ML022400100

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Draft - Section C Operating
ML022400100
Person / Time
Site: Nine Mile Point Constellation icon.png
Issue date: 07/29/2002
From: Pisano L
Constellation Nuclear
To: Conte R
NRC/RGN-I/DRS/OSB
Conte R
References
50-410/02301, SIP Test Sample upto2-6-04 50-410/02301
Download: ML022400100 (91)


Text

lu f N)P SIMULATOR SCENARIO SCENARIO # 1 REV. 0 No.

SINGLE ROD SCRAM/JET PUMP FAILURE/SMALL LOCA WITH LOSS OF PRES' SUPPRESSION/CONTAINMENT SPRAY WITH SERVICE WATER SYSTEM PREPARER i7-44A DATE 41o X VALIDATED r1a mik C~evc~JS DATE Jignk GEN SUPERVISOR i(2t-- G"X,\Jrc-3i OPS TRAINING DATE 6 '/ap-OPERATIONS MANAGER UNIT 2 DATE 6A 1V2 CONFIGURATION CONTROL ~Jf (~ew u(CW-V4 DATE PAo SCENARIO

SUMMARY

Length: 60 minutes The scenario begins with the plant operating at rated power. RHR System "A" is out of service for maintenance. An Inboard Drywell to Suppression Chamber Vacuum Breaker is inoperable (open). The crew will perform a planned transfer of RPS "A" electrical power supplies. During the transfer, a single control rod will scram due to a blown fuse on RPS "B" scram pilot valve solenoid. The crew will enter N2-SOP-08 for the unexpected power change and reduce generator MW electric. The crew will restore the control rod to the fully withdrawn position.

When conditions have stabilized, the Rams Head for a Jet Pump pair will separate. The crew will diagnose the jet pump failure based on plant parameter changes. Tech Specs will be entered and a required plant shutdown will be initiated.

During the power reduction, a malfunction in the EHC pressure regulator system causes a rapid reduction in reactor pressure. The crew will enter N2-SOP-23 and manually scram the reactor and close the MSIVs to stabilize reactor pressure and execute N2-EOP-RPV.

After reactor level and pressure are stabilized, the second vacuum breaker in the pair of Drywell to Suppression Chamber Vacuum Breakers will fail open concurrent with small leak from the Reactor Coolant System piping. The vacuum breaker failure results in a loss of Pressure Suppression function within the Primary Containment. As Drywell pressure slowly rises, the crew will execute N2-EOP-PC to control reactor vessel and primary containment parameters. After initiating containment sprays using RHR System "B", the ECCS suction strainer will gradually become clogged with debris in the Suppression Pool. Strainer plugging will require the crew to use an alternate source of containment spray, such as the Service Water System cross-tie to RHR System "B" in order to prevent exceeding Pressure Suppression Pressure Limit (PSP). The use of Service Water for containment spray will be successful in mitigating further degradation of the primary containment.

SCENARIO # 1 March, 2002

Major Procedures: N2-SOP-08, N2-SOP-23, N2-SOP-lO1C, N2-EOP-RPV, N2-EOP-PC, N2-EOP-6 Attachment 5.

EAL Classification: ALERT 3.1.1 Termination Criteria: Reactor is shutdown with RPV Level and Pressure controlled in the directed band. Drywell pressure is lowering as a result of Containment Spray with Service Water and PSP has not been exceeded.

SCENARIO # 1 March, 2002

I. SIMULATOR SET UP A. IC Number: IC 20, 100% Reactor Power B. Presets/Function Key Assignments

1. Malfunctions:
a. RD095423X,54-23X Control Rod failure, scrammed, ET01
b. RR1 8, Jet Pump failure, Loop "A" F5
c. RR20, RR Loop Rupture, @ 7% over 5 minutes F8
d. PC 1OB, Drywell/Wetwell vacuum Brk. Pair failed open F8
e. RHI 8B, RHR "B" Suction Strainer clogged, @ 90% over 3 minutes ET05
f. RHOiB, RHR Pump Trip, (PIB), ET02
g. MS13, MSIV Isolation Failure Queued
h. TCO1A, EHC System Pressure Regulator Fails High F6
2. Remotes:
a. RPOl, RPS MG "A", Reset F3
b. RPO4, RPS MG "A" Stop F4
c. RHS*MOV 4A, 103C fuse pulled Queued
3. Overrides:
a. P601-El2A-S07A-A, RHS*MOV 8A Green light "OFF" Queued
b. P601-E12A-S34A-B, RHS*MOV 9A Green light "OFF" Queued
c. P601-E12A-S04A-B, RHS*MOV IA Green light "OFF" Queued
d. P601-E12A-S06A-B, RHS*MOV 2A Green light "OFF" Queued
e. P601-El2A-DS35-B, RHS*MOV IA Amber light "ON" Queued
f. P601-E12A-DS38-B, RHS*MOV 2A Amber light "ON" Queued
g. P601-E12A-DS39-B, RHS*MOV 9A Amber light "ON" Queued
h. P601-E12A-DS42-B, RHS*MOV 8A Amber light "ON" Queued
i. P628-LTB-21SCN03-C, 2ISCRV34A INBD Red light "ON" Queued
4. Annunciators:
a. AN601448 RHR "A" System Valve motor overload "ON" Queued
b. AN601556 Drywell Vac Brkr Inbd Disc Open "ON" Queued SCENARIO # 1 March, 2002

C. Equipment Out of Service

1. Remove RHR "A" Loop from service as follows; a) Depress RHR "A" manually out of service pushbutton b) Place RHR "A" Pump Switch in the pull-to-lock position.

c) Close RHS*MOV-2A, 17A and 9A.

D. Support Documentation

1. Marked up copy of N2-REP- 16 and Reactivity Maneuver Request (RMR) to restore rod 54-23 to position 48.

E. Miscellaneous

1. ETOl = RPS "A" P603 "White Lights OFF"
2. ET02 = "B" Drywell Spray (both) "OPEN"
3. ET05 = Suppression Chamber Spray Flow "A" or "B" > 600 gpm.

SCENARIO # 1 March, 2002

II. SHIFT TURNOVER INFORMATION SHIFT: - N - D DATE:

PART I: To be performed by the oncoming Operator before assuming the shift.

  • Control Panel Walkdown (all panels) (SSS, ASSS, STA, CSO, CRE)

PART II: To be reviewed by the oncoming Operator before assuming the shift.

  • Shift Supervisor Log (SSS, ASSS, STA)
  • Shift Turnover Checklist (ALL)
  • CSO Log (CSO)
  • Computer Alarm Summary (CSO)

(SSS, ASSS, STA, CSO, CRE)

Evolutions/General Information/Equipment Status:

  • Reactor Power = 100% *_Loadline = > 100%

"A" RHR Loop out of service for work on the minimum flow valve. Expected to be returned to service for testing in two (2) days. Seven day LCO on T.S. 3.5.1LA, 3.6.1.6.A, 3.6.2.3.A, and 3.6.2.4.

Inboard Drywell Vac Breaker is inoperable and open 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> ago. 60 hours6.944444e-4 days <br />0.0167 hours <br />9.920635e-5 weeks <br />2.283e-5 months <br /> remain on LCO clock for TS 3.6.1.7 Required Action B. 1 Maintenance Crews are actively working the problem.

PART III: Remarks/Planned Evolutions:

Required evolution during this shift - Transfer RPS "A" to alternate and shutdown RPM-MGlA, per N2-OP-97, Section G.2.0. This is being done to facilitate maintenance on the motor.

PART IV: To be reviewed/accomplished shortly after assuming the shift:

  • Review new Clearances (SSS)
  • Shift Crew Composition (SSS/ASSS)

TITLE NAME TITLE NAME lSSS CRE ASSS E STA _E_

CSO Other _ _ _ _ _ _ _

SCENARIO # 1 -5 March, 2002

PERFORMANCE OBJECTIVES A. Critical Tasks:

CT-1.0 Given an EHC regulator failure resulting in a rapid lowering of reactor pressure, the crew will initiate a manual scram and close the MSIVs per N2-SOP-23.

Tasks: SRO 3449290503 Direct the actions required for an EHC Regulator failure.

3449300503 Direct the actions required for a Reactor Scram.

RO 209050501 Perform the required actions for an EHC failure.

2010130101 Scram the reactor manually and take immediate actions.

CT-2.0 Given a failure of normal Containment Spray systems, the crew will initiate Containment Spray to maintain Suppression Chamber Pressure below Pressure Suppression Pressure Limit using Service Water System Cross-tie to RHR "B" per N2-EOP-6, Attachment 5.

Tasks: SRO: 3449430603 Direct the actions required per EOP-PC section Primary Containment Pressure.

RO: 2050150101 Operate the Containment Spray System.

2009250501 Perform the actions required for a Loss of Coolant Accident (Small Leak) inside the Primary Containment.

B. Performance Objectives:

PO-1.0 Given information contained in the Shift Turnover Sheet, the crew will transfer RPS "A" Scram Solenoid Power Supply from normal to alternate and shutdown the RPM "A" Motor Generator Set, per N2-OP-97.

Tasks: RO 2120090101 Shift the RPS Bus to the Alternate Power Supply.

SCENARIO # 1 March, 2002

PO-2.0 Given a half scram condition and a single control rod scram, the crew will implement the actions of N2-SOP-08. The crew will restore the rod to the fully withdrawn position following repairs.

Tasks: RO 2000390401 Perform the actions required for a mispositioned control rod.

2009140501 Perform the actions required for an unexplained reactivity change.

PO-3.0 Given a jet pump failure, the crew will commence a plant shutdown as required by Technical Specifications.

Tasks: SRO: 2020030203 Determine Jet Pump Operability.

3410320303 Evaluate plant system performance and coordinate appropriate actions per Tech Specs, as required.

3419120103 Direct the actions of the operators during a reactor shutdown.

3419140103 Direct reactor power changes (>10%)

using Recirc Flow or Control Rods.

RO: 2020020101 Adjust the Recirc Flow using Loop Manual Control.

PO-4.0 Given an EHC regulator failure resulting in a rapid lowering of reactor pressure, the crew will implement N2-SOP-23.

Tasks: SRO 3449290503 Direct the actions required for an EHC Regulator failure.

RO 209050501 Perform the required actions for an EHC failure.

PO-5.0 Given a small reactor coolant leak inside the drywell and a pair of stuck open Drywell/Suppression Chamber Vacuum Breakers, the crew will maintain containment parameters by implementing N2-EOP-PC.

Tasks: SRO: 3449430603 Direct the actions required per EOP-PC section Primary Containment Pressure.

SCENARIO # 1 March, 2002

RO: 2229020401 Operate the Drywell Cooling System with a LOCA signal present.

2050150101 Operate the Containment Spray System.

2009250501 Perform the actions required for a Loss of Coolant Accident (Small Leak) inside the Primary Containment.

PO-6.0 Given a failure of normal Containment Spray systems, the crew will initiate Containment Spray to maintain Suppression Chamber Pressure below Pressure Suppression Pressure Limit using Service Water System Cross-tie to RHR "B" per N2-EOP-6, Attachment 5.

Tasks: SRO: 3449430603 Direct the actions required per EOP-PC section Primary Containment Pressure.

RO: 2050150101 Operate the Containment Spray System.

2009250501 Perform the actions required for a Loss of Coolant Accident (Small Leak) inside the Primary Containment.

PO-7.0 Given the plant in a condition requiring emergency classification, the SRO shall properly classify the event per EPP-EPIP-02.

Tasks: SRO: 3440190303 Classify Emergency Events Requiring Emergency Plan Implementation.

SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Instructor - check all queued malfunctions, overrides and annunciators have remained active.

Once given shift turnover information, allow no more than five (5) minutes for the crew to perform a walk down of panels.

CREW

  • SRO conducts pre-shift brief.
  • Crew assumes the shift.

Begin Scenario. SRO PO-1.0 Normal Evolution

  • Directs BOP to shift RPS "A" to its alternate and shutdown RPS "A" per N2-OP-97.
  • Conducts pre-evolution brief.

BOP: PO-1.0

  • Review N2-OP-97, Section G.2.0.

o Verifies that the alternate power supply transformer is available o Verifies NO SCRAM signals are present in the opposite channel (RPS "B")

  • At Panel 610, places the "Power The RPS "A " white lights on Panel 603 will Source Selector Switch" to "Alt. A".

extinguish and a half-scram signal will be present.

SCENARIO # 1 -9 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Event #2 RO Component Failure RDO9, 54-23 becomes active ET01 RO: PO-2.0

transferredto Alternate "A ".

603443 Rod Drift Alarm SRO: PO-2.0

  • Direct entry into N2-SOP-08
  • Stops all maintenance activities that could cause a half-scram.

RO PO-2.0 0 Enters and performs actions of N2-SOP-08.

o Reduce power by 40 MWe using Recirculation Flow o Notify Maintenance to troubleshoot the scrammed rod Role Play:

o Notify:

As Electrical Maintenance/FIN Team after being

> SSS dispatched, report the "B" RPS fuse is blown at

> On-call Reactor Engineer HCU 54-23. Recommend replacing fuse.

GSO AFTER being given permission to replace fuse, report the fuse is replaced.

SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Booth Operator Instruction:

When RPS "B" fuse is replaced, manually delete malfunction RD09 54-23 Role Play:

As Reactor Engineer, report Rx Engineering will immediately initiate N2-REP- 16 and RMR to recover rod 54-23 to position 48 as quickly as possible. Wait 2 minutes, then deliver the paperwork to the SRO, so that rod recovery can proceed. BOP:

Dispatch AO to reset the RPS "A" Role Play: EPA breaker and stop the RPS "A" Acknowledge directions given by the BOP. MG Set.

Wait two (2) minutes and insert remotes:

RP01, RPS MG1 EPA, Reset F3 RP04, RPS MG1, Stop F4 Role Play:

Report to the RO that the RPS "A" EPA breaker is reset and the RPS "A" MG Set is shutdown.

The RPS "A " white lights on Panel 603 will be lit after the RPM EPA Breakers are reset.

SCENARIO # 1 -1 1- March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SRO:

  • After receiving N2-REP- 16 and RMR AND Fuse is replaced, directs control rod recovery.
  • Reviews RMR
  • Performs Reactivity Brief per GAP-OPS-05.
  • Provides reactivity control oversight during rod movement.

RO:

  • Respond to any RBM alarms generated during rod withdrawal.
  • Performs coupling check at position 48 BOP:
  • Provides independent verification for RO during rod withdrawal.

Event #3 BOP/SRO Component Failure When control rod 54-23 is at position 48 and conditions have stabilized, insert malfunction:

RR18, Jet Pump Failure (Loop A) F5 Expected Annunciators:

603139, Reactor Water Level High/Low 603217, Flow Reference Off Normal SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS 603442, Control Rod Out Block RO: PO-3.0 Reactor Power, MWe and Total Coreflow lowers.

  • Reports alarm Recirc Loop A flow and Pump amps rise.
  • Monitors Reactor Power, level and Loop A Jet Pumpflow lowers and Loop B Jet Pump pressure.

flow rises.

  • Determines Jet Pumps 3 and 4 have Jet Pumps 3 and 4 differentialpressures lower as failed.

comparedwith other Jet Pumps at H13-P619.

  • Determines excessive Jet Pump flow mismatch exists.
  • Enters N2-SOP-8, Section 4.7.4.
  • Performs N2-OSP-LOG-DOO 1, Attachments 8 and 10.

SRO PO-3.0

  • Acknowledges RO report.
  • Enters T.S. 3.4.3, for Inop Jet Pump.
  • Enters T.S. 3.4.1, for Jet Pump Flow Mismatches.
  • Determines the Jet Pump flow mismatch must be restored within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.
  • Directs RCS Loop "B" flow lowered Role Play: to restore Jet Pump flow mismatch.

As Operations Management, direct the SRO to

  • Notifies Ops. Management.

commence a normal Plant shutdown as soon as

  • Determines the Plant must be in Hot possible. Shutdown within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS

  • Directs CREW to perform Plant Shutdown per N2-OP-IO1 C.
  • Briefs CREW on the Shutdown.

Event #4 RO Reactivity Manipulation RO:

  • Commence power reduction by lowering Recirc. flow Event #5 RO Instrument Failure When Reactor Power has been reduced 5% to 10%,

insert the following malfunction:

TCO1A, EHC System Pressure BOP: PO-4.0 Regulator fails high. F6

  • Identifies and reports EHC Regulator ExpectedAnnunciator: failure.

851119 Turbine Trouble

Reactor Pressureand Main Steam Line pressure start lowering. SRO: PO-4.0 EHC System opensNV's and the TB V's.

  • Acknowledges BOP report.

If Reactor Pressurereaches 776 psig the MSIV's

  • Directs RO to manually scram the will receive a signal to close, but remain open due Reactor per and close the MSIV's.

to Isolation Failuremalfunction.

  • Enter and execute N2-EOP-RPV.

SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RO: CT-1.0

  • Scrams the Reactor by placing the Mode Switch to SHUTDOWN.
  • Closes the Outboard MSIV's.

During this transient the following malfunction is SRO:

active to ensure manual action is taken by the Crew

  • Directs level be maintained 160" to to shutdown the reactor and stop the RPV 200" with Feedwater System, RCIC depressurization: and/or HPCS.

MS13, MSIV Isolation Failure Queued

  • Directs pressure maintained stabilized with SRV's.

Expected Annunciators.

603127, Div. I Main Steam Line PressureLow BOP:

603427, Div. II Main Stem Line PressureLow

  • Maintains pressure using SRV's.

If Reactorpressure lowers to < 776 psig the RO RO:

should notice the failure of the MSIV's to

  • Maintains level as directed using automatically isolate and manually close them. Feedwater, RCIC and/or HPCS.
  • Verify 2 Condensate AND 2 Booster Pumps are in service.
  • Verify LV 10 controllers in MAN and full closed.
  • Reset Level 8 trips using pushbuttons SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS

  • Injects through LV10 If RP V water level drops to 108 ", HPCS will automaticallystart.

Event #6 Major Transient When post SCRAM level and pressure have been RO:

stabilized insert the following malfunctions:

  • Reports Reactor water level and RR20, RR Loop Rupture, @ 7% over 5 minutes. pressure are lowering.

F8 PC1OB, Drywell/Wetwell Vacuum Breaker pair BOP: PO-5.0 failed open. F8

  • Reports Drywell and Suppression Chamber pressures are rising.

Drywell and Suppression Chamberpressure begin

  • Drywell/Suppression Chamber to rise. vacuum breakers 2ISC*RV34 A & B Expected Major Annunciator: are open.

601556DRYWELL VACUUMBRKR INBOARD DISC OPEN 601557 DRYWELL VACUUM BRKR OUTBOARD DISC OPEN SRO:

603140 DRYWELL PRESSURE HIGH/LOW

  • When Drywell Pressure exceeds 1.68 psig:

Drywell andSuppression Chamberpressure will o Re-enter N2-EOP-RPV rise together and exceed 1.68 psig.

o Enter N2-EOP-PC Reactor Pressure will continue to lower.

  • Directs Suppression Chamber Spray using RHR Loop "B".

SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS

  • Directs DW Coolers restored.

BOP:

  • Reports rising containment pressure and temperature. (w/values)
  • Initiates Suppression Chamber Spray by opening RHS*MOV33B.

. Verifies and reports CSH automatically started as required.

Event #7 BOP Component Failure BOP:

When Suppression Chamber Spray is initiated, the

  • Recognize and report Suction Strainer following malfunction will occur:

clogging problem.

RH18B, RHR B Suction Strainer Clogged @

  • Monitor RHR Pump "B" parameters.

90% over 3 minutes. ET05

  • If directed, secures Suppression Chamber Spray by closing RHR Pump B amps andflow will start oscillating RHS*MOV33B and tripping as the suction strainerclogs.

RHS*PlB.

SRO:

  • May direct use of alternate sources for Evaluator Note: Crew will either secure RHR Pump Containment Spray.

"B" from Suppression Chamber Spray now and align Service Water to RHR Loop "B" OR align Service Water to RHR Loop "B" after the RHR SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS pump auto trips. Either path is acceptable as long as Drywell Spray is initiated with Service Water SRO:

before exceeding PSP. When Suppression Chamber pressure Suppression Chamberpressure continues to rise is greater than or equal to 10 psig, and exceeds lO psig. directs:

o Directs Drywell sprays initiated either using RHR "B" OR Service Water lined up to RHR "B".

  • Directs RCS Pumps and Drywell Unit Coolers tripped
  • Verifies parameters within DW Spray Initiation Curve.

o LPCI/LPCS injection overridden prior to injection.

BOP:

  • Reports containment pressure and temperature. (w/values)
  • Initiates Drywell Sprays by opening RHS*MOV15B and MOV25B1.

After Drywell Sprays are initiated, Drywell and

  • Restores nitrogen to the Drywell when Suppression Chamber Pressure begin to lower.

directed.

SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS NOTE: If SRO elects to keep using the "B" RHR BOP: CT-2.0 Pump, it will automatically trip when the

  • Secures Drywell and Suppression Drywell Spray MOVs are full open by the Chamber Sprays using "B" RHR.

following malfunction:

o Places RHS*P1B in PTL o Close RHS*MOV12B o Open RHS*MOV116 o Open RHS*MOV115

o Verify RHS*MOV24B closed o Verify RHS*FV38B closed o Open RHS*MOV33B to spray Suppression Chamber o Open RHS*MOV15B and 25B to spray Drywell.

Termination Cue: SRO:

  • Reactor is shutdown with RPV Level and
  • Classify this event as an ALERT, EAL Pressure controlled in the directed band. 3.1. 1. by completing Category "A"
  • Drywell and Suppression Chamber Pressure is JPM for this scenario.

lowering as a result of Containment Spray using Service Water.

  • Pressure Suppression Pressure (PSP) limit has not been exceeded.

SCENARIO # 1 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SRO Candidate Evaluator: SRO: PO-7.0 After simulator is placed in FREEZE, ask the SRO

  • Classify this event as a ALERT 3.1.1 Candidate to classify the event.

SCENARIO # 1 March, 2002

V. POST SCENARIO CRITIQUE (Not required for Annual and Initial Operating Exams.)

VI. REFERENCE EVENTS AND COMMITMENTS A. Reference Events

1. None B. Commitments
1. None VII. LESSONS LEARNED SCENARIO # 1 March, 2002

Appendix D Scenario Outline 1fvird rm ES-D-1 Nine Mile Point 2 Scenario No. 2 lOperating Test No. 1 Examiners: Candidates: SRO: Upgrade 1,2,3 RO: Instant 1,2,3 BOP: RO 1, 2, Surrogate Objectives: Evaluate candidates ability to perform routine operating tasks using normal, abnormal and emergency procedures while ensuring compliance with Technical Specifications.

The candidates will respond to the following events:

1. CRD pump trip
2. Recirculation FCV fail to full open position
3. RCIC steam leak in Reactor Building with a failure to isolate
4. Control rods fail to fully insert on a valid scram signal.

This scenario will be classified as a SITE AREA EMERGENCY (EAL 4.1.1)

Initial Conditions:

1. Reactor Startup in progress, currently at 50% reactor power and 80-100% rod line.
2. N2-OP-8 Section E, step 4.0 is being used to start the third 4"'. Point Heater Drain pump and place it pumping forward.

Turnover:

1. Currently the Plant is at 50% reactor power and 80-100% rod line.
2. Continue Plant startup (N2-OP- 101 D, Section E, step 1. 10), and place the third 4th Point Heater Drain pump in service and start pumping forward per N2-OP-8, Section E, step 4.0.

Event Malf. Type Event Description No. fNo.

I N (BOP/SRO) Start HDL Pump 3 for pumping forward per N2-OP-8.

2 RD12A C (RO) "A" CRD pump trip - Electrical fault 3 R (RO) Raise Reactor Power to 70-75% using Reactor Recirculation FCVs.

4 RR49A C (RO/SRO) Recirculation FCV position indication failure causes FCV to open. (T.S. 3.4.1 Loop Flow Mismatch.) DER 2-2000-3775 5 Overrides (SRO) MCC 302 Feeder Breaker to ICS*MOV128 trips open, (T.S.

3.6.1.3 Primary Containment Isolation Valve Inoperable).

6 RC12, C (BOP/RO/SRO) RCIC Steam Leak with RCIC Failure to Isolate RCI 1 requiring a manual scram. Minor Fuel Failure (3% over 2 minutes RXOI following scram) 7 RD17A M (RO/BOP/SRO) One Group of 12 Control Rods stuck at position 04 RD07 and power < 4%. Emergency Blowdown is required due to high Reactor Building temperatures.

8 AD08C C (BOP/SRO) ADS/SRV PSV 126 fails to open during Emergency Blowdown due to Loss of N2 supply.

NMP SIMULATOR SCENARIO SCENARIO # 2 REV. 0 No. of Pages: 23 CRD PUMP TRIP/RCS FCV FAILURE/RCIC STEAM LEAK WITH STUCK RODS PREPARER DATE 4________

VALIDATED 61',

ettk 'S. DATE 5ShZlo2 GEN SUPERVISOR >, /

OPS TRAINING !1 ( DATE L OPERATIONS MANAGER UNIT 2 DATE 6/3 02-CONFIGURATION CONTROL DATE SCENARIO

SUMMARY

Length: 60 minutes The scenario begins at 50% power during power ascension. The crew will continue the plant startup using normal operating procedures. Heater Drain Pumps will be lined up to pump forward prior to raising power.

The operating Control Rod Drive Pump will trip due to an electrical fault. The crew will implement the required actions of N2-SOP-30 and start the standby Control Rod Drive Pump. The crew will commence power ascension by raising Recirculation 'Flow System (RCS). As power is being raised, the RCS Flow Control Valve will experience a failure of the valve position components (RVDT) which results in an uncontrolled ramping open of the FCV. The operator will implement the actions of N2-SOP-08 to stop the valve motion by tripping the Hydraulic Power Unit (HPU). The power excursion results in a small amount of fuel failure, which results in elevated radiation levels later in the scenario. Tech Spec entry is required due to the RCS Loop Flow mismatch.

When conditions are stable, the circuit breaker for RCIC Steam Line Isolation valve trips open. This results in Primary Containment Isolation Valve inoperability. The crew will investigate the breaker trip. A steam leak will develop on the RCIC steam piping resulting in a rise in Reactor Building temperatures.

When the high temperature isolation setpoint is exceeded the crew will enter and execute N2-EOP-SC. A failure in the RCIC isolation circuit prevents manual and automatic isolation of the leaking steam line.

The crew will be required to manually initiate a reactor scram, based on the rising Reactor Building temperature. A group of 12 control rods will fail to fully insert. The crew will continue attempts to isolate the steam line and monitor the rising temperatures and radiation levels in the Reactor Building.

When more than one area temperature exceeds 212 0 F, the crew is required to perform an RPV Blowdown per N2-EOP-C2. The Blowdown is complicated by the post scram control rod positions and the inability to open all seven ADS valves.

SCENARIO # 2 March, 2002

Major Procedures: N2-SOP-08, N2-EOP-RPV, N2-EOP-SC, and N2-EOP-C2.

EAL Classification: SITE AREA EMERGENCY (EAL 4.1. 1)

Termination Criteria: RPV RPV Blowdown is completed. RPV water level is maintained above -42 inches. Reactor Building temperatures are lowering.

SCENARIO # 2 March, 2002

I. SIMULATOR SET UP IC Number: IC-15 50% reactor power and 74% rod line.

A. Presets/Function Key Assignments

1. Malfunctions:
a. RD12A, CRD Pump (PlA) Trip. F3
b. RR49A, FCV "A" RVDT Coupling Failure F6
c. RCI 1, RCIC Isolation Failure Queued
d. RC12, RCIC Steam Leak in RB 215' Elevation, 25% ramp 10 minutes F5
e. RD17A, Partial Insertion of a Bank of Rods under Scram (LI),

triggered by the Mode Switch in the "shutdown" position. ET04

f. RD071435, Control Rod 14-35 Stuck TD 30 sec ET04
g. RD075031, Control Rod 50-31 Stuck TD 30 sec ET04
h. RX01, Fuel Cladding Failure, 3% over 2 minutes, triggered by the Mode Switch in the "shutdown" position. ET04
g. AD08C, ADS Valve N 2 Supply severed (MSS*PSV126) Queued
2. Remotes:
a. NONE
3. Overrides:
a. MOV 121, Steam Supply Line Isolation (Outboard) - "OPEN" Queued
b. MOV 128, Steam Supply Line Isolation (Inboard) - "OPEN" Queued
c. MOV 128, Steam Supply Inboard Isolation INOP Amber - "ON" F4
d. MOV 128, Steam Supply Line Isolation (Outboard) Green- "OFF" F4
e. MOV 128, Steam Supply Line Isolation (Outboard) Red - "OFF" F4
f. MOV 121, Steam Supply Line Isolation (Outboard) Green - "ON",

triggered when alarm 601157 RB High Temperature actuates. ET02

g. MOV 121, Not Fully OPEN, Amber - "ON",

triggered when alarm 601157 RB High Temperature actuates. ET02

4. Annunciators:
a. AN601305, RCIC System Inoperable - "ON" F4
b. AN601319, RCIC Valves Motor Overload - "ON" F4 SCENARIO # 2 March, 2002

C. Equipment Out of Service

1. NONE D. Support Documentation
1. N2-OP-IO1D, Section E.1.10
2. N2-OP-08, Section E.4 E. Miscellaneous
1. Perform N2-OP-08 Section G. 1.0 to place Heater Drain Pump "C" back on Recirc, but leave Pump "A" and "B" pumping forward.
2. Yellow Rod Line Sign posted SCENARIO # 2 March, 2002

II. SHIFT TURNOVER INFORMATION SHIFT: - N -D DATE:

PART I: To be performed by the oncoming Operator before assuming the shift.

  • Control Panel Walkdown (all panels) (SSS, ASSS, STA, CSO, CRE)

PART II: To be reviewed by the oncoming Operator before assuming the shift.

  • Shift Supervisor Log (SSS, ASSS, STA)
  • Shift Turnover Checklist (ALL)
  • CSO Log (CSO)
  • Computer Alarm Summary (CSO)

(SSS, ASSS, STA, CSO, CRE)

Evolutions/General Information/Equipment Status:

  • Reactor Power = 50%
  • Loadline = 74%_

Plant start-up in progress per N2-OP- 101 D Expected to be at 100% Power by the end of this shift.

Appropriate log entries have been made PART III: Remarks/Planned Evolutions:

Continue Plant startup (N2-OP-IOD, Section E, step 1.10), and place the third 4tI" Point Heater Drain pump in service and start pumping forward per N2-OP-8, Section E.4.0.

THEN raise power to 65% with Recirc Flow PART IV: To be reviewed/accomplished shortly after assuming the shift:

  • Review new Clearances (SSS)
  • Shift Crew Composition (SSS/ASSS)

TITLE NAME TITLE NAME SSS __ _ _ _ _ _ _CRE_ _ _ _ _ _ _ _

ASSS EE _ _e_ _

STA OthE CSO Other SCENARIO # 2 March, 2002

III. PERFORMANCE OBJECTIVES A. Critical Tasks:

CT-1.0 Given conditions requiring an RPV Blowdown and all control rods not fully inserted the crew shall terminate and prevent all RPV injection sources (except CRD, RCIC and SLS) prior to opening ADS valves per N2-EOP-C2._

Tasks: SRO 344-952-06-03 Direct the actions required per EOP-C2, RPV Blowdown CT-2.0 Given conditions requiring an RPV Blowdown and all control rods not fully inserted the crew shall open seven ADS valves to reduce reactor pressure below 153 psig per N2-EOP-C2.

Tasks: SRO 344-952-06-03 Direct the actions required per EOP-C2, RPV Blowdown RO: 218-002-01-01 Manually initiate the ADS System and monitor while activated CT-3.0 Given conditions requiring an RPV Blowdown and all control rods not fully inserted the crew shall restore and maintain RPV water level above -

42 inches by injecting with Feedwater when RPV pressure drops below 153 psig per N2-EOP-C5.

Tasks: SRO: 344-957-06-03 Direct the actions required per EOP-C5, Failure To Scram B. Performance Objectives:

PO-1.0 Given the plant at 50% power during power ascension the crew will lineup the 4 t' Point Heater Drain Pumps to pump forward in accordance with N2-OP-8.

Tasks: RO: 243-901-01-01 Startup the Feedwater Heater &

Extraction Steam System SCENARIO # 2 March, 2002

PO-2.0 Given an electrical fault trip of the operating Control Rod Drive Pump the crew will start the standby pump in accordance with N2-SOP-30.

Tasks: SRO: 3449730403 Respond to a loss of CRD pumps during plant operations.

RO: 2000340401 Perform the actions required for a CRD System failure (Pump trip).

PO-3.0 Given a failure (unexpected opening) of a Recirc Flow Control Valve (RCS FCV) that results in Jet Pump flow mismatch the crew will stabilize reactor power and Recirc Flow in accordance with N2-SOP-08 and comply with Technical Specifications.

Tasks: SRO: 2029050403 Determine if flow mismatch exceeds Tech Spec requirements.

3410320303 Evaluate plant systems performance and coordinate appropriate actions per Tech Specs, as required.

3449280503 Direct the actions required for an unexplained core reactivity change.

RO: 2009140501 Perform the actions required for an unexplained core reactivity change.

2009340101 Respond to a failure of a Flow Control Valve Hydraulic Power Unit.

PO-4.0 Given a circuit breaker trip on the RCIC Steam Line Containment Isolation Valve (ICS*MOV128), the crew will identify non compliance with Primary Containment Isolation Valve Tech Specs, investigate the cause of the breaker trip and initiate actions to restore Tech Spec compliance.

SCENARIO # 2 March, 2002

Tasks: SRO: 3410320303 Evaluate plant systems performance and coordinate appropriate actions per Tech Specs, as required.

PO-5.0 Given an unisolable steam leak in the Reactor Building the crew will enter attempt to isolate the leak and manually scram the reactor prior to any area exceeding 212'F per N2-EOP-SC.

Tasks: SRO: 344-946-06-03 Direct the actions required per EOP-SC Section Temperature/Radiation RO: 201-013-01-01 Scram the reactor manually and take immediate actions.

PO-6.0 Given reactor power below 4% and a failure of one group of control rods to fully insert following a manual scram the crew will execute the actions of N2-EOP-C5.

Tasks: SRO: 344-957-06-03 Direct the actions required per EOP-C5, Failure To Scram RO: 200-936-05-01 Manual control rod insertion JAW EOP-6, Att.14 PO-7.0 Given an unisolable steam leak in the Reactor Building resulting in more than one area above 2120 F and all rods not fully inserted, the crew will terminate and prevent RPV injection and open 7 ADS valves to perform an RPV Blowdown per N2-EOP-C2.

Tasks: SRO: 344-952-06-03 Direct the actions required per EOP-C2, RPV Blowdown RO: 218-002-01-01 Manually initiate the ADS System and monitor while activated PO-8.0 Given the plant in a condition requiring emergency classification, the SRO shall properly classify the event per EPP-EPIP-02.

Tasks: SRO: 344-019-03-03 Classify Emergency Events Requiring Emergency Plan Implementation.

SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Instructor - check all queued malfunctions, overrides and annunciators have remained active.

Once given shift turnover information, allow no more than five (5) minutes for the crew to perform a walk down of panels.

CREW

  • SRO conducts pre-shift brief.
  • Crew assumes the shift.

Begin Scenario. SRO PO-1.0 Event #1 BOP Normal Evolution

  • Directs BOP to place the third 4"' Point Heater Drain Pump in service per N2-OP-08, Section E.4.0
  • Conducts pre-evolution brief.

BOP: PO-1.0 Role Play: As AO acknowledge the need to

  • Perform N2-OP-08, Section E.4.0 establish communication with the Control Room at o Dispatches an AO to 2CES-Panel 204. IPNL204 to monitor 4h Point Wait about 2 minutes and report that you are Heater Level AND maintain stationed at Panel 204 and communications with the communication with the Control Control Room has been established. Room.

o Set 2HDL-LV4C auto setpoint thumbwheel to 36%

SCENARIO # 2 g9 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS o Open 2HDL-LV4C using controller in manual to match auto setpoint.

o Verify 2HDL-FV35C recirc valve closes as pump flow rises.

o Places 2HDL-LV4C controller in auto.

Booth Operator Instruction: o Directs AO at IPNL204 to raise WHEN directed to raise 2HDL-LV24C setpoint to setpoint for 2HDL-LV24C to 67%.

67%, activate REMOTE: o Report all 4t" Point Heater Drain FW13C to 67% Pumps are pumping forward.

Event #2 RO Component Failure Booth Operator Instruction:

When the last of the 4th Point Heater Drain Pumps is pumping forward, insert the following malfunction: RO:

RD12A, CRD Pump Trip (PIA) - F3

  • Identifies and reports the loss of RDS-P1A.

CRD*P1A trips on instantaneousovercurrent.

Expected annunciators:

603308 CRD PUMP lA/lB A UTO TRIP 603313 CRD PUMP lA/lB MOTOR ELEC FAULT SRO: PO-2.0 603311 CRD CHARGING WTR PRESSURE LOW

  • Direct entry into N2-SOP-30, Section 603446 CRD PUMP DISCHHEADER PRESSURE 4.2.

LOW SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RO: PO-2.0

  • Takes the actions of N2-SOP-30 to NOTE: Depending on the amount of time that no start the standby CRD Pump.

CRD pump is operating, Annunciator 603316, o Determines that NO accumulators "Control Rod High Temperature" may be received are inoperable.

at this time. o Shift RDS-FC 107 Flow Controller to MAN o Close FCV to 0%

o Determines pump trip was NOT caused by low suction pressure by observing Electric Fault trip annunciator o Starts RDS -PlB o Opens FCV to establish 63 gpm o Shift RDS-FC 107 to AUTO.

  • Dispatches AO to RDS-P1A and/or the Role Play: supply breaker.

As AO wait about three minutes and report; "RDS-P1A breaker is tripped with an overcurrent flag." and/or "RDS-PIA motor is very hot to the touch."

RO:

Role Play:

Temperature" has actuated, as dispatched AO, wait

  • Dispatched an AO to monitor CRD about three minutes report that the highest temperatures.

temperature is on rod 18-43 and ask the RO if the alarm is clear.

SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS If it is NOT, report the temperature at 2650 F.

If it IS, report the temperature at 2390 F.

Event #3 RO Reactivity Manipulation SRO:

After RDS-P 1B is running and the Control Rod

  • Directs power ascension to continue high temperature alarm is investigated and cleared by raising power to 65% with recirc the CREW will continue the power ascension. flow.

Event #4 RO/SRO Component Failure RO:

Booth Operator Instruction: Raises Recirc Flow using Loop Flow AFTER RO Evaluator has determined power Controllers in Manual.

change was significant enough for evaluation AND the power ascension will continue, activate malfunction for the "A" Recirculation FCV by RO: PO-3.0 depressing F6 key:

  • Recognize and respond to the "A" RR49A, FCV "A" RVDT coupling failure FCV failure, using N2-SOP-08, F6 Section 3.3 and 4.4.

o May attempt to stabilize flow by After malfunction is entered, the next FCV demand inputting a close signal to FCV signal will cause the FCVto open fully regardless "A".

of the demands that may be inserted by the RO. o Shutdown the HPU using P602 pushbutton Recirc Loop "A "flow and reactorpower will rise. o Close outboard valves to isolate When the FCV hydraulics are isolatedajet pump hydraulic lines to the FCV.

loop flow mismatch is likely to be occurring.

  • Report the "A" FCV failure to the If a "close " signal is inputted, the FCV will close to SRO.

minimum position and a power reduction SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SRO: PO-3.0

  • Acknowledges RO report.
  • If flow is lowered due to the FCV failure, enters N2-SOP-29.
  • Enters T.S. 3.4.1 for Loop Flow Mismatch Role Play:
  • Notifies I&C to investigate the cause As I&C, wait about five minutes and report that the of the "A" FCV failure.

failure of the "A" FCV was due to an RVDT failure.

It is NOT intended for the crew to place the alternate position indication system in service for this scenario.

Event #5 SRO Component Failure/Tech Spec Booth Operator Instruction:

When directed by the Lead Evaluator, insert the following overrides for ICS*MOV 128 breaker trip, BOP:

by depressing F4 key:

  • Recognizes and reports RCIC Inboard MOV*128, Steam Supply Line Isolation Isolation Valve failure.

(Inboard) - Green - "OFF"

  • Dispatches AO to investigate breaker MOV*128, Steam Supply Line Isolation trip for MOV* 128.

(Inboard) - Red - "OFF" MOV*128, Steam Supply Inboard Isolation - SRO: PO-4.0 INOP Amber - "ON"

  • Acknowledges BOP report.

AN601305, RCIC System Inoperable - "ON"

  • Refers to T.S. 3.6.1.3, Primary AN601319, RCIC Valve Motor Overload - "ON" Containment Isolation failure.

All on "F4"

  • Requests I&C assistance.

MOV*128 Steam Supply Line Isolation (Inboard) - "OPEN" Queued SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Role Play:

When dispatched by the BOP, ask for panel and breaker numbers.

Wait two (2) minutes and report breaker in the tripped condition. "No cause is apparent."

Event #6 Major Transient Booth Operator Instruction:

After Tech Specs are reviewed by the SRO for MOV* 128 failure, insert the following malfunction: BOP:

RC12, RCIC Steam Leak in Reactor Building,

  • Check DRMS to determine RB 25% over 10 minute ramp F5 HVR*RE32A/B alarming
  • Verify RB Ventilation System isolates Expected Annunciators: and GTS starts.

852254 ProcessAirborne Rad Monitor Activated

  • When directed, evacuates the reactor Building.

SRO:

  • Enters EOP-SC when HVR*RE32A/B exceed DRMS Red setpoint.
  • Directs RB evacuated.

601157- Reactor Building General Areas Temperature High is received and RCIC Steam Line should isolate as temperaturerises above 135°F. WCS system isolates.

SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS WHEN 601157, Reactor Building General Areas Temperature High is received, Event Trigger ET02 activates: BOP:

MOV*121, Steam Supply Line Isolation

  • Recognize and reports increasing area (Outboard) - Green - "ON" temperatures and high airborne MOV* 121, Not Fully Open - Amber - "ON" radiation levels in the Reactor ET02 Building.

MOV*121 Steam Supply Line Isolation

  • Confirms WCS and RHR isolation.

(Outboard) - "OPEN" Queued

  • Reports failure of RCIC to (Prevents valve from closing) automatically isolate.

MOV* 128 has no power andMOV*121 appears to

  • Monitors back panels for trending area be closing.

temperatures and radiation levels.

However, RCIC steam line pressure stay up and

  • Reports levels and trends to the SRO.

temperatures in the area are still rising.

Thus, no isolation of the RCIC Steam Line has occurred.

SRO:

  • Directs BOP to manually isolate RCIC Steam Line.

BOP:

  • Attempts to manually isolate the RCIC Steam Line by closing MOV* 121.

SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RO:

Firstarea temperature approaches212 'F. BOP:

  • Recognizes and reports the failure of the manual isolation of the RCIC Steam Line. COf m SRO: PO-5.0 Event #7 Crew Component Failure
  • Recognizes that a "primary system" is Placing the Mode Switch in SHUTDOWN position .iarging into the Reacitor Building.

will trigger the following malfunctions:

  • entry into RD17A, Partial Insertion of a Bank of Rods N2-SOP-1OlC, before any area under Scram (Ll), final value of "04" exceeds 212 0F. C2A` AJZ AF4 "9n RD071435, Control Rod 14-35 Stuck

ET04 RO: IPO-5.0

  • Places the Mode Switch to SHUTDOWN.

SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS

  • Recognizes and reports that NOT all control fully inserted
  • Reports reactor power, pressure and watr level.

SRO:

  • Enters N2-EOP-C5 o Directs BOP to inhibit ADS and place HPCS in PTL

?

i o Directs RO to initiate RRCS per N2-EOP-6, Attachment 13 o May direct MSIV Low Level Booth Operator Instruction: isolations bypassed per N2-EOP-6, IF MSIV Low Level isolations are directed to be Attachment 10.

bypassed MANUALLY enter the following o Assigns RPV water level and REMOTE functions: pressure bands.

MS06A, Defeat Level 1 Isolation, Defeated MS06B, Defeat Level 1 Isolation, Defeated BOP:

MS06C, Defeat Level 1 Isolation, Defeated

  • Inhibits ADS using keylock switches.

MS06D, Defeat Level 1 Isolation, Defeated

RO:

  • Manually initiates RRCS by arming and depressing RRCS pushbuttons.
  • Reports control rods are still NOT fully inserted, but Reactor power is less than 4% and lowering.

SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SRO:

  • Directs RO to enter and perform N2-EOP-6, Attachment 14.

IF RO drives control rods per N2-EOP-6 4, rods 14-35 and 50-31 are stuck at position 04. This ensures RPV Blowdown is performed in the all rods not full in leg of EOP-C2.

IF rods are not driven until after the blowdown, delete RD07 14-35 and RD07 50-31, to allow all rods to be fully inserted.

Booth Operator Instruction:

WHEN directed by the Lead Evaluator to ensure 2 "d BOP:

area temperature reaches 212'F, activate

  • Reports second area temperature above malfunction by depressing F7 key: 212'F to the SRO.

RC12, RCIC Steam Leak in Reactor Building 30% F7 The second areatemperature exceeds 212 'F.

SRO: PO-7.0

  • Acknowledges BOP report of second area temperature above 212 0 F.
  • Enters and executes N2-EOP-C2.

o Directs RO and BOP to terminate and prevent all injection to the SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS N-RPV, except CRD, RCIC and SLS.

o After RPV injection is terminated and prevented, directs BOP to open seven (7) ADS/SRV's.

RO): CT-1.0 0 Terminates and prevents injection to the RPV by closing Feedwater LV10s.

BOP:

  • Terminates and prevents injection from ECCS systems as follows:

o Manually initiates Div 1 and 2 RHR logic o Overrides closed CSL and 3 RHR system Injection Valves o Places CSL and RHR "C" pumps in PTL.

BOP: CT-2.0 Event #8 BOP/SRO Component Failure

  • Attempts to open seven (7) ADS /

The queued malfunction: SRV's by arming and depressing AD08C, ADS Valve N2 supply severed. Queued both divisions of ADS logic.

will prevent one of the ADS / SRV's from opening.

  • Recognizes and reports failed ADS /

SRV to the SRO.

SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SRO:

  • Acknowledges the failed ADS / SRV.
  • Directs BOP to open a non-ADS /

SRV so that the total open relief valves is seven (7).

BOP: CT-2.0

  • Opens a non-ADS / SRV using keylock switch
  • Reports seven (7) SRVs are open.

RO: CT-3.0 Reactor Pressure is lowering.

  • Reports when RPV pressure drops Reactor BuildingArea Temperature level out and below 153 psig.

start to lower

  • When directed, commences injection Suppression Pool temperature is rising but by opening FWS- LV10s to restore controlled. and maintain level above -42 inches.

SRO:

  • When RPV pressure drops below 153 psig directs injection to restore and maintain level above -42 inches.

NOTE: If control rods are not yet being driven in, ensure EOP-6 Attachment 14 is continuing at this point in the scenario.

SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RO:

  • Directs ARI interlocks defeated by pulling ARI fuses.
  • Directs RPS defeated by installing RPS jumpers.
  • After ARI fuses are pulled and RPS jumpers are installed resets RPS logic and verifies eight white RPS solenoid lights are lit Booth Operator Instruction:
  • Verify SDV Vent and Drain After RPS is reset, delete malfunction RD17A to valves are open.

allow control rods to fully insert when a manual

  • Waits until SDV is drained scram signal is inserted. Also verify stuck rod before inserting a manual malfunctions RD071435 and RD075031, Control scram using pushbuttons.

Rod Stuck are removed RO:

  • Starts 2nd CRD Pump
  • Places CRD FCV in MAN and SCENARIO # 2 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS fully opens valve.

  • Fully closes Drive Pressure Control Valve to raise drive pressure.
  • Bypasses RWM using key.

Termination Cue:

  • RPV RPV Blowdown is completed. SRO: PO-8.0
  • Reactor Building temperatures are lowering.
  • Classify this event as a SITE AREA
  • RPV water level is restored and maintained EMERGENCY (EAL 4.1. 1) above -42 inches
  • All rods are fully inserted SRO Candidate Evaluator:

After simulator is placed in FREEZE, ask the SRO Candidate to classify the event.

SCENARIO # 2 March, 2002

V. POST SCENARIO CRITIQUE (Not required for Annual and Initial Operating Exams.)

VI. REFERENCE EVENTS AND COMMITMENTS A. Reference Events

1. None B. Commitments
1. None VII. LESSONS LEARNED SCENARIO # 2 March, 2002

Appendix D Scenario Outline Form ES-D-1 Nine Mile Point 2 Scenario No. 3 lOperating Test No. 1 Examiners: Candidates: SRO: Instant 1,2,3 RO: R01,2, Surrogate BOP: Upgrade 1,2,3 Objectives: Evaluate candidates ability to perform routine operating tasks using normal, abnormal and emergency procedures while ensuring compliance with Technical Specifications. The candidates will respond to the following events:

1. APRM #2 fails upscale
2. Standby Gas Train "B" Fan trip during testing.
3. Emergency Shutdown of Reactor Feedwater Pump "B".
4. Inadvertent RCIC Initiation.
5. Loss of Offsite Power Line 5 with Diesel Generator failure.
6. Small LOCA with concurrent Loss of Feedwater.

This scenario will be classified as an ALERT (EAL 3.1.1)

Initial Conditions:

1. 100% Power Above 100% Rod Line (IC-20)

Turnover:

1. 100% Power Above 100% Rod Line
2. MFLCPR is 0.95
3. Unidentified Drywell leakage has risen from 0.1 gpm to higher value in the last 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.
4. Perform Monthly 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> run surveillance for Standby Gas Train "B".

Event Malf. Type Event Description No. No.

1 N (BOP/SRO) Standby Gas Train "B" 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> run surveillance 2 NMI IB I (RO) APRM # 2 fails high requiring manual bypass 3 PC04B C (BOP/SRO) Standby Gas Train "B" Fan trip during surveillance.

T.S. 3.6.4.3, Seven day Required Action A.l 4 Field C (BOP) Feedwater Pump "B" Emergency Shutdown due to Report excessive seal leakage.

5 R (RO) Emergency Power Reduction using Cram Rods and Recirc Flow for Feedwater Pump Shutdown 6 RClO C (BOP) Inadvertent RCIC Injection to the Reactor.

7 ED02A C (BOP/RO/SRO) Loss of Line 5, EDG-l fails to auto start DG02A requiring a manual scram with concurrent small break LOCA.

8 FWOIB M (RO/SRO) Loss of Feedwater due to degraded power. NPS-Overrides SWG-001 fails to transfer to Line 6 following Generator trip.

RR20 Small LOCA occurs during scram.

9 CS02 C (BOP/SRO) HPCS fails to automatically start.

10 CS05 C (BOP) HPCS Pump trip after manually starting and injecting.

NMP SIMULATOR SCENARIO KS L SCENARIO # 3 REV. 0 No. of Pages: 28 EMERGENCY FEEDWATER PUMP SHUTDOWN/RCIC SPURIOUS INITIATION/LOSS OF HIGH PRESSURE FEED/SMALL LOCA PREPARER ________ __ DATE /24/a VALIDATED '1em S/ c2 ' DATE I;3 5(/JZ-GEN SUPERVISOR OPS TRAINING ON--

DATE C OPERATIONS MANAGER UNIT 2 iA t/V Set DATE 62N-9Z CONFIGURATION CONTROL DATE /\S SCENARIO

SUMMARY

Length: 75 minutes The crew will perform a scheduled surveillance on Standby Gas Train "B". APRM #2 will fail upscale, requiring bypassing of the failed instrument. After APRM#2 is bypassed, the Standby Gas Fan I B will trip. The SRO will enter Tech Specs for the inoperable GTS Train.

A report from the Turbine Building that Feedwater Pump "B" seal leak is worsening will prompt the crew to perform a Rapid Power Reduction by inserting Cram Rods and reducing Recirc Flow. Cram rod insertion is required because MFLCPR is above 0.93. Following the power reduction, the crew will perform an Emergency Shutdown of Feedwater Pump "B".

When conditions are stable, RCIC spuriously initiates. The crew will be required to stop RCIC injection within 4 minutes to prevent an automatic trip of the Main Turbine. For this scenario, if the crew does not stop RCIC injection in time, the RCIC turbine will automatically trip. This will ensure the remainder of the scenario runs as intended for candidate evaluations. When RCIC injection is stopped, a Loss of Offsite Line 5 occurs and the Division 1 Emergency Diesel Generator fails to start. This results in a required manual scram.

Following the manual scram, NPS-SWGOOI fails to transfer to Line 6. A loss of all Feedwater pumps results due to the degraded electrical sources. The crew will be required to control reactor water level with the High Pressure Core Spray (CSH) Pump. The CSH Pump will require a manual start to maintain level above TAF, due to a failure of the pump to automatically start. A small LOCA occurs resulting in a loss of inventory and the need for Drywell Spray.

After High Pressure Core Spray (CSH) injection is initiated, the High Pressure Core Spray (CSH) Pump will trip on an electrical fault. This results in a loss of all High Pressure Injection. The Crew will determine that RPV level cannot be maintained above TAF and execute the Alternate Level Control steps of N2-EOP-RPV. The Crew will then restore and maintain level above TAF by performing an RPV Blowdown and injecting with a Low Pressure Injection source.

- C SCENARIO # 3 March, 2002

Major Procedures: N2-SOP-03, N2-SOP-IOlC, N2-SOP-06, N2-EOP-RPV, N2-EOP-PC, N2-EOP-C2 EAL Classification: ALERT EAL 3.1.1 Termination Criteria: RPV level restored and maintained above TAF with Low Pressure ECCS Systems and Primary Containment parameters being controlled by Containment Spray.

SCENARIO # 3 March, 2002

I. SIMULATOR SET UP A. IC Number: IC 20, 100% Reactor Power B. Presets/Function Key Assignments

1. Malfunctions:
a. NM1 1B, APRM "B" Channel Failure Upscale F3
b. RC10, RCIC Spurious Initiation TRA :30 F4
c. RC06, RCIC turbine trip TUA 3:50 F4
d. PC04B, Standby Gas Treatment Train l B Fan Trip F6
e. DG02A, Diesel Generator #1 Trip F7
f. ED02A, Loss of offsite Line #5 F7
g. RR20, DBA LOCA, 8% over 7 minute ramp Triggered when the Mode Switch is placed in "SHUTDOWN" ET01
h. FWOIB, "B" Condensate Pump Trip Triggered when the Mode Switch is placed in "SHUTDOWN" ET01
i. CS02, High Pressure Core Spray Auto Start Failure Queued
j. CS05, High Pressure Core Spray Pump Trip TD 30 seconds ET03 Triggered when CSH*Pl Pump red light is ON, after control switch is placed in START
k. EG1 SA, No Transfer To Reserve Power SWGO01 Queued
2. Remotes: none
3. Overrides: none
4. Annunciators: none C. Equipment Out of Service none D. Support Documentation N2-OSP-GTS-MOO1, Attachment 3, completed to step 7.3.1 E. Miscellaneous Post White "MFLCPR > 0.93" sign at P603 SCENARIO # 3 March, 2002

II. SHIFT TURNOVER INFORMATION SHIFT: N -D DATE:

PART I: To be performed by the oncoming Operator before assuming the shift.

  • Control Panel Walkdown (all panels) (SSS, ASSS, STA, CSO, CRE)

PART II: To be reviewed by the oncoming Operator before assuming the shift.

  • Shift Supervisor Log (SSS, ASSS, STA)
  • Shift Turnover Checklist (ALL)
  • CSO Log (CSO)
  • Computer Alarm Summary (CSO)

(SSS, ASSS, STA, CSO, CRE)

Evolutions/General Information/Equipment Status:

  • Reactor Power = 100%
  • Loadline = >100%

MFLCPR is 0.95 Unidentified Drywell leakage has risen from 0.1 gpm to current reading in the last 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

PART III: Remarks/Planned Evolutions:

Continue N2-OSP-GTS-MOO1, Attachment 3, GTS Filter Train lB Functional Test (10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> Run)

PART IV: To be reviewed/accomplished shortly after assuming the shift:

  • Review new Clearances (SSS)
  • Shift Crew Composition (SSS/ASSS)

TITLE NAME TITLE NAME SSS CRE ASSS E STA l CSO Other SCENARIO # 3 March, 2002

III. PERFORMANCE OBJECTIVES A. Critical Tasks:

CT- 1.0 Given a loss of all Feedwater Pumps following a reactor scram and a failure of High Pressure Core Spray (CSH) to arlomatically start the crew will manually start CSH to maintain level above TAF (-18 inches).

Tasks: SRO 3410400303 Authorize actions related to Engineering Safety Features including starting, stopping and bypassing.

3449400603 Direct the actions required per EOP-RPV Section Level.

RO 2009080501 Perform the actions required for a complete loss of Feedwater.

2060050101 Manually initiate HPCS from the Control Room (PRA).

CT-2.0 Given a small reactor coolant leak into the Drywell the crew will initiate Drywell Spray and maintain Drywell Pressure below Pressure Suppression Pressure Limit, when Suppression Pool Pressure exceeds 10 psig per N2-EOP-PC.

Tasks: SRO 3449430603 Direct the actions required per EOP-PC Section Primary Containment Pressure.

RO 2050150101 Operate the Containment Spray System.

2009250501 Perform the actions required for a Loss of Coolant Accident (Small Leak) inside the Primary Containment.

CT-3.0 Given a loss of all high pressure injection, the crew will restore and maintain RPV water level above TAF (-18 inches) by performing an RPV Blowdown and injecting with at least one Low Pressure Injection system per the Alternate Level Control steps of N2-EOP-RPV.

Tasks: SRO 3449220503 Direct the actions for a loss of all Feedwater and HPCS.

RO 2009100501 Perform the actions required for a loss of all Feedwater and HPCS.

SCENARI 0 # 3 March, 2002

B. Performance Objectives:

PO-1.0 Given N2-OSP-GTS-MOO1 for routine performance, the crew will continue the surveillance test on Standby Gas Train "B" in accordance with applicable sections of N2-OSP-GTS-MOO1.

Tasks: SRO 3420240303 Authorize performance of surveillance tests on shift.

RO 2610030101 Place the Standby Gas Treatment System in service with suction from HVR from the Control Room.

PO-2.0 Given APRM #2 failing upscale during power operation the crew will identify the failed instrument, bypass APRM #2 per N2-OP-92 and ensure compliance with Technical Specifications.

Tasks: SRO 3449320503 Direct the actions required for a loss of flux indication (APRM/LPRM failure).

RO 2009040501 Perform the actions required for an APRM/LPRM failure.

PO-3.0 Given a report from the Turbine Building that Feedwater Pump "B" seal is degrading, the crew will perform a Rapid Power Reduction by inserting cram rods and reducing Recirc Flow per N2-SOP-1O1D, prior to performing an Emergency Shutdown of Feedwater Pump "B", per N2-SOP-06.

Tasks: SRO 3419140103 Direct reactor power changes (>10%)

using Recirc Flow or Control Rods.

RO 2020020101 Adjust the Recirc loop flow using Loop Manual control.

PO-4.0 Given a RCIC system spurious initiation, the crew will take actions to terminate RCIC injection into the reactor vessel in accordance with 601347 annunciator response.

Tasks: RO 2179140101 Operate the RCIC system following an automatic initiation.

SCENARIO # 3 March, 2002

PO-5.0 Given a Loss of Line #5 and failure of Division I Emergency Diesel Generator (EDG) to start resulting in a loss of Service Water, the crew will implement the actions of N2-SOP-03, N2-SOP- 1 and perform a manual reactor scram.

Tasks: SRO 3449400503 Respond to a Loss of Offsite Power with the unit on line.

3449180503 Direct the actions required for a Loss of Service Water per N2-SOP- 11.

3449300503 Direct the actions required for a Reactor Scram.

RO 2000350501 Perform the actions required for a Loss of Offsite Power (PRA).

2769090101 Perform actions for a loss of all Service Water Pumps.

2769110401 Operate the Service Water System with a loss of one division of Offsite Power.

(PRA)

PO-6.0 Given a reactor coolant leak into the Drywell the crew will control Primary Containment parameters by entering and executing N2-EOP-PC.

Tasks: SRO 3449420603 Direct the actions required per EOP-PC Section Drywell Temperature.

3449430603 Direct the actions required per EOP-PC Section Primary Containment Pressure.

RO 2050150101 Operate the Containment Spray System.

2009250501 Perform the actions required for a Loss of Coolant Accident (Small Leak) inside the Primary Containment.

2229020401 Operate the Drywell Cooling System with a LOCA signal present.

SCENARIO # 3 March, 2002

2059450101 Perform the actions required for an automatic initiation of LPCI.

2090040101 Monitor the automatic operation of the LPCS system from the Control Room.

PO-7.0 Given the plant in a condition requiring emergency classification, the SRO shall properly classify the event per EPP-EPIP-02.

SRO: 3440190303 Classify Emergency Events Requiring Emergency Plan Implementation.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Instructor - check all queued malfunctions, overrides and annunciators have remained active.

Once given shift turnover information, allow no more than five (5) minutes for the crew to perform a walk down of panels.

CREW

  • SRO conducts pre-shift brief.
  • Crew assumes the shift.

Begin Scenario. SRO PO- 1.0 Event #1 BOP Normal Evolution

  • Directs BOP to perform the Standby Gas Treatment "B" System Functional Role Play: As Turbine Building AO on Rounds, Test, "B" Train, N2-OSP-GTS-MOO1, report that a small seal leak has developed on Attachment 3.

Feedwater Pump "B". The water stream leaking

  • Conducts pre-evolution brief.

from the seal is about the diameter of a pencil.

BOP PO-1.0

  • Obtain SRO permission to perform the test.
  • Establish communication between the Control Room and the GTS Filter Train lB.

SCENARIO # 3 g9 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS

  • Request AO check:

o 2GTS*CH1B heater "LOW AIR FLOW" green light energized at Panel 30B.

Role Play: As AO, report the following o Timed reading at Panel 102 in conditions exist locally; the south Auxiliary Bay.

2GTS*CH1B heater "LOW AIR FLOW" green light is energized at Panel 30B. BOP: PO-1.0 Timer reading at Panel 102 - 3430 hrs.

  • Start 2GTS*FLT1B
  • Observe the following at P871:

Queue: NO additional sampling is required o SBGTS TRAIN B INITIATION at this time. red indicating light energized.

o SBGTS FAN 2GTS*FN1B red indicating light energized.

o GTS*MOV1B, INLET FROM RX BLDG VENTILATION, open.

o GTS*AOV2B, TRAIN B INLET VLV, open.

o GTS*AOV3B, FAN 1B DISCH ISOL LV, open.

  • Request AO at Panel 30B check:

Role Play: As AO, report the following o 2GTS*CH1B Heater "ON" red conditions exist locally at Panel 30B: indicating light energized.

2GTS*CH1B Heater "ON" red indicating light o 2GTS*CH1B Heater "LOW is energized. AIRFLOW" green indicating light 2GTS*CHlB Heater "LOW AIRFLOW" green de-energized.

indicating light is de-energized.

o 2GTS*CH1B Heater 2GTS

  • CH 1B Heater "OVERTEMPERATURE" "OVERTEMPERATURE" green green indicating light is de-energized.

indicating light de-energized.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS BOP:

. Notify SRO GTS Train 1B has been started per N2-OSP-GTS-MOO 1.

Event #2 RO Instrument Failure Booth Operator Instruction:

When SRO acknowledges GTS Train lB is RO ) PO-2.0 running, insert malfunction

  • Reports and responds to alarms.

NM11B, APRM B Channel Failure upscale o Determine APRM #2 has alarmed F3 o Check other APRM Channels to verify no scram should have Expected Annunciators: occurred.

603202 - APRM Trip System UPSCALE/INOP

  • Check back panels for additional 603208 - APRM Trip System UPSCALE indications/information.

603442 - Control Rod OUT BLOCK

  • Enter N2-OP-92, Neutron Monitoring, and bypass the affected APRM using Section H.2.0.

o Verify no other APRM in bypass o Place APRM bypass joystick to APRM # 2 position.

o Verify APRM # 2 bypass light on P603 is "lit" o Verify "BYP" is displayed in inverse video on APRM # 2 Chassis (P608) o Verify "blue" BYPASSED LED on 2/4 Module is lit (P608)

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS

  • Reset the 2/4 Module per N2-OP-92, Section F.8.0 o Depress "TRIP MEMORY RESET" pushbutton (P608) o Verify all red and yellow LED's are extinguished.

SRO PO-2.0

  • Directs I&C be contacted to investigate and troubleshoot APRM #2
  • Consults Technical Specifications to determine minimum required channels.

o T.S. 3.3.1, Table 3.3.1-1 o NO action required at this time Event #3 BOP/SRO Component Failure/Tech Spec Booth Operator Instruction:

When the SRO completes the crew update, activate BOP: PO-3.0 malfunction, by depressing F6 key:

  • Reports and responds to alarms.

PC04B, Standby Gas Train Fan 1B Trip F6 o Verify Fan 1B tripped Annunciator 871125, SBGTS Fan lB Auto Trip/Fail o Verify GTS*AOV2B and 3B To Start are closed.

SRO:

  • Refers to Tech Spec 3.6.4.3, Restore in Seven day Required Action A. 1 SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Event #4 BOP Component Failure After GTS Tech Spec is reviewed:

Role Play:

As an AO call the Control Room and report that the RO:

"B" Feedwater Pump seal leak has gotten worse.

  • Acknowledge the AO's report.

Steam is starting to blow out from the seal. Report

  • Relay status of "B" Feedwater Pump that you are leaving the area because it looks like seal to the SRO.

the seal will start blowing more steam at any minute. SRO:

  • Acknowledges RO report.
  • Directs RO to perform Rapid Power Reduction per N2-SOP- 101 D
  • Directs BOP to perform an Emergency Shutdown of Feedwater Pump "B" per N2-SOP-06.
  • Requests assistance from Maintenance.

Event #5 RO Reactivity Manipulation RO:

  • Enters N2-SOP-1OlD o Begins reduction in Reactor Power using Recirculation Flow Controls Role Play:

o Inserts 1 St four Cram Rods As the AO acknowledge that you are standing by in before reducing power below a safe location and that you will check out the "B" 75%

Feedwater pump once it is secured and the seal

  • Lowers power to about 60% to quits blowing steam.

65%.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS BOP:

Performs Emergency Feedwater Pump Shutdown per N2-SOP-06, Step 4.5 after power is reduced.

o Places FWS-P 1B control switch to STOP o Verify Aux LO Pump started.

o Confirm RPV level is controlled between 178 inches and 187 inches.

o Places LV 1OB controller to Role Play: Manual and closes LV1OB As AO report Feedwater Pump "B" Aux Lube Oil o Closes FWS-MOV47B Disch pump control switch is in START and the pump is Valve.

running. o Dispatches AO to place Aux Lube Oil Pump control switch Booth Operator Instruction: to start.

When directed to remove Cond Demins from o Dispatches AO to remove service, MANUALLY activate REMOTE Condensate Demineralizers FWO1A, Cond Demineralizer A, OFF from service, as required for FWO1B, Cond Demineralizer B, OFF the reduced power level.

FW01C, Cond Demineralizer C, OFF CREW:

Role Play: Notifies Fire Dept and RP of steam As AO report three Cond Demins were removed leak from feed pump.

from service. Five Demins are in service and conditions are satisfactory.

Event #6 BOP Component Failure SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Booth Operator Instruction:

When conditions are stable and all notifications and crew updates are complete, activate the following malfunctions, using F4 key:

RC10, RCIC Spurious Initiation (TRA 30 sec)

RC06, RCIC turbine trip (TUA 3:50) F4 Plant response:

RCIC initiatesand injects.

CREW: PO-4.0

  • Identifies and reports RCIC is injecting
  • Identifies that reactor vessel level is in normal band.

Booth Operator: BOP IF contacted, trip unit E51-N656E, high exhaust

  • Refers to 2CEC*PNL601 for pressure is only unit in tripped condition. annunciator 601347.

SRO Directs reset of RCIC logic or shutting of 2ICS*MOV126 to stop injection.

BOP

  • Secures RCIC injection as directed by Four minutes after RCIC initiates, the turbine will the SRO and the annunciator response.

trip to maintain the scenarioon the plannedpath.

  • Identifies and reports RCIC trip (if not manually tripped).

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SRO

When RCIC injection has been terminated, insert the following remote/malfunctions using F7 key:

ED02A, Loss of Offsite Line 5, True F7 DG02A, Diesel Generator #1 Trip PlantResponse:

Emergency Bus 101 trips andremains de- BOP: PO-5.0 energized

  • Determine 2ENS*SWG101 has lost Division I Service Water Pumps trip. power, and Division I Diesel Division II Service Water Non EssentialMOVs Generator has failed to start.

close, resulting in loss of Service Water.

  • Dispatches an AO to Division I Diesel Division I RHR and LPCS systems are lost. Generator to investigate.
  • Verify Service Water flow to RHR heat exchanger "B" by; o Verifying open 2SWP*MOV90B, and o Throttle open 2SWP*MOV33B until flow through the heat exchanger is > 3,000 gpm.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Role Play:

As AO acknowledge that you are on your way to BOP Division I Diesel Generator.

  • Verifying SWP Division II non-essentials are isolating by verifying the following valves are closing; o 2SWP*MOV19B o 2SWP*MOV93B o 2SWP*MOV3B
  • Throttle running Service Water Pump discharge valves to maintain pump flows < 10,000 gpm as required.

CREW: P0-5.0

  • Enter N2-SOP-03, Loss of AC Power, Section D.1.7.

SRO: PO-5.0

  • Direct a manual scram be inserted per N2-SOP-03, Loss of AC Power, Section D.1.7, and Event #8 Component Failure
  • EnterN2-SOP-11, Section 3.2.

Booth Operator Instruction:

BOP: PO-5.0 When Mode Switch is in SHUTDOWN, verify both

  • Enters N2-SOP-03, Section D.l .7 malfunctions active from ET01:

o Trips Main Turbine RR20, RR Loop Rupture - DBA LOCA at 8%

o Trips Reactor Recirculation Pumps ramped in over seven (7) minutes, and o Trips WCS Pumps FWO1B, Condensate Pump Trip PIB.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RO: PO-5.0

  • Manually SCRAM the Reactor by placing the mode switch in "SHUTDOWN".
  • Enters N2-SOP-1OlC o Reports RPV level, pressure, APRMs downscale and "all rods Feedwater Pump "A " trips when NPS-SWGOOJ in".

fails to transfer to offsite power.

  • Reports loss of the Condensate Pump and the imminent loss of Feedwater.

SRO: PO-5.0 0 Enters N2-EOP-RPV when level is below 159 inches.

RO:

Drywell pressure begins to rise and is trending up

toward 1.68 psig.

  • Monitors Reactor power, water level and pressure and takes action as directed.
  • Reports Drywell pressure above 1.68 psig Drywell pressure exceeds 1.68 psig. Division II Low PressureECCS start. High PressureCore Spray initiationsignal is received, but CSH Pump fails to automaticallystart.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SRO: PO-6.0

  • Enters N2-EOP-PC when Drywell Pressure exceeds 1.68 psig
  • Directs Suppression Chamber Spray Containmentpressure and temperatureare still
  • Directs Drywell Coolers restored.

rising. Reactor Vessel water level is lowering

  • Directs RPV Water level restored faster.

above 159 inches with CSH Pump.

BOP CT-1.0

  • Verifies Division II RHR initiation signal is received.

o RHR Pump "B" and RHR Pump "C" sequence on.

  • Verifies and reports CSH failure to start.

o When directed, manually starts CSH Pump and confirms injection.

o Coordinates RPV level control Event #9 BOP Component Failure with the RO, by manually starting and stopping CSH Pump.

SRO:

  • Acknowledges failure of CSH to automatically start.
  • Directs manual start of CSH as required to maintain RPV level above 159 inches.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Event #10 BOP Component Failure Thirty seconds after the CSH Pump has been BOP:

manually started malfunction will activate:

ET03

  • Dispatched AO to investigate CSH.

SRO:

CSH trips on an electricalfaultand cannot be

  • Acknowledges CSH failure.

restarted.RP V level is lowering.

  • Determines RPV water level cannot be maintained above -18 inches.

When water level drops below 17.8 inches (Level

  • Directs; 1), ADS Timers will initiate, MSIVs close.

o ADS to be inhibited o Maximizing injection using all preferred injection systems. (CRD is the only one still available for high pressure injection.)

o Use of "Alternate Injection Systems" as needed.

  • SLS Boron Injection from Boron Tank or Test Tank o Directs either RHR Loop "B" lined up for injection per EOP-6, Attachment 30. OR RHR "B" in the LPCI mode.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RPPV water level drops to -18 inches (TAF)

SRO:

Directs:

Suppression ChamberPressureexceeds lO psig. o At least two (2) low pressure subsystem are aligned for injection.

Booth Operator Instruction:

  • RHR "C" When directed to defeat Group 5 Isolation per EOP-
  • RHR "B" 6 Attachment 30, MANUALLY INSERT
  • Prior to RPV level lowering to -42 MALFUNCTION RH08, Group 5 Isolation inches, enter N2-EOP-C2, RPV Failure Blowdown and perform concurrently.
  • Specify new RPV level bands as necessary.

BOP:

  • Inhibits ADS using keylock switches.
  • If directed, initiates SLS injection BOP:
  • If directed Performs EOP-6 Attachment 30 Note: Crew may chose to line up RHR "B" for
  • Closes SC Spray Valve injection per N2-EOP-6 Att. 30. OR RHR "B" in RHS*MOV33B, if open.

the LPCI mode.

  • Defeats Group 5 Isolation
  • Waits for RPV Pressure to drop below 350 psig SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS

  • If directed, initiates SLS injection either from Boron Tank or Test Tank BOP: CT-3.0
  • Open seven (7) ADS/SRV's by arming and depressing both division ADS Manual Initiation pushbuttons at P601.
  • When RPV pressure drops below 350 psig, verifies injection (if using EOP-6 Suppression Chamber PressureapproachesPSP Attachment 30)

EOP-PCFig L (about 17psig at 200foot Pool

  • Restore and maintain RPV level in water level).

specified band (above -18 inches) using RHR "B" and/or RHR "C".

SRO:

  • Direct Drywell sprays WHEN Suppression Chamber Pressure exceeds 10 psig using RHR Loop "B" only after adequate core cooling assured by maintaining water level above TAF.

o Directs Drywell coolers tripped o Directs RCS Pumps tripped o Verifies Drywell pressure and temperature are within Fig K of EOP-PC.

SCENARIO # 3 March, 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SRO 0 IF Pressure Suppression Pressure (PSP) is exceeded, recognize RPV Blowdown per EOP-C2 is required.

RO 0 When directed, verifies RCS Pumps have tripped and Drywell Unit Coolers are tripped prior to initiating DW Sprays BOP: PO-6.0 0 Initiates Suppression Chamber and Drywell Sprays as required.

Termination Cue:

  • RPV level restored and controlled above -18 inches TAF.
  • Drywell Sprays are in progress (or were previously in service and secured to establish injection).

SRO Candidate Evaluator:

After simulator is placed in FREEZE, ask the SRO SRO: PO-7.0 Candidate to classify the event. Classify this event as an "Alert", EAL 3.1.1.

SCENARIO # 3 March, 2002

V. POST SCENARIO CRITIQUE (Not required for Annual and Initial Operating Exams.)

VI. REFERENCE EVENTS AND COMMITMENTS A. Reference Events

1. None B. Commitments
1. None VII. LESSONS LEARNED SCENARIO # 3 March, 2002

Appendix D Scenario Outline Form ES-D-1 Nine Mile Point 2 Scenario No. 4 Operating Test No. 1 Alternate Scenario Examiners: Candidates:

Objectives: Evaluate candidates ability to perform routine operating tasks using normal, abnormal and emergency procedures while ensuring compliance with Technical Specifications The candidates will respond to the following events:

1. Service Water pump trip
2. Reactor feedwater flow transmitter failure
3. Lowering Main Condenser vacuum due to air in-leakage
5. Control rods fail to fully insert on a valid scram signal
6. RHR heat exchanger Service Water MOV failure.

This scenario will be classified as a Site Area Emergency. (EAL 2.2.2)

Initial Conditions:

1. Plant is operating at 100% power and 100% rod line. (IC-20)
2. Standby Liquid Control Pump SLS*P1A is out of service to repair a leaky pump seal.

(Day One of Seven day LCO on T.S. 3.1.7, Required Action A.)

3. Clearance has been issued on SLS*P1A.

Turnover:

1. Plant is at 100% reactor power and 100% rod line.
2. Required evolutions during this shift - Start Service Water pump SWP*P1E for normal equipment rotation and shutdown SWP*P 1C per N2-OP- 11.
3. SLS*P1A is out of service to repair a leaky pump seal. SLS is to be returned to service on the next shift. Day One of Seven day LCO on T.S. 3.1.7, Required Action A.

Event Malf. No. Type Event Description No.

1 N (BOP) Swap operating Service Water pumps. (N2-OP- I1).

2 FW34B I (RO) Feedwater Flow Transmitter "B" fails intermittently downscale, requires taking Manual control.

3 N (RO) Transfer Feedwater Level Control System to Automatic.

4 MCOI C (BOP) Lowering of Condenser Vacuum 5 R (RO) Reduce Reactor Power to about 75% and stabilize.

6 CWO1E C (BOP/SRO) Trip of newly started Service Water Pump.

(T.S. 3.7.1.E/ Less than the required pumps running) 7 RD17Z M (RO/SRO) ATWS Hydraulic Lock of Control Rods at Position 08 (18-20% power).

8 RP08A & B C (BOP) RRCS Timer Failure requires manual boron injection.

9 Overrides C (BOP) Service Water from RHR Heat exchanger valve fails to open for Suppression Pool Cooling.

NMP SIMULATOR SCENARIO SCENARIO # 4 REV. 0 No. of Pages: 25 SERVICE WATER PUMP TRIP/FEEDWATER FLOW TRANSMITTER FAILURE/LOSS OF VACUUM/LOW POWER ATWS WITH MSIV CLOSURE PREPARER _ DATE 4&/a 2 VALIDATED 4 eAQArb \ i)

ALES (O96>re ) DATE (2141 GEN SUPERVISOR (

OPS TRAINING fAz (hi DATE ____.__

OPERATIONS D /

MANAGER UNIT 2 L3'2O'LODATE CONFIGURATION CONTROL NA0 l 4 ctAd DATE 1 SCENARIO

SUMMARY

Length: 90 minutes The scenario begins at rated power and Standby Liquid Control Pump "A" out of service. The crew will swap operating Service Water Pumps (SWP). When SWP*P1E is started, Feedwater flow transmitter "B" begins to intermittently fail, due to an air bound transmitter. The crew will respond by taking manual control of the Feedwater Level Control System (FWLC) and stabilizing water level in the normal operating band, per N2-SOP-06. While continuing with the SWP pump swap, the crew will dispatch assistance to determine the cause of the FWLC malfunction. After receiving a report from the field that the transmitter has been repaired, the crew will place FWLC back to automatic control. When FWLC is returned to automatic, an upscale failure of the Recirc Flow signal to APRM#2 will fail upscale, resulting in a control rod block. The crew will bypass APRM#2.

After FWLC is returned to automatic, a small increase in Condenser air in-leakage occurs and Condenser vacuum slowly degrades. The crew will perform a power reduction to stabilize vacuum per N2-SOP-09.

The reduction in power will stabilize condenser vacuum. While plant conditions are stable, the recently started SWP pump will trip, requiring Tech Spec entry. After starting an additional SWP pump to restore Tech Spec compliance, vacuum will again begin to lower and the crew will initiate a manual scram, prior to the automatic turbine low vacuum trip. Control rod pattern after the scram will result in reactor power remaining about 20%. The crew will enter and execute the Failure To Scram, N2-EOP-C5.

Condenser vacuum will continue to degrade, resulting in an automatic closure of the MSIVs. The crew will then control reactor pressure using the Relief Valves and start RHR in Suppression Pool Cooling. to control the heat addition into the Primary Containment. The Service Water Valve from the RHR Heat Exchanger will fail to open causing the crew to use the other available RHR loop for Suppression Pool Cooling. The crew will be required to manually inject boron and insert control rods to limit the Suppression Pool temperature rise.

SCENARIO # 4 March, 2002

NMP SIMULATOR SCENARIO SCENARIO # 4 REV. 0 No. of Pages: 21 SERVICE WATER PUMP TRIP/FEEDWATER FLOW TRANSMITTER FAILURE/LOSS OF VACUUM/LOW POWER ATWS WITH MSIV CLOSURE PREPARER DATE VALIDATED DATE GEN SUPERVISOR OPS TRAINING DATE OPERATIONS MANAGER UNIT 2 DATE CONFIGURATION CONTROL DATE SCENARIO

SUMMARY

Length: 90 minutes The scenario begins at rated power and Standby Liquid Control Pump "A" out of service. The crew will swap operating Service Water Pumps (SWP). When SWP*PIE is started, Feedwater flow transmitter "B" begins to intermittently fail, due to an air bound transmitter. The crew will respond by taking manual control of the Feedwater Level Control System (FWLC) and stabilizing water level in the normal operating band, per N2-SOP-06. While continuing with the SWP pump swap, the crew will dispatch assistance to determine the cause of the FWLC malfunction. After receiving a report from the field that the transmitter has been repaired, the crew will place FWLC back to automatic control.

After FWLC is returned to automatic, a small increase in Condenser air in-leakage occurs and Condenser vacuum slowly degrades. The crew will perform a power reduction to stabilize vacuum per N2-SOP-09. The reduction in power will stabilize condenser vacuum. While plant conditions are stable, the recently started SWP pump will trip, requiring Tech Spec entry. After starting an additional SWP pump to restore Tech Spec compliance, vacuum will again begin to lower and the crew will initiate a manual scram, prior to the automatic turbine low vacuum trip.

Control rod pattern after the scram will result in reactor power remaining about 20%. The crew will enter and execute the Failure To Scram, N2-EOP-C5.

Condenser vacuum will continue to degrade, resulting in an automatic closure of the MSIVs. The crew will then control reactor pressure using the Relief Valves and start RHR in Suppression Pool Cooling. to control the heat addition into the Primary Containment. The Service Water Valve from the RHR Heat Exchanger will fail to open causing the crew to use the other available RHR loop for Suppression Pool Cooling. The crew will be required to manually inject boron and insert control rods to limit the Suppression Pool temperature rise.

Major Procedures: N2-SOP-06, N2-SOP-09, N2-EOP-C5, N2-EOP-6 Attachment 14.

EAL Classification: SITE AREA EMERGENCY EAL 2.2.2 Termination Criteria: Suppression Pool Cooling in service and all Control Rod Insertion are fully inserted per N2-EOP-6 Attachment 14.

SCENARIO # 4 July 2002

SIMULATOR SET UP IC Number: IC-20 (100% power and > 100% rod line)

A. Presets/Function Key Assignments

1. Malfunctions:
a. RD17Z, RD 17 for all Banks, All at position "08". Queued
b. RP08A, RRCS 98 second Timer Failure (Division I) Queued
c. RP08B, RRCS 98 second Timer Failure (Division II) Queued
d. SL02A, SLS-VEX3A Fails To Fire Queued
e. SL03A, SLC Pump Suction MOVIA Fails To Open Queued
f. FW34B, Feedwater Loop Flow Transmitter Output fails to ZERO (B), F4 (This event is cyclic and occurs six (6) times once started.
g. CWOlE, Service Water Pump Trip (PIE), TRIP F3
h. MC0 1, Main Condenser Air Inleakage, 3% over 3 minutes. F5
g. MC01, Main Condenser Air Inleakage, reduced to 1%. F6
h. MCO 1, Main Condenser Air Inleakage, raised to 25% over 5 minutes. F7
i. MC01, Main Condenser Air Inleakage, raised to 100%,

triggered when the Mode Switch is placed in "shutdown". ET01

j. RP14A, RRCS/ARI Failure/Defeated (Div I) F10
k. RP14B, RRCS/ARI Failure/Defeated (Div II) F10
1. RP02, RPS Failure To Scram-Automatic F10
2. Remotes:
a. NONE
3. Overrides:
a. Service Water Discharge MOV33A, Heat Exchanger (A) - "closed" F8
b. Service Water Discharge MOV33B, Heat Exchanger (B) - "closed" F9
c. P601 Lamp, Standby Liquid Control Pump "A", Green light OFF Queued
d. P601 Lamp, SLC Storage Tank Outlet MOVIA Close, Green light OFFQueued
e. P601 Lamp, Squib Vlv "A" Ready, White light OFF Queued
f. P601 Lamp, SLC Pump 1A Inop, Amber light ON Queued
g. P601 Lamp, SLC Squib Valve VEX3A Inop, Amber light ON Queued SCENARIO # 4 July 2002
4. Annunciators:
a. NONE C. Equipment Out of Service
1. SLS System "A" out of service
a. SLS*P1A Pump Keylock Control Switch hang Red Clearance.
b. SLS*MOVlA hang Red Clearance
c. Depress Div 1 SLS Manually Out of Service pushbutton D. Support Documentation
1. None E. Miscellaneous
1. ETOI = Mode Switch in the "shutdown" position.

SCENARIO # 4 July 2002

II. SHIFT TURNOVER INFORMATION SHIFT: -N -D DATE:

PART I: To be performed by the oncoming Operator before assuming the shift.

  • Control Panel Walkdown (all panels) (SSS, ASSS, STA, CSO, CRE)

PART II: To be reviewed by the oncoming Operator before assuming the shift.

  • Shift Supervisor Log (SSS, ASSS, STA)
  • Shift Turnover Checklist (ALL)
  • CSO Log (CSO)
  • Computer Alarm Summary (CSO)

(SSS, ASSS, STA, CSO, CRE)

Evolutions/General Information/Equipment Status:

  • Reactor Power = 100%
  • Loadline= > 100%

SLS-P IA out of service to repair leaky pump seal, Day 1 of 7 day LCO on T.S. 3.1.7 Required Action A. Expected Return to service on the next shift Service Water Pump SWP*P1E is being started for normal equipment rotation. Pump is filled, vented and ready to be started.

PART III: Remarks/Planned Evolutions:

Start SWP*PlE then shutdown SWP*P1C per N2-OP-1 1. SWP*P1E is being started normal equipment rotation. Leave this pump running after being started.

PART IV: To be reviewed/accomplished shortly after assuming the shift:

  • Review new Clearances (SSS)
  • Shift Crew Composition (SSS/ASSS)

TITLE NAME TITLE NAME SSS CRE ASSS E STA E CSO Other SCENARIO # 4 July 2002

III. PERFORMANCE OBJECTIVES A. Critical Tasks:

CT-1.0 Given a failure to scram transient with continued power generation, the crew will inhibit ADS to prevent automatic ADS activation.

CT-2.0 Given a failure to scram transient with power generation and RPV level above 100 inches, the crew will terminate and prevent injection (except Boron, CRD, RCIC) and ultimately control RPV level between MSCWL,

-42 (Fig Z, -73 @ 800 psig) and 100 inches.

CT-3.0 Given a failure to scram transient with continued power generation and SRVs being used for pressure control, the crew will utilize manual control of RPV pressure, suppression pool cooling, standby liquid control injection and control rod insertion to prevent exceeding HCTL (Fig M).

B. Performance Objectives:

PO- 1.0 Given direction to swap operating Service Water Pumps, the crew will start SWP*P1E and shutdown SWP*P1C per N2-OP-11.

PO-2.0 Given a Feedwater Flow transmitter failure the crew shall take manual control of the Feedwater Level Control System and stabilize RPV water level between 178 inches and 187 inches per N2-SOP-06.

PO-3.0 Given Main Condenser air in-leakage resulting in a lowering condenser vacuum the crew shall perform a Rapid Power Reduction to stabilize vacuum per N2-SOP-09 and N2-SOP-IO1 D.

PO-4.0 Given a trip of an operating Service Water Pump the crew will enter Tech Specs and restore Service Water configuration to comply with Tech Specs.

PO-5.0 Given Main Condenser air in-leakage resulting in a lowering condenser vacuum the crew shall perform a manual reactor scram prior to the automatic turbine trip setpoint.

SCENARIO # 4 July 2002

PO-6.0 Given a failure to scram transient with power above 4% the crew shall manually inject boron before Suppression Pool temperature exceeds 11 0IF per N2-EOP-C5 PO-7.0 Given a failure to scram transient with power above 4% the crew shall operate Suppression Pool Cooling systems to prevent exceeding the Heat Capacity Temperature Limit (HCTL) per N2-EOP-PC PO-8.0 Given a failure to scram transient with power above 4% the crew shall insert control rods by manually driving control rods and initiating additional manual scrams to prevent exceeding the Heat Capacity Temperature Limit (HCTL) per N2-EOP-6 Attachment 14.

PO-9.0 Given the plant in a condition requiring emergency classification, the SRO shall properly classify the event per EPP-EPIP-02.

SCENARIO # 4 July 2002

IV. INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Instructor - check all queued malfunctions, overrides and annunciators have remained active.

Once given shift turnover information, allow no more than five (5) minutes for the crew to perform a walk down of panels.

CREW

  • SRO conducts pre-shift brief.
  • Crew assumes the shift.

Begin Scenario. SRO Event #1 BOP Normal Evolution

  • Conducts a pre-evolution brief.

BOP: PO-1.0

  • Reviews N2-OP- 11, Section E.2.

- Verifies Precautions and Limitations of D. 14 are met.

Role Play: As AO, wait three minutes and report - Dispatches AO to perform prestart that Service Water Pump PIE prestart checks are check of PIE.

complete.

SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Event #2 RO Instrument Failure Booth Operator Instruction:

When the Service Water Pump SWP*P1E is started, insert the following malfunction: RC PO-2.0 FW34B, Feedwater Loop Flow Transmitter S Recognize and reports transmitter Output Fails to Zero (B) F4 problem to the SRO.

  • Enters and performs appropriate NOTE: This malfunction will activate and actions of N2-SOP-06, Section 4.2.

deactivate six times over about a one - Place FWLC Master Level minute span. This is being done to Controller to Manual ensure confirmatory recognition of the - Operates FWLC to stabilize RPV problem that exists and to ensure a high level between 178 inches and 187 level alarm is received without causing a inches.

plant trip. - Reports FWLC in Manual.

603139, Reactor Water Level High/Low actuates.

Reactor Water Level will rise each time the transmitterfails low. SRO No automatic action will occur because level will

  • Acknowledges RO report.

not exceed 202.8 inches and the failure is not long

  • Directs entry into N2-SOP-06.

enough in duration.

  • Requests assistance from I&C.

Role Play: Inform SRO that time compression is being used. SRO As I&C report that the "B" Feedflow transmitter

  • Direct RO to place FWLC in was air-bound and has been vented and recommend automatic control.

FWLC placed back in automatic control. Report

  • Perform pre-evolution brief.

Work Order directs performing N2-OP-3, F.8.4.8 thru F.8.4.13 to return FWLC to AUTO SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Event #3 RO Normal Evolution RO

  • Enters and performs steps of N2-OP-03, Section F.8.4.8 through 13.

- At CEC-PNL612, Bay A; Checks voltage differential (using portable voltmeter) between AUTO and MAN.

FWLC will go into automatic operationand - Adjust Master Controller HIC 1600 Reactor Water level will remain relatively setpoint thumbwheel until level unchanged needle is in the green band.

- Depress Master Controller Role Play: When voltage differential is checked, HIC1600 AUTO (A) pushbutton report that differential is +4 mVDC. and verify green light is on.

- Verify RPV level is stable.

- Adjust Master Controller HIC 1600 setpoint thumbwheel, if necessary approx. 183 inches.

- Report FWLC is in automatic.

BOP

  • Recognizes and reports higher than normal off-gas flowrates and a lowering Condenser vacuum.

Event #4 BOP Component Failure SRO PO-3.0 Booth Operator Instruction:

  • Acknowledges BOP report.

When APRM#2 is bypassed, activate malfunction:

  • Directs entry into N2-SOP-09.

MC01, Main Condenser Air Inleakage, 3%

  • Directs RO to reduce Reactor Power ramped over 3 minutes. F5 using N2-SOP-1O1D to stabilize vacuum.

SCENARIO #44 g9 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Annunciator 851306 Offgas Trouble actuates Off-Gasflowrate rises.

Condenser vacuum lowers.

RO PO-3.0 Event #5 RO Reactivity Manipulation

  • Lowers Reactor Power using Reactor Recirculation flow.
  • Inserts CRAM Rods as directed.

Booth Operator Instruction: BOP When Reactor Power has started to lower, insert /

  • Recognizes and reports that Main change the following malfunction: Condenser vacuum appears to be MCO 1, Main Condenser Air Inleakage, final stabilizing with the power reduction.

value 1%. F6 Reactor Power lowers. SRO Main Condenser vacuum appears to be stabilizing

  • Acknowledges BOP report.
  • Directs a hold on the power reduction to observe vacuum trend.
  • Notifies Plant Management of power reduction.

Event #6 BOP/SRO Component Failure/Tech Spec Role Play: As AO in SWP Pump Bay, report to the Control Room that SWP*PIE motor feels extremely hot to the touch and is making an arcing noise.

Booth Operator Instruction: BOP PO-4.0 When Vacuum has stabilized, notifications are

  • Recognizes and reports condition of
  • - being made by the SRO and the report from the the SWP*P1E tripped to the SRO.

SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS SWP Pump Bay is made, insert the following

  • Performs actions required by N2-ARP-malfunction by depressing F3 key: 01, 601114.

CWO1E, Service Water Pump Trip (PiE), - Maintains operating SWP Pump Trip F3 flows below 10,000 gpm by throttling pump discharge MOV74s.

Expected Associated Annunciators:

FeederElectricalFault.

  • Dispatches AO to investigate the cause of PIE trip.

SRO PO-4.0

  • Request assistance from Electrical Role Play: As the AO, wait three minutes and Maintenance.

report that Service Water Pump PIE, 86-lockout

  • Refer to T.S. 3.7.1 Condition E, relay is tripped. Required Action E. 1, restore to four operating SWP pumps within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.
  • Directs start of another SWP pump.
  • Notifies Plant Management Booth Operator Instruction:

When power level is stable and notifications are BOP made of entry into SWP Tech Spec, activate

  • Recognizes and reports off-gas malfunction: flowrates rising again and that MC01, Main Condenser Air Inleakage, final Condenser vacuum is lowering.

value 25% over 5 minutes. F7 Off-Gasflowrate rises. SRO Condenser vacuum lowers.

  • Acknowledges BOP report.

SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Expected AssociatedAnnunciators:

  • Directs re-entry into N2-SOP-09.

851358, Turbine CondenserA/B/C Vacuum Low.

  • Directs RO to reduce Reactor Power 851306, Off Gas System Trouble. using N2-SOP-1O1 D.

RO

  • Lowers Reactor Power using Reactor Recirculation flow.
  • Inserts CRAM Rods as directed.

BOP

Reactor Power is lowering and Main Condenser vacuum continues to get worse.

Main Condenser vacuum is approachingthe Main SRO PO-5.0 Turbine trip setpoint.

  • Acknowledges BOP report.
  • Directs the RO to enter N2-SOP-IOIC and manually SCRAM the Reactor.

Event #7 Major Transient RO PO-5.0

  • Enters and executes N2-SOP-101C.
  • Places the Mode Switch to Booth Operator Instruction: "shutdown".

When the Mode Switch is placed in the "shutdown" - Recognizes and reports that NOT position verify the following malfunction is all control fully inserted triggered: - Reports power, level and RPV MC01, Main Condenser Air Inleakage, pressure.

final value 100% ET01 SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RD17Z, RD17 for all Banks Position 8 Queued RPS channels trip. Control Rods insert, but only to SRO position 08, due to hydraulic lock.

  • Acknowledges RO report.

Reactor Power lowers to about 20%. RPV water

  • Enters N2-EOP-RPV, then exits.

level lowers, then recovers to about 180 inches with

  • Enters N2-EOP-C5 Feedwater. - Directs BOP to "inhibit ADS" and Condenser vacuum continues to lower at afaster "prevent HPCS injection" rate. - Directs RO to "initiate RRCS",

N2-EOP-6, Attachment 13

- Directs the RO to trip the Reactor Recirculation Pumps.

- May direct MSIV isolations bypassed per EOP-6 Attachment 10.

Booth Operator Instruction: - Directs RPV injection IF directed to bypass MSIV Low Level isolations, terminated/prevented and level MANUALLY ACTIVATE REMOTE Functions: lowered to below 100 inches (50 MS06A, Defeat Level 1 Isolation, Defeated inches to 80 inches expected band).

MS06B, Defeat Level 1 Isolation, Defeated - Directs pressure band 800 psig to MS06C, Defeat Level 1 Isolation, Defeated 1000 psig using Bypass Valves.

MS06D, Defeat Level 1 Isolation, Defeated BOP CT-1.0

  • Inhibits ADS using keylock switches I* Places HPCS Pump switch in the Pull-to Lock position.
  • Monitors RPV pressure SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RO CT-2.0

  • Manually initiates RRCS.

Event #8 BOP Component Failure

  • Reports control rods are still NOT When the RO initiates RRCS the 98 second timers fully inserted.

should start to cause the initiation of SLS and the

  • Maintains RPV level in the directed isolation of WCS. However this will not occur due band (50 inches to 80 inches):

to the following: - Terminates and prevents P603 and RP08A, RRCS 98 second timer failure, 601 and lowers RPV level to -42 Div.I and RP08B, RRCS 98 second timer to. 100 inches.

failure, Div.II Queued

  • Reports Reactor Power level.
  • Recognizes and reports that SLS did NOT initiate.

When RP V water level drops below 108 inches SRO RCIC automaticallystarts and injects. RCS Pumps

  • Acknowledges RO and BOP reports.

will trip.

  • Directs the BOP to manually initiate SLS.
  • Directs RO to enter and perform N2-EOP-6, Attachment 14.

BOP CT-3.0, PO-6.0

  • Manually initiates SLS

- Places SLS* P1B keylock switch to START

- Verify Suction Valves open

- Verify SLS*PlB starts

- Verify Squib Valves fire

- Verify system flow about 43 gpm.

SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS

- Verify Reactor Water Cleanup isolated.

RO Main Condenser vacuum is still lowering and

  • Reports MSIV closure.

reaches 8.5 inches. The MSIVs automatically close.

Suppression Pool temperature (SPT) begins to rise SRO: CT-3.0 and exceeds 90 0F due to heat additionfrom SR V

  • Directs BOP to maintain Reactor use. pressure band 800 psig to 1000 psig using SRV's.
  • When SPT exceeds 90'F enters EOP-PC.

- Directs BOP to initiate Suppression Pool Cooling.

RC I CT-4.0, PO-8.0 0 Performs N2-EOP-6, Attachment 14, Alternate Control Rods Insertion, Sections 3.3 Additional Manual Scrams AND 3.5 Manual Control Rod Insertion (by driving rods) concurrently.

Booth Operator Instruction:

  • Additional Manual Scrams WHEN ARI and RPS are directed to be defeated - Directs ARI interlocks defeated by wait 2 minutes, then activate the following using pulling ARI fuses.

F10 key: - Directs RPS defeated by installing RP14A, ARI Failure (Div I) RPS jumpers.

RP14B, ARI Failure (Div II) - After ARI fuses are pulled and SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS RP02, RPS Failure to Scram F10 RPS jumpers are installed resets RPS logic and verifies eight white Role Play: After ARI and RPS is RPS solenoid lights are lit defeated/bypassed, report ARI fuses are pulled and - Verify SDV Vent and Drain valves RPS jumpers are installed. are open.

Waits until SDV is drained before Booth Operator Instruction: inserting a manual scram using After RPS is reset delete malfunction RD17Z to pushbuttons.

allow control rods to fully insert when a manual scram signal is inserted.

RCI PO-8.0 0 Manual Control Rod Insertion:

- Starts 2nd CRD Pump

- Places CRD FCV in MAN and fully opens valve.

- Fully closes Drive Pressure Control Valve to raise drive pressure.

Control Rods will insert when being manually - Bypasses RWM using key.

driven in using Continuous Insertpushbutton. - Begins driving control rods.

Event #9 BOP Component Failure Booth Operator Instruction: BOP When the BOP attempts to place an RHR loop in

  • Places RJR Loop in Suppression Pool Suppression Pool Cooling, insert appropriate loop Cooling.

override:

  • Recognizes and reports that the RHR If the "A" Loop is chosen insert: Heat Exchanger Service Water Service Water Discharge MOV*33A Hx. discharge valve will not open.

"A" - Closed. F8 SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS If the "B" Loop is chosen insert:

Service Water Discharge MOV*33B Hx. "B" -

Closed. F9 SRO

  • Acknowledges BOP report.
  • Directs BOP to place the other Loop of RHR in Suppression Pool Cooling.

BOP CT-3.0, PO-7.0

  • Places other RHR Loop in Suppression Pool Cooling.

Booth Operator Instruction: RO When RPS is reset and ARI is defeated per EOP-6

  • After at least one SDV High Level Attachment 14, manually remove malfunction Trip annunciator clears, inserts a RD17Z. This will allow all control rods to fully manual scram using scram insert when additional RPS trips are inserted. pushbuttons
  • Reports all rods are full in If directed by the Lead Evaluator, Annunciator Override 603409, RPS B DIS VOLUME HIGH LEVEL TRIP, Off. This will shorten the time required for the RO to insert another manual RPS trip.

After RPS is manually tripped, clear the override, so that the annunciator actuates again.

SRO

SCENARIO # 4 July 2002

INSTRUCTOR ACTIONS/

PLANT RESPONSE OPERATOR ACTIONS Termination Cue:

  • One Loop of RHR has been successfully placed into Suppression Pool Cooling.
  • All Control Rods are fully inserted per N2-EOP-6 Attachment 14 and EOP-C5 has been exited.

SRO PO-9.0 SRO Candidate Evaluator:

  • Classify this event as a SITE AREA After simulator is placed in FREEZE, ask the SRO EMERGENCY EAL 2.2.2 Candidate to classify the event.

SCENARIO # 4 July 2002

V. POST SCENARIO CRITIQUE (Not required for Annual and Initial Operating Exams.)

VI. REFERENCE EVENTS AND COMMITMENTS A. Reference Events

1. None B. Commitments
1. None VII. LESSONS LEARNED SCENARIO # 4 July 2002