13- RD10 LOSS O'F CE 10VEMENT ENTER >'

l 1

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[-

L .

12/13/85~ 10:02:00 TAS< # 1E000038 SYSTEMS MPX-32 1.5A i:

CONTR0k" ROD DRIVE. REMOTE FUNCTIONS PAGEr RD2 REAL TIME PROBLEM TIME i

RANGE STATUS 1 RD101 CEDM MG 1. 0'JTPUT B<R OPEN/CLOSE 2 RD102 CEDM MG 2 0)TPUT GKR 'OPEN/CLOSE 3- RD103 CEDM MG TIE SKR OPEN/CLOSE 4 AD104 SHUTDOWN RO) INSERTION: PERMISSIVE NORMAL /3YPASS 5 AD105 REG. GP.-WITHDRAW PROHISIT NORMAL / BYPASS' ENTER >-

, 12/' '85 10:02:00' TAS(' # 1E000038 SYSTEMS MPX-32 1.5A I 1

1 l

RESIOUAL HEAT REMOVAL MALFUNCTIONS PAGEr RH1 REAL TIME PROBLEM TIME (REMOTE FUNCTIONS PAGE RH2) 1'. RH01 RHR LOSS OF C00LINGE(A)1 (3)23 2- RH02 -LOSS OF RHR PUMP ECA)1 (B)2] t 3 RH03 LOSS OF FLO4' CONTROL 130%= FULL'0UTPUT FROM CONTRO_ f'

.4 RH04 RHR DISCHAR3E PIPING F AILURE C( A)1- (B)2 (C)33 ENTER >-

4 1.-

L -- -- -__-

12/13/85 10:02:00 TAS< # 1E000038 SYSTEMS MPX-32 1.5A RESIDUAL HEAT REMOVAL REMOTE.FJNCTIONS PAGE, RH2 REAL. TIME PROBLEM TIME RANGE STATUS 1: RH101 RHR HX A RHP 3*EN/CLOSE 2 RH102 RHR HX B RH3 OPEN/CLOSE 3 RH103 LPSI RECIRC. SI A-46 3 PEN /CLOSE 4 RH104 RWST TO A RdR PUMP LSI-47 3 PEN /CLOSE q 5 RH105 RWST TO B R4R PUMP LSI-46 OPEN/CLOSE j 5 RH106 RH6 P-12A SJCTION FROM RCHL #2 DPEN/CLOSE  !

.. 7 RH107 RH7 P-12B SJCTION FROM RCHL.#2 DPEN/CLOSE 4

.S- RH103 LSI 55 P-124 DISCH TO RdST 3 PEN /CLOSE 9 R4109 LSI 54 P-123 DISCH TO RdST OPEN/CLOSE 10- RH110 SIA 340 SIT A RECIRC CLOSE/0 PEN 11- RH111 SIA 345 SIT S RECIRC CLOSE/0 PEN

' 12 RH112 SI A 347 SIT C RECIRC C L.0 S E / 0 P E N 13 RH113 C S-15 E-3 A RHR HX TO RdST CLOSE/0P N 14 RH114 CS-16 E-3B RHR HX TO RWST CLOSE/0 PEN i

ENTER >

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~_________.m___ . _ _ _ _ . _ _ ____.___________.___._________________________J

~ 12/13/85 10:02:03 TASC # 1E000038 SY STEMS MP X-32.1.5 A RESIDUAL: HE AT REMOVAL: REMOTE FUNCTIONS PAGE, RH3 ,

REAL TIME PROBLEM TIME RH REMOTE FUNCTIONS PAGE, RH3 ,

RANGE STATUS 15 RH115 RH DISC FROM E-3A RHR HX OPEN/CLOSE j 16 RH116 RH-10 DISC FROM E-33 RHR HX OPEN/CLOSE 17- RH117 RH-4 RHR RECIRC STOP CLOSE/0 PEN C LO F, E / 0 P E N 18- RH118 HSI-26 LOOP 2 MANUAL SI STOP 19 RH119 RH-F-59 FLOW V ALVE BLOCK / UNBLOCK

23. RH120 RM-1r RM-2 20WER ON/0FF 21 RH121 SIA-M-11,21,31 POWER ON/0FF I CLOSE/0 PEN

~

RH122 N2 HDR. ISOL VLV

?2-

-23. RH123 SI A361 OR RECIRC FILTER TO RWST NOT ALIGNED / ALIGNED ENTER >

i

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=

12/13/85 10:02:03 TAS< # 1E00003B SY ST EMS MPX-32 1. 5 A i

RADIATION MONITORING MALFUNCTIONS PAGE, RM REAL TIME PROBLEM TIME CRE. MOTE FUNCTIONS PAGE RM2) 1 RM01 AREA RAD. M3N. FAILURE C(A1-HirJ1-11eP1,Q1)H (A2-H2,J2-N2,P2iG2)L3 (A) CONTAINMENT

• ARTICULATE (B) CONTAINMENT GAS (C) CONTAINMENT HIGH GAMMA (D) MANIPULATOR CRANE (E) REACTOR CONTAINMENT (F) DE-CONTAMINATION AREA

\ (3) SPENT FUEL PIT M3SILE PLAT. (H) SAMPLE ROOM (J) PRIMARY. AUXILIARY BUILDING (K) SFRAY PPJMP AREA (L) STEAM LINE HEADER #1 (M) HEADER #2 (N) HEADER #3 (P) PRIMARY VENT STACK HI RANGE (Q) LETDOWN LO RANGE (R) CONTAINMENT HIGH GAMMA l PROCESS RADIATI3N MONIT3R FAILURE C(A1-H1rJ1-M1)H (A2-H2iJ2-M )L3 2 R902 (4) VENT STACK PARTICULATE (P) PCC WATER l (C) SCC WATER (D) SERVICE WATER l (E) LIQUID WASTE DIS 20 SAL (F) CONDENSERR AIR EJECTOR (G) E-1-1 STEAM 3EN. BL3WD0dN (H) E-1-2 STEAM GEN. BLOWDOWN (J) E-1-3 STEAM GEN. BL3WDOWN (K) WASTE GAS VENT (L) 30RON LIQUID WASTE CM) SERVICE SUILDIN3 EXHAUST 3 RM03 PRI VEND STACK GAS MON FAIL 100%=10 ( 6) C PS 4 RM04 LETDOWN MONITOR FAILURE (6111)100%=13R(3102) 100%=1)(6) CPM ENTER >

12/13/85 10:02:00 TASK # 1E000038 SYSTEMS MPX-32 1.5A t

REACTOR PROTECTION MALFUNCTIONS PAGEr RP REAL TIME PROBl.EM TIME l 1 RP01 REACTOR TRIS FAILURE (A) RCS LOW FLOW j (3) STEAM GEN. PRESSURE LOW (C) HI RATE OF CHAN3E OF POWER (D) HIGH POWER (E) STEAM GEN. LEVEL LO4 (F) HIGH PRESSURIZER PRESSURE (G) THERMO-MARGIN /LO PIR PRESSURE (H) SYMMETRIC FLUX OFFSET (I) LOSS OF LOAD (J) HIGH CONTAINMENT PRESSURE (K) MANUALTRIP 2 RP02 REACTOR TRID 3 RP03 INADVERTENT SAFETY INJECTION C(A)1 (B)23 4 RPO4 SAFETY INJECTION FAILURE [(A) MANUAL (B)(0 PIR (C)HI CONT. *SR.]  !

5 R*05 INADVER RAS C(A)1 (3)23 6 RP06 CONTAINMENT IS3L. FAIL C(A) MAN A'(3) MAN 9 (C) AUTO A (D)AUT3 BJ  ;

7 RP07 INADVER CONTAIN ISD SIG. [(A)A (B)33 3 R=08 RECIRC ACTIVATION FAILURE [(A)A (B)33 9 RPC9 LOW TEMP./L3W PRES. PROT FAILURE 10 RP10 DELTA-T INST FAIL C( A-C) #1-33 C(1 A-D)HI,CH AN3 [(2 A-D) L0r CH AN]

11 R P11 H/L' TEMP. TRIP CHAN FAIL 0-100%=515-665 D EG.

C( A1-4)112H A-D (31-4)122H A-D (C1-4)132H A-D]

12 RP12 C/L TEMP. TRIP CHAN FAIL 0-100%=465-615 DEG.

[( A1-4)112C A-D (31-4)122C A-D (C1-4)132C A-D]

13 RP13 PZR. TRIP CHAN FAIL C(A1-D1)A-D H (A2-D2)A-D LJ ENTER >

12/13/85 10:02:00 TASK #.1E000038 SYSTEMS MPX-32 1.5A REACTOR REGULATION MALFUNCTIONS PAGE, RX1 REAL TIME PROBLEM TIME (RE90TE FUNCTIONS PAGE RX2) 1: RXO1 PZR. PRESS. CONT. PIC101. F AIL S . 100%= FULL QUTPUT C( A) X (B)Y3 2 RXO2 PZR. SPRAY CONT' FAIL 100%= FULL OUTPUT 3 'RXO3 PIR. PRESS. CONT PC101 FAILS [(A)X (B)Y3 4 RXO4- PZR..LVL CONT. FAIL..0%=-5% 100%=+5%C(A)X (B)Y3' 5 RXO5 H/L TEMP. REG CHAN FAIL = 0-100%=515-665 DEG. C(A)111 (B)121 (C)1311 6 RXO6 C/L TEMP. REG..CHAV FAIL 0-100%=465-515 DEG. C(A)111 (B)121 ( C ) 1,31 7 RXO7 PZR. PRESS. CONT. CHAN. FAIL 0-103%=2050-2450 PSIG C(A)X (B)Y3 8 RXO8 1ST STG. TURB. PRESS. INST. FAIL 0-100%=532-574 DE3 CCA)534 (B)502 9 RXO9 TAVE. INSTR . FAIL 0-100%=515-615 DEG. [CA)111 (B)121] (

13- RX10 STM GEN LVL CONT FAIL- 100%= FULL OJTPUTC(A)1 (B)2 (C)33 11 RX11 STM DUMP /TURB B/P SYS. FAIL 100%= F ULL OUTP UT 12 RX12 FD. REG. VLV FAIL 100%=4X10(6) LB/HRC(A)1 (B)2 (C)33 ENTER >

I e

12/13/85 10:02:00 TASC # 1E000038 SYSTEMS' 9PX-32 1'.5A REACT 3R REGULATION REMOTE FUV TIONS PAGEr RX2- .;

i REAL1 TIME PROBLEM TIME RANGE STATUS 1 84101 RRS #1 TAVE.LO3P C isle 2=2r 3=3 3 RK102.RRS #2 TAVE LOOP E 1=1, 2=2r 3=3 3 2

?

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12/13/85 10:25:53 -TASK ~# 1600004C SYSTEMS MP X-3 2 1.5 A '

STEAM GENERATOR MALFUNCTI3NS PAGE, SG1 REAL TIME' PROBLEM TIME (REMCTE FUNCTIONS PAGE SG2) 1,- S301 STM-GEN TURS LEAK 100%=1000 GPMCCA)1-(B)2 (C)33 q 1

ENTER >

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zi2/13/85 10:30:41 TAS<~# 1300004F SYSTEAS MPX-32 1.5A STEA1-GENERATION REMOTE FUNCTIONS PAGEr SG2 REAL TIME PROBLEM TIME RAN3E STATUS 1 S 3101 S / D TK VENT COND/ VENT STK

-2 SG102 B/D TK DISC 4 COND/ DRAIN 3 SG103 B/D TK TRANSFER PU1P STOP/ START 4 SG104 8/D METERING VLV E-1-1 (0-4 TURNS) 0-130%

5 SG105 D/D METERIN3 VLV E-1-2 (3-4 TURNS) 0-130% ,

6 SG106 B/D METERIN3 VLV E-1-3 (0-4 TURNS) 0-130%

7 SG107 STM GEN STM LINE VENT E-1-1 MS't3 CLOSE/0 PEN B SG10B STM GEN STM LINE VENT E-1-2 MS-63 CLOSE/0 PEN 9 SG109 STM GEli STM LINE VENT E-1-1 MS-83 C L O S E /0 P Ett

'10 SG113 B0-102 TO SER. WTR. OVSD RESET / TRIP ENTER >

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e 12/13/85 10:33:41. TASK # 1300004F- SYSTEMS MPX-32 1.5A l4 SERVICE WATER MALFUNCTIONS PAGEr SW1 1 REAL TIME PROBLEM TIME l (REMOTE FUNCTIONS PAGE SW2) i

.1 SdO1. LOSS OF SERVICE WATER PUMP P-29-[(A)A (B)B (C)C (D)DJ ]

2. SWO2- SER WTA HDR RUPTURE 100%=20000 GPMECA)PCC (B) S C C 3 i 3' SWO3 LOSS OF RAW WATER PUMP.P-60 C(A)A (B)B3 4 S404 TRAV. SCN. HI DELTA. PRES.[(A)A (B)3 (C)C (D)D3 5 SWO5 LOSS OF. SCREEN WASH PUM8 P-63 C(A)A (B)BJ 6 SWO6 LOSS.0F F/W HDR PRES 7 SWO7 SW PUMP DISCH BREAK C(A)A (B)SJ ENTER >

1

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? . i 12/13/85 10:30:41 TAS< # 1300034F S Y STEM S MPX-32 1.5 A 1

SER/ ICE WATER REMOTE FUNCTI3NS PAGEr SW2 REAL TIME- PROBLEM TIME RANGE STATUS 11 -S4101 FS 10, 12, 22, 42 ISOL. FOR MALF. SWO6 OPEN/CLOSE l 2 SW102 PCC HX E 4A OUTLET SW-33 100%-0 l l ('

3 Sd103 PCC HX E 49 OUTLET SW-43 100%-0 4 Sd104 SCC HX E5A OUTLET SW-34 100%-0 9 SW105 SCC HX E 53 OUTLET SW-36 100%-0 6 SW106 SW-32 ISOLATION FOR SW32 MALFo OPEN/CLOSE 7 SW107 W.T. PANEL ALARM RESET B SW108 CIRC WATER INLET TEMP (3 DEG/ MIN CH ANGE) 30-90 9- SW109 FIRE PUMP P-4 TRIP 13 SW110 FIRE PUMP P-5 TRIP ENTER > j

_ _ _ _ _ _ _ _ _ _ - _ _ _ _ _ _ - _ _ Q

12/13/85 10:30:41 TASK # 1300004F SYSTEMS MPX-32 1.5A V .

1 TUR9INE CONTROL MALFUNCTIONS PAGEr TC1 REAL TIME PROBLEM TIME l (REMOTE FUNCTIONS PAG *, TC2)

1. TC01 TURB/ GEN TRIP FAILURE (A) 3VERSPEED (3) LOW OIL PRESSURE (C) LOW CONDENSER VACUMN (D) MANUAL TRIP BUTTONS (E) HAND TRIP (F) STEAM GEN. HIGH LEVEL (G) REACTOR TRIP (H) LOSS OF EH PRESSURE (I) S6P RELAY (J) S68U RELAY j

(<) 4 EATER DRAIN TAN < LEVEL HI q 2 TCO2 TURB/ GEN TRIP .

(4) 3VERSPEED (B) LOW OIL PRESSUR: .

(C) LOW CONDENSER VACUMN (D) MANUAL TRIP BUTT 3NS (E) HAND TRIP (F) STEAM GEN. HIGH LEVEL (G) REACTOR TRIP (H) LOSS OF EH PRE SUR*

l (I) 36P RELAY (J) B6BU RELAY

(<) 4 EATER DRAIN TANK LEVEL HI 3 TCO3 TURB CONTR VALVE FAIL 100%=0 PEN [(A-D)199-2013 4 TC04 INTER VALVE CL3SURECCA-D)232-205]

5 TC05 LOSS OF TUR3 AUTO SD CONT 100% = FULL SIGNAL  ;

G TC06 LOSS OF AUT3 L3AD C3NTROL i 7 TC07 LOSS OF EH zuMP C(A)A (B)B3 i i

ENTER >

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12/1'3/85. -.10:30:41 TASK'# 1330334F SYSTEMS MPX-32 1.5A' i

TURSINE CONTROL REMOTE FUNCTIONS PAGEr TC2 ,

REAL TIME. PROBLEM TIME RANGE STATUS

-1 TC101. MANUAL TRIP LEVER '

C MCB=1r TUR3 TRIP =2r TURS LATCH =3 3

2. CC113 GEN H2 FILL VALVE (@163 PSI /HR)- CLOSE/0 PEN

~~~ '

3 ~ C C114 GEN' H2 ' VENT CLOSE/0 PEN 4 CC115'HYD PANFL A' ARM_

RESET l

)

1

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.12/13/85 10s30: 41' TASK # 1B00004F. SY ST EM S MPX-32 .1. 5 A.

TURBINE.MALFUNCTIfsNS PAGEr TU REAL TIME. '

PROBLEM TIME 1- T 'J 01 -TUR3INE. VIBRATION 100%=25 MILS >NOR. C(A)H.P (3)L.P3

.]

i.

ENTER >

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12/13/85 10:30:41 TAS< # 1300004F SYSTEMS MPX-32 1.5A INSTRJCTOR STATION REMOTE FUMCTIONS PAGE, YP REAL TIME PROBLEM TIME RANGE STATUS 1' YP101 RESET ALL 36, THERM 0r + OVRCRNT RELAYS RESET '

2 CC115 HYD PANEL ALARM RESET 3 CH104 AUX BLD3 ALARM RESET 6 E S101 1A DIESEL L3 CAL ALARM RESET EG102 19 DIESEL LOCAL ALARM RESET 5

6 FW113 P-2C TDFP L3 CAL ALARM RESET 7 SW107 W.T. PANEL ALARM RESET S RH122 N2 HDR. ISOL VLV CLOSE/0 PEN 9 FW110 WT-105 H 2O M AK'E-UP TO DWST CLOSE/0 PEN ENTER >

{

Appendix B l

POWER SEL HEAT  % i PARAMETER VARIABLE ' UNITS SIMULATOR PEPSI BALANCE DIFF.

Core Power CRQMWT MWTH 2,621.6 2,615 2,642 Gross Gen. Out EGWMGEN KW 856,540 878,860 897,121 - 2.5%

Net Gen. Out EGWNET KH 836,925 853,340 862,271 - 1.9%

Aux. Power EGWINP KH 19,615 25,520 26,971 -23.1%

}s  !

l

- - - - - - - - - - - - - - - - - - - - - - - - - - ._______----__--_J

i SYSTEM cLOWS  :

SEL HEAT  %

PARAMETER VARIABLE UNITS SIMULATOR PEPSI BALANCE DIFF.

'MS Flow MSFLOW #/HR 11,608,200 11,585,000 11,651,299 l MSR Flow MSFRTSD(2) #/HR 774,000 767,545 856,579 l Aux. Stm. Flow MSFAS #/HR 15,732 6,500 61,457 '

HP Turb. Inlet MSFHBINL #/HR 10,812,960 lHP Turb. Exh. MSFHBEXH #/HR 9,900,720 9,832,726 9,859,892 + 0.4% 1 lLP Turb. Inlet MSFLBIN(2) #/HR 8,323,200 8,163,262 8,161,489 + 2.0% 1 lLPTurb.Exh. MSF1E7(2) #/HR 6,055,200 6,095,440 6,050,858 )

Ext. Stm. Flow l

.lst pt. FWXFXHP1(2) #/HR 959,040 930,317 930,445 + 3.1% )

2nd pt. FWXFHPH2(2) #/.HR 701,280 701,897 653,324 l 3rd pt. FWXFXLP3(2) #/HR 624,960 533,673 592,090 + 5.6% i 4th pt. FWXFXLP4(2) #/HR 457,920 476,784 444,183 j 5th pt. FWXFLPH5(2) #/HR 366,480 451,726 345,983 j 6th pt. FWXFLPH5(2) #/HR 651,600 459,584 585,971 + 11.2% j Cond. Flow FWFCDEJ #/HR 8,347,320 8,186,281 8,254,225 + 1.1% I HDT Flow FWFHPDTL #/HR 3,399,840 3,402,243 3,415,915 - 0.1% i XF Flow FWXFSGTL(3) #/HR 11,778,480 11,588,524 11,670,318 + 0.9%  !

@ lowdown Flow SGFBD #/HR 19,692 3,600 19,019 + 3.5% 1 1

1 1

\

Os

PROCESS TEMPERATURES SEL . HEAT  %

PARAMETER VARIABLE UNITS SIMULATOR PEPSI BALANCE DIFF.

Cond. Pump Disch FWTHWA *F 92.9 96.5 97.7 - 3.7%

Outlet E-17 FWTTH70A 'F 105.3 105.0 110.2 E-16 FWTTH60A *F 168.6 148.2 168.6 E-15 FWTTH50A *F 204.9 199.1 204.3 + 0.3%

E-14 FWTTH40A 'F 259.7 258.5 259.0 + 0.3%

E-13 FWTTH30A *F 312.5 305.4 312.0 + 0.2%

E-12 FWTTH20A 'F 374.8 370.6 369.5 + 1.1%

E-11 FWTTH10A *F 444.0 442.6 442.9 + 0.2%

HDT FWTMPS *F 377.0 383.6 383.6 - 1.3%

S/G Temp. MSTSG1 *F 525.5 523.2 526.6 MSH Temp. MSTMSH 'F 524.9 511.3 516.0 + 1.7%

HP Turb. Exh. T. MSTHBEXH *F 387.1 LP Inlet T. MSTLBIl *F 489.2 488.9 501.0 o

0)151s

FW DRAINS SEL HEAT  %

PARAMETER VARIABLE UNITS SIMULATOR PEPSI BALANCE DIFF.

E-11 Flow FWXFNDH1(2) #/HR 1,704,960 1,747,867 1,786,904 , - 2.5% i Temp FWTDH1A *F 392.2 396.2 389.9 l Enthalpy FWHDHIA BTU /# 367.8 371.2 364.4 l Shell Press FWPHIA PSIA 433.8 425.2 430 + 0.9%

E-12 Flow FWXFNDH2(2) #/HR 714,240 701,897 680,082 + 1.8%

Temp FWTDH2A 'F 382.8 382.6 378.5 + 0.1% l Enthalpy FWHDH2A BTU /# 356.6 356.3 352 + 0.1%

E-13 Flow FWXFNDH3(2) #/HR 465,840 398,188 458,754 + 1.5%

Temp FWTDH3A 'F 274.7 274.5 ~274'.0 + .01%

Enthalpy FWHDH3A BTU /# 243.8 243.7 243.1 Shell Press FWPH3A .

PSIA 91.4 82 2 89.9 + 1.7%

E-14 Flow FWXFNDH4(2) #/HR 916,560 874,956. 902,910 + 1.5%

Temp FWTDH4A 'F 220.0 216.4 219 + 0.5%

Enthalpy FWHDH4A BTU /# 188.3 184.7 187.3 + 0.5%

Shell Press FWPH4A PSIA 40.7 38.3 40.0 + 1.8%

E-15 Flow FWXFNDH5(2) #/HR 1,276,560 1,326,674 1,248,880 Temp FWTDH5A *F 184.3 169.8 184.1 + 0.1%

Enthalpy FWHDH5A BTU /# 152.4 137.8 152.1 + 0.2%

Shell Press FWPH5A PSIA 15.1 12.8 14.8 + 2.0%

E-16 Flow FWXFNDH6(2) #/HR 639,360 459,584 585,971 + 9.1%

Temp FWTDH6A *F 119.9 119.7 124.8 Enthalpy FWHDH6A BTU /# 87.9 87.6 92.7 E-17 Flow FWXFNDH7(2) #/HR 1,276,560 1,326,674 1,248,880 Temp FWTDH7A 'F 84.9 119.8 108.7 -21.9%

Enthalpy FWHDH7A BTU /# 70.8 87.7 76.8 - 7.8%

4 l

}151s l

o'v y.y - - - - -

Appendix C MEMORANDUM TECH FILE O YANKEE ATOMIC - FRAMINGHAM Date August t!. 1985 To P. L. Anderson /W. J. Metevia Group # RP 85-234 W.O. # 5100 From _ c. M. Solan l,M,$, # MY.D.7.3.1 Subject MAINE YANKEE SIMULATOR PHYSICS TESTING REPORT REFERENCE

1. "MY Simulator Physics Testing Summary", RP 84-27, G. M. Solan to ~-'

1 P. L. Anderson /W. J. Metevia, January 19, 1984 +

DISCUSSION The attached , Maine Yankee Simulator Physics Testing Report _ provides a summary of the simulator physics testing performed at Singer-Link on January 5 and 6, 1984. The report provides comparisons of simulator-measured physics parameters to plant Technical Data Book and startup test results for Maine Yankee Cycle 6. The following physics parameters are addressed: -

o CEA group worths o Critical boron concentrations o Isothermal temperature coefficients o Power defect .

o Symmetric offset o Xenon behavior A summary of these re ults was provided in Reference 1, along with recommended The report should be forwarded to M. Swartz modifications in selected areas.

at Maine Yankee.

j . 9 G/ M. &lan, fenior Nuclear Engineer Reactor Physfes Group

~ '

Approved by:

'Fg_.J.(/d<.'t..

Cac 'pouti, Manager -

Keactor sics Group GMS/hja Attachments cc: B. C. Slifer J. P. Gorski  % 7,: -

P. A. Bergeron D. G. Adli -< g.. g P. J. Guimond B. Y. Hubbard

• if ,

K. B. Spinney M. Scott D. G. Napolitano l.2.

i- (D A. Husain . . ,7 g S. VanVolkinburg *C ES 1

i

7 Maina Ycnkta l Sirulator Physics Testing Rapcrt

1.0 INTRODUCTION

Core physics testing of the Maine Yankee simulator was performed on '

Comparisons are made of January 5 and 6,1984, at Singer-Link.

simulator-measured physics parameters to the plant Technical Data Book (Reference 1, Appendix C) and the Startup Test Report (Reference 2) for Cycle 6. The physics parameters comprise CEA group worths, critical boron concentrations, isothermal temperature coefficients, power defects, symmetric Each parameter is discussed in relation to the offset and renon behavior. Beginning- and comparisons with recommended modifications where necessary.

End-of-Cycle (BOC and E0C), Hot-Full-and Hot-Zero-Power (HFP and HZP),

conditions are examined for most parameters.

2.0 CEA GROUP WORTHS ,

> The CEA group worths were evaluated at HZP conditions by boron dilution.

integral worth in overlap for the regulating CEA groups and the individual Tables 1 worths in-sequence for the shutdown CEA groups were measured at BOC.

l and 2 provide the measured worths for the regulating and shutdown respectively.

Figure 1 for the regulating groupa, and in Figures 2, 3 and 4 for shutdown Groups C, B and A. The comparisons demonstrate that the worths are well predicted. The worth of the regulating groups is typically within 5% of the

• The total BOC CEA worth is within 1%. Group A exhibits plant-measured curve.

the largest deviation.

Measurements of Group 5 at EOC, HZP conditions were madeE0C, and HZP showed a integral correct total worth, but an incorrect integral worth shane.Thus, it is recommended worth calculations are not available for Cycle 6.

that the Cycle 7 EOC, HZP integral worth curves (Reference 3, Appendix C) be used for EOC integral worth shape normalization.

3.0 CRITICAL BORON CON'CENTRATIONS The critical boron concentrations at BOC and EOC, HFP and HZP ARO equilibrium conditions are compared in Table 3 to the plant-measured values.

All critical boron concentrations are well predicted.

4.0 ISOTHERMAL TEMPERATURE COEFFICIENTS o ,

The Isothermal Temperature Coefficients (ITCs) at BOC and EOC, HZPcARO equilibrium conditions are derived in Table 4 and compared to plant-The ITC values ar BOC-measured and EOC-normalized calculated values.

predicted for ARO conditions. -

No examination of change in ITC with CEA insertion' was performed ~. The o startup test measurement for Cycle 6, with Groups 5+4+3+2+1 inserted, should ,

serve as a benchmark for normalization of this parameter.

l 9

u_____________. _

5.0 POWER DEFECTS Th2 tet: 1 pow;r d fsetc, including fu;1 and modcretor Thatarperaturo BOC pow;r dafzet changes, are comparbd to p12nt nasturtscnt in Teble 5.

was measured from HFP to 50% power, and the EOC power defect was measured from HFP to 75% power. The values are well predicted, considering the uncertainties associated with establishing equilibrium, critical conditions.

6.0 SYMMETRIC OFFSET There were no adjustments madc to the simulator physics model to provide Measured and predicted realistic excore symmetric offset indications.

symmetric offsets from Cycle 6 are given in Figure 5 for normalization at HFP conditions. An ARO, BOC, HFP equilibrium excore offset of -4.5% For HZP was witnessed during testing, which does not compare well with Figure 1.

conditions, ARO, BOC and EOC equilibrium Further offsets of approximately symmetric offset+20% and

+60% are appropriate for normalization. -

normalization with respect to Group 5 insertion may also be required .,

and should be based on plant measurements. .

7.0 XENON BEHAVIOR An axial xenon oscillation was induced at BOC and the dampening of the The axial xenon dampening factor is defined and oscillation measured. The comparison compared to predicted and plant-measured values in Figure 6.

shows the simulator model to be more strongly dampened than the actual core. ,

A similar E0C test should be performed and the data in Figure 6 used for normalization.

The peak xenon buildup af ter core scram from HFP conditions at BOC was measured. The renon worth versus time is given in Table 6 and plotted versus calculated in Figure 7. The initial xenon worth and the time behavior of the zenon worth are well predicted despite a slight underprediction in the peak xenon worth. This difference, however, is comparable to that witnessed As such, the between measurement and calculation for Core 1 in Reference 4.

xenon worths are considered well predicted.

8.0 CONCLUSION

S The simulator-measur.d physics parameter comparisons indicate the accuracy of the core physics simulator model. Parameters are termed "well predicted" if the simulator shows accuracy typical of measurement-calculational comparisons of the more sophisticated licensing codes. For parameters which are not well predicted, a basis for further simulator model normalization is provided. Acceptability of the accuracy of' '

each parameter should be determined from the potential impacts on operator-training and is not addressed here.

l .', . . . .,  : eh q

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• 9

)

4 i

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

REFERENCES-Y. Hubbard, l

-1. YAEC-1461, Maina Y:nkaa Cycla 6 Summary Raport, 'B.

G.. M. Solan, April 1985.

j

2. Letter, R. H. Groce (YAEC) to B. H. Grier (NRC), Maine Yankee Startup Test Report, FMY 81-161, October 23, 1981.

l

3. YAEC-1482, Maine Yankee Cycle 7 Summary Report, B. Y. Hubbard, G. M. Solan, S. VanVolkinburg, April 1985. l

4. Msine Yankee Atomic Power Station Startup Test Report _, July 1973.

m.

.we i

I i

. . Q ll , s;,

',~':u; V*- f .;

4

- _ - _ _ ~ _ - _ _

• TABLE 1 Maine Yankee Cycle 6 ntegral Worth with Overlap at BOC,HZP Regulating Group

~

Sisulator Measurement Change Integral Change IBW Steps Withdrawn Critical in Worth - Worth CEA

• Boron in Boron (% Ao)

Orgups by Groupe Total (ppm) (pps/%Ap)_ (% eo) _

_ (Dpm) 0.053 3.287 1161.0 5.0 95.1 3.234 180 612 95.1 0.063 5

592 1156.0 6.0 3.171 150 95.1 0.074 572 1150.0 7.0 0.121' -3.097- _

130 11.5 95.1 110 552 1143.0 0.121 2.976 1131.5 '* 11.5 95.0 2.855 1

90 532 95.0 0.179 512 1120.0 17.0 0.153 2.67.6 70 1103.0 14.5 95.0 2.523 50/160 492 94.9 0.068 5/4 472 1088.5 6.5 0.032 2.455 30/140 3.0 94.9 2.423 0/113 444 1082.0 94.9 0.037 431 10.9.0 3.5 0.068 2.386 0/100 6.5 94.9 411 1075.5 0.058 2.318 0/ 80 1069.0 5.5 94.9 60/171 391 0.058 2.260 4/3 1063.5 5.5 94.8 2.202 r 40/151 371 7.5 94.8 0.079 20/131 351 1058.0 0.047 2.123 4.5 94.8 2.076 0/113 333 1050.5 94.8 0. 132 1046.0 12.5 1.944 0/100 320 94.7 0.174 1033.5 16.5 0.174 1.770 0/ 80 300 94.7 280 1017.0 16.5 0.137 1.596 3/2 60/170 13.0 94.7 1.459 40/150 260 1000.5 0.090 987.5 8.5 94.7 1.369 20/130 240 4.0 94.6 0.042 222 979.0 0.116 1.327 0/112 11.0 94.6 1.211 0/100 210 975.0 94.6 0.211 190 964.0 20.0 1.000 0/ 80 20.0 94'.6 0.211 60/171' 170 944.0 0.132 0.789 2/1 12.5 94.6 0.657 40/151 150 924.0 94.5 0.092 911.5 8.7 0.565

..'* 20/131 130 94.5 0.077 902.8 7.3 0.090 0.488 0/112 112 8.5 94.4 0/100 100 895.5 0.138 0.398 13.0 94.4 0.260 0/ 80 80 887.0 94.3 0.159 j 60 870.0 15.0 0.101 ..

0/ 60- 7.5 94.3 0.080 40 859.0 0.021 .0.021 0/ 40 2.0 94.3 0.000 0/ 20 20 851.5 0.000  :

0.0 94.3 0/ 0 0 849.5

• ' . *?*,', t, - ,

4

TABLE 2 Maine Yankee Cycle 6 Shutdown Group Integral Worths at BOC,HZP_

Simulator Measurements _

Change Integral Change IBW Steps Critical in Worth

• Worth

.CEA Boron in Boron (%Ap) _ (ZAo) __

Grcups' Withdrawn (ppa) _ (pps/%Ap)

(ppa) 0.048- 1.275 4.5 94.3 .

1.227 180 849.5 94.3 0.117 C 845.0 11.0 1.110

. _ . 140 94.3 0.090 8.5

~~ 1.025~

~

120 834.0 94.2 0.159 825.5 15.0 0.866 100 ,

94.2 0.281 810.5 26.5 0.335 0.585 80 31.5 94.1

60. 784.0 0.213 0.250 20.0 94.1 0.037 40 752.5 94.1 0.037 732.5 3.5 0.000 20 94.0 0.000 729.0 0 0

0,037 0.681 3.5 94.0 0.644 180 729.0 94.0 0.144 B

725.5 13.5 0.266 0.500  ?

140 25.0 94.0 0.234 100 712.0 93.9 0.197 687.0 18.5 0.037 0.037 60 3.5 93.9 0.000 30 668.5 93.8 0.000 665.0 0 0

0.096 2.501 9.0 93.8 2.405 180 665.0 93.8 0.032 A 656.0 23.0 0.101 2.373 140 9.5 93.8

~

100 633.0 0.112 2.272 10.5 93.7 2.160 90 023.5 93.7 0.165 613.0 15.5 0.091 1.995 80 8.5- 93.7 597.5 0.118 1.904 70 11.0 93.6 65 589.0 0.160 1.786 i 15.0 93.6 1.626 60 .578.0 93.6 0.123 lo -

563.0 11.5 0.171 1.503 55 93.5 551.5 16.0 0.251 1.332 50 23.5 93.5 45 535.5 0.235 1.081 22.0 93.5 0.846 40 512.0 93.4 0.246 * " ' ' '-*

490.0 23.0 0.600 35 93.4 0.450 467.0 42.0 0.134 0.150  ;

30 12.5 93.3 j 20 425.0 0.016 0.016 ~

1.5 93.3 0.000 10 412.5 93.3 0.000

• 0 0 411.0 ' . ,

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TABLE 3 - _. . . . .

Maine Yankee Cycle 6_

Critical Boron Concentrations at ARO.

Simulator Measurements _

e Critical Boron Concentrations '

Time 7 ppa) 11 ant Difference in.

Conditions Simulator Life _

1153 +3 HZP,No Xe 1156 500 ~ ~ ~ ~ '

809 +22-~

HFP,Eq Xe 831 340 +13 HZP,No ye 353 EOC 0 +8 8

HFP,Eq Xe a

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TABLE 6 Maine Yankee Cycle _6_ '

Xenon Worth af ter Scram from 100% Power at BOC Simulator Data (

Time After Zenon.

Time After Kenon Scram Worth Scram Worth {%$21

(% Ap)_

(Hours)

(Hours) _

8.50 4.132 0 2.630 9.00 4.113 0.25- 2.730 . , ,

9.50 4.087 ~ ~ ~ ~ ~ ~

0.50 2.844 10.00 4.055 2.954 0.75 10.50 4.021 )

1.00 3.069 11.00 3.976 l 1.25 3.154 11.50 3.928 1.50 3.256 12.00 3.878 1.75 3.341 12.50 3.823 2.00 3.433 13.00 3.767 l 2.25 3.506 13.50 3.699 l

2.50 3.579 14.00 3.644 - l 2.75 3.643 14.50 3.581 I 3.00 3.701 3.514 15.00 3.25 3.761 15.50 3.446 3.50 3.811 16.00 3.379 1

3.75 3.861 16.50 3.309 4.00 3.903 -

17.00 4.25 3 942 17.50 3.169  !

4.50 3.976 18.00 3.102 4.75 4.008 18.50 3.029 5.00 4.035 19.00 2.957 5.25 4.059 5.50 4.081 5.75 4.099 6.00 4.114 6.25 4.126 l 6.50 4.135 6.75 4.142 ,

l {

7.00 4.146 j 7.25 4.147

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l APPENDIX D Modification Request Summary i

l 12/31/85 SIMULATOR MODIFICATIONS STATUS REPORT 1 '

BY MR#

EDCR# SYSTEM HDW, SFW DESCRIPTION OPEN INCORP

[#

ENG ENG DATE DATE ,

l1 E80-038 FW ---

JFM POWER SUPPLY CHANGE FOR RELAYS 04/24/84 11/05/84 IN SG TRIP SYSTEM 3 A 7-083 FW ---

JWW COMPUTER MONITORING OF 04/24/84 05/11/84 ,

FEEDWATER HEATER ,

3 .P 4-083 ED RDE JWW EMERGENCY MCC FEEDER REMOTE 04/24/84 11/26/84 !

IND. LIGHTS 6 P16-081 MI RDE ---

INSTALL SMOKE DETECTOR IN 05/10/84 10/26/84 l CR CABINETS

$ A 9-083 RC --- ---

PORV INTERMEDIATE SETPOINT 05/10/84 REJECTED REJECTED 3 E81-010 RC S/L S/L PRESSURE TAPS & ROOT VALVES 05/10/84 k FOR A PRIMARY TPEND SYS (PITS) 3 E81-026 RC S/L S/L PITS - DEFFERRED 05/10/84 3 E85-018 RC S/L S/L PRIMARY INVENTORY TREND SYSTEM 10/02/85 7 A25-083 TU ---

JFM RX TRIP / TURBINE TRIP 05/18/84 06/27/84 REDUNDANCY B A'31-083 CV ---

CAM ADD A RTD TO DISCHARGE LINE 05/20/84 11/05/84 OF EACH CHARGING PUMP D E83-513 FW RDE JWW MAIN TURBINE / P-2C TRIP 05/20/84 07/29/85 INTERLOCK BYPASS FEATURE 1 A 8-083 FW S/L S/L RELOCATE P-2C CONTROLLER FROM 05/28/84 10/23/85 ; '

INSIDE MCB TO FRONT OF MCB.

s A30-083 RP RDE JWW ALAPM FOR TCB-9 05/28/84 02/12/85 B E84-009 ED RDE JWW LOSS OF 115KV ALARM 05/25/84 09/18/84

} E83-510 RC ---

CAM COMPUTER READOUT OF REACTOR 05/25/84 11/05/84 HEAD TEMPERATURE

$ XXX-015 EG RDE JWW WRONG MVAR METER ON MCB 05/25/84 09/21/84 SECTION 'A' 5 E84-002 CH RDE HGJ INSTALLATION OF GEMS SUMP 06/22/84 07/15/85 LEVEL TRANSMITTERS P E84-011 CH S/L S/L CONTAINMENT PARAMETERS 06/22/84 10/23/85 RELOCATION 1 E81-01] CV  ?  ? MITIGATION OF HARSH 06/22/84 REJECTED ENVIRONMENT

SIMULATOR MODIFICATIONS STATUS REPORT 2' l BY MR#

0 EDCR# SYSTEM HDW SFW DESCRIPTION OPEN INCORP

'ENG ENG DATE DATE~

@ E85-006 CV 2 -? MOD PAB HELB TRIP CIRCUIT 06/22/84- REJECTED ,

D' E81-003 CV RDE ---

HPSI HEADER RECIRC LINES 06/22/84 12/14/84  ;

REMOVAL OF.SIA-AI2,22,32 CDNT

$ E84-014 CV ---

JWW CHARGING SYSTEM FLOW 06/22/84 03/06/85 i RESTRICTOR FOR LTOP CONCERNS E A22-083 ED RDE JWW STAFF BLDG. UNDERVOLTAGE TRIP 06/22/04 10/30/84 l

@ E83-524 ED --- ---

FEMCO PWR SWAP ON' INVERTER #5 06/22/84 REJECTED  !

REJECTED l' E83-028 FW RDE HGJ NEW CONDENSER SURGE TANK AND 06/22/84 09/16/85 '

PIPING i B: E83-029 FW RDE JWW AUX FEED WATER SYS. MOD. 06/22/84 07/15/85 P E83-512 FW RDE JWW P eA AND B RECIRC. SYSTEM 06/22/84- 08/20/85 '

DE83-520 FW --- ---

REMOVAL OF AFW-1 INTERNALS 06/22/84 REJECTED ,

REJECTED D E84-010 FW RDE S/L P-2C LOW SUCTION TRIP TIME 06/22/84 10/23/85

' DELAY D E83-032 FC S/L S/L NEW SAT. MONITORS 06/22/84 10/23/85 ,

'i i E83-031 RC S/L S/L LOW TEMPERATURE OVERPRESSURE 06/22/84 10/23/85 j VARIABLE SETPOINT 2 E84-012 NI --- ---

LOG RECORDER REPLACEMENT 06/22/84 REJECTED REJECTED 1 P32-082 MS ---

JWW MANUAL OPERATIONS OF MS-T-163 06/22/84 10/18/85 i

L A28-083 CH --- ---

NNS INSTRUMENTATION, SIGNAL 06/22/84 REJECTED MULTIPLEXER - REJECTED l I

L E84-006 MS PDE HGJ REROUTE SCAVENGING VENT TO 06/22/84 09/16/85 FIPST POINT HEATERS \

l l- E83-009 MI RDE ---

APPENDIX R ELECTRICAL MOD. 06/22/84 11/20/84

' ~ A27-082 MS --- ---

AUX STEAM SUPPLY FROM CROSS- 06/22/84 REJECTED )

UNDER PIPING --- REJECTED XXX-038 RM RDE JWW MOVE LETDOWN LOW RMS MODULE 06/25/84 11/26/34 XXX-039 CR --- ---

VOID - CHANGE CORE 6 TO COPE 8 06/25/84 REJECTED REJECTED

SIMULATOR MODIFICATIONS STATUS REPORT 3 BY MR#

'# EDCR# SYSTEM HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE O XXh-040 PC ---

JWW UPDATE MODCOMP 06/25/84 05/24/85 1 XXX-041 RC RDE ---

NEW AMMETERS FOR RCP'S 06/25/84 11/20/84 2 XXX-042 FW RDE ---

NEW SCALE FOR P-2C PRESSURE 07/09/84 11/27/84 CONTROLLER 3 E84-016 FW RDE CAM FW & EFCV BYPASS ANNUNCIATOR 07/23/84 01/09/85 4 E83-508 SW RDE ---

APPENDIX "R" BUILDING 12/10/85 PAN ALARM WINDOW IN SECTION S 3 XXX-045 MI RDE ---

CHANGE ANNUNCIATOR BUTTONS TO 02/21/85 11/06/85 NEW COLORS

@- E84-070 FW RDE JWW AUTO BLOCK OF P-2C RECIRC 07/11/85 11/05/85 ABOVE 80%

7 E80-050 ED ---

S/L ADD ABILITY TO VARY 115 KV 07/22/85 10/23/85 VOLTAGE - ENHANCE MR #10 8 XXX-048 FW ---

S/L ADD ABILITY TO FAIL OPEN P-2C 07/22/85 10/23/85 '

RECIRC VALVE-EXPAND MALF FWO7 9 XXX-049 MI RDE ---

DISPATCHERS PHONE TO RING IN 07/24/85 INSTRUCTORS STATION 3 XXX-050 ED RDE JWW ADD 86P AND 86BU RELAYS TO MCB 08/07/85 AND REMOVE REMOTE FUNCTION.

1 E85-008 SG RDE ---

REGULATORY GUIDE 1.97 09/18/85 SG LEVEL RECORDERS 2 E84-072 RC  ?  ? REGULATORY GUIDE 1.97 09/18/85 PZR PRESSURE RECORDER

XXX-053 RC RDE ---

RX VESSEL LEVEL SIGMA 09/20/85 XXX-054 CR ---

? CORE UPDATE 09/20/85

. E84-050 RP BCG JWW IMPROVE SIAS " LOSS OF CONTROL" 09/20/85 10/25/85 ANNUNCIATORS t E84-063 CS --- JWW ELIMINATE SEAL CONTACTS FOR 09/20/85 10/25/85 CS-M-66 & CS-M-71 9 E84-069 CV  ?  ? RELOCATE CH-M-87 CONTROL 09/20/85 SWI70H AND LIGHTS 3 E84-071 RC  ?  ? RELOCATION OF REACTOR HEAD 09/20/85  ;

VENT SELECTION SWITCHES i 1

h

l .

l l SIMULATOR MODIFICATIONS STATUS REPORT 4 BY MR#

l# EDCRf SYSTEM HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE i9 E84-074 CS RDE JWW INTERCHANGE POSITIONS P61A & 09/20/85 11/05/85 P61S CONTROL SWITCHES

0 E84-075 FW RDE JWW PROVIDE INDICATION STEAM DUMP 09/20/85 12/03/85 ,

OVERRIDE AND PR-A-38 R E85-001 CV  ? ---

REMOVE PCP THROTTLE BUSHING 09/20/85 DP INSTRUMENTATION FROM MCB 2 E85-002 RC  ?  ? PRESSURIZER PANEL MODIFICATION 09/20/85 3 E84-003 RP ---

JWW REPLACEMENT OF RWST LEVEL 09/30/85 10/25/85 SWITCHES WITH TRANSMITTERS 6 E85-007 RC RDE JWW NEW PZR LEVEL INDICATION 09/20/85

@ E85-009 RC 7  ? RCS TEMPERATURE MODIFICATIONS 09/20/85

@ E85-011 MI  ?  ? MCB PLATFS FOR HUMAN FACTORS 09/20/85 DESIGN CHANGES 3 E85-012 CV  ?  ? CVCS/ LOOP PANEL MODIFICATION 09/20/85 7 E85-014 MI  ? ---

SEISMIC ANCHORAGE OF THE 09/20/85 REJECTED CEILING & LIGHT FIXTURES D XXX-068 MS ---

JWW ADD DECAY HEAT RELEASE 09/20/85 11/07/85 VALVE ISOLATION b XXX-069 RC PDE ---

NARROW RANGE PZR 09/20/85 PRESSURE RECORDER D XXX-070 RH RDE ---

P-12B AMP METER 09/20/85 REJECTED R E85-026 RH  ? ---

SI PANEL MODIFICATION 10/02/85 2 E84-053 PC ---

JWW ADDITION OF 20 AST AND 20 ET 10/02/85 11/05/S5 TO MODCOMP COMPUTER LOG B E85-023 FW ---

JWW P-2A & B TRIP ON HIGH SG LEVEL 10/07/85 10/25/85 3 E85-016 MS  ?  ? AUX STEAM SUPPLY 10/07/85 ,

UPSTREAM THE NRV I

$ E84-051 CV ---

JWW P-14 RETROFIT OF DIRECT 10/18/85 11/05/85 ;

DRIVE LUBE OIL PUMPS l l

5 E85-025 RP  ?  ? UPGRADE ECCS VALVES 10/21/85 i LIGHT BOXES P E85-042 TU ---

JWW GENERATOR STATOR RTD 10/21/85 12/03,85 l COMPUTER CONNECTION l

4

SIMULATOR MODIFICATIONS STATUS REPORT 5 BY MR#

1. EDCR# SYSTE?i HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE I8 E82-014 RH ---

JWW SI TANK & LFSI PURIFICATION 11/05/85 11/07/85

@ E84-068 MI  ?  ? ELIMINATION OF UNUSED 11/05/85 COMPONENTS FROM MCB

@ XXX-080 FW ---

JWW P-2C FIRST OUT OVERRIDE 11/05/85 11/07/85 3 E85-019 RC RDE JWW APPENDIX J PRIMARY SAMPLING 11/05/85 SYSTEM MODIFICATIONS 2 XXX-082 CV RDE JWW BORONOMETER SELECTOR SWITCH 11/05/85 8 XXX-083 YP ---

7 ADDITIONAL REMOTE FUNCTIONS 11/05/85 9 XXX-084 FW ---

JWW AUX FEED PUMP STEAM 11/19/85 BINDING MALFUNCTION 3 XXX-085 CW RDE JWW NEW FOREBAY LEVEL ANNUNCIATORS 11/20/85

%%X-086 ED ---

JWW DP/ PAC, DP/IAC MALFUNCTION 11/27/85 3 XXX-087 PC  ? ---

MODCOMP CRT AND KEYBOARD 12/03/85 FOR THE SOS DESK

XXX-088 PC  ? JWW 13" CRT FOR MCB SECTION "B" 12/03/85 3 XXX-089 FW ---

JWW P-2A AMP CHANGE CAUSED BY 12/06/85 MOTOR T.OTOR REPLACEMENT

@ XXX-090 RP ---

JWW RPS SET POINT CHANGES 12/10/85 FOR CORE 9 XXX-091 FW ---

JWW P-2C SET POINT CHANGES 12/16/85 XXX-092 RM ---

JWW LOCAL START OF THE 12/30/85 CONTAINMENT APD OPEN 32 CLOSED 57 TOTAL 89 l

l l

' >I d

i

}

)

I I

APPENDIX E Discrepancy Report Summary i

I I

i l

l

12/31/85 I SIMULATOR DISCREPANCY REPORTS 1 BY DR NUMBFR 3d# SYSTEM HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE i-0001 SG RDE ---

STEAM GENERATOR #1 LEVEL 05/14/85 05/21/85 RECORDER NOT ADVANCING.

-0002 SW RDE ---

RAW WATER PRESSURE INDICATOR 05/14/85 05/21/85 ERRATIC AND INACCURATE.

00003 CV RDE ---

SECOND RANGE LIGHT FOR BORON 05/29/85 05/31/85 METER DOES NOT COME ON.

i a0004 RP RDE ---

86 DEVICE CSAS B CONT SPRAY 05/29/65 06/10/85 SIGNAL FAILS TO FIRE.

o0005 RP ---

JWW TCB-9 DOES NOT HAVE A POWER 06/07/85 07/29/85 SUPPLY FOR THE AUDIBLE ANNUN 1

06/07/85 07/02/85 a0006 RC RDE ---

HIGH ALARM ON SIGMA PIC 101Y WILL NOT CLEAR.

=0007 RM ---

JWW PVS RMS (APD) READS TOO HIGH. 06/10/85 08/12/85 (ESPECIALLY DURING LOW POWER) z0008 EG ---

JWW MVAR METER DOES NOT DISPLAY 06/10/85 09/04/85 ACTUAL MVARS BUT EGVAM.

z0009 YP ---

JWW MODCOMP POWER SUPPLY SHOULD 06/10/85 08/23/85 BE POWERED FROM NNS BATTERY.

20010 RP ---

JWW NEGATIVE FLOW LIGHTS ON THE 06/10/85 08/26/85 RPS SHOULD BE LIT.

20011 RC ---

JWW PZR LEVEL DROPS TOO FAR ON A 06/10/85 08/19/85 TRIP - 22%. 1 20012 CR ---

JWW CORE EXIT THERMOCOUPLE DRIFT 06/10/85 CAUSING ASSOCIATED ALARMS.

20013 YP RDF ---

SEL COMPUTER CANNOT IPL 06/12/85 06/20/85 FROM DISK.

>0014 YP ---

JWW N68 LOAD AND SYSLOAD R CAUSE 06/17/85 07/09/85 A COMPUTER FAULT.

20015 RP RDE ---

RPS CHANNEL C #1 AND #2 06/17/85 06/24/85 DROP-OUT LIGHTS ARE REVERSED.

20016 YP ---

JWW #1 EFCV OPEN POSITION IS NOT 06/17/85 07/12/85 MAPPED IN SWITCH CHECK.

>0017 SW ---

JWW C-A-14 AND C-A-15 BLINK ON 06/18/85 08/22/85 ANNUNCIATOR TEST.

l 20018 RP BCG ---

OCCASIONAL INADVERTENT FIRING 06/19/85 10/29/85 OF 86 CIS B3 l

_ ._ .._____________a

SIMULATOR DISCREPANCY REPORTS 2 BY DR NUMBER DR# SYSTEM HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE

-0019 RD ---

JWW MANUAL SEQUENTIAL ROD CONTROL 06/19/85 12/27/85 SHOULD NOT WORK W/O MODCOMP.

-0020 YP ---

JWW PORV/ SAFETY ACCOUSTIC MONITORS 06/20/85 MAP SWITCH

-0021 RD ---

JWW GROUP SB CONTROL RODS ARE NOT 05/23/85 06/05/85 BEING SENT TO THE MODCOMP.

-0022 RC RDE ---

PS-A-2 WILL NOT OPEN. 06/22/85 06/25/85 POSSIBLE SWITCH PROBLEM

=0023 RP RDE - - - -

RPS CHANNELS AUCTIONEERING 06/27/85 07/02/85 INPUT TEST.

0024 FD ---

JWW 27Y5 AND Y6 SHOULD NOT FIRE IF 07/01/85 07/10/85 ASSOCIATED BREAKER IS IN PTL.

a0025 RC RDE ---

CONTROL SWITCH FOR THE "E" 07/08/85 07/10/85 BACK-UP PZR HEATERS IS BROKEN.

00026 EG RDE ---

DG-1B CONTROL SWITCH IN THE 07/10/85 07/10/85 PTL POSITION

=0027 FW ---

JWW FEED REG VALVE PREVIEW SIGNAL 07/10/85 08/26/85 20028 ED ---

JWW CROSS-TIE 480V NON EMG BUSES 07/10/85 09/04/85 WITH DIESELS RUNNING I

00029 RP ---

JWW SIAS ANNUNCIATOR LIGHT TEST 07/10/85 11/15/85 l 20030 EG ---

JWW DIESEL GENERATOR SYNSCOPE 07/10/85 08/30/85 TURNS WITHOUT INCOMING VOLTAGE l 20031 CH RDE ---

CONT SUMP LEVEL INDICATION 07/11/85 07/12/85 POWER SUPPLY METERS 0032 ED ---

JWW 86 BU SHOULD NOT FIRE IMMEDI- 07/11/85 08/30/85 ATELY UPON A TURBINE TRIP.

0033 SG RDE ---

1. 2 STEAM GENERATOR LEVEL 07/19/85 08/09/85 RECORDER IS ERRATIC.

20034 FW ---

JWW TOO MUCH LEAKAGE PAST MFRV. 07/22/85 08/19/85 SHOULD ONLY BE 5% ,

1 00035 CV ---

JWW DRAIN COOLER INLET PRESSURE 07/25/85 10/29/85 l READS HIGHER THAN RCS PRESSURE 20036 CV ---

JWW SEAL INJECTION TEMPERATURE 07/25/85 09/16/85 ,

RESPONSE DROPS OFF TOO FAST.

_ _ _ _ .-------------____________a

SIMULATOR DISCREPANCY REPORTS 3 BY DR NUMBER

@R# ' SYSTEM HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE l

o0037 CW ---

JWW COULD NOT REPRODUCE UNUSUAL 07/25/85 OCCURENCE REPORT #012-85.

00038 TU ---

JWW TURBINE GOVERNOR VALVES AT 80% 07/25/85 11/15/85 POWER HAVE TOO MUCH BITE.

00039 CH BCG- JWW INCORRECT SCALE ON CONTAINMENT 07/26/85 10/30/85 PRESSURE SIGMA j 00040 YP ---

JWW SW 07 DESCRIPTION ON TABLEAU 07/26/85 08/12/85 i PAGE SW-1 IS INCORRECT.

i e0041 RC ---

JWW . ENGINEERING UNITS REQUIRING 07/30/85 08/13/85 ~

CONVERSION SHOULD BE ON SEL 00042- RC ---

JWW SI LEVELS ARE IN PERCENT ON 07/30/85 08/12/85 MODCOMP. CONVERT SEL VARIABLES

=0043 CH ---

JWW CONTAINMENT FDN SUMP 07/31/85 11/05/85 '

ANNUNCIATOR W-D-3

=0044 FD BCG JWW ROD POSITION DVM POWER SUPPLY 07/31/85 11/15/85 20045 RH ---

JWW LSI M 11, 21, 3.1 POWER SUPPLY 07/31/85 09/04/85 z0046 RM ---

JWW CONTAINMENT APD PUMP POWER 07/31/85 09/18/85 SUPPLY RM-6102 20047 YP ---

JWW SYSLOAD R WILL NOT WORK. 07/31/85 08/12/85 )

20048 SW ---

JWW SMOKE DETECTOR PANEL 08/05/85 08/23/85 POWER SUPPLY

=0049 RM ---

JWW CONTAINMENT LOW & MANIPULATOR 08/07/85 11/05/85 CRANE RMS (RI 6104 & 6105) 20050 YP ---

JWW PDIL ALARMS 08/07/85 09/06/85 z0051 YP ---

JWW TDFP CONTROLLER SWITCH CHECK 08/07/85 10/29/85 20052 SG ---

JWW SG LOW PRESSURE SIGNAL LOGIC 08/19/85 2 0053 SW ---

JWW AUTO START TIME DELAY FOR P-4 08/19/85 09/04/85 i DURING LOSS OF OFF-SITE POWER

=0054 CV ---

JWW DR-S-11 IS NOT MODELED 08/20/85 11/05/85 20055 YP. BCG ---

OCCASIONAL POWER INTERRUPT 08/20/85 11/05/85 ,

OF SIMULATION 20056 YP ---

JWW BACKTRACK SWITCH CHECK 08/20/85 1 l

1 l

l SIMULATOR DISCREPANCY REPORTS 4 BY DR NUMBER l

@R# SYSTEM HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE le0057 CS ---

JWW CS-A-55 AND CS-A-56 08/20/85 08/22/85 WRONG POWER SUPPLY MODELED 00058 CV BCG ---

VCT PRESS SIGMA CALIBRATION 08/21/85 09/04/85 e0059 CS ---

JWW CONT SUMPS RISE TOO FAST WHEN 08/21/85 08/22/85 CS-A-55 AND 56 OPEN 00060 IA ---

JWW CONTAINMENT AIR PRESSURE 08/23/85 08/30/85 TRANSMITTER CHECK VALVES 20061 CH ---

JWW CONTROL ROOM VENTILATION 08/26/85 11/05/85 DAMPER D-7A AND D-7B

=0062 YP ---

JWW EXEC 1 EXCEEDED MEMORY 08/23/85 08/30/85 BOUNDARY

=0063 EG ---

JWW GENERATOR VOLTAGE REGULATOR 08/29/85 09/16/85 SENSITIVITY

=0064 CV ---

JWW VCT PRESSURE MPX 09/04/85 09/16/85

=0065 RC ---

JWW RCP BREAKER STATUS MPX POINTS 09/13/85

=0066 PC ---

JWW SOE MPX POINTS NOT MODELED 09/13/85 09/16/85 20067 CW ---

JWW CW SOE POINT IS NOT DERIVED 09/16/85

=0068 IM) ---

JWW ED SOE POINTS ARE NOT DERIVED 09/16/85 20069 EG ---

JWW EG SOE POINT IS NOT DERIVED 09/16/85

=0070 RC ---

JWW RC SOE POINTS ARE NOT DERIVED 09/16/85 20073 RH ---

JWW RH SOE POINTS ARE NOT DERIVED 09/16/85

=0072 SW ---

JWW SW SOE POINTS ARE NOT DERIVED 09/16/85

=0073 CV BCG ---

CONTROL SWITCHES FOR 09/25/85 10/29/85 CH-M-1 & CH-M-87

=0074 YP ---

JWW SOE'S DEFINED 09/26/85 BUT NOT IN N68PPCI 20075 ED ---

JWW ED SOE POINTS 09/27/85 20076 EG ---

JWW EG SOE POINTS 09/27/85

=0077 FW ---

JWW FW SOE POINTS 09/27/85 20078- MS ---

JWW MS SOE POINT 09/27/85 12/23/85

SIMULATOR DISCREPANCY REPORTS 5 BY DR NUMBER

. R# SYSTEM HDW SFW DESCRIPTION OPEN INCORP

\ ENG ENG DATE DATE__

-0079 ED ---

JWW ANNUNCIATORS UPON A LOSS 10/24/85 11/05/85 OF MCC-12

-0080 CV --- JWW RCP SEAL PESPONSE ON OUTLET 10/28/85 11/05/85 VALVE CLOSURE i l

0081 CC ---

JWW PCC TEMPERATURE RESPONSE 10/29/85 l UPON RCP TRIP 0082 YP --- JWW 86-SIAS-B2 SWITCH CHECK 10/29/85 11/15/85 0083 YP ---

JWW NO ROOM IN EXEC #2 10/28/85 10/30/85 l 0084 SW ---

JWW SWO2A BACKWARDS 10/31/85 0085 RM ---

JWW MAIN STEAM RAD MONITORS 10/31/85 LOGIC RESPONSE 0086 PP ---

JWW LOSS OF SIAS CONTROL 11/01/85 11/05/85 POWER ANNUNCIATOR 0087 MS ---

JWW MS-T-163 OVERRIDE RF 11/04/85 11/05/85 0088 RC ---

JWW RCP VIBE RECORDER DEVIATION 11/05/85 0089 PC ---

JWW COMPUTER SOE'S BACKWARDS 11/05/85 0090 PC ---

JWW COMPUTER POSTMORTEM 11/05/85 0091 PC ---

JWW COMPUTER XE PLOT 11/05/85 0092 PC ---

JWW COMPUTER MWTH CALCULATION 11/05/85 12/27/85 0093 MS ---

JWW MWE POWER LOWER 11/12/85 12/27/85 0094 FW ---

JWW AUX FEED REG VALVE RESPONSE 11/15/85 11/18/85 UPON A LOSS OF DP/ PAC 0095 RC ---

JWW RV HEAD TEMPERATURE 11/15/85 11/15/85 Q096 CC ---

JWW TURBINE GENERATOR COLD GAS 11/19/85 TEMPERATURE TOO HIGH 0097 EG ---

JWW SIMULTANEOUS INSERTION OF 11/.19/85 MF ED08 & EG05 0098 PC ---

JWW SWITCH CHECK FOR HV-9 11/19/85 0099 CV ---

JWW CV-17 MALFUNCTION 11/21/85 LOSS OF VAPOR SEAL 0100 FW ---

JWW P-2C TRIP UPON MF ED05D 11/21/85

.c SIMULATOR DISCREPANCY REPORTS 6 BY DR NUMBER R# SYSTEM HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE 9101 RM ---

JWW CR01 FAILED FUEL MALFUNCTION 11/21/85

$102 RP ---

JWW MANUAL PUSH BUTTON 11/21/85 FIRST OUT ANNUNCIATOR i D103 PC ---

JWW MPX POINTS CALCULATED 11/21/85 INCORRECTLY 3104 ED ---

JWW REMOTE FUNCTION ED110 11/27/85 3T5/5R BYPASS INTERLOCK 3105 FW ---

JWW P-2C FLOW INDUCED VIBRATIONS 11/27/85 3106 MS ---

JWW MS-A-162 WON'T STAY CLOSED 11/27/85 j 3107 MS RDE ---

TURBINE GLAND SEAL 11/27/85 12/23/85 PRESSURE METER 3108 CV ---

JWW VCT PRESSURE RESPONSE 12/02/85 TOO SEVERE 3109 PC ---

JWW MONITOR PARAMETER FOR MWTH 12/02/85 12/09/85 i D110 RM ---

JWW MANIPULATOR CRANE & 12/02/85 CONTAINMENT LOW RMS RESPONSE D111 CW RDE ---

VACUUM PRIMING ALARM SET POINT 12/02/85 12/04/85 I D112 RC RDE ---

PZR PRESSURE SIGMA "Y" STICES 12/02/85 12/20/85 i D113 SG RDE ---

PIC 1013A SIGMA OSCILLATES 12/02/85 12/19/85 D114 RX RDE ---

FRV BYPASS PRESET CONTROLLERS 12/03/85 12/18/85 D115 ED ---

JWW DG BREAKER RESPONSE UPON 12/03/85 ED04 A & B i

)116 PC RDE ---

MODCOMP TREND PRINTER 12/03/85 1

D117 PC ---

JWW .MODCOMP ALARM SCREEN RESET 12/03/85 j

\

D118 PC ---

JWW XENON MPX INOPERABLE 12/03/85 12/09/85 7119 FW ---

JWW HEATER DRAIN TANK 12/03/85 LEVEL CONTROL D120 CW ---

JWW 4KV AUTO TRIP ANNUNCIATOR 12/03/85 CAUSED BY P-26 D121 PC ---

JWW INCA DATA 12/03/85 12/13/85 D122 RM ---

JWW CONTAINMENT APD . LOW FLOW 12/03/85

~

SIMULATOR DISCREPANCY REPORTS 7 BY DR NUMPER  !

d DR# SYSTEM HDW SFW DESCRIPTION OPEN INCORP ENG ENG DATE DATE .)

l

-0123 MI RDE ----

DISPATCHERS PHONE WON'T RING 12/03/85 l

-0124 MI RDE ---

OCCASIONAL POWER INTERRUPT 12/03/85

-0125 'SW ---

JWW TIDE LEVEL RECORDER OFF 12/04/85

B Y A F A C T O R O F 1 0 e0126 RM ---

JWW RMS RECORDERS ON UNIT 8 12/06/85 e0127 NI RDE ---

OCCASIONAL NI SPIKING 12/06/85 12/23/85 ON ALL CHANNELS -

f I

-12/09/85 o0128 FW ---

JWW P-2C.RECIRC. AUTO BLOCK SET POINT-CHANGE 00129 CV ---

JWW CV03 INCORRECT RESPONSE 12/10/85 00130 YP ---

JWW CANNOT CLEAR MALFUNCTIONS 12/12/85 ON LINE 1 b0131 FW ---

JWW P-2C FIRST OUT POWER SUPPLY 12/09/85 RFMOTE FUNCTION P0132. YP ---

JWW CH-M-1 POWER SUPPLY 12/16/85 12/24/85 REMOTE FUNCTION 20133 NI RDE ---

NI RECORDER BROKEN FACEGLASS 12/16/85 x0134 lPC --- JWW MAIN CONTROL BOARD PDIL ALARMS 12/17/85 20135 YP ---

JWW TPR INOPERABLE 12/17/85 20136 YP RDE ---

REMOTE DEVICE INOPERABLE 12/17/85 12/19/85 ,

60137 ED ---

JWW ELECTRIC BOARD AMP READINGS 12/18/85 DIFFERENT FROM REAL PLANT

=0138 ED ---

JWW UNIT POWER IS ZERO IF 12/26/85 KG-1 & KG-1/375 IS OPFN 50139 RC ---

'JWW PZR BACKUP HEATER AUTO SHUTOFF 12/26/85 P0140 RD ---

JWW RDOS - EJECT RCD 12/26/85 POSITION INDICATION 20141 RM ---

JWW RMS RESPONSE UPON A 12/26/85 SMALL BREAK LOCA

>0142 SW ---

JWW SMOKE DETECTOR UPON RC02 12/26/85 i 20143- RC RDE ---

LOOP 1 TC RECORDER NOT DRIVING 12/26/85 i

i l

SIMULATOR DISCREPANCY REPORTS 8 BY DR NUMBER 4

DR# SYSTEM IIDW SFW DESCRIPTION OPEN INCORP i ENG ENG DATE DATE l

-0144 SG RDE ---

SG LEVEL SIGMA OSCILLATES 12/26/85 l i

1 l

OPEN 61 l CLOSED 83 TOTAL 144 I

- - - - - - - - - - - - - - - - - - - - - - - - -