ML091480199
ML091480199 | |
Person / Time | |
---|---|
Site: | Farley |
Issue date: | 05/28/2009 |
From: | NRC/RGN-II |
To: | Southern Nuclear Operating Co |
References | |
Download: ML091480199 (81) | |
Text
HLT-32 NRC JPM exam a. Page 1 of 6 a.JPM TITLE: Ramp Down To 540 MW at 4 MW/Min And Perform Corrective Actions In Response To A Malfunction Of The Rod Control System For A Continuous Rod Insertion.
TASK STANDARD: Commence a ramp down in power, recognize a continuous rod insertion, trip the Reactor by opening CRDM MG set breakers within 30 seconds of receiving a reactor trip first out alarm, and manually trip the Main Turbine by securing the EH pumps.
PROGRAM APPLICABLE: SOT SOCT OLT --L LOCT ACCEPTABLE EVALUATION METHOD: --L PERFORM --L SIMULATE DISCUSS EVALUATION LOCATION: --L SIMULATOR CONTROL ROOM PLANT PROJECTED TIME: 10 MIN SIMULATOR IC NUMBER: IC-212 ALTERNATEPATH--L TIME CRITICAL PRA Examinee:
Overall JPM Performance: Satisfacto 0 Unsatisfactor 0
~valuator Comments (attach additional sheets if necessary)
EXAMINER: _________________
HLT-32 NRC JPM exam a. Page 2 of 6 CONDITIONS When I tell you to begin, you are to RAMP DOWN TO 540 MW AT 4 MW/MIN. The conditions under which this task is to be performed are:
- a. The Plant is at 74% power.
- b. There has been a report of an abnormal noise coming from the IB SGFP turbine.
- c. The Unit Operator is enroute to the control room from the Service Water Intake Structure, but has not arrived yet.
- d. The Shift Supervisor has directed you to ramp down to remove IB SGFP from service for maintenance per the following:
- ramp down per UOP-3.1, step 8.3 using RODS ONLY
- ramp to 540 MW at 4 MW/min
- e. A pre-job brief is not required.
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME EXAMINER'S NOTE:
- ELEMENT 1 MAY BE PERFORMED AFTER INSERTING RODS. THE SEQUENCE OF ELEMENTS 1 AND 2 IS NOT CRITICAL.
- IF A BORATION IS ATTEMPTED, IT WILL NOT WORK (FCV-113A IS FAILED IN THE CLOSED POSITION).
- EXAMINER'S CUE IF NECESSARY:
"THE SHIFT SUPERVISOR DIRECTS YOU TO USE RODS TO RAMP DOWN AS STATED IN THE INITIAL CONDITIONS".
- 1. Commences ramp to 540 MW at 4 Inputs 540 MW target, 4 MW/Min MW/Min per the instructions on the DEH ramp rate, depresses select, and computer Screen. depresses GO pushbutton (GO UOP-3.1, Step 8.3 pushbutton lights up). S / U
- 2. Takes CONTROL ROD MOTION switch WHEN inward rod movement is to RODS IN position as needed to maintain demanded, recognizes rod Tavg within +/- 1.5°F of Tref. movement is inward and S / U UOP-3.1, Step 2.3. continuous.
- 3. Verifies NO load change in progress. Depresses Main Turbine HOLD pushbutton. Observes Turbine AOP-19.0 Step 1 HOLD pushbutton lights up. S / U
HLT-32 NRC JPM exam a. Page 3 of 6 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 4. Places rods in Auto and observes rods Places rods in Auto and observes continue to step inward. rods continue to step inward.
AOP-19.0 Step 2.1 S/U
- 5. Attempts to trip the reactor using both Attempts to trip the reactor using Reactor Trip handswitches. both MCB Reactor Trip AOP-19.0 Step 2.2 handswitches. Observes reactor does not trip. S/U
- 6. Trips the reactor within 30 seconds of Trips the reactor placing both receiving a reactor trip first out alarm by CRDM MG set breaker placing both CRDM MG set breaker handswitches to open.
handswitches to open. Observes all DRPI rod bottom S/U EEP-O.O Step 1.1.3 RNO lights lit.
- 7. Attempts to trip the Main Turbine using Attempts to trip the Main Turbine MAIN TURB EMERG TRIP handswitch. by placing the MCB MAIN TURB EEP-O.O Step 2.1 RNO EMERG TRIP handswitch to TRIP for at least 5 seconds.
Observes all Throttle valves open S I U by TSLB214-1,2,3,4 NOT lit.
- 8. Trips the Main Turbine by placing both EH Attempts to trip the Main Turbine handswitches to STOP. by placing the MCB MAIN TURB EEP-O.O Step 2.2 RNO EMERG TRIP handswitch to TRIP for at least 5 seconds.
Observes all Throttle valves closed S I U by TSLB2 14-1,2,3,4 UT.
- 9. Checks power to all 4160V ESF busses. Checks EPB AC power available EEP-O.O Step 3 lights lit for 4160V busses F, K, G, L. Observes they are all lit. S I U
)
HLT-32 NRC JPM exam a. Page 4 of 6 NOTE: IN THE FOLLOWING ELEMENT, AN SI WILL OCCUR. (This is due to the Main Turbine manual trip l?ei!lgblocked and the applicant does not have a Unit Operator to help)
- 10. Checks SI status and observes SI has Checks SI status and Observes SI occurred and continues on in EEP-O.O to has occurred and continues on in Step 5 AFfER verifying immediate actions EEP-O.O to Step 5.
with the procedure. Observes MLB 1 "1-1" and 11-1" EEP-O.O Step 4 lights are lit, and BYPASS AND PERMISSIVE panel SI ACTUATED light is lit. SIU EXAMINER'S CUE IF NECESSARY: "THE SHIFT SUPERVISOR DIRECTS YOU TO VERIFY IMMEDIATE ACTIONS WITH THE PROCEDURE"
- 11. Verifies Immediate actions in EEP-O.O. Opens EEP-O.O, Reactor Trip or S I U EEP-O.O Step 1-4 Safety Injection, and verifies steps 1-4 are complete.
STOP TIME
)
Terminate when immediate actions ofEEP-O have been verified (steps 1-4).
CRITICAL ELEMENTS: Critical Elements are denoted with an asterisk (*) preceding the element number.
HLT-32 NRC JPM exam a. Page 5 of 6 GENERAL REFERENCES
- 1. FNP-l-UOP-3.l, Version 96
- 2. FNP-l-AOP-19.0, Version 23.0
- 2. KlAs: 001 A2.11 RO-4.4 SRO-4.7 GENERAL TOOLS AND EQUIPMENT None COMMENTS
JPM a. (1 Page) HANDOUT CONDITIONS When I tell you to begin, you are to RAMP DOWN TO 540 MW AT 4 MWIMIN. The conditions under which this task is to be performed are:
- a. The Plant is at 74% power.
- b. There has been a report of an abnormal noise coming from the lB SGFP turbine.
- c. The Unit Operator is enroute to the Control room from the Service Water Intake Structure, but has not arrived yet.
- d. The Shift Supervisor has directed you to ramp down to remove I B SGFP from service for maintenance per the following:
- ramp down per UOP-3.l, step 8.3 using RODS ONLY
- ramp to 540 MW at 4 MWImin
- e. A pre-job brief is not required.
Unit One Reactivity Briefing Sheet l~e~~~}],E1~jf,~~~~i¥~~~J!t~;~~f;rtt~
",STemp 565.5 of Current RCS Borations I Dilutions:
IPWR 74.0% Borate Dilute Current Xenon Concentration 2726PCM 13 Gal. 20 Gal.)
Burnup 10000 MWDIMTU Reactivity Additions: -13.11 3.71 PCM As of (Date & Time) 911812008 13:46 Total Reactivity Addition: -9.40 PCM Calculated Burnup 10000 MWD/MTU Net RCS Temperature Effect: -1.01 oFt As Of 9118108 1346 Net Rx Power Effect: -0.59 %
Assumes constant power since Last Power history update Boron Worth -8.07 PCM/PPM RCS Boron 1142 Power Defect 1,170 PCM BAT Concentration 7350 PPM MTC -9.34PCMI"F Current Bank Boric Acid Required for Power reduction Delta Rod Position: 200.5 Steps With no Control rod movement Delta Power Delta Acid Required Rod Worth Delta Power Defect (PCM) PPM (Gallons)
Steps Out 1.00% 15 1.81 15 One 9PCM 2.00% 29 3.63 29 Two 17PCM 5.00% 73 9.07 73 Five 44PCM 10.00% 146 18.13 145 Ten 84PCM 20.00% 293 36.27 291 Twenty 143 PCM 25.00% 368 45.55 366 Fifty 50.00% 777 96.27 776 75.00% N/A N/A N/A Steps In 100.00% N/A N/A N/A One -9PCM Two -18 PCM Five -45PCM Ten -89PCM Twenty -168 PCM Fifty -341 PCM RCS Blended Flow Makeup Requirements Acid to BorateJRMWto dilute 1 PPM(IReqUired FK-113 1 PPM (GaL) IGal.) Acid flow Pot Rate Setting GPM Values for Normal 43.S Auto M/U (Bat-100 ppm boron)
Values based on 3.12 Gal. 43.5 Gal.
Actual Bat Concentration Valid For Unit One cycle 22 Core Physics Curves:
Curve 5 Rev 25 Curve 27 Rev 24 Curve 34 Rev 42 Curve 57 Rev 31 Curve 57A Rev 21 Printed by 10/27/2008 @ 1:47 AM Training_U1 reactivity sheet-xis Version 5.2
HLT-32 NRC JPM exam b. Page 1 of 5 b.JPM TITLE: Evaluate The RHR System sample results and EITHER borate the RHR system or place the RHR System in Standby for RCS Cooldown.
TASK STANDARD: Evaluate the boron concentration of the RHR system, and determine that it needs to be borated to increase RHR System boron concentration above the CSD boron concentration, then borate the 'A' Train RHR system.
PROGRAM APPLICABLE: SOT SOCT OLT~ LOCT ACCEPTABLE EVALUATION METHOD: ~ PERFORM ~ SIMULATE DISCUSS EVALUATION LOCATION: ~ SIMULATOR CONTROL ROOM PLANT PROJECTED TIME: 25 MIN SIMULATOR IC NUMBER: IC-213 ALTERNATEPATH~ TIME CRITICAL PRA Examinee:
Overall JPM Performance: Satisfactory 0 Unsatisfactorj' 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER: ________________
)
HLT-32 NRC JPM exam b. Page 2 of 5 CONDITIONS When I tell you to begin, you are to EVALUATE THE RHR SYSTEM SAMPLE RESULTS AND EITHER BORATE THE RHR SYSTEM OR PLACE THE RHR SYSTEM IN STANDBY FOR RCS COOLDOWN. The conditions under which this task is to be performed are:
- a. The Plant is in Mode 3.
- b. The CCW system is in operation and aligned per SOP-23.0.
- c. The RCS has been borated to 2000 ppm in preparation for a refueling outage.
- d. FNP-1-S0P-7.0, Residual Heat Removal System, section 4.1 up to step 4.1.10 is complete.
805 ppm.
- f. Fuel Burnup is 16,000 MWD/MTU.
- g. You are directed to continue in SOP-7.0, at step 4.1.11 OR 4.1.12 as applicable.
EXAMINER NOTE: PREJOB BRIEF IS EXPECTED FOR THIS TASK. STARTING THIS TASK IN A ROOM OUTSIDE OF THE SIMULATOR WITH PROCEDURES AVAILABLE (SOP-2.1, SOP-7.0,AND CORE PHYSICS CURVES 61 AND 61A) SHOULD PROVIDE EFFICIENT USE OF THE SIMULATOR WHICH IS NOT NEEDED UNTIL E.EMENT2.
) EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME
- 1. Evaluates Boron Sample results with CSD Evaluates Boron Sample results boron concentration per curve 60 & 61A and with CSD boron concentration per determines that the 'A' Train RHR system curve 60 & 61A and determines must be borated. that the 'A' Train RHR system SOP-7.0 Step 4.1.12 must be borated. S/U
- 2. Verify closed 'B' train RHR to CVCS Call the S. O. to verify the position letdown isolation RHR-V-8720B (VOl3B). of VOl3B. (CUE: The S. O. S/U SOP-7.0 Step 4.1.12.1 reports that VOl3B is closed.)
- 3. Open' A' train RHR to CVCS letdown Ask the S. O. to open VOl3A. S/U isolation RHR-V -8720A (V013A). (CUE: The S. O. reports that SOP-7.0 Step 4.1.12.2 VOl3A is open.)
CUE: THE SHIFT SUPERVISOR DOES NOT DESIRE EXCESS LETDOWN IN SERVICE.
SOP-7.0 SteD 4.1.12.3
HLT-32 NRC JPM exam b. Page 3 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 4. Compare LETDOWN PRESSURE and 'A' Check letdown PI -145 and RHR RHR pump discharge pressure. pump discharge PI-600A.
SOP-7.0 Step 4.1.12.4 Observes PI-145 > PI -600A. S I U
- 5. Directs Chemistry to secure the Zinc Directs Chemistry to secure the Addition System. Zinc Addition System. (CUE: The S I U SOP-2.1 Step 4.3.1 Zinc Addition System is secured.)
- 6. Place LP LTDN PRESS PK 145 in Manual PK 145 Manual Pushbutton is and demand at approximately 50%. depressed and is backlit at ~ 50%
SOP-2.1 Step 4.3.2 & 3 demand. S I U
- 7. Close the LTDN ORIP Isolation valves The handswitches for HV-8149A, QIE21HV8149A, B, & c. B, & C taken to close. Observes:
SOP-2.1 Step 4.3.4 HV-8149A, B, & C green lights are lit, red lights are NOT lit. S I U
- 8. If desired, close both LTDN LINE Isolation V459 & V460 may be closed or Valves QIE21V459 & 460. left open. Observes red light lit for SOP-2.1 Step 4.3.5 open valves and green light lit for closed valves. S I U
- 9. Place CHG FLOW FK 122 in MANUAL FK 122 Manual pushbutton is and adjust demand to 0% (closed). depressed and is backlit. Demand SOP-2.1 Step 4.3.6 & 7 is lowered to 0%. S I U
- 10. Adjust Seal Injection Flow as needed. HIK 186 is adjusted as needed to SOP-2.1 Step 4.3.8 maintain ~ 8 gpm flow to each Ra. S/U I EXAMINER'S CUE: "ANOTHER OPERATOR WILL PERFORM STP-S.O PER STEP 4.3.10".
- 11. Diverts letdown to VCT. Places handswitch for LTDN HI SOP-7.0 Step 4.1.12.5 TEMP DIVERT VLV TCV-143 to the VCT position. Observes the The VCT light is lit, the Demin light is NOT lit. S/U
- 12. Diverts letdown to the RHT's. VCT HI LEVEL DIVERT VLV SOP-7.0 Step 4.1.12.6 LCV-115A placed to the RHT position. Observes the VCT light is NOT lit, the RHT light is lit. S I U
HLT-32 NRC JPM exam b. Page 4 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 13. Slowly open RHR TO LTDN HX HIK-142. HIK-142 turned clockwise to open. S / U SOP-7.0 Step 4.1.12.7
- 14. Adjust LP LTDN PRESS PK-145 as LP LTDN PRESS PK-145 adjusted necessary to provide maximum letdown not to exceed 135-gpm flow on FI-flow. 150. S / U SOP-7.0 Step 4.1.12.8
[ EXAMINER'S CUE: FIVE MINUTES HAVE ELAPSED.
- 15. Closes RHR to LTDN Hx HIK-142. HIK-142 turned counterclockwise SOP-7.0 Step 4.1.12.9 to close. S / U
- 16. Requests chemistry sample' A' train RHR. Chemistry called to sample 'A' SOP-7.0 Step 4.1.12.9 train RHR. (CUE: Chemistry S / U acknowledges the request for a sample of 'A' train RHR.)
EXAMINER'S CUE: ANOTHER OPERATOR WILL CONTINUE WITH THIS PROCEDURE AFTER THE SAMPLE RESULTS ARE OBTAINED.
_ _ _ STOP TIME Terminate JPM when Boron sample has been requested.
CRITICAL ELEMENTS: Critical Elements are denoted with an asterisk (*) before the element number.
GENERAL REFERENCES
- 1. FNP-1-S0P-7.0, Version 78.0
- 2. FNP-1-S0P-2.1, Version 96.0
- 3. Curve 61 & 61A, Unit 1 Cycle 22 (Rev. 22)
- 3. K/As: 004 A2.1O RO-3.9 SRO-4.2 005K5.09 RO-3.2 SRO-3.4 GENERAL TOOLS AND EQUIPMENT Provide: Entire "Unit 1 Physics Curves" book OR Curve 61 AND 61A, cycle 22 COMMENTS
JPM b. (1 Page) HANDOUT CONDITIONS When I tell you to begin, you are to EVALUATE THE RHR SYSTEM SAMPLE RESULTS AND EITHER BORATE THE RHR SYSTEM OR PLACE THE RHR SYSTEM IN STANDBY FOR RCS COOLDOWN. The conditions under which this task is to be performed are:
- a. The Plant is in Mode 3.
- b. The CCW system is in operation and aligned per SOP-23.0.
- c. The RCS has been borated to 2000 ppm in preparation for a refueling outage.
- d. FNP-I-S0P-7.0, Residual Heat Removal System, section 4.1 up to step 4.1.10 is complete.
805 ppm.
- f. Fuel Burnup is 16,000 MWD/MTU.
- g. You are directed to continue in SOP-7.0, at step 4.1.11 OR 4.1.12 as applicable.
~)
)
Westinghouse Proprietary Class 2 PCB-I-VOLl-CRV61 UNIT 1 CYCLE 22 CURVE 61 Minimum Boron Concentration to Assure 1.00% and 1.77% ~K/K Shutdown Margin at Various Moderator Temperatures and Core Burnups (Assumes All Rods In with the Most Reactive Rod Stuck Out and Xenon-Free Conditions)
REV.~
APPROVED, ~~ ~
~;N ERING SUPPORT MANAGER
/(J//~Ior
~~
Vessel Average Moderator Temperature ("F)
(1.00% SOM) (1.77% SOM)
Burnup (MWO/MTU) 68 200 200 300 400 500 547 0 1301 1285 1360 1340 1304 1226 1130 150 1296 1280 1355 1338 1306 1230 1136 1000 1300 1285 1359 1343 1310 1235 1141 2000 1339 1320 1396 1372 1335 1260 1168 3000 1373 1354 1429 1406 1360 1274 1179 4000 1390 1372 1447 1423 1375 1278 1177 6000 1387 1366 1440 1413 1359 1251 1135 8000 1344 1319 1392 1361 1299 1179 1056 10000 1274 1245 1316 1279 1210 1074 946 12000 1184 1150 1219 1176 1098 950 810 14000 1069 1031 1098 1051 965 802 658 16000 940 897 962 909 814 639 487 18000 798 750 813 754 653 466 307 20250 626 571 632 569 458 257 100 Note: All cases were run with ARI and the most reactive rod withdrawn, no Xenon. BOL has peak Sm, then Sm depleted through end of life. All concentrations are in ppm (100 ppm allowance included). Additional boron may be required to sati~fy boron dilution concerns at hot and cold shutdown (See Curve 61A). Information includes Bl depletion considerations.
ARO Critical Boron Concentration = 1659 ppm (BOL, HZP, Xenon-free conditions for Cycle 22)
westmgnouse Propnetary Class L PCB-I-VOU-CRV61A UNIT 1 CYCLE 22 CURVE 61A Minimum Boron Concentration for Hot and Cold Shutdown To Satisfy Inadvertent Boron Dilution Accident Requirements (RHR Flowrate?: 1000 gpm)
REV. 3~
APPROVED: &tPv-- I O};~j01-EN 'DA1'E '
1800
~
~--
1600 L
~
~
["-.,.. V I MODE S Z
0
~ 1400
,..L" ...........
v
~
Ar "-
b Z
~
U V " "- "
Z 1200
/'
0 MODE 4 u ['....
z 0
'" I'-..
~ 1000 m
I'.. " " "-
~
~
-~~
" 1""-
1['....
H 800 " "
Z H
~ " """-"
600 400 o 3000 6000 9000 12000 15000 l8000 210()()
CYCLE BURNUP (MWD/MTU)
Burnup Mode 4 Mode 5 (M'wD/MTU)
U 14j.1- Ij.5U 150 1449 1525 1000 1454 1530 2000 1494 1578 3000 1536 1621 4000 1560 1646 6000 1554 1643 8000 1497 1588 10000 1406 1498 12000 1292 1386 14000 1150 1246 16000 990 1084 18000 812 90S 20250 597 692 Notes:
- 1) This curve is applicable only when RHR is in service.
- 2) Interpolation between 1000 gpm curve and 2300 gpm curve should not be performed for intermedi-ate flow rates.
- 3) This data bounds all RHR flow rates;::: 1000 gpm and < 2300 gpm.
- 4) Dilution rate is assumed to be 150 gpm.
- 5) Information includes 8-10 depletion considerations.
Page 1 of 2
HLT-32 NRC JPM exam c. Page 1 of 6 c.JPM TITLE: Perform The Required Actions For Cold Leg Recirculation TASK STANDARD: Perform The Required Actions For Cold Leg Recirculation, for the 'B' train only.
PROGRAM APPLICABLE: SOT SOCT OLT --1L LOCT ~
ACCEPTABLE EVALUATION METHOD: --1L PERFORM --1L SIMULATE DISCUSS EVALUATION LOCATION: ~ SIMULATOR CONTROL ROOM PLANT PROJECTED TIME: 15 MIN SIMULATOR IC NUMBER: IC-214 ALTERNATEPATH~ TIMECRITICAL PRA Examinee:
Overall JPM Performance: Satisfactory 0 Unsatisfactory 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER: ________________
HLT-32 NRC JPM exam c. Page 2 of 6 CONDITIONS When I tell you to begin, you are to PERFORM THE REQUIRED ACTIONS FOR COLD LEG RECIRCULATION. The conditions under which this task is to be performed are:
- a. A LBLOCA has occurred.
- b. ESP-1.3, Transfer to Cold Leg Recirc, has been entered and all steps through Step 6 have been completed.
- c. IB Charging pump is aligned to 'A' Train.
- d. Containment pressure is 7 psig.
- e. Recirc. Disconnects are Closed.
- f. You are directed by the Shift Supervisor to transfer to cold leg recirculation performing Step 7 ONLY of ESP-1.3.
- g. A pre-job brief is not required.
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME
- 1. Checks containment sump level greater than LI-3594A or LR-3594B checked.
3.0 ft. Observes sump level greater than Step 7.1 3.0 ft. S/U
- 2. Verifies recirculation valve disconnects Attachment 1 referenced to verify CLOSED. recirculation valve disconnects Step 7.2 closed. Observes all white lights lit. S/U
Observes lA & IB RHR pump Amps indicate' 0', Both pumps green lights lit and red lights NOT lit. S I U NOTE: THE FOLLOWING ELEMENT IS THE START OF THE ALTERNATE PATH IN THE RNO COLUMN.
- 4. Aligns 'A' Train RHR for cold leg MOV-8809A handswitch taken to recirculation. closed. Observes both valve Step 7.4 position indicators red AND green lights are NOT lit. S I U
HLT-32 NRC JPM exam c. Page 3 of 6 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 5. Stops the running 'A' train CHG PUMP Stop the running 'A' train CHG (AND proceed to step 7.9). PUMP. Observes 1A CHG pump Amps indicate '0', pump green Step 7.4 RNO light lit and red light NOT lit. S I U
- 6. Aligns 'B' Train RHR for cold leg Handswitches for RWST TO 1B1 recirculation. RHR PMP MOV-8809B taken to Step 7.9 closed. Observes valve position indicator, green light lit, red light NOT lit. S I U
- 7. Opens CTMT SUMP TO 1B RHR PMP Handswitches for CTMT SUMP MOV-8811B and MOV-8812B. TO 1B RHR PMP MOV-8811B Step 7.10 and MOV-8812B, taken to open.
Observes valve position indicators, red lights lit, green lights NOT lit. S I U
- 8. Closes RHR TO RCS HOT LEGS XC ON Handswitch for RHR TO RCS MOV-8887B. HOT LEGS XC ON MOV-8887B Step 7.11 taken to closed. Observes valve position indicator, green light lit, red light NOT lit. S/U
- 9. Starts 1B RHR pump. Handswitch for 1B RHR PMP Step 7.12 taken to start. Observes pump Amp meter indicates amps, pump breaker red light lit, green light NOT lit. S I U
- 10. Verifies 'B' train LHSI flow is stable. FI -605B checked. Observes FI-Step 7.13 605B stable. S I U
- 11. Verifies charging pump miniflow valves Indications for MOVs 8109NB/C CLOSED. and 8106 checked. Observes Step 7.14 charging pump miniflow valves green lights are lit and red lights are NOT lit. S I U
- 12. Verifies seal return flow valves CLOSED. Indications for seal return flow Step 7.15 valves MOV 8100 and 8112 checked. Observes MOV 8100 and 8112 indications green lights lit, red lights NOT lit. S I U
HLT-32 NRC JPM exam c. Page 4 of 6 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 13. Verifies the 'A' train CRG PUMP stopped Verifies the' A' train CRG PUMPs based on lA RRR PUMP NOT started (and stopped. Observes breaker position proceed to step 7.20). indicators green lights lit, red Step 7.16 RNO lights NOT lit. S I U
- 14. Checks MOV-8130A and B 'B' Charging Checks position indication for Pump Suction Rdr Iso valves from 'A' CRG PMP SUCT HDR ISO VLV Train OPEN. MOV -8130A and B. Observes Step 7.20 valve position indicators red lights lit, green lights NOT lit. S I U
- 15. Closes MOV-8131A and B 'B' Charging Randswitch for CRG PMP SUCT Pump Suction Rdr Iso valves from 'B' RDR ISO VLV MOV-8131A and Train. B taken to close. Observes valve Step 7.20 position indicators green lights lit, red lights NOT lit. S/U
- 16. Opens MOV-8706B IB RHR Supply to 'B' Randswitch for RRR RX B TO Train Charging Pump Suction. CRG PMP SUCT MOV -8706B Step 7.21 taken to open. Observes valve position indicator red light lit, green light NOT lit. S/U
Step 7.22 Observes LI-115/112 indicates>
5% level. S/U
- 18. Closes LCV-115D 'B' Train RWST to Randswitch for RWST TO CRG charging header valves. PMP RDR LCV -115D taken to Step 7.23 close. Observes valve position indicator, green light lit. S/U
- 19. Checks lC charging pump ONLY running. Checks 1C Charging pump Step 7.24 RNO indications. Observes 1C pump Amps> 0, red light is lit, green light NOT lit. S I U
- 20. Opens MOV-8885 charging pump recirc to Randswitch for CRG PMP RCS cold legs. RECIRC TO COLD LEG MOV-7.24.1 RNO 8885 handswitch taken to open.
Observes valve position indicator red light lit, green light NOT lit, FI-940 HAS flow and FI-943 does NOT have flow. S I U
HLT-32 NRC JPM exam c. Page 5 of 6 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 21. Closes MOV -8803A & B HHSI TO RCS Handswitches for HHSI TO RCS CL ISO valves (and proceeds to step 26). CL ISO valves, MOV -8803A and 7.24.2RNO MOV -8803B taken to close.
Observes valve position indicator green lights lit, red lights NOT lit. S I U
- 22. Checks open 1B charging pump to 'A' train Checks open CHG PMP DISCH discharge valves. HDR MOV-8132A and B.
Step 7.26 Observes valve position indicators red lights lit, green lights NOT lit. S I U
- 23. Checks closed 1B Charging Pump Checks closed CHG PMP DISCH Discharge Hdr to 'B' Train valves. HDR MOV-8133A and B.
Step 7.26 Observes valve position indicators green lights lit, red light NOT lit. S/U
- 24. Verifies SI flow is stable. Flow is checked.
Step 7.27 Observes flow indicated on FI -940,
'B' TRAIN RECIRC FLOW and FI-60SB 'B' train RHR HDR flow.
NO flow indicated on FI-943, A TRAIN RECIRC FLOW and FI-60S A, 'A' train RHR HDR flow. S I U STOP TIME Terminate when STEP 7 is comglete: SI flow is determined to be stable.
- CRITICAL ELEMENTS: Critical Elements are denoted with an Asterisk (*) preceding the element number.
GENERAL
REFERENCES:
- 1. FNP-1-ESP-1.3, Rev. 19
- 2. K/As: OllEA1.11 RO-4.2 SRO-4.2 GENERAL TOOLS AND EQUIPMENT:
None COMMENTS:
JPM C. (1 Page) HANDOUT CONDITIONS When I tell you to begin, you are to PERFORM THE REQUIRED ACTIONS FOR COLD LEG RECIRCULATION. The conditions under which this task is to be performed are:
- a. A LBLOCA has occurred.
- b. ESP-I.3, Transfer to Cold Leg Recirc, has been entered and all steps through Step 6 have been completed.
- c. IB Charging pump is aligned to 'A' Train.
- d. Containment pressure is 7 psig.
- e. Recirc. Disconnects are Closed.
- f. You are directed by the Shift Supervisor to transfer to cold leg recirculation performing Step 7 ONLY ofESP-1.3.
- g. A pre-job brief is not required.
)
HLT-32 NRC JPM exam d. Page 1 of 6 d.JPM TITLE: Place 1A SGFP On Service to establish flow to all Steam Generators (SGs).
TASK STANDARD: Place 1A SGFP On Service IAW Steps 7.12 through 7.21 of FRP-H.1 to establish flow to all Steam Generators (SGs).
PROGRAM APPLICABLE: SOT SOCT OLT ~ WCT ---.X ACCEPTABLE EVALUATION METHOD: X PERFORM SIMULATE DISCUSS EVALUATION LOCATION: X SIMULATOR CONTROL ROOM PLANT PROJECTED TIME: 16 MIN SIMULATOR IC NUMBER: IC-215 ALTERNATE PATH TIME CRITICAL PRA Examinee:
Overall JPM Performance: Satisfactory 0 Unsatisfactory 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER: ________________
HLT-32 NRC JPM exam d. Page 2 of 6 CONDITIONS When I tell you to begin, you are to PLACE lA SGFP ON SERVICE TO ESTABLISH FLOW TO ALL STEAM GENERATORS (SGs). The conditions under which this task is to be performed are:
- a. FRP-H.1, Response To Loss Of Secondary Heat Sink, is in effect due to a loss of heat sink event.
- b. FRP-H.1 Feed and Bleed criteria are being monitored by other team members.
- c. You are directed by the Shift Supervisor to perform Steps 7.12 through 8.1 ofFRP-H.1 for 1A SGFP.
- d. A pre-job brief is not required.
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME
- 1. Verifies SGFP speed control in manual SGFP MASTER CO NT SK-509A AND adjusted to 0% demand. manual pushbutton depressed Step 7.12 AND demand verified at 0%. S I U
- 2. Verifies 1A SGFP speed control manually 1A SGFP SPEED CONT SK-509B adjusted to 0% demand. manual pushbutton depressed Step 7.12 AND demand verified at 0%. S I U
- 3. Verifies 1B SGFP speed control manually 1B SGFP SPEED CONT SK-509C adjusted to 0% demand. manual pushbutton depressed Step 7.12 AND demand verified at 0%. S/U
- 4. Latches 1A SGFP turbine. 1A SGFP TURBINE LATCH Step 7.13 pushbutton depressed. Observes TURBINE TRIPPED light off, TURBINE LATCH pushbutton lit. S I U
- 5 Opens 1A SGFP LOW PRESS STOP 1A SGFP LOW PRESS STOP VALVE. VALVE OPEN pushbutton Step 7.14 depressed. Observes Pushbutton lit. S/U
- 6. Opens 1A SGFP HIGH PRESS STOP 1A SGFP HIGH PRESS STOP VALVE. VALVE OPEN pushbutton Step 7.15 depressed. Observes Pushbutton lit. S / U
HLT-32 NRC JPM exam d. Page 3 of 6 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
Observes 1A SGFP RPM indicator increase to 3200 rpm, BOILER CONTROL light lit, and INCREASE SPEED pushbutton lit. S/U
Step 7.17 Observes valve position indicator red light lit, green light is NOT lit. S I U
- 9. Opens all intact steam generators main Main FW TO lA, 1B and 1C S/Gs feedwater to SGs stop valves. STOP VLVs Q1N21MOV3232A, Band C Handswitches taken to Q1N21MOV3232A open. Observes for each valve Q1N21MOV3232B operated valve position indicator Q1N21MOV3232C red light lit, green light is NOT lit. S I U Step 7.18
- 10. Places 1A SGFP speed controller in AUTO. 1A SGFP SPEED CONT, SK-Step 7.19 509B AUTO pushbutton depressed. Observes AUTO pushbutton lit. S I U
- 11. Adjusts master SGFP speed controller to SK-509A increase button raise feedwater discharge header pressure to depressed until feedwater header 50 psig greater than steam header pressure. pressure 50 psig greater than steam Step 7.20 header pressure. Observes FW HDR PRESS (PI-508) increases to 50 psig > PI-464, STM HDR PRESS. S I U
HLT-32 NRC JPM exam d. Page 4 of 6 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 12. Controls feedwater regulating BYPASS lA, 1B and 1C SG FW BYP valves to supply main feedwater to intact FLOW FK-479, 489,499 adjusted SGs, by adjusting FK-479, FK-489, and FK- slightly open (1-10%).
499 open.
Step 7.21 For each controller adjusted, observes demand increase and associated valve position indicator green and red light lit.
Observes Main Feed Flow to each stearn generator by obtaining an increase of at least 0.3 MPPH total for each of the MCB recorders for Feed Flow OR Plant Computer shows feed flow of at least a total of 395 gpm for all 3 SGs. S I U
- 13. WHEN P-12 light is lit, THEN WHEN P-12 light is lit, THEN
)
- Blocks low stearn line pressure SI by
- RESET A TRN and B TRN handswitches STM LINE PRESS SI BLOCK to BLOCK - RESET A TRN and B TRN AND handswitches to BLOCK S I U
- verifies BYP &
BLOCKED lights are lit. PERMISSIVE STM LINE Step 7.22 ISOL. SAFETY INJ. TRAIN A
& B BLOCKED lights are lit. S/U
- 14. Controls feedwater regulating BYPASS Controls feedwater regulating valves until feed flow to at least one SG BYPASS valves until feed flow to Wide Range level is rising OR CORE EXIT at least one SG Wide Range level TIC temperature is falling. is rising OR CORE EXIT TIC Step 8.1 temperature is falling. S I U STOP TIME I Terminate when at least one SG Wide Range level is rising OR CORE EXIT TIC temperature is falling.
CRITICAL ELEMENTS: Critical Elements are denoted with an Asterisk (*) before the element number.
HLT-32 NRC JPM exam d. Page 5 of 6 GENERAL
REFERENCES:
- 1. FNP-I-FRP-H.l Revision 26.0
- 2. KlAs: W/E05EA1.1 RO-4.1 SRO-4.0 GENERAL TOOLS AND EQUIPMENT:
None COMMENTS:
JPM d. (1 Page) HANDOUT CONDITIONS When I tell you to begin, you are to PLACE lA SGFP ON SERVICE TO ESTABLISH FLOW TO ALL STEAM GENERATORS (SGs). The conditions under which this task is to be perfonned are:
- a. FRP-H.1, Response To Loss Of Secondary Heat Sink, is in effect due to a loss of heat sink event.
- b. FRP-H.l Feed and Bleed criteria are being monitored by other team members.
- c. You are directed by the Shift Supervisor to perfonn Steps 7.12 through 8.1 of FRP-H.l for 1A SGFP.
- d. A pre-job brief is not required.
}
HLT-32 NRC JPM exam e. Page 1 of 5 e.JPM TITLE: Two Train Verification Of ECCS Equipment TASK STANDARD: While verifying two trains of ECCS equipment aligned per EEP-O, Attachment 4, must determine that the IB DG is running without sufficient cooling, and secure the DG with the emergency shutdown procedure.
PROGRAM APPLICABLE: SOT SOCT OLT - L LOCT ---.X ACCEPTABLE EVALUATION METHOD: - L PERFORM - L SIMULATE DISCUSS EVALUATION LOCATION: X SIMULATOR CONTROL ROOM PLANT PROJECTED TIME: 5 MIN SIMULATOR IC NUMBER: IC-216*
ALTERNATEPATH-L TIMECRITICAL PRA Examinee:
Overall JPM Performance: Satisfactor 0 Unsatisfactor 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER: _________________
HLT-32 NRC JPM exam e. Page 2 of 5 CONDITIONS When I tell you to begin, you are to perform TWO TRAIN VERIFICATION OF ECCS EQUIPMENT. The conditions under which this task is to be performed are:
- a. A safety injection has occurred due to a LBLOCA in containment.
- b. You are the extra operator and the shift supervisor has directed you to verify two trains of ECCS equipment aligned per EEP-O, Attachment 4.
- c. A pre-job brief is not required.
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME SIMULATOR BOOTH OPERATOR NOTE:
DO NOT GO TO RUN ON SIMULATOR UNTIL NRC direction.
(This is to prevent the diesel from overheating and tripping when the diesel emerg start reset Dushbutton is deDressed).
- 1. Checks breaker DF01 closed. Checks DF01 closed. Observes DF01 red light lit. White power available lights lit for' F' 4160V bus. S/U
- 2. Verifies breaker DF02 closed. Verifies DF02 closed. Observes DF02 red light lit. White power available lights lit for 'K' 4160V bus. S/U
- 3. Checks breaker DG 15 closed. Checks DG 15 closed. Observes DG 15 red light lit. White power available lights lit for 'G' 4160V bus. S I U
- 4. Attempts to verify breaker DG02 closed, Observes DG02 NOT closed: red and goes to Attachment 1 per Att. 4 step 1.2 light NOT lit, green and amber RNO. lights lit. White power available lights not lit for 'L' 4160V bus.
(Examinee may take breaker DG02 to reset then to close, but it still won't close). Observes the following EPB annunciators are in alarm: VEl, VE4, and VF1. S/U
HLT-32 NRC JPM exam e. Page 3 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
NOTE:* Either EEP-O.O, Attachment 1, or the posted operator aid on the EPB may be used for the following elements.
- IF EXAMINEE REQUESTS SHIFT SUPERVISOR PERMISSION TO RESET SI PROVIDE THE FOLLOWING CUE.
o CUE: THE SHIFT SUPERVISOR GIVES PERMISSION TO RESET SI.
- 5. Verifies SI is RESET. Depresses Train A and B SI reset S I U pushbutton. Observes MLB-l 1-1 and MLBl11-1 are NOT lit.
- 6. Places the IB diesel generator MODE Places IB diesel generator MODE S I U SELECTOR SWITCH to MODE 2. SELECTOR SWITCH in MODE 2 position. Observes the MSS is in MODE 2.
- 7. Depresses the IB diesel generator DIESEL Depresses IB diesel generator S I U EMERG START RESET pushbutton. EMERG START RESET pushbutton. Observes the DG EMERG START light goes out.
NOTE: IF the diesel has been running for more than 3 minutes 45 seconds without cooling, the diesel will shutdown and the stop light will be lit prior to depressing the stop pushbutton. This is due to a non essential trip causedJ:>y high temperature which is reinstated in element 7.
- 8. Depresses the IB diesel generator STOP Depresses IB diesel generator S/U pushbutton. STOP pushbutton. Observes DIESEL STOP light lit.
- 9. Places the IB diesel generator MODE Places IB diesel generator MODE S/U SELECTOR SWITCH to MODE 3. SELECTOR SWITCH to MODE
- 3. Observes the MSS is in MODE
- 3. EPB annunciator VBl alarms.
- 10. Depresses the IB diesel generator DIESEL Depresses IB diesel generator S I U EMERG START RESET pushbutton. DIESELEMERG START RESET button. Observes DG EMERG START light remains off.
STOP TIME Terminate when DIESEL EMERG START RESET pushbutton has been depressed.
CUE: ANOTHER OPERATOR WILL COMPLETE ATTACHMENT 4.
HLT-32 NRC JPM exam e. Page 4 of 5 CRITICAL ELEMENTS: Critical Elements are denoted by an asterisk (*) before the element number.
GENERAL
REFERENCES:
- 1. FNP-I-EEP-O, Version 36.0
- 2. KlAs: 064A4.06 RO-3.9 SRO-3.9 GENERAL TOOLS AND EQUIPMENT:
None COMMENTS:
)
JPM e. (1 Page) HANDOUT
) CONDITIONS When I tell you to begin, you are to perform TWO TRAIN VERIFICATION OF ECCS EQUIPMENT. The conditions under which this task is to be performed are:
- a. A safety injection has occurred due to a LBLOCA in containment.
- b. You are the extra operator and the shift supervisor has directed you to verify two trains ofECCS equipment aligned per EEP-O, Attachment 4.
- c. A pre-job brief is not required.
)
)
HLT-32 NRC JPM exam f. Page 1 of 5 f.JPM TITLE: Restore Instrument Air To Containment TASK STANDARD: While performing procedure to restore instrument air using ESP-1.2, Attachment I starting at Step 1.11 to align IC air compressor for service, observes that IC will not start, and performs EPB breaker alignment and starts IA air compressor per step 1.11 RNO.
PROGRAM APPLICABLE: SOT SOCT OLT~ LOCT~
ACCEPTABLE EVALUATION METHOD: ~PERFORM ~SIMULATE DISCUSS EVALUATION LOCATION: ~ SIMULATOR ~ CONTROL ROOM PLANT PROJECTED TIME: 10 MIN SIMULATOR IC NUMBER: JPM IC-2I7 ALTERNATEPATH X TIME CRITICAL PRA Examinee:
Overall JPM Performance: Satisfactor 0 Unsatisfactor 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER: _________________
HLT-32 NRC JPM exam f. Page 2 of 5 CONDITIONS When I tell you to begin, you are to RESTORE INSTRUMENT AIR TO CONTAINMENT. The conditions under which this task is to be performed are:
- a. A loss of site power and a small break LOCA have occurred on Unit 1.
- b. Both turbine building buses are de-energized.
- c. You are directed by the Unit 1 Shift Supervisor to restore instrument air using ESP-1.2, Attachment 1 starting at Step 1.11 to align lC air compressor for service.
- d. A pre-job brief is not required.
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME
- 1. Verifies the 1C air compressor handswitch Observes lC air compressor in AUTO after START/RUN. indication. Observes Green indicating light is lit. Places lC air compressor handswitch in RUN/START then Back to Auto.
Observes 1C air compressor handswitch in AUTO after being placed in RUN/START. S/U
- 2. Verifies 1C air compressor started. Verifies 1C air compressor started.
Observes 1C air compressor indication did NOT change: Green light still lit. S / U NOTE: BOOTH RESPONSE: If examinee directs the TB SO to check IC air compressor then reDort: "IC AIR COMPRESSOR MOTOR VERY WARM TO THE TOUCH."
- 3. Verifies lC air compressor handswitch in Verifies 1C air compressor OFF. handswitch placed in OFF position. Observes 1C air compressor handswitch in OFF. S/U
- 4. Verifies SI is reset. Checks MLBll-l and 11-1.
Observes MLBll-l and 11-1 are not lit. S/U
HLT-32 NRC JPM exam f. Page 3 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 5. Directs resetting B1F sequencer. Directs the SO to reset the sequencer. Observes SEQ B1F or B2F SIAS annunciator WE5 goes from a solid condition to a flashing S/U condition. (CUE: SO reports that the B1F sequencer has been reset).
- 6. Places Breaker DF13 Sync Switch in Places DF13 SYNC SWITCH in manual. the MANUAL POSITION.
Observes Red lights under each
, A' train synchroscope is lit. S/U
- 7. Closes Breaker DF13. Closes Breaker DF13 handswitch.
Observes breaker position indicator red light lit, green light NOT lit. 1H 4160 bus AC potential lights lit. S/U
- 8. Closes breaker DH01. Closes Breaker DH01 handswitch.
Observes Breaker position indicator red light is lit, green light S/U is NOT lit.
- 9. Verifies breaker EG02-1 closed. Verifies Breaker EG02-1 position.
Observes Breaker position indicator red light is lit, green light S/U is NOT lit.
- 10. Verifies start of 1A air compressor. Verifies 1A air compressor running (auto starts). Observes Breaker position indicator red light is lit, green light is NOT lit. S/U
- 11. Checks IA pressure > 85 psig. Checks INST AIR PI-4004B indication. Observes PI-4004B indicates 100 psig. S/U
- 12. Checks instrument air to containment. Checks MLB-3 1-2 NOT lit and Annunciator KD1 clear. Observes MLB-3 1-2 IS lit and Annunciator KD1 is in alarm. S/U
HLT-32 NRC JPM exam f. Page 4 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 13. Opens IA to PENE RM valve HV-3825. Opens HV-3825. Observes HV-3825 is red light is lit, green light is NOT lit. SIV
- 14 Opens IA to PENE RM valve HV-3885. Opens HV -3885. Observes HV-3885 is red light is lit, green light is NOT lit. S I V
- 15 Opens instrument air supply to CTMT HV- Opens HV-3611. Observes HV-3611. 3611 red light is lit, green light is NOT lit. S I V
- 16. Informs Shift Supervisor that instrument air Shift supervisor informed air is is aligned to containment aligned to containment. (CVE:
Shift supervisor acknowledges.) SIV STOP TIME J Terminate when SS informed.
CRITICAL ELEMENTS: Critical elements are denoted by an asterisk (*) in front of the element number.
GENERAL
REFERENCES:
- 1. FNP-1-ESP-1.2, Version 23.0
- 2. KIA: 065AA1.03 RO-2.9 SRO-3.1 GENERAL TOOLS AND EQUIPMENT:
None COMMENTS:
JPM f. (1 Page) HANDOUT
) CONDITIONS When I tell you to begin, you are to RESTORE INSTRUMENT AIR TO CONTAINMENT. The conditions under which this task is to be performed are:
- a. A loss of site power and a small break LOCA have occurred on Unit 1.
- b. Both turbine building buses are de-energized.
- c. You are directed by the Unit 1 Shift Supervisor to restore instrument air using ESP-l.2, Attachment 1 starting at Step 1.11 to align 1C air compressor for service.
- d. A pre-job brief is not required.
)
)
HLT-32 NRC JPM exam g. Page 1 of 5 g.JPM TITLE: Respond to a FH5, SFP AREA RE25A OR B HI RAD, alarm.
TASK STANDARD: Responds to FH5, SFP AREA RE25A OR B HI RAD, alarm per FNP-I-ARP-1.6, Main Control Board Annunciator Panel F, to verify automatic actions occur. Secures SFP AHU SUPP FAN and IA SFP EXH FAN. Starts IA PRF EXH FAN and IA PRF RECIRC FAN OR IB PRF EXH FAN and IB PRF RECIRC FAN.
PROGRAM APPLICABLE: SOT SOCT OLT~ LOCT ACCEPTABLE EVALUATION METHOD: ~ PERFORM SIMULATE DISCUSS EVALUATION LOCATION: X SIMULATOR CONTROL ROOM PLANT PROJECTED TIME: 20 MIN SIMULATOR IC NUMBER: IC-2I8 ALTERNATE PATH TIME CRITICAL PRA Examinee:
Overall JPM Performance: Satisfactor 0 Unsatisfactor 0
~valuator Comments (attach additional sheets if necessary)
EXAMINER: _________________
HLT-32 NRC JPM exam g. Page 2 of 5 CONDITIONS When I tell you to begin, you are to RESPOND TO A FH5, SFP AREA RE25A OR B HI RAD, ALARM. The conditions under which this task is to be performed are:
- a. Unit 1 is at 100% power.
- c. The Unit Two Unit Operator reports that both Unit 1 RE25 A and B meters are up-scaled and both red alarm lights are lit.
- d. The Integrated Plant Computer (IPC) is not available due to troubleshooting in progress.
- f. A pre-job brief is not required.
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME NOTE: ELEMENTS 1-7 ARE PERFORMED AT THE BALANCE OF THE PLANT PANEL (BOP) BEHIND THE MCB.
Observes green light lit, red light NOT lit. S/U
- 2. Verifies damper SFP AHU DAMPER, SFP- Verifies damper SFP AHU HV-3416, closed. DAMPER, SFP-HV-3416, closed.
Observes green light lit, red light NOT lit. S/U
Observes green light lit, red light NOT lit. S/U
- 4. Verifies damper SFP EXH FAN DMPR, Verifies damper SFP EXH FAN N1 V48HV3417A, closed. DMPR, N1V48HV3417A, closed.
Observes green light lit, red light NOT lit. S I U
HLT-32 NRC JPM exam g. Page 3 of 5 NOTE: ELEMENTS 5 & 6 ARE AUTOMATIC ACTIONS WHICH OCCUR, BUT ARE NOT LISTED IN THE ANNUNCIATOR RESPONSE PROCEDURE (ARP). THEY ARE LISTED IN THE SYSTEM OPERATING PROCEDURE (SOP) ONLY.
- SFPEXHFANSUCT QIV48HV3991B DMPER QIV48HV3990B S / U
- GUIDANCE FOR STARTING THE PRF SYSTEM AND ALIGNING IT TO THE SFP ROOM IS ONLY FOUND IN SOP-58, AUXILIARY BUILDING HVAC
)
SYSTEM, AS STATED IN A NOTE PRIOR TO THE FIRST STEP IN SOP-60.0, PENETRATION ROOM FILTRATION SYSTEM.
- ELEMENT 7 MAY NOT BE DONE UNLESS SOP-58 IS USED FOR GUIDANCE.
- 7. Closes HV -3538A, SFP TO lA PRF Closes HV -3538A, SFP TO lA SUPPLY DAMPER, PRF SUPPLY DAMPER, OR OR S / U Closes HV -3538B, SFP TO IB PRF Closes HV -3538B, SFP TO IB SUPPLY DAMPER PRF SUPPLY DAMPER BUT NOT BOTH. BUT NOT BOTH.
Per SOP-58.0 NOTE:
- ELEMENTS 8-10 ARE PERFOMED AT THE MCB. ONLY ONE TRAIN OF PRF IS REQUIRED TO BE OPERATING WHEN THE TASK IS COMPLETE.
SEE ELEMENT 12.
Observes red light lit, green light NOT lit. S / U
Observes red light lit, green light NOT lit. S / U AND/OR
HLT-32 NRC JPM exam g. Page 4 of 5
Observes red light lit, green light NOT lit. S/U
Observes red light lit, green light NOT lit. S/U
of PRF EXH & RECIRC fans running with RECIRC fans running with the the associated train suction damper from the associated train suction damper SFP, HV-3538A OR B, OPEN. from the SFP, HV-3538A OR B, OPEN. S/U STOP TIME Terminate when all Automatic actions which should have occurred have been verified (elements I-ll).
CUE: ANOTHER OPERATOR WILL PERFORM ANY ADDITIONAL ACTIONS.
CRITICAL ELEMENTS: Critical elements are denoted by an asterisk (*) in front of the element number.
GENERAL
REFERENCES:
- 1. FNP-I-ARP-1.6 Version 58
- 2. FNP-I-S0P-58 Version 66
- 3. K/As: 060AA1.02 RO-2.9 RO-3.1 GENERAL TOOLS AND EQUIPMENT:
None.
COMMENTS:
AUXILIARY BUILDING HVAC OpsHva019 NEW FUEL STORAGE FD OUTSIDE AIR TOAUX BLDG MAIN EXHAUST PLENUM
- 33578
- 3357A&B }~~~T~~~El~ ~~:~
3356A&B OPEN ON FAN START, THEY FAIL OPEN TO VENT STACK RECIRC 1A PENETRATION ROOM EXHAUST FAN L---+--lI"'---" 139' ELECTRICAl PENETRATION ROOM
\==:; :-+----1 NOTE: 139' ELECTRICAL PENETRATION ROOM CONTAINS FOUR ADDITIONAL 121' PIPING PENETRATION ROOM << i - -
ROOM AIR COOLING UNITS AND TWO ROOM HEATING UNITS 100' PIPING PENETRATION ROOM, CHARGING-PUMP ROOMS -r-
\ : : :
8:~~~~_6~~~~~:~g~ ~I--l--_..J CONTROL OF 3361A,8
) ~ WAS~~~J!P~~T~R~:~~:~g~~
CONTAINMENT SPRAY PUMP ROOMS ATMOSPHERE FIGURE 7 - Fuel Handling Area And Penetration Room HVAC
JPM g. (1 Page) HANDOUT CONDITIONS When I tell you to begin, you are to RESPOND TO A FH5, SFP AREA RE25A OR B HI RAD, ALARM. The conditions under which this task is to be performed are:
- a. Unit 1 is at 100% power.
- c. The Unit Two Unit Operator reports that both Unit 1 RE25 A and B meters are up-scaled and Doth red alarm lights are lit.
- d. The IPC is not available due to troubleshooting in progress.
- f. A pre-job brief is not required.
HLT-32 NRC JPM exam h. Page 1 of 5 h.JPM TITLE: Align R-ll And R-12 To Normal As Required In Response To A Spurious Safety Injection.
TASK STANDARD: Align R-ll And R-12 To Normal As Required In Response To A Spurious Safety Injection per Step 32.1 of ESP-I.1, and FNP-1-S0P-12.2, Containment Purge And Pre-Access Filtration System, Section 4.2.
PROGRAM APPLICABLE: SOT SOCT OLT~ LOCT~
ACCEPTABLE EVALUATION METHOD: ~ PERFORM ~ SIMULATE DISCUSS EVALUATION LOCATION: ~ SIMULATOR ~ CONTROL ROOM PLANT PROJECTED TIME: 10 MIN SIMULATOR IC NUMBER: IC-219 ALTERNATE PATH TIME CRITICAL PRA Examinee:
Overall JPM Performance: Satisfactor 0 Unsatisfactor 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER: ________________
HLT-32 NRC JPM exam h. Page 2 of 5 CONDITIONS When I tell you to begin, you are to ALIGN R-ll AND R-12 TO NORMAL AS REQUIRED IN RESPONSE TO A SPURIOUS SAFETY INJECTION. The conditions under which this task is to be performed are:
- a. The plant has experienced a spurious safety injection.
- b. ESP-1.1 is in progress and has been completed through Step 31.
- c. Health Physics has verified the local valve lineup.
- d. You are directed to perform Step 32.1 of ESP-I. 1.
- e. A pre-job brief is not required.
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME
- 1. Open CTMT ATMOS TO R-ll/R-12 Handswitch for MOV -3660 taken Q1E14MOV3660. to open. Observes MOV-3660 red SOP-12.2 Step 4.2.1.2 light is lit, green light is NOT lit. S 1U
- 2 Open CTMT ATMOS TO R-1l/12 Handswitch for HV3658 taken to Q1E14HV3658. open. Observes HV3658 red light SOP-12.2 Step 4.2.1.3 is lit, green light is NOT lit. S 1U
- 3 Open R-1l/12 DISCH TO CTMT Handswitch for HV3657 taken to Q1E14HV3657. open. Observes HV -3657 red light SOP-12.2 Step 4.2.1.4 is lit, green light is NOT lit. S 1U
- 4. Start R-ll pump and verify flow (low flow Handswitch taken to start.
cleared). Observes Pump On light lit, Low SOP-12.2 Step 4.2.1.5 Flow light NOT lit. S 1U EXAMINER'S CUE: ALIGNMENT PER IMP-227.47, VALVE ALIGNMENT FOR OPERATION OF UNIT 1 REOOll/12 AND RE 0021/22 HAS BEEN PERFORMED.
- 5. Verify R-12 drawer aligned per SOP-45.0. R-12 drawer aligned per SOP-45.0.
SOP-12.2 Step 4.2.1.6
- operation selector in SOP-45.0, Step 4.1.3 OPERATE.
- range selector in WIDE. S 1U
HLT-32 NRC JPM exam h. Page 3 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 6. Verify drawer indicating lights Verify drawer indicating lights as SOP-4S.0, Step 4.1.3.3 follows:
- a. Power Light - ON
- b. Channel Test Light - OFF
- c. High Alarm Light - OFF
- d. Low Alarm Light - OFF S / U EXAMINER'S CUE: ALIGNMENT PER IMP-227.47, VALVE ALIGNMENT FOR OPERATION OF UNIT 1 REOOll/12 AND RE 0021/22 HAS BEEN PERFORMED.
- 7. Verify R-ll drawer aligned per SOP-4S.0. R-12 drawer aligned per SOP-4S.0.
SOP-12.2 Step 4.2.1.6 a. Rate Meter On-Off - ON SOP-4S.0, Step 4.1.4.2 b. Sample Select - MAIN
- c. Pump Control - LOCAL
- d. Paper Drive - OPERATE
- e. High Pressure - OPERATE S / U
- 8. Verify drawer indicating lights. Verify drawer indicating lights as SOP-4S.0, Step 4.1.4.5 follows:
- a. Pump Console Power On Light -
ON
- b. Main Sample Light - ON
- c. Pump On Light - ON
- d. Aux. Sample Light - OFF
- e. Purge Light - OFF
- f. Paper Drive Console Power Light - ON
- g. High Flow Light - OFF
- h. High Pressure Light - OFF
- i. Low Flow Light - OFF
- j. Advance Light - OFF
- k. High Alarm Light - OFF
- 1. Warn Alarm Light - OFF
- m. Fail Alarm Light - OFF
- n. Range Alarm Light - OFF
- o. Rate Alarm Light - OFF
- p. Check Source Light - OFF S / U STOP TIME
)
Terminate when RE-ll AND 12 DRAWERS ALIGNED PER SOP-4S.0.
CRITICAL ELEMENTS: Critical Elements are denoted with an asterisk (*) before the element number.
HLT-32 NRC JPM exam h. Page 4 of 5 GENERAL
REFERENCES:
- 1. FNP-I-ESP-1.1, Version 24.0 FNP-l-SOP-12.2, Version 44.0
- 2. KlAs: 073A4.02 RO-3.7 SRO-3.7 GENERAL TOOLS AND EQUIPMENT:
None COMMENTS:
JPM h. (1 Page) HANDOUT CONDITIONS When I tell you to begin, you are to ALIGN R-ll AND R-12 TO NORMAL AS REQUIRED IN RESPONSE TO A SPURIOUS SAFETY INJECTION. The conditions under which this task is to be performed are:
- a. The plant has experienced a spurious safety injection.
- b. ESP-I.I is in progress and has been completed through Step 31.
- c. Health Physics has verified the local valve lineup.
- d. You are directed to perform Step 32.1 ofESP-1.1.
- e. A pre-job brief is not required.
)
j
HLT-32 NRC JPM exam i. Page 1 of 5 i.JPM TITLE: Make Up To SFP From the RWST TASK STANDARD: Perform actions for makeup to the SFP From the RWST Per SOP-S4.0 Section 4.9.1.
PROGRAM APPLICABLE: SOT ---.1L SOCT OLT ---.1L LOCT ACCEPTABLE EVALUATION METHOD: ~ PERFORM ~ SIMULATE DISCUSS EVALUATION LOCATION: SIMULATOR CONTROL ROOM ~ PLANT PROJECTED TIME: 30 MIN SIMULATOR IC NUMBER: N/A ALTERNATE PATH TIME CRITICAL PRA Examinee:
Overall JPM Performance: Satisfactory 0 Unsatisfactory 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER: ________________
)
HLT-32 NRC JPM exam i. Page 2 of 5 CONDITIONS When I tell you to begin, you are to MAKE UP TO SFP FROM THE RWST on UNIT 1. The conditions under which this task is to be performed are:
- a. The SFP low level alarm has corne in on the MCB. The shift chemist has directed the Control Room to make up to the SFP from the RWST.
- b. The BARS system is NOT in operation.
- c. RWST Purification in NOT in service.
- d. SFP Purification IS in service.
- e. SFP level is 153'4".
- f. You are to makeup to the SFP to clear the MCB alarm per SOP-54.0, starting with step 4.9.1.5.
[NOTE: THIS JPM has been revised for use on UNIT 1.
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME
- 1. Close the 1A and 1B SFP cooling loop to Close 1A and 1B SFP cooling loop SFP purification inlet isolation valves: to SFP purification inlet isolation
- 1-SFP-V-8767A (Q1031V004A) valves by turning the handwheel
- 1-SFP-V-8767B (01031V004B) clockwise:
139' Rad side, SFP pump room
- 1-SFP-V-8767A (01031 V004A) S / U
- 1-SFP-V-8767B (01031V004B) S / U (Cue: 8767A and 8767B are fully clockwise)
- 2. Close the SFP purification outlet to SFP 1- Close 01031V005 by turning the SFP-V-8765 (01031 V005). handwheel clockwise. (CUE: V005 S / U 155' Rad side, lA SFP HX ROOM is fully clockwise).
- 3. Open the RWP pump disch iso1-SFP-V- Open N1 031 V008 by turning the 8792 (N1031V008). handwheel counterclockwise. S / U 155' Rad side, SFP HX AREA (CUE: V008 is fully counterclockwise. )
- 4. Open the RWP pump suction from the Open Q1031VOlO by turning the RWST iso Q1031VOlO. handwheel counterclockwise. S / U 130' Rad side near SOBD area (CUE: V010 is fully counterclockwise.)
HLT-32 NRC JPM exam i. Page 3 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 5. Open (one turn) the SFP purification outlet Open Q1G31V005 by turning the to SFP 1-SFP-V-8765 (Q1G31V005). handwheel counterclockwise one 155' Rad side, lA SFP HX ROOM turn. (CUE: V005 is S I U counterclockwise 1 turn)
- 6. Start the RWP purification pump. RWP purification pump switch 130' Rad side near SGBD area taken to START. (CUE: RWP S I U purification pump red light is lit, green light is OFF.)
- 7. Throttle the SFP purification outlet to SFP V005 is throttled. S I U 1-SFP-V-8765 (Q1G31V005) to establish (CUE: FI-654 reads 100 gpm.)
100 gpm on the SFP demin FI-654.
155' Rad side, SFP HX AREA (CUE IF FILTER DIP CHECKED:
SFP filter dip is 8 psid.)
- 8. Inform the Control Room to have the shift Inform the CRO to have the shift S I U chemist periodically sample the SFP. chemist periodically sample the SFP. (CUE: The Control Room acknowledges.)
- 9. Monitor the SFP water level. SFP level should be monitored to 155' Rad side, SFP room prevent over-filling the pool. S I U (CUE: The Control Room contacts you and tells you the SFP level alarm is clear.)
(CUE WHEN SFP LEVEL IS CHECKED: Level is 153'7".)
STOP TIME Terminate when SFP level is being monitored and all elements of the task have been completed (SOP*54.0, steps 4.9.1.5 - 4.9.1.13).
CUE: ANOTHER SYSTEM OPERATOR WILL SECURE THE LINEUP.
CRITICAL ELEMENTS: Critical Elements are denoted with an asterisk (*) preceding the element number.
HLT-32 NRC JPM exam i. Page 4 of 5 GENERAL
REFERENCES:
- 1. FNP-l-SOP-54.0, Version 49.0
- 2. K/As: 033A1.01 RO-2.7 SRO-3.3 GENERAL TOOLS AND EQUIPMENT:
Locked Valve Key COMMENTS:
OpsSfp001 (INSIDE (OUTSIDE CTMT) CTMT)
TO FROM BARS RWST REFUELING TO TO CAVITY SFP/RWST BARS SPENT
/ '>
o 4 FUEL L.C. POOL
~I DEMINER-
< 7 ALiZER FROM RWST FROM LWPS REFUELING (RCDTPUMP)
WATER PURIFICATION SPENT FUEL POOL PUMP SKIMMER PUMP SFP TO NV004A BARS FROM LWPS (RHTVIA FUEL RECYCLE EVAP.
TRANSFER FEED PUMP)
CANAL FIGURE 1 - Spent Fuel Pool Cooling
SFP COOLING AND RWST PUR/FICA T/ON Ops-Sfp-005 Hi-Lo Alarm
!?"
153'8"
1 rz:;:o:a
~
i152'~
(Anti-~iphon hole) n ~~~:
151' 6" (TS Limit) 149' 8" ~
I "\
I Q 140' 6" i
~
I 134' 6" t! !
130 L...............!
128'6" FUEL 114' 5" , L ,
FIGURE 8 - Spent Fuel Pool System Elevations
JPM i. (1 Page) HANDOUT
) CONDITIONS When I tell you to begin, you are to MAKE UP TO SFP FROM THE RWST on UNIT 1. The conditions under which this task is to be performed are:
- a. The SFP low level alarm has come in on the MCB. The shift chemist has directed the Control Room to make up to the SFP from the RWST.
- b. The BARS system is NOT in operation.
- c. RWST Purification in NOT in service.
- d. SFP Purification IS in service.
- e. SFP level is 153'4/1.
- f. You are to makeup to the SFP to clear the MCB alarm per SOP-54.0, starting with step 4.9.1.5.
')
)
)
01118/08 10:07:51 I 1 FNP-1-S0P-54.0 3.0 Precautions and Limitations 3.1 Working near the edge of the SFP requires good safety practices including use of fall protection or life jacket.
3.2 Differential pressure across the SFP AND skimmer filters should NOT exceed 20 psid.
3.3 Activity level on the SFP filter should be limited to the amount recommended by the Health Physics Manager.
3.4 Purification flow through the demineralizer should NOT exceed 120 gpm OR 140°F. Purification flow through the filter should NOT exceed 150 gpm (ABN 98-0-1249) 3.5 If the make-up was for reasons other than evaporation, the SFP boron concentration should be checked following makeup additions to ensure a boron concentration of 2000 ppm or greater is maintained.
3.6 SFP Hx Inlet and Outlet valves are rising stem valves with stems which protrude several inches with the valve closed. Use care to ensure proper valve position.
3.7 SFP temperature must be maintained greater than nOF. Appendix 2 provides guidance if pool temperature approaches nOF.
3.8 SFP pump DP greater than or equal to 55 psid and SFP water level greater than or equal to 153' 4" will avoid vortex formation in the SFP at the SFP pump suction (NEL 98-0329). {CMT 0007762}
3.9 When working near or above the SFP or SFP TRANSFER CANAL, all material (Tools, Equipment, etc.) must be properly secured or provided with a lanyard to eliminate the possibility of dropping objects into the SFP or SFP TRANSFER CANAL.
3.10 Fuel movement is prohibited in the SFP when SFP temperature is ~ 130°F.
3.11 Fuel assembly transfer into the SFP during reactor core off-load is prohibited when SFP temperature is ::::130°F.
3.12 A formal pre-job brief shall be conducted for activities which require highly coordinated work efforts or could result in significant safety or radiological concerns. (OR 2-96-329) 3.13 Parallel operation of SFP Cooling Loops is prohibited to prevent short circuit flow and/or pump damage. Operation in parallel per Appendix 1 has been evaluated and is an exception to this rule (RER C05064080l) (J.M. Farley response to NRC Bulletin No. 88-04 dated March 23, 1989) {CMT 0007761}
Version 49.0
01118/08 10:07:51 FNP-l-S0P-54.0 3.14 CCW flow to the SFP HX's should be regulated as follows:
3.14.1 WHEN in Modes 1 - 4, THEN the CCW outlet valve for the SFP HX should be throttled to limit CCW flow to 1500 gpm through the SFP HX with a RHR HX on service on that train.
3.14.2 IF desired to lower SFP temperature while in Modes 5, 6 or defueled, THEN throttle CCW flow through the on service RHR HX and raise CCW flow in the SFP HX as necessary. This special condition will be documented by an admin LCO. The limit must be reinstated prior to entering Mode 4 by establishing CCW flow through the RHR HX and then verifying flow through the SFP HX is :S 1500 gpm.
3.14.3 CCW flowrates in excess of3100 gpm through the SFP HX should be avoided. Flows exceeding 3100 gpm for brief periods, such as during performance of STP's, is acceptable. {AI2002200675}
3.15 Train A SFP Cooling Loop consists of2B SFP pump (P002B) and 2B SFP HX (H001B).
3.16 Train B SFP Cooling Loop consists of2A SFP pump (P002A) and 2A SFP HX (H001A).
3.17 CCW supply valve to SFP heat exchanger must remain open whenever CCW supply valve to RHR heat exchanger in the same train is closed.
3.18 If possible, the SFP cooling should be aligned opposite from a train that is carrying both the miscellaneous header and an inservice RHR HX.
3.19 When moving a transfer pump, the following precautionary measures should be observed (AI 2004204190):
- The pump lifting rope should be inspected and replaced if necessary.
- A portable light should be used if necessary to assure obstructions are avoided.
- The pump lifting rope, power cord, and hoses should NOT be allowed to get caught on the weir gate or weir gate rests.
- If using the SFP bridge crane, the load cell should be monitored to ensure no part of the load (lifting rope, pump, power cord, hoses, etc.) is caught on an obstruction.
3.20 Annunciator EH1, SFP TEMP HI, alarms at :S130°F (normally set at 115°F).
3.21 Annunciator EH2, SFP LVL HI-LO, alarms at 153'10" rising and 153'4" decreasing.
3.22 Changes to the RWST purification system lineup can create a dead-heading situation for BARS if it is in service. [AI 2007204536]
Version 49.0
01118108 10:07:51 FNP-1-S0P-54.0 4.8.23 Verify both RCDT pumps (lA AND 1B) are stopped.
4.8.24 Close the SFP purification outlet to refueling cavity CTMT iso NI G31 V033. (CTMT near penetration #95) 4.8.25 Close and lock the SFP purification outlet to refueling cavity line iso Q1G31 V012. (master Z key)(12I' PPR Pen 95 iso vlv) 4.8.26 Close SFP purification outlet to refueling cavity l-SFP-V -8793A (NIG31V021A). (lA SFP HX Room) 4.8.27 Close RWP pump disch iso I-SFP-V-8792 (N1G31V008). (SFP Demin Room) 4.8.28 Close RCDT pump disch to RWP pump l-LWP-V-7138 (QIG21V008).
(lOO' PPR) 4.8.29 Close RCDT LCV QIG21LCV1003.
4.8.30 Close refueling canal drain valve 1-LWP-V-7129 (NIG21V021).
(Area near 1A SG) 4.8.31 Align RCDT system for normal operation per FNP-1-S0P-50.0A, LIQUID WASTE PROCESSING SYSTEM REACTOR COOLANT DRAIN COLLECTION & DISCHARGE SYSTEM.
4.8.32 Complete a partial FNP-1-STP-I4.0 ,CONTAINMENT INTEGRITY VERIFICA nON TEST, for SFP purification outlet to refueling cavity line iso Q1G31V012.
4.9 SFP Filling and Makeup Operations 4.9.1 Filling and Makeup from the RWST 4.9.1.1 IF SFP makeup is needed due to evaporation, THEN go to step 4.9.2.
4.9.1.2 IF the BARS system is in operation on Unit One, THEN remove it from service per FNP-l-S0P-54.4, RWST SILICA REMOVAL BY THE BORIC ACID RECOVERY SYSTEM (BARS), section 4.7.
Version 49.0
01118/0810:07:51 FNP-I-SOP-54.0 NOTE: SFP level should be maintained within the normal band of 153'4" to 153'9".
4.9.1.3 IF RWST Purification is in service (RWST on recirculation)
AND it is desired to raise SFP level, THEN perform the following:
4.9.1.3.1 Simultaneously perform the following while maintaining flow between 10 and 100 gpm on FI-654:
- Throttle open QI031V005, SFP Purification Outlet To SFP. (lA SFP HX RM) 4.9.1.3.2 WHEN the desired SFP level is reached, THEN simultaneously perform the following while maintaining flow between 10 and 100 gpm on FI-654:
- Throttle open NI031V021B, SFP Purification Outlet To RWST. (lA SFP HX RM) 4.9.1.4 IF steps 4.9.1.1 through 4.9.1.3 are not applicable, THEN continue with step 4.9.1.5.
Version 49.0
01118/08 10:07:51 FNP-1-S0P-54.0 4.9.1.5 Verify closed the following:
- 1B SFP pump cooling loop to SFP purif inlet iso 1-SFP-V-8767B (Q1G31V004B) 4.9.1.6 Verify closed SFP purification outlet to SFP 1-SFP-V-8765 (Q1G31V005). (1A SFP HX Room) 4.9.1.7 Open RWP pump disch iso 1-SFP-V-8792 (N1 G31 V008).
(SFP Demin Room) 4.9.1.8 Open RWP pump suction from the RWST iso Q1G31V010.
(130' Rm 609) 4.9.1.9 Open (one tum) SFP purification outlet to SFP 1-SFP-V-8765 (Q1G31V005). (1A SFP HX Room) 4.9.1.10 Start the RWP pump.
4.9.1.11 Throttle SFP purification outlet to SFP 1-SFP-V-8765 (Q1G31V005) to establish 100 gpm on SFP demineralizer FI-654. (lA SFP HX Room) 4.9.1.12 IF SFP filter differential pressure reaches 20 psid, THEN remove the filter from service.
4.9.1.13 Periodically sample the SFP for boron concentration ~2000 ppm.
4.9.1.14 WHEN the desired water level is reached, THEN stop the RWPpump.
4.9.1.15 Close SFP purification outlet to SFP 1-SFP-V-8765 (QIG31V005). (1A SFP HX Room)
Version 49.0
HLT-32 NRC JPM exam j. Page 1 of 5
- j. JPM SO-3S1A TITLE: Start A 4075 KW Diesel Generator From The DLCP In Mode 4 PROGRAM APPLICABLE: SOT ~ SOCT ~ OLT ~ LOCT ~
ACCEPTABLE EVALUATION METHOD: ~ PERFORM ~ SIMULATE DISCUSS EVALUATION LOCATION: SIMULATOR CONTROL ROOM X PLANT PROJECTED TIME: 15 MIN SIMULATOR IC NUMBER: N/A ALTERNATE PATH TIME CRITICAL PRA--.K This JPM is modified slightly from the bank I Trainer/Date: I Trainee:
Evaluator/Date: I Overall JPM Performance: Satisfactory 0 Unsatisfactory 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER:
)
HLT-32 NRC JPM exam j. Page 2 of 5 CONDITIONS When I tell you to begin, you are to START A 4075 KW DIESEL GENERATOR FROM THE DLCP IN MODE 4. The conditions under which this task is to be performed are:
- a. A loss of all AC power has occurred.
- b. ECP-O.O is in progress.
- c. Attempts to start a diesel generator from the EPB have been unsuccessful.
- d. You are directed by the Shift Supervisor to start a 4075 KW Diesel Generator from the diesel local control panel per SOP-38.1 and energize the dead 4160v bus.
- e. A pre-job brief is not required.
NOTE: EXAMINER SHOULD SPECIFY WHICH DIESEL IS TO BE STARTED.
Either the 1-2A DG.\ 1B DG or 2B DG EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME
[NOTE: OBTAINING THE MODE 4 SELECTOR SWITCH KEY MAY BE SIMULATED.
- 1. Obtain the appropriate Mode 4 key from the The Mode 4 key for the selected S I U SSS office or the DB operator key ring diesel generator is requested from the SSS office or DB SO. (CUE:
Appropriate key is obtained)
- 2. Check engine for any damage Engine walked down. (CUE: No S/U damage indicated.)
- 3. Check air reservoir pressure adequate Air reservoir pressure indicators S/U checked. (CUE: Pressure is 400 psig.)
- 4. Prime the fuel oil system Hand priming pump operated. S I U (CUE: Resistance felt during priming.)
- 5. Place diesel generator in MODE 4 MODE 4 selector switch turned to S I U Mode 4. (CUE: Mode 4 selector switch indicator light for Mode 4 illuminated. )
HLT-32 NRC JPM exam j. Page 3 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 6. Verify associated 4160V bus de-energized Operator calls to have bus verified S I U and supply breaker opened de-energized and the supply breaker is open. (CUE: Bus is de-energized and supply breaker is open.)
7 Verify the Essential Protection Auxiliary 86A relay checked on diesel local S I U Relay (86A) is reset. control panel. (CUE: 86A relay indicates reset)
- 8. Depress the Engine Reset pushbutton Pushbutton depressed. (CUE: The S I U engine has been reset.)
- 9. WHEN appropriate time delay has elapsed Operator waits appropriate time SIU since all engine shutdown signals have been and checks ready for auto start reset THEN check "Ready for Auto Start" light illuminated. (Cue: 140 light illuminated on diesel local control panel. seconds have elal!sed and Ready for Auto Start light is illuminated.)
- 10. Start diesel generator Start pushbutton depressed until SIU engine is running and then released. (CUE: Engine starts.)
II. Determine generator voltage and frequency. Voltmeter and frequency meters SIU read. (CUE: The meters indicate 4000V and 60.5 Hz.)
- 12. Adjust generator voltage to 4160V AC Operates AUTO voltage adjust SIU switch in the raise direction until meter reads 4160V AC. (CUE:
Generator volt meter indicates 4160V AC.)
- 13. Checks generator frequency. Frequency meter checked. (CUE: SIU Frequency meter indicates 60.5 Hz.)
- 14. Adjust frequency to 60 Hz. Operates generator speed control SIU switch in the lower direction until meter reads 60 Hz. (CUE:
Generator frequency meter reads 60 Hz.)
HLT-32 NRC JPM exam j. Page 4 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 15. Energize the dead 4160V bus using the Handswitch for 4160V breaker S / U breaker handswitch on the DLCP. turned to the close position to energize the bus. (CUE: The 4160V bus RED light is LIT.)
STOP TIME Terminate when the 4160V bus is energized.
- CRITICAL ELEMENTS: Critical Elements are denoted with an asterisk (*) preceding the element number.
GENERAL
REFERENCES:
- 1. FNP-0-SOP-38.1, version 13.0
- 2. K/As: 055EA1.02 RO-4.3 SRO-4.4 064A4.01 RO-4.0 SRO-4.3
- 3. PRA Human Reliability Analysis Notebook Operator Action 3.6.31.4 GENERAL TOOLS AND EQUIPMENT:
none COMMENTS:
JPM j. (1 Page) HANDOUT CONDITIONS When I tell you to begin, you are to START A 4075 KW DIESEL GENERATOR FROM THE DLCP IN MODE 4. The conditions under which this task is to be performed are:
- a. A loss of all AC power has occurred.
- b. ECP-O.O is in progress.
- c. Attempts to start a diesel generator from the EPB have been unsuccessful.
- d. You are directed by the Shift Supervisor to start a 4075 KW Diesel Generator from the diesel local control panel per SOP-38.1 and energize the dead 4160v bus.
- e. A pre-job brief is not required.
04/07/08 13:27:32 FNP-0-SOP-38.1 March 28, 2008 Version 13.0 FARLEY NUCLEAR PLANT SYSTEM OPERATING PROCEDURE FNP-0-SOP-38.l S
A F
E T
Y EMERGENCY STARTING OF A DIESEL GENERATOR R
E L
A T
E D
PROCEDURE USAGE REQUIREMENTS PER FNP-0-AP-6 SECTIONS Continuous Use ALL Reference Use Infonnation Use Approved:
Jim Hunter ifor)
Operations Manager Date Issued: 04101/2008
04/07108 13:27:32 FNP-0-SOP-38.1 TABLE OF CONTENTS Procedure Contains Number of Pages Body .......................................................... 5 Page 1 of 1 Version 13.0
04107/08 13:27:32 FNP-0-SOP-38.1 FARLEY NUCLEAR PLANT SHARED SYSTEM OPERATING PROCEDURE SOP-38.1 EMERGENCY STARTING OF A DIESEL GENERATOR 1.0 Purpose This procedure provides Initial Conditions, Precautions and Limitations, and Instructions for emergency operation of a diesel generator.
2.0 Initial Conditions 2.1 Diesel generator(s) are required for operations and can not be started using normal starting methods.
2.2 IF starting an opposed piston DG (IC or 2C) AND oil temperature has decreased to less than 10WF with the keep warm lube oil system in service, THEN cylinders have been blown down and engine barred over.
3.0 Precautions and Limitations 3.1 Repeated start attempts should be minimized if engine turns over but fails to start to ensure adequate air start capacity is maintained. One air receiver should be maintained greater than 150 psig for the 4075 kW DGs or greater than 90 psig for the 2850 kW DGs to ensure adequate air start capacity is maintained for one additional start.
3.2 The following keys are needed to restore their respective DG to EPB control from Mode 4 control (located on the Diesel Building SO key ring and in the SSS office ):
Key # Tab # Key Name 12B288 B29 1-2A DG Mode 3-4 Sel Switch 3.3 When a Diesel Generator is started and Service Water is not available due to a dead bus, actions should be taken to energize the bus and start two Service Water pumps as soon as possible. Diesel generators are only capable of operating 3 minutes without cooling water flow.
Version 13.0
04107108 13:27:32 FNP-0-SOP-38.1 4.0 Instructions 4.1 Obtain the required Mode 3-4 Sel Switch key (located on the Diesel Building SO key ring and in the SSS office) OR arrange to have it brought to the Diesel Bldg:
Key # Tab # Key Name 12B288 B29 1-2A DG Mode 3-4 Sel Switch 4.2 Check engine for any apparent damage caused during starting attempts.
4.3 Verify adequate air reservoir pressure for DG start:
- 2850 kW DG - at least one receiver greater than 90 psig
- 4075 kW DG - at least one receiver greater than 150 psig 4.4 Prime fuel oil system using hand pump.
4.5 Position Mode 4 selector switch to Mode 4 position.
4.6 Verify the following for 4160V bus to be supplied by diesel generator (on EPB or locally at switchgear):
- 4160V bus is de-energized
- Supply breaker(s) to 4160V bus are open 4.7 Verify Essential Protection Auxiliary Relay (86A) is reset.
(on diesel local relay panel) 4.8 Depress Engine Reset pushbutton (on diesel local control panel).
Version 13.0
04/07/08 13:27:32 FNP-0-SOP-38.l 4.9 WHEN appropriate time delay has elapsed since all engine shutdown signals have been reset (86A and Engine Reset):
- at least 100 seconds for 2850 kW DG
- at least 140 seconds for 4075 kW DG THEN check Ready for Auto Start light illuminated on diesel local control panel.
4.10 IF Ready for Auto Start light is NOT illuminated, THEN verify barring device is NOT inserted (annunciator 54 NOT illuminated).
Version 13.0
04/07/08 13:27:32 >-J ~ ~.1A....A ~...L.-J ..L J FNP-0-SOP-38.1 NOTES:
- Step 4.11 starts a 4075 or 2850 kW Diesel Generator from the Diesel Local Control Panel with the selector switch in Mode 4.
- Step 4.12 performs a manual Emergency Starting of a 4075 kW Diesel Generator.
4.11 IF desired to start a 4075 or 2850 kW Diesel Generator from the Diesel Local Control Panel with the selector switch in Mode 4, THEN perform the following:
4.11.1 Depress and hold START pushbutton.
4.11.2 WHEN diesel is running OR start failure occurs, THEN release START pushbutton.
4.11.3 IF diesel fails to start, THEN return to Step 4.7.
4.11.4 Perform the following at diesel local control panel:
4.11.4.1 Adjust generator voltage to 4160V using AUTOMATIC VOLTAGE ADJUST switch.
4.11.4.2 Adjust generator frequency to 60 Hz using SPEED CONTROL switch.
4.11.5 Perform one of the following as dictated by plant conditions or shift supervisor instructions:
4.11.5.1 Shift control of diesel generator to EPB by unlocking MODE 4 selector switch and selecting OFF position.
4.11.5.2 Energize dead 4160V AC Bus using breaker control handswitch on diesel local control panel.
Version 13.0
04/07/08 13:27:32 FNP-0-SOP-38.1 4.12 IF desired to perform a manual Emergency Start of a 4075 kW Diesel Generator, THEN perform the following:
4.12.1 Place air start solenoid override tool in position on each end of engine (two operators required).
4.12.2 Simultaneously pull down and hold both air start solenoid override tools.
4.12.3 WHEN engine starts, OR approximately 7 seconds has elapsed, THEN release both air start solenoid override tools and remove.
4.12.4 IF diesel fails to start, THEN return to Step 4.7.
4.12.5 Perform the following at diesel local control panel:
4.12.5.1 Adjust generator voltage to 4160V using AUTOMATIC VOLTAGE ADJUST switch.
4.12.5.2 Adjust generator frequency to 60 Hz using SPEED CONTROL switch.
4.12.6 Perform one of the following as dictated by plant conditions or shift supervisor instructions:
4.12.6.] Shift control of diesel generator to EPB by unlocking MODE 4 selector switch and selecting OFF position.
4.12.6.2 Energize dead 4160V AC Bus using breaker control handswitch on diesel local control panel.
5.0 References 5.1 FNP-0-SOP-38.0, DIESEL GENERATORS 5.2 FNP-I-ECP-O.O, LOSS OF ALL AC POWER 5.3 FNP-2-ECP-0.0, LOSS OF ALL AC POWER 5.4 Technical Specification 3.8.3 5.5 DI72550, DI72551, DI72552, DI72554, DI72774, Dl72778, DI72782, DI72793, D202551, D202778 Version 13.0
HLT-32 NRC JPM exam k. Page 1 of 5 k.JPM TITLE: Place 'A' BAT OIS & 'B' BAT OIR TASK STANDARD: Place 'A' BAT on service and 'B' BAT on recirc per SOP-2.6, Section 4.2.
PROGRAM APPLICABLE: SOT -.L SOCT OLT -.L LOCT ACCEPTABLE EVALUATION METHOD: --.2L PERFORM X SIMULATE DISCUSS EVALUATION LOCATION: SIMULATOR CONTROL ROOM -.L PLANT PROJECTED TIME: 15 MIN SIMULATOR IC NUMBER: NIA ALTERNATE PATH TIME CRITICAL PRA Examinee:
Overall JPM Performance: Satisfactor 0 Unsatisfactor 0 Evaluator Comments (attach additional sheets if necessary)
EXAMINER: ________________
HLT-32 NRC JPM exam k. Page 2 of 5 CONDITIONS When I tell you to begin, you are to PLACE 'A' BAT O/S & 'B' BAT OIR. The conditions under which this task is to be performed are:
- a. The boric acid system is aligned per SOP-2.6.
- b. The 'A' BAT is on recirc and the 'B' BAT is on service.
- c. The control room has instructed you to place 'A' BAT on service and 'B' BAT on recirc for weekly samples per SOP-2.6, Section 4.2.
NOTE: THIS JPM MAY BE PERFORMED ON EITHER UNIT. UNIT 2 NUMBERS ARE
[BRACKETED].
EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
START TIME
- 1. Verifies 'A' BAT boric acid concentration 'A' BAT boric acid concentration between 4.0 & 4.4 w/o (7000-7700 ppm) by verified between 4.0 & 4.4 w/o latest chemistry analysis. (7000-7700 ppm) by requesting Control Room latest chemistry analysis from control room. (CUE: Control S I U room informs you that' A' BAT boric acid concentration is 7300 ppm boron.)
- 2. Requests control room take 'A' & 'B' boric Contacts the CRO to place the acid transfer (BAT) pump handswitches to BAT pump handswitches to stop stop and returned to auto. and return to auto. (CUE: eRO S I U Control Room acknowledges that the BAT pump handswitches have been taken to stop and returned to auto.) (CUE:
1A BAT pump stopped.)
- 3. Shuts batching tank supply to boric acid Q1[2]E21 V236 is turned pumps Q1[2]E21V236. clockwise. (CUE: V236 is fully S/U 100' Radside Aux Building Boric Acid pump area clockwise.)
- 4. Shuts 'A' BAT pump suction cross-connect Q1[2]E21V235A is turned Q1[2]E21 V235A. clockwise. (CUE: V235A is fully S I U 100' Radside Aux Building Boric Acid pump area clockwise.)
- 5. Opens 'A' BAT pump miniflow isolation Q1[2]E21 V231A is turned Q 1[2]E21 V231A. counter-clockwise. (CUE: V231A S I U 100' Radside Aux Building Boric Acid pump area is fully counter-clockwise.)
HLT-32 NRC JPM exam k. Page 3 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
- 6. Shuts 'A' BAT pump mini flow orifice Ql[2]E21 V229A is turned bypass Ql[2]E21 V229A. clockwise. (CUE: V229A is fully S/U 100' Radside Aux Building Boric Acid pump area clockwise.)
- 7. Opens 'A' BAT outlet Ql[2]E21V227A. Ql[2]E21V227A is turned 100' Radside Aux Building Boric Acid pump area counter-clockwise. (CUE: V227A S/U is fully counter-clockwise.)
- 8. Opens 'A' BAT pump discharge Ql[2]E21 V219A is turned Ql[2]E21V219A. counter-clockwise. (CUE: V219A S/U 100' Radside Aux Building Boric Acid pump area is fully counter-clockwise.)
- 9. Shuts 'B' BAT pump discharge Ql[2]E21V219B is turned Ql [2]E21 V219B. clockwise. (CUE: V219B is fully S/U 100' Radside Aux Building Boric Acid pump area clockwise.)
- 10. Opens 'B' BAT outlet Ql[2]E21 V227B. Ql[2]E21 V227B is turned counter-100' Radside Aux Building Boric Acid pump area clockwise. (CUE: V227B is fully S/U counter-clockwise.)
- 11. Opens 'B ' BAT pump mini flow orifice Ql[2]E21V229B is turned counter-bypass Ql[2]E21 V229B. clockwise. (CUE: V229B is fully S/U 100' Radside Aux Building Boric Acid pump area counter-clockwise.)
- 12. Opens' B ' BAT pump suction cross-connect Ql[2]E21 V235B is turned counter-Ql[2]E21 V235B. clockwise. (CUE: V235B is fully S/U 100' Radside Aux Building Boric Acid pump area counter-clockwise.)
- 13. Opens 'B' BAT pump miniflow isolation Ql[2]E21V231B is turned counter-Ql[2]E21 V231B. clockwise. (CUE: V231B is fully S/U 100' Radside Aux Building Boric Acid pump area counter-clockwise.)
- 14. Place IB Boric Acid transfer pump control Requests control room Place IB switch in START. Boric Acid transfer pump control Control Room switch in START. S/U (CUE: 'B' BAT pump running.)
Checks discharge pressure gauge. S / U (CUE: 'B' BAT running, PI-105 indicates 80 psig.)
- 15. Requests Control Room ensure system System checklist SOP-2.6D is checklist SOP-2.6D performed and verified. initiated. S/U
HLT-32 NRC JPM exam k. Page 4 of 5 EVALUATION CHECKLIST RESULTS:
ELEMENTS: STANDARDS: (CIRCLE)
STOP TIME Terminate when system checklist SOP-2.6D is initiated.
CRITICAL ELEMENTS: Critical Elements are denoted with an asterisk (*) preceding the element number.
GENERAL
REFERENCES:
- 1. FNP-l-SOP-2.6, REV 31.0
- 2. FNP-2-S0P-2.6, REV 29.0
- 3. K/As: 004K1.16 RO-3.3 SRO-3.5 GENERAL TOOLS AND EQUIPMENT:
None COMMENTS:
OpsBas006
- z.,;c, ( RECYClE £VAPORATllR A
lOCAl SAMPLE I I
.. , I OK VI 1
- 1CIHOO 1 I ATMOSP'i~~ __ !!_~
8305
- TO BUNDE:!
TO CHARGiNG PUMP SUCTION -
B Figure 2 - Boric Acid System
JPM k. (1 Page) HANDOUT CONDITIONS When I tell you to begin, you are to PLACE 'A' BAT OIS & 'B' BAT O/R. The conditions under which this task is to be perfonned are:
- a. The boric acid system is aligned per SOP-2.6.
- b. The 'A' BAT is on recirc and the 'B' BAT is on service.
- c. The control room has instructed you to place' A' BAT on service and 'B' BATon recirc for weekly samples per SOP-2.6, Section 4.2.
)
)
09/02/08 10:49:26 FNP-1-S0P-2.6 4.2 Placing 1A BAT on Service and 1B BAT on Recirc.
NOTE:
- WHEN lB BAT is on recirc, THEN lB BAT and lB Boric Acid transfer pump are not available to supply normal makeup to the eves system. lA BAT and lA Boric Acid transfer pump are aligned for normal makeup to the eves system. This alignment is used for sampling and/or batching lB BAT.
- WHEN lB BAT is on recirc, THEN it is still considered operable unless it has been batched. IF it has been batched, THEN it should be considered inoperable until satisfactory sample results are obtained.
4.2.1 Verify 1A BAT Boric Acid concentration is 4.0 to 4.4 wlo (7000 -7700 ppm) as indicated by latest chemistry analysis.
4.2.2 Place both Boric Acid Transfer Pump Handswitches to STOP, and return to AUTO.
- 1A BATP switch to Stop, and return to AUTO
- 1B BATP switch to Stop, and return to AUTO.
4.2.3 Shut batching tank supply to Boric Acid pumps Q 1E21 V236.
(l-CVC-V-8310) 4.2.4 Shut Boric Acid transfer pump 1A suction cross connect Q1E21 V235A (l-CVC-V-8311A).
4.2.5 Open Boric Acid transfer pump 1A mini-flow isolation Q1E21 V231A (l-CVC-V -8320A).
4.2.6 Shut Boric Acid transfer pump 1A mini-flow orifice bypass Q1E21V229A (l-CVC-V-8321A).
4.2.7 Open Boric Acid tank 1A outlet Q1E21V227A (l-CVC-V-8323A).
4.2.8 Open Boric Acid transfer pump 1A discharge Q1E21 V219A (l-CVC-V-8315A).
4.2.9 Shut Boric Acid transfer pump 1B discharge Q1E21 V219B (l-CVC-V-8315B).
4.2.10 Open Boric Acid tank 1B outlet Q1E21V227B (l-CVC-V-8323B).
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09/02/08 10:49:26 I I I I I I FNP-I-S0P-2.6 4.2.11 Open Boric Acid transfer pump IB mini-flow orifice bypass QIE21V229B (l-CVC-V-8321B).
4.2.12 Open Boric Acid transfer pump IB suction cross connect QIE21V235 B (l-CVC-V-8311B).
4.2.13 Open Boric Acid transfer pump IB mini-flow isolation QIE21V231B (l-CVC-V-8320B).
4.2.14 Place IB Boric Acid transfer pump control switch in START.
4.2.15 Have System checklist FNP-I-S0P-2.6D verified.
4.3 Placing IB BAT on Service and lA BAT on Standby.
NOTE: Normal operation - one BAT is lined up to supply the suction of both Boric Acid transfer pumps and the standby tank is isolated. In order to place the standby tank in service, a valve lineup must be performed in accordance with the appropriate section of the SOP.
4.3.1 Verify IB BAT Boric Acid concentration is 4.0 to 4.4 wlo (7000 - 7700 ppm) as indicated by latest chemistry analysis.
4.3.2 Place both Boric Acid Transfer Pump Handswitches to STOP, and return to AUTO.
- lA BATP switch to Stop, and return to AUTO
- IB BATP switch to Stop, and return to AUTO.
4.3.3 Shut batching tank supply to Boric Acid pumps QIE21 V236.(1-CVC-V-831O) 4.3.4 Shut Boric Acid transfer pump lA suction cross connect QIE21V235 A (l-CVC-V-8311A).
4.3.5 Open Boric Acid tank IB outlet QIE21V227B (l-CVC-V-8323B).
4.3.6 Open Boric Acid transfer pump IB mini-flow isolation QIE21V231B (l-CVC-V-8320B).
4.3.7 Shut Boric Acid transfer pump IB mini-flow orifice bypass QIE21V229B (l-CVC-V-8321B).
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09/02/08 11 :00:S4 FNP-2-S0P-2.6 4.2 Placing 2A BAT on Service and 2B BATon Recirc.
NOTES:
- WHEN 2B BAT is on recirc, THEN 2B BAT and 2B Boric Acid transfer pump are not available to supply normal makeup to the eves system. 2A BAT and 2A Boric Acid transfer pump are aligned for normal makeup to the eves system. This alignment is used for sampling and/or batching 2B BAT.
- WHEN 2B BAT is on recirc, THEN it is still considered operable unless it has been batched. IF it has been batch ed, THEN it should be considered inoperable until satisfactory sample results are obtained.
4.2.1 Verify 2A BAT Boric Acid concentration is 4.0 to 4.4 w/o (7000 - 7700 ppm) as indicated by latest chemistry analysis.
4.2.2 Place both Boric Acid Transfer Pump Handswitches to STOP, and return to AUTO.
- 2A BATP switch to Stop, and return to AUTO
- 2B BATP switch to Stop, and return to AUTO.
4.2.3 Shut batching tank supply to Boric Acid Pumps Q2E21 V236.
(2-CVC-V -8310) 4.2.4 Shut Boric Acid Transfer Pump 2A suction cross connect Q2E21V23SA (2-CVC-V-8311A).
4.2.S Open Boric Acid Transfer pump 2A mini- flow isolation Q2E21V231A (2-CVC-V-8320A).
4.2.6 Shut Boric Acid Transfer Pump 2A mini- flow orifice bypass Q2E21V229A (2-CVC-V-8321A).
4.2.7 Open Boric Acid Tank 2A outlet Q2E21 V227 A (2-CVC-V -8323A).
4.2.8 Open Boric Acid Transfer Pump 2A Discharge Q2E21V219A (2-CVC-V-831 SA).
4.2.9 Shut Boric Acid Transfer Pump 2B Discharge Q2E21 V219B (2-CVC-V -831SB).
4.2.10 Open Boric Acid Tank 2B outlet Q2E21 V227B (2-CVC-V -8323B).
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09/02/08 11 :00:54 I' FNP-2-S0P-2.6 4.2.11 Open Boric Acid Transfer Pump 2B mini-flow orifice bypass Q2E21V229B (2-CVC-V-8321B).
4.2.12 Open Boric Acid Transfer Pump 2B suction cross connect Q2E21V235B (2-CVC-V-8311B).
4.2.13 Open Boric Acid Transfer Pump 2B mini-flow isolation Q2E21 V231 B (2-CVC-V-8320B).
4.2.14 Place 2B Boric Acid Transfer Pump control switch in START.
4.2.15 Have System Checklist FNP-2-S0P-2.6D, verified.
4.3 Placing 2B BAT on Service and 2A BAT on Standby.
NOTE: Normal operation - one BAT is lined up to supply the suction of both Boric Acid Transfer Pumps, the Standby Tank is isolated. In order to place the Standby Tank in service, a valve lineup must be performed in accordance with the appropriate section of the SOP. {CMT 0007416}
4.3.1 Verify 2B BAT Boric Acid concentration is 4.0 to 4.4 wlo (7000 - 7700 ppm) as indicated by latest chemistry analysis.
4.3.2 Place both Boric Acid Transfer Pump Handswitches to STOP, and return to AUTO.
- 2A BATP switch to Stop, and return to AUTO
- 2B BATP switch to Stop, and return to AUTO.
4.3.3 Shut batching tank supply to Boric Acid Pumps Q2E21 V236 (2-CVC-V-8310).
4.3.4 Shut Boric Acid Transfer Pump 2A suction cross connect Q2E21V235A (2-CVC-V-8311A).
4.3.5 Open Boric Acid Tank 2B outlet Q2E21V227B (2-CVC-V-8323B).
4.3.6 Open Boric Acid Transfer Pump 2B mini-flow isolation Q2E21 V231B (2-CVC-V-8320B).
4.3.7 Shut Boric Acid Transfer Pump 2B mini-flow orifice bypass Q2E21V229B (2-CVC-V-8321B).
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