ML101520258
| ML101520258 | |
| Person / Time | |
|---|---|
| Site: | Oconee  |
| Issue date: | 05/04/2010 |
| From: | NRC/RGN-II |
| To: | Duke Energy Carolinas |
| References | |
| 50-269/10-301, 50-270/10-301, 50-287/10-301 | |
| Download: ML101520258 (288) | |
Text
CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO-108 Perform Reactor Manual Trip Test CRO-108 fnl Page 1 of 19 REGION" INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE Task: Perform Reactor Manual Trip Test Alternate Path: No Facility JPM #: New KIA Rating(s):
System: 014 KIA: A4.01 Rating: 3.3/3.1 Task Standard:
Perform Reactor Manual Trip Test without causing a plant transient.
Preferred Evaluation Location:
Simulator
_X_ In-Plant __
References:
PT/1/A/0305/001 (Reactor Manual Trip Test) OP/1/A/1105/019 (Control Rod Drive System) Validation Time: 20 minutes CRO-108 fnl Page 2 of 19 Preferred Evaluation Method: Perform X Simulate Time Critical:
NO ====================================================================================
Candidate:
Time Start: ___ _ NAME Time Finish: ----Performance Rating: SAT ___ UNSAT __ _ Performance Time: ___ _ Examiner:
_______________________
_
NAME SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
- 1. Recall Snap 205 2. Update ReS Boron on board to 2313 3. Go to RUN eRO-108 fnl Page 3 of 19 Tools/Equipment/Procedures Needed: PT/1/A/0305/001 (Reactor Manual Trip Test) OP/1/A/11 05/019 (Control Drive System) READ TO OPERATOR DIRECTION TO TRAINEE: eRO-108 fnl Page 4 of 19 I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Unit Startup in progress OP/1/A/1102/001 (Controlling Procedure For Unit Startup) Ene!. 4.7 (Unit Startup From 532°F/2155 psig To MODE 1) complete up to step 2.13 OP/1/A/1105/019 (Control Rod Drive System) is in progress and the Initial Conditions are complete.
= 2313 ppmb INITIATING CUES: The CR SRO directs you to perform PT/1/A/0305/001 (Reactor Manual Trip Test) beginning at Step 12.1.2.
START TIME: __ _ STEP 1: Step 12.1.2 Test Reactor Manual trip pushbutton as follows: A. Verify RCS at::::: 532°F. STANDARD:
Determine that RCS is::::: 532°F by observing RCS temperature on the control board or the OAC. CUE: RCS temp of 536°F is considered::::
532°F. COMMENTS:
STEP 2: Step 12.1.2B Verify shutdown margin calculation for Group 1 at 50% withdrawn indicates> 1 % LlKlK shutdown margin. (R. M.) STANDARD:
Verify shutdown margin calculation for Group 1 at 50% withdrawn indicates> 1 % LlKlK shutdown margin by comparing to the attached SDM calculation.
Using the Grp 1 @ 50% curve and RCS temperature at 536°F determine that RCS Boron is required to be greater than:::::
1450 ppmB. Actual Boron is 2313 per Initial Conditions. > 1 % LlKlK shutdown margin is met. COMMENTS:
SAT CRO-108 fnl Page 5 of 19 UNSAT SAT UNSAT STEP 3: Step 12.1.2C Perform Latch and PI alignment of Group 1, as follows: (R.M.) 1. *Ensure GROUP SELECT SWITCH to 1. 2. Ensure SINGLE SELECT SWITCH to ALL. 3. Ensure Group 1 CONTROL ON lights are ON. (PI panel) 4. Select LATCH AUTO. 5. WHEN Auto Latch is complete:
- Verify LATCH AUTO is OFF.
- Verify Group 1 0% lights are ON. (PI Panel)
- Verify Group 1 API/RPI indications agree. (PI Panel)
- Critical step STANDARD:
Move GROUP SELECT SWITCH to CR Group 1. COMMENTS:
Ensure SINGLE SELECT SWITCH to ALL by observing on the diamond panel. Ensure Group 1 CONTROL ON lights are ON located on the PI panel. Depress the LATCH AUTO pushbutton.
WHEN Auto Latch is complete:
- Verify LATCH AUTO is OFF.
- Verify Group 1 0% lights are ON. (PI Panel)
- Verify Group 1 API/RPI indications agree. (PI Panel) CRO-108 fnl Page 6 of 19 CRITICAL STEP SAT UNSAT STEP 4: Step 12.1.20 SRO present to provide SRO oversight during all Manual CRD pulls. STANDARD:
Candidate should state that an SRO must be present during all Manual CRD pulls. Cue: State that an SRO is providing oversight.
COMMENTS:
STEP 5: Step 12.1.2E Monitor Source Range Ni's during CRD operation. (R.M.) STANDARD:
Monitor Source Range Ni's during CRD operation by observing Nls on the control board or on the OAC. COMMENTS:
SAT CRO-108 fnl Page 7 of 19 UNSAT SAT UNSAT STEP 6: Step 12.1.2F Begin Group 1 withdrawal to 10%. (R.M.) STANDARD:
Use the "Joy Stick" on the Diamond to withdraw Group 1. Observe Group 1 indication on the PI panel or OAC. While withdrawing Group 1 monitor Nls on control board of OAC. COMMENTS:
STEP 7: Step 12.1.2G Ensure Group 1 at 10%. (R.M.) STANDARD:
Ensure Group 1 at 10% by observing indication on the PI panel or the OAC. Group 1 should not be withdrawn greater that 50% withdrawn to ensure adequate shutdown margin exists. COMMENTS:
CRO-108 fnl Page 8 of 19 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
I NOTE: Placing Turbine Bypass Valves to hand could result in potential change in RCS temperature. (R.M.) . STEP 8: Step 12.1.2H Ensure dedicated Operator is assigned to maintain RCS temperature. (R.M.) STANDARD:
Candidate should indicate that Operator is assigned to maintain RCS temperature.
Cue: State that a dedicated RO has been assigned to maintain RCS temperture.
COMMENTS:
--SAT CRO-108 fnl Page 9 of 19 UNSAT STEP 9: Step 12.1.21 Position TBV control stations as follows: (R.M.)
- 1A TURBINE BYPASS VALVES to "HAND"
- 1B TURBINE BYPASS VALVES to "HAND" II NOTE: Step may be performed at any time in any sequence to maintain RCS temperature stable while TBVs in Hand.
- IF required, manually adjust Turbine Bypass Valves to maintain RCS temperature stable. (R.M.) STANDARD:
Place 1A and 1 B TURBINE BYPASS VALVES to "HAND" by depressing the HAND pushbutton on the TBV Bailey stations.
Verify that the HAND light illuminates.
COMMENTS:
STEP 10: Step 12.1.2J Verify Computer Point indicates "NOT INITIATE"
- 01S2432 REACTOR MANUAL TRIP STANDARD:
Call up computer point 01 S2432 on the OAC and verify it indicates "NOT INITIATE".
COMMENTS:
I CRO-108 fnl Page 10 of 19 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
CRO-108 fnl Page 11 of 19 II NOTE: When Reactor is tripped, ICS will transfer any FDW control stations in "HAND" to I II "AUTO". It is OK to leave FDW control stations in "AUTO". CRITICAL STEP STEP 11: Step 12.1.2K Depress and Hold REACTOR TRIP pushbutton.
STANDARD:
Depress and Hold REACTOR TRIP pushbutton located on the UB1. NOTE: ICS FEEDWATER MASTERS WILL NOT AND SHOULD NOT TRANSFER TO AUTO COMMENTS: Oij p06T COMn1er1T, C\d4\tiM (Ill II') W45 f-Wi tk bJ}iW' SAT UNSAT C;, t, GlernM of #t'\$.
rf M. qpp(lCCtv'\t P/OCtk a Cl>>1l11evti 1\
- D r Dr" r.oJ, N:> t1 eJ, '-I VlJ11, \It...f. '"'1 I ' UYl-1 \ v --.l'" Q STEP 12: Step 12.1.2L Verify the following:
- All Group 1 rods inserted into core.
- All CRD Breakers open. STANDARD: While REACTOR TRIP pushbutton is depressed verify that Group 1 rods insert into the core by observing the PI panel or the OAC. COMMENTS:
Verify All CRD Breakers open are open by observing Statalarms 1 SA-1/E-2, 3, 4, 5 (CRD TRIP BKR TRIP) actuated.
SAT UNSAT STEP 13: Step 12.1.2M Verify Computer Point indicates "INITIATED"
- 01S2432 REACTOR MANUAL TRIP STANDARD:
Call up computer point 01 S2432 on the OAC and verify it indicates "INITIATED".
Note: The two OAC screens above the ICS stations will revert to the PIT display on the reactor trip. The candidate may ask the SRO for guidance or another RO to put up the point on an OAC screen. Cue: If asked by the RO for guidance suggest another RO put the point up on an OAC screen. COMMENTS:
STEP 14: Step 12.1.2N Release REACTOR TRIP pushbutton.
STANDARD:
Release the REACTOR TRIP pushbutton located on the UB1. COMMENTS:
--CRO-108 fnl Page12of19 SAT UNSAT CRITICAL STEP SAT -UNSAT -
STEP 15: Step 12.1.20 Reset CRD Breakers per OP/1/A/1105/019 (Control Rod Drive System). STANDARD:
Perform OP/1/A/11 05/019 (Control Rod Drive System) Enclosure 4.1 (Resetting CRD Breakers) beginning at step 2.1. COMMENTS:
STEP 16: Step 2.1 of OP/1/A/1105/019 (Control Rod Drive System) Reset CRD System as follows: 2.1.1 Ensure TBV control stations in manual:
- 1A TURBINE BYPASS VALVES to "HAND" .
- 1B TURBINE BYPASS VALVES to "HAND" . STANDARD:
Ensure TBV control stations in manual by depressing the HAND button on the TBV controllers and observing the HAND light LIT for 1A and 1 B TURBINE BYPASS VALVES. COMMENTS:
CRO-108 fnl Page 13 of 19 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
STEP 17: Step 2.1.2 Select and hold for> 3 seconds TRIP RESET. STANDARD:
Depress the TRIP RESET pushbutton and hold for> 3 seconds COMMENTS:
STEP 18: Step 2.1.3 Select FAULT RESET. STANDARD:
Depress the FAULT RESET pushbutton.
COMMENTS:
CRO-108 fnl Page 14 of 19 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
STEP 19: Step 2.1.4 Ensure TBV control stations in desired position.
STANDARD:
Determine that placing the TBVs in AUTO is desired. Cue: As the CR SRO, inform the candidate that it is desired to place the TBVs in AUTO. COMMENTS:
STEP 20: Step 2.2 IF desired to place TURBINE BYPASS VALVES control stations in auto, perform the following:
Ensure TURBINE MASTER Setpoint is adjusted to match current THP. Position TURBINE BYPASS VALVES control stations as follows.
- 1A TURBINE BYPASS VALVES to AUTO .
- 1B TURBINE BYPASS VALVES to AUTO . STANDARD:
Ensure TURBINE MASTER Setpoint is adjusted to match current THP by observing the setpoint on the OAC. OAC display "GD AP28" will be called up and TURBINE MASTER Setpoint is adjusted using the knob on the TURBINE MASTER to match current THP (+/- 2 psig) Position TURBINE BYPASS VALVES control stations to AUTO by depressing the AUTO pushbutton on the 1 A and 1 B TURBINE BYPASS VALVES. COMMENTS:
CRO-108 fnl Page 15 of 19 SAT UNSAT SAT UNSAT STEP 21: Step 2.3 Ensure the following:
- Ensure RUN is ON.
- Ensure SINGLE SELECT SWITCH to ALL.
- Ensure GROUP SELECT SWITCH to OFF. STANDARD:
Ensure RUN is ON by observing the RUN light illuminated.
Ensure SINGLE SELECT SWITCH to ALL. Ensure GROUP SELECT SWITCH to OFF by placing switch to the OFF position.
Return to 12.1.2P of PT/1IA/0305/00 1 (Reactor Manual Trip Test) COMMENTS:
STEP 22: Step 12.1.2P of PT/1/A/0305/001 (Reactor Manual Trip Test) Ensure Turbine Bypass Valves setpoint adjusted to ::::: Turbine Header Pressure. (R.M.) Position TBV control stations as follows: (R.M.)
- 1A TURBINE BYPASS VALVES to "AUTO"
- 1B TURBINE BYPASS VALVES to "AUTO". STANDARD:
Determine that the TBVs are in AUTO by observing the AUTO lights LIT on the TBV stations.
COMMENTS:
CRO-108 fnl Page 16 of 19 SAT UNSAT SAT UNSAT STEP 23: Step 12.1.20 IF required Withdraw CRD Group 1 to 50% per OP/1/A/1105/019 (Control Rod Drive System). (R.M.) STANDARD:
Determine that withdrawing CRD Group 1 to 50% is not required.
Cue: As the CR SRO, inform the candidate that withdrawing CRD Group 1 to 50% at this time is not required.
COMMENTS:
STEP 24: Step 12.2 Perform the following:
- Verify acceptance met.
- IF acceptance NOT met, notify SRO . STANDARD:
Verify that the acceptance criteria are met because the CRD breakers opened when the REACTOR TRIP pushbutton was depressed.
COMMENTS:
END TASK STOP TIME: ____ _ ----CRO-108 fnl Page 17 of 19 SAT UNSAT SAT UNSAT STEP # 3 6 9 11 CRITICAL STEP EXPLANATIONS:
Explanation Required to be able to withdraw Group 1 Control Rods Withdrawal of group required to perform the test. eRO-108 fnl Page 18 of 19 Placing Turbine Bypass Valves in HAND prevents RCS temperature transient based on a change in SG pressure during performance of the PT Depressing the REACTOR TRIP pushbutton is required to perform the test. 14 Step must be performed to allow the CRD breakers to be reset. 17 Step is required to reset the CRD breakers CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
Unit Startup in progress CRO-108 fnl Page 19 of 19 OP/1/A/1102/001 (Controlling Procedure For Unit Startup) Encl. 4.7 (Unit Startup From 532°F/2155 psig To MODE 1) complete up to step 2.13 OP/1/A/11 05/019 (Control Rod Drive System) is in progress and the Initial Conditions are complete.
= 2313 ppmb INITIATING CUES: The CR SRO directs you to perform PT/1/A/0305/001 (Reactor Manual Trip Test) beginning at Step 12.1.2.
REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO*207 CRO-207 fnl Page 1 of 10 Pressure Makeup to Core Flood Tank with failure CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE Pressure makeup to Core Flood Tank with failure Alternate Path: Yes Facility JPM #: CRO-55 KIA Rating(s):
System: 006 KJA: A1.13 Rating: 3.5/3.7 Task Standard:
CRO-207 fnl Page 2 of 10 Follow OP/1/A/11 04/001 (Core Flooding System) to increase CFT pressure and mitigate the valve failure Preferred Evaluation Location:
Preferred Evaluation Method: Simulator
_X_ In-Plant __ Perform X Simulate
References:
OP/1/A/1104/001 (Core Flooding System) Validation Time: 10 minutes Time Critical:
NO ====================================================================================
Candidate:
Time Start: ----NAME Time Finish: ----Performance Rating: SAT ___ UNSAT __ _ Performance Time: ___ _ Examiner:
__________________
_
NAME SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
- 1. Recall Snap 206 2. Import files for CRO-207 3. Go to RUN 4. Fire TIMER 1 when N-298 is opened 5. Close 1 N-137 when directed.
CRO-207 fnl Page 3 of 10 Tools/Equipment/Procedures Needed: CRO-207 fnl Page 4 of 10 OP/1/A/1104/001 (Core Flooding System) Enclosure 4.7 (Pressure Makeup To CFTs Using Nitrogen)
READ TO OPERATOR DIRECTION TO TRAINEE: I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Unit 1 is operating at 100% power. Core Flood Tank low pressure statalarm is actuated.
OP/1/A/1104/001 (Core Flooding System) Enclosure 4.7 (Pressure Makeup To CFTs Using Nitrogen)
Initial Conditions are complete.
INITIATING CUES: The CR SRO directs you to complete the pressurization of the affected CFT by pressurizing to =:; 605 psig.
START TIME: __ _ STEP 1: Step 2.1 Notify operator to open 1 N-137 (CFTs Supply). (A-2-Hallway)
STANDARD:
Direct non-licensed operator to take a radio, open 1 N-137, communicate when the valve is open, and standby for further instruction.
Booth: Using ROSE Manual Valves open 1N-137. Booth cue: Inform student that 1N-137 is OPEN and you are standing by for further instructions.
COMMENTS:
STEP 2: Step 2.2 IF required to increase pressure in 1A CFT: STANDARD:
Determine that 1 A CFT is has low pressure by observing either: The computer point for Core Flood Tank "A" on the Operator Aid Computer.
OR "1 A" Core Flood Tank pressure gauge located on 1VB2. Continue to step 2.2.1 COMMENTS:
CRO-207 fnl Page 5 of 10 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
II NOTE: TS 3.6.3 Condition
'B' requires penetration flow path to be isolated within one hour. A check valve with flow secured through the valve is considered operable.
STEP 3: Step 2.2.1 Enter Technical Specification 3.6.3 Condition
'A' and 'B'. STANDARD:
Notify the CR SRO to enter Technical Specification 3.6.3 Condition
'A' and 'B'. CUE: INFORM CANDIDATE THAT STEP 2.2.1 IS COMPLETE AND SIGNED OFF COMMENTS:
STEP 4: Step 2.2.2 Open 1 N-298 (N2 FILL CORE FLOOD TANK 1 A). STANDARD:
Open 1 N-298 the "1A" Core Flood Tank nitrogen fill valve, located on 1 VB2. Verify RED OPEN indicating light lit; Green CLOSE light off. COMMENTS:
STEP 5: Step 2.2.3 IF 1N-128 (CFT 1A Supply) is closed due to 1N-298 leaks past seat, throttle 1 N-128 (CFT 1 A Supply) for a rate of:S; 100 psig per 15 minutes ("" 6.6 psig/min). (A-4-409)
STANDARD:
Determine 1 N-128 is NOT closed. Continue to Step 2.2.4. Cue: Inform candidate that 1 N-128 is not closed. COMMENTS:
I --SAT age 0 CRO-207 fnl P 6 f10 UNSAT CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
STEP 6: Step 2.2.4 Monitor 1 A CFT pressure.
STANDARD:
Observe computer pOint or pressure gauge for "1A" Core Flood Tank on 1VB2 and verify Core Flood Tank pressure is increasing.
COMMENTS:
STEP 7: Step 2.2.5 IF AT ANY TIME ES actuation occurs, close 1 N-298 (N2 FILL CORE FLOOD TANK 1A). STANDARD:
Determine ES actuation has not occurred by observing:
Statal arm Panel 1 SA-1 Alarm 10 and 11 on rows A thru D NOT in alarm COMMENTS:
STEP 8: Step 2.2.6 WHEN pressurization of 1 A CFT complete, close 1 N-298 (N2 FILL CORE FLOOD TANK 1A). STANDARD:
Close the 1 N-298 located on 1VB2 when Core Flood Tank pressure is approximately 600 psig (595 psig to 615 psig). Determine that the valve did NOT close by observing CFT pressure still increasing and Green CLOSED light OFF; Red OPEN light lit. COMMENTS:
SAT CRO-207 fnl P f10 age 7 0 UNSAT SAT UNSAT SAT UNSAT STEP 9: Step 2.2.7 IF 1 N-298 leaks past seat, close 1 N-128 (CFT 1 A Supply). (A-4-409)
STANDARD:
Determine that 1 N-298 is not leaking by its seat but is open by observing the Green CLOSED light OFF; Red OPEN light lit. Booth cue: If directed to close 1N-128, wait 4 minutes and then close 1N-137. COMMENTS:
ALTERNATE PATH STEP 10: Step 2.2.8 IF 1 N-298 fails to close, notify operator to close 1 N-137 (CFTs Supply). (A-2-Hallway).
STANDARD:
Determine that 1 N-298 failed to close and direct an operator via radio to close 1 N-137. Verify CFT pressure stops increasing.
Must be completed prior to CFT pressure reaching 625 psig. Note: CFT pressure>
625 psig requires entry in TS 3.5.1 Conditions B. COMMENTS:
STEP 11: Step 2.2.9 Evaluate exiting Technical Specification 3.6.3 Condition
'A' and 'B'. STANDARD:
Notify the CR SRO to evaluate exiting Technical Specification 3.6.3 Condition
'A' and 'B'. Cue: SRO will evaluate exiting TS 3.6.3, end of task. COMMENTS:
END TASK STOP TIME: ____ _ --SAT age 0 CRO-207 fnl P 8 f10 UNSAT CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
CRITICAL STEP EXPLANATIONS:
STEP # Explanation 1 Valve must be opened to pressurize eFT. 4 Required to pressurize the eFT. 10 Required to prevent over pressurizing the eFT. CRO-207 fnl Page 9 of 10 CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
Unit 1 is operating at 100% power. Core Flood Tank low pressure statalarm is actuated.
CRO-207 fnl Page 10 of 10 OP/1/A/1104/001 (Core Flooding System) Enclosure 4.7 (Pressure Makeup To CFTs Using Nitrogen)
Initial Conditions are complete.
INITIATING CUES: The CR SRO directs you to complete the pressurization of the affected CFT by pressurizing to ::= 605 psig.
Enclosure 4.7 Pressure Makeup To eFTs Using Nitrogen OP/l!Alll04/001 Page 1 of2 1. Initial Conditions VerifY high pressure nitrogen header in service. -W1.2 Review Limits and Precautions.
NOTE: Nitrogen regulator pressure on N-30 and N-33 should be set at 625 psig while adding nitrogen to CFTs. {16} 2. Procedure 2.1 NotifY operator to open IN-137 (CFTs Supply). (A-2-Hallway) 2.2 IF required to increase pressure in lA CFT: NOTE: TS 3.6.3 Condition
'B' requires penetration flow path to be isolated within one hour. A check valve with flow secured through the valve is considered operable.
SRO SRO 2.2.1 Enter Technical Specification 3.6.3 Condition
'A' and 'B'. 2.2.2 Open IN-298 (N2 FILL CORE FLOOD TANK IA). 2.2.3 IF IN-128 (CFT IA Supply) is closed due to IN-298 leaks past seat, throttle IN-128 (CFT lA Supply) for a rate 100 psig per 15 minutes 2.2.4 2.2.5 2.2.6 2.2.7 2.2.8 2.2.9 ("" 6.6 psig/min). (A-4-409)
Monitor lA CFT pressure.
IF AT ANY TIME ES actuation occurs, close IN-298 (N2 FILL CORE FLOOD TANK lA). WHEN pressurization of lA CFT complete, close IN-298 (N2 FILL CORE FLOOD TANK lA). IF IN-298 leaks past seat, close IN-128 (CFT lA Supply). (A-4-409)
IF IN-298 fails to close, notifY operator to close IN-137 (CFTs Supply). (A-2-Hallway).
Evaluate exiting Technical Specification 3.6.3 Condition
'A' and 'B'.
Enclosure 4.7 Pressure Makeup To eFTs Using Nitrogen OP!lIA/II041001 Page 2 of2 2.3 IF required to increase pressure in IB CFT: NOTE: TS 3.6.3 Condition
'B' requires penetration flow path to be isolated within one hour. A check valve with flow secured through the valve is considered operable.
SRO SRO 2.3.1 Enter Technical Specification 3.6.3 Condition
'A' and 'B'. 2.3.2 Open IN-299 (N2 FILL CORE FLOOD TANK lB). 2.3.3 IF IN-130 (CFT IB Supply) is closed due to IN-299 leaks past seat, throttle IN-130 (CFT lB Supply) for a rate of::; 100 psig per 15 minutes ("" 6.6 psig/min). (A-4-409) 2.3.4 Monitor IB CFT pressure.
2.3.5 IF AT ANY TIME ES actuation occurs, close IN-299 (N2 FILL CORE FLOOD TANK IB). 2.3.6 WHEN pressurization of IB CFT complete, close IN-299 (N2 FILL CORE FLOOD TANK IB). 2.3.7 IF IN-299 leaks past seat, close IN-130 (CFT IB Supply). (A-4-409) 2.3.8 IF IN-299 fails to close, notify operator to close IN-137 (CFTs Supply). (A-2-Hallway).
2.3.9 Evaluate exiting Technical Specification 3.6.3 Condition
'A' and 'B'. 2.4 Notify an operator to close IN-137 (CFTs Supply). (A-2-Hallway) 2.5 Verify IA CFT pressure stable. 2.6 Verify IB CFT pressure stable.
REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO-301 CRO-301 fnl Page 1 of 10 Verify HPI flow following LBLOCA with degraded HPI CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE Verify HPI flow following LBLOCA with degraded HPI Alternate Path: Yes Facility JPM #: New KIA Rating(s):
System: BW IE 13 KIA: EA1.1 Rating: 3.4/3.2 Task Standard:
CRO-301 fnl Page 2 of 10 Perform a symptom check and initiate Rule 2. Trip RCPs within 2 minutes and throttle HPI within limits. Preferred Evaluation Location:
Preferred Evaluation Method: Simulator
_X_ In-Plant __ _ Perform X Simulate
References:
EP/1/A/18001001 (Emergency Operating Procedure)
Rule 2 (Loss of SCM) Validation Time: 10 minutes Time Critical:
NO ====================================================================================
Candidate:
Time Start: ___ _ NAME Time Finish: ---Performance Rating: SAT ___ UNSAT __ _ Performance Time: ----Examiner:
_____________
_ NAME SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
- 1. Recall Snap 207 2. Import files for CRO-301 3. When directed by the examiner, go to RUN. CRO-301 fnl Page 3 of 10 Tools/Equipment/Procedures Needed: EP/1/Al1800/001 (Emergency Operation Procedure)
Rule 2 (Loss Of SCM) READ TO OPERATOR DIRECTION TO TRAINEE: CRO-301 fnl Page 4 of 10 I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Reactor was operating a 100% power. The reactor has just tripped. You are the BOP reactor operator.
INITIATING CUES: As the BOP, perform a Symptom Check.
START TIME: __ _ STEP 1: Perform a Symptom Check. STANDARD:
A Symptom Check is performed and determines that a Loss of SCM has occurred and Rule 2 is the highest symptom and should be performed.
Cue: As the SRO, if asked, concur with Rule 2. COMMENTS:
STEP 2: Step 1 IAAT all the following exist:
- Any SCM:::;; O°F
- Rx power:::;;
1% * :::;; 2 minutes elapsed since loss of SCM THEN perform Steps 2 and 3. STANDARD:
Determine that SCM is O°F by observing the indications on the ICCM plasma display. Verify Rx power is :::;; 1 % by observing the power range Nls located on 1UB1. Determine that:::;;
2 minutes elapsed since loss of SCM. GO TO Step 2 COMMENTS:
STEP 3: Step 2 Stop all RCPs. STANDARD:
Stop all RCPs by locating the RCP switches located on 1AB1 and rotating the switches to the TRIP position.
Verify that the green stop light is LIT and pump amps go to zero. COMMENTS:
CRO-301 fnl Page 5 of 10 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -CRITICAL STEP SAT -UNSAT -
STEP 4: Step 3 Notify CR SRO of RCP status. STANDARD:
Notify CR SRO that all RCPs have been secured. Cue: As the CR SRO, acknowledge the report of RCP status. COMMENTS:
STEP 5: Step 4 Verify Blackout exists. STANDARD:
Determine that a blackout does not exist by observing power available on the Main Feeder Busses volt meters located on 1 AB 1. GO TO Step 6 COMMENTS:
STEP 6: Step 6 Open the following:
- 1 HP-24
- 1 HP-25 STANDARD:
Verify that the above valves are open by observing their red open light LlTon1UB1.
Note: Valves will already be open due to ES actuation.
COMMENTS:
age 0 CRO-301 fnl P 6 f10 SAT UNSAT SAT UNSAT SAT UNSAT STEP 7: Step 7 Start all available HPI pumps. STANDARD:
Determine that ONLY the 1 B HPI pump is operating by observing light and pump amp indications on 1 UB1. Attempt to start the 1A and 1C HPI pump by locating their switches on 1 UB1 and rotating to the start position.
Note: 1A and 1C HPI pumps will NOT start. COMMENTS:
STEP 8: Step 8 Open the following:
- 1 HP-26
- 1 HP-27 STANDARD:
Verify that the above valves are open by observing their red open light LlTon1UB1.
Note: Valves will already be open due to ES actuation.
COMMENTS:
ALTERNATE PATH STEP 9: Step 9 Verify at least two HPI pumps are operating using two diverse indications.
STANDARD:
Determine that ONLY the 1 B HPI pump is operating by observing light and pump amp indications on 1 UB1. GO TO Step 18 COMMENTS:
age 0 CRO-301 fnl P 7 f10 SAT UNSAT SAT UNSAT SAT UNSAT STEP 10: Step 18 Verify at least two HPI pumps are operating.
STANDARD:
Determine that ONLY the 1 B HPI pump is operating by observing light and pump amp indications on 1 UB1. GO TO Step 18 RNO COMMENTS:
STEP 11: Step 18 RNO Maximize HPI flow::; 475 gpm (including seal injection for A hdr only). STANDARD:
Determine that 1 A HPI Header flow is > 475 gpm by observing the 1 A HPI Header and Seal Inlet HDR Flow gauges located on 1 UB1. Throttle 1 HP-26 to maximize HPI flow::; 475 gpm (including seal injection).
GO TO Step 19 Note: 1 HP-26 will have to be taken to MANUAL on the RZ module. Cue: Another operator will continue with Rule 2, end of task. COMMENTS:
END TASK STOP TIME: ____ _ --SAT age 0 CRO-301 fnl P 8 f10 UNSAT CRITICAL STEP SAT -UNSAT -
CRITICAL STEP EXPLANATIONS:
STEP # Explanation 1 Rule 2 should be selected based on the symptoms.
3 RCPs are required to be stopped within 2 minutes of loss of SCM. 11 1A HPI Header flow must be reduced :s; 475 gpm for pump runout. CRO-301 fnl Page 9 of 10 CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
Reactor was operating a 100% power. The reactor has just tripped. You are the BOP reactor operator.
INITIATING CUES: As the BOP, perform a Symptom Check. CRO-301 fnl Page 10 of 10 Rule 2 EP/l/ AlI800/001 Loss of SCM Page I of 13 ACTION/EXPECTED RESPONSE RESPONSE NOT OBTAINED 1. _ IAAT all the following exist: _ Any SCM O°F Rx power::::;
1% _ 2 minutes elapsed since loss of SCM 1._ IF all SCMs > O°F, THEN perfonn the following:
A. B. Obtain CR SRO concurrence to exit Rule 2. EXIT Rule 2. THEN perform Steps 2 and 3. :9) 2._ NotifY CR SRO ofRCP status. 19.22} 3._ GO TO Step 4 .
- _. __ **** __ **
- ___ **** _. ____ *** _ *** _. _____ ._ ***** M. ___ *** _____ ....
- ____ ***_* _____ ._*** ... __
- __ ** ___ ** ______________
- __
- ____ ._. __
- __________
- ___ ._ ** _. ___
- __ ._. ___ ._ ** _ ..... ___________
- ____
- __ 2. _ Stop all RCPs. 1. Place 1 TA AUTO/MAN switch in MAN. 3. _ NotifY CR SRO ofRCP status. 122J 4. _ Verify Blackout exists. 5. _ WHEN power has been restored, THEN continue.
- 2. Place ITB AUTO/MAN switch in MAN. 3._ Open ITA SU 6.9 KV FDR. 4. _ Open 1 TB SU 6.9 KV FDR. _ GO TO Step 6.
IF AT ANYTIME: .. Rule 2 Loss of SCM EP!1/A/1800/001 Page 2 of 13 (1) Any SCM is::; OaF AND Rx power is::; 1% AND::; 2 minutes have elapsed since loss of SCM '" (stop all RCPs)
Rule 2 EP/I1NI8001001 Loss of SCM Page 3 of 13 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 6. Open the following:
1 HP-24 1 HP-25 7. _ Start all available HPJ pumps. 1. IF both BWST suction valves (lHP-24 and IHP-25) are closed, THEN perform the following:
A. Start 1 A LPI PUMP. B. Start IB LPJ PUMP. C. Open the following: . lLP-15 lLP-16 1 LP-9 1 LP-lO 1 LP-6 1 LP-7 D:_ IF two LPI Pumps are running only to provide HPJ pump suction, THEN secure one LPI pump. E. _ Dispatch an operator to open 1 HP-363 (LETDOWN LINE TO LPI PUMP SUCTION BLOCK) (A-1-119, Ul LPI Hatch Rm, N end). F. _ GO TO Step 7. 2. IF only one BWST suction valve (1 HP-24 or 1 HP-25) is open, THEN perform the following:
A. _ IF three HPJ pumps are operating, THEN secure 1 B HPI PUMP. B. _ IF < 2 HPI pumps operating, THEN start HPJ pumps to obtain two HPJ pump operation, preferably in opposite headers. C. _ GO TO Step 8.
IF AT ANY TIME: RuJe2 Loss of SCM EP/VAi1800/001 Page 4 of 13 (1) Any SCM is :::; oop AND Rx power is :::; 1 % AND :::;2 minutes have elapsed since loss of SCM ... (stop all RCPs) -,.
2 EP/I/AI18001001 Loss of SCM Page 5 of 13 RESPONSE RESPONSE NOT OBTAINED 8. Open the following:
IHP-26 IHP-27 ---. --------_._----_.
._----. --._-_._--_._
.... --_._--_.-
.... _---_._----_._------_.--_
.. __ .... _-_. __ .. _---_ .... _--_. __ ._--9. _ Verify at least two HPI pumps are operating using two diverse indications.
- 10. _ IAA T 2 HPI pumps operating, AND HPI flow in any header is in the Unacceptable Region of Figure 1 THEN perform Steps 11 -13. -_._----_._._._---
- 11. _ Open the following in the affected header: ':y.:: lA Header '.;: IB Header : IHP-410 1 HP-409 _ GO TO Step 18. _ GO TO Step 12. 1. _ Notify CR SRO to consider manual operation of the failed valve. 2._ IF HPI flow exists in only one header, THEN GO TO Step 18. Figure 1 1800 jp 1600
§ 1400 V'.! 1200 V'.! 1000 0 p:: 800 600 400 200 0 0 100 Required HPI Flow Per Header 200 300 400 Required }[PI Flmv Per Header (gpm) HPI Pump Runout Region For 1 Pump In Header (including seal injection forA header) 500 600 IF AT ANY TIME: Rule 2 L-oss of SCM EP!l/A/1800/001 Page 6 of 13 (1) Any SCM is::; OaF AND Rx power is::; 1% AND::; 2 minutes have elapsed since loss of SCM ... (stop all Reps) (1 0) 2 HPI pumps operating AND HPI flow in any header is in the Unacceptable Region of Figure 1 ... (open IHP-410 and/or 1 HP-409) -* . '"
I Rule 2 Loss of SCM EP/1/AII800/001 Page 7 of 13 ACTIONIEXPECTED RESPONSE 12. _ IAAT the following limits are exceeded, Pump Operation Limit 1 HPJ pump/hdr 475 gpm (inc1. seal injection for A hdr) lA & IB HPJ pumps operating with 1 HP-409 open Total flow of950 gpm (incl. seal injection)
THEN throttle HPJ to maximize flow flow limit. 13. _ Notify CR SRO ofHPI status. 122) 14. _ IAAT either of the following exists: _ LPJ FLOW TRAIN A plus LPJ FLOW TRAIN B 3400 gpm _ Only one LPI header in operation with header flow 2900 gpm THEN GO TO Step IS. 15. Peliorm the following:
Place 1FDW-315 in MANUAL and -close. Place 1FDW-316 in MANUAL and -close. 16. _ Notify crew that performance of Rule 3 is NOT required due to LB LOCA. 17. _ WHEN directed by CR SRO, THEN EXIT this rule. RESPONSE NOT OBTAINED _ GO TO Step 25. 1. IF IFDW-31S will NOT close, -THEN stop lA MD EFDWP. 2. IF IFDW-316 will NOT close, -THEN stop IB MD EFDWP. 3. Place 1 TD EFDW PUMP in PULL TO -LOCK. I IF AT ANY TIME: Rule 2 Loss of SCM EP/I/A/18001001 Page 8 of 13 (1) Any SCM is ::; OaF AND Rx power is::; 1 % AND::; 2 minutes have elapsed since loss of SCM ... (stop all RCPs) .' . .
\.
Rule 2 EP!lIA/18001001 Loss of SCM Page 9 of 13 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 18. _ Verify at least two HPJ pumps are operating.
-_. __ ._--_. __ .... __ ._----_. __ ._-----_ .. _-------_._----._._-_.
- 19. _ IAAT either of the following exists: _ LPI FLOW TRAIN A plus LPI FLOW TRAIN B 3400 gpm _ Only one LPI header in operation with header flow 2900 gpm THEN GO TO Step 24. 20. _ Dispatch two operators to perform Encl 5.24 (Operation of the ADVs). (PS) _ Maximize HPJ flow 475 gpm (including seal injection for A hdr only). 21. _ Verify lSA-2/C-8 (AFIS HEADER A _ Select OFF for both digital channels on INITIA TED) lit. AFIS HEADER A. . __ ._M ___ . _______ , _____________
.. _._. ___
- __ .. _ ... __ .. ___ , ________ . ________ , __ ... _______ ... _________ _____ . __ ._._ ... __ ._ .. _ ... __ ."_ ... __ . ______ ._ .. __ ... __ ... _ .. _ ..... __ ._._ 22. _ Verify 1 SA-2/D-8 (AFIS HEADER B _ Select OFF for both digital channels on INITIATED) lit. AFIS HEADER B. 23. Notify CR SRO of the following:
_ Suspend Rule 3 (Loss of Main or Emergency FDW) until directed by tOSCM tab. _ Degraded HPI exists. 24. EXIT this nIle.
IF AT ANY TIME: Rule 2 . Loss of SCM EP/I/AI18001001 Page 10 of 13 (1) Any SCM is oaF AND Rx power is 1 % AND 2 minutes have elapsed since loss of SCM ... (stop all RCPs) (1 0) 2 HPJ pumps operating AND HPJ flow in any header is in the Unacceptable Region of Figure 1 ... (open 1 HP-41O and/or IHP-409) (12) the following limits are exceeded, Pump Operation Limit 1 HPJ pump/hdr 475 gpm (inc!. seal injection for A hdr) IA & IB HPJ Total flow of950 gpm pumps operating (incl. seal injection) with I HP-409 open ( throttle HPJ to maximize flow flow limit) (14) either LPI FLOW TRAIN A plus LPI FLOW TRAIN B 3400 gpm OR only one LPJ header is operating AND flow in that header is 2900 gpm ... (GO TO criteria for EXIT) ;7 Rule 2 EP/l/AlI800/001 Loss of SCM Page 11 of 13 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 25. IAAT TBVs are unavailable, THEN perform the following:
A. Dispatch two operators to perform Encl 5.24 (Operation of the ADVs). (PS) B. _ Notify CR SRO that ADVs are being aligned for use. {22! 26. _ Verify ISA-2/C-8 (AFlS HEADER A INITIATED) lit. 27. Verify lSA-2/D-8 (AFIS HEADER B INITlA TED) lit. 28. _ Verify any EFDW pump operating.
- 30. _ Verify any EFDW pump operating.
- 31. Verify both SGs intact. 32. Establish 300 gpm to each of the following:
IASG 1B SG _ Select OFF for both digital channels on AFIS HEADER A. _ Select OFF for both digital channels on AFIS HEADER B. Place the following in MANUAL and close: IFDW-315 1FDW-316 Start I TO EFDW PUMP. 1. _ Control Main FDW as required to raise leveJ in intact SGs to proper setpoint per Rule 7 (SG Feed Control).
- 2. _ GO TO Step 38. 1._ Establish 450 gpm to the intact SG. 2._ GO TO Step 33. _ Establish 450 gpm to available SG. . ' . ... .;;-.
IF AT ANY TIME: Rule 2 Loss of SCM EP/l/AI1800/001 Page 12 of 13 (l) Any SCM is :S OaF AND Rx power is :S 1 % AND :S 2 minutes have elapsed since loss of SCM ... (stop all RCPs) (10) 2 2 HPI pumps operating AND HPI flow in any header is in the Unacceptable Region of Figure J ... (open IHP-410 and/or IHP-409) (12) the following limits are exceeded, Pump Operation Limit I HPJ pump/hdr 475 gpm (incl. seal injection for A hdr) IA & 18 HPJ Total flow of950 gpm pumps operating (incl. seal injection) with 1 HP-409 open ( throttle HPJ to maximize flow :S flow limit) (14) either LPI FLOW TRAIN A plus LPI FLOW TRAIN B 2 3400 gpm OR only one LPI header is operating AND flow in that header is 2 2900 gpm ... (GO TO criteria for EXIT) (25) TBVs are unavailable
... (dispatch operators to align ADVs)
Rule 2 EP /1/ AlI 800/00 1 Loss of SCM Page 13 of 13 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED NOTE
- Flow may be throttled to control cooldown rate within Tech Spec limits, but SG levels must continue to increase until LOSCM setpoint is reached if SCM Oaf.
- TS cooldown rates are hr when Tcold > 280°F and hr when Tcold 280°F. 33. IAAT any SCM .s Oaf, THEN feed to the LOSCM setpoint in all intact SGs .
- OAC (Turn-on code "EFW")
- Table 5 in Rule 7 (SG Feed Control) _ Control EFDW as required to raise level in intact SGs to proper setpoint per Rule 7 (SG Feed Control).
.... _--------------------------.---._--_
... ------._----.---
---_ .. _-_._---.----------,----
... -_._ .... -.. _--... -.. ----_._ .. _---_.-....... _ ... _-----34. _ Verify both MD EFDWPs operating.
_ GO TO Step 36. --'---'---
_._-_._-----._._---------------_._----_
.... --------------_
.. __ ._--... _--..... __ ._ .... __ ... _ ....... _.-'-_.'----_
.. __ .--35. Place I TD EFDW PUMP in PULL TO LOCK. 36. _ Trip both Main FDW pumps. 37. Place FDW block valve switches in CLOSE: IFDW-33 IFDW-31 IFDW-42 IFDW-40 38. _ Notify CR SRO ofSG feed status. (221 CAUTION If 1 TD EFDW PUMP is being used for SG feed and Unit 1 is supplying the Auxiliary Steam header, reduci:qg SG pressure below 250 psig can result in reduced pumping capability.
- 39. _ IAAT SG pressure is > RCS pressure, THEN reduce SG pressure < RCS pressure using either of the foHowing:
TBVs _ Dispatch two operators to perfonn Encl 5.24 (Operation of the ADVs) CPS) -_._---_.----.-_._._--_
.........
_ ...... _ ...........
__ .. _-_ ... _.--_ .... _._ ....... _ .... _--_ ....... _ ...........
_ ....... _ .... _-_ ........ _ ... __ .... _ ... _ ... _.-... _ ...............
_ .. _ .. __ . 40. Ensure Rule 3 (Loss of Main or > . Emergency FDW) is in progress or . ::;, complete.
_.-... ----_ ....... __ .... -._ ..... __ ... __ .... __ .. _._._._ .. __ ... _ ..... _._._ ... _ .. __ ....... __ ..... -...................
_._ .. __ ....... --._ ..................
-... _ .. _.-41. _ WHEN directed by CR SRO, THEN EXIT this rule.
THIS PAGE INTENTIONALLY BLANK REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO-096 CRO-096 fnl Page 1 of 11 Align ECCS Suction from Emergency Sump (LP-21 Fails to Close) CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE Align EGGS Suction from Emergency Sump Alternate Path: YES Facility JPM #: GRO-096 KIA Rating(s):
System: BW IE08 KIA: EA1.1 Rating: 4.0/3.7 Task Standard:
GRO-096 fnl Page 2 of 11 Enclosure 5.12, EGGS Suction Swap to RBES is properly completed to align EGGS from the Emergency sump. Preferred Evaluation Location:
Preferred Evaluation Method: Simulator X In-Plant Perform X Simulate
References:
EP/1/A/1800101, LOGA GD Enclosure 5.12 (EGGS Suction Swap to RBES) of the EOP Validation Time: 15 minutes Time Critical:
NO ====================================================================================
Candidate:
Time Start: ----NAME Time Finish: ___ _ Performance Rating: SAT ___ UNSAT __ _ Performance Time: ___ _ Examiner:
____________
_ NAME SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
- 1. Recall 215 2. Import files for CRO-096 3. Go to run 4. Timer 3 will lower BWST Level to < 9' if needed at step 5 5. Timer 4 will lower BWST Level to < 6' if needed at step 6 Note: Procedure should be placed in a binder. CRO-096 fnl Page 3 of 11 Tools/Equipment/Procedures Needed: Enclosure 5.12, EGGS Suction Swap to RBES, of the EOP READ TO OPERATOR DIRECTION TO TRAINEE: CRO-096 fnl Page 4 of 11 I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
A large break LOGA has occurred which is depleting the BWST. INITIATING CUES: The Gontrol Room SRO directs you to Align EGGS Suction from Emergency Sump per Enclosure 5.12, EGGS Suction Swap to RBES, of the EOP.
STARTTIME:
__ _ STEP 1: Step 1 Start both of the following:
- 1A LPI Pump
- 18 LPI Pump STANDARD:
Locates control switches for 1 A and 18 LPI Pumps on 1 U82 and verifies red ON lights are illuminated and pump amps indicated.
Continue to Step 2 COMMENTS:
STEP 2: Step 2 Verify either of the following exists:
Candidate should determine that step is met by observing LPI FLOW TRAIN A plus LPI FLOW TRAIN 8 is 3400 gpm. Flow gauges are located on 1 U82. Continue to Step 3 COMMENTS:
STEP 3: Step 3 GO TO Step 52 STANDARD:
GO TO Step 52. Continue to Step 52 COMMENTS:
CRO-096 fnl Page 5 of 11 SAT UNSAT SAT UNSAT SAT UNSAT STEP 4: Step 52 WHEN BWST level is ::::; 15', THEN stop .ill! HPI pumps. STANDARD:
Locates the BWST level gauges on 1 UB2. The candidate determines level to be::::; 15'. or May obtain BWST level from the OAC (Operator Aid Computer), at 1 UB1, 1 UB2, or STA monitor. or ICCM monitors on 1 UB1. Places control switch for any operating HPI pump in the TRIP or PTL position and verifies .ill! HPI pumps are not operating by the red ON lights not illuminated.
Continue to Step 53 COMMENTS:
II NOTE RB level of 2' is expected when BWST level reaches 9'. STEP 5: Step 53 WHEN BWST level::; 9', AND RB level is rising, THEN continue procedure.
STANDARD:
Verifies BWST level < 9 feet on gauges on 1 UB2 or from the OAC (1 UB1, 1 UB2, or STA monitor) or the ICCM monitors on 1 UB1. Continue to Step 54 Cue: If needed, inform candidate that using time compression BWST level will be lowered to < 9' and RB level will be increased.
COMMENTS:
I CRO-096 fnl Page 6 of 11 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
STEP 6: Step 54 Simultaneously open the following:
Candidate locates the control switch for 1LP-19 ('1A' RX. BLDG. SUCTION) on 1 UB2 and rotates the switch in the OPEN direction.
Verifies red OPEN light comes on, and green CLOSED light goes off. Then locates the control switch for 1 LP-20 ('1 B' RX. BLDG. SUCTION) on 1 UB2 and rotates the switch in the OPEN direction.
Verifies red OPEN light comes on, and green CLOSED light goes off. Continue to Step 55 COMMENTS:
STEP 7: Step 55 IAAT BWST level:::;
6', THEN perform Steps 56 -59. STANDARD:
Candidate verifies BWST level:::;
6' using: BWST level gauges on 1 UB2. BWST level from the OAC, at 1 UB1, 1 UB2, or STA monitor. ICCM monitors on 1 UB1. When BWST level is:::; 6' go to the IAAT step and then perform Steps 55 through 58 Continue to Step 56 Cue: If needed, inform candidate that using time compression BWST level will be lowered to < 6' and RB level will be increased.
COMMENTS:
CRO-096 fnl Page 7 of 11 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
STEP 8: Step 56 Verify 1 LP-19 (1 A RB Suction) open. STANDARD:
Locates the control switch for 1 LP-19 on 1 UB2 and verifies red OPEN light is illuminated.
Continue to Step 57 COMMENTS:
STEP 9: Step 57 Verify 1 LP-20 (1 B RB Suction) open. STANDARD:
Locates the control switch for 1 LP-19 on 1 UB2 and verifies red OPEN light is illuminated.
Continue to Step 58 COMMENTS:
STEP 10: Step 58 Simultaneously close the following:
The candidate then locates the control switch for 1 LP-21 on 1 UB2 and rotates it in the CLOSE direction.
Note: 1 LP-21 will not close. The candidate then locates the control switch for 1 LP-22 on 1 UB2 and rotates it in the CLOSE direction.
Candidate should recognize that 1 LP-21 did not close and then perform RNO. Continue to Step 58 RNO COMMENTS:
CRO-096 fnl Page 8 of 11 SAT UNSAT SAT UNSAT *CRITICAL STEP SAT -UNSAT -
STEP 11: Step 58 RNO IF 1 LP-21 fails to close, THEN perform the following:
- Stop 1A LPI PUMP .
- Stop 1A RBS PUMP . STANDARD:
Locates RB Spray Pump "A" control on ES RZ module on 1VB2. MANUAL pushbutton for ES channel 8 is depressed.
Green OFF pushbutton is depressed and verified lit, while white RUN light is off. Locates LPI Pump "A" control on 1 UB2 and turns pump switch to "off'. Red light is verified off and white light verified on. Continue to Step 59 COMMENTS:
STEP 12: Step 59 Dispatch an operator to close 1 LP-28 (BWST Outlet) (East of Unit 1 BWST). STANDARD:
An operator is dispatch to close 1 LP-28 (BWST Outlet) (East of Unit 1 BWST). Booth cue: An operator has been dispatched to close 1 LP-28. COMMENTS:
END TASK STOP TIME: ____ _ CRO-096 fnl Page 9 of 11 CRITICAL STEP SAT -UNSAT -CRITICAL STEP SAT -UNSAT -
CRITICAL STEP EXPLANATIONS:
STEP # Explanation 4 Protects HPI pumps 6 Aligns LPI Pump suction to Reactor Building Emergency Sump. 10 Secures LPI Pump suction from the BWST. 11 1 A LPI and 1 A RBS pumps are secured to prevent damage. 12 Close 1 LP-28 (BWST Isolation)
-Isolates suction from the BWST. CRO-096 fnl Page 10 of 11 CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
A large break LOCA has occurred which is depleting the BWST. INITIATING CUES: CRO-096 fnl Page 11 of 11 The Control Room SRO directs you to Align ECCS Suction from Emergency Sump per Enclosure 5.12, ECCS Suction Swap to RBES, of the EOP.
I Enclosure 5.12 EP /1/ All 800/00 1 Page 1 of 45 ECCS Suction Swap to RBES ACTION/EXPECTED RESPONSE 1. Start: IA LPI PUMP IBLPIPUMP RESPONSE NOT OBTAINED 1. _ IF either are operating:
lA LPI PUMP IBLPIPUMP THEN GO TO Step 2. 2._ IF NO LPI pumps are operating, THEN GO TO Step 85. 3._ IF Ie LPI PUMP is operating, THEN GO TO Step 87. I ------------------_**---*1-----------*-------_
.. --_*_--2. VerifY either: _ GO TO Step 4. _ LPI FLOW TRAIN A plus LPI FLOW TRAIN B 2 3400 gpm _ Only one LPI header is operating, AND flow in that header is 2 2900 gpm 3. GO TO Step 52. -----_._----_
... __ ._--_._----1------------------
.. __ *_* .. *_***_---.. _-_*_*_ .. __ .. _---4. VerifY three HPI pumps operating.
._ GOTOStep6.
..--1-----
.... ---.-.... --..... --.. -.. -........ -.-5. _ Stop IB HPI PUMP. --------.
- 6. Simultaneously open: lLP-15 lLP-16 ----_._---
.. _--------------
- 1. IF lLP-15 is closed, AND 1 B LPI PUMP is operating, THEN perform the following:
A. IF NO flow on LPI FLOW TRAIN A, THEN perform the following:
- 1. Secure lA LPI PUMP. 2. _ GO TO Step 10. B. _ GO TO Step 11. 2. IF ILP-16 is closed, AND 1 A LPI PUMP is operating, THEN perform the following:
A. IF NO flow on LPI FLOW TRAIN B, THEN perform the following: i. Secure 1 B LPI PUMP. 2. _ GO TO Step 10. B. _ GO TO Step 11. ----------
.... --.. -----.. --.. ---.----.
- Enclosure 5.12 ECCS Suction Swap to RBES THIS PAGE INTENTIONALLY BLANK EP/I/A/18001001 Page 2 of45 Enclosure 5.12 EPil/A/I8001001 . Page 3 of45 ECCS Suction Swap to IDlES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 7. VerifY two LPI pumps operating.
_ GO TO Step 10.
... _-_._----8. _ VerifY total HPI flow including seal injection is > 500 gpm. 9. _ GO TO Step 12. --_ .. __ ._-------IF both exist: NO flow on LPI FLOW TRAIN A NO flow on LPI FLOW TRAIN B THEN perform the following:
A. _ IF 1 LPSW -4 is open, THEN perform the following:
- 1. Secure 1 B LPI PUMP. 2. _ GO TO Step 10. B. _ IF lLPSW-5 is open, THEN perform the following:
'A' LPI cooler LPSW flow DIXON has power THEN perform the following:
- 1. Throttle lLPSW-4 to establish 3000 -3300 gpm. 2. Secure 1 B LPI PUMP. 3. _ GO TO Step 10. D. IF both exist: _ lLPSW -5 power available
'B'LPI cooler LPSW flow DIXON has power THEN perform the following:
- 1. Throttle lLPSW-5 to establish 3000 -3300 gpm. 2. Secure 1 A LPI PUMP. -3. _ GO TO Step 10. , .-
Enclosure 5.12 ECCS Suction Swap fo.RBES THIS PAGE INTENTIONALLY BLANK EP/I/A/18001001 Page 4 of45
- 10. 11. 12. 13. Enclosure 5.12 ECCS Suction Swap to RBES EP/I/A/1800/001 Page 5 of45 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED NOTE Total LPI flow = LPI header flow + HPI header flow + seal injection.
Maximize total LPI flow -< 3100 gpm by throttling HPI flow. -----_ Limit total HPI flow to 750 gpm including seal injection.
--'--Place LDST LEVEL INTERLOCK
-switch in DISABLE.
Position valve switches to close until valve _ Continue procedure.
travel is initiated:
1 HP-23 -1 HP-24 -IHP-25 '3' -\ I -------------------_._---------------_
.. -
- 14. Simultaneously position valve switches to _ Continue procedure.
open until valve travel is initiated:
IHP-939 -1 HP-940 -----------_._------_._--------_.------
--_ .. _---------
> ** .
Enclosure ECCS Suction Swap to RBES THIS PAGE INTENTIONALLY BLANK , '. EP/I/A/18001001 Page 6 of45 \ J Enclosure 5.12 . ECCS Suction Swap to RBES EP/I/A/18001001 Page 7 of45 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED IS. Verify either fully open: 1 LPSW-4 1 LPSW-S 16. Verify both open: 1 LPSW-4 1 LPSW-S 17. _ GO TO Step 24. _ GO TO Step 18. 1._ IF 1 LPSW-4 is closed, AND lLP-16 is open, THEN perform the following:
A. _Open lLPSW-S. B. _ Limit total HPI flow to s;; 7S0 gpm including seal injection.
C. _ Stop lA LPI PUMP. D. _ GO TO Step 23. 2. _ IF 1 LPSW -S is closed, AND lLP-lS is open, THEN perform the following:
A. _ Open lLPSW-4. B. _Limit total HPI flow to s;; 7S0 gpm including seal injection.
- c. _ Stop IB LPI PUMP. D. _GO TO Step 23. ---_._-_._.
__ .--------------
Enclosure 5.12 ECCS Suction Swap to RBES THIS PAGE INTENTIONALLY BLANK EPI 1 lA/I 800100 I Page 8 of45 Enclosure 5.12 EP/I/A/18001001 Page 9 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED NOTE The DIXON LPSW flow indicators must be used when determining post accident flow readings.
- 18. Verify both: 'A' LPI cooler LPSW flow DIXON has power _ lLP-15 open 19. Verify both: lLP-16 open 'B' LPI cooler LPSW flow DIXON has power _ IF lLP-16 is open, THEN perform the following:
A. _Open lLPSW-5. B. _Limit total HPI flow to S; 750 gpm including seal injection.
C. _Stop lA LPJ PUMP. D. _GOTO Step 23. _ IF lLP-15 is open, THEN perform the following:
A. _Open lLPSW-4. B. _Limit total HPJ flow to 750 gpm including seal injection.
C. _ Stop 1 B LPI PUMP. D. _ GO TO Step 23. ------------.-----------------
--1---------------------_*_----
- 20. Throttle ILPSW-4 for 3000-3300 gpm flow to 1 A LPI cooler. _ IF lLPSW-4 is closed, AND lLP-16 is open, \ THEN perform the following:
- A. _Open lLPSW-5. B. _ Limit total HPJ flow to 750 gpm including seal injection.
C. _ Stop IA LPI PUMP. D. _GOTO Step 23. -----J-----
- 21. _ Throttle ILPSW-5 for 3000-3300 gpm flow to IB LPI cooler. _ IF lLPSW-5 is closed, AND lLP-15 is open, THEN perform the following:
A. _Open lLPSW-4. B.-. Limit total HPJ flow to S; 750 gpm >'"..-including seal injection.
C. _ Stop IB LPJ PUMP. D. _ GO TO Step 23. ------------------------------
_.----_
.. -----_ ..... _--.-----22. _ GO TO Step 24. ---------------'----------------------
Enclosure 5.12 ECCS Suction Swap to RBES THIS PAGE INTENTIONALLY BLANK , -'" EP 111 All 8 001001 Page 10 of 45 Enclosure 5.12 EP/IIA118001001 Page 11 of45 -ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED NOTE Total LPI flow = LPI header flow + HPI header flow + seal injection.
- 23. _ Maximize total LPI flow < 3100 gpm by throttling HPI flow. 24. Verify both: Step 8 RNO was used to secure an LPI pump due to low flow conditions.
LPSW is aligned to cooler associated with stopped LPI pump. ------------------------------
_ GO TO Step 26. ------------
- 25. _ WHEN BWST level is $ 10', THEN start any LPI pump previously stopped due to low flow conditions.
NOTE RB level 2' is expected when BWST level reaches 9'. 26. __ WHEN BWST level is $ 9', AND RB level is rising, THEN continue in this enclosure.
(4) ----------------
1-------------------------*_--*_------
- 27. Simultaneously open: lLP-19 1 LP-20 28. _ IAAT BWST level is $ 6', THEN perfonn Steps 29 -33. 1. _ IF 1 LP -19 fails to open, THEN stop the IA RBS PUMP. 2._ IF lLP-20 fails to open, THEN stop the IB RBS PUMP. --1*----_ GO TO Step 33. -----------.------------------11---------.----------.-------
- 30. _ Verify 1 LP-20 open. -.--------------- 31. Simultaneously close: 1 LP-21 -1 LP-22 _ Stop 1 B LPI PUMP. ---------------.--
1._ IF ILP-21 fails to close, THEN perfonn the following:
__ Stop 1 A LPI PUMP. _ Stop lA RBS PUMP. 2..IF lLP-22 fails to close, -'iHEN perfonn the following:
_ Stop 1 B LPI PUMP. _ Stop 1 B RBS PUMP. --_._-----------_.---------------'-----
Enclosure 5.12 ECCS Suction Swap to RBES IF AT ANYTIME: (28) BWST level is s 6' ... *(transfer suction to only the RB sump) EP/I/A/18001001 Page 12 of 45
. Enclos\lre 5.12 EP/ltAJ18001001 Page 13 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE 32. _ Dispatch an operator to close lLP-28 (BWST OUTLET) (East of Unit 1 BWST). 33. _ Verify two LPI pumps operating.
- 34. _ IAAT an operating LPI Pump (IA OR IB) fails, THEN perform Steps 35 -42. 35. Verify any LPI pump operating.
RESPONSE NOT OBTAINED 1. _ Maximize total LPI flow < 3100 gpm by throttling HPI flow. 2._ Limit total HPI flow to 750 gpm including seal injection.
_ GO TO Step 43. 1. IF IA LPI PUMP or IB LPI PUMP is available, THEN attempt to start the available LPI pump. 2._ IF any LPI pump is operating, THEN GO TO Step 36. 3._ GO TO Step 38. 36. Open valves for the running LPI pump: 1. Open the following:
lALPI Pump ILP-15 lLP-17 1 LPSW-4 37. _ GO TO Step 42. IBLPI Pump lLP-I6 lLP-18 1 LPSW-5 I LP-9 lLP-IO 2. Open valves for the running LPI pump: lALPI Pump ILP-16 lLP-18 I LPSW-5 IBLPI Pump lLP-15 1 LP-17 1 LPSW-4 3. Close valves for the running LPI pump: lALPI IBLPI Pump Pump .. . lLP-15 lLP-16 1 LP-17 lLP-18 1 LPSW-4 lLPSW-5 . _____ -L-________________ . ___ _
Enclosure 5.12 ECCS Suction Swap to RBES IF At ANY TIME: (28) BWST level is 6' ... (transfer suction to only the RB sump) EP!l/A/1800/001 Page 14 of 45 (34) an operating LPI Pump (lA OR IB) fails .. , (verify any LPI pump operating OR start Ie LPI pump) )
Enclosure 5.12 EPI 1 IAI 1 800/001 Page 15 of 45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE 38. VerifY: _ lLP-19 open lLP-21 closed OR lLP-28 closed RESPONSE NOT OBTAINED 1._ Open lLP-7. 2._ GO TO Step 40. -------------------1-------------
- 39. _ Open lLP-6. 40. Open valves to align 1 C LPI PUMP to only one header that has LPSW aligned to the LPI cooler: A LPIHDR lLP-15 1 LP-9 1 LP-17 BLPIHDR lLP-16 lLP-lO lLP-18 41. Start IC LPI PUMP. 1._ Open lLP-20. 2. Close lLP-22 OR lLP-28. 3._ Open lLP-7. -----------
1-----.--.----------.-------------------.-------.
- 42. Perform the following:
A. _ Maximize total LPI flow < 3100 gpm by throttling HPI flow. B. _Limit total HPI flow to 750 gpm including seal injection.
).
Enclosure' 5.12 ECCS Suction Swap to RBES IF AT ANY TIME (28) BWST level is 6' ... (transfer suction to only the RB sump) EPil/A/I8001001 Page 16 of45 (34) an operating LPI Pump (IA OR 1B) fails ... (verify any LPI pump operating OR start Ie LPI pump) " >::.
Enclosure 5.12 EP/I IAI 1 8001001 Page 17 of45 ECCS Swap to RBES I ACTIONIEXPECTED RESPONSE 43. Notify Chemistry to periodically sample LPI discharge for boron concentration.
44. _ IAA T the TSC is operational, THEN notify TSC to provide guidance on long term operation ofLPI pumps. 45. WHEN lLP-28 is closed, -THEN continue in this enclosure.
---48. Verify ILP-20 open. ------_._--
- 49. Verify 1 B LPI PUMP operating.
._._-_. 50. Initiate Encl5.4 (Makeup to the BWST) to replenish inventory for subsequent use if needed. 51. _ WHEN directed by CR SRO, THEN EXIT this enclosure.
RESPONSE NOT OBTAINED I -------------------_. _ GO TO Step 50. -_. __ ._--_ IF TSC approves restart, THEN perform the following:
A. Start 1 A LPI PUMP. -B. _ GO TO Step 50. --.-----------
._-_. __ ._---_ .. _--_ GO TO Step 50. .c--_ _.-*. _-------_._._--_
.. __ ...'!..-_ IF TSC approves restart, THEN start 1 B LPI PUMP. -------------------------------, ':;:-. -.----.-
Enclosure 5.12 ECCS Suction Swap to RBES THIS PAGE INTENTIONALLY BLANK > '";::". EP/I/A/18001001 Page 18 of 45 Enclosure 5.12 EP/I/N18001001 Page 190f45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED j_._. __ . ___
- _________ . __ .. ________________
- . _______________________
- __
- ________ ._ ** __
- _____ ._._ .* _ *. _______ u_ .. ____ ** ________________
- ____ u ____________________
- ____ ** ____________________
j I LPI FLOW TRAIN A TRAIN B 23400 gpm I i i i OR i i ; : Only one LPI header in operation with header flow 2 2900 gpm. : :.._---_ .. _--------------_
.. _-----_ .. _ .. -.. _ .. _--_ .. _---------_._._-------------------.-.--_._-.--.----------.--.-_.-_._-------------_._---
.. _---------------.--.------_
.. _-----------_
.. _ .. -.. : 52. _ WHEN BWST level is 15', THEN stop all HPI pumps. ------NOTE RB level of2 2' is expected when BWST level reaches 9'. 53. _ WHEN BWST level 9', AND RB level is rising, THEN continue procedure.
_._-------------------------
---_._----------------------------_.-
.. 54. Simultaneously open: lLP-19 1 LP-20 1._ IF 1LP-19 fails to open, THEN stop the IA RBS PUMP. 2._ IF ILP-20 fails to open, THEN stop the 1 B RBS PUMP. --------_._----------_._---------1------------------------.-------
- 55. _ IAAT BWST level is 6', THEN perform Steps 56 -59. _ GO TO Step 60. ----------1-------------------_._----_.-
- 56. _ Verify lLP-19 open. _ Stop the lA LPI PUMP. ------*--1---*
- 57. _ Verify I LP-20 open. _ Stop the I B LPI PUMP. -----_ .. _--_._-------1------------------------------
- 58. Simultaneously close: 1 LP-2 1 1 LP-22 1._ IF lLP-21 fails to close, THEN perform the following:
_ Stop lA LPI PUMP. _ Stop 1 A RBS PUMP. 2._ IF lLP-22 fails to close, THEN perform the following:
_Stop IB LPI PUMP. _ Stop 1 B RBS PUMP. ------_*_-----------------1------
- 59. _ Dispatch an operator to close lLP-28 (BWST OUTLET) (East of Unit 1 BWST). ";:-. ':::" ----_. __ . __ . __ . __ ._------_.
__ ... _----------'-_._--------------------.-
Enclosure 5.12 ECCS Suction Swap to RBES IF AT ANYTIME: (55) BWST level is 6' ... (transfer suction to only the RB sump) ..* * ,-:-: EP/I/A/18001001 Page 20 of45 Enclosure 5.12 i ECCS Suction Swap to RBES . BP/1/AlI800/001 Page 21 of 45 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 60. Verify any are open: lLPSW-4 1 LPSW-S 61. Verify both are open: 1 LPSW-4 1 LPSW-S 62. _ GO TO Step 67. _ GO TO Step 63. L_ IF ILPSW-4 is closed, AND flow exists on LPI FLOW TRAIN B, THEN perform the following:
A. _Open lLPSW-S. B. _ Stop lA LPI PUMP. C. Close lLP-17. D. _GO TO Step 67. 2._ IF lLPSW-S is closed, AND flow exists on LPI FLOW TRAIN A, THEN perform the following:
A. _Open lLPSW-4. B. _ Stop I B LPI PUMP. C. Close lLP-18. D. _ GO TO Step 67. ___ 1 ______ . _________
.-----
ECCS Suction Swap*to RBES IF AT ANYTIME: (55) BWST level is:::; 6' ... (transfer suction to only the RB sump) . . ':C-. EP/1/ Al1800/00 1 Page 22 of45 Enclosure 5.12 EPI 1 IAJ 1 8001001 Page 23 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED NOTE The DIXON LPSW flow indicators must be used when determining post accident flow readings.
- 63. _ Verify 'A' LPI cooler LPSW flow DIXON has power. 64. _ Verify 'B' LPI cooler LPSW flow DIXON has power. IF flow exists on -LPI FLOW TRAIN B, THEN perform the following:
A. _Open lLPSW-5. B. _Stop lA LPI PUMP. C. Close lLP-17. D. _GO TO Step 67. ------IF flow exists on -LPI FLOW TRAIN A, THEN perform the following:
A. _Open lLPSW-4. B. _Stop IB LPI PUMP. C. Close ILP-18. D. _GOTO Step 67. -----_._-_._-----------_.---
.. --------65. _ Throttle lLPSW-4 for 3000-3300 gpm _ IF flow exists on flow to the lA LPI cooler. LPI FLOW TRAIN B, THEN perform the following:
A. Close lLPSW-4. B. _Open lLPSW-5. C. _ Stop IA LPI PUMP. D. Close lLP-17. E. _GO TO Step 67. -------------*---------1--------------*------*----
- 66. _ Throttle lLPSW-5 for 3000-3300 gpm _ IF flow exists on flow to the IB LPI cooler. LPI FLOW TRAIN A, THEN perform the following:
A. Close lLPSW-5.
Open ILPSW-4. C. _ Stop 1 B LPI PUMP. D. Close lLP-18. ---_ ... _---_._--------_._
... _------_._-'---------------------------
Enclosure 5.12 ECCS Suction Swap to RBES IF AT ANY TIME: (55) BWST level is::=::; 6' ... (transfer suction to only the RB sump) -. ',':"0 EP/I/AI18001001 Page 24 of45
-Enclosure 5.12 \ -EP/I/A/1800/00I Page 25 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE 67. _ IAAT an operating LPI Pump (IA OR IB) fails, THEN perfonn Steps 68 -74. ---68. _ Verify ill1Y LPI pump operating.
- 69. Perfonn for the running LPI pump: lA LPI Pump IB LPI Pump Open 1LP-17 Open ILP-18 Close 1LP-18 Close ILP-17 Close lLPSW-5 Close 1 LPSW-4 Open ILPSW-4 Open 1LPSW-5 70. _ GO TO Step 75. 71. Verify: _ 1LP-19 open 1LP-21 closed OR lLP-28 closed RESPONSE NOT OBTAINED _ GO TO Step 75. _ GO TO Step 71. 1. Open the following:
1 LP-9 1LP-10 2. Perfonn for the running LPI pump: lA LPI Pump IB LPI Pump Open 1LP-18 ' Close lLP-17 Close lLPSW-4 Open lLPSW-5 1._ Open lLP-7. 2._ GO TO Step 73. Open ILP-17 Close 1LP-18 Close lLPSW-5 Open 1LPSW-4 ---------------1---------
- 72. _ Open 1LP-6. 73. Open valves to align 1 C LPI PUMP to all headers with LPSW aligned: 74. A LPIHDR 1 LP-9 1LP-17 BLPIHDR lLP-lO lLP-18 Start 1 C LPI PUMP. 1._ Open lLP-20. 2. Close lLP-22 OR lLP-28. 3._ Open lLP-7. , "-'::;-. --------------
Enclosure 5.12 ECCS Suction Swap to RBES IF AT ANYTIME: (55) BWST level is ::; 6' ... (transfer suction to only the RB sump) EP/I/A/18001001 Page 26 of45 (67) an operating LPI Pump (lA OR IB) fails ... (verifY any LPI pump operating OR start 1 C LPI pump)
I Enclosure 5.12 EP/I/AI1800/001 Page 27 of45 ECCSSuction Swap to RBES ACTIONIEXPECTED RESPONSE 75. Open: IHP-939 -IHP-940 -76. _ Notify Chemistry to periodically sample LPI discharge for boron concentration.
- 77. Close: lLP-15 -ILP-16 --78. _ WHEN lLP-28 is closed, THEN continue in this enclosure.
_.H. _____ 79. _ Verify ILP-19 open. ----------------.-
80. _ Verify lA LPI PUMP operating.
- 81. _ Verify ILP-20 open. --------.
- 82. _ Verify 1 B LPI PUMP operating.
_._---------_.
- 83. _ Initiate Encl5.4 (Makeup to the BWST) to replenish inventory for subsequent use if needed. 84. _ WHEN directed by CR SRO, THEN EXIT this enclosure.
RESPONSE NOT OBTAINED I _ Continue procedure.
__ .M ---.._---------
_ Continue procedure.
.--------.------
--_. __ ._--_. -------------_._----
_ GO TO Step 83. ----_._--_
.. _------_ IF TSC approves restart, THEN perform the following:
A. Start IA LPI PUMP. -B. _ GO TO Step 83. -------.. _.H. _______ . ____ _ GO TO Step 83. -_ IF TSC approves restart, -THEN start 1 B LPI PUMP. , . .._-------_.-
_. __ .-
Enclosure 5.12 .. ECCS Suction Swap to RBES TIllS PAGE INTENTIONALLY BLANK EPI 1 IAI 1 8001001 Page 28 of45 Enclosure 5.12 EP/t/AlI800/001 Page 29 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 85. Open: lLP-6 I LP-7 lLP-9 1 LP-lO lLP-17 lLP-18 --_._---_.
-_ .. _---_ .. _. 86. Start 1 C LPI PUMP. 87. Verify either: _ GO TO Step 89. _ LPI FLOW TRAIN A plus LPI FLOW TRAIN B 3400 gpm _ Only one LPI header is operating, AND flow in that header is 2900 gpm 88. _ GO TO Step 121. 89. _ Verify three HPI pumps operating.
- 90. _ Stop IB HPI PUMP. 91. Simultaneously open: ILP-15 lLP-16 ----,--_._._-_.-.-._
.. _"--._-----_
.. _ ... ---_._._--_.
__ .. _--_._---_ GO TO Step 91. ---_. ------_._-
_._---------
- 1. _ IF 1 LP-15 is closed, THEN perform the following:
A. IF NO flow on LPI FLOW TRAIN A, THEN close lLP-9. B. _ GO TO Step 92. 2._ IF lLP-16 is closed, NOTE AND NO flow on LPI FLOW TRAIN B . THEN close lLP-lO. Total LPI flow = LPI header flow + HPI header flow + seal injection.
- 92. Maximize total LPI flow < 2900 gpm by throttling HPI flow. ------. --_._-----------------_._-----
- 93. _ Limit total HPI flow to':::; 750 gpm including seal injection.
- ". -----_. __ . __ ._----_._---_.-
-_._-------_._._---------------_._-------_.--
- 94. Place LDST LEVEL INTERLOCK switch in DISABLE. -_._-------------_.
__ ._--------------------_._--
. ! I . Enclosure 5.12 ECCS Suction Swap to RBES THIS PAGE INTENTIONALL Y BLANK EPl1/A/I800/001 Page 30 of45 Enclosure 5.12 EPil/A/I8001001 Page 31 of4S ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE 95. Position valve switches to close until valve travel is initiated:
1 HP-23 1 HP-24 _ IHP-25 {3) 96. Simultaneously position valve switches to open until valve travel is initiated:
lHP-939 1 HP-940 97. Verify any are open: 1 LPSW-4 1 LPSW-S RESPONSE NOT OBTAINED _ Continue procedure.
_ Continue procedure.
_ GO TO Step 100. --------------_.-
--_.-._-----_._--
- 98. Verify both are open: lLPSW-4 1 LPSW-S IF lLPSW-4 is closed, AND lLP-16 is open, THEN perform the following:
A. _Open lLPSW-5. R _ Limit total HPI flow to 750 gpm including seal injectiqn.
C. Close lLP-9. D. _GO TO Step 105. 2._ IF ILPSW-5 is closed, AND ILP-IS is open, THEN perform the following:
A. _ Open lLPSW-4. R _ Limit total HPI flow to 7S0 gpm including seal injection.
C. Close lLP-lO. D. _GOTO Step lOS. ----------------------.------
_
... _---99. _ GO TO Step 106. -----_. . . ".;;, --_._-------------
Enclosure 5.12 . ECCS Suction Swap to rulES THIS PAGE INTENTIONALLY BLANK ... .. EP/I/A/1800/001 Page 32 of45
- Enclosure 5.12 EP /1/ All 800/00 1 Page 33 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED NOTE The DIXON LPSW flow indicators must be used when determining post accident flow readings.
100. Verify both: 'A' LPI cooler LPSW flow DIXON has power _ 1LP-IS open _ IF lLP-16 is open, THEN perform the following:
A. _ Open lLPSW-S. B. _ Limit total HPI flow to:::; 7S0 gpm including seal injection.
C. Close lLP-9. -D. _ GO TO Step lOS. ------------------**----------1-------*---------------
101. Verify both: 'B' LPI cooler LPSW flow DIXON has power _ 1LP-16 open _ IF ILP-IS is open, THEN perform the following:
A. _ Open lLPSW-4. B. _ Limit total HPI flow to:::; 7S0 gpm including seal injection.
C. Close ILP-IO. -D. _ GO TO Step lOS. ---------*-----------------11--
_._-_._.-
102._ Throttle 1 LPSW-4 for 3000-3300 gpm flow to IA LPI cooler. _ IF lLPSW-4 is closed, AND lLP-16 is open, THEN perform the following:
A. _ Open lLPSW-S. B. _ Limit total HPI flow to :::; 7S0 gpm including seal injection.
C. Close ILP-9. -D. _ GO TO Step 105. ----*--*--*-------*-----------f------------*--*-*-------.----
103._ Throttle lLPSW-S for 3000-3300 gpm flow to 1 B LPI cooler. _ IF ILPSW-S is closed, AND lLP-lS is open, THEN perform the following:
A. _ Open lLPSW-4. B. _ Limit total HPJ flow to :::; 7S0 gpm including seal injection.
C. Close 1LP-1O. -D.\,,_** GO TO Step 105. -----------------------------_._._---------
104._ GO TO Step 106. -------------_._-_._-----------'-_.
__ ._---_._ .... _-------_
.. _---_ .. -... _.-.--_.
Enclosure 5.12 ECCS Suction Swap to RBES / THIS PAGE INTENTIONALLY BLANK -I -:;:-EP/I/A/18001001 Page 34 of45 Enclosure 5.12 EP/I/A/18001001 Page 35 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED NOTE Total LPI flow = LPI header flow + HPI header flow + seal injection.
105._ Maximize total LPI flow < 2900 gpm by throttling HPI flow.
NOTE RB level of 2: 2' is expected when BWST level reaches 9'. 106._ WHEN BWST level is s 9', AND RB level is rising, THEN continue in this enclosure.
(4) ._-107. Simultaneously open: lLP-19 1 LP-20 -----------------------------------
- 1. _ IF 1 LP -19 fails to open, THEN perform the following:
A. __ Stop the lA RBS PUMP. B. Close lLP-6. 2._ IF lLP-20 fails to open, THEN perform the following:
A. __ Stop the IB RBS PUMP. B. Close lLP-7. ---------------------------------1----------------------------------
108._ IAAT BWST level is s 6', THEN perform Steps 109 -111. _ GO TO Step 111. --------------(---------------------------------_._--
109.Simultaneously close: lLP-21 1 LP-22 1._ IF lLP-21 fails to close, THEN perform the following:
__ Stop IA RBS PUMP. Close lLP-6. 2._ IF lLP-22 fails to close, THEN perform the following:
__ Stop 1 B RBS PUMP. Close lLP-7. ----------------------------------/----------------------------------
11 0._ Dispatch an operator to close ILP-28 (BWST OUTLET) (East of Unit 1 BWST). -;: . ---------------_._--._----_._-------'------------------------_._--_.-'---"'--
Enclosure 5.12 . ECCS Suction Swap to RBES IF AT ANYTIME: (108) BWST level is 6' ... (transfer suction to only the RB sump) .-. . EP/I/A/18001001 Page 36 of45 )
I Enclosure 5.12 ECCS Suction Swap to RBES EP/1/AlI800/001 Page 37 of45 ACTIONIEXPECTED RESPONSE 111.Perform the following:
A. _Maximize total LPI flow < 2900 gpm by throttling HPI flow. B. _Limit total HPI flow to 750 gpm including seal injection.
RESPONSE NOT OBTAINED ----------------------_._-----
112._ Notify Chemistry to periodically sample LPI discharge for boron concentration.
'--------------
.113._ lAAT the TSC is operational, THEN notify TSC to provide guidance for recovery of LPI pumps. I ---------------_._-----------------_._-----------------
114. WHEN 1 LP-28 is closed, THEN continue in this enclosure.
._-_. __ . __ . __ ._. --------------------_._-_._--_._-
115._ Verify 1LP-19 open. _ GOTOStepl19.
_._.1---._-----------------_._----.-------
116._ Verify lLP-6 open. _ IF TSC approves, 117._ Verify ILP-20 open. ---------------
118._ Verify 1LP-7 open. -----------_._--------_.
119._ Initiate Encl5.4 (Makeup to the BWST) to replenish inventory for subsequent use if needed. THEN perform the following:
A. _. Open 1LP-6. B. _GO TO Step 119. _ GO TO Step 119. _ IF TSC approves, THEN open 1LP-7. ----------------_._------------_._---_.
__ ._-------------------
120._ WHEN directed by CR SRO, THEN EXIT this enclosure.
.-, tr*
Enclosure 5.12 ECCS Suction Swap to RBES THIS PAGE INTENTIONALL Y BLANK EP/1/AI1800/001 Page 38 of 45 Enclosure 5.12 EPl1/A/I8001001 Page 39 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED i i I LPI FLOW TRAIN A plus LPI FLOW TRAIN B 3400 gpm i ! OR 1 ! ! i i ! Only one LPI header in operation with header flow 2900 gpm. ! l .. _ .. _ .. _ .. _ .. _ .. __________
.. __________ . __ .. _. __ .. _. __ .. _______ .. __ ._. _____ . _____ .. ________ ._. ________ 0. __
- ____
- _____
- __ ** ________________
- ______________
- __
- __ ** ____
- ________ ** ____ ** ____ ** _ * .1 121. WHEN BWST level is:::; IS', THEN stop all HPI pumps. ----[ NOTE RB level 2' is expected when BWST level reaches 9'. 122. WHEN BWST level:::;
9', AND RB level is rising, THEN continue procedure.
123. Simultaneously open: 1LP-19 1 LP-20 1. _ IF 1 LP-19 fails to open, THEN perform the following:
A. _ Stop the lA RBS PUMP. B. Close lLP-6. 2._ IF lLP-20 fails to open, THEN perform the following:
A. _ Stop the 1 B RBS PUMP. B. Close lLP-7. ----------
'--
124. IAATBWST level is:::; 6', _ GO TO Step 127. THEN perform Steps 125 -126.
125. Simultaneously close: 1LP-21 1 LP-22 1. _ IF ILP-21 fails to close, THEN perform the following:
_ Stop 1A RBS PUMP.
Close 1 LP-6. 2._ IF 1LP-22 fails to close, THEN perform the following:
_Stop IB RBS PUMP. ;:"-Close ILP-7 -------------------------------------------------------
126._ Dispatch an operator to close 1LP-28 (BWST OUTLET) (East of Unit I BWST). ----------------------------'----------------------------
Enclosure 5.12 ECCS Suction Swap to RBES IF AT ANYTIME: (124) BWST level is 6' ... (transfer suction to only the RB sump) .. . . EP/I/A/18001001 Page 40 of45 Enclosure 5.12 ECCS Suction Swap.to RBES EP/I/A/18001001 Page 41 of45 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 127. Verify any are open: 1 LPSW-4 1 LPSW-S 128.Verify both are open: 1 LPSW-4 1 LPSW-S 129._ GO TO Step 134. _ GO TO Step 130. 1._ IF 1LPSW-4 is closed, AND flow exists on LPI FLOW TRAIN B, THEN perfonn the following:
A. _Open 1LPSW-S. B. Close 1LP-17. C. _GO TO Step 134. 2.:::" IF 1LPSW-S is closed, AND flow exists on LPI FLOW TRAIN A, THEN perfonn the following:
A. _Open 1LPSW-4. B. Close 1LP-18. C. _ GO TO Step 134. ----------------_
... _--_._--_._--
.-----_. __ . __ .'--------_._--_._-----_
.. _-_._---
Enclosure 5.12 ECCS Suction Swap* to RBES IF AT ANYTIME: . (124) BWST level is s 6' ... (transfer suction to only the RB sump) EP/1/All 800/00 I Page 42 of 45 Enclosure S.12 EP 111 All 800100 1 Page 43 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED _NOTE The DIXON LPSW flow indicators must be used when determining post accident flow readings.
130._ Verify 'A' LPI cooler LPSW flow IF flow exists on -DIXON has power. LPI FLOW TRAIN B, THEN perform the following:
A. _ Open ILPSW-5. B. Close ILP-17. -C. _GO TO Step 134.
131._ Verify 'B' LPI cooler LPSW flow IF flow exists on -DIXON has power. LPI FLOW TRAIN A, THEN perform the following:
A. _Open lLPSW-4. B. Close ILP-18. -C. _ GO TO Step 134. -------------_._--"--
,-------------------------------
132._ Throttle 1 LPSW-4 for 3000-3300 gpm IF flow exists on -flow to the 1 A LPI cooler. LPI FLOW TRAIN B, THEN perform the following:
A. Close ILPSW-4. -B. _Open ILPSW-S. C. Close ILP-17. -D. _ GO TO Step 134. -_._----------
_.-
133. Throttle ILPSW-S for 3000-3300 gpm IF flow exists on -flow to the 1 B LPI cooler. LPI FLOW TRAIN A, THEN perform the following:
A. Close ILPSW-S. -B. _Open lLPSW-4. C. Close ILP-18. ---------------------_._----_._.
Enclosure 5.12 ECCS Suction Swap to RBES IF AT ANYTIME: (124) BWST level is:s; 6' ... (transfer suction to only the RB sump) EP/I/N18001001 Page 44 of45 Enclosure 5.12 EPIIIA11800100l Page 45 of45 ECCS Suction Swap to RBES ACTIONIEXPECTED RESPONSE 134. Open: 1HP-939 1 HP-940 135._ Notify Chemistry to periodically sample LPI discharge for boron concentration.
136.Close:
lLP-15 lLP-16 137. WHEN 1 LP-28 is closed, THEN continue in this enclosure.
138._ Verify 1LP-19 open. . ----. 139._ Verify 1 LP-6 is open. RESPONSE NOT OBTAINED _ Continue procedure.
_ Continue procedure.
_ GO TO Step 142 . _ IF TSC approves, THEN perform the following:
A. _ Open 1LP-6. B. _ GO TO Step 142. ----... _---.. _-_ .. __ ... _ ... __ . __ .... -140._ Verify 1LP-20 open. 141._ Verify 1 LP-7 is open. 142._ Initiate Encl5.4 (Makeup to the BWST) to replenish inventory for subsequent use if needed. --------_._---
143._ WHEN directed by CR SRO, THEN EXIT this enclosure.
_ GO TO Step 142. _ IF TSC approves, THEN open lLP-7.
THIS PAGE INTENTIONALL Y BLANK REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO*013 CRO-013 fnl Page 1 of 14 ALIGN MDEFDWP SUCTION TO THE HOTWELL AND FEED THE STEAM GENERATORS CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO-013 fnl Page 2 of 14 Align MDEFDWP Suction To The Hotwell And Feed The Steam Generators Alternate Path: No Facility JPM #: CRO-013 KIA Rating(s):
System: APE054 KIA: AA1.01 Rating: 4.5/4.4 Task Standard:
The MDEFDWPs are aligned to the hotwell and providing flow to the SG's within limits prior to reaching a level of 1 foot in the UST. Preferred Evaluation Location:
Preferred Evaluation Method: Simulator
_X_ In-Plant __ Perform X Simulate
References:
EP/11A11800/001 (Emergency Operating Procedure)
Enclosure 5.9 (Extended EFDW Operaton)
Validation Time: 15 minutes Time Critical:
NO ====================================================================================
Candidate:
Time Start: ___ _ NAME Time Finish: ----Performance Rating: SAT ___ UNSAT __ _ Performance Time: ___ _ Examiner:
_____________
_ NAME SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
- 1. Recall Snap 210 2. Import files for CRO*013 3. Place CST pump switches in RUN (the pumps are failed OFF) 4. Go to RUN CRO-013 fnl Page 3 of 14 Tools/Equipment/Procedures Needed: CRO-013 fnl Page 4 of 14 EP/1/A/18001001 (Emergency Operating Procedure)
Enclosure 5.9 (Extended EFDW Operation)
READ TO OPERATOR DIRECTION TO TRAINEE: I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
The TDEFDWP is unavailable.
Actions of the EOP have been completed.
Enclosure 5.9 (Extended EFDW Operation) has been initiated per Rule 3 and is completed up to Step 104. Main FDW is not expected back for several hours. OW and CST makeup capability to the UST has been lost. INITIATING CUES: Procedure Director directs you to continue performance of Enclosure 5.9 (Extended EFDW Operation
).
STARTTIME:
__ _ STEP 1: Step 104 WHEN UST level is < 4' THEN dispatch two operators to perform Enclosure 5.24 (Operation of ADVs) in preparation for loss of vacuum. STANDARD:
Monitors UST level and determines that level is less than four feet. Dispatches two operators to perform Enclosure 5.24 (Operation of ADVs) Continues to Step 105 COMMENTS:
STEP 2: Step 105 Verify power available to 1V-186 STANDARD:
Determines that power is available to 1 V-186 by observing valve position indication is illuminated.
Continues to Step 106 Booth cue: Reduce UST level to < 3 feet (75,000) over 30 seconds. COMMENTS:
STEP 3: Step 106 WHEN UST level is < 3' THEN stop all CBPs STANDARD:
Monitors UST level and determines that level is less than three feet. Stops all CBPs by rotating the switches to the OFF position.
Continues to Step 107 COMMENTS:
SAT CRO-013 fnl Page 5 of 14 UNSAT SAT UNSAT SAT UNSAT STEP 4: Step 107 Stop ill[ HWPs. STANDARD:
Stops ill[ Hotwell Pumps by rotating the switches to the OFF position.
Continues to Step 108 COMMENTS:
STEP 5: Step 108 Dispatch an operator with a safety harness to 1 C-573 (MD EFDWPS SUCTION FROM UST). STANDARD:
Checks procedure "note" for step. Dispatches NEO to 1 C-573. Continues to Step 109 Booth cue: Inform student NEO is dispatched COMMENTS:
STEP 6: Step 109 Open 1V-186 STANDARD:
Locate valve switch and rotate to open position and verifies red open light illuminates.
COMMENTS:
age 0 CRO-013 fnl P 6 f14 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -CRITICAL STEP SAT -UNSAT -
STEP 7: Step 110 Stop §!! main vacuum pumps. STANDARD:
Verifies all three MVPs are OFF Continues to Step 111 COMMENTS:
STEP 8: Step 111 Close the following:
- 1 MS-47
- 1 AS-40 STANDARD:
Rotates 1 MS-47 switch in the closed direction.
Verifies 1 AS-40 green closed light on and the red open light off. Continues to Step 112 COMMENTS:
STEP 9: Step 112 IAAT UST level < 1', AND 1 C-573 (MD EFWPS SUCTION FROM UST) is open, THEN:
- Stop §!! EFDW pumps
- Close 1 FDW -315
- Close 1FDW-316 STANDARD:
IAAT UST level is <1 foot and 1 C-573 is open, stop both MDEFDW Pumps and close 1FDW-315/316 Continues to Step 113 Note: Step is N/A if conditions do not exist. COMMENTS:
age 0 CRO-013 fnl P 7 f 14 SAT UNSAT SAT UNSAT SAT UNSAT STEP 10: Step 113 Reduce MD EFDWP flow to < 440 gpm per pump. Notify crew of MDEFWP flow limit while aligned to hotwell. STANDARD:
Reduces MDEFWP flows to < 440 gpm Notifies crew of MDEFWP flow limit Continues to Step 114 COMMENTS:
STEP 11: Step 114 WHEN vacuum is broken as indicated by vacuum no longer decreasing, THEN locally close 1 C-573 (MD EFDWPS SUCTION FROM UST). STANDARD:
Contacts NEO to close 1C-573. Booth cue: Approximately 2 minutes after 1V-186 is opened by the NEO, inform the student that for exam purposes (using time compression) vacuum is broken. Booth cue: Inform student that (using time compression) 1C-573 is closed. Continues to Step 115 COMMENTS:
--SAT age 0 CRO-013 fnl P 8 f14 UNSAT CRITICAL STEP SAT -UNSAT -
STEP 12: Step 115 Verify MD EFDWPS were stopped due to UST level < 1 '. STANDARD:
Verifies status of MDEFWPS -ON or OFF Continues to Step 116 If MDEFWPS were stopped Continues to Step 117 If MDEFWPS were not stopped COMMENTS:
STEP 13: Step 116 Restart.ill!
MDEFWPs that were stopped due to UST level <1 foot. Resume feeding available SGs. STANDARD:
MDEFWPs are started if required (Step is N/A if the pumps were not secured).
Continues to Step 117 COMMENTS:
STEP 15: Step 117 Stop 1 TD EFDW PUMP. STANDARD:
Recognizes that TDEFDWP is OFF. Continues to Step 118 COMMENTS:
age 0 CRO-013 fnl P 9 f14 SAT UNSAT SAT UNSAT SAT UNSAT CRO-013 fnl age 0 P 10 f14 STEP 16: Step 118 Locally close 1 C-157 (TD EFDWP Suction from UST). SAT -STANDARD:
Dispatches an NEO to close 1C-157. Booth cue: Inform student that (using time compression) 1C-157 is closed. UNSAT -Continues to Step 119 COMMENTS:
STEP 17: Step 119 OPEN 1C-391 SAT -STANDARD:
Rotates the switch in the open direction.
Continues to Step 120 UNSAT -COMMENTS:
STEP 18: Step 120 IAAT 1 TDEFDWP operation is desired, AND hotweillevel is >1 ", SAT THEN start 1 TD EFDW PUMP. -STANDARD:
Recognizes from turnover that TDEFDWP is not available.
Continues to Step 121 -UNSAT COMMENTS:
CRO-013 fnl P 11 f 14 age 0 STEP 19: Step 121 Dispatch an operator to open the following:
- 1C-188 (HOTWELL Emergency Makeup #1 Control Bypass) SAT -* 1 C-912 (UST RISER TO HW EMERG MAKEUP #2 AUTO ISOL . BYPASS) UNSAT STANDARD:
Dispatches an NEO to open 1C-188. -Dispatches an NEO to open 1C-912. Booth cue: Inform candidate that (using time compression) 1C-1BB and 1C-912 are open. Continues to Step 122 COMMENTS:
STEP 20: Step 122 Notify TSC to evaluate methods to maintain secondary inventory.
SAT -STANDARD:
Notifies TSC Continues to Step 123 Booth cue: Inform student: TSC will evaluate secondary inventory
-UNSAT COMMENTS:
STEP 21: Step 123 IAAT hotweillevel is s; 1", THEN stop .ill! EFDWPs. SAT -STANDARD:
Determine that hotwell level is greater than 1 inch. Continues to Step 124 -UNSAT COMMENTS:
STEP 22: Step 124 WHEN directed by CR SRO, THEN EXIT this enclosure.
STANDARD:
Inform CR SRO that this enclosure is complete.
Cue: SRO acknowledges enclosure is complete.
This completes this JPM. COMMENTS:
END TASK STOP TIME: ____ _ CRO-013 fnl Page 12 of 14 SAT UNSAT CRITICAL STEP EXPLANATIONS:
STEP # Explanation 4 STOP ill[ HWPs to prevent damage to the MDEFDWP by decreasing NPSH CRO-013 fnl Page 13 of 14 6 Condenser vacuum must be broken thus increasing the NPSH to the EFDWPs. This prevents EFDWP damage due to not meeting suction head requirements when Hotwell level is < 3 ft. 11 Closing 1 C-573 prevents air introduction into the pumps suction, thus preventing pump cavitation and possible pump damage.
CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
CRO-013 fnl Page 14 of 14 The TDEFDWP is unavailable.
Actions of the EOP have been completed.
Enclosure 5.9 (Extended EFDW Operation) has been initiated per Rule 3 and is completed up to Step 104. Main FDW is not expected back for several hours. DW and CST makeup capability to the UST has been lost. INITIATING CUES: Procedure Director directs you to continue performance of Enclosure 5.9 (Extended EFDW Operation).
i ,1. 2. 3. 4. 5. i: \. 6. 1. 8.
SJJ., .
EP/IIN1800/001 Page 1 of29 ACTIONJEXPECTED-RESPONSE REsPONSE NOTOBtAlNED , . L EFDW parameters . .".
,-graphic display. . ;": . M JAAT US'f levelis < 4', '.' .
104. '"." " . -./GO TO Step 8. !1. IAAT feeding'both SOS with one MD EFDWP is desired, THEN perform Steps 4 -7. Pl8ce EFDW control valve on SG with NOEFDW flow to MANUAL and closed: . IIDW-3IS IIDW-316 .: r-l. lASG roSG I Locally open the following:
_ IFDW-313 (lAEFDWLlNEDISCH TO lA SIG X-CONN) (T-I, l'N ofM-16; 18' up) _ IFDW-314 (lB EFDW LINE DISCH TO IB SIG X-CONN) (T-l, 3' S ofM-24, IO'up) Start a MD EFDWP. -Throttle EFDW control valve on SG*with NO EFDW flow to establish appropriate level per Rule 7 (SG Feed Control): lASG roSG IFDW-315 I IFDW-316 Perform the following as required to maintain UST level> 7.5': ..!t Makeup with demin water. Z Place CST pumps in AUTO. ,r
. ..
', .. IF AT ANY Ti'ME:. , .. ;' . -. :......
".-: -. (2). UST level is < 4' ... (prepare to swap EFDW suctipn to hotWeit) . (3) both 80s with one MD EFDWP is desired ... (cioss-tj.e)
EPiilAl18001001.
Page 2 of29 ".,;..-... (
- .:.:
':: EP/I/AI1800/001 Page30f29
.:'" .:
..
ACTI:ONIEXPECrEI>
RESPONSE 9.' t/ JAAT all the following
_ Rapid cooldown NOT iii progress X MD EFDWP operating for available SO ' ." " / EFDW flow in each header
- switch in PUll. TO LOCK. 11. _ Start ID EFDWP BEARING OIL COOLING PUMP. : .. .-. .. .. ;. .... . ....... :-: .. .. o* ..... ! ... ... .. ; ..... . . .. .*.. ."
.. :. .
'. NOTE
- Loss of the condensate system for 25 minutes will result in having to cool down the unit to cold conditions using the ADVs. Therefore.
if NO HWPs are operating, restoring the condensate system is a priority unless the CR SRO deems EOP activities bigher priority.
- If the condensate system is operating, establishing FDW recite will aid in maintaining condenser vaCUllDl.
- 13. _ JAAT it is determined that condensate flow CANNOT be restored within 25 minutes, THEN perfonn Steps 14 -15. J4. _ NotifY CR. SRO to evaluate starting Main Vacuum Pumps per AP127 (Loss of Condenser Vacuum). 15. _ GO TO Step 81. 16. _ Verify any HWP operating.
- 11. _ Verify any CBP operating.
- 18. _ Verify I C COND BOOSTER PUMP operating.
(12) 19. Stop the following:
(12) IA COND BOOSTER PUMP IB COND BOOSTER PUMP _ GO TO Step 16. 1. _ Place all CBP control switches to OFF. 2._ GO TO Step 22. _. GO TO Step 42. 1. only one CBP is operating; 2._ GO TO Step 20.
Endosure5;9'":':' . Extended EFDW:()peration IF AT ANY 'fIME: .:' ........ -.. -." .. " (2) UST level is < 4' ... (prepare to swap EFDW to hotivell) . -.* : *** . . , (3) feeding both 80s one MD EFDWP is desired ... {ciosS-tie}
., EP/lJAl1800/001 Page 4 of 29 :. .: -.-.: .' -: .!.. .-:. (9) rapid cooldown NOT in progress AND MD EFDWP operating for AND EFi>w flow in each header is < 600 gpm ... (plaqe 1 TD P"Ulv.!f.
in PuQ:Xc;>
-.. -. ..... . ..... ' :--. :-:-.:. ."."." .. . ': . . (13) it is determined that condensate flow CANNOT be restoredwitbin
! ** (eValuate starting Main Vacuum Pumps) ", . " ". ' . ' .. * .!' : . . ' ,",<' ," .
.... . ,"'. : ",,:. : ; r." j:. -',,' \ )
.. ::.", ..... . . :-:: .*.. ,,: ...
..*.
.' .. } ,,':. '":.
EP/llAliSOO/OOl
'PageSof29
- 20. Ensure only one myp is
.... ," .' ." ,. , * < ** 21. _
22: _..
of-power eVent loss of the secondary syStem. . 23.. Ensure APIII (Recovery From Loss of Power) is in
- 24. WHEN AP/ll (Recovery From Loss of Power) has restored 600v load centers, AND a HWP is operating, THEN dispatch an operator to start all CBP Aux Oil.Pumps. (T-lfl-21)
- 25. _ WHEN notified that an CBP Aux Oil pumps 8J.'e operating, THEN GO TO Step 42. . . .. ,. 26. _ Place all HWP control switches to OFF. 27. _ Place all CBP control switches to OFF. 28. Place valve to close wtil valve travel is initiated:
IFDW-4 IFDW-9 29: Start Main FDWP Aux Oil Pumps: lA FDWP AUXllJARY OIL PUMP IB FDWP AUXllJARY OIL PUMP RESPONSE NOT OBTAINED ". . " .. : .. "; "," "'",'; : .. . . , A steam-induced Water haminer may occur .... "'. .: ; whCn
- ftoin the-lc:>sSofan conde.nSaU,tlovi.
'( i:l) .' 1. IF an condensate flow bas .been lost for : '-.. ' . '. < TURN GO TO Step 26. 2._ GO TO Step 13
- Continue. .Start the following as necessary:.
_ IA FDWP EMERGENCY BRNG OIL PUMP _ IB FDWP EMERGENCY BRNG OIL :pTn.rn .
........ -.r . IFATANYm.tE:::-, . .. . . EncfoS'iireS3,:
','
,,'
UpefllUUn ,oJ' " o:!o. (2) UST level is < 4' ..* (preparet.o EFDW to -, EP/l!Al1800l001 Page 6 of 29 ; ' . ..... _. (9) rapid cpol@wn-NQTm'PIQgres$A.ND'MD BFDWP operatfug for each available SO AND EFDW flow.fn each header is
- (placC 1 m EFDW PUMP in PULL TO LOCK) ... 0 (13) it iSdeielmined thai CANNOT be restored within 25 minutes ... (evaluate starting Main Vacuum < " .' -. . . J:. ... # .. r r
- S.9 .,-,: ! EP/IIAl1800/001 Page 7 of29 -.. ' -.::.
.. ' 30. Verify both of the following:
DRGLUBE OIL PREsS*< 4 psig, -PRESS> 4 psig _ FWPT B BRG LUBE OlL PRESS> " ..... ,. ,:'.' ' ....... , ..*. , -.. '\:' 31. Place the following in MANUAL and close: tFDW-53 IFDW-65 32. _ Place 1 C-I 0 FAIL SWITCH in MANUAL. 33. Close IC-JO. 34. _ Using a pla6t page, clear TB Basement and TB third floor of non-essential .
- 35. _
- 36. Throttle 1 C-J 0 controller 10% open to satisfY 25 system restart criteria.
- 31. _ WHEN FWP SUCT HDR PRESS (lVB3) is 100 psig, THEN open Ie-l0. 38. _ Place ]C-IOFAIL SWITCH in FAIL OPEN. 39. _ Dispatch an operator to start all CBP Aux Oil Pumps. (T-1IJ-21)
- 40. Establish 1000 -"1200 gpm total recirc flow with of the following:
_ tFDW-53 IFDW-65 :
folloWing:
'. . A. _. NotifY CR SRO that the condensate . : .' . . B. _'NotW6tsROk Main VaCUlim Pumps per MO.? (Loss of Condenser Vacuum). c. _ TO Step 81. 2. Peiform the following for the FDW pump that* has BRG LUBE PRESS < 4 psig: _ Close IFDW-l for lA FDW pump. _ Close IFDW-6 for IB FDW pump. " '. ,..
.:;:. -:
.' .. . .. * . -.. . :--.. . '. ' (3)
ERDWP iSdesired mvltAl1800/001 Page 8 of 29 (9)
MD EIDWP ()peranrig foreaeh available$G,ANl>
... (place 1 IDEFDWPtJMPinPULL fOLOCK) ' .. -.;--. . .... .'
',-. ,
- 1 . .'
l( I\.. 1 ** ..,. 'I. .. ' . .':.\.. ."
EP/IIAl1800/001 Page90f29 AcnONIEXPECTED RESPONSE .41. _
"':'" AND notified that all CBP Anx Oil pum.ps are operating, procedure. 42. _
"" 44. _, Stop one,operating HWP. . " .. .. 45. _ Place control switch foralie securea HWPinAUTO. " .. 46. _ Place control switch for one secured CBPinAUTO.
- 47. Perform the following; Position HWP LOAD SHED DEFEAT -switch to a running HWP. _ Position CBPLOAD SHED DEFEAT switch to a nmning CBP. 48. Place. the following in MANUAL: _ lFDW-53 _ lFDW-65 49. Establish 2300 gpm total recite flow with one of the following:
IFDW-53 IFDW-65 -50. IAAT UST level CANNOT be maintained>
8.5', THEN locally open 1 C-899 (COND RECIRC TO UST RISER TIIROTILE) (f-l/J-23).
- 51. _ IAA T UST level increases>
II t. . THEN perfonn the following as
_ Throttle demin water _ Locally throttle 1 C-899 (COND REClRC TO UST RISER THROTILE) (f-lIJ-23)
RESPONSI;NOT
' -, '-:1 -' .. :,' ., ' .. ;; ",:,': .. , .. , St8rt:oneavailable
-.... , ... ... -".
-:', .
Extended EJDW Operation' (2) level is <4' !'. (prepare to swap EFDW suction to ii;oiWeJi)'
'" (3) feeding both 80s with one MD EFDWP is desired *.*
EPIlJAl1800/001 Page 100f29 ... ; -.' .....
..... ". ' .. :: (9) cooldown NOT in progress ANDMD EFDWP i\Nl) EFDW flow in each header is < 600gpill *.. (pJace 1.TP.RaJWPuMPJb Ptfi.t'TO LOCK) } .. :. (50) U8T level CANNOT be maintained>
8.5' .*. (loCallyopeIlIG-8?9)
(51) UST level increas¢s>
11' *.. (locaIlythrottle IC-899
"-,; ..... , . ";' :.'! , .. ,., .' " ..*. \. '" \ f
.::. :' ...
,',,',:" :: '" ,. . ....
Page It of29 I ACftONJEXPECfED RESPONSE , RESPONSE NOT <>'J.ITAlNED
'::, ',::, "I, . 52. VeritY the following are closed: ,', '. IFDW-4 -IFDW ....... _,.,':.' *.. , . .r *.**. ,. '._ ,"':'."
- 53.
IFDW-33 IFDW-31 -IFDW-42' -IFDW-40 ,. ... .. 54. Ensure the following are closed: IFDW-33 IFDW-31 IFDW-42 -IFDW-40 55. Locally opentbe following:
_ IFDvI-5 (lAFDWP DISCHARGE , i BYPASS) (T-IISE ofD-24 12' up) _ IFDW-IO{lBFDWPDISCHARGE BYPASS) (T-lIN ofD-26 9' up) .' ., 56. _ WHEN FWP DISCH HDRPRESS (1 VB3) is approximately equal to either . of the following:
- OlAI014(FDWP lA DISCHARGE PRESS)
- OlA1391 (FDWP IB DISCHARGE PRESS) THEN open the following:
IFDW-4 IFDW-9 51. Locally close the following:
_ IFDW-5 (IA FDWP DISCHARGE
- :".--::. llYPASS) (T-lISE ofD-2412' up) .\.. .. _ IFDW-IO (IB FDWP DISCHARGE BYPASS) (T-IIN ofD-26 9' up)
..... ":'. .. .. : : ..... : .. ' .' .'.-:. :.' , Extended'EFDW OtieriltiCiIi'" . . :' ..... * :' , : _:.: .i. _ .' :.i . : ..... ,. -(3) feeding both 8Gs with
- (cross-tie)
EP/11Al1800/001 12 of29 .... : ,.;. .. (9) rapid coo1dow:n NQr. PI pn;>gtess AND MD EFDWP operating for each available " EFDWflow in eacbbeader is < 600 gpm ..* (plaCe ITnEFDW PuMP,fuPULtT(lL<JCK)<
(50) UST level CANNOT be maintained>
8.5' .,. (locally open 1 C-899) (51) UST level increases
> II' .** (locally throttle 1 C-899 as required) . .. ,.. . . ' .. ,.: :. ". .' '." -.... ) . ., !
I Enclosure 5.9 Extended *EFDW O}leration . EP/IIAl1800/001 Page 13 of29 ACTIONIEXP!CTED RESPONSE 58. _ MAT it is desired to re-establish Main FDW, TImN initiate Encl (Re-establishing MainFDW) ofOP/lIAll106/002 (Condensate And FDW System). 59. _ IAA T EFDW has been secured per Encl (Re-establishing Main FDW) of OPlllAll106JOO2 (Condensate And FDW System), THEN EXIT this enclosure.
- 60. _ WHEN UST level is < 4', THEN dispatch two operators to perfonn Encl 5.24 (Operation of the ADVs) in preparation for loss of vacuum. (PS) 61. _ Verify power ayailable to IV-186. 62. _ WHENUSTlevel THEN stop all CBPs. 63. _ Stop all HWPs. RESPONSE NOT OBTAlNlID
_ Dispatch an operator to I V -186 (VACUUM BREAKER) (f-3, catwalk at tC2 waterbox).
NOTE 1 C-573 is normally open. 1 C-573 will be closed after vacuum is broken .. 64. _ Dispatch an operator with a safety harness to 1 C-573 (MD EFDWPS SUCTION FROM USn (T-l>> SW of E-24, 8' above floor). 65. _ Open IV-186. 66. _ Stop all main vacuum pumps. 67. Close the foJIowing:
_ IMS-47 _ lAS-40 _ Notify operator to open IV -186 (MAIN CONDENSER VACUUM BREAKER) (f-3>> catwalk at lC2 waterbox).
Dispatch an operator to close the following:
_ (lA CSAE STEAM SUPPLy) (T-31F-26)
_ IMS-58 (1 B CSAE STEAM SUPPLy) (T-3/G-26)
_ IMS-67 (IC CSAE STEAM SUPPLy) (T-31H-26) ,
- :i-*. En_I***** .
."' . ' . . .... (3) feeding both 80s with one MD EFDWP is desired ... (eross:tie) . , EP/IIAl1800/001 Page 14 of 29 * ;":. ".0: ....* (9) rapid cooldown NOT in progress AND MD EFDWP eachavallable so. AND . EFDW flow in eaCh header is < 600 gpm : .. (Place 1 TD EFDW LOCK) .... : ..... .
-'7 \ : (
1 :;:'.'
.....* -... ,. ..... '-: ... .:." . ACl'IONJUPECTED*REsPoNSE
- 68. _ IAATUSTlevelis<l'.;, AN>> lC-S73 (MD EFDwPs FRQM US]) is .-
..
B.
_ ... ' ...... -...... . C. Close IFDW-316.
- 69. Perform the following:
A. _Reduce MD EFDWP flow to < 440 gpm per pump. B. _' Notify ci'ew ofMD EFDWP flow limit while aligned to hotwell. 70. _ WHEN vacumn is broken as indicated by vacuum no longer decreasing, THEN locally close 1 C-573 (MD EFDWPS SUCTION FROM US'!). 71. _ Verify MD EFDWPs were stopped due to USTlevel < 1'. 72. Perform the following:
A. _Restart all MD EFDWPs that were stopped due to UST level -< 1 t. B. Resume feeding available SOs. 73. _ Stop 1 TD EFDW PUMP. 74. _ Locall:yclose IC-IS7 (1D EFDWP SUCTION FROM UST) (T-lIC-20).
EP/IIAl1800/001 Page 15 of29 REsPoNSE NOT OBTAlUD.*
.. '( ::' .. '. _ GO TO Step 73. 75. _ Open IC-391. _ Locally open lC-391 (TD EFDWP SUCTION FROM HOTWELL) (T -I/C-20).
- 76. IAAT 1 ID EFDW PUMP operation is .desired, \.. ", AND hotwell level is> 1", THEN start lID EFDW PUMP. '.
. -... ! .* .. . .. . *EnelCmire5S ExfendedEFDWOpenttion-'
-
(3) feeding both 80s with one MD EFDWP is desired *** (cross-tie) . --EPlUAl1800/001 Page 16 of 79 --.:.. . : .... .0:' ... : .* (9) rapid cooldown NOT in progress AND MD EFDWP operating for aVailable-Sa.ANn
.. ' -' , __ -d, .. __ -'_ '-' _ , .. ___ -____ "._." EFDW flow in each header is < 600 gpm ... (place 1 TD EFDWI>UMP in PtJLLTO LOCK) (76) 1 ID EFDW PUMP is desired AND hotwellievel is > "1" .** (Start 1 ro-EFDW PUMP) "" .: .. . . . ,. . ," .:> . , " r f
.: .. :.' :Ci: . . .-.-: :.". ". '-.' .. ' 17. Dispatch an operator to open the f()llowing:
.. _ lC-912 (UST RISER TO HW EMERG MAKEUP #2 AUTO ISOL. BYPASS) (T-lIG-23) . . . . 78. _ NotifY TSC to evaluate methods to maintain secondary
- 19. _ IAAT hotweU level is 1", THEN stop all EFDWPs. 80. _. WHEN directed by CR SRO, THEN EXIT this enclosure.
EP/lIA11800/001 Page 17of29 . RESPONSE-NOT OB'rAlNED 1
. .'. :: :. :';' : IF AT ANY TIl\1E: : EnCl03..re59:;
..
.. ;, .. -.. , .. /:':
.. --' . '.' . ,'-........ (3) feeding both 80s with ()l1e MIl BFDWP is desired ... (cross--tie) t*,":" . EP/11Al1800/001 Page 18 of29 .: ...... . .... ... ';.'
'.' . . . ..... , . '-": ". . ..... . (9) rapid cooldown NOT in progress AND MD EFQWP Mil> EFDWflowineachheaderis<600 gpm ... (plaCe 1 . '.:' ... :' -.. ;. :;. ".
'-'. ; :.;. ...... .. : .... ' . . .-'. \.. '. ( ) f {
.: '. , .. ExtendedElIDW Qperation, .. ' EP/IIAli800/001 Page 190f29 .L, . .-, .--.-.. __ Th_e_. 00_ ..
.. "....* . __ ' ..... ' '_'.
'be...,'
_EF_JJ_W_'
_""'"'.,.,....., .........
- 81.
_"
-
- .
- 82. _ Dispatch two operators to-perform Encl 5.24 (Operation of the ADVs) in preparation for loss. of vacuum. (PS) -. 83. _ Verify power available to 1 V -186. _ Dispatch an operator to IV -186 (VACUUM BREAKER) . (T-3, catwalk lC2 waterbox).
NOTE
- This step provides general plant directions for the SRO and Management team. The user shall continue after the notification has been made.
- Swapping from TBVs to ADVs prevents overfilling tlie hotwelVcondenser.
- Securing steam seals limits the water (condensation) that reaches the oil systems. Vacuum " ( must be broken to *secure steam seals.
- Engineering will determine when to allow secondary system restart. 84. _ Notify the CR SRO to direct the following as time and resources allow:
- Transfer steam control from TBVs toADVs.
- Operate ADVs per Ul EOP EnclS.24 (Operation of ADVs).
- Begin Unit cool down to LPI per OP/JlAll102IOI0 (Controlling Procedure For Unit Shutdown) using the ADVs.
- Break vacuwn per OP/1-21A111Q6/016 (Condenser Vacmun System).
- Secure Steam Seals per OP/lIAll106/13 (Steam Seal System). 85. _ :wHEN UST level is < 3', i \. TIIEN stop ml CBPs. 86. _ Stop all HWPs. -;-...... ....
EDcIoSunfS9
';; .', . _ ... " -EXtenQed ElIDWOpmtfob"'; ,
.-:. " .... !>;. -. :::. (3) lvID BF.OWP is .". '. -.<. HP/ltAl1806/001 Page20of29 (9) tapidcooldownNoT-in for EF1)W flow in each header is <: 600 gpm ... fi>lace.l ID LOCK) *1 . . -;'" . . I, ;. V{ f r \
, , ,. : .. , ( Enclosure 5.,-. . " .. : .
,", .. ::;.: .... :.; ::' .-EP/lJAllS00/001 Page 21 of29 .... .. ::-. ... ." ". RESPONsE NOT OBTAINED.
,'.I ... : ** , ... : NOTE "--.... 87. _H , -. .m_,' " c* H ... harness to 1 C .. 573 (MD EFDWPS SUCTION FROM USl) (f-l, SW of ., E-24, S' above floor). 8S. _ Open IV-lS6. 89. _ Stop all main vacuum pumps. 90. Clo$e the following:
IMS-47 1 AS-40 91. _ IAAT UST level is < 1 " AND 1 C-573 (MD EFDWPS SUCTION FROM USl) is open, THEN perfonn the following:
A. _ Stop all EFDW pumps. B. Close IFDW-315.
-C. _Close IFDW-316.
- 92. Perform the following:
A. _Reduce MD EFDWP flow to < 440 gpm per pump. B. _Notify crew ofMD EFDWP flow limit while aligned to hotwell. 93. _ WHEN vacuum is broken as indicated by vaCuum no longer decreasing, THEN locally close 1 C-573 (MD EFDWPS SUCTION FROM USl). _ Notify operator to open 1 V -186 (MAIN . CONDENSER VACUUM BREAKER) (T-3, catwalk at lC2 Dispatch an operator to close the following:
_ IMS-49 (IA CSAE STEAM SUPPLy) (T-31F-26)
_ IMS-58 (IB CSAE STEAM SUPPLy) (T-3/G-26)
_ IMS-67 (IC CSAE STEAM SUPPLy) -(T-31H-26)
--* .... . ' .-
. 'r-. IF AT ANY TIME: .. '.: ....**. .*.*. . . Extended EFDWopention!
... ... ' .. .. -(3) feecijng both 80s withone MD. BFDWP is ..**
'. .' *..... '. .... . ." EP/l/AlI800/001 Page22of29
' .. : ... ; (9) rapid .
.. (place 1 TDEFJ?WPUMPinPPLL TOI.b.CK.)
- " i
" \. r " t.-.. EndO$ureS3.: " ". EP/I/A/1800/001 Page 23 of29 " ." .. " ..
EF.QW Operatlon, ... -' .. .. , .. ." . . ACTlONlEXPECTED RESPONSE .' . RESPONSE NOT OBTAINED ' .. . . 94. _.
_ GO TO Step 96. to USTlevel < I'. o ** ' * . 95. Perfonnthe following: . A. _Restart all MD EFDWPs that were stopped due to UST level < I'. B. Resume feeding available SOs. . 96. _ Stop 1 TO EFDW PUMP. 97. _ LocallycJose lC-JS7 (1DIWJ)WP' SUCTION FROM UST) (f-lIC-20).
- 98. _ Open 1 C-391. _ Locally open IC-391 (ID EFDWP SUCTION FROM HOTWELL) (T-lIC-20).
- 99. _ IAAT 1 TD EFDW PUMP operation is desired, AND hotwelllevel is> 1" . n.JEN start J TD EFDW*PDMP.
.' ", 1 OO.Dispatch lUl operator to open the following: _ 1 C-l88 (Hotwell Emerg Makeup #1 Control Bypass) (f-llW ofE-24). (IB} _ (UST RISER TO HW EMERG MAKEUP #2 AUTO ISOL. BYPASS) (T-1I0-23) 101. NotifY TSC to evaluate methods to -. maintain secondaty inventory.
102._ IAAThotwel11evel is THEN stop all EFDWPs. 103. WHEN directed by CR SRO, THEN EXIT this enclosure.
I " '." ". '.
...... " . ",!,,: . TIllS PAGE INTENTIONAllY BLANK EP/IIAl1800/001 Page 24 of 29 .. ' ... .... ',' . ", .:. '. "" :'" : (.
.. 1 ; , ;. ) . EP/IIAl1800/001
-., .... o!"'--.:.
..... -""I.-*. !.,-; . .-.... AcrtONIEXPECTED RESPONsE RESPONSE NOT OllTAINED**.:
- -::' ". Y'" .. '
- .' . ; .... .-. .. THEN diSpatch tWo operators to perform &c15.24 (Operation of the ADVs) in preparation for loss of , , V8Cl1llD:l
- . .. ' . .. 105._ VerifY power available to I V -186. _ Dispatch an operator to IV -186 (VACUUMBRBAKER) catwalk at IC2 waterbox) . 106._ WHEN UST level is < 3', , THEN stop all CBPs. . 1°7._. Stop all HWPs. . NOTE -1 C-573 is nonnally open. 1 C-573 win be closed after vacuum is broken. .' 108._ Dispatch an operator with a safety halness to IC-573 (MD EFDWPS SUCTION FROM US1) (T-I, SW of E-24, 8' above floor). 109._, Open IV-I86. _ NotifY operator to open I V-I 86 (MAIN , CONDENSER.
VACUUM BREAKER) (T-3, catwalk at I C2 waterbox).
11 0._ Stop all main pumps. 111. Close the folloWing:
Dispatch an operator to close the following:
IMS-47 _ IMS-49 (IA CSAE STEAM SUPPLy) --J IAS-40 (T-31F-26)
_ IMS-58 (IB CSAE STEAM SUPPLy) (T-3/G-26)
_ IMS-67 (IC CSAE STEAM y) (T-31H-26) . 112. -IAATUSTlevel is < I', AND 1 C-573 (MD EFDWPS SUCTION FROM US1) is open, THEN perfonn the following:
.-. * .. A. _ Stop all BFDW pumps. B. Close IFDW-315.
-C. Close lFDW-316.
-, . .
"" 'z* .*... :. " -. IF . , hdOSuri 5:,' -Extended i *. EPJ1JAl18001001 Page26of29 . ", '. . ." ", ," . *!t :;:",.-(112) UST level is < 1 t AND Ie-573 (MD BFDWPS SUCTION FROMUST) is EFDW pUmps) "" "" -.'"" .
", .". ;,; .. . .. ". ." .'." / r
- .\. {. .EndQS1ire59
' .. EP/IIAl1800/001 Page 27 of29 .... ,'-:"':'
\. ../'. ExtendedEFDW Operation;' . .. -t ',. ACTIONIEXPECfEPRESPONsE" . RESPONSE NOT OBrAlNED . ...* . 113.PerfoIJ;Q.
.. .. , * . ' .* M';' . ,"' A. Reduce MD EFDWP flow to -< 440 gpm per pump. . B. _Notify crew ofMD EFDWP flow . limit while aligned to hotwell. 114. WHEN vacuum is broken as indicated
-by vacuum no longer decreasing, THEN locally close I C-S73 (MD EFDWPS SUCTION FROM UST). ,:,. lIS._ Verify MD EFDWPs were stopped due _ GO TO Step 117. to UST level <'}' . .. .. . I 16.Perforin the following:
A. Restart all MD EFDWPs that were -stopped due to UST level < II. B. Resume feeding available SOs. 117._, . Stop 1 'IDEFDWPUMP.
118._ Locally close lC-lS7(fDEFDWP , SUCTION FROM US1) (T -lIC-20).
.. 119._ Open lC-39I. _ Locally open lC-391 (TD EFDWP SUCTION FROM HOTWELL) . (T-l/C-20).
120._ IAAT 1 TO EFDW PUMP operation is desired, AND hotwell level is > 1", THEN start 1 1D EFDW PUMP. ., .... .... 'f . . .. '. .-' .. .
, . .. .. ':'7 ...
Emm&d EFDl¥ 'OperatiOn , .: EPI :t/A/18()O/Q()1 Page28of29
- :;;'. " -.' .. '": '-.. " " (120) 1 TD EFDW PUMP operation is desired AND h<>twellievel is> 1" ._ (start '1 TDEt'DW" ' , PUMP) '.;, "'_ . , . , , ;
- t. , \ Enclosure 5.9 Extended EFDW Operation EP/IIAl1800/00I Page290f29 ACfION/EXPECTED RESPONSE .RE8P()NSE NOT OBT.AJNE])
121.Dispatch!lJl operaWt to open the following: _ 1 C-188 (Hotwell Emerg Makeup #1 Control Bypass) (f-llW ofB-24). (IS} _ lC-912 (USTRISER TO HW EMERG MAKEUP #2 AUTO ISOL. BYPASS) (T-lIG-23) 122._ Notify TSC to evaluate methods to maintain secondary inventory.
123._ IAAThotwell level iss In, THEN stop all EFDWPs. 124._° WHEN directed by CR SRO, THEN EXIT this enclosure.
I
. -'. f ; ... ; ...... ... .. ,. ::" -J: '". ,.. -;'!'., . ,,/ .
".':' .' .. -, ,\.,'
REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO-601 CRO-601 fnl Page 1 of 12 Synchronization With the Grid Following a Load Rejection CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE Synchronization With the Grid Following a Load Rejection Alternate Path: No Facility JPM #: CRO-601 KIA Rating(s):
System: 062 KIA: A4.07 Rating: 3.1*/3.1*
Task Standard:
CRO-601 fnl Page 2 of 12 The main generator is synchronized to the electrical grid using AP/1 (Unit Runback) Preferred Evaluation Location:
Preferred Evaluation Method: Simulator X In-Plant __ _ Perform _X_ Simulate
References:
AP/1 (Unit Runback) Validation Time: 20 minutes Time Critical:
No ====================================================================================
Candidate:
Time Start: ----NAME Time Finish: ----Performance Rating: SAT ___ UNSAT __ _ Performance Time: ----Examiner:
__________________
_ -------------
____ --_1 __ --NAME SIGNATURE DATE ====================================================================================
COMMENTS STEP 4: Step 16 Verify automatic SPEED MATCH is desired. STANDARD:
Determine if automatic SPEED MATCH is desired. Continue to Step 17 Cue: If asked as the SRO, inform candidate that automatic SPEED MA TCH is desired. COMMENTS:
STEP 5: Step 17 Select SPEED MATCH on SELECT SPEED TARGET. STANDARD:
SPEED MATCH is selected on SELECT SPEED TARGET. Continue to Step 18 COMMENTS:
STEP 6: Step 18 GO TO Step 21. STANDARD:
Candidate goes to Step 21. Continue to Step 21 COMMENTS:
--CRO-601 fnl Page 6 of 12 SAT UNSAT CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
SIMULATOR OPERATOR INSTRUCTIONS:
- 1. Recall Snap 208 2. Place simulator in RUN CRO-601 fnl Page 3 of 12 START TIME: __ _ STEP 1: Step 13 Ensure VOLTAGE REGULATOR MODE in AUTO. STANDARD:
Verify VOLTAGE REGULATOR MODE switch selected to AUTO on UB2. Continue to Step 14 COMMENTS:
STEP 2: Step 14 Notify SOC that Turbine generator is ready to be paralleled to system and that Voltage Regulator Mode is in AUTO. STANDARD:
The CR phone is used to notify the SOC that Turbine generator is ready to be paralleled to system and that Voltage Regulator Mode is in AUTO. Continue to Step 15 COMMENTS:
STEP 3: Step 15 Place PCB-20 (GENERATOR BREAKER) synchronizing switch in ON. STANDARD:
PCB-20 (GENERATOR BREAKER) synchronizing switch located on 1 UB2 is placed in ON. Continue to Step 16 COMMENTS:
CRO-601 fnl Page 5 of 12 SAT UNSAT SAT UNSAT CRITICAL STEP SAT -UNSAT -
Tools/Equipment/Procedures Needed: AP/001 (Unit Runback) READ TO OPERATOR DIRECTION TO TRAINEE: CRO-601 fnl Page 4 of 12 I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Unit 1 initially operating at 40% power when PCB-20 (GENERATOR BREAKER) and PCB-21 (GENERATOR BREAKER) trip open due to a faulty relay Unit is currently at :::; 20% power The faulty relay that initiated the load rejection has been repaired AP/1 (Unit Runback) in progress up to Section 4C step 13 INITIATING CUES: The SRO directs you to continue with AP/1 (Unit Runback) beginning at step 13 of Section 4C.
STEP 7: Step 21 Ensure slow clockwise rotation of the SYNCROSCOPE pointer. STANDARD:
Verify SYNCROSCOPE pointer is in a slow clockwise rotation.
Continue to Step 22 COMMENTS:
STEP 8: Step 22 Using VOLTAGE ADJUST, adjust T1 OUTPUT VOLTS to match SWITCHYARD VOL TS when the SYNCHROSCOPE pOinter is vertical.
STANDARD:
The candidate uses the VOLTAGE ADJUST located on 1 UB2 to increase T1 (Main Transformer)
OUTPUT VOL TS to match SWITCHYARD VOLTS when the synchroscope pointer is vertical.
Continue to Step 23 COMMENTS:
STEP 9: Step 23 WHEN synchroscope pointer is "" 5° before vertical, THEN close PCB-20 (GENERATOR BREAKER).
STANDARD:
The synchroscope located on 1 UB2 is monitored and when the pointer is "" 5° before vertical, PCB-20 (GENERATOR BREAKER) is closed by rotating the switch to the close position.
The red CLOSED light illuminates and the white OPEN light extinguishes.
Continue to Step 24 Note: It is critical that either PC8-20 or PC8-21 is closed. COMMENTS:
CRO-601 fnl Page 7 of 12 SAT UNSAT SAT UNSAT CRITICAL STEP SAT -UNSAT -
STEP 10: Step 24 Place PCB-20 synchronizing switch in OFF. STANDARD:
PCB-20 synchronizing switch located on 1 UB2 is placed in OFF. Continue to Step 25 COMMENTS:
STEP 11: Step 25 Calculate desired generator load as follows: Current load + 35 MWe = Desired load STANDARD:
Calculate desired load using formula above. Continue to Step 26 COMMENTS:
STEP 12: Step 26 Establish "desired load" calculated above by using one of the following:
- LOAD REFERENCE DEMAND
- TURBINE MASTER
- TURBINE SPEED CHANGER STANDARD:
The LOAD REFERENCE DEMAND (on HMI screen) or the TURBINE MASTER (on 1 UB1) is used to establish "desired load". Continue to Step 27 COMMENTS:
CRO-601 fnl Page 8 of 12 SAT UNSAT SAT UNSAT SAT UNSAT STEP 13: Step 27 Place PCB-21 synchronizing switch in SYNCH. STANDARD:
PCB-21 synchronizing switch located on 1 UB2 is placed in SYNCH. Continue to Step 28 Note: The PCB-21 synchronizing switch ON position is labeled SYNC. The candidate may ask for a soft match from the SRO. COMMENTS:
STEP 14: Step 28 Close PCB-21. STANDARD:
PCB-21 located on 1 UB2 is closed by rotating the switch to the close position.
The red CLOSED light illuminates and the white OPEN light extinguishes.
Continue to Step 29 COMMENTS:
STEP 15: Step 29 Place PCB-21 synchronizing switch in OFF. STANDARD:
PCB-21 synchronizing switch located on 1 UB2 is placed in OFF. Continue to Step 30 COMMENTS:
STEP 16: Step 30 Verify TURBINE AUTO LOAD PERMISSIVE satisfied.
STANDARD:
The TURBINE AUTO LOAD PERMISSIVE is verified to be satisfied by observing the status on the HMI Panel. Continue to Step 31 COMMENTS:
---CRO-601 fnl Page 9 of 12 SAT UNSAT SAT UNSAT SAT UNSAT SAT UNSAT STEP 17: Step 31 Place TURBINE MASTER in AUTO. STANDARD:
TURBINE MASTER is placed in AUTO by depressing the AUTO pushbutton on the TURBINE MASTER Bailey. Note: The candidate may select MEAS. VAR. and verify pointer on the "caret" or verify that Turbine Header Pressure is at setpoint prior to selecting AUTO on the TURBINE MASTER. Cue: When the candidate has placed the Turbine Master in AUTO,inform candidate the JPM is complete.
COMMENTS:
END TASK STOP TIME: ____ _ CRO-601 fnl Page 10 of 12 SAT UNSAT STEP # 3 5 9 CRITICAL STEP EXPLANATIONS:
Explanation CRO-601 fnl Page 11 of 12 Sync switch must be ON to satisfy the interlock close the PCB (generator output breaker) This ensures that the generator picks up electrical load (MWs) when the generator output breaker is closed and prevents motoring the generator.
Required to tie generator to grid.
CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
CRO-601 fnl Page 12 of 12 Unit 1 initially operating at 40% power when PCB-20 (GENERATOR BREAKER) and PCB-21 (GENERATOR BREAKER) trip open due to a faulty relay Unit is currently at 20% power The faulty relay that initiated the load rejection has been repaired AP/1 (Unit Runback) in progress up to Section 4C step 13 INITIATING CUES: The SRO directs you to continue with AP/1 (Unit Runback) beginning at step 13 of Section 4C.
Section 4C Both GEN BKRS Open AP/l!A1l7001001 Page 1 of9 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 1. / VerifY Both Generator Breakers tripped runback in progress or complete: .CTPD set at 20% or ICS tracking value .
- GEN BREAKERS TRIPPED Runback Light lit. .CTP DEMAND decreasing or equal to CTPD SET.
- Reactor power decreasing or at setpoint.
_ Initiate a power reduction to :s 20% CTP. 2. .. 7****************************************************
....................................................................................................................................................................................................... . Initiate EnciS.1 (Control of Plant .
.............................. . 3. NotifY SPOC to determine cause of generator breakers opening. 4.
.. required per OMP 1-14 (Notifications).
CAUTION If auxiliary loads are being supplied by Auxiliary Transformer 1 T and the AUTO/MAN transfer switches are in AUTO, a Turbine trip will result in a slow transfer (::::: 1 second delay) of 4160V auxiliaries to CT -1. A slow transfer will result in the loss of most load shed loads and cause a reactor trip. {8) 5. n IAAT Main Turbine approaches
\V'" operating limits per Enci 5.3 (Main Turbine Operating Limits), THEN GO TO Step 6. 6. _ VerifY Step 35 complete.
- 7. _ Trip Turbine. 8. _ GO TO OPIlIAIlI04/02 (Operation at Power). V GO TO Step 9. 1._ Trip Rx. 2. GO TO Unit 1 EOP.
Section 4C Both GEN BKRS Open IF AT ANY TIME: API II AI1700100 1 Page 2 of9 (5) Main Turbine approaches operating limits per End 5.3 ... (trip the Main Turbine) t**
Section 4C AP/l!AIl 700100 1 Page 3 of9 Both GEN BKRS Open ACTIONIEXPECTED RESPONSE 9. '-l IAA T a Reactor shutdown is desired THEN GO TO Step 10. 10. _ Verify Step 35 complete. 1 L _ GO TO OPIlIAIl102/004 (Operation At Power). RESPONSE NOT OBTAINED -"'GO TO Step 12. L_ Trip Rx. 2. GO TO Unit 1 EOP. ***************************7**********
............................................................................................................................................................................................................................
-............................ . . 12. _ WHEN plant conditions allow, AND cause of load rejection has been determined, THEN continue.
CAUTION Do NOT excite Generator>
19.95 KV. Generator winding damage may result. 13. Ensure VOLTAGE REGULATOR MODE in AUTO. 14. _ Notify SOC that Turbine Generator is ready to be paralleled to system and that Voltage Regulator Mode is in AUTO. 15. Place PCB-20 SYNCHRONIZING switch in ON. 16. _ Verify automatic SPEED MATCH is desired. 1._ Notify SPOC to investigate the problem with VOLTAGE REGULA TOR AUTO MODE. 2. _ WHEN directed by the OSM to synchronize the generator in either the AUTO mode or the MANUAL mode, THEN continue with the procedure.
3._ Notify SOC that Turbine Generator is ready to be paralleled to system and that Voltage Regulator Mode is in AUTO or MANUAL. 4._ GO TO Step 15 . .... , ............................................
_"' .. _ ........ . _ GO TO Step 19.
Section 4C Both GEN BKRS Open IF AT ANY TIME: APil/AI17001001 Page 4 of9 (5) Main Turbine approaches operating limits per End 5.3 ... (trip the Main Turbine) (9) Reactor shutdown desired ... (shutdown the reactor)
Section 4C AP/l!AJI700/001 Page 5 of9 Both GEN BKRS Open ACTIONIEXPECTED RESPONSE 17. Select SPEED MATCH on SELECT SPEED TARGET. 18. _ GO TO Step 21. RESPONSE NOT OBTAINED
..... ---...... _._ ..... -........ _ ... -..... __ ....... _ .................
-_ .... _-...........
_ ............
_ ..........
-............................................................................
_. . .............
_ ......................
-........ __ ...... -.........
_....... . .... . ..............
_._ .............
_...... . .........
-.. _ ..... _ ....... __ .........
-................
_-_ ..... -.. .. 19. Select 1800 RPM on SELECT SPEED TARGET. 20. Use TURBINE SPEED CHANGER to adjust generator speed until slow clockwise rotation of SYNCHROSCOPE pointer is established.
- 21. Ensure slow clockwise rotation of the SYNCROSCOPE pointer. 22. _ Using VOLTAGE ADJUST, adjust Tl OUTPUT VOLTS to match SWITCHY ARD VOLTS when the SYNCHROSCOPE pointer is vertical.
....... ..... ............................
......................................................
.. ...................
-.. .... , ..... . 23. _ WHEN SYNCHROSCOPE pointer is 5° before vertical, THEN close PCB-20. 24. Place PCB-20 SYNCHRONIZING switch in OFF. 25. _ Calculate desired generator load as follows:
- Current load + 35 MWe = Desired load
- MWe+ 35 MWe= MWe 26. Establish Desired Generator load using one of the following:
LOAD REFERENCE DEMAND TURBINE MASTER TURBINE SPEED CHANGER 27. Place PCB-21 SYNCHRONIZING switch in SYNCH. 28. Close PCB-21. l. _Notify SPOC to investigate the problem with automatic speed adjust. 2. _ WHEN the problem is corrected, THEN continue.
Section 4C Both GEN BKRS Open IF AT ANY TIME: AP/I/AI17001001 Page 6 of9 (5) Main Turbine approaches operating limits per Encl 5.3 ... (trip the Main Turbine) (9) Reactor shutdown desired ... (shutdown the reactor)
Section 4C Both GEN BKRS Open AP/l/A/I700/00I Page 7 of9 ACTIONIEXPECTED RESPONSE 29. Place PCB-2I SYNCHRONIZING switch in OFF. 30. _ Verify TURBINE AUTO LOAD PERMISSIVE satisfied.
- 31. Place TURBINE MASTER in AUTO. 32. _ Press TURBINE LOAD pushbutton.
- 33. Verify all the following:
TBVs close MWe increases to :::: 90 MWe _ TURBINE LOAD pushbutton lamp extinguished
- 34. _ Verify Auxiliary Transformer IT supplying unit loads . ....................................................
- 35. _ Restore rapid bus transfer logic as follows: A. Place the following Unit 1 AUTO/MAN transfer switches in MAN: MFBI AUTO/MAN MFB2 AUTO/MAN ITA AUTO/MAN 1 TB AUTO/MAN B. Place the following Unit 1 AUTO/MAN transfer switches in AUTO: MFBI AUTO/MAN MFB2 AUTO/MAN ITA AUTO/MAN ITB AUTO/MAN 36. Verify the following open: _ Turbine Stop Valves _ Reheatiintercept Valves RESPONSE NOT OBTAINED _ Take action to repair or meet TURBINE AUTO LOAD PERMISSIVE.
_ Notify SPOC to investigate and repair. _ GO TO Step 36. _ Notify SPOC to investigate and repair.
Section 4C Both GEN BKRS Open IF AT ANY TIME: AP/l!AI1700/001 Page 8 of9 (5) Main Turbine approaches operating limits per Encl 5.3 ... (trip the Main Turbine) (9) Reactor shutdown desired ... (shutdown the reactor)
Section 4C AP/l!Al1700/001 Page 90f9 Both GEN BKRS Open ACTION/EXPECTED RESPONSE 37. IAAT another runback has or should have occurred, RESPONSE NOT OBTAINED
__
__ NOTE Due to the power decrease initiated in this AP, the current plant configuration must be compared to the normal plant configuration in OP/1IA11102/004 (Operation at Power) power reduction enclosure.
Equivalent steps performed by this AP should be signed off as intent met. Any steps NOT performed by this AP must be evaluated in preparation for power increase or continued shutdown.
- 38. _ Verify restoration to unit power operation is desired. 39. _GO TO the following as required:
- OPIl/All102/0l (Controlling Procedure for Unit Startup) *OPIl/All102/004 (Operation at Power) _ GO TO OP/lIAIlI02/004 (Operation at Power) enclosure for power reduction to verify unit status.
THIS PAGE INTENTIONALLY BLANK CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE eRO-085 ADJUST RADIATION MONITOR SETPOINTS CRO-085 fnl Page 1 of 10 REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE Adjust radiation monitor setpoints.
Alternate Path: No Facility JPM #: CRO-85 KIA Rating(s):
System: 073 KIA: A4.01 Rating: 3.9/3.9 Task Standard:
Adjust 1 RIA-37 and 1 RIA-38 for a GWD release per procedure.
Preferred Evaluation Location:
Simulator X In-Plant __
References:
OP/1-2/A/1104/018, GWD system PT/O/A/230101, Radiation Monitor Check Validation Time: 15 minutes Preferred Evaluation Method: Perform ---"-X",--_
Simulate Time Critical:
NO CRO-085 fnl Page 2 of 10 ====================================================================================
Candidate:
Time Start: ----NAME Time Finish: __ _ Performance Rating: SAT ___ UNSAT __ _ Performance Time: ----Examiner:
______________
_ NAME
__
SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
- 1. RECALL SNAP 209 2. Go to RUN CRO-085 fnl Page 3 of 10 Tools/Equipment/Procedures Needed: OP/1-2/A/11 04/018, Encl. 4.9 & 4.10 PT/OIN230101, Radiation Monitor Check (Encl. 13.6) READ TO OPERATOR DIRECTION TO TRAINEE: CRO-085 fnl Page 4 of 10 I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Release of "8" GWD tank is desired. No other GWRs in progress.
OP/1-2/A/11 04/018, Enclosure 4.9 (GWD Tank Release) is in progress and completed up to Step 3.4 INITIATING CUES: SRO directs you to continue the release of the "8" GWD tank beginning at Step 3.4 of Enclosure 4.9.
STARTTIME:
__ _ STEP 1: Step 3.4 Perform the following on Enclosure 4.10 (GWD Tank Sample Request):
- Record Initial GWD Tank Pressure AND GWD Tank Volume
- Record Start Date AND Time
- Record background readings for 1 RIA-37 & 1 RIA-38 STANDARD:
Determine B GWD tank pressure is 55.3 psig by looking on either the OAC on the chart on 1 VB 1 Determine GWD Tank Volume is ::::: 5200 Fe by using the curve in OP/1108/001 (General Curves and Information)
Determine background readings for 1 RIA-37 & 1 RIA-38 by observing the RIA readings on the RIA View Node and record on Enclosure 4.10. Note: The background readings should be as follows: 1 RIA-37 Background reading is: -1.346 E3 cps 1RIA-38 Background reading is: -1.114 E1 cps Continue to Step 3.5 COMMENTS:
STEP 2: Step 3.5 Record recommended 1 RIA-37 and 38 Alert and High setpoints from Enclosure 4.10 (GWD Tank Sample Request):
- 1 RIA-37 3.47 E5 cpm above background
- 1 RIA-38 2.78 E2 cpm above background STANDARD:
Obtain this information from the sample request and record on form. Continue to Step 3.6 COMMENTS:
SAT CRO-085 fnl Page 5 of 10 UNSAT SAT UNSAT I NOTE: The RIA required to terminate release (RIA within range) must be operable or two I independent samples must be taken (SLC 16.11.3).
STEP 3: Step 3.6 IF 1 RIA-37 or 1 RIA-38 is out-of-service, verify the following per Enclosure 4.10 (GWD Tank Sample Request):
- Independent Data Entry Checks completed
- Independent Sample agrees with initial sample STANDARD:
Determine step does not apply and N/A the step. Continue to Step 3.7 COMMENTS:
STEP 4: Step 3.7 Calculate actual setpoints as follows: IF 1 RIA-37 Operable, calculate Alert and High setpoints as follows: 1.346 E3 cpm 1 RIA-37' background 1.114 E1 cpm 1RIA-38' background
+ + 3.47 E5 Add to background' value from Step 3.5 2.78 E2 Add to background' value from Step 3.5 STANDARD:
Calculate set pOints using formula above. Continue to Step 3.8 COMMENTS:
= 3.48 E5 cpm 1RIA-37 Alert and High alarm setpoints
= 289 cpm 1RIA-38 Alert and High alarm setpoints SAT CRO-085 fnl Page 6 of 10 UNSAT CRITICAL STEP SAT UNSAT -
STEP 5: Step 3.8 Perform one of the following:
IF calculated setpoints are above instrument range OR RIA service, over-ride 1 RIA-37 setpoints as follows: Set 1 RIA-37 Alert setpoint at zero per PT/0/A/0230/001 (Radiation Monitor Check). Set 1 RIA-37 High setpoint at zero per PT/0/A/0230/001 (Radiation Monitor Check). IF calculated setpoints are within instrument range AND RIA operable, set alarms as follows: Set 1 RIA-37 Alert setpoint at 3.48 E5 cpm per PT/0/A/0230/001 (Radiation Monitor Check). (from Step 3.7.1) Set 1 RIA-37 High setpoint at 3.48 E5 cpm per PT/0/A/0230/001 (Radiation Mon itor Check). (from Step 3.7.1) STANDARD:
Set 1 RIA-37 alarms as calculated above. Continue to Step 3.9 COMMENTS:
CRO-085 fnl Page 7 of 10 CRITICAL STEP SAT UNSAT STEP 6: Step 3.9 Perform one of the following:
IF calculated setpoints are above instrument range OR RIA service, over-ride 1 RIA-38 setpoints as follows: Set 1 RIA-38 Alert setpoint at zero per PT/O/A/02301001 (Radiation Monitor Check). Set 1 RIA-38 High setpoint at zero per PT/O/A/02301001 (Radiation Monitor Check). IF calculated setpoints are within instrument range AND RIA operable, set alarms as follows: Set 1 RIA-38 Alert setpoint at 289 cpm per PT/O/A/02301001 (Radiation Monitor Check). (from Step 3.7.1) Set 1 RIA-38 High setpoint at 289 cpm per PT/O/A/02301001 (Radiation Men itor Check). (from Step 3.7.1) STANDARD:
Set 1 RIA-38 alarms as calculated above. COMMENTS:
END TASK STOP TIME: ____ _ CRO-085 fnl Page 8 of 10 CRITICAL STEP SAT UNSAT CRITICAL STEP EXPLANATIONS:
STEP # Explanation 4 Required to ensure proper setpoint is calculated.
5 Required to set RIA to prevent station release above limits. 6 Required to set RIA to prevent station release above limits. eRO-085 fnl Page 9 of 10 CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
Release of "8" GWD tank is desired No other GWRs in progress.
OP/1-2/A/1104/018, Enclosure 4.9 (GWD Tank Release) is in progress and completed up to Step 3.4 INITIATING CUES: SRO directs you to continue the release of the "8" GWD tank beginning at Step 3.4 of Enclosure 4.9.
Enclosure 4.9 GWD Tank Release B GWD Tank (Affected Tank) OP/l-21A11104/018 Page 1 of 15 1. Initial Conditions JJ 1.1 X 1.2 Verify Unit 1&2 GWD Disch Flow (IMSCCROOOl) instrument operable.
Review Limits and Precautions.
- 2. Procedure NOTE: It is a Management Objective to hold up GWD tanks for at least 30 days prior to release when possible.
{13} ,,/lJg 2.1 IF GWD tank to be released has NOT been isolated for at least 30 days OR will be released without a PI AlC filter, record the following:
{13}
- Cause of equipment or subsystem inoperability requiring release without 30 day holdup: ________________________________________________
___
- Corrective action to restore equipment or subsystem operability and to prevent recurrence:
______________________________________________
___ L-2.2 Initiate Enclosure 4.10 (GWD Tank Sample Request).
2.3 WHEN sample results are received, perform the following: 2.3.1 IF sample results allow release as determined by CR SRO, continue to Section 3 (GWD Release).
2.3.2 IF sample results are too high in activity for release, perform the following:
I A. Indicate reason tank NOT released in Comments section of Enclosure 4.10 (GWD Tank Sample Request).
B. Complete Enclosure 4.10 (GWD Tank Sample Request) and return to RP. C. Exit this Enclosure.
Enclosure 4.9 GWD Tank Release op;1-2/AI1104/018 Page 2 of 15 3. GWD Release 3.1 Detennine any other GWR(s) in progress at station: Releases in Progress Release Rate of Station Limit Unit 1 DYes No Unit 2 DYes I1l No Unit 3 DYes fA No NOTE:
- Steps in PT/l-2/A/02301002 (GWD Tank Release) completed prior to GWD Tank L3.2 L3.3 3.4 release to satisfy SR 16.11.3.12 on lRIA-37 & 38. {3}
- If any instrument is unavailable, the associated surveillance requirement is NOT required.
{3} Perfonn steps for prior to GWD Tank release in PT/I-2/A/02301002 (GWD Tan1e Release).
{3} Ensure RIA-45 setpoints on all units adjusted for Unit 1&2 GWD Tank release per PT 101 AI023 0100 1 (Radiation Monitor Check). Perfonn the following on Enclosure 4.10 (GWD Tank Sample Request):
3.4.1 Record Initial GWD Tank Pressure AND GWD Tank Volume 3.4.2 Record Start Date AND Time 3.4.3 Record background readings for lRIA-37 & lRIA-38 3.5 Record recommended lRlA-37 and 38 Alert and High setpoints from Enclosure 4.10 (GWD Tank Sample Request):
- lRIA-37 ______ cpm above background
- lRIA-38 ______ cpm above background NOTE: The RlA required to tenninate release (RIA within range) must be operable or two independent samples must be taken (SLC 16.11.3).
3.6 IF lRlA-37 or lRIA-38 is out-of-service, verify the following per Enclosure 4.10 (GWD Tank Sample Request):
o Independent Data Entry Checks completed o Independent Sample agrees with initial sample Enclosure 4.9 GWD Tank Release 3.7 Calculate actual setpoints as follows: OP/l-2/A/1104/018 Page 3 of15 3.7.1 IF 1RlA-37 Operable, calculate Alert and High setpoints as follows: cpm + ----------
1RIA-37 background
'Add to background' value from Step 3.5 ___________
cpm lRIA-37 Alert and High alarm setpoints 3.7.2 IF lRlA-38 Operable, calculate Alert and High setpoints as follows: __________
cpm + ______________
_ lRIA-38 background
'Add to background' value from Step 3.5 3.8 Adjust 1RlA-37 setpoints for release as follows: 3.8.1 Perform one of the following:
__ _________
cpm 1RIA-38 Alert and High alarm setpoints A. IF calculated setpoints are above instrument range OR RIA out-of-service, over-ride lRIA-37 setpoints as follows:
- Set lRIA-37 Alert setpoint at zero per PT/oIA/02301001 (Radiation Monitor Check).
- Set lRIA-37 High setpoint at zero per PT/OIA/023 0100 1 (Radiation Monitor Check). B. IF calculated setpoints are within instrument range AND RIA operable, set alarms as follows:
- Set lRIA-37 Alert setpoint at cpm per PT/OIA/02301001 (Radiation Monitor Check). (from Step 3.7.1)
- Set 1RIA-37 High setpoint at cpm per PT/OIA/02301001 (Radiation Monitor Check). (from Step 3.7.1)
Enclosure 4.9 GWD Tank Release 3.9 Adjust lRIA-38 setpoints for release as follows: 3.9.1 Perform one of the following:
OP!l-2/A/II04/018 Page 4 of 15 A. IF calculated setpoints are above instrument range OR RIA out-of-service, over-ride lRIA-38 setpoints as follows:
- Set 1RIA-38 Alert setpoint at zero per PT/O/A/023 0100 1 (Radiation Monitor Check).
- Set 1RIA-38 High setpoint at zero per PT/O/A/023 0100 1 (Radiation Monitor Check). B. IF calculated setpoints are within instrument range AND RIA operable, set alarms as follows:
- Set 1RIA-38 Alert setpoint at cpm per PT/O/A/0230/001 (Radiation Monitor Check). (from Step 3.7.2)
- Set 1RIA-38 High setpoint at cpm per PT/O/A/02301001 (Radiation Monitor Check). (from Step 3.7.2) 3.10 Ensure GWR DISCHARGE FLOW CONTROL in "HAND". 3.11 Verify GWR DISCHARGE FLOW CONTROL "CLOSED".
3.12 Notify Unit 3 CR to perform the following:
- Begin periodically monitoring all three Unit 3 GWD tanks to determine if pressure in any tank is decreasing unexpectedly.
{12}
- Place a note on turnover sheet "If 3RIA-45 alarms or GWD tank pressure in any tank is decreasing unexpectedly, notify Unit 1 CR to terminate GWD tank release".
3.13 Notify Unit 2 CR to place a note on turnover sheet "If2RIA-45 alarms, notify Unit 1 CR to terminate GWD tank release".
3.14 Begin monitoring all four Unit 1 GWD tanks to determine if pressure in any tank is decreasing unexpectedly.
{12}
Enclosure 4.9 GWD Tank Release OP!l-2/A/1104/018 Page 5 of 15 3.15 IF AT ANY TIME any tank is decreasing unexpectedly, perform the following:
3.15.1 3.15.2 3.15.3 Close GWR DISCHARGE FLOW CONTROL. Notify RP to initiate SRPMP 8-02 (Investigation of Unusual Radiological Occurrences) due to potential
'Unplanned radioactive effluent release'.
Person Notified Date Go To Section 4 (GWR Termination).
{12} 3.16 Open GWD-I00 (Decay Tanks Discharge Header Block). (A-2-209/E 13' N of Door) 3.17 IF releasing GWD Tank 'A', perform the following:
- Open GWD-98 (Decay Tank 1A Discharge Block). (A-2-209/E 14' N of Door)
- Place GWD-4 ('A' GWD TANK DISCHARGE) switch in "AUTO". 3.18 IF releasing GWD Tank 'B', perform the following:
- Open GWD-99 (Decay Tank IB Discharge Block). (A-2-209/E 14' N of Door)
- Place GWD-5 ('B' GWD TANK DISCHARGE) switch in "AUTO". 3.19 IF releasing GWD Tank 'C', perform the following:
- Place GWD-206 ('C' INTERIM GWD TANK DISCH) switch in "OPEN". 3.20 IF releasing GWD Tank '0', perform the following:
- Open GWD-205 (Decay Tank 1D Discharge Block). (IRW Building)
- Place GWD-207 ('D' INTERIM GWD TANK DISCH) switch in "OPEN".
Enclosure 4.9 GWD Tank Release OP!l-2/AI1104/018 Page 6 of 15 NOTE:
- Station Limit release rates, per SLC 16.11, will NOT be exceeded if recommended release rates per Enclosure 4.10 (GWD Tank Sample Request) are followed.
- The following approval levels are required for releases:
{I O} {13} All Station Releases in Progress (including this one) Required Level of Approval 1 GWR in progress through P/A/C filter at 113 Station Limit (2:: 30 day holdup) SRO 1 GWR in progress at 113 Station Limit << 30 day holdup OR released without P/A/C filter) OSM 1 GWR in progress at 2/3 Station Limit OSM 2 GWRs in progress at 113 Station Limit each OSM 3 GWRs in progress at 113 Station Limit each OSM 3.21 Circle Required Level of Approval above based on Release Conditions.
3.22 Approval granted for release. Approval ___ -.:1 Date Time 3.23 IF tank holdup < 30 days, perform the following:
3.23.1 3.23.2 IF any Projected 31 day average gaseous effluent air dose is > limit in Enclosure 4.10 (GWD Tanle Sample Request), initiate PIP including information captured in Step 2.1. {13} IF Projected 31 day average gaseous effluent air dose is limit, initiate PIP for trending purposes indicating GWD Tank was released with < 30 day holdup.
Enclosure 4.9 GWD Tank Release OP!l-21A11104/018 Page 7 of 15 3.24 IF tank is released without processing through a PI AlC filter AND Projected 31 day average gaseous effluent organ dose> limit, initiate PIP including information captured in Step 2.1. {13} 3.25 Recommended Release Rate from Enclosure 4.10 (GWD Tank Sample Request):
cfm ------NOTE:
- If Unit 1 Penetration Room Ventilation (PRV) system is shutdown, RIA-32 'I PRY System Filter Discharge' sample point does NOT sample general area air properly.
{2}
- With Unit 1 PRY system shutdown, RIA-32 sample point for 'I PRY System Filter Discharge' is sampling air in piping between Unit 1 Unit Vent and PRY discharge.
{2}
- During or just after GWD Release RIA-32 counts may increase while selected to 'I PRY System Filter Discharge' causing ISA-8/B-9 "Process Monitor Radiation High" to alann. {2}{ 11 } 3.26 Indicate the following on Unit 1 Turnover sheet: {2} {II} * "Just after or during a GWD release, ISA-8/B-9 "Process Monitor Radiation High" may alarm from RIA-32 sample point selected to 'I PRY System Filter Discharge'.
IF ISA-8/B-9 is due to RIA-32 -'I PRY System Filter Discharge', it can be considered an expected alarm". 3.27 Adjust GWR DISCHARGE FLOW CONTROL to obtain desired release rate. 3.28 Record "Begin GWR # ____ " in Auto Log. NOTE:
- Steps in PT/l-2/A/02301002 (GWD Tan1e Release) completed during GWD Tank release are performed to satisfy SR 16.11.3.1 on lRIA-37 & 38 and Effluent Flow Rate Monitor. {3}
- If any instrument is unavailable, the associated surveillance requirement is NOT required.
{3} 3.29 IF equilibrium count rate is achieved AND auto termination does NOT occur, perform steps for during GWD Tank release in PT/l-21 Al02301002 (GWD Tank Release).
{3}
Enclosure 4.9 GWD Tank Release OP/1-21AJII041018 Page 8 of 15 NOTE: If lRIA-37 or 38 High Alarm is received:
- GWD Tank discharge valve will automatically close. * "Enable Control" screen on RIA VIEW NODE should show "INHIBIT".
3.30 IF lRIA-37 or 38 High Alarm is received, perform the following:
3.30.1 Close GWR DISCHARGE FLOW CONTROL. 3.30.2 Record maximum cpm of lRIA-37 and lRIA-38: lRIA-37 _____ cpm lRIA-38 _____ cpm 3.30.3 IF desired to continue release, Go To Enclosure 4.15 (GWD Tank Release With Revised RIA Setpoints).
3.30.4 IF desired to terminate release, Go To Section 4 (GWR Termination).
NOTE: If GWD system/tank maintenance is required the GWD tank may need full depressurization.
3.31 IF 'A' or 'B' GWD Tank is being released OR full depressurization of any GWD tank is required, perform the following:
3.31.1 WHEN GWD Tank is "" 5 psig OR release termination is desired for other reasons, close GWR DISCHARGE FLOW CONTROL. 3.31.2 Add N 2 to affected GWD tank to increase pressure to 15-20 psig per Enclosure 4.17 (Adding Nitrogen To GWD Tank). 3.31.3 IF GWD tank full depressurization is required, perform the following:
A. Adjust GWR DISCHARGE FLOW CONTROL to obtain desired release rate. B. WHEN GWD Tank is fully depressurized, close GWR DISCHARGE FLOW CONTROL. 3.31.4 IF full depressurization ofGWD tank is NOT required, perform the following:
A. Adjust GWR DISCHARGE FLOW CONTROL to obtain desired release rate. B. WHEN GWD Tank is "" 5 psig, close GWR DISCHARGE FLOW CONTROL.
Enclosure 4.9 GWD Tank Release OP/l-2/A/II041018 Page 9 of 15 3.32 IF 'C' or 'D' GWD Tank is being released AND full depressurization of GWD tank is NOT required, perform the following:
3.32.1 WHEN GWD Tank is "" 20 psig OR release termination is desired for other reasons, close GWR DISCHARGE FLOW CONTROL. 3.32.2 Add N 2 to affected GWD tank to increase pressure to 30-35 psig per Enclosure 4.17 (Adding Nitrogen To GWD Tank). 3.32.3 Adjust GWR DISCHARGE FLOW CONTROL to obtain desired release rate. 3.32.4 WHEN GWD Tank is "" 20 psig, close GWR DISCHARGE FLOW CONTROL. 3.33 Go To Section 4 (GWR Termination).
Enclosure 4.9 GWD Tank Release OP!l-2/A/II04/018 Page 10 of15 4. GWR Termination:
4.1 Record "Stop GWR # " in Auto Log. ----4.2 Complete Enclosure 4.10 (GWD Tank Sample Request) and route to RP. 4.3 IF GWD Tank 'A' released, perform the following:
4.3.1 Isolate GWD Tank 'A' as follows:
- Close GWD-98 (Decay Tank lA Discharge Block). (A-2-209/E 14' N of Door)
- Close GWD-lOO (Decay Tanks Discharge Header Block). (A-2-209/E 13', N of Door)
- Place GWD-4 ('A' GWD TANK DISCHARGE) switch in "CLOSED".
NOTE:
- Throttling drain valves may cause GWD tank pressure to decrease rapidly. Drain valves should be throttled"" 114 tum open initially.
- Steps 4.3.2 and 4.3.3 may be performed in parallel.
4.3.2 Check GWD Tank 'A' for accumulation of water as follows: (A-2-209)
- Throttle open LWD-240 (Waste Gas Tank lA Drain).
- Throttle open LWD-352 (Waste Gas Tan1e lA Drain Block).
- Throttle open LWD-350 (Waste Gas Tank lA Drain).
- Throttle open LWD-351 (Waste Gas Tank lA Drain Block). 4.3.3 WHEN no water passes through sight-glass, position the following:
- Close LWD-240 (Waste Gas Tank lA Drain).
- Close LWD-352 (Waste Gas Tan1e lA Drain Block).
- Close LWD-350 (Waste Gas Tank lA Drain).
- Close LWD-351 (Waste Gas Tank lA Drain Block).
Enclosure 4.9 GWD Tank Release 4.4 IF GWD Tank 'B' released, perform the following:
4.4.1 Isolate GWD Tank 'B' as follows: oP!l-2/A/II04/018 Page 11 of 15
- Close GWD-99 (Tank IB Discharge Block). (A-2-209/E 14' N of Door)
- Close GWD-lOO (Decay Tanks Discharge Header Block). (A-2-209/E l3', N of Door)
- Place GWD-5 ('B' GWD TANK DISCHARGE) switch in "CLOSED".
NOTE:
- Throttling drain valves may cause GWD tank pressure to decrease rapidly. Drain valves should be throttled"" 114 tum open initially.
- Steps 4.4.2 and 4.4.3 may be performed in parallel.
4.4.2 Check GWD Tank 'B' for accumulation of water as follows: (A-2-209)
- Throttle open LWD-241 (Waste Gas Tank IB Drain).
- Throttle open LWD-355 (Waste Gas Tank IB Drain Block).
- Throttle open LWD-353 (Waste Gas Tank IB Drain).
- Throttle open LWD-354 (Waste Gas Tank IB Drain Block). 4.4.3 WHEN no water passes through sight-glass, position the following:
- Close LWD-24I (Waste Gas Tank IB Drain).
- Close LWD-355 (Waste Gas Tank IB Drain Block).
- Close LWD-353 (Waste Gas Tank IB Drain).
- Close LWD-354 (Waste Gas Tank IB Drain Block).
Enclosure 4.9 GWD Tank Release 4.5 IF GWD Tank 'C' released, perform the following:
4.5.1 Isolate GWD Tank 'C' as follows: OP!l-2/A/II041018 Page 12 of 15
- Close GWD-204 (Decay Tank lC Discharge Block). (IRW Building)
- Close GWD-I00 (Decay Tanks Discharge Header Block). (A-2-209/E 13', N of Door)
- Place GWD-206 ('C' INTERIM GWD TANK DISCH) switch in "CLOSED".
NOTE:
- Throttling drain valves may cause GWD tank pressure to decrease rapidly. Drain valves should be throttled"" 114 tum open initially.
- Steps 4.5.2 and 4.5.3 may be performed in parallel.
4.5.2 Check GWD Tank 'C' for accumulation of water as follows: (Interim Bldg)
- Throttle open GWD-197 (Waste Gas Tank lC Drain).
- Throttle open GWD-198 (Waste Gas Tank lC Drain). 4.5.3 WHEN no water passes through sight-glass, position the following:
- Close GWD-197 (Waste Gas Tank lC Drain).
- Close GWD-I98 (Waste Gas Tank IC Drain).
Enclosure 4.9 GWD Tank Release 4.6 IF GWD Tank 'D' released, perfonn the following:
4.6.1 Isolate GWD Tank 'D' as follows: OP/l-2/A/I1041018 Page 13 of 15
- Close GWD-205 (Decay Tank ID Discharge Block). (IRW Building)
- Close GWD-IOO (Decay Tanks Discharge Header Block). (A-2-209/E 13', N of Door)
- Place GWD-207 ('D' INTERIM GWD TANK DISCH) switch in "CLOSED".
NOTE:
- Throttling drain valves may cause GWD tank pressure to decrease rapidly. Drain valves should be throttled::::
114 tum open initially.
- Steps 4.6.2 and 4.6.3 may be perfonned in parallel.
4.6.2 Check GWD Tank 'D' for accumulation of water as follows: (Interim Bldg)
- Throttle open GWD-200 (Waste Gas Tank ID Drain Isolation).
- Throttle open GWD-201 (Waste Gas Tank ID Drain Isolation).
4.6.3 WHEN no water passes through sight-glass, perfonn the following:
- Close GWD-200 (Waste Gas Tank ID Drain Isolation).
- Close GWD-201 (Waste Gas Tank ID Drain Isolation).
NOTE: GWD Filters drain to HA WT. 4.7 Drain GWD Filters as follows: (A-2-21O/Waste Gas Compressor Rm)
- Throttle LWD-242 (Waste Gas Absolute Filter Drain).
- Throttle LWD-243 (Waste Gas Charcoal Filter Drain). 4.8 After one minute, perfonn the following: (A-2-21O/Waste Gas Compressor Rm)
- Close LWD-242 (Waste Gas Absolute Filter Drain).
- Close LWD-243 (Waste Gas Charcoal Filter Drain). 4.9 Perfonn purge on lRIA-37 and lRIA-38 per Enclosure 4.16 (lRIA-37 and 38 Purge). 4.10 Ensure complete RIA-45 setpoints adjustment for Unit 1&2 GWD Tank release per PT/O/A/02301001 (Radiation Monitor Check).
Enclosure 4.9 GWD Tank Release 4.11 Set RIA alanns as follows:
- Set 1RIA-37 Alert setpoint at zero.
- Set 1RIA-37 High setpoint at zero.
- Set 1RIA-38 Alert setpoint at zero.
- Set 1RIA-38 High setpoint at zero. OP/l-2/A/1104/018 Page 14 of 15 4.12 IF required, remove note from Turnover sheet for RIA-32 alanning.
4.13 Notify Unit 2 CR to remove Turnover sheet note for 2RIA-45 alanns. 4.14 Notify Unit 3 CR to remove Turnover sheet note for 3RIA-45 alanns and decreasing tank pressure.
4.15 Ensure PT/l-2/A/0230/002 (GWD Tank Release) complete.
{3} 4.16 IF release was tenninated due to 1RIA-37 or 38 High Alann, manually reset valve inhibit on "Enable Control" screens of RIA VIEW NODE. 4.17 IF 'A' or 'B' GWD tank was fully depressurized, perfonn the following:
4.17.1 4.17.2 WHEN maintenance is complete, ensure __ GWD tank is isolated.
Pressurize
__ GWD tank to "" 5 psig nitrogen per Enclosure 4.17 (Adding Nitrogen To GWD Tank). 4.18 IF 'C' or 'D' GWD tank was fully depressurized, perfonn the following:
4.18.1 4.18.2 WHEN maintenance is complete, ensure __ GWD tank is isolated.
Pressurize
__ GWD tank to "" 20 psig nitrogen per Enclosure 4.17 (Adding Nitrogen To GWD Tan1e). 4.19 Record below, and in Auto Log, date and time GWD Tank was isolated.
Date Time Tank --------'---
Enclosure 4.9 GWD Tank Release OP!l-21A11104/018 Page 15 of 15 NOTE: Isolated GWD Tank must be sampled for hydrogen concentration within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. 4.20 Request sample for hydrogen on isolated GWD Tank. 4.21 Update isolated GWD Tank information on Unit 1 Turnover Sheet. NOTE: Steps 4.22 and 4.23 may be performed in any sequence.
4.22 After GWD tank has been isolated six hours, ensure the following:
- Pressure in isolated tank NOT decreasing
- GWD-l (VENT HEADER PRESSURE CONTROL) controlling Vent Header pressure 4.23 WHEN H2 sample results are received, perform the following:
4.23.1 4.23.2 Refer to Limits and Precautions for allowable hydrogen concentration.
Update Unit 1 Turnover Sheet information for H2 Concentration after sample results are received.
Enclosure 4.10 GWD Tank Sample Request GWR # /0 ()t?b OP/1-2/AI1104/018 Page 1 of2 -------------------
To be completed by Ops Gaseous Analysis Request For GWD Tank # --B-Tank Isolated:
Date/Time
_-I./_---L.../.wB'---
__ Tank Holdup Time: _____ (days) 31 Day Dose Projection Required In Accordance With SLC l6.l1.2.c.l: (Tank Holdup < 30 days) {13} Tank will be released without a P/A/C filter (SLC 16.l1.2.c.2):
{13} Independent Sample Analysis Required: (lRIA-37/38 OOS or alarmed during release) To be completed by RP DYes DYes DYes Initial Sample Analysis Results Iodine j,q.B p."CO A-/J Independent Sample Analysis Results Iodine Gaseous D No D No D No Gaseous 3.t-z 1 E % Id RP Representative Date/Time
RP Representative Date/Time
Independent Data Entry Checks completed RP Representative Independent Sample agrees with Initial Sample RP Representative Recommended Release Rates D 113 Station Limit ___ -'1.-=.-"!:O'--P----"f;'---
____ cfm D 2/3 Station Limit (. g-£7 cfm NOTE: If lRIA-37&38 are inoperable, set High and Alert setpoints to zero. Recommended High and Alert setpoints for: lRIA-37 P1 E S-IRIA-38 " .? £i F-d... cpm above background cpm above background Projected 31 day average gaseous effluent dose: {13} Air Dose (Noble gases): Gamma> 0.6 mrad DYes Beta> 1.2 mrad DYes Max dose to any organ >0.9 mrem DYes Organ Dose (Other than noble gases): D No D No D No Enclosure 4.10 GWD Tank Sample Request GASEOUS RELEASE VOLUME UPDATE To be completed by Ops GWD Tank Release -------Initial GWD Tank Pressure:
______ pSlg OP/l-21AJII04/018 Page 2 of2 GWD Tank Volume per OP/OI All I 08/001 (Curves And General Infonnation):
Started: Date Time ----RIA Background Reading: IF available, IRIA-37 IF available, IRIA-38 Actual Release Rate: cfm ------RIA Equilibrium Readings during Release: IF available, IRIA-37 IF available, IRIA-38 T enninated:
Date Time ----Final GWD Tank Pressure:
______ pSlg Comments:
Route this GWD Tank Sample Request to RP. I ----------
CRO Date Time
- 1. Initial Conditions Enclosure 13.6 lRIA-37 and lRIA-38 Setpoints PT/O/A/023 0100 1 Page 1 of 1 1.1 U1&2 GWD Tank release planned per OPIl-21l104/018 (GWD System). 2. Procedure NOTE: Each RIA procedure section may be performed in any sequence.
2.1 Set process monitor setpoints as required.
- 3. lRIA-37 3.1 Document 1RIA-37 Alert setpoint per OPIl-21l104/018 (GWD System): _____ CPM 3.2 Insert 1RIA-37 Alert setpoint per OPIl-2/1104/018 (GWD System). 3.3 Document 1RIA-37 High setpoint per OPIl-2/1104/018 (GWD System): ____ CPM 3.4 Insert 1RIA-37 High setpoint per OP/l-21l104/018 (GWD System). 4. lRIA-38 4.1 Document lRIA-38 Alert setpoint per OPIl-2/1104/018 (GWD System): CPM -----4.2 Insert lRIA-38 Alert setpoint per OPIl-2/1104/018 (GWD System). 4.3 Document lRIA-38 High setpoint per OP/I-2/1104/018 (GWD System): CPM -----4.4 Insert lRIA-38 High setpoint per OP/l-2/1104/018 (GWD System).
REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO-BOO eRO-800 fnl Page 1 of 17 Perform Required Actions for an Intake Canal Dam Failure CANDIDATE:
EXAMINER:
Task: REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE Perform required actions for an Intake Canal dam failure Alternate Path: No Facility JPM #: CRO-800 KIA Rating(s):
System: 075 KIA: A2.01 Rating: 3.0*/3.2 Task Standard:
CRO-800 fnl Page 2 of 17 AP/13 (Dam Failure) is correctly implemented for a failed Intake Canal Dam. Preferred Evaluation Location:
Preferred Evaluation Method: Simulator X In-Plant __ _ Perform _X_ Simulate
References:
AP/13, Dam Failure Validation Time: 20 minutes Time Critical:
No ====================================================================================
Candidate:
Time Start: ___ _ NAME Time Finish: ---Performance Rating: SAT ___ UNSAT __ _ Performance Time: ----Examiner:
SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
- 1. Recall Snap 214 2. Import eRO-SOO files 3. Place simulator in RUN eRO-SOO fnl Page 3 of 17 Tools/Equipment/Procedures Needed: AP/1/A/1700/13, Dam Failure READ TO OPERATOR DIRECTION TO TRAINEE: eRO-800 fnl Page 4 of 17 I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Intake Dam failure has occurred.
Unit 1 has been manually tripped. Subsequent Actions of AP/13, Dam Failure have been completed up to step 4.7. INITIATING CUES: Control Room Supervisor directs you continue with AP/13, Dam Failure beginning at step 4.7.
START TIME: __ _ STEP 1: Step 4.7: Stop all but one CCW pump. STANDARD:
Locate CCW pumps on 1AB3 and stop all but one by rotating the pump switches to the TRIP position.
Verify red lights off and white lights on. Continue to Step 4.S COMMENTS:
STEP 2: Step 4.S: Ensure CCWP LOAD SHED DEFEAT switch is positioned to a running CCWP. STANDARD:
Continue to Step 4.9 COMMENTS:
CRO-SOO fnl Page 5 of 17 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
I NOTE LPSW pumps will be secured later in this AP causing loss of LPSW to the RCPs. STEP 3: Step 4.9: Stop all RCPs. Notify CR SRO that for EOP purposes, RCPs should be considered unavailable for restart until LPSW is restored.
STANDARD:
The control switches for RCPs 1 A 1, 1 A2, 1 B 1, 1 B2 are located by the candidate on 1AB1 and rotated to the TRIP position.
The candidate verifies the RCPs are stopped by red run lights off and/or "0" amps indicated.
The candidate notifies the CR SRO "that for EOP purposes, RCPs should be considered unavailable for restart until LPSW is restored." Continue to Step 4.10 Cue: As the SRO, state that you understand the RCPs are considered unavailable for restart until LPSW is restored.
COMMENTS:
STEP 4: Step 4.10 Dispatch an operator to open the following valve(s) on all operable SSW headers:
Calls NEO Kitchen and dispatches an operator to open HPSW-900 and HPSW-901.
Continue to Step 4.11 COMMENTS:
I age 0 CRO-SOO fnl P 6 f17 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
NOTE CCW-8 must be de-energized prior to submersion by lake water. This should be accomplished within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> of initiation of the event. CCW Emergency Discharge Siphon Flow may have been established automatically as a result of loss of power. STEP 5: Step 4.11: Verify CCW-8 is open. STANDARD:
Determine that CCW-8 (located on 2AB3) is CLOSED by observing the Green CLOSED light is illuminated.
Continue to RNO, GO TO Step 4.19 COMMENTS:
STEP 6: Step 4.19: Dispatch an operator to open 1 DP-F5C (CCW-8 BKR (EMERG CCW DISCH TO TAILRACE))
STANDARD:
Dispatch an operator to open 1 DP-F5C. Continue to Step 4.20 Booth cue: An operator has been sent to open 1 DP-F5C. Note: Using time compression the breaker will be opened. COMMENTS:
--age 0 CRO-800 fnl P 7 f 17 SAT UNSAT CRITICAL STEP SAT -UNSAT -
CRO-800 fnl P f age 80 17 STEP 7: Step 4.20: Stop all Unit 1 ESV pumps: SAT -* 1A ESV PUMP
- 1C ESV PUMP 1B ESV PUMP -UNSAT
- STANDARD:
Locate the Unit 1 ESV pumps switches on 1 AB3. Turn above switches to stop. Verify red light off and green light on. Continue to Step 4.21 COMMENTS:
NOTE CRITICAL STEP The EWST will be used as CCWP sealing water and to cool the following:
- HPI pump motor coolers -* TDEFDW Pump
- Operating CCWP motors UNSAT -STEP 8: Step 4.21: Place the following switches in OFF:
- A HPSW PUMP
- B HPSW PUMP STANDARD:
A and B HPSW pump switches located on 1AB3 are placed in the OFF position.
Continue to Step 4.22 COMMENTS:
CRO-800 fnl PaQe 9 of 17 STEP 9: Step 4.22: IAAT any of the following is full open: SAT
- HPSW-901 (A HDR SIPHON SEAL WATER (SSW) SYSTEM CONN), UNSAT -THEN perform Steps 4.23 -4.25. Step 4.22 RNO GO TO Step 4.26. STANDARD:
Determine that HPSW-900 is full open or perform the Step 4.22 RNO. Continue to Step 4.23 OR Continue to Step 4.26 (JPM step 13) Booth cue: If called, inform candidate that HPSW 900 is full open. COMMENTS:
STEP 10: Step 4.23: Ensure the Unit 1/2 STANDBY LPSW PUMP AUTO START CIRCUIT in SAT DISABLE. -STANDARD:
Locate the Unit 1/2 STANDBY LPSW PUMP AUTO START CIRCUIT UNSAT switch on 1AB3. Place the switch in disable. -Continue to Step 4.24 COMMENTS:
CRO-800 fnl age 0 P 10 f17 STEP 11: Step 4.24: CRITICAL STEP Stop the following pumps: SAT -* A LPSW PUMP
- STANDARD:
Locate the LPSW pumps switches on 1 AB3 and rotate the switches to the trip position.
Verify red lights off and white lights on. Continue to Step 4.25 COMMENTS:
NOTE The intent is to maintain adequate cooling water inventory while preventing loss through the EWST overflow.
-SAT STEP 12: Step 4.25: Maintain EWST level >70,000 gallons and < OVERFLOW by cycling HPSW JOCKEY PUMP as necessary.
UNSAT -STANDARD:
Monitor EWST level, FULL light, and the OVERFLOW light located on 1 AB3. Determine that the HPSW JOCKEY PUMP should remain in operation until the OVERFLOW light is lit. Continue to Step 4.26 COMMENTS:
NOTE Unit 2 and Unit 3 may be dispatching similar enclosures.
If possible, the same operator should be used for these tasks. STEP 13: Step 4.26: Dispatch an operator to the CCW Intake with a copy of Encl 5.4 (NLO Actions at CCW Intake). STANDARD:
Contact an NEO and dispatch him to the CCW Intake with a copy of Encl 5.4 (NLO Actions at CCW Intake). Continue to Step 4.27 Cue: Inform the candidate that an operator has been dispatched to the intake. COMMENTS:
STEP 14: Step 4.27: Notify operator at CCW Intake to isolate SSW to all stopped CCW pumps per Encl 5.4 (NLO Actions at CCW Intake). v CCW Pump 1A 1B 1C 10 STANDARD:
Notify operator at CCW Intake to isolate SSW to all stopped CCW pumps. Continue to Step 4.28 Cue: Inform the candidate that the operator has been notified.
COMMENTS:
CRO-800 fnl Page 11 of 17 SAT UNSAT SAT UNSAT CRO-SOO fnl age 017 P 12 f STEP 15: Step 4.2S: IAAT RCP seal injection is lost, SAT -THEN dispatch an operator to perform AP/25 (SSF EOP) to operate the SSF RCMU system. UNSAT STANDARD:
Determine that RCP seal injection has NOT been lost by observing
-SEAL INLET HDR FLOW flow gauge on 1 UB1. Continue to Step 4.29 Booth cue: If candidate has not called concerning the status of HPSW-900190 1, call CR as the NEO and inform him that HPSW-900 is full open. COMMENTS:
STEP 16: Step 4.29 IAAT all the following exist: SAT -* Loss of power occurred on Unit 1
- Power has been restored to Unit 1 -UNSAT
- Keowee Lake Level> 775' THEN perform Steps 4.30 -4.39. STANDARD:
Determine power has NOT been lost on Unit 1 perform RNO step Continue to Step 4.29 RNO Cue: If asked as the SRO, inform candidate that a loss of power has not occurred on Unit 1. COMMENTS:
STEP 17: Step 4.29 RNO GO TO Step 4.40. SAT -STANDARD:
GO TO Step 4.40. UNSAT -COMMENTS:
CRO-800 fnl age 0 P 13 f 17 STEP 18: Step 4.40 IAAT Keowee Lake Level::; 775', SAT -AND CCW-8 Bkr is open, THEN perform Steps 4.41 -4.43. STANDARD:
Determine Keowee Lake Level is ::; 775' by observing Forebay level -UNSAT gauge located on 2AB3 or on the OAC. Determine that CCW-8 breaker is open by observing valve indicating lights to be extinguished on 2AB3. Continue to Step 4.41 COMMENTS:
STEP 19: Step 4.41 CRITICAL STEP Stop all CCW pumps. SAT -STANDARD:
Locate the CCW pump switches on 1 AB3 and stop all running CCW pumps by rotating the switches to the TRIP position.
UNSAT -Continue to Step 4.42 COMMENTS:
STEP 20: Step 4.42 Initiate Encl 5.3 (Cross-connect CCW Intake and Discharge Piping). SAT -STANDARD:
Begin Encl 5.3 (Cross-connect CCW Intake and Discharge Piping). Continue to Step 4.43 UNSAT -Cue: Indicate that Encl 5.3 (Cross-connect CCW Intake and Discharge Piping) will be performed by another RO. COMMENTS:
CRO-800 fnl age 0 P 14 f17 NOTE Similar instructions are provided in Unit 2 and 3 procedures.
The same operator should SAT be used for these tasks. -STEP 21: Step 4.43 Notify the operator performing Encl 5.4 (NLO Actions at CCW Intake) to isolate SSW to all Unit 1 CCW pumps. UNSAT -STANDARD:
The operator performing Encl 5.4 (NLO Actions at CCW Intake) is notified to isolate SSW to all Unit 1 CCW pumps. Continue to Step 4.44 Cue: Indicate the operator has been notified to isolate SSW to all Unit 1 CCW pumps. COMMENTS:
STEP 22: Step 4.44 Notify TSC to replenish Unit 2 CCW intake lines. SAT -STANDARD:
The TSC is notified to replenish Unit 2 CCW intake lines. Continue to Step 4.45 UNSAT -Cue: Indicate that the TSC has been notified.
COMMENTS:
STEP 23: Step 4.45 Notify Emergency Coordinator to review Encl 5.5 (Dam Failure SAT Considerations
). -STANDARD:
The Emergency Coordinator is notified to review Encl 5.5 (Dam Failure Considerations
). UNSAT -Continue to Step 4.46 Cue: Inform the candidate that the Emergency Coordinator has been notified.
COMMENTS:
STEP 24: Step 4.46 WHEN secondary heat removal systems are near depletion, THEN initiate AP/25 (SSF EOP) in preparation for feeding the SGs with SSF ASW. STANDARD:
Candidate should indicate that they would initiate AP/25 when secondary heat removal systems are nearing depletion.
Cue: Inform the candidate another operator will continue to monitor. JPM is complete.
COMMENTS:
END TASK STOP TIME: ____ _ CRO-800 fnl PaQe 15 of 17 SAT UNSAT CRITICAL STEP EXPLANATIONS:
STEP # Explanation 1 Reduces the amount of lost inventory.
eRO-800 fnl Page 16 of 17 3 Reduces RCS heat load and prevents RCP damage from inadequate LPSW. 6 CCW-8 breaker must be opened to prevent inadvertent operation after flooding.
8 Reduce the amount of lost inventory.
11 Reduce the amount of lost inventory.
19 Reduce the amount of lost inventory.
CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
Intake Dam failure has occurred.
Unit has been manually tripped. Subsequent Actions of AP/13, Dam Failure have been completed up to step 4.7. INITIATING CUES: eRO-800 fnl Page 17 of 17 Control Room Supervisor directs you continue with AP/13, Dam Failure beginning at step 4.7.
CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE NLO-200 ALIGN HPI PUMP SUCTION TO BWST DURING A BLACKOUT NLO-200 fnl Page 1 of 9 REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE Align HPI Pump Suction to BWST During a Blackout Alternate Path: No Facility JPM #: NLO-200 KIA Rating(s}:
System: APE 022 KIA: G 2.4.35 Rating: 3.8/4.0 Task Standard:
NLO-200 fnl Page 2 of 9 HPI Pump suction is correctly aligned to BWST per the EOP and flow is controlled to the ReS. Preferred Evaluation Location:
Preferred Evaluation Method: Simulator In-Plant X Perform __ Simulate _X_
References:
EP/1/A/18001001 (Emergency Operating Procedure)
Encl. 5.7, (HPI Pump Operations from ASW Pump Switchgear)
Validation Time: 20 minutes Time Critical:
NO ====================================================================================
Candidate:
Time Start: ___ _ NAME Time Finish: ----Performance Rating: SAT ___ UNSAT __ _ Performance Time: ----Examiner:
_____________
_
NAME SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
None NLO-200 fnl Page 3 of 9 Tools/Equipment/Procedures Needed: NLO-200 fnl Page 4 of 9 EP/1/A/18001001 (Emergency Operating Procedure)
Encl. 5.7, (HPI Pump Operations from ASW Pump Switchgear)
READ TO OPERATOR DIRECTION TO TRAINEE: I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Blackout is in progress on Unit 1 Blackout Tab of the EOP is in progress INITIATING CUES: The SRO directs you to perform EP/1/A/18001001 (Emergency Operating Procedure)
Encl. 5.7, (HPI Pump Operations from ASW Pump Switchgear).
The desired suction source for the HPI pump will be Unit 1's BWST.
START TIME: __ _ STEP 1: Step 1 Close 1 HP-139 (RCP SEAL FLOW CONTROL OUTLET) (A-3-306, CRD Filter Rm) STANDARD:
Locate 1 HP-139 in Unit 1's CRD Filter Room and push down lever and rotate handwheel clockwise until it reaches a hard stop. Stem will lower as the handwheel is rotated. Cue: Valve has reached a hard stop. COMMENTS:
NOTE Cooling water to HPI Motor Coolers will be supplied by the following:
- HPSW via head from EWST
- Station ASW Pump, if operating, via 1 CCW-265 STEP 2: Step 2 Verify 1 gpm cooling water flow to HPI pump motor coolers on local indication (HPI Pump Rm):
- 1A HPI Pump (1 LPS-PS-1013)
- 1B HPI Pump (1LPS-PS-1014)
Cue: Indicate to the candidate that cooling water flow to the 1A and 18 HPI pumps coolers is 2 gpm. STANDARD:
Locate the local indication of HPI pump motor coolers flow located on the west wall of the HPI Pump Room and determine that flow is 1 gpm. COMMENTS:
NLO-200 fnl Page 5 of9 CRITICAL STEP SAT UNSAT SAT UNSAT STEP 3: Step 3 GO TO applicable step based on HPI pump suction source specified by Control Room: .y Desired Suction Applicable Source Step BWST 4 LDST 7 SFP 9 STANDARD:
Determine the suction source is the BWST based on the cue sheet and GO TO Step 4. COMMENTS:
STEP 4: Step 4 Open the following (A-1-118, N end of 1&2 HPI Hatch Area, East wall):
- 1 HP-24 (2A HPI BWST SUCTION)
- 1 HP-25 (2B HPI BWST SUCTION) STANDARD:
Proceed to the East wall of the 1 &2 HPI Hatch Area and open 1 HP-24 and 1 HP-25 by engaging the hand wheel and turning counterclockwise until the valve reaches a hard stop. Handwheel is engaged by pushing the lever down and turning the handwheel.
Cue: Indicate that the valve has reached a hard stop_ COMMENTS:
-SAT NLO-200 fnl Page 6 of 9 UNSAT CRITICAL STEP SAT UNSAT STEP 5: Step 5 Proceed to East Penetration Room and notify Control Room of the following:
- HPI suction aligned to BWST
- HPI pump cooling water status
- Available to throttle 1 HP-26 Cue: After the phone call has been made to the control room, inform the candidate that the control room requests 1 HP-26 to be opened 5 turns. STANDARD:
Proceed to East Penetration Room, locate 1 HP-26, and notify Control Room of the following:
- HPI suction aligned to BWST
- HPI pump cooling water status
- Available to throttle 1 HP-26
- Locate 1 HP-26, indicate that the engagement handle is depressed and the handwheel is rotated counterclockwise five turns. COMMENTS:
STEP 6: Step 6 EXIT this enclosure.
STANDARD:
The candidate should indicate that he would exit the enclosure.
COMMENTS:
END TASK STOP TIME: ____ _ NLO-200 fnl Page 7 of 9 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
CRITICAL STEP EXPLANATIONS:
STEP # Explanation NLO-200 fnl Page 8 of 9 1 This step is required to prevent damaging the Rep seals when the HPI pump starts. 4 This step is required to align the BWST to the HPI pump suction. 5 This step is required to throttle flow through 1 HP-26.
CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
Blackout is in progress on Unit 1 Blackout Tab of the EOP is in progress INITIATING CUES: The SRO directs you to perform EP/1/A/18001001 (Emergency Operating Procedure)
Enc!. 5.7, (HPI Pump Operations from ASW Pump Switchgear).
The desired suction source for the HPI pump will be Unit 1 's BWST.
Enclosure 5.7 HPI Pump Operation From ASW Pump Switchgear EP/I/A/18001001 Page 1 of 11 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 1. _Close IHP-139 (RCP SEAL FLOW CONTROL OUTLET) (A-3-306, CRD Filter Rrn). NOTE Cooling water to HPJ Motor Coolers will be supplied by the following:
- HPSW via head from EWST
- Station ASW Pump, if operating, via 1 CCW -265 2. Verify ;;::: 1 gpm cooling water flow to HPI pump motor coolers on local indication (HPJ Pump Rm): _IA HPI Pump (1 LPS-PS-1013)
_IB HPI Pump (lLPS-PS-I014)
- 3. GO TO applicable step based on HPI pump suction source specified by Control Room: Desired Suction Source BWST LDST SFP Applicable Step 4 7 9 4. Open the following (A-I-lI8, N end of 1&2 HPJ Hatch Area, East wall): _IHP-24 (IA HPJ BWST SUCTION) IHP-25 (lB HPJ BWST SUCTION) _ Notify Control Room to contact TSC for guidance.
--_._----\--_._----_._-------------------
- 5. Proceed to East Penetration Room and notify Control Room of the following:
_HPJ suction aligned to BWST _ HPI pump cooling water status Available to throttle IHP-26 6. EXIT this enclosure.
- "i:".
Enclosure 5.7 HPJ Pump Operation From ASW Pump Switchgear THIS PAGE INTENTIONALLY BLANK .. * ;-:-. EP/1/AlI800/001 Page 2 of 11 Enclosure 5.7 HPI Pump Operation From ASW Pump Switchgear EP/I/A/18001001 Page 3 of 11 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 7. Proceed to East Penetration Room and notify Control Room of the following:
_ HPI pump cooling water status Available to throttle IHP-26 ----..
.-----------
- 8. EXIT this enclosure. . ";-;,
Enclosure 5.7 HPJ Pump Operation From ASW Pump Switchgear THIS PAGE INTENTIONALLY BLANK EP/1/AlI800/001 Page 4 of 11 Enclosure 5.7 HPI Pump Operation From ASW Pump Switchgear EP/I/A/I8001001 Page 5 of 11 ACTIONIEXPECTED RESPONSE 9. Rack out the following breakers:
_ lA LPI Pump (lTC-IO) _ IB LPI Pump (lTD-IO) I IA RBS Pump (ITC-ll) _ IB RBS Pump (lTD-II) 10. Close (BWST OUTLET) (Outside, East of Unit 1 BWST). ---_. 11. Close the following (A -I, N end of 1 &2 LPI Hatch Area, East wall): _ ILP-21 (IA LPI BWST SUCTION) _ 1 LP-22 (lB LPI BWST SUCTION) (32) 12. _Open 1 HP-24 (lA HPI BWST SUCTION) (A-I-I 18, N end of 1 &2 HPI Hatch Area, East wall). RESPONSE NOT OBTAINED .---_._----_.-
_._._-----_.-----
.. --.-----13. Perform the following (A-I-I28, ASW PumpRm): A. _ Close ASW SWGR FDR (ASW SWGR FDR FROM BIT-UNIT 10) (ASW 41601600V SWGR"ASWS-5).
B. Close ASWS-6D (UNITS 112/3 SF PRIMING PUMP TRANSFORMER BKR) (600V Load Center). C. Close breaker U1I2 SF PRIMING PUMP (UNIT 1&2 SF PRIMING PUMP REMOTE STARTER) (S wall). 14. NotifY Control Room to stop the following:
_ BWST Recirc Pump _ All SF Cooling pumps ---_._----_._----_.
'-----------_._-----------_._--_
.. _. __ ._----------------_.-
Enclosure 5.7 HPJ Pump Operation From ASW Pump Switchgear THIS PAGE INTENTIONALLY BLANK , . . ;:-. EP/I/A/18001001 Page 6 of 11 Enclosure 5.7 . HPJ Pump Operation From ASW Pump Switchgear EPI 1 IAI 1 8001001 Page 7 of 11 ACTJONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 15. Close the following (A-2,.218, Unit 1&2 SF CoolerRm):
_ SF-53 (SF PUMP SUCTION HEADER BLOCK) _ SF-56 (SUCTION FROM UNIT 2 BWST) _ SF-54 (CANAL DRAIN HDR TO RECIRC. PUMP) _ SF-IS ('A' SF COOLER OUTLET) _ SF-I7 ('B' SF COOLER OUTLET) SF-23 (UNIT 1 & 2 SF COOLER OUTLET HEADER BLOCK) (E wall by B cooler) _ SF-49 (SF FILTER OUTLET HEADER BLOCK) _ SF-57 (BWST RECIRC PUMP SUCTION) _ SF-94 (C SF COOLER OUTLET) (over C SF Pump) 16. Open the following (A-2-2I8, Unit 1&2 SF Cooler Rm): _ SF-55 (SUCTION FROM UNIT 1 BWST) _ SF-21 (1&2 SFP COOLANT SUPPLY HEADER BLOCK)(Southwest)
_ SF-51 ('B' SF COOLER OUTLET TO PUMP SUCTION HEADER) 17. _Close SF-22 (POOL SURFACE OUTLET) (A-4-407, Unit 2 Pen Rm, at crossover on chain). 18. _Open SF-50 (SF POOL UNDERWATER SUPPLy) (A-4-407, Unit 2 Pen Rm, at crossover on chain).
Enclosure 5.7 HPJ Pump Operation From ASW PUlnp Switchgear THIS PAGE INTENTIONALL Y BLANK , o\':'. EP/I/A/18001001 Page 8 of 11 J )
Enclosure 5.7 EP/I/A/I8001001 Page 9 of 11 HPJ Pump Operation From ASW Pump Switchgear ACTIONIEXPECTED RESPONSE 19. Notify Control Room to dispatch operators to the following locations to establish communications and await further instructi on: _ A-I-I28, ASW Pump Rm _ A-4-402, E Pen Rm 20. _ Obtain bucket and rope from EOP equipment locker U2ABS (A-S, U2 elevator lobby). ._----_._--_._---------
- 21. Perform the following (A-6-6I9, Unit 1&2 SF Pool Rm, Send): A. _ Connect SF priming pump suction hose to quick disconnect fitting at SF-86 (SF PRIMING PUMP SEAL WATER INLET). B. _ Connect SF priming pump suction hose to SFP fill line connection tap on SF-8S (SF PRIMING PUMP UNDERWATER SUPPLY BLOCK). C. _ Open SF-8S. D. _Place flex hose on discharge of SF priming pump into SFP. E. _ Close SF-84 (SF POOL UNDERWATER SUPPLY VENT). F. _Fill SF Priming Pump Seal Tank to at least half full with DW or water from SFP using bucket. 22. WHEN communication is established with operators in the following locations:
_ A-1-128,ASWPumpRm
_ A-4-402, E Pen Rm THEN open SF-86 (SF PRIMING PUMP SEAL WATER INLET) (A-6-619, Unit 1&2 SF Pool Rm, Send). RESPONSE NOT OBTAINED ---------------------_._-_.-
._------------------_._---
Enclosure 5.7 HPJ Pump Operation From ASW Pump Switchgear THIS PAGE INTENTIONALL Y BLANK EPI 1 IAI 1 8001001 Page 10 of 11 I Enclosure 5.7 HPI Pump Operation From ASW Pump. EP/I/A/18001001 Page 11 of 11 Switchgear ACTIONIEXPECTED RESPONSE 23. _Notify operator in ASW Pump Rm to \ start Ul/2 SF PRIMING PUMP (remote starter on S wall). RESPONSE NOT OBTAINED I -----.---------------.---1--------.
---.---.-.----.------
.. --24. _IAAT seal tank level begins to rise, THEN close SF-86 (SF PRIMING PUMP SEAL WATER INLET) . .
... -.-.------.-
.... 25. _WHEN SFP fill line is primed (as indicated by a steady discharge stream from the SF priming pump), THEN notify Control Room of the following:
_ HPJ suction aligned to SFP fill line _HPJ pump cooling water status _An operator is available in the E Pen Rm to throttle 1 HP-26 26. _ WHEN HPJ Pump is started, THEN close SF-85 (SF PRIMING PUMP UNDERWATER SUPPL Y BLOCK). -------_._-_
.... -.. _ .. _ .. __ .. ---------_.
__ .. _-.. _---_.------_._._-_._._--------_._-
- 27. _Notify operator in ASW Pump Rm to stop the U1I2 SF PRIMING PUMP . . ------.. -------------.--------
1----------------_._--
- 28. _Close SF-86 (SF PRIMING PUMP SEAL WATER INLET). _.-----_._-----_.
__ .---_ .. _-------1------------
29. EXIT this enclosure.
.-*
THIS PAGE INTENTION ALL Y BLANK CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO-401 ALIGNING SSF-ASW FOR SG FEED CRO-401 fnl Page 1 of 12 Aligning SSF-ASW for SG Feed Alternate Path: Yes Facility JPM #: CRO-401 KIA Rating(s):
System: APE054 KIA: AA1.01 Rating: 4.5/4.4 Task Standard:
REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE CRO-401 fnl Page 2 of 12 Align SSF-ASW for SG Feed correctly per EOP Enclosure 5.34 (Aligning SSF-ASW for SG Feed). Preferred Evaluation Location:
Preferred Evaluation Method: Simulator In-Plant _X_ Perform Simulate X
References:
EP/2/A/18001001 (Emergency Operating Procedure)
Enclosure 5.34 (Aligning SSF-ASW for SG Feed) Validation Time: 15 minutes Time Critical:
NO ====================================================================================
Candidate:
Time Start: NAME Time Finish: ___ _ Performance Rating: SAT ___ UNSAT __ _ Performance Time: ----Examiner:
____________
_ NAME SIGNATURE DATE ====================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
None CRO-401 fnl Page 3 of 12 Tools/Equipment/Procedures Needed: EP/2/A/18001001 (Emergency Operating Procedure) Enclosure 5.34 (Aligning ASW for SG Feed) READ TO OPERATOR DIRECTION TO TRAINEE: CRO-401 fnl Page 4 of 12 I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Unit 2 is in HPI Forced Cooling Only one HPI pump is operating The SSF has NOT been activated No other operators are activating the SSF at this time. INITIATING CUES: The Control Room operator directs you to perform EP/2/A/18001001 (Emergency Operating Procedure)
Enclosure 5.34 (Aligning SSF-ASW for SG Feed)
STARTTIME:
__ _ STEP 1: Step 1 Close 2CCW-268 (SSF ASWP TO SG SUPPLY) (SSF Control Rm). STANDARD:
Locate 2CCW-268 switch in the SSF Control Room. Verify closed by green light illuminated and red light off. Note: Normally closed. Cue: Indicate that the closed light is illuminated.
COMMENTS:
STEP 2: Step 2 Open 2CCW-287 (SSF ASWP TO SG SUPPLY BLOCK) (SSF Control Rm). STANDARD:
Locate 2CCW-287 switch in the SSF Control Room. Depress the open button and verify the open light illuminates.
Cue: Indicate that the open light is now illuminated.
COMMENTS:
STEP 3: Step 3 Perform the following at MCC 2XSF 600 VAC in the SSF HVAC room:
- Open 2XSF-F5A (2XSF NORM FOR BKR FROM 2X8) and remove Kirk Key.
- Using Kirk Key, close 2XSF-F3A (2XSF EMERG FOR BKR FROM OXSF). STANDARD:
Locate MCC 2XSF 600 VAC in the SSF HVAC room and open 2XSF-F5A (2XSF NORM FOR BKR FROM 2X8) and remove Kirk Key. Insert Kirk Key and close 2XSF-F3A.
COMMENTS:
--SAT CRO-401 fnl Page 5 of 12 UNSAT CRITICAL STEP SAT -UNSAT -CRITICAL STEP SAT -UNSAT -
STEP 4: Step 4 Proceed to the SSF Control Room STANDARD:
Candidate goes to the SSF Control Room COMMENTS:
STEP 5: Step 5 Verify SSF-ASW Pump is operating.
Step 1 RNO GO TO Step 7 STANDARD:
Determine that the SSF-ASW Pump is not operating and utilize the RNO step and GO TO Step 7. Cue: If asked indicate that the SSF-ASW Pump is NOT operating by zero amps and flow. COMMENTS:
STEP 6: Step 7 Verify SSF diesel being started by Unit 1 or Unit 3 personnel.
GO TO Step 9. Cue: If asked indicate that the operator is first to arrive at the SSF. STANDARD:
Determine that the SSF diesel NOT being started by Unit 1 or Unit 3 personnel and GO TO Step 9. COMMENTS:
SAT CRO-401 fnl Page 6 of 12 UNSAT SAT UNSAT SAT UNSAT STEP 7: Step 9 Depress DIESEL EMERGENCY START pushbutton.
STANDARD:
The SSF Control Room DIESEL EMERGENCY START pushbutton is depressed.
Cue: Allow f':j 12 sec for the DIG to reach rated speed. COMMENTS:
STEP 8: Step 10 Verify SSF diesel operating.
STANDARD:
Determine that the SSF diesel is operating by observing frequency and volts. Cue: Indicate that voltage and frequency indications are on scale. COMMENTS:
STEP 9: Step 11 Verify DIG frequency 59.8 -60.2 Hz. STANDARD:
The DIG HERTZ meter is monitored to determine frequency.
Cue: Indicate DIG frequency is 60 Hertz on the SSF Control Room DIG HERTZ meter. COMMENTS:
CRO-401 fnl Page 7 of 12 CRITICAL STEP SAT UNSAT SAT UNSAT SAT UNSAT STEP 10: Step 12 Verify DIG voltage 4150 -4250 V. STANDARD:
The DIG AC VOL TS meter is monitored to determine voltage. Cue: Indicate DIG voltage is 4160 volts on the SSF Control Room DIG AC VOLTS meter. COMMENTS:
STEP 11: Step 13 Open OTS1-1 (SSF NORMAL POWER SUPPLY BREAKER B2T). STANDARD:
Verify open by observing the green open light lit and the red closed light off. Cue: Inform student that the green light for OTS1-1 (SSF NORMAL POWER SUPPL Y BREAKER B2T) is on and the red light is off. NOTE: On a loss of power to Unit 2, OTS1-1 would have already tripped open. COMMENTS:
STEP 12: Step 14 WHEN 3 seconds have elapsed, THEN close OTS1-4 (DIESEL GEN BREAKER).
STANDARD:
After 3 seconds, the red CLOSE pushbutton on the SSF Control Room OTS1-4 (DIESEL GEN BREAKER) switch is depressed.
Verify that the red CLOSE light is illuminated.
Cue: After student closes in diesel generator breaker, inform candidate that red light is on and green light is off. COMMENTS:
SAT CRO-401 fnl Page 8 of 12 UNSAT SAT UNSAT CRITICAL STEP SAT -UNSAT -
STEP 13: Step 15 Close OTS1-3 (SSF 600V OXSF FDR BKR CONTROL).
STANDARD:
Red CLOSE breaker position indicating light is observed to be on at the SSF OTS1-3 (SSF 600V OXSF FDR BKR CONTROL) switch. Note: Normally closed. Cue: Inform student the red light is on and the green light is off. COMMENTS:
STEP 14: Step 16 Close OXSF-4B (SSF LC OXSF 600V INC BKR). STANDARD:
Red CLOSE breaker position indicating light is observed to be on at the (SSF OXSF-4B SSF LC OXSF 600V INC BKR) switch. Note: Normally closed. Cue: Inform candidate the red light is on and the green light is off. COMMENTS:
ALTERNATE PATH STEP 15: Step 17 Start the Diesel Engine Service Water Pump. STANDARD:
Locate Diesel Engine Service Water Pump switch and start the pump. Determine that pump did not start by. Step 17 RNO. Cue: Indicate to the candidate that the Diesel Engine Service Water Pump did NOT start (green light on and red light off). COMMENTS:
SAT CRO-401 fnl Page 9 of 12 UNSAT SAT UNSAT SAT UNSAT STEP 16: Step 17 RNO Depress RESET DIESEL GEN EMERG START pushbutton.
Locally depress EMERGENCY STOP pushbutton. (SSF Diesel Engine Room) GO TO Step 19. STANDARD:
Locate and Depress RESET DIESEL GEN EMERG START pushbutton.
Go to the SSF Diesel Engine Room, lift cover, and depress EMERGENCY STOP pushbutton.
COMMENTS:
STEP 17: Step 19 Notify affected Unit Control Rooms that the SSF Diesel start was unsuccessful and attempts are being made to power the SSF from Unit
- 2. STANDARD:
Using a phone or radio, notify Unit 2 Control Rooms that the SSF Diesel start was unsuccessful and attempts are being made to power the SSF from Unit
- 2. COMMENTS:
END TASK STOP TIME: ____ _ CRO-401 fnl Page 10 of 12 CRITICAL STEP SAT -UNSAT -SAT -UNSAT -
CRITICAL STEP EXPLANATIONS:
STEP # Explanation 2 Step must be performed to provide flow 3 Step must be performed to swap control to the SSF. 7 Step must be performed to start the diesel and get power for the SSF. 12 Step must be performed to power the SSF from the Diesel/Generator.
16 Step required to stop SSF Diesel due to no cooling water. CRO-401 fnl Page 11 of 12 CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
Unit 2 is in HPI Forced Cooling Only one HPI pump is operating The SSF has NOT been activated No other operators are activating the SSF at this time. INITIATING CUES: The Control Room operator directs you to perform EP/2/A/18001001 (Emergency Operating Procedure)
Enclosure 5.34 (Aligning SSF-ASW for SG Feed)
Enclosure 5.34 Aligning SSF-ASW for SG Feed EP/21 All 800100 1 Page 1 of21 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED 1. _ Close 2CCW-268 (SSF ASWP TO SG SUPPL Y) (SSF Control Rm). 2. _ Open 2CCW-287 (SSF ASWP TO SO SUPPLY BLOCK) (SSF Control Rm). 3. Perfonn the following at MCC 2XSF 600 V AC in the SSF HV AC room: A. _ Open 2XSF-F5A (2XSF NORM FDR BKR FROM 2X8) and remove Kirk Key. B. _ Using Kirk Key, close 2XSF-F3A (2XSF EMERG FDR BKR FROM OXSF). 4. Proceed to SSF Control Room. 5. Verify SSF-ASW Pump is operating.
- 6. GO TO Step 40. _ GO TO Step 7. NOTE One or more units may be performing this enclosure for the respective unit. The first unit to begin this enclosure will take the lead in starting the SSF diesel. 7. _ Verify SSF diesel being started by Unit 1 or Unit 3 personnel.
- 8. _ WHEN SSF-ASW Pump is operating, THEN GO TO Step 40. 9. _ Depress DIESEL EMERGENCY START pushbutton.
_ GO TO Step 9. 10. _ Verify SSF diesel is operating.
_ GO TO Step 19 . ... _ .. ____ ..... _ ... _._*M. __ .... H ........ _ .. _ ..... ____ *. _. ___ ....... _____ . ______ .. _ ...........
_ .... _ ..........
___ ..... __ .. ___ **"* ___ *"*** ..... H ..... _ ...........
_ ..............
__ . __ .. _ ...... _ ... _ .... _ ..... __ ...... __ . _____ .... _ .........
__ ....... _ .............
_._._ .* _ .............
__ ..... _-_ ....... _._ ............
__ ... . 11. _ Verify DIG frequency 59.8 -60.2 Hz. _ Adjust GOVERNOR CONTROL to obtain DIG frequency 59.8 -60.2 Hz. _ .. _. __ ....... _._--_ ..*. -.... _ ..... _ .... _-_ ...... _. __ ._---.-... -... ----.-*.... --.-.....*. --.-.. ..... .. -.. -.-........ __ ... _ .*.......
_.-....... _._---_. ..... -.-.-.----
.. -...
...... -.---------
.........
-.--..... --.-.-.-... .. -.. -.. -.-.---.-.. --.----_._
.... _._ ... -12. Verify DIG voltage 4150 -4250 V. _ Adjust VOLTAGE REGULATOR to obtain DIG voltage 4150 -4250 V. 13. _ Open OTS1-1 (SSF NORMAL POWER _ GO TO Step 19. SUPPL Y BREAKER B2T). 14. _ WHEN 3 seconds have elapsed, THEN close OTS 1-4 (DIESEL GEN BREAKER) . _ GO TO Step 19. .. _---_ .... _--_ .. _ .. _--_ .. _-_.-... _ .. _-_ .. -_ ... _---_.----_._._-
--_ .. _._._._ ... _---_ ........ _----_ .. _-_ .. _--_.-.-_.
Enclosure 5.34 Aligning SSF-ASW for SG Feed THIS PAGE INTENTIONALLY BLANK EP/2/A/18001001 Page 2 of21 Enclosure 5.34 Aligning SSF -ASW for SG Feed EP /2/ All 800/00 1 Page 3 of21 ACTION/EXPECTED RESPONSE 15. _ Close OTS 1-3 (SSF 600V OXSF FDR BKR CONTROL).
- 16. _ Close OXSF-4B (SSF LC OXSF 600V INC BKR). 17. _ Start the Diesel Engine Service Water Pump. 18. _ GO TO Step 37 . RESPONSE NOT OBTAINED 1. _ Depress RESET DIESEL GEN EMERG START pushbutton.
- 2. _ Locally depress EMERGENCY STOP pushbutton. (SSF Diesel Engine Room) 3._ GO TO Step 19. *** _ ** _ .** _. ___ ..... __ . ___ ._ *.*.. _ .****......***
__ .........
- ** ** ** H.* .. _* *** __
- ___
- __ * .. *_* _____ *** .......................
__ ***. __ *.**. __ **** ..* * ***** ' *.**.****
_ *..*.* _........ . ...................*..**..*......*..*.
_ ***..*.. _ ... _ .......... . 19. _ Notify affected Unit Control Rooms that the SSF Diesel start was unsuccessful and attempts are being made to power the SSF from Unit 2. 20. _ Verify CT-2 is aligned to another unit. 21. Perform the following:
A. _ NotifY CR SRO on all units. B. EXIT this enclosure.
- 22. _ Verify Unit 2 is in MODE 3, 4,5,6 or NO MODE. 23. _ Verify Unit 2 MFB 2 (B2T) is energized from CT-2. 24. _ GO TO Step 26. _ GO TO Step 22. _ NotifY CR to manually trip Unit 2. _ GO TO Step 25. 25. _ Verify Unit 2 MFB 2 (B2T) is energized 1._ NotifY CR SRO on all units. from CT-4 or CT-5. 2. EXIT this enclosure.
- 26. Verify ES Channels 1 and 2 have actuated on any unit: ./ Unit 1 2 3 _ GO TO Step 28.
Enclosure 5.34 Aligning SSF-ASW for SG Feed THIS PAGE INTENTJONALL Y BLANK EP/2/AI18001001 Page 4 of21 Enc10sure 5.34 Aligning SSF-ASW for SG Feed EP/2/ All 800/00 I Page S of21 ACTION/EXPECTED RESPONSE 27. NotifY affected Units CRO to place ES Load Shed modules in MANUAL: ./ ./ ./ VI V2 U3 ES Module LOAD SHED & STANDBY BKR 1 LOAD SHED & STANDBYBKR2
- 28. _ VerifY Load Shed has occurred on Unit 2. 29. Notify Unit 2 CRO to reset Unit 2 MFB Monitor Panel Load Shed circuitry by simultaneously pressing RESET on the following switches:
MFB UNDERVOLTAGE CHANNEL 1 RESET MFB UNDERVOLTAGE CHANNEL 2 RESET 30. _ Verify Unit 2 MFB energized from CT-2. RESPONSE NOT OBTAINED _ GO TO Step 30. 1. _ IF Unit 2 MFB 2 (B2T) energized from CT-4, THEN notifY Unit 2 ofthe following:
_ Ensure CT -4 load is 16 MV A by reducing loads as necessary.
_ Encl S.IA (CT-4 Overload Limits) of AP/21I1 (Recovery From Loss of Power) provides guidance for load limits on CT-4. 2. IF Unit 2 MFB 2 (B2T) energized from CT-5, THEN notifY Unit 2 of the following:
_Ensure CT-Sload is 16 MVA by reducing loads as necessary.
_EnclS.1B (CT-S Overload Limits) of AP/2111 (Recovery From Loss of Power) provides guidance for load limits on CT-S. 3._ GO TO Step 32.
Enclosure 5.34 Aligning SSF-ASW for SG Feed THIS PAGE TNTENTIONALL Y BLANK EP/2/A/18001001 Page 60f21 Enclosure 5.34 Aligning SSF-ASW for SG Feed EPl2/ All 800/001 Page 70f21 ACTION/EXPECTED RESPONSE 31. Ensure Unit 2 loads as indicated on CT2 Amps 4k V are within the following initial limits: ./ Unit 2 MFBs Initial Limit Supplied By CT-2 (amps) Both MFBs :s; 3000 MFB 2 (B2T) only :s; 2350 32. _ Open OTSl-4 (DIESEL GEN BREAKER).
- 33. _ Notify Unit 2 to close 4KV FDR BKR B2T-4 SSF 4KV SWGR OTSI-l. 34. Close OTS1-1 (SSF NORMAL POWER SUPPLY BREAKER B2T). 35. _ Close OTS 1-3 (SSF 600V OXSF FDR BKR CONTROL).
- 36. Notify Unit 2 to maintain load on transformer supplying power within the following limits: ./ Power Supply Unit 2 Busses Supplied CT-2 Both MFBs CT-2 MFB 2 (B2T) only CT-4 N/A CT-5 N/A 37. _ Close 2CCW-268 (SSF ASWP TO SG SUPPLY). 38. _ Open 2CCW-287 (SSF ASWP TO SG SUPPLY BLOCK). RESPONSE NOT OBTAINED Limit :s; 3650 amps on CT2 Amps 4kV :s; 3000 amps on CT2 Amps 4kV Per Encl5.1A (CT-4 Overload Limits) of AP/21I 1 (Recovery From Loss of Power) PerEncl5.1B (CT-5 Overload Limits) of AP/21I 1 (Recovery From Loss of Power)
Enclosure 5.34 Aligning SSF -ASW for SG Feed TI-IIS PAGE INTENTIONALLY BLANK EP 121 All 800/00 1 Page 8 of21 Enclosure 5.34 EP/2/A/] 800/001 Page 90f21 Aligning SSF-ASW for SG Feed ACTION/EXPECTED RESPONSE RESPONSE NOT OBTAINED 39. _ Start SSF-ASW Pump. ........ _._ ..........
__ *** __ *** ____ ._ ..... _ .... _ .........
_, ._ ***** _._ ******** _ *** _ ..............
_ **** _...... * .................
_ ..............
_ ..... n ......................................... " ...... _ **********
_ ............... . 40. _ Notify Unit 2 CRO that SSF-ASW Pump is operating and ready to feed. 41. _ IAA T the CRO directs feeding, (including verifying ability to feed via 2CCW-268), THEN perform Steps 42 -45. 42. _ Verify feeding 2A SO is desired. 43. _ Open 2CCW-269 (A STEAM OEN FDW CONTROL).
- 44. _ Verify feeding 2B SO is desired. _ GO TO Step 46. _ GO TO Step 44. _ Close 2FDW-347 (B STEAM OEN FDW CONTROL).
Enclosure 5.34 Aligning SSF-ASW for SG Feed IF AT ANY TIME: (41) the eRO directs feeding ... (align valves and feed) EP/21 AI1800100 1 Page 10 of21 Enclosure 5.34 Aligning SSF-ASW for SG Feed EP/2/AI18001001 Page II of21 ACTIONIEXPECTED RESPONSE RESPONSE NOT OBTAINED NOTE
- The Control Room will specify flow rate. Once initiated, a continuous flow should be maintained to avoid unnecessary thermal cycling of EFDW nozzles.
- 2CCW-268 (SSF ASWP TO SG SUPPLY) CANNOT be throttled closed <13%. When throttling closed, a limit switch closes the valve v,-hen it reaches 13% open. 2CCW-268 will initially open to 15% before throttling can occur through 100%. 45. Tlu'ottle the following as required to obtain the specified flow NOT to exceed total flow limit for all three units per Table 1 below: 2CCW-268 -(SSF ASWP TO SG SUPPLY) 2CCW-410 -(SSF ASW PUMP TO S/G SUPPL Y BYPASS) (SSF basement catwalk) Table 1 Total SSF-ASW Flow Limits
- Time since Rx shutdown s 1 hr: s 1275 total SSF-ASW flow to all three units
- Time since Rx shutdown>
1 hr: s 1000 total SSF-ASW flow to all three units 46. _ IAA T both SGs are being fed, AND balancing flow between SGs is desired, THEN adjust the following as required:
2CCW-269 (A STEAM GEN FDW CONTROL) _ 2FDW-347 (B STEAM GEN FDW CONTROL)
Enclosure 5.34 Aligning SSF-ASW for SG Feed IF AT ANY TIME: (4]) the eRO directs feeding ... (align valves and feed) EP 121 AI 18001001 Page 12 of21 (46) both SGs are being fed AND balancing flow between SGs is desired ... (balance flows)
Enclosure 5.34 Aligning SSF-ASW for SG Feed EPl2/ All 800/00 1 Page 13 of21 ACTION/EXPECTED RESPONSE RESPONSE NOT OBTAINED 47. _ IAAT SSF-ASW feed is no longer required, THEN close the following:
2CCW-268 (SSF ASWP TO SG SUPPLY) 2CCW-410 (SSF ASW PUMP TO S/G SUPPLY BYPASS) 2CCW-287 (SSF ASWP TO SG SUPPLY BLOCK) 2CCW-269 (A STEAM GEN FDW CONTROL) NOTE Remaining plant actions need only be performed by one unit. Each unit has this enclosure in their EOP and remaining actions are identical in all enclosures.
Determination of which unit should take the lead in performing these actions should be based on the number of units perfonning this enclosure and manpower availability.
- 48. _ Determine which unit will perform the remaining actions of this enclosure.
- 49. _ Verify Unit I or 3 will perform remaining actions. 50. _ WHEN Station Management approves, THEN EXIT this enclosure.
_ GO TO Step 51. ---END---
Enclosure 5.34 Aligning SSF-ASW for SG Feed IF AT ANY TIME: (41) the eRO directs feeding ... (align valves and feed) EP/2/A/18001001 Page 14 of21 (46) both SGs are being fed AND balancing flow between SGs is desired ... (balance flows) (47) SSF-ASW feed is no longer required ... (close valves)
Enclosure 5.34 Aligning SSF-ASW for SG Feed EPl21 All 800100 1 Page 15 of21 ACTION/EXPECTED RESPONSE RESPONSE NOT OBTAINED 1 Unit Status i l Unit 2 has taken the lead to perform the remaining steps in this enclosure. . l .. _. __ .. _ .. _ .. _____ ._ .. _ .. _ .. _ .. __ ._ .. _ .. _ .. _ .. _ .. _ .. _ .. _ .. _ .. __ . __ ._ .. _,._ .. _. __ . _____ .. _. ________ .. _ .. _ .. __ ,_ .. _ .. _ .. _ .. ____ .. _. __ .. ____ .. _ .. __ ._ .. _ .. _ .. ____ .. _ .. ________ ._ .. _ .. ____ .. _. __ .) NOTE Diversion of SSF Diesel Service Water discharge to the yard drain must be completed between 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 45 minutes and 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> of Emergency Start of SSF Diesel Generator.
- 51. IAA T 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 45 minutes have elapsed since Emergency Start of SSF Diesel Generator, THEN perform the following:
A. _ Open CCW-384 (JACKET COOLING WATER TO YARD DRAIN ISOLATION) (SSF DIG Rm. SW of B Diesel). B. Close CCW-286 (SSF DIESEL COOLING JACKET RETURN) (DIG Pump Rm). C. Throttle CCW-285 (SSF DIESEL SERVICE WATER PUMP DISCHARGE) to maintain 500 gpm through DIG (DIG Pump Rm). 52. IAA T SSF Control Room temperature exceeds 85°F, THEN perform one of the following:
_ Notify TSC to install portable spot OR coolers Remove power from SSF Secmity Computer as follows: A. _ Notify Security that power will be removed from the SSF Security Computer.
B. _ Notify Local InfOlmation Technology (LIT) to remove power from the SSF Security Computer to reduce heat load.
IF AT ANY TIME: Enclosure 5.34 Aligning SSF-ASW for SG Feed (41) the eRO directs feeding ... (align valves and feed) EP /2/ A/ 1800/00 I Page 16 of21 (46) both SGs are being fed AND balancing flow between SGs is desired ... (balance flo\-\'s)
(47) SSF-ASW feed is no longer required ... (close valves) (5]) 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 45 minutes have elapsed since Emergency Stmi of SSF Diesel Generator)
... (divert SSF diesel cooling water to yard drain) (52) SSF Control Room temperature exceeds 85°F ... (notify SPOC or remove power)
Enclosure 5.34 EP/2/AI18001001 Page 17 of21 Aligning SSF-ASW for SG Feed ACT] ONIEXPECTED RESPONSE 53. _ Notify I&E and Maintenance to PREPARE the dedicated submersible pump for installation in Unit 2 CCW piping per AMIOI AI13001059 Submersible-Emergency SSF Water Supply-Installation).
- 54. _ Verify SSF diesel operating.
- 55. _ Maintain DIG operation within the fi 11 . r 't o owmg 11111 s: Parameter Limits DIG Power 3500 KW DIG Current 610 amps continuous 650 amps for < 2 hrs DIG Voltage 4350 volts continuous 4500 volts for < 2 hrs DIG Frequency 59.8 -60.2 Hz 56. _ Verify DIG SER WTR PMP FLOW ::::: 500 gpm. RESPONSE NOT OBTAINED _ GO TO Step 57. _ Dispatch an operator to throttle CCW -285 (SSF DIESEL SERVICE WATER PUMP DISCHARGE) to maintain 500 gpm through the Diesel Engine (SSF Pump Room). 57. _ Verify any station CCW pump is in _ Establish local continuous monitoring of operation.
flow from CCW-8. 58. IAA T either of the following are observed:
_ All station CCW pumps are off with NO flow at CCW-8. _ Unit 2 CCW Condenser Inlet piping is isolated from Lake Keowee and from the other units. THEN GO TO Step 60. 59. _ WHEN Station Management approves, THEN EXIT this enclosure. * ** END ***
Enclosure 5.34 Aligning SSF -ASW for SG Feed IF AT ANY TIME: (41) the CRO directs feeding ... (align valves and feed) EP/2/ A/I 800/00 I Page 18 of21 (46) both SGs are being fed AND balancing flow between SGs is desired ... (balance flows) (47) SSF-ASW feed is no longer required ... (close valves) (51) 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 45 minutes have elapsed since Emergency Start of SSF Diesel Generator)
... (divert SSF diesel cooling water to yard drain) (52) SSF Control Room temperature exceeds 85°F ... (notify SPOC or remove power)
Enclosure 5.34 Aligning SSF -ASW for SG Feed EP/2/AIl800/001 Page 19 of21 ACTION/EXPECTED RESPONSE RESPONSE NOT OBTAINED .. -.. -.. -.. -.. -.. -.. -.. -.. -.. -.. --.-.. -.. -.. --.-.. -.. -.. -.. _ .. _ .. _ .. _ .. _ .. _---'._."_
.. _ .. _ .. -.... -.. _ .. _ .. _--_ .. _-.-.--.-_
.. _ .. _-.-.. _ .. _ .. _---.. __ .-.. -.. -.. -.. ----.. -.. ----.. -.. -.. ---_ .. -.'! Unit Status ! i
___ : *.
-._._ ..*.. _ .. _. -i NOTE The Dedicated Submersible Pump must be installed and started within 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> and 20 minutes of loss of both forced and gravity/siphon flow on the Unit 2 CCW System. 61. _ Notify I&E and Maintenance to install dedicated submersible pump in Unit 2 CCW piping per AM/O/ All 300/059 (Pump-Submersible-Emergency SSF Water Supply-Installation).
- 62. IAA T I&E and Maintenance have completed installation of dedicated submersible pump, THEN perform Steps 63 -65 . .........
__ ...... _._ .*..........................
-........ -.... _ ...........
_ ...... _._-_ ... _-" .-.--.... ---.--_. __ .... _ .. __ ..............
-.... . 63. Rack in and close OXSF-4D (SUBMERSIBLE PUMP BKR) (SSF Electrical Equipment Rm). 64. _ Close CCW-RS-OOIO (SUBMERSIBLE PUMP REMOTE STARTER BKR) (Outside SSF CR). 65. Start dedicated submersible pump using switch on remote starter breaker (Outside SSF CR). _ GO TO Step 66.
Enclosure 5.34 Aligning SSF-ASW for SG Feed IF AT ANY TIME: ( 41) the CRO directs feeding ... (align valves and feed) EP/2/A/18001001 Page 20 of21 (46) both SGs are being fed AND balancing flow between SGs is desired ... (balance flovv's) (47) SSF-ASW feed is no longer required ... (close valves) (51) 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 45 minutes have elapsed since Emergency Start ofSSF Diesel Generator)
... (divert SSF diesel cooling water to yard drain) (52) SSF Control Room temperature exceeds 85°F ... (notify SPOC or remove power) (62) I&E and Maintenance have completed installation of dedicated submersible pump ... (start pump)
Enclosure 5.34 EP/2/AI1800/001 Page 21 of2] Aligning SSF-ASW for SG Feed ACTION/EXPECTED RESPONSE 66. _ IAAT dedicated submersible pump is installed, AND CANNOT be operated, THEN notify Control Room to perform Steps 67 and 68. 67. _ Verify Unit 2 CCW piping intact. 68. _ Dispatch an operator to perform Encl 5.5 (Supply of Water To SSF) of AP/O/25 (Standby Shutdown Facility Emergency Operating Procedure).
- 69. _ WHEN Station Management approves, THEN EXIT this enclosure.
RESPONSE NOT OBTAINED _ GO TO Step 69. 1. _ Notify TSC to determine method of supplying suction to SSF-ASW. 2._ GO TO Step 69. * ** END ***
THIS PAGE INTENTIONALLY BLANK CANDIDATE EXAMINER REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE NLO-700 Restoration of les AUTO Power NLO-700 fnl Page 1 of 9 Restoration of ICS AUTO Power Alternate Path: Yes Facility JPM #: NLO-700 KIA Rating(s):
System: APE BW/A02 KIA: AK3.2 Rating: 3.7/4.0 Task Standard:
REGION II INITIAL LICENSE EXAMINATION JOB PERFORMANCE MEASURE ICS AUTO power is restored per AP/23, Loss of ICS Power. Preferred Evaluation Location:
Simulator In-Plant _-,-,X,,-_
References:
NLO-700 fnl Page 2 of 9 Preferred Evaluation Method: Perform __ Simulate _X_ AP/23 (Loss of ICS Power) Enclosure 5.2 (Restoration of ICS AUTO Power) Validation Time: 16 minutes Time Critical:
NO ===================================================================================
Candidate:
Time Start: ----NAME Time Finish: ___ _ Performance Rating: SAT ___ UNSAT __ _ Performance Time: ----Examiner:
________________
_ NAME SIGNATURE DATE ===================================================================================
COMMENTS SIMULATOR OPERATOR INSTRUCTIONS:
NONE NLO-700 fnl Page 3 of9 T ools/Eg u i pment/Proced u res Needed: AP/23 (Loss of ICS Power) Enclosure 5.2 (Restoration of ICS AUTO Power) READ TO OPERATOR DIRECTION TO TRAINEE: NLO-700 fnl Page 4 of 9 I will explain the initial conditions, and state the task to be performed.
All control room steps shall be performed for this JPM, including any required communications.
I will provide initiating cues and reports on other actions when directed by you. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the handout sheet I provided you. INITIAL CONDITIONS:
Unit 1 operating at 100% power 1 SA-2/8-11 (ICS AUTO POWER FAILURE) is actuated INITIATING CUES: The Control Room SRO directs you to use AP/23 (Loss of ICS Power) Enclosure 5.2 (Restoration of ICS AUTO Power) to restore ICS AUTO power on Unit 1.
START TIME: __ _ STEP 1: Step 1 Verify the following breakers closed (Unit 1 Cable Rm):
- 1 KRA breaker #1 (100A 1 P, POWER PANELBOARD 1 KI)
- 1 KI BREAKER #1 (30A 1 P, AUTO POWER (ICS)) STANDARD:
Locate 1 KRA panel board and breaker #1 and verify it is closed. Cue: Inform candidate that 1KRA breaker #1 is CLOSED. Locate 1 KI panel board and breaker #1 and verify it is closed. Cue: Inform candidate that 1 KI breaker #1 is tripped OPEN. Continue Step 1 RNO. COMMENTS:
STEP 2: Step 1 RNO Reset and close the affected breakers (Unit 1 Cable Rm): A. 1 KI BREAKER #1 (30A 1 P, AUTO POWER (ICS)) STANDARD:
Reset and close 1 KI BREAKER #1 by taking the breaker to the open position and then closing it. Cue: Inform candidate that 1 KI BREAKER #1 tripped open when re-closed.
Continue to Step 2. COMMENTS:
NLO-700 fnl Page 5 of 9 SAT UNSAT SAT UNSAT ALTERNATE PATH STEP 3: Step 2 Notify Unit 1 CR to verify ICS AUTO power has been restored as indicated by 1 SA-2/8-11 (ICS AUTO POWER FAILURE) off. STANDARD:
Notify Unit 1 CR via phone or radio to verify ICS AUTO power has been restored as indicated by 1 SA-2/8-11 (ICS AUTO POWER FAILURE) off. Cue: Inform candidate that 1SA-2IB-11 (ICS AUTO POWER FAILURE) is actuated.
Continue to Step 2 RNO. COMMENTS:
STEP 4: Step 2 RNO IF ICS AUTO power has NOT been restored, THEN bypass 1 KI inverter as follows (Unit 1 Equip Rm): STANDARD:
Determine ICS AUTO power has NOT been restored by actuation of 1SA-2/8-11 (ICS AUTO POWER FAILURE) in previous step COMMENTS:
STEP 5: Step 2 RNO A A. Open SW#1 (left switch). STANDARD:
Opens SW#1 (left switch). Cue: Inform candidate that SW#1 is open. COMMENTS:
NLO-700 fnl Page 6 of 9 SAT UNSAT SAT UNSAT CRITICAL TASK SAT -UNSAT -
STEP 6: Step 2 RNO B B. Open SW#3 (right switch). STANDARD:
Opens SW#3 (right switch). Cue: Inform candidate that SW#3 is open. COMMENTS:
STEP 7: Step 2 RNO C C. Close SW#2 (center switch). STANDARD:
Closes SW#2 (center switch). Cue: Inform candidate that SW#2 is closed. Continue to Step 3. COMMENTS:
STEP 8: Step 3 Notify Unit 1 CR that ali applicable steps of this enclosure have been completed.
STANDARD:
Using a phone or radio, Notify Unit 1 CR that ali applicable steps of this enclosure have been completed.
Cue: Inform candidate that the Control Room has been notified.
COMMENTS:
END TASK STOP TIME: ____ _ NLO-700 fnl Page 7 of9 CRITICAL TASK SAT -UNSAT -CRITICAL TASK SAT -UNSAT -SAT -UNSAT -
CRITICAL STEP EXPLANATIONS:
STEP # Explanation 5 Step is required in proper sequence to align power to the 1 KI bus. 6 Step is required in proper sequence to align power to the 1 KI bus. 7 Step is required in proper sequence to align power to the 1 KI bus. NLO-700 fnl Page 8 of 9 CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK) INITIAL CONDITIONS:
Unit 1 operating at 100% power 1 SA-2/8-11 (ICS AUTO POWER FAILURE) is actuated INITIATING CUES: The Control Room SRO directs you to use AP/23 (Loss of ICS Power) Enclosure 5.2 (Restoration of ICS AUTO Power) to restore ICS AUTO power on Unit 1. NLO-700 fnl Page 9 of 9 Enclosure 5.2 Restoration ofICS AUTO Power AP/11 All 7001023 Page 1 of 1 ACTIONIEXPECTED RESPONSE 1. Verify the following breakers closed (Unit 1 Cable Rm): _ IKRA breaker #1 (lOOA IP, POWER PANELBOARD IKI) _ IKI breaker #1 (30A IP, AUTO POWER (ICS)) 2. _ Notify Unit 1 CR to verify ICS AUTO power has been restored as indicated by 1 SA-2/B-II (ICS AUTO POWER FAILURE) off. 3. _ Notify Unit 1 CR that all applicable steps of this enclosure have been completed.
RESPONSE NOT OBTAINED Reset and close the affected breakers (Unit 1 Cable Rm): _ IKRA breaker #1 (lOOA IP, POWER PANELBOARD IKI) _ IKI breaker #1 (30A IP, AUTO POWER (ICS)) _ IF rcs AUTO power has NOT been restored, THEN bypass 1 KI inverter as follows (Unit 1 Equip Rm): A. _ Open SW#I (left switch). B. _ Open SW#3 (right switch). C. Close SW#2 (center switch).