{{#Wiki_filter:1 Appendix D Scenario Outline Form ES-D-1 Facility: __Wolf Creek

________________  Scenario No.: ___1____   Op-Test No.: _____  

 

 

 

 

OFN AF-025, Unit Limitations, Attachment A OFN MA-038, Rapid Plant Shutdown 3 t+25 mSG01 mSF15A mSF15B  M - All Seismic event followed by a Reactor trip occurs. EMG E-0, Reactor Trip or Safety Injection This event series sets up the scenario for the Major event EMG FR-H1, Response to Loss of Secondary Heat Sink.

 

 

 

 

 

 

3  Appendix D Scenario Outline Form ES-D-1 Scenario summary:  

 

Plant is at 100% power, End of life (EOL). Emergency Diesel Generator (EDG) "B" is tagged out/out of service for Maintenance - Preventative Maintenance (P M). Expected return is six hours. Technical Specifications (TS) 3.8.1 condition A & B entered. STS NB-005, Breaker Alignment Verification, comple te (due in seven hours).  

 

Motor Drive Auxiliary Feedwater Pump (MDAFWP) "B" is tagged out/out of service due to Emergent work (SM Concern). Expected retu rn is six hours. T echnical Specification 3.7.5 condition B entered.  

 

Pressurizer (PZR) controlling le vel channel BB LI-459A fails hi gh. Crew responds using OFN SB-008, Instrument Malfunctions, Attachment J. Attachment J: Select an alternate level channel as the controlling channel. Crew stabilizes the plant.

Condensate pump "A" trips. The crew responds by entering OFN AF-025, Unit Limitations. Attachment A will require a downpower evolution.

Downpower guidance per OFN AF-025: If one condensate pump is lost, reduce power as necessary to maintain Main Feed Pump (MFP) suction pressure greater than 340 psig on AEP0006 for "A" MFP and AEP0005 for "B" MFP. Crew responds by performing a downpower. Crew stabilizes the plant.

A seismic event occurs resulting in an inadvertent reactor trip. EMG E-0, Reactor Trip or Safety Injection is entered. (Major event)  

 

Post trip, both NB01 and NB02 busses trip. Due to the Maintenance PM's (see Turnover item), Emergency Diesel Generator "B" will not start and load onto NB02 bus. The Control Room must manually start Emergency Diesel Genera tor "A" and then it will load onto NB01 bus.  

 

As the scenario progresses, the Turbine Driven Auxiliary Feedwater Pump (TDAFWP) trips due to broken linkage and the Motor Driven Auxiliary Feedwater Pump "A" will trip due to shaft seizure and BOTH cannot be restarted. Motor Driven Auxiliary Feedwater Pump "B" cannot be started (see Turnover item). No Auxiliary Feedwater (AFW) to the Steam Generators is available. Note that the running CCP (CCP "A") trips off due to overcurrent.  

 

The crew enters EMG FR-H1, Response to Loss of Secondary Heat Sink (Major event). Mitigation strategy: the crew uses the Fo ldout page of EMG FR-H1, Bleed and Feed.

EMG FR-H1, Response to Loss of Secondary Heat Sink, Major Actions: Attempt restoration of RCS bleed and feed flow to the S/Gs Initiation of RCS bleed and feed heat removal Restore and verify s econdary heat sink 4  Termination of RCS bleed and feed heat removal Scenario has two Critical Tasks (CT):

F-V Rank RRW Rank Total Rank Event Name Description Point Est. F-V RAW RRW Birnbau m 1 8 34 OPA-OD1-EXE FAILURE OF RCS COOL DOWN &

DEPRESSURIZE -  

 

SGR EVENT - EXE 4.89E-03 2.61E-02 6.32 1.027 9.64E-052  39 OPA-OD2-EXE FAILURE OF RCS COOL DOWN &

DEPRESSURIZE AFTER OVERFIL-

 

EXE 5.00E-02 2.49E-02 1.47 1.026 8.97E-063 9 40 OPA-RRI1-EXE FAILURE TO ALIGN & START 1 SI OR CCP PUMP - EXE 4.68E-03 2.45E-02 6.2 1.025 9.43E-054  41 OPA-OFB-EXE FAILURE TO ESTABLISH FEED  

 

& BLEED COOLING - EXE 2.97E-02 2.40E-02 1.78 1.025 1.46E-05

 

Technical Specifications exercised:

Event 1: TS 3.3.1, Reactor Trip System Instrumentation, Table 3.3.1-1 FU 9 Cond A: Required function inoperable - enter condition per Table (immediately)

Cond M: One channel inoperable - place channel in trip (72 hours)  

 

TS 3.3.4, Remote Shutdown Instruments, Table 3.3.4-1 FU 12 Minimum channels met - no action required

 

5 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 1 Page 5 of 29 Event  

PZR level channel BB LI-459 failure high BOOTH INSTRUCTIONS: Set up simulator in IC 49, RBU at 229, CWP enabled, Blue placard on "B" CCP. Run files etc.  

 

INDICATIONS: Meter BB LI-459 indication high Main Control Board alarms:

00-032D, PZR HI LEV DEV HTRS ON  

 

6 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 1 Page 6 of 29 Event  

PZR level channel BB LI-459 failure high Time Position Applicant's Actions or Behavior CREW 2. Check if RCS instrument channel or controller is malfunctioning a. Determine appropriate attachment for malfunctioning channel or controller From Table determine: BB LI-459, Go to Att. J, PZR Level Channel Malfunction b. Go to appropriate attachment for malfunctioning RCS channel or controller CRS ENTER Attachment J, PZR Level Channel Malfunction RO J1. Identify failed instrument channel a. Compare Pressurizer level indi cations to confirm a Pressurizer level channel failure:

o BB LI-459A RO J2. Check failed Pressurizer le vel channel selected on PZR level control Selector switch.

o BB LS-459D RO J3. Select alternate Pressurizer level channel for level control.

o BB LS-459D switch Selection options: L461/L460 or L459/L460 or L459/L461  

 

7 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 1 Page 7 of 29 Event  

PZR level channel BB LI-459 failure high Time Position Applicant's Actions or Behavior NOTE Letdown flow is isolated and Pressurizer control heaters are deenergized if the controlling level falls below 17%. Both must be manually r ealigned once level control is re-established. RO J4. Check letdown flow - ESTABLISHED RO J5. Manually control charging a nd letdown to stabilize Pressurizer level at level appropria te for plant power. RO J6. Ensure PZR control heaters - ON RO J7. Place charging/letdown flow control in automatic RO J8. Monitor PZR level res ponse to ensure proper control CRS J9. Check failed PZR level channel - NOT USED FOR RECORDER 8 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 1 Page 8 of 29 Event  

PZR level channel BB LI-459 failure high Time Position Applicant's Actions or Behavior CRS J10. Monitor the following T echnical Specification LCO's and comply with Action Statements as appropriate:

TS 3.3.1, Reactor Trip System Instrumentation, Table 3.3.1-1 FU 9 Cond A: Required function inoperable - enter condition per Table (immediately)  

 

9 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 2 Page 9 of 29 Event  

Condensate pump "A" trip.

BOOTH INSTRUCTIONS: When directed, INITIATE Event 2 by activating KEY 2.

INDICATIONS: AD HIS-1, CNDS Pump A, light indication change from RED to GREEN and AMBER (pump stopped / tripped)

AD FIK-7B, CNDS Pump A Recirc CTRL, from AUTO to MAN (0 % output to 100% output)AD ZL-7B, CNDS Pump A Recirc Valve, light indication from GREEN to RED AD PI-25, CNDS Pumps Disch Press, indicates decr easing pressure  

 

Main Control Board alarms: ALR 00-107C, CNDS PMP SUCT STR P HI ALRs 00-120B / 123B, MFP A/B SUCT PRESS LO Time Position Applicant's Actions or Behavior CREW Responds to MCB alarms and board indications. Identify "A" Condensate pump is tripped. CREW ENTER OFN AF-025, rev 28, Unit Limitations CRS 1.Determine applicable step: a. Check Stator Cooling Water System - NORMAL

: d. Check all the following transformers - NORMAL o Start-up transformer o XNB01 transformer o XNB02 transformer o Unit Auxiliary transformer e. Check Condenser Vacuum - NORMAL

: f. Go to step 7.

10 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 2 Page 10 of 29 Event  

Condensate pump "A" trip Time Position Applicant's Actions or Behavior CRS 7. Check Westar Transmission Services (WETS) has reported an actual or predicted switchyard voltage degradation -- NO RNO: go to step 9 CRS 9. Check for conditions re quiring Unit Load reduction: a. Determine maximum unit load using Attachment A, Unit Load Limits b. Reduce unit load, as necessary, to satisfy load limits using the appropriate procedure GEN 00-004, Power Operation OR GEN 00-005, Minimum Load to Hot Standby OR OFN MA-038, Rapid Plant Shutdown OR Attachment D, Turbine/Gene rator Load Decrease using Steam Dumps CRS Attachment A, Unit Load Limits, Feed & Conde nsate section:

Condition requiring load reduction           Maximum Unit Load One Condensate pump out of service   see NOTE (2)

11 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 2 Page 11 of 29 Event  

Condensate pump "A" trip Time Position Applicant's Actions or Behavior BOOTH Cue: Call as Shift Manager or Call Superintendent to direct use of OFN MA-038, Rapid Plant Shutdown.  

 

If contacted as System OPS Generation or System Transmission, acknowledge Wolf Creek Turbine/Generator load reduction. CREW ENTER OFN MA-038 rev 11, Rapid Plant Shutdown NOTES o Foldout page shall be monito red throughout this procedure.

12 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 2 Page 12 of 29 Event  

Condensate pump "A" trip Time Position Applicant's Actions or Behavior CRS/BOP 1. () Reduce turbine load

: a. Check desired unloading rate - 5% / minute

: e. Set Loading/Unloading Rate Limit to desired value and adjust as necessary during decrease to maintain desired rate f. Select Decrease Loading Rate - ON

: h. Continue with this procedure while reducing turbine load BOOTH Cue:   If called as Work Week Manager (WWM), ac knowledge request to re pair "A" Condensate Pump & will form a team for the repairs. If asked, repairs shouldn't take more than a few hours. CRS/RO 2. () Borate RCS and adjust control rods as necessary to maintain the following:

o Target Tavg/Tref temperature error between 0 F and +5 F o Control rods above the rod insertion limits 13  Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:  Scenario No.: 1 Event No.: 2 Page 13 of 29 Event

RO actions to Borate (Operator Aid)

Time Position Applicant's Actions or Behavior RO SYS BG-200 rev 35, Attachment B, Boration for Temperature Adjustment in Mode 1 and 2 NOTE A licensed operator shall peer check reactivity manipulations.

B.1.1 () Turn on PZR HTR B/U GROUP A & B, as directed by CRS, to mix Reactor Coolant System with Pressurizer water BB HIS-51A for group A - ON BB HIS-52A for group B - ON  

 

B.1.2 BG HS-26 to Normal-After-Stop B.1.3 BG HS-25 to Borate B.1.4 BG FK-110 in Auto at desired rate B.1.5 BG FY-110B, BA counter, set to desired gallons  

 

B.2 Commence Boration B.2.1 BG HS-26 to Normal-After-Run B.2.2. Verify:

: 4. BG FR-110 red pen at proper flowrate  

 

B.3 Ensure boration stops at BG FY-110B setpoint NOTE Pressurizer Backup Heaters are normally placed in auto.  

 

o BB HIS-51B for group B - ___________________  

B.5.1 BG HS-26 to Normal-After-Stop B.5.2 BG HS-25 to Auto B.5.3 BG FK-110 set for Auto makeup B.5.4 BG HS-26 to Normal-After-Run B.5.5 If desired, then perform Attach ment C, Boric Acid Potentiometer Adjustment 14 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 2 Page 14 of 29 Event  

Condensate pump "A" trip (OFN MA-038 procedure steps continued)

Time Position Applicant's Actions or Behavior RO 3. Energize PZR backup heaters o BB HIS-51A o BB HIS-52A BOP 4. () Check AE HV Open o AE HIS-38 CLOSED   RO 5. Check PZR PORVs:

: a. RCS pressure - 2335 psig

: c. RCS pressure - 2185 psig

: d. PORV block valves - OPEN RO 6. Check PZR pressure - stable at or trending to 2235 psig RO 7. Check PZR level - stable at or trending to program level BOP 8. Check SG levels - controlling between 45% and 55%

15 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 2 Page 15 of 29 Event  

Condensate pump "A" trip Time Position Applicant's Actions or Behavior CRS 9. Check reactor power - less than 60% -- NO, perform RNO RNO:   a. If final desired power level is greater than or equal to 60% then go to step 35

Lead Examiner may direct in itiation of the next event at his discretion.  

16 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 3 Page 16 of 29 Event  

Seismic ev ent and reactor trip BOOTH INSTRUCTIONS: When directed, INITIATE Event 3 by activating KEY 3, inserting seismic event and inadvertent reactor trip.

INDICATIONS: Main Control Board alarms:

98D, OBE 98B, SSE Reactor trip occurs - DRPI indicates all rods on bottom, MCB alarms annunciate Time Position Applicant's Actions or Behavior CREW Respond to MCB indications. CRS ENTER and Direct OFN SG-003 rev 16, Natural Events. CRS 1. Determine appropriate attachment for Natural Event: Attachment A, Earthquake Response CRS 2. Go to appropriate attachment CRS Directs Attachment A, Earthquake Response BOOTH Cue:

Report as Security that an Earthquake has been felt.

CRS A1. Check EQ magnitude - GREAT ENOUGH TO START SEISMIC RECORDER CRS/CREW A2. Stabilize Plant Conditions 17  Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:  Scenario No.: 1 Event No.: 3 Page 17 of 29 Event

== Description:==

Seismic ev ent and reactor trip Time Position Applicant's Actions or Behavior CREW ENTER EMG E-0, rev 22, Reactor trip or Safety Injection FOLDOUT PAGE FOR EMG E-0 1. RCP TRIP CRITERIA IF all conditions listed below occur, THEN trip all RCPs:

o RCS pressure - LESS THAN 1400 PSIG o CCPs or SI pumps - AT LEAST ONE RUNNING o Operator controlled cooldown - NOT IN PROGRESS 2. SI ACTUATION CRITERIA IF either condition listed below occurs, THEN actuate SI and go to EMG E-0, REACTOR TRIP OR SAFETY INJECTION, Step 1: RCS subcooling - LESS THAN 30°F [45°F]

OR Pressurizer level - CANNOT BE MAINTAINED GREATER THAN 6% [33%] 3. FAULTED S/G ISOLATION CRITERIA IF any S/G pressure decreasing in an uncontrolled manner OR any S/G completely depressurized, THEN the following may be performed:

: a. Close main steam isolation valves.

: c. Maintain total feed flow greater than 270,000 lbm/hr until narrow range level in at least one S/G is greater than 6% [29%].

: a. Close ruptured S/G AFW flow control valves.

: 3) WHEN affected AFW flow control valve is isolated, THEN restart MD AFWP OR Restore TD AFWP speed as necessary. 5. COLD LEG RECIRCULATION CRITERIA IF RWST level decreases to less than 36%, THEN go to EMG ES-12, TRANSFER TO COLD LEG RECIRCULATION, Step 1. 6. AFW SUPPLY SWITCHOVER CRITERIA IF CST suction pressure decreases to less than 2.6 psig, THEN switch to alternate AFW suction supply. CAUTION: Accident conditions can cause higher than normal radiation levels. Health Physics monitoring may be required while performing local operator actions. NOTES o Steps 1 through 4 are immediate action steps.

o Foldout page shall be monitored throughout this procedure.

18 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 4 Page 18 of 29 Event  

NB01 & NB02 trip. EDG A autostart feature disabled - manual start available.

Time Position Applicant's Actions or Behavior BOOTH INSTRUCTIONS

: Event 4 is preloaded (EDG A autostart feature disabled). INDICATIONS: Various MCB alarms No WHITE light LIT, NB ZL-5, 4.16 KV bus NB01 No WHITE light LIT, NB ZL-6, 4.16 KV bus NB02 CRS ENTER EMG E-0, rev 22, Reactor Trip or Safety Injection RO 1. Verify Rx trip. a. Check all rod bottom lights lit

: b. Ensure reactor trip break ers and bypass breakers open

: c. Check neutron flux decreasing BOP 2. Verify turbine trip.

: a. Check the following: Main Stop valves - all closed OR Turbine auto stop bistable light - at least two lit RO 3. Check AC emergency busses - at least one energized; NO , perform RNO NB01 voltage- normal NB02 voltage - normal  

19 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 4 Page 19 of 29 Event  

NB01 & NB02 trip. EDG A autostart feature disabled - manual start available.

Time Position Applicant's Actions or Behavior NB01 & NB02 trip. EDG A autostart feature disabled - manual start available Recall: NB02 bus unavailable because EDG "B" out of service as part of Turnover item RO 3.RNO Perform the following

: (CT) CT: Starting the EDG "A" to re-energize NB01 bus before placing safeguards equipment in pull-to-lock or prior to any needless Orange or Red path entry conditions.

Success: Start EDG A using KJ HS-8A

: a. Depress the Start/reset pushbut ton for any stopped Diesel Generator o KJ HS-8A for EDG A o KJ HS-108A for EDG B

: 4. c. Direct operator to monito r Critical Safety Functions for information only using EMG F-0, Critical Safety Function Status Trees (CSFST).

: d. Go to EMG C-0, Loss of all AC Power, step 1 NOTE: Bus NB01 is energized by the EDG "A" once the Control Room starts the EDG.

20 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 3, 4 Page 20 of 29 Event  

Seismic event, Reactor trip, EDG A autostart feature disabled (started From Control Room)

Time Position Applicant's Actions or Behavior RO 4. Check if Safety Injection is actuated:

: a. Check any indication SI is actuated - lit Ann. 00-030A/00-0031A, NF039A/B LOCA SEQ ACTUATED - lit OR ESFAS status panel SIS section - any white lights lit OR Partial trip status Permissive  

/ Block status panel - SI red light lit

: b. Check both trains of SI actuated o Ann. 00-030A/00-031A, NF 039A/B LOCA SEQ ACTUATED - lit RNO Perform the following:

: 1. Check SI required: RCS pressure 1830 psig OR Any SG 615 psig OR CTMT pressure 3.5 psig OR RCS subcooling 30 F OR PZR level 6%

21 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.:3, 4 Page 21 of 29 Event  

Seismic/reactor trip event continued Time Position Applicant's Actions or Behavior RO RNO 4 cont.

: b. Go to EMG ES-02, Reactor Trip Response, step 1 Examiner Note: If an SI occurred, the Crew will continue, if No SI occurs, the Crew may transition to EMG ES-02 then transition to EMG FR-H1, Response to Loss of Secondary Heat Sink.  

22 Appendix D   Required Operator Actions   Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 5 Page 22 of 29 Event  

Loss of all Auxiliary Feedwater TDAFW pump trip (broken linkage), MDAFW pump "A" trip (shaft seizure) and CCP "A"  pump trip.

Time Position Applicant's Actions or Behavior BOOTH INSTRUCTIONS: Event 5 failures are preloaded BOOTH Cue:

If contacted as Building watches to investigate pump trips, respond: I will investigate.

 

23 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 5 Page 23 of 29 Event  

Loss of all Auxiliary Feedwater TDAFW pump trip (broken linkage), MDAFW pump "A" trip (shaft seizure) and CCP "A"  pump trip.

Time Position Applicant's Actions or Behavior FOLDOUT PAGE FOR EMG F R-H11. BLEED AND FEED CRITERIA IF RCS bleed and feed has NOT been establis hed AND RCS pressure is greater than any non-faulted S/G pressure AND any condition list ed below occurs, THEN OBSERVE CAUTION PRIOR TO STEP 29 and go to Step 29. Wide range level in any 3 S/Gs - LESS THAN 26% [47%] OR RCS pressure - GREATER THAN 2335 PSIG DUE TO LOSS OF SECONDARY HEAT SINK OR CCPs - NONE AVAILABLE

: 3. AFW SUPPLY SWITCHOVER CRITERIA IF CST suction pressure decreases to less th an 2.6 psig, THEN switch to alternate AFW suction su pp l y. Examiner Note

: Crew diagnoses No CCPs ava ilable and goes to step 29.  

24 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 5 Page 24 of 29 Event  

Time Position Applicant's Actions or Behavior BOOTH Cue: If dispatched to investigate CCP "A pump trip, report: I will investigate.

If dispatched to CCP pump breaker, re port an Overcurrent flag is dropped.

CRS 1. Check if Secondary heat sink is required

: a. RCS pressure - any non-faulted S/G pressure b. RCS hot leg temp - 350 F CREW 2. Verify RCS Bleed and Feed - not required a. Check WR level in all S/Gs - 26% [47%]

: b. Check RCS press - 2335 psig RO 3. Check CCP status - at least one available (NO, perform RNO) RNO: Observe CAUTION prior to step 29 and go to step 29

25 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 5 Page 25 of 29 Event

== Description:==

Time Position Applicant's Actions or Behavior CAUTION: Steps 29 through 33 must be performed quickly in order to establish heat removal by RCS bleed and feed.

CT: Establish RCS bleed and feed before Steam Generators dry out establishing a heat sink for the core.

Success: SI actuated a nd PORV Block valves OPEN RO 29. Reduce heat input to RCS

: a. Stop all RCPs o BB HIS-37 for RCP A o BB HIS-38 for RCP B o BB HIS-39 for RCP C o BB HIS-40 for RCP D b. Turn off all PZR heaters o BB HIS-50 o BB HIS-51A o BB HIS-52A     RO 30. Actuate SI (CT - see above) o SB HS-27 o SB HS-28 26 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 5 Page 26 of 29 Event  

Loss of Auxiliary Feedwater  

Time Position Applicant's Actions or Behavior CRS 31. Verify ECCS feed path

: a. Check high pressure ECCS pumps  CCPs - at least one running OR  SI pumps - at least one running b. Verify SI feed path alignment: Check CCP to BIT flow mete rs - flow indicated  OR o EM FI-917A o EM FI-917B  Check SI pump discharge flow me ters - flow indicated  OR o EM FI-918 o EM FI-922  Check ESFAS status SIS section - System level white lights all lit o Red train o Yellow train

 

== Description:==

Loss of Auxiliary Feedwater Time Position Applicant's Actions or Behavior CREW 32. Establish RCS bleed path: a. Check power to block valves - AVAILABLE o BB HIS-8000A o BB HIS-8000B b. Place both cold overpressure Block/Arm switch in ARM position o BB HS-8000A o BB HS-8000B

: c. Check PZR PORV block valves - BOTH OPEN (CT - see page

: 27) RNO: OPEN both block valves O BB HIS-8000A O BB HIS-8000B

: d. Open both PZR PORVs o BB HIS-455A o BB HIS-456A CREW 33. Verify adequate RCS bleed path:

o PZR PORV block valves - both open o PZR PORV's - both open CRS 34. Perform steps 1-7 of EMG E-0, Reactor Trip or Safety Injection, while continuing with this procedure.  

28   Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 5 Page 28 of 29 Event  

Loss of Auxiliary Feedwater Time Position Applicant's Actions or Behavior CRS 35. Maintain RCS heat removal:

o Maintain ECCS flow to RCS o Maintain PZR PORVs - Both OPEN CAUTION: If offsite power is lost after SI reset, manual action may be required to restore safeguards equipment to the required configuration. RO 36. Reset SI o SB HS-42A o SB HS-43A RO 37. Reset Containment Isolation Phase A and Phase B o SB HS-56 for phase A o SB HS-53 for phase A o SB HS-55 for phase B o SB HS-52 for phase B BOP 38. Establish Instrument Air to Containment

29 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.:   Scenario No.: 1 Event No.: 5 Page 29 of 29 Event

== Description:==

Loss of Auxiliary Feedwater Time Position Applicant's Actions or Behavior CRS 39. Continue attempts to estab lish Secondary heat sink in at least one SG When Bleed and Feed is established, Lead Examiner may terminate scenario at his discretion.

 

 

 

 

Turnover:  Load reduction in progress per GEN 00-004, Power Operations, section 6.2, in order to remove "A" Main Feed pump from serv ice due to high vibration. Main Feed Pump "A" is not expected to be out of service very long.  

Event No. Malf. No. Event Type* Event Description 1 t+1 R - ATC N - BOP, SRO Reduce power using GEN 00-004, Power Operations and remove "A" Main Feed Pump from service using SYS AE-

320, Turbine Driven Main Feedwater Pump Shutdown (crew may reference / enter OFN AF-025, Unit Limitations, also)  2 t+15 mBB01 D I - ATC, SRO Primary Loop D Thavg (BB TI-441) high failure 

 

OFN SB-008, Instrument Malfunctions, Attachment L 3 t+20 mAE15 C4 I -  BOP, SRO S/G C level AE LI-553 failure high OFN SB-008, Instrument Malfunctions, Attachment F ALR 00-110C, SG C Flow Mismatch

 

ALR 00-110B, SG C Lev Dev ALR 00-110A, SG C Lev Hi/Lo

 

2  4 t+27 mBG13 C C -  ATC, SRO Normal Charging Pump (NCP) trip; a Centrifugal Charging Pump must be started, letdown restored etc  

 

ALR 00-042A, Charging Line Flow HiLo (SYS BG-120, CVCS Startup or SYS BG-201, Shifting Charging Pumps - either may be used to restore letdown)

ALR 00-042E, Charging Pump Trouble (Step 7 re-establishes letdown) 5 t+35 mBB02 B M - All 500 gpm Steam Genera tor Tube Rupture on S/G A OFN BB-07A, Steam Generator Tube Leakage (eventually EMG E-0, Reactor Trip or Safety Injection & EMG E-3, Steam Generator Tube Rupture) 5   EMG E-3, Steam Generator Tube Rupture actions: CT - Isolate feed flow to the ruptured SG before Steam Generator overfills.

6 t+43 mSA27 EM01 and mSA27 EM02 C - ATC, SRO Post trip: BIT outlet valves (EM HIS-8801A and EM HIS-8801B) do not open. Manual open available  

 

CT - Open BIT outlet valves (EM HIS-8801A and EM HIS-8801B) before the end of the scenario or before  

 

needless Red or Orange path occurs.

EMG E-0, Reactor Trip or Safety Injection, Attachment F or allowed post Immediate Action completion  

* (N)ormal, (R)eactivit y ,   (I)nstrument, (C)om p onent, (M)a j o r 

3 Appendix D Scenario Outline Form ES-D-1 Scenario summary Plant is at 65% power with a lo ad reduction in progress to remove "A" Main Feed Pump (MFP) from service due to high vibration. GEN 00-004, Power Operations, section 6.2 in progress for load reduction. Crew will use SYS AE-320, Turbine Driven Main Feedwater Pump Shutdown, to remove "A" MFP from service.  

 

Crew reduces power per GEN 00-004, Power Oper ations, section 6.2, Power Decrease. Crew may reference OFN AF-025, Unit Limitations, Attachment A (one main feedwater pump from  

 

service requires plant at 62%

power). Crew removes "A" MFP from service using SYS AE-320, Turbine Driven Main Feedwater Pump S hutdown (see step 6.2.12 of GEN 00-004). Crew stabilizes unit at lower power and removes pump from service.

Crew responds by placing rods into manual control and performing OFN SB-008, Instrument Malfunctions. OFN SB-008, Instrument Malfunctions, Attachment L. Crew stabilizes the plant.  

 

Steam Generator (S/G) C level channel AE LI-553 failure high. Crew responds by performing OFN SB-008, Instrument Malfunctions, Attachment F.

An alternate level channel is selected for control. ALR 00-110A, SG C Lev Hi/Lo, may be used prior to entry of OFN SB-008, Instrument Malfunctions. Crew stabilizes the plant.

Normal Charging Pump (NCP) trip. Crew re sponds using ALR guidance. A Centrifugal Charging Pump is started. Normal letdown must be restored. ALR 00-042A, Charging Line Flow HiLo ALR 00-042E, Charging Pump Trouble Crew stabilizes the plant.

Major event: A 500 gpm Steam Generator Tube Rupture (SGTR) on S/G A is diagnosed per OFN BB-07A, Steam Generator Tube Leakage.  

 

SGTR requiring a manual Reactor trip and Safety Injection Signal actuation per Foldout page criteria of OFN BB-07A. Mitigation procedure will be EMG E-3, Steam Generator Tube Rupture. 1. Crew responds using OFN BB-07A, Steam Generator Tube Leakage.

: 3. Crew responds using EMG E-3, St eam Generator Tube Rupture.  

4 EMG E-3, Steam Generator Tube Rupture, Major Actions: Identify and isolate ruptured S/Gs Cooldown and establish RCS subcooling margin Depressurize RCS to restore inventory Terminate SI to stop primary to secondary leakage Prepare for cooldown to cold shutdown  

 

Scenario has three Critical Tasks (CT):

: 1. Open BIT outlet valves (EM HIS-8801A a nd EM HIS-8801B) before the end of the scenario or before needless Red or Orange path occurs.

: 3. Cooldown & Depressurize RCS to minimize RC S inventory leakage into the ruptured Steam Generator.  

 

Top 10 Human Action Failures by the Importance Measure Rankings F-V Rank RRW Rank Total Rank Event Name Description Point Est.F-V RAWRRWBirnbaum1 8 34 OPA-OD1-EXE FAILURE OF RCS COOL DOWN & DEPRESSURIZE -

SGR EVENT - EXE 4.89E-03 2.61E-02 6.32 1.0279.64E-05 Core Damage Frequency by Initiating Event and by Event Tree Event Tree Core Damage Frequency (/yr)

Percent Contribution Station Blackout 6.46E-06 35.79% Small LOCA 5.35E-06 29.65% Interfacing Systems LOCA 1.93E-06 10.68% Very Small LOCA 1.27E-06 7.05% Steam Generator Tube Rupture 8.77E-07 4.86%

Event 2 TS 3.3.1, Reactor Trip System Instrumentation, Table 3.3.1-1, FU 6 and 7  

 

Cond. A: Function / channel inoperable - enter conditi on per table (immediately)

Cond. E: One channel inoperable - place channel in trip (72 hours)  

 

Event 3 TS 3.3.1, Reactor Trip System Instrumentation, Table 3.3.1-1, FU 14 Cond A: Function / channel inoperable - enter condition per table (immediately) Cond E: One channel inoperable - place channel in trip (72 hours)

TS 3.3.2, Engineered Safety Features Actuation System Instrumentation, Table 3.3.2-1, FU 5c and 6d Cond A:  Function / channel inoperable - enter condition per table (immediately)

Cond D: One channel inoperable - place channel in trip (72 hours) 5  Cond I: One channel inoperable - place channel in trip (72 hours)

NOTE:  Event 4 TR 3.1.9, Boron Injection System - Operating -- may be looked at 6 Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _1____ Page 6 of 57 Event

Reduce power using GEN 00-004, Power Operations and remove "A" Main Feed Pump from service using SYS AE-320, Turbine Driven Main Feedwater Pump Shutdown Time Position Applicant's Actions or Behavior CREW Using Gen 00-004, rev 61, Power Operations, section 6.2.2.2, continue power reduction.

Examiner Note: These steps have already been performed, the crew may review them to ensure completeness and begin at 6.2.12.2 BOP 6.2.2.2 If MTC is negative or zero, then perform the following:

: a. If automatic Turbine unloadi ng is desired, then control turbine load using automatic turbine-generator unloading selected to 1/2% per minute OR as directed by SM/CRS.

: c. () Adjust control rods as necessary to maintain Tavg within 1.5 F of Tref. CRS/RO 6.2.3 () During power reduction, use boration, dilution, or control rods, as necessary, to maintain the axial flux difference within the target band and control rods above the rod insertion limit. RO uses Operator Aid for Boration - see next page. CRS/RO 6.2.4 Ensure AE HV-38, HP FW HEATERS BYPASS VALVE, is closed using SYS AE-125, HP FW HEATER BYPASS THROTTLING OPERATIONS. CRS/RO 6.2.5 Ensure one set of PZ R backup heaters is energized.

7 NOTE: 6.2.6 is N/A. Crew determines which method to use for Turbine unloading. Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _1____ Page 7 of 57 Event

RO actions for Bora tion using Operator Ai d, SYS BG-200, rev 35, Attachment B, Boration for Temperature Adjustment in Mode 1 and 2 Time Position Applicant's Actions or Behavior

 

B.1.1 () Turn on PZR HTR B/U GROUP A & B, as directed by CRS, to mix Reactor Coolant System with Pressurizer water BB HIS-51A for group A - ON BB HIS-52A for group B - ON  

 

B.1.2 BG HS-26 to Normal-After-Stop B.1.3 BG HS-25 to Borate B.1.4 BG FK-110 in Auto at desired rate B.1.5 BG FY-110B, BA counter, set to desired gallons  

 

B.2 Commence Boration B.2.1 BG HS-26 to Normal-After-Run B.2.2. Verify:

: 4. BG FR-110 red pen at proper flowrate  

 

B.3 Ensure boration stops at BG FY-110B setpoint NOTE Pressurizer Backup Heaters are normally placed in auto.  

 

o BB HIS-51B for group B - ___________________  

 

B.5.1 BG HS-26 to Normal-After-Stop B.5.2 BG HS-25 to Auto B.5.3 BG FK-110 set for Auto makeup B.5.4 BG HS-26 to Normal-After-Run B.5.5 If desired, then perform Attach ment C, Boric Acid Potentiometer Adjustment

9 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _1____ Page 8 of 57 Event

Reduce power using GEN 00-004, Power Operations and remove "A" Main Feed Pump from service using SYS AE-320, Turbine Driven Main Feedwater Pump Shutdown Time Position Applicant's Actions or Behavior CRS/BOP 6.2.7 If automatic Turbine unloading is desired, then place EHC control on load set as follows:

: 1. () If desired to position Control Valves in their controlling range, then slowly decrease load limit pot until a 1-2 MWe load decrease is noted.

: 2. Slowly decrease load set MW until the following conditions are met:

: 3. Raise load limit pot slightly.

: 4. Select 1/2% / minute loading rate.

: 5. Select decrease loading rate - ON CRS/BOP 6.2.8 () Decrease Turbine load as desired while continuing with this procedure CRS 6.2.9 Ensure Chemistry is promptly notified of each power change that is greater than or equal to 15% RTP within a 1 hour period so that RCS DEI can be verified to satisfy SR 3.4.16.2. CRS 6.2.10 When SM or CRS desires to stop one heater drain pump, THEN stop one heater dr ain pump using SYS AF-121, HEATER DRAIN PUMP OPERATION.

NA - not desired to remove a Heater Drain Tank pump.

CRS 6.2.11 If operating with a positive MTC and reactor power is less than 65%, then open Steam Dumps as follows:

NA - operating with a negative MTC

10 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _1____ Page 9 of 57 Event

Reduce power using GEN 00-004, Power Operations and remove "A" Main Feed Pump from service using SYS AE-320, Turbine Driven Main Feedwater Pump Shutdown Time Position Applicant's Actions or Behavior Examiner Note: Unit Limitations OFN allows one MFP to be secured at 62 % power. Turnover item: continue power reduction in order to remove the Main Feed Pump. CRS 6.2.12.2. If two Main Feedwater Pumps are running, then secure one using SYS AE-320, Turbine Driven Main feedwater Pump  

 

Shutdown CRS/CREW Direct SYS AE-320, (rev 21), Turbine Driven Main feedwater Pump Shutdown, section 6.1 CAUTION: If a secondary cooldown is in progre ss, ensure a flowpath for feed to SGs can be maintained.

NOTE: At 62% power, two MFPs at 4400 rpm will equate to one MFP at 5400 rpm. BOP 6.1.1 Place MFP turb A speed control in manual.

o FC SK-509B - MANUAL CAUTION: Monitor feedwater flow and SG levels, during performance of the following steps. BOP 6.1.2 Place MFP A recirc ctrl valve in manual and open o AE FIC-2B - MANUAL AND o AE FIC-2B - OPEN  

11 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: ___1__ Page 10 of 57 Event

Remove "A" Main Feed Pump from service using SYS AE-320, Turbine Driven Main Feedwater Pump Shutdown

 

12 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _1____ Page 11 of 57 Event

Remove "A" Main Feed Pump from service using SYS AE-320, Turbine Driven Main Feedwater Pump Shutdown

/reset switch trip pushbutton o FC HIS TRIPPED  BOP 6.1.9 Ensure MFP A disch vlv closes o AE HIS CLOSED  BOP 6.1.10 Close MFP A recirc ctrl valve o AE FIC-2B - CLOSED  BOP 6.1.11 When MFP A coasts down to zero speed, then ensure MFP turb A Turn gear engage light illuminated o FC ZL-82A - LIT 13 Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _1____ Page 12 of 57 Event

Remove "A" Main Feed Pump from service using SYS AE-320, Turbine Driven Main Feedwater Pump Shutdown

 

Time Position Applicant's Actions or Behavior BOP 6.1.12 Open the following MFP turbine A drains:

: 1. MFP turb A 1 st stg S/U drn vlv o FC HIS OPEN

: 3. MFP turb A HPSV below seat drn valve o FC HIS OPEN BOP 6.1.13 Open MFP A disch valve o AE HIS OPEN BOP 6.1.14 If MFP A will be shutdown for a prolonged period, then close the following valves, to prevent seal water flow from overfilling the Miscellaneous Condensate Drain Tank:

: 2. SG FWP A seal water s upply reg vlv PDV-58 bypass vlv o AE-V994 - CLOSED BOOTH CUE:

If called as building watch to cl ose valves AE-V995 and AE-V994, report back in ~ four minutes that the valves are closed. These valves are not modeled. BOP 6.1.15 If desired to secure MFP A lube oil system, then perform section 6.3, Shutdown of MFP A lube oil system.

NA - not required 14 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _1____ Page 13 of 57 Event

Remove "A" Main Feed Pump from service using SYS AE-320, Turbine Driven Main Feedwater Pump Shutdown  

 

15 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _2____ Page 14 of 57 Event

Time Position Applicant's Actions or Behavior INDICATIONS: Main Control Board alarms: 65C , 65E, 66B, 66D, 67B, 67D, 68B, 68D, 81C, 81D, 82B, 82C, 83C Partial Trip Status Panel (SB069): bistable lights TB 441C (OTT L4) and TB441G (OPT L4) are illuminated Control rods step in.

Loop 4 T meter BB TI-441 is pegged high. CRS/CREW Actions may be taken be fore procedure entry: Once no runback/load rejection is determine d, the Control rods are taken to manual. CREW ENTER OFN SB-008, rev 25, Instrument Malfunctions CRS 1. Check if Secondary system instrument channel is malfunctioning a. Determine appropriate attachment for malfunctioning channel from table below; NO perform RNO RNOa. If secondary system channel is not malfunctioning, then go to step 2 CRS/RO 2. Check if RCS instrument channel or controller is malfunctioning: a. Determine appropriate attachment for malfunctioning channel or controller from table below:

Variable                                         Channels                                                         Attachment RCS temperature (BB)               T-411, T-421, T-431, T-441                               Attachment L b. Go to appropriate attachment for malfunctioning RCS system channel or controller 16 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _2____ Page 15 of 57 Event

Time Position Applicant's Actions or Behavior CREW Performs OFN SB-008, Attachment L, Narrow Range RTD Malfunctions   BOP L1. Check load rejection - NOT in progress o Generator load MW - STABLE o Generator load set MW - STABLE RO L2. Switch rod control bank selector switch (SE HS-9) to - MANUAL BOP L3. Check steam dumps

: a. Check steam dumps in Tavg mode (handswitch AB US-500Z) b. Check steam dumps - CLOSED (meter AB ZL-34/35) RO L4. Identify failed instrument

: a. Compare loop Tavg and T indications to confirm a Narrow Range RTD failure RO identifies Loop 4 failure (BB TI-441A, BB TI-442) 17 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _2____ Page 16 of 57 Event

Time Position Applicant's Actions or Behavior RO L5. Remove failed temperature channel from Tavg and T auctioneering circu its, using Tavg and T defeat switches o BB TS-411F o BB TS-412T Examiner Note: MCB alarms clear and 69A and 69C actuate. RO L6. Check (Tavg/Tref) error signal within 1F; NO, perform RNO RNO: () Manually adjust control rod position, to maintain Tavg within 1 F of Tref. NOTES o Several minutes must be allowed for power and temperature rate circuitry outputs to return to normal before switching back to automatic rod control.

o Control Rods should be restored to their parked position when plant conditions allow at the direction of the CRS. RO L7. Switch rod control ba nk selector switch to - AUTO o SE HS-9 RO L8. Monitor Rod Control System response to ensure proper control     RO L9. Check C-7 Loss of Load Interlock - NOT LIT 18 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _2____ Page 17 of 57 Event

Time Position Applicant's Actions or Behavior BOP L10. Check Steam Dump Bypass Interlock switches in - ON (AB HS-63 and AB HS-64)     BOP L11. Monitor steam dump control system to ensure proper operation RO L12. Check failed temperature channel not used for OPT and OTT recorders RNO: Select alternate temperature channel for OPT and OTT recorders (SC TS-411E) CRS L13. Monitor the following T echnical Specification LCOs and comply with Action Statements as appropriate:

o 3.3.1, Reactor Trip System Instrumentation, Table 3.3.1.-1, function 6 and 7  

19 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _3____ Page 18 of 57 Event

S/G C le vel AE LI-553 failure high.

Time Position Applicant's Actions or Behavior BOOTH INSTRUCTIONS: At Lead Examiner discretion, activate Event 3 by inserting KEY 3. INDICATIONS:

Meter indication AE LI-553 increasing, Main Control Board alarms: 00-110C, SG C Flow Mismatch; 00-110B, SG C Lev Dev; 00-110A, SG C Lev Hi/Lo CRS/BOP Actions may be taken before procedure entry: Identify failed instrument, AE LI-533 failure; Place MFW Reg Valve in Manual (AE FK-530) and match steam and feed flow. CREW May enter ALR 00-110A rev 5, or go directly to OFN SB-008, rev 25, Instrument Malfunctions     CRS/CREW ENTER ALR 00-110A, rev 5, SG C Lev Hi/Lo

: 1. Check SG C controlling level channel Less than 30% OR Greater than 70%

: e. Go to OFN SB-008, Instrument Malfunctions step 1, 21  Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _3____  Page 20 of 57 Event

S/G C le vel AE LI-553 failure high.

Time Position Applicant's Actions or Behavior CRS/CREW ENTER OFN SB-008, Instrument Malfunctions (rev 25)  BOP 1. Check if Secondary System instrument channel is malfunctioning: a. Determine appropriate attachment for malfunctioning channel from table below:

VARIABLE                                        CHANNELS                                 ATTACHMENT Steam level (AE)

L-553 Attachment F CRS Directs Attachment F, SG Level Channel Malfunction NOTE: If crew performed the ALR first, it may alter how they proceed through the OFN attachment. BOP F1. Identify failed narrow range SG level instrument channel:

: a. Compare narrow range SG level indication to confirm a narrow range SG level channel failure o SG "C":  AE-LI-537  AE LI-538  AE LI-539  AE LI-553

22  Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _3____ Page 21 of 57 Event

S/G C le vel AE LI-553 failure high.

Time Position Applicant's Actions or Behavior BOP F2. Check failed SG level channel selected on level selector switch  AE LS-539C (others are also listed in the procedure), RNO F2. Go to Step F7  BOP F3. Place affected SG feed reg control valve - in MANUAL  AE FK-530 (other FRVs are listed in the procedure)  BOP F4. Adjust affected feedwater re g valve, as necessary, to establish SG level at program (AE FK-530)    BOP F5. Select alternate SG level channel for feedwater control  AE LS-539C  CRS F6. Restore affected SG f eed reg valve controller to - AUTO BOOTH Cue:  If called as Call Sup /WWM, respond:  I will assemble a team.

23  Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _3____ Page 22 of 57 Event

S/G C le vel AE LI-553 failure high.

Time Position Applicant's Actions or Behavior CRS F7. Monitor the following TS for LCO's and comply with appropriate Action Statem ents as appropriate:

TS 3.3.1, Reactor Trip System Instrumentation, Table 3.3.1-1, FU

14 Cond A:  Function / channel inoperable - enter condition per table (immediately)

Cond E:  One channel inoperable - place channel in trip (72 hours)

TS 3.3.2, Engineered Safety Features Actuation System Instrumentation, Table 3.3.2-1, FU 5c and 6d

Cond A: Function / channel inoperable - enter condition per table (immediately)  

24 Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _4____ Page 23 of 57 Event

Normal Charging Pump (NCP) trip. (ALR 00-042A, rev 14, CHG LINE FLOW HILO)  

 

Time Position Applicant's Actions or Behavior INDICATIONS:

00-042A, Charging Line Flow HiLo and 00-042E, Charging Pump trouble 00-041A, Seal Inj to RCP Flow Lo and 00-038A, LTDN Regen HX Temp Hi BOOTH Cue:

If dispatched to investigate NCP tri p, respond: I will investigate. If dispatched to NCP breaker, respond

: Overcurrent flag is tripped. If contacted as WWM, respond : I will assemble a team.

If contacted as Electr ical Maintenance (MTN): I will assemble a team-.overcurrent flag is dropped. CRS ENTER and directs ALR 00-042A, re v 014, Charging Line Flow HiLo CRS/RO 1. Check charging header flow - 150 gpm o BG FI-121A, RNO1. Go to step 5. CRS/RO 5. Check charging header flow - 45 gpm o BG FI-121A CAUTION: If gas binding or pumps is suspected, performance of OFN BG-045, Gas Binding of CCPs or SI Pumps, should be considered.  

25 Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _4____ Page 24 of 57 Event

Normal Charging Pump (NCP) trip. (ALR 00-042A, rev 14, CHG LINE FLOW HILO)  

 

Time Position Applicant's Actions or Behavior CRS/RO 6. Check charging pumps - ANY RUNNING BG HIS-1A for CCP A BG HIS-2A for CCP B BG HIS-3 for NCP  

 

RNO6. Perform the following:  

 

6RNOa. Close letdown orifice isolation valves o BG HIS-8149AA o BG HIS-8149BA o BG HIS-8149CA  

 

26 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: __4___ Page 25 of 57 Event

Normal Charging Pump (NCP) trip.  

: e. Adjust Letdown HX outlet pressu re control to es tablish Letdown HX outlet pressure between 340 psig and 360 psig o BG PI-131 f. Place letdown HX outlet pressure control in auto o BG PK-131  RO 10. Check letdown heat exchanger outlet temperature -  130 F o BG TI-130 27 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _4____ Page 26 of 57 Event

Time Position Applicant's Actions or Behavior RO 11. Check charging header flow and letdown flow - BALANCED RNO11. Adjust charging & letdown as necessary to maintain PZR level at program CAUTION: Total pump flow should be maintained above 175 gpm to minimize the effects of low flow cavitation. RO 12. Verify CCP adequate flow: a. Check CCPs - ANY RUNNING BG HIS-1A for CCP A BG HIS-2A for CCP B

: b. Check CCP recirc valve - OPEN BG-HIS-8110 for CCP A BG HIS-8111 for CCP B CRS 13. Return to proce dure and step in effect.  

28 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _4____ Page 27 of 57 Event

Time Position Applicant's Actions or Behavior CRS ENTER and directs ALR 00-042E, rev 10, Charging Pump Trouble RO 1. Check previously running charging pump - tripped o BG HIS-1A for CCP A o BG HIS-2A for CCP B o BG HIS-3 for NCP CRS 2. Contact Electrical Maintenance to determine cause of pump trip BOOTH Cue:

If dispatched as building watch to investigate NCP trip, respond: I will investigate. If dispatched to NCP breaker , respond: Overcurren t flag is tripped. If contacted as WWM, respond: I will assemble a team.  

 

29 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _4____ Page 28 of 57 Event

Time Position Applicant's Actions or Behavior RO 5. Establish charging flow a. Check RCS temperature - 350 F b. Start CCP aligned for normal charging. BG HIS-1A for CCP A BG HIS-2A for CCP B 5c. Go to step 6     RO 6. Ensure RCP seal injection - between 8 gpm and 13 gpm to each RCP o BG FR-157 for RCP A o BG FR-156 for RCP B o BG FR-155 for RCP C o BG FR-154 for RCP D     (Step 7 on next page.)

30 Appendix D   Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _4____ Page 29 of 57 Event

Time Position Applicant's Actions or Behavior RO 7. Reestablish letdown

: a. Check RCS letdown to regen HX valves open o BG HIS-459 o BG HIS-460 b. Place letdown HX outlet pressure control in manual o BG PK-131 c. Open letdown HX outlet pressure control between 90% and 100%

: d. Open desired letdown orifice isolation valve(s). BG HIS-8149AA BG HIS-8149BA BG HIS-8149CA

: e. Adjust letdown HX outlet pressure control to establish letdown HX outlet pressure between 340 psig and 360 psig o BG PI-131 f. Place letdown HX outlet pressure control in auto o BG PK-131 RO 8. Check charging header flow and letdown flow - BALANCED RNO8. Adjust charging & letdown as necessary to maintain PZR level at program value.

31 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _4____ Page 30 of 57 Event

Time Position Applicant's Actions or Behavior NOTE Total pump flow should be maintained above 175 gpm to minimize the effects of low flow ii RO 9. Verify CCP adequate flow:

: a. Check CCPs - any running BG HIS-1A for CCP A BG HIS-2A for CCP B

: b. Check CCP recirc valve - open BG HIS-8110 for CCP A BG HIS-8111 for CCP B CRS 10. Ensure compliance with T echnical Specifications and TRM:

: b. Refer to TR 3.1.9 and Technical Specification 3.5.2 CRS/CREW 11. Return to pro cedure and step in effect. BOOTH INSTRUCTIONS: At Lead Examiner discretion, initiate Event 5 by activating KEY 5.

32 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: __5___ Page 31 of 57 Event

500 gpm Steam Generator Tube Rupture on Steam Generator A (OFN BB-07A, Steam Generator Tube Leakage)  

 

Time Position Applicant's Actions or Behavior INDICATIONS:

Decreasing level PZR MCB annunciators 00-061B, Process Rad Hi , followed by 00-061A, Process Rad HiHi RM-11R (SP056A) shows and alarms increasing radiation on process radiation monitor GE RE-92, Condenser Air Discharge Monitor CREW/CRS Begin diagnostics for Steam Generator Tube Rupture (SGTR) and ENTER OFN BB-07A, rev 9, Steam Generator Tube Leakage   FOLDOUT PAGE FOR OFN BB-07A

: 1. SI ACTUATION CRITERIA IF any condition listed occurs, THEN trip the reactor, actuate SI , and go to EMG E-0, REACTOR TRIP OR SAFETY INJECTION Step 1. RCS subcooling based on subcooling monitor - LESS THAN 30°F SUBCOOLING WITH REACTOR TRIPPED OR Pressurizer pressure - CANNOT BE MAINTAINED OR Pressurizer level - CANNOT BE MAINTAINED GREATER THAN 6% OR All of the following conditions exist:

33 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _5____ Page 32 of 57 Event

500 gpm Steam Generator Tube Rupture on Steam Generator A Time Position Applicant's Actions or Behavior RO 1. Check PZR level - 6% RO 2. Check PZR level - 17% RO 3. Check PZR level - stable or increasing --

NO RNO3 If PZR level program, then perform the following: a. Control charging flow as necessary to maintain PZR level

: b. If PZR level cannot be maintained, then close letdown orifice isolation valves as necessary to stabilize PZR level BG HIS-8149AA BG HIS-8149BA BG HIS-8149CA CREW 4. Try to identify the leaking SG Unexpected increase in any SG narrow range level OR Radiation from any SG steam line radiation monitor OR Radiation from any SG steam line survey OR Radiation from any SG sample RNO4. Try to identify leaking SG: a. Direct HP to survey steamlines & blowdown lines as necessary to determine leaking SG BOOTH Cue: Respond as HP: I will survey the steam lines & blowdown lines.

34 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _5____ Page 33 of 57 Event

500 gpm Steam Generator Tube Rupture on Steam Generator A (EMG E-0, Reactor Trip or Safety Injection)  

o If the leak rate is still within the capacity of a charging pump, after swapover to the RWST, it is not desirable to actuate SI and go to EMG E-3. CREW 5. Check VCT level - BEING MAINTAINED BY NORMAL MAKEUP  CRS/CREW Use OFN BB-07A FOLDOUT page criteria to direct Reactor trip and Safety Injection. CRS Direct reactor trip and safety injection actuation. CRS ENTER EMG E-0, rev 22, Reactor Trip or Safety Injection 35 Appendix D Required Operator Actions Form ES-D-2 Op-Test No.: _____ Scenario No.: __2

___  Event No.: _5____ Page 34 of 57 Event

500 gpm Steam Generator Tube Rupture on Steam Generator A (EMG E-0, Reactor Trip or Safety Injection)  

 

Time Position Applicant's Actions or Behavior FOLDOUT PAGE FOR EMG E-01. RCP TRIP CRITERIA IF all conditions listed below occur, THEN trip all RCPs:

o RCS pressure - LESS THAN 1400 PSIG o CCPs or SI pumps - AT LEAST ONE RUNNING o Operator controlled cooldown - NOT IN PROGRESS

: 2. SI ACTUATION CRITERIA IF either condition listed below occurs, THEN actuate SI and go to EMG E-0, REACTOR TRIP OR SAFETY INJECTION, Step 1: RCS subcooling - LESS THAN 30°F [45°F]

OR Pressurizer level - CANNOT BE MAINTAINED GREATER THAN 6% [33%]