Text

301 Final Simulator Scenarios
	ML15203B092
Person / Time
Site:	Mcguire, McGuire
Issue date:	07/22/2015
From:	; NRC/RGN-II
To:	; Duke Energy Carolinas
References
	Download: ML15203B092 (324)
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Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

Facility: McGuire Scenario No.: 1 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 100% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-9, E-2, B COLD LEG ACCUMULATOR ABNORMAL PRESSURE, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating). The crew will perform PT/1/A/4600/001, RCCA Movement Test upon taking the shift.

Event Malf. Event Type* Event No. No. Description LOA 1 C-RO RCCA Withdrawal Test/1C3 HDP Trip HW012 C-SRO 2 PLP C-BOP RCS High Activity due to Crud Burst 089 C(TS)-SRO REM 3 C-BOP Letdown Valve 1NV-35A fails CLOSED NV0035A C-SRO MAL 4 N(TS)-SRO TD CA Pump Inoperability SM029 5 PLP C-RO Electrical Grid Voltage Oscillations/Failure of Exciter Limiter 014 C-SRO LOA 6 R-RO IPB Fan Failure/Rapid Downpower IPB001 N-BOP IPB002 N-SRO MAL 7 M-RO Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in DCS1418 M-BOP AUTO and MANUAL DCS1479 M-SRO DEH003A DEH003B MAL 8 NA C-9 fails to Actuate/1A Safety Valve Sticks OPEN IPE004H SM004A MAL 9 NA 1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout CA004A EP008B MAL 10 NA 1D Steam Break in Containment SM007D MAL 11 NA TD CA Pump is Restored SM029

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

McGuire 2015 NRC Scenario #1 The plant is at 100% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-9, E-2, B COLD LEG ACCUMULATOR ABNORMAL PRESSURE, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating). The crew will perform PT/1/A/4600/001, RCCA Movement Test upon taking the shift.

Shortly after taking the watch, the crew will perform PT/1/A/4600/001, RCCA Movement Test.

During the course of the surveillance, the 1C3 Heater Drain Pump will trip. The operator will restore any individual rod bank to its initial position, place control rods in manual (and/or AUTO), and use the Control Room Expectation Manual, to immediately reduce Turbine load as needed to maintain Rx power less than pre-transient condition.

As a result of the plant transient, a Crud Burst will occur and 1EMF48, Reactor Coolant Water Radiation Monitor, will alarm. The operator will respond in accordance with ARP1RAD-2/C-3, 1EMF 48 Reactor Coolant Hi Rad, and implement AP/1/A/5500/18, High Activity in Reactor Coolant. The operator will raise Letdown flow at the request of Chemistry and address Technical Specification 3.4.16, RCS Specific Activity.

Next, 1NV-35, Variable Flow Letdown Orifice Isolation Valve, will fail Closed. The operator will enter AP/1/A/5500/12, Loss of Letdown, Charging or Seal Injection, and establish Excess Letdown.

Shortly afterwards, the Unit 1 TDCA Pump Stop Valve will trip CLOSED. The operator will respond in accordance with ARP1AD-5/F-3, TD CA PUMP STOP VLV NOT OPEN, and attempt to reset the valve locally. Local attempts to reset the valve will be unsuccessful, and the operator will need to declare the TDCA Pump inoperable. The operator will address Technical Specification 3.7.5, Auxiliary Feedwater (AFW) System.

Subsequently, electrical disturbances cause grid voltage to drop to 216 KV, and simultaneously the main Generator Exciter Limiter will fail to function. The operator will respond in accordance with AP/1/A/5500/05, Generator Voltage and Electrical Grid Disturbances, and make adjustments of Main Generator voltage.

Following this, both IPB Fans will fail. The crew will respond in accordance with ARP1AD-11/J5, IPB AIR FLOW TROUBLE, and perform a rapid downpower in accordance with AP/1/A/5500/04, Rapid Downpower.

During the downpower, both CF Pumps will rollback to LOW Speed causing a low level condition in all Steam Generators. On the ensuing Rx Trip, the Main Turbine will fail to trip in both Auto and Manual, and the operator will need to manually close the Governor Valves. On the trip, the Steam Dumps will fail to actuate due to a C-9 failure and the SG PORVs will open to control steam pressure.

Since the 1A SG PORV is isolated, a 1A SG Safety Valve will open instead, and stick about 60%

open. Simultaneously, a lockout will occur on 1ETB and the 1A MDCA Pump will fail to start either automatically or manually and result in a total loss of CA flow. 30 seconds later a Major Steam Line Break will occur on the 1D Steamline in Containment.

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and verify reactor trip and Safety Injection actuation; and then transition to EP/1/A/5000/FR-H.1, Response to Loss of Secondary Heat Sink, based on no CA flow. When 3 of 4 Steam Generator Wide Range levels are

< 36%), the operator will initiate NCS Feed and Bleed.

Once NCS Feed and Bleed is established, the TDCA Pump Stop Valve will be able to be reset, and the pump may be returned to service. The operator will restore CA flow to the 1B and/or 1C Steam Generator per Step 7 of FR-H.1.

The scenario will terminate at Step 39 of FR-H.1, with the crew feeding at least one Steam Generator to restore Wide Range Level to > 12% (17% ACC).

Critical Tasks:

Manually trip the Main Turbine prior to completing the Immediate Actions of E-0 Safety Significance: Failure to trip the Main Turbine when required causes a challenge to the Subcriticality/Integrity Critical Safety Function that otherwise would not or may not exist. This mis-operation by the operator necessitates the crew taking compensating action which complicates the event mitigation strategy and demonstrates an inability by the operator to recognize a failure of the automatic actuation of the RPS.

Establish RCS Bleed and Feed before all four Steam Generator Wide Range Levels reach 0%, and the NCS temperature and/or pressure increases.

Safety Significance: Failure to establish RCS Bleed and Feed before automatic opening of the PORVs (due to plant heatup) reduces the probability of success to establish a heat sink for the core.

This constitutes a Significant reduction of safety margin beyond that irreparably introduced by the scenario. Establishing feedwater flow into the Steam Generators offers the most effective recovery action to restore the heat sink. If all attempts to initiate feedwater flow fail, the crew must establish bleed and feed to cool the core. This is accomplished by manually initiating SI, and then manually opening the PORVs. The lower NCS pressure allows a greater ECCS flow to recover NCS inventory and force flow through the core. If this action is to be successful, it must be started before SG dryout.

SG dryout would cause NC temperature to increase, increasing NC Pressure and forcing open the PORVs automatically. If NCS pressure is at the PORV setpoint due to NCS heatup, the operator action of opening the PORVs manually may not be successful in lowering NCS pressure and increasing ECCS flow. Ultimately, the core could uncover.

Establish feedwater flow into at least one Steam Generator before transition out of FR-H.1.

Safety Significance: Failure to establish feedwater flow into at least one Steam Generator results in the crew having to rely upon the lower-priority action of having to remain in RCS Bleed and Feed to minimize the possibility of core uncovery. Failure to perform this task, when able to do so, constitutes incorrect performance that leads to degradation of the RCS and/or fuel cladding fission product barriers.

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

Facility: McGuire Scenario No.: 2 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 75% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: The 1B MDCA Pump is OOS for bearing replacement. ACTION has been taken in accordance with Technical Specification LCO 3.7.5 ACTION B. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-3, F-5, BB DEMIN PNL TRBL, has alarmed spuriously several times over the last hour, and has currently failed OFF (IAE is investigating). The crew will raise power to 100% after taking the shift.

Event Malf. Event Type* Event No. No. Description 1 NA R-RO Power Increase w/Simple Dilute N-BOP N-SRO MAL 2 C-RO Uncontrolled outward Rod Motion in AUTO DCS1214 C-SRO REM 3 C-BOP 1B RN Pump Suction Valve inadvertently CLOSES RN0018B C(TS)-SRO MAL 4 C-BOP Pzr Spray Valve (1NC-27) Controller fails OPEN DCSSLIM 06D/G C(TS)-SRO MAL 5 C-RO 1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual LF003B C-BOP IRE009 C-SRO SG001A REM 6 M-RO 1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR SM007AB MAL M-BOP IPE001A/B M-SRO IPE002A/B SG001A SM004A MAL 7 C-BOP TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in CA004A AUTO C-SRO CA005

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

McGuire 2015 NRC Scenario #2 The plant is at 75% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: The 1B MDCA Pump is OOS for bearing replacement.

ACTION has been taken in accordance with Technical Specification LCO 3.7.5 ACTION B. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-3, F-5, BB DEMIN PNL TRBL, has alarmed spuriously several times over the last hour, and has currently failed OFF (IAE is investigating). The crew will raise power to 100% after taking the shift.

Shortly after taking the watch, the operator will commence a load increase to 100% starting with Step 3.37.10 of Enclosure 4.1, Power Increase, of OP/1/A/6100/003, Controlling Procedure for Unit Operation. The operator will dilute the NC System Boron concentration in accordance with .19, Simple Dilution, of OP/1/A/6150/009, Boron Concentration Control, and raise Turbine load in accordance with OP/1/A/6300/001 A, Turbine-Generator Load Change.

After the load increase is started, the Control Rods will fail such that rods are moving outward in AUTO. The operator will enter AP/1/A/5500/14, Rod Control Malfunction. The control rods will subsequently remain in MANUAL.

After this, the 1B RN Pump Suction Isolation valve will inadvertently CLOSE. The operator will respond using one or more Annunciator Response Procedures and ultimately enter AP/1/A/5500/20, Loss of RN, to place the standby train in service. The operator will address Technical Specification LCO 3.7.7, Nuclear Service Water System (NSWS), and LCO 3.8.1, AC Sources - Operating.

Next, the Pzr Spray Valve Controller, 1NC-27C A Spray, demand will fail to full output. The operator will enter AP/1/A/5500/11, Pressurizer Pressure Anomalies. The operator will address Technical Specification LCO 3.4.1, RCS Pressure, Temperature, and Flow Departure from Nucleate Boiling (DNB) Limits.

Subsequently, the 1B CF Pump will trip causing the turbine to automatically runback to 55%.

Simultaneously, a 40 gpm Steam Generator Tube Leak will occur in the 1A Steam Generator. The operator will implement AP/1/A/5500/03, Load Rejection. During the runback the operator will need to drive rods in manually.

When the plant is stabilized or AP10 is entered to mitigate the SGTL, the 1A MSIV will inadvertently CLOSE, and the Reactor will fail to trip automatically and manually. Additionally, the low set Safety Valve on the 1A Steam Generator will lift and stick fully OPEN. Additionally, the TD CA Pump will trip on overspeed on auto start, and the 1A MDCA Pump will fail to start automatically. The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and then transition to EP/1/A/5000/FR-S.1, Response to Nuclear Power Generation/ATWS. During the performance of FR-S.1, the operator will continuously drive rods in manually, successfully trip the Reactor locally, and manually start the 1A MDCA Pump and establish 450 gpm of flow the Steam Generators.

The Steam Generator Tube Leak will degrade to a tube rupture in the 1A Steam Generator when the reactor is locally tripped.

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

After completion of FR-S.1, the operator will transition back to E-0, and then to EP/1/A/5000/E-2, Faulted Steam Generator Isolation. After the 1A Steam Generator is isolated, the operator will transition to EP/1/A/5000/E-3, Steam Generator Tube Rupture.

The scenario will terminate at Step 6 of E-3 after the operator has transitioned to EP/1/A/5000/ECA-3.1, SGTR with Subcooled Recovery Desired, or at Step 9 of E-3 upon initiating an NCS cooldown.

Critical Tasks:

Manually close the Failed OPEN Pzr Spray Valve before the Pressurizer pressure drops to 1945 psig.

Safety Significance: failure to close the Spray Valve and stop the pressure transient, under the postulated plant conditions, results in an unnecessary transient to the plant and challenge to the Reactor Protection System. Performance of the critical task would stabilize the pressure transient.

A failure to stabilize the pressure transient, when able to do so, constitutes a mis-operation or incorrect crew performance which leads to incorrect NCS pressure control.

Manually drive rods inward before completing the immediate actions of FR-S.1 (Step 2).

Safety Significance: failure to insert negative reactivity, under the postulated plant conditions, results in an unnecessary situation in which the reactor remains critical or returns to a critical condition.

Performance of the critical task would move the reactor towards a subcritical condition to prevent a subsequent return to criticality. A failure to insert negative reactivity constitutes a mis-operation or incorrect crew performance which leads to incorrect reactivity control.

Start the 1A MD CA Pump before transition out of FRS-.1, unless the transition is made to EP/1/A/5000/FR-H.1, and then before the NCPs are manually tripped to limit heat input to the RCS.

Safety Significance: Failure to establish a Secondary Heat Sink through the initiation of CA flow unnecessarily challenges both the HEAT SINK and the CORE COOLING Critical Safety Functions.

Additionally, the FSAR Safety Analysis results are predicated on the assumption that at least one train of safeguards actuates and delivers a minimum amount of AFW flow to the Steam Generators.

Failure to perform this task, when the ability to do so exists, results in a violation of the Facility License Condition and places the plant in an unanalyzed condition.

Isolate CA flow to the Faulted Steam Generator before an unwarranted Red Path occurs on Subcriticality or NCS Integrity.

Safety Significance: Failure to isolate a Faulted SG that can be isolated causes challenges to the Critical Safety Functions that may not otherwise occur. Failure to isolate flow could result in an unwarranted Orange or Red Path condition on NC Integrity and/or Subcriticality (if cooldown is allowed to continue uncontrollably).

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

Facility: McGuire Scenario No.: 3 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 40% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: The 1A EDG is OOS for bearing replacement.

ACTION has been taken in accordance with Technical Specification LCO 3.8.1 ACTION B. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance.

1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-12, E-2, A RN PUMP ABNORMAL FLOW, has alarmed spuriously several times over the last hour (IAE is investigating). The crew will raise power to 100%

after taking the shift.

Event Malf. Event Type* Event No. No. Description 1 NA R-RO Power Increase w/Alternate Dilute N-BOP N-SRO MAL 2 C-RO Control Rods fail to Move in Auto IRE009 C-SRO REM 3 C-BOP 1B NCP Standpipe Low Level Alarm NV0461 C-SRO MAL 4 C-RO SG 1D PORV fails OPEN SM001D C(TS)-SRO MAL 5 C(TS)-SRO #1 Seal Leak on 1B NCP NCP008B MAL 6 C-RO Inadvertent Turbine Trip DEH001 C-SRO MAL 7 C-BOP #1 Seal Leak on 1B NCP Degrades NCP008B NCP016C NCP015C MAL 8 C-BOP 4 Control Rods fail to Fully Insert on Rx Trip IRE010 C-SRO MAL 9 M-RO Loss of Switchyard to Unit 1/1B EDG fails to START EP002A M-BOP EP002B M-SRO DG001B

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

McGuire 2015 NRC Scenario #3 The plant is at 40% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: The 1A EDG is OOS for bearing replacement. ACTION has been taken in accordance with Technical Specification LCO 3.8.1 ACTION B. The 1A SG PORV is leaking and isolated. The PORV has been declared inoperable and maintenance is being planned. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-12, E-2, A RN PUMP ABNORMAL FLOW, has alarmed spuriously several times over the last hour (IAE is investigating). The crew will raise power to 100% after taking the shift.

Shortly after taking the watch, the operator will commence a load increase to 100% starting with Step 3.35.19 of Enclosure 4.1, Power Increase, of OP/1/A/6100/003, Controlling Procedure for Unit Operation. The operator will dilute the NC System Boron concentration in accordance with .4, Alternate Dilute, of OP/1/A/6150/009, Boron Concentration Control, and raise Turbine load in accordance with OP/1/A/6300/001 A, Turbine-Generator Load Change.

During the power increase, the operator will discover that the Control Rods will not respond in AUTO.

The crew will enter AP/1/A/5500/14, Rod Control Malfunction, and control rods in MANUAL.

Because the crew may control the power increase such that an auto rod demand does not occur, this event may not be diagnosed until later.

Shortly after starting the power increase, AD-7/B-2, NC Pump B No. 2 Seal S-Pipe Lo Level, will alarm. The operator will address the Annunciator Response Procedure, and then use Enclosure 4.3, Filling and Draining NC Pump Standpipe, of OP/1/A/6150/002A, Reactor Coolant Pump Operation, to refill the standpipe.

After this, the 1D Steam Generator PORV will fail OPEN. The operator will respond in accordance with AP/1/A/5500/01, Steam Leak, and isolate the PORV. The operator will address Technical Specification LCO 3.7.4, Steam Generator Power Operated Relief Valves (SG PORVs), and may enter LCO 3.4.1, RCS Pressure, Temperature and Flow Departure from Nucleate Boiling (DNB)

Limits.

Subsequently, a #1 seal leak will develop on the 1B NCP such that #1 Seal leakoff flow is 5.0-5.5 gpm. The operator will respond in accordance with AP/1/A/5500/08, Malfunction of NC Pump, and address Selected Licensee Commitment 16.9.7, Standby Shutdown System. The control operators will be directed on the action to take should the #1 Seal Leakoff flow degrade to > 6 gpm (which will occur subsequently).

Shortly afterwards, the Main Turbine will inadvertently trip. The operator will respond in accordance with AP/1/A/5500/02, Turbine Generator Trip. The RO will need to operate the control rods manually.

While the crew is in AP-2, the 1B Hi Vibration alarm will occur and the #1 seal leak flow on the 1B NCP will rise to 6 gpm. The operator go back to Step 8 of AP-8 (Continuous Action Step), and close the 1B NCP Pzr Spray Valve, manually trip the reactor and stop the 1B NCP when reactor power is

< 5%. The crew will perform Enclosure 2, NC Pump Post Trip Actions For #1 Seal Failure, of AP8, while subsequently performing E-0.

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and verify reactor trip.

On the reactor trip four control rods will fail to fully insert. The operator will transition to EP/1/A/5000/ES-0.1, Reactor Trip Response, and emergency borate per AP/1/A/5500/38, Emergency Boration And Response To Inadvertent Dilution.

Immediately following the initiation of Emergency Boration, a loss of the Unit 1 Switchyard will occur, and the 1B Emergency Diesel Generator will fail to start. The operator will immediately transition to EP/1/A/5000/ECA-0.0, Loss of All AC Power. The operator will restore power to 1ETA per Unit 2 6900V busses through SATA or SATB per Enclosure 14 Energizing Unit 1 4160V Bus From Unit 2

- SATA or SATB.

The scenario will terminate when one ESF Bus has been re-energized.

Critical Tasks:

Trip the Reactor prior to stopping the NCP during a high vibration condition, and trip the NCP only after Reactor power level has dropped to less than 5%.

Safety Significance: The P-8 interlock allows one NCP to be stopped less than 48% power. If a NCP is stopped in Mode 1 or 2, Tech Spec 3.4.4 requires the unit to be in Mode 3 within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

In addition, T-ave for the idle loop may violate Tech Spec 3.4.2, minimum temperature for criticality.

In this case, the unit must be sub-critical within 30 minutes. The transient placed on the unit when a NCP is secured at power can challenge both reactor protection and control systems. Furthermore, an added burden is placed on the operator to stabilize the unit and shut down within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months (possibly 30 minutes) to comply with Tech Specs. Even though the plant is designed and analyzed to operate in this configuration for a short time, station management has decided that the conservative approach to dealing with this transient is to trip the reactor anytime a NCP malfunction warrants stopping a pump in Mode 1 or 2. Guidance is given to wait until reactor power is less than 5% before stopping the NC pump. This will ensure the NC pump will provide adequate flow/core cooling until reactor power is sufficiently low enough to preclude a challenge to fuel integrity. If the action can be taken, and is not taken, this demonstrates mis-operation or incorrect operation that could unnecessarily challenge a fission product barrier (NCS).

Energize at least one AC Emergency Bus From Unit 2.

Safety Significance: Failure to energize an AC Emergency Bus when able to do so constitutes mis-operation or incorrect performance which leads to degraded emergency power capacity. Failure to perform the Critical Task may result in a needless challenge and/or degradation of a fission product barrier at the point of the remaining intact RCP Seals, and will result in the inability to add inventory through the ECCS during the existing and potentially subsequent small break LOCA(s). Since the conditions existed to re-energize an ESF Bus from Unit 2 via the SATA or SATB, not taking this action constitutes incorrect performance that leads to degradation of the RCS and/or fuel cladding fission product barriers.

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

Facility: McGuire Scenario No.: 4 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 4% power (BOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: The 1A Hotwell Pump is OOS for bearing replacement. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-1, F-9, DEH/MSR SYSTEM MALFUNCTION, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating). The crew will raise power to 12-18% and stabilize reactor power, and making preparations to synch the Turbine to the Grid while maintenance is completed.

Event Malf. Event Type* Event No. No. Description 1 NA R-RO Raise Power from 4% to 12-18%

N-BOP N-SRO MAL 2 C-BOP 1A2 KC Pump trip KC010B C(TS)-SRO 3 MAL I-RO 1EMF-34 fails HIGH/Failure of SG Blowdown Flow Control Valve EMF-34L to Auto CLOSE LOA I-SRO BB019 MAL 4 I(TS)-SRO DRPI Failure EDA350 MAL 5 C-BOP Letdown Line Leak Outside Containment NV019B C(TS)-SRO MAL 6 C-RO Sequentially Dropped Rods IRE006B6 C-SRO IRE006P10 MAL 7 M-RO Inadvertent Train B SI Actuation ISE001B M-BOP M-SRO MAL 8 BOP 1B ND Pump fails to start in AUTO ND001B

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

McGuire 2015 NRC Scenario #4 The plant is at 4% power (BOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: The 1A Hotwell Pump is OOS for bearing replacement.

The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-1, F-9, DEH/MSR SYSTEM MALFUNCTION, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating). The crew will raise power to 12-18% and stabilize reactor power, and making preparations to synch the Turbine to the Grid while maintenance is completed.

Shortly after taking the watch, the operator will raise power to 12-18% starting with Step 3.25 of .1, Power Increase, of OP/1/A/6100/003, Controlling Procedure for Unit Operation.

Next, the 1A2 KC Pump will trip. The operator will enter AP/1/A/5500/21, Loss of KC or KC System Leakage. The operator will address Technical Specification LCO 3.7.6, Component Cooling Water (CCW) System.

Subsequently, 1EMF-34, S/G Sample Radiation Monitor, will fail HIGH, however, one of the SG Blowdown Control Valves will NOT automatically close. The operator will respond in accordance with OP/1/A/6100/010 Q, Annunciator Response for 1RAD-1, C3, 1EMF 34 S/G SAMPLE HI RAD, and manually close the valve. The operator may enter Case I of AP/1/A/5500/10, NC System Leakage Within the Capacity of Both NV Pumps. The crew will determine that the alarm is due to a failure, and NOT an actual high radioactivity condition.

Just after this, the DRPI for Control Rod M-12 will fail and indicate the rod on the bottom. The operator will respond in accordance with 1AD-2/D-10, RPI Urgent Failure, and address Technical Specification LCO 3.1.7, Rod Position Indication.

Shortly afterwards, a 50-75 gpm leak will occur on the Letdown Line, in the Aux Building, upstream of the Letdown Heat Exchanger. The operator will enter Case II of AP/1/A/5500/10, NC System Leakage Within the Capacity of Both NV Pumps. The operator will place the Outside Air Pressure Filter Train in service per Enclosure 4.4 of OP/0/A/6450/011, Control Area Ventilation/Chilled Water System. The operator will address Technical Specification LCO 3.4.13, RCS Operational Leakage, and Selected Licensee Commitment 16.9.7, Standby Shutdown System.

Just after the leak isolation, one Control Bank D Control Rod will drop into the core. The operator will respond in accordance with ARP1AD-2/D-9, RPI at Bottom Rod Drop and will implement AP/1/A/5500/14, Rod Control Malfunction. Shortly after this, a second Control Rod will drop requiring that the operator manually trip the reactor.

Upon the reactor trip, the B Train of Safety Injection will inadvertently actuate with the exception that the 1B ND Pump will fail to start in AUTO. This pump will be manually started. The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and verify reactor trip and Safety Injection actuation, actuating the A Train of SI in the process. The crew will reset SI and stop all ECCS Pumps except for one NV Pump within 15 minutes.

Ultimately, the crew will transition to step 9 of EP/1/A/5000/ES-1.1, Safety Injection Termination.

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

The scenario will terminate in EP/1/A/5000/ES-1.1 at Step 14.m RNO after the CRS determines to establish Excess Letdown.

Critical Tasks:

Trip the Reactor upon recognition of the second dropped rod.

Safety Significance: Multiple dropped control rods are a significant reactivity transient that can have a serious effect on plant parameters under certain operating conditions, and may result in power distribution limits being exceeded. The guidance to trip the reactor is a conservative action to prevent the plant form challenging the Pzr low pressure trip setpoint, etc.; and is consistent with the conservative nature of the industry. PT/0/A/4600/113, Enclosure 13.19 states that it is a management expectation that the operator trip the reactor within 30 seconds of a second dropped rod.

Terminate SI by closing 1NI-9A and 1NI-10B within 15 minutes of SI actuation.

Safety Significance: An inadvertent SI rapidly injects inventory into the NCS causing Pzr Level, and correspondingly, Pzr Pressure to increase. Prolonged recovery unnecessarily challenges the Pzr Code Safety valves. PT/0/A/4600/113, Enclosure 13.6 states that when at NOP/NOT conditions, the FSAR commitment is to have SI terminated within 15 minutes (The Safety Analysis CANNOT credit the cycling of the Pzr PORVs since auto PORV operation can only be assured during LTOP Operation). The Safety Analysis assumes that the Pzr Code Safeties will lift and reseat ONLY if they are cycled for a short time and Pzr liquid temperature remains > 500oF. If this action is not taken, the conclusions of the Safety Analysis are invalid, and violates a License Condition.

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

Facility: McGuire Scenario No.: 5 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 100% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: 1A RV Pump is OOS for motor replacement. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-1, F-9, DEH/MSR SYSTEM MALFUNCT, has failed to OFF (IAE is investigating).

Event Malf. Event Type* Event No. No. Description 1 REM C-BOP TDCA Pump starts inadvertently SA0048 ABC C(TS)-SRO MAL 2 C-RO FRV Controller and Bypass Valve Failure DCS17E/

G C-SRO MAL 3 C-BOP NCS Leak NC007D C(TS)-SRO 4 NA R-RO Rapid Downpower N-BOP N-SRO MAL 5 C-RO Turbine Control Unit fails to MANUAL DEH008B C-SRO MAL 6 M-RO Rod Ejection/SB LOCA NC005D4 M-BOP M-SRO MAL 7 NV029B NA 1B NV Pump Trip MAL 8 EQB001A NA EDG A Sequencer Failure MAL 9 C-BOP 1B NI Pump fails to Start in AUTO NI001B C-SRO MAL 10 NA 2nd Rod Ejection/SB LOCA NC005F14

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

McGuire 2015 NRC Scenario #5 The plant is at 100% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: 1A RV Pump is OOS for motor replacement.

The 1A S/G PORV is isolated and its actuator is currently removed for maintenance.

1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-1, F-9, DEH/MSR SYSTEM MALFUNCT, has failed to OFF (IAE is investigating).

Shortly after taking the watch, the Turbine Driven CA Pump will inadvertently start causing the plant to cooldown and reactor power to rise. The crew will recognize that the pump should not be running and stop the pump using OP/1/A/6250/002, Auxiliary Feedwater System. The operator may use AP/1/A/5500/1, Steam Leak, to diagnose the failure.

The operator will address Technical Specification 3.7.5, Auxiliary Feedwater (AFW)

System, and SLC 16.9.7, Standby Shutdown System.

Next, the 1B SG FRV Controller will fail to MANUAL and the FRV Bypass valve will fail fully open resulting in the Feedwater Control Valve for the 1B SG closing and causing SG Level to lower. The operator will respond in accordance with AP/1/A/5500/06, S/G Feedwater Malfunction, and control the 1B SG Level manually.

Following this, a 70-90 gpm leak will develop on the reactor head from a Control Rod Guide Tube. The crew will implement AP/1/A/5500/10, NC System Leakage Within the Capacity of Both NV Pumps. The operator will address Technical Specification 3.4.13, RCS Operational Leakage. Ultimately, the crew will enter AP/1/A/5500/4, Rapid Downpower.

During the downpower, a failure will occur in the Turbine Control Unit causing the unit to shift from Operator Auto to Manual control. The operator will address 1AD-1/F-4, TURBINE IN MANUAL, and control the Turbine manually during the downpower in accordance with OP/1/A/6300/001A, Enclosure 4.1, Turbine Generator Load Change.

After this, Control Rod D-4 will be ejected from the core causing a 1000 gpm Small Break LOCA. The operator will trip the Reactor and actuate Safety Injection, and then enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection. On the Safety Injection actuation the EDG A Sequencer will fail to automatically sequence, and the operator will need to manually start ECCS loads. Additionally, the 1B NV Pump will trip, and the 1B NI Pump will fail to start automatically. The operator will be required to start the 1B NI Pump manually.

Upon completion of E-0, the operator will transition to EP/1/A/5000/E-1, Loss of Reactor or Secondary Coolant. At that time a second Control Rod (F-14) will be ejected from the core causing the Small Break LOCA to degrade to the point at which the NC Pumps will need to be tripped. The scenario will terminate at Step 9 of E-1, after the crew has been directed to return back to the beginning of E-1.

Appendix D Scenario Outline Form ES-D-1 Final (Rev_040615)

Critical Tasks:

After a failure of the 1B SG FRV Controller in AUTO, Take manual control of the controller and stabilize the 1B SG Narrow Level before a Reactor Protection System actuation occurs.

Safety Significance: failure to take manual control of the controller and stabilize the SG Narrow Level before a Reactor Protection System actuation occurs, under the postulated plant conditions, results in an unnecessary transient to the plant and challenge to the Reactor Protection System. Performance of the critical task would stabilize the SG Narrow Level. A failure to stabilize the SG Narrow Range Level, when able to do so, constitutes a mis-operation or incorrect performance which could lead to incorrect NCS temperature control and an unnecessary challenge to the NCS Heat Sink Critical Safety Function.

Establish flow from at least one high-head ECCS Pump before transition out of E-0.

Safety Significance: Failure to establish flow from the NV System after failure of the automatic actuation constitutes a demonstrated inability by the operator to recognize a failure and/or correct a failure of an ESF System or component. The FSAR analyses of response to high energy line breaks assume that at least one train of safeguards actuates.

If the minimum assumed ESF components are NOT actuated the Safety Analyses results are invalid. Because compliance with the assumptions in the FSAR is part of the facility license, failure to comply constitutes a violation of the license condition.

Trip NC Pumps within 5 minutes of loss of SCM (4600/113/E13.1)

Safety Significance: Failure to trip all NCPs on a loss of subcooled margin can lead to core uncovery and to fuel temperatures in excess of 2200oF. PT/0/A/4600/113, Enclosure 13.1 states that McGuire is committed to having NC Pumps tripped within 5 minutes of a loss of subcooling. The Safety Analysis recommends that the NC Pumps be tripped within 2 minutes to limit the depth and duration of core uncovery. It is a management expectation that the NC Pumps be tripped as quickly as possible, but within 5 minutes of a loss of subcooling. Failure to take this action represents mis-operation by the operator which leads to degradation of the fuel cladding fission produce barrier, and a violation of a license condition.

PROGRAM: McGuire Operations Training MODULE: Initial License Operator Training Class 31 TOPIC: NRC Simulator Exam Scenario N15-1-1

REFERENCES:

1. Technical Specification LCO 3.7.4, Steam Generator Power Operated Relief Valves (SG PORVs) (Amendment 221/203)

2. PT/1/A/4600/001, RCCA Movement Test (Rev 46)

3. Control Room Crew Expectations Manual (Rev 8/8/12)

4. OP/1/A/6100/010R Annunciator Response for Panel 1RAD-2 (Rev 39)

5. AP/1/A/5500/18, High Activity in Reactor Coolant (Rev 5)

6. OP/1/A/6200/001 A, Chemical and Volume Control System Letdown (Rev 53)

7. Technical Specification 3.4.16, RCS Specific Activity (Amendment 266/246)

8. AP/1/A/5500/12, Loss of Letdown, Charging or Seal Injection (Rev 24)

9. OP/1/A/6100/010F Annunciator Response for Panel 1AD-5 (Rev 58)

10. Technical Specification LCO 3.7.5, Auxiliary Feedwater (AFW) System (Amendment 221/203)

11. AP/1/A/5500/05, Generator Voltage and Electrical Grid Disturbances (Rev 13)

12. OP/1/A/6100/010L Annunciator Response for Panel 1AD-11 (Rev 78)

13. AP/1/A/5500/04, Rapid Downpower (Rev 27)

14. OP/1/A/6150/009, Boron Concentration Control (Rev 126)

15. EP/1/A/5000/E-0, Reactor Trip or Safety Injection (Rev 34)

16. EP/1/A/5000/FR-H.1, Response to Loss of Secondary Heat Sink (Rev 18)

Validation Time: 117 minutes Author: David Lazarony, Essential Training & Consulting, LLC Facility Review: ________________________

Rev. 040615 Scenario Event Description NRC Scenario 1 Facility: McGuire Scenario No.: 1 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 100% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-9, E-2, B COLD LEG ACCUMULATOR ABNORMAL PRESSURE, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating). The crew will perform PT/1/A/4600/001, RCCA Movement Test upon taking the shift.

Event Malf. Event Type* Event No. No. Description LOA 1 C-RO RCCA Withdrawal Test/1C3 HDP Trip HW012 C-SRO 2 PLP C-BOP RCS High Activity due to Crud Burst 089 C(TS)-SRO REM 3 C-BOP Letdown Valve 1NV-35A fails CLOSED NV0035A C-SRO MAL 4 N(TS)-SRO TD CA Pump Inoperability SM029 5 PLP C-RO Electrical Grid Voltage Oscillations/Failure of Exciter Limiter 014 C-SRO LOA 6 R-RO IPB Fan Failure/Rapid Downpower IPB001 N-BOP IPB002 N-SRO MAL 7 M-RO Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in DCS1418 M-BOP AUTO and MANUAL DCS1479 M-SRO DEH003A DEH003B MAL 8 NA C-9 fails to Actuate/1A Safety Valve Sticks OPEN IPE004H SM004A MAL 9 NA 1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout CA004A EP008B MAL 10 NA 1D Steam Break in Containment SM007D MAL 11 NA TD CA Pump is Restored SM029

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Scenario Event Description NRC Scenario 1 McGuire 2015 NRC Scenario #1 The plant is at 100% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-9, E-2, B COLD LEG ACCUMULATOR ABNORMAL PRESSURE, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating). The crew will perform PT/1/A/4600/001, RCCA Movement Test upon taking the shift.

Shortly after taking the watch, the crew will perform PT/1/A/4600/001, RCCA Movement Test.

During the course of the surveillance, the 1C3 Heater Drain Pump will trip. The operator will restore any individual rod bank to its initial position, place control rods in manual (and/or AUTO),

and use the Control Room Expectation Manual, to immediately reduce Turbine load as needed to maintain Rx power less than pre-transient condition.

As a result of the plant transient, a Crud Burst will occur and 1EMF48, Reactor Coolant Water Radiation Monitor, will alarm. The operator will respond in accordance with ARP1RAD-2/C-3, 1EMF 48 Reactor Coolant Hi Rad, and implement AP/1/A/5500/18, High Activity in Reactor Coolant. The operator will raise Letdown flow at the request of Chemistry and address Technical Specification 3.4.16, RCS Specific Activity.

Next, 1NV-35, Variable Flow Letdown Orifice Isolation Valve, will fail Closed. The operator will enter AP/1/A/5500/12, Loss of Letdown, Charging or Seal Injection, and establish Excess Letdown.

Shortly afterwards, the Unit 1 TDCA Pump Stop Valve will trip CLOSED. The operator will respond in accordance with ARP1AD-5/F-3, TD CA PUMP STOP VLV NOT OPEN, and attempt to reset the valve locally. Local attempts to reset the valve will be unsuccessful, and the operator will need to declare the TDCA Pump inoperable. The operator will address Technical Specification 3.7.5, Auxiliary Feedwater (AFW) System.

Subsequently, electrical disturbances cause grid voltage to drop to 216 KV, and simultaneously the main Generator Exciter Limiter will fail to function. The operator will respond in accordance with AP/1/A/5500/05, Generator Voltage and Electrical Grid Disturbances, and make adjustments of Main Generator voltage.

Following this, both IPB Fans will fail. The crew will respond in accordance with ARP1AD-11/J5, IPB AIR FLOW TROUBLE, and perform a rapid downpower in accordance with AP/1/A/5500/04, Rapid Downpower.

During the downpower, both CF Pumps will rollback to LOW Speed causing a low level condition in all Steam Generators. On the ensuing Rx Trip, the Main Turbine will fail to trip in both Auto and Manual, and the operator will need to manually close the Governor Valves. On the trip, the Steam Dumps will fail to actuate due to a C-9 failure and the SG PORVs will open to control steam pressure. Since the 1A SG PORV is isolated, a 1A SG Safety Valve will open instead, and stick about 60% open. Simultaneously, a lockout will occur on 1ETB and the 1A MDCA Pump will fail to start either automatically or manually and result in a total loss of CA flow. 30 seconds later a Major Steam Line Break will occur on the 1D Steamline in Containment.

Scenario Event Description NRC Scenario 1 The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and verify reactor trip and Safety Injection actuation; and then transition to EP/1/A/5000/FR-H.1, Response to Loss of Secondary Heat Sink, based on no CA flow. When 3 of 4 Steam Generator Wide Range levels are < 36%), the operator will initiate NCS Feed and Bleed.

Once NCS Feed and Bleed is established, the TDCA Pump Stop Valve will be able to be reset, and the pump may be returned to service. The operator will restore CA flow to the 1B and/or 1C Steam Generator per Step 7 of FR-H.1.

The scenario will terminate at Step 39 of FR-H.1, with the crew feeding at least one Steam Generator to restore Wide Range Level to > 12% (17% ACC).

Critical Tasks:

Manually trip the Main Turbine prior to completing the Immediate Actions of E-0 Safety Significance: Failure to trip the Main Turbine when required causes a challenge to the Subcriticality/Integrity Critical Safety Function that otherwise would not or may not exist. This mis-operation by the operator necessitates the crew taking compensating action which complicates the event mitigation strategy and demonstrates an inability by the operator to recognize a failure of the automatic actuation of the RPS.

Establish RCS Bleed and Feed before all four Steam Generator Wide Range Levels reach 0%, and the NCS temperature and/or pressure increases.

Safety Significance: Failure to establish RCS Bleed and Feed before automatic opening of the PORVs (due to plant heatup) reduces the probability of success to establish a heat sink for the core. This constitutes a Significant reduction of safety margin beyond that irreparably introduced by the scenario. Establishing feedwater flow into the Steam Generators offers the most effective recovery action to restore the heat sink. If all attempts to initiate feedwater flow fail, the crew must establish bleed and feed to cool the core. This is accomplished by manually initiating SI, and then manually opening the PORVs. The lower NCS pressure allows a greater ECCS flow to recover NCS inventory and force flow through the core. If this action is to be successful, it must be started before SG dryout. SG dryout would cause NC temperature to increase, increasing NC Pressure and forcing open the PORVs automatically. If NCS pressure is at the PORV setpoint due to NCS heatup, the operator action of opening the PORVs manually may not be successful in lowering NCS pressure and increasing ECCS flow. Ultimately, the core could uncover.

Establish feedwater flow into at least one Steam Generator before transition out of FR-H.1.

Safety Significance: Failure to establish feedwater flow into at least one Steam Generator results in the crew having to rely upon the lower-priority action of having to remain in RCS Bleed and Feed to minimize the possibility of core uncovery. Failure to perform this task, when able to do so, constitutes incorrect performance that leads to degradation of the RCS and/or fuel cladding fission product barriers.

Scenario Event Description NRC Scenario 1 SIMULATOR OPERATOR INSTRUCTIONS Bench Mark ACTIVITY DESCRIPTION Sim. Setup Rod Step On Reset to Temp IC 238 T = 0 Malfunctions (From IC-39):

(Originally 39).

Insert 11_eg_MAL_7 = TRUE (Failure of Exciter OEL Limiters)

Insert REM-SV0027 = 0 (Close 1SV-27 [1A S/G PORV Isolation])

Insert LOA-SV001= Racked_Out (SG PORV Breaker Racked Out)

H_X02_087_3 = 0 (1A PORV Controller LEFT lamp)

H_X02_087_4 = 0 (1A PORV Controller RIGHT lamp)

Insert LOA-SV014=0 (SM PORV A LOCAL OPERATION) insert XMT- KFTT5130 = 0 (Spent Fuel Pool Temperature Failure) insert OVR-1AD9_E02 = ON (MCB Annunciator 1AD9/E2)

From IC-238 Per Lesson Plan 2015 NRC Exam Scenario 1 insert MAL-DEH003A = True (Failure of Auto Turbine Trip Signal) insert MAL-DEH003B = True (Failure of Manual Turbine Trip Signal)

MAL-IPE004H = True cd='H_X01_094_2 EQ 1' delay=0 (C-9 fails Conditional on Rx Trip)

MAL-SM004A1 = 60 cd='H_X01_094_2 EQ 1' delay=0 (1A SG Safety Valve Conditional on Rx Trip)

MAL-CA004A = BOTH cd='H_X01_094_2 EQ 1' delay=0 (1A MDCA Pump fails to start Conditional on Rx Trip)

MAL-EP008B = ACTIVE cd='H_X01_094_2 EQ 1' delay=0 (1ETB Lockout Conditional on Rx Trip) insert MAL-SM007D = 2021250 No Ramp, Delay

= 30 seconds, cd='H_X01_094_2 EQ 1' delay=0 (SLB in Containment Conditional on Rx Trip)

Scenario Event Description NRC Scenario 1 Bench Mark ACTIVITY DESCRIPTION RUN Place Tagout/O-Stick on:

1SV-27 (Tagout)

Reset all SLIMs 1KFP-5130 (O-Stick)

MCB Annunciator 1AD-9, E-2 (O-stick)

Update Status Board, NOTE: RMWST DO = <1000 ppb.

Setup OAC Freeze.

Update Fresh Tech.

Spec. Log.

Fill out the AO's Available section of Shift Turnover Info.

Prior to Crew Briefing RUN Scenario Event Description NRC Scenario 1 Bench Mark ACTIVITY DESCRIPTION Crew Briefing

1. Assign Crew Positions based on evaluation requirements

2. Review the Shift Turnover Information with the crew.

3. Provide crew with a copy of PT/1/A/4600/001 marked up for scenario as follows:

Step 7.1 initialed.

Step 8.1 Initialed.

Step 8.2 initialed.

Step 8.3 NA initialed.

Note prior to Step 12 checked.

Step 12.1 Checkbox checked.

Step 12.2 initialed.

Step 12.3 NA initialed.

Step 12.4 Person Notified is John Weber.

Step 12.5 Section 12.6 Checkbox is checked.

4. Direct the crew to Review the Control Boards taking note of present conditions, alarms.

5. Retain a copy of OP/1/A/6200/001A which will need to be provided to the crew during Event 2.

T-0 Begin Familiarization Period At direction of examiner Execute Lesson Plan for Simulator Scenario N15-1-1.

At direction of examiner Event 1 RCCA Withdrawal Test/1C3 HDP Trip insert LOA-HW012 =

Racked_Out insert H_X13_059_3=1 Conditional to HW012 At direction of examiner Event 2 RCS High Activity due to Crud Burst insert PLP-089 = 300 NOTE: This malfunction requires 2-3 minutes to build in, prior to the first indication.

At direction of examiner Event 3 Letdown Valve 1NV-35A fails CLOSED insert REM-NV0035A =

0.0 Ramp = 10 seconds At direction of examiner Event 4 Electrical Grid Voltage Oscillations/Failure of Exciter Limiter Insert MAL-SM029 = 0 Scenario Event Description NRC Scenario 1 Bench Mark ACTIVITY DESCRIPTION At direction of examiner Event 5 Electrical Grid Voltage Oscillations insert PLP-014=480 delay=0 ramp=120 seconds At direction of examiner Event 6 IPB Fan Failure/Rapid Downpower insert LOA-IPB001 =

OFF insert LOA-IPB002 =

OFF At direction of examiner Event 7 Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL insert MAL-DCS1418 insert MAL-DCS1479 insert MAL-DEH003A Note: These malfunctions are inserted at T=0 insert MAL-DEH003B Post-Rx Trip Event 8 C-9 fails to Actuate/1A Safety Valve sticks OPEN insert MAL-IPE004H = Note: These malfunctions are inserted at T=0, True conditional on Rx trip.

insert MAL-SM004A =

60 Post-Rx Trip Event 9 1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout insert MAL-CA004A =

True Note: These malfunctions are inserted at T=0, conditional on Rx trip.

insert MAL-EP008B =

True Post-Rx Trip Event 10 1D Steam Break in Containment insert MAL-SM007D Note: These malfunctions are inserted at T=0, 2021250.000000 No conditional on Rx trip.

Ramp, Delay = 30 seconds After Bleed and Feed is Event 11 TD CA Pump is Restored Insert MAL-SM029 = 1 Note: This action must be inserted upon initiated Ramp = 60 seconds direction of the CRS.

Terminate the scenario upon direction of Lead Examiner Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 1 Page 9 of 62 Event

Description:

RCCA Withdrawal Test/1C3 HDP Trip Shortly after taking the watch, the crew will perform PT/1/A/4600/001, RCCA Movement Test. During the course of the surveillance, the 1C3 Heater Drain Pump will trip. The operator will restore any individual rod bank to its initial position, place control rods in manual (and/or AUTO), and use the Control Room Expectation Manual, to immediately reduce Turbine load as needed to maintain Rx power less than pre-transient condition.

Booth Operator Instructions: WHEN SD Bank B has been inserted 10 steps insert LOA-HW012 = Racked_Out (See Page 11)

Indications Available:

Turbine load starts to lower.

OAC Alarm 1HW45, 1C3 Heater Drain Tank Hi Level Dump Not Closed

1C3 HDP Green status light is LIT.

1C3 HDP amps indicates 0

NIS power slightly higher than 100%.

Time Pos. Expected Actions/Behavior Comments PT/1/A/4600/001, RCCA MOVEMENT TEST RO (Step 12.6) Rod Movement Surveillance in Modes 1 or 2 RO (Step 12.6.1) IF AT ANY TIME it becomes NOTE: The RO will perform necessary to move rods to stabilize the plant, this ACTION after the complete the following: secondary plant transient occurs.

(Step 12.6.1.1) Restore any individual bank to initial position.

(Step 12.6.1.2) Select MANUAL with CRD Bank Select.

RO (Step 12.6.2) Record position of Shutdown NOTE: The RO will record Bank A demand step counters. 225.

(Step 12.6..2.1) Select SDA with CRD Bank Select. (Pause between each bank selected).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 1 Page 10 of 62 Event

Description:

RCCA Withdrawal Test/1C3 HDP Trip Time Pos. Expected Actions/Behavior Comments

(Step 12.6.2.2) Check lit GRP NOTE: The RO will contact SELECT C on the following: IAE.

Booth Instructor: as IAE, acknowledge, and report that required lights are LIT.

Power Cabinet 2AC RO

Power Cabinet 1AC

(Step 12.6.2.3) IF Rod Control Cabinet GRP SELECT C dark, stop

(Step 12.6.2.4) Insert rods at least 10 NOTE: The RO will insert the steps as shown on demand step Control Rods.

counters.

(Step 12.6.2.5) IF required to reposition rods due to misalignment.

(Step 12.6.2.6) Check each individual rod responded to control signal by checking position against DRPI and OAC DRPI and record data on Enclosure 13.1 (Control Rod Drive Movement Data Sheet).

(Step 12.6.2.7) Restore rods to position NOTE: The RO will withdrawal recorded in Step 12.6.2 and check the control rods.

individual rods follow demand.

RO (Step 12.6.3) Record position of Shutdown NOTE: The RO will record Bank B demand step counters. 225.

(Step 12.6.3.1) Select SDB with CRD Bank Select

(Step 12.6.3.2) Check lit GRP NOTE: The RO will contact SELECT C on the following: IAE.

Booth Instructor: as IAE, acknowledge, and report that required lights are LIT.

Power Cabinet 2BD

Power Cabinet 1BD

(Step 12.6.3.3) IF Rod Control Cabinet GRP SELECT C dark

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 1 Page 11 of 62 Event

Description:

RCCA Withdrawal Test/1C3 HDP Trip Time Pos. Expected Actions/Behavior Comments

(Step 12.6.3.4) Insert rods at least 10 NOTE: The RO will insert the steps as shown on demand step Control Rods.

counters.

Booth Operator Instructions: AFTER the RO has inserted Shutdown Bank B 10 steps into the core, insert LOA-HW012 = Racked_Out CONTROL ROOM CREW EXPECTATIONS MANUAL RO Transient load changes: Manual is preferred NOTE: The RO will restore

- immediately reduce 20MWe and then any individual rod bank to its reduce as needed to maintain Rx power less initial position, place control than pre-transient condition. After the initial rods in manual (and/or AUTO).

20 MWe load reduction, it is preferred that the operators use multiple and diverse NOTE: The crew may indications to determine how much more diagnose an overpower load should be reduced. TPBE on the OAC condition and adjust turbine updates once per minute. Other indications load per the Crew Expectation (PR meters and Delta T meters) will indicate Manual.

reactor response more quickly and will enable the operators to control the plant even more precisely. (This combines the Operator Fundamentals of Conservatism and Controlling Plant Evolutions Precisely).

NOTE: The CRS may dispatch an AO to investigate the HDP.

If so, Booth Instructor acknowledge as AO, and report Pump is stopped and hotter than the others.

If the crew investigates further and dispatches an AO to Switchgear, acknowledge as AO, and report A Breaker Overcurrent relay has operated.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 1 Page 12 of 62 Event

Description:

RCCA Withdrawal Test/1C3 HDP Trip Time Pos. Expected Actions/Behavior Comments NOTE: The CRS may call WCC/IAE to address the HDP.

If so, Booth Instructor acknowledge as WCC.

NOTE: The CRS will likely conduct a Focus Brief.

At the discretion of the Lead Examiner move to Event #2.

Examiner Note: The Event 2 malfunction requires 2-3 minutes to build in, prior to the first indication.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 2 Page 13 of 62 Event

Description:

RCS High Activity due to Crud Burst As a result of the plant transient, a Crud Burst will occur and 1EMF48, Reactor Coolant Water Radiation Monitor, will alarm. The operator will respond in accordance with ARP1RAD-2/C-3, 1EMF 48 Reactor Coolant Hi Rad, and implement AP/1/A/5500/18, High Activity in Reactor Coolant. The operator will raise Letdown flow at the request of Chemistry and address Technical Specification 3.4.16, RCS Specific Activity.

Booth Operator Instructions: insert PLP-089 = 300 (This Malfunction requires 2-3 minutes to build in, prior to the first indication.)

Indications Available:

1EMF-48 in TRIP 2

Subsequently, 1EMF-18 in TRIP 2

MCB Annunciator 1RAD-2/C-3 1EMF 48 REACTOR COOLANT HI RAD

MCB Annunciator 1RAD-3/C-3 1EMF 18 REACTOR COOLANT FILTER 1A Time Pos. Expected Actions/Behavior Comments NOTE: The BOP may address either or both ARPs, prior to entering AP18.

OP/1/A/6100/010 R, ANNUNCIATOR RESPONSE FOR PANEL 1RAD-2 C-3, 1EMF 48 REACTOR COOLANT HI RAD CRS (Step 1) Go To AP/1/A/5500/018 (High Activity in Reactor Coolant).

(Step 2) Notify Chemistry.

(Step 3) Notify RP.

NOTE: The CRS will enter AP-18.

OP/1/A/6100/010 S, ANNUNCIATOR RESPONSE FOR PANEL 1RAD-3 D-3, 1EMF 18 REACTOR COOLANT FILTER 1A CRS (Step 1) If an expected alarm or testing in progress, no further action required.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 2 Page 14 of 62 Event

Description:

RCS High Activity due to Crud Burst Time Pos. Expected Actions/Behavior Comments CRS (Step 2) IF a valid alarm:

Notify RP.

IF conditions warrant, evacuate area.

Monitor area EMFs.

CRS (Step 3) IF primary system leak, NOTE: There is no NC System leak.

CRS (Step 4) IF high activity in reactor coolant, go to AP/1/A/5500/018 (High Activity in Reactor Coolant).

CRS (Step 5) IF NC filter high radiation, NOTE: The CRS will enter AP-18.

AP/1/A/5500/18, HIGH ACTIVITY IN REACTOR COOLANT BOP (Step 1) Place one Outside Pressure Filter NOTE: The CRS may assign train in service PER Enclosure 1 the BOP to perform this action.

(Pressurizing the Control Room). If so, BOP Examiner follow actions of Enclosure 1.

Other Examiners follow AP18 Actions, Step 2, on Page 16.

AP/1/A/5500/18, HIGH ACTIVITY IN REACTOR COOLANT ENCLOSURE 1, PRESSURIZING THE CONTROL ROOM BOP (Step 1) Pressurize Control Room using Examiner NOTE: Follow the Outside Air Pressure Fans as follows: actions associated with Enclosure 1 if BOP is assigned by CRS to perform.

Ensure at least one of the following groups of air intake valves are OPEN:

Unit 1 air intake valves:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 2 Page 15 of 62 Event

Description:

RCS High Activity due to Crud Burst Time Pos. Expected Actions/Behavior Comments

1VC-1A (VC Otsd Air Intake Isol From Unit 1)

1VC-2A (VC Otsd Air Intake Isol From Unit 1)

1VC-3B (VC Otsd Air Intake Isol From Unit 1)

1VC-4B (VC Otsd Air Intake Isol From Unit 1)

OR

Unit 2 air intake valves:

1VC-9A (VC Otsd Air Intake Isol From Unit 2)

1VC-10A (VC Otsd Air Intake Isol From Unit 2)

1VC-11B (VC Otsd Air Intake Isol From Unit 2)

1VC-12B (VC Otsd Air Intake Isol From Unit 2)

BOP (Step 2) IF A train VC/YC selected, .. NOTE: The B Train of VC/YC is selected.

BOP (Step 3) IF B train VC/YC selected, THEN place B TRAIN CR OUTSIDE AIR PRESS FAN to ON.

BOP (Step 4) Depress MAN for the following:

#1 CRA OUTSD AIR FAN

#2 CRA OUTSD AIR FAN BOP (Step 5) Depress OFF for the following:

CRA-OAD-4 (CR Area Otsd Fans Damper)

CRA-OAD-3 (CR Area Otsd Fans Damper)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 2 Page 16 of 62 Event

Description:

RCS High Activity due to Crud Burst Time Pos. Expected Actions/Behavior Comments AP/1/A/5500/18, HIGH ACTIVITY IN REACTOR COOLANT Examiner NOTE: Examiners following the CRS/RO continue HERE.

BOP/ (Step 2) Check 1NV-127A (L/D Hx Outlet 3-RO Way Temp Cntrl) - ALIGNED TO DEMIN.

CRS (Step 3) Check Dose Equivalent Iodine -

PREVIOUSLY DETERMINED TO EXCEED ACTION LEVEL 3 LIMIT PER NSD 306, NUCLEAR FUEL RELIABILITY.

CRS (Step 3 RNO) GO TO Step 5.

CRS (Step 5) Determine cause of high activity as NOTE: The CRS may call follows: WCC/Chemistry to address the cause of high activity.

If so, Booth Instructor acknowledge as WCC/Chemistry.

As Chemistry (Time Compression) report that you suspect a Crud Burst, DEI is 1.2 c/gm.

Request Chemistry to check decontamination factor of mixed bed demineralizer.

Notify Chemistry to perform an NC Booth Instructor System isotopic analysis to determine if As Chemistry (Time high activity is from a crud burst or failed Compression) report that you fuel. suspect a Crud Burst, DEI is 1.2 c/gm.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 2 Page 17 of 62 Event

Description:

RCS High Activity due to Crud Burst Time Pos. Expected Actions/Behavior Comments BOP (Step 6) IF AT ANY TIME it is determined NOTE: This is a Continuous that high activity is from crud burst, THEN Action. The CRS will make raise letdown flow to 120 GPM PER both board operators aware.

OP/1/A/6200/001 A (Chemical and Volume Control System Letdown), Enclosure 4.5 (Establishing Maximum Normal Letdown).

NOTE: The CRS may assign the BOP to perform this action.

If so, BOP Examiner follow actions of Enclosure 4.5.

Other Examiners follow AP18 Actions, Step 7, on Page 19.

Floor Instructor: Provide a previously prepared copy of OP/1/A/6200/001A to BOP after BOP locates Simulator Copy of procedure.

OP/1/A/6200/001 A, CHEMICAL AND VOLUME CONTROL SYSTEM LETDOWN ENCLOSURE 4.5, ESTABLISHING MAXIMUM NORMAL LETDOWN Examiner NOTE: Follow the actions associated with Enclosure 4.5 if BOP is assigned by CRS to perform.

CRS/ (Step 3.1) Evaluate all outstanding R&Rs NOTE: The CRS/BOP may BOP that may impact performance of this call WCC to address the procedure. R&Rs.

If so, Booth Instructor acknowledge as WCC, and report none.

BOP (Step 3.2) Notify RP that Letdown is being NOTE: The CRS/BOP may changed and may affect dose rates in call WCC/RP to address affected areas. letdown flowrate change.

If so, Booth Instructor acknowledge as WCC/RP.

BOP (Step 3.3) IF Cation Bed Demineralizer is NOTE: The Cation Bed service, Demineralizer is NOT in service.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 2 Page 18 of 62 Event

Description:

RCS High Activity due to Crud Burst Time Pos. Expected Actions/Behavior Comments BOP (Step 3.4) Evaluate NC Filter P prior to NOTE: The BOP may contact increasing letdown flow. the AO to evaluate filter P.

If so, Booth Instructor acknowledge as AO, and report P normal (5-15 psid),

and acceptable to raise flow.

BOP (Step 3.5) Perform the following sections applicable:

Section 3.6, Increasing Normal Letdown to less than or equal to 120 gpm using 1NV-459 (Variable L/D Orifice Outlet Flow Cntrl)

BOP (Step 3.6) Increasing Normal Letdown to less than or equal to 120 gpm using 1NV-459 (Variable L/D Orifice Outlet Flow Cntrl)

BOP

IF AT ANY TIME it is desired to manually control charging flow, place 1NV-238 (Charging Line Flow Control) in manual.

BOP

IF AT ANY TIME it is desired, place 1KC-132 (U1 LD Hx KD Otlt Temp Cntrl) manual loader to manual and control temperature as required.

BOP

IF 1NV-459 (Variable L/D Orifice Outlet NOTE: 1NV-459 is in service.

Flow Cntrl) NOT in service BOP

Place 1NV-124 (Letdown Pressure Control) in manual.

BOP

Adjust 1NV-124 (Letdown Pressure Control) to reduce letdown pressure to 150-250 psig.

BOP

Perform the following concurrently:

Slowly open 1NV-459 ((Variable L/D Orifice Outlet Flow Cntrl) increasing letdown flow to desired flow rate.

Adjust 1NV-124 (Letdown Pressure Control) to maintain letdown pressure less than 500 psig.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 2 Page 19 of 62 Event

Description:

RCS High Activity due to Crud Burst Time Pos. Expected Actions/Behavior Comments BOP

Adjust 1NV-241 (Seal Injection Flow Control) to maintain NC Pump Seal Injection flow.

BOP

IF NC System at normal operating NOTE: NC System is at temperature and pressure, adjust 1NV- normal operating temperature 124 (Letdown Pressure Control) to and pressure.

maintain 200-375 psig letdown pressure.

Ensure 1NV-124 (Letdown Pressure Control) setpoint at actual letdown pressure.

Place 1NV-124 (Letdown Pressure Control) in auto.

BOP

IF NC System at reduced temperature NOTE: NC System is at and pressure, normal operating temperature and pressure.

BOP

IF 1NV-238 (Charging Line Flow Control) NOTE: 1NV-238 is in AUTO.

in manual,

Ensure 1KC-132 (U1 LD Hx KC Otlt Temp Cntrl) manual loader adjusted to desired setpoint and in auto.

AP/1/A/5500/18, HIGH ACTIVITY IN REACTOR COOLANT Examiner NOTE: Examiners following the CRS/RO continue HERE.

CRS (Step 7) IF AT ANY TIME it is determined NOTE: The high activity is that high activity is from failed fuel, NOT from failed fuel.

CRS (Step 8) Notify Radwaste to ensure VCT H2 purge flow is established.

CRS (Step 9) REFER TO Tech Spec 3.4.16 (RCS Specific Activity).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 2 Page 20 of 62 Event

Description:

RCS High Activity due to Crud Burst Time Pos. Expected Actions/Behavior Comments CRS (Step 10) WHEN station management NOTE: This is a Continuous determines Control Room pressurization no Action. The CRS will make longer required, THEN secure PER both board operators aware.

OP/1/A/6450/011 (Control Area Ventilation/Chilled Water System), Enclosure 4.4 (Control Room Atmosphere Pressurization During Abnormal Conditions).

TECHNICAL SPECIFICATION 3.4.16, RCS SPECIFIC ACTIVITY CRS LCO 3.4.16 The specific activity of the reactor coolant shall be within limits.

CRS APPLICABILITY: MODES 1, and 2.

CRS ACTIONS CRS CONDITION REQUIRED COMPLETION NOTE: The CRS will ACTION TIME determine that ACTION A A. DEI-131 not A.1 Verify DEI- Once per 4 must be entered.

within limit. 131 hours 60µCi/gm.

AND A.2 Restore DEI-131 to within limit.

48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months NOTE: The CRS will likely conduct a Focus Brief.

At the discretion of the Lead Examiner move to Event #3.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 3 Page 21 of 62 Event

Description:

Letdown Valve 1NV-35 fails CLOSED Next, 1NV-35, Variable Flow Letdown Orifice Isolation Valve, will fail Closed. The operator will enter AP/1/A/5500/12, Loss of Letdown, Charging or Seal Injection, and establish Excess Letdown.

Booth Operator Instructions: insert REM-NV0035A = 0.0 (Ramp = 10 seconds)

Indications Available:

Letdown flow (1NVP5530) indicates 0 gpm.

1NV-35A Green status light is LIT.

Pzr Level trending upward.

Charging flow (1NVP5630) starts to lower.

Time Pos. Expected Actions/Behavior Comments NOTE: The CRS will enter AP-12.

AP/1/A/5500/12, LOSS OF LETDOWN, CHARGING OR SEAL INJECTION BOP (Step 1) Check if charging is aligned to Regenerative Hx as follows:

Charging flow - GREATER THAN 20 NOTE: The BOP may take GPM MANUAL control of 1NV-238 to control Charging flow.

1NV-241 (U1 Seal Water Inj Flow Control) - THROTTLED OPEN

1NV-244A (U1 Charging Hdr Cont Outside Isol) - OPEN

1NV-245B (U1 Charging Hdr Cont Outside Isol) - OPEN.

BOP (Step 2) Check Pzr Level - LESS THAN 96%.

CRS (Step 3) Stop any power or temperature changes in progress.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 3 Page 22 of 62 Event

Description:

Letdown Valve 1NV-35 fails CLOSED Time Pos. Expected Actions/Behavior Comments RO/ (Step 4) Announce occurrence on paging NOTE: CRS may ask U2 RO BOP system. to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

CRS (Step 5) IF this AP entered due to loss of letdown only, THEN GO TO Step 37.

BOP (Step 37) Ensure the following valves are CLOSED:

1NV-458A (U1 75 GPM L.D Orifice Otlt Cont Isol)

1NV-457A (U1 45 GPM L/D Orifice Otlt Cont Isol)

1NV-35A (U1 Variable L/D Orifice Otlt NOTE: 1NV-35 has failed Cont Isol). CLOSED.

BOP (Step 38) Ensure NC System makeup controller is auto.

BOP (Step 39) Ensure charging flow going down NOTE: The BOP may take to maintain Pzr at program level. MANUAL control of 1NV-238 to control Charging flow.

BOP (Step 40) Check LETDN RELIEF HI TEMP alarm (1AD-7, I-4) - HAS REMAINED DARK.

BOP (Step 41) Check 1NV-21A (U1 NV Supply to U1 Aux PZR Spray Isol) - CLOSED.

BOP (Step 42) Operate Pzr heaters as follows:

Check A, B, and D Pzr heater group supply breakers on vertical board -

CLOSED.

Check normal Pzr spray - AVAILABLE.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 3 Page 23 of 62 Event

Description:

Letdown Valve 1NV-35 fails CLOSED Time Pos. Expected Actions/Behavior Comments Place the following Pzr heater groups in manual and ON to maximize spray flow:

A

B

D BOP (Step 43) Check the following valves -

OPEN:

1NV-1A (U1 NC L/D Isol To Regenerative Hx)

1NV-2A (U1 NC L/D Isol To Regenerative Hx).

CRS (Step 44) GO TO Step 49.

BOP (Step 49) Establish normal letdown as NOTE: Although attempts will follows: be made, Normal Letdown will NOT be able to be established.

Ensure 1NV-459 (U1 Variable L/D Orifice Outlet Flow Cntrl) is CLOSED.

Place 1NV-124 (U1 Letdown Press Control) in manual with output between 40-45% OPEN.

Check OAC - IN SERVICE.

Check valve position on OAC for 1NV-124 - INDICATING THROTTLED.

Check the following valves - OPEN:

1NV-1A (U1 NC L/D Isol To Regenerative Hx)

1NV-2A (U1 NC L/D Isol To Regenerative Hs).

Establish cooling to Regenerative Hx by performing the following concurrently:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 3 Page 24 of 62 Event

Description:

Letdown Valve 1NV-35 fails CLOSED Time Pos. Expected Actions/Behavior Comments

Establish at least 65 GPM charging NOTE: The BOP will take flow by THROTTLING OPEN 1NV- MANUAL control of 1NV-238 238 (U1 Charging Hdr Control) or to control Charging flow.

raising PD pump speed.

THROTTLE 1NV-241 (U1 Seal Water Inj Flow Control) to establish approximately 8 GPM seal injection flow to each NC pump.

OPEN letdown line isolation valves as follows:

OPEN 1NV-7B (U1 Letdown Cont Outside Isol).

OPEN 1NV-1A (U1 NC L/D Isol To Regenerative Hx).

OPEN 1NV-2A (U1 NC L/D Isol To Regenerative Hx).

OPEN 1NV-35A (U1 Variable L/D NOTE: 1NV-35A cannot be Orifice Otlt Cont Isol). opened.

CRS (Step 49g RNO) GO TO Step 52 NOTE: Although attempts will be made, Normal Letdown will NOT be able to be established.

BOP (Step 52) Establish excess letdown as follows:

Adjust charging to minimum while NOTE: The BOP will take maintaining the following: MANUAL control of 1NV-238 to control Charging flow.

NC pump seal injection flow greater that 6 GPM.

Pzr level at program level.

IF AT ANY TIME excess letdown cannot be established, THEN observe Note prior to Step 53 and GO TO Step 53 to establish letdown using Rx Vessel Head Vents.

OPEN the following valves:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 3 Page 25 of 62 Event

Description:

Letdown Valve 1NV-35 fails CLOSED Time Pos. Expected Actions/Behavior Comments

1KC-315B (U1 Excess L/D Hx KC Ret Hdr Cont Otsd Isol).

1KC-305B (U1 KC To Excess L/D Hx Cont Outside Isol).

BOP

Ensure 1NV-27B (U1 Excess L/D Hx Outlet 3-Way Cntrl) selected to VCT position.

OPEN 1NV-26B (U1 Excess L/D Hx Outlet Cntrl

Wait 2 minutes.

CLOSE 1NV-26B (U1 Excess L/D Hx Outlet Cntrl).

Check the following valves - OPEN:

1NV-94AC (U1 NC Pumps Seal Water Return Cont Inside Isol)

1NV-95B (U1 NC Pumps Seal Water Return Cont Outside Isol).

OPEN 1NV-24B (1C NC Loop To Excess L/D Hx Isol).

OPEN 1NV-25B (1C NC Loop To Excess L/D Hx Isol).

Check the following:

Reactor - CRITICAL

1NV-27B - ALIGNED TO VCT.

RO

Closely monitor reactor response once excess letdown is in service.

Slowly OPEN 1NV-26B while maintaining excess letdown Hx temperature less than 200°F.

CRS

GO TO Step 52.r.

Notify Primary Chemistry that excess NOTE: The CRS may call letdown is in service. Chemistry.

If so, Booth Instructor acknowledge as Chemistry.

Adjust charging flow as desired while maintaining the following:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 3 Page 26 of 62 Event

Description:

Letdown Valve 1NV-35 fails CLOSED Time Pos. Expected Actions/Behavior Comments

NC pump seal injection flow greater than 6 GPM

Pzr level at program level.

Operate Pzr heaters as desired.

BOP

WHEN time allows, THEN notify NOTE: The CRS may call engineering to document the following Engineering.

transients: If so, Booth Instructor acknowledge as Engineering.

Letdown isolation

Potential charging nozzle transient

IF NV Aux Spray was in service

Check 1NV-27B (U1 Excess L/D Hx Outlet 3-Way Cntrl) = ALIGNED TO VCT.

IF AT ANY TIME VCT level needs to be NOTE: This is a Continuous lowered. Action. The CRS will make both board operators aware.

WHEN normal letdown available NOTE: This is a Continuous Action. The CRS will make both board operators aware.

WHEN desired to isolate excess NOTE: This is a Continuous letdown Action. The CRS will make both board operators aware.

RETURN TO procedure and step in effect.

NOTE: The CRS may call WCC/IAE to address the failed valve.

If so, Booth Instructor acknowledge as WCC.

NOTE: The CRS will likely conduct a Focus Brief.

At the discretion of the Lead Examiner move to Event #4.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 4 Page 27 of 62 Event

Description:

TD CA Pump Inoperability Shortly afterwards, the Unit 1 TDCA Pump Stop Valve will trip CLOSED. The operator will respond in accordance with ARP1AD-5/F-3, TD CA PUMP STOP VLV NOT OPEN, and attempt to reset the valve locally. Local attempts to reset the valve will be unsuccessful, and the operator will need to declare the TDCA Pump inoperable. The operator will address Technical Specification 3.7.5, Auxiliary Feedwater (AFW) System.

Booth Operator Instructions: insert MAL-SM029 = 0, delay=0 ramp = 0 (TDCA Pump Stop Valve Trips)

Indications Available:

OAC Alarm: U1 CA PUMP TURBINE STOP VALVE INDICATING NOT OPEN

MCB Annunciator 1AD-5/F-3, TD CA PUMP STOP VLV NOT OPEN Time Pos. Expected Actions/Behavior Comments OP/1/A/6100/010F, ANNUNCIATOR PROCEDURE FOR 1AD-5 F-3, TD CA PUMP STOP VLV NOT OPEN CRS (IA Step 1) IF CA is supplying the S/Gs, NOTE: The CA is NOT ensure 1A(1B) CA Pumps are maintaining supplying S/Gs.

S/G level.

CRS (SA Step 1) IF TDCA pump stop valve is required to be reset, reset per one of the following:

IF Emergency or Abnormal event, reset per Generic Enclosures EP/1/A/5000/G-1, Enclosure 24 (Resetting TD CA Stop Valve). (Copy located in satellite file in CA Pump room.)

OR

IF normal operation, reset per NOTE: The CRS will dispatch OP/1/A/6250/002 (Auxiliary Feedwater an AO to investigate and reset System). as needed.

Booth Instructor acknowledge as AO.

Wait 2 Minutes and report that the U1 TD CA Pump Stop valve cannot be reset.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 4 Page 28 of 62 Event

Description:

TD CA Pump Inoperability Time Pos. Expected Actions/Behavior Comments NOTE: The CRS will coordinate with the WCCS to repair the TDCA Pump.

Booth Instructor acknowledge as WCCS.

TECHNICAL SPECIFICATION 3.7.5, AUXILIARY FEEDWATER (AFW) SYSTEM CRS LCO 3.7.5 Three AFW trains shall be OPERABLE.

CRS APPLICABILITY: MODES 1, 2 and 3; MODE 4 when steam generator is relied upon for heat removal.

CRS ACTIONS CRS CONDITION REQUIRED COMPLETION NOTE: The CRS will ACTION TIME determine that ACTION B B. One AFW B.1 Restore 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months must be entered.

train inoperable AFW train to AND in MODE 1, 2 or OPERABLE 10 days from 3 for reasons status. discovery of other than failure to Condition A meet the LCO SELECTED LICENSEE COMMITMENT 16.9.7, STANDBY SHUTDOWN SYSTEM CRS COMMITMENT The Standby Shutdown System (SSS) shall be operable.

CRS APPLICABILITY: MODES 1, 2, and 3.

CRS REMEDIAL ACTIONS The SRO should ensure that security is NOTE: The CRS may call notified 10 minutes prior to declaring the SSS WCC/Security to implement inoperable. Immediately upon discovery of compensatory measures the SSS inoperability, Security must be within 10 minutes of discovery.

notified to implement compensatory If so, Booth Instructor measures within 10 minutes of discovery. acknowledge as WCC/Security.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 4 Page 29 of 62 Event

Description:

TD CA Pump Inoperability Time Pos. Expected Actions/Behavior Comments A. One or more A.1 Verify the 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months NOTE: The TDCA Pump is an required SSS FUNCTINALITY of fire SSS required component (See components identified in detection and Table 16.9.7-1).

Table 16.9.7- suppression Consequently the CRS will

1. systems in identify that ACTION A.1 and the associated A.2 must be entered.

areas identified in Table 16.9.7-1 AND A.2 Restore the component to 7 days FUNCTIONAL status.

NOTE: The CRS will likely conduct a Focus Brief.

At the discretion of the Lead Examiner move to Event #5.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 5 Page 30 of 62 Event

Description:

Electrical Grid Voltage Oscillations/Failure of Exciter Limiter Subsequently, electrical disturbances cause grid voltage to drop to 216 KV, and simultaneously the main Generator Exciter Limiter will fail to function. The operator will respond in accordance with AP/1/A/5500/05, Generator Voltage and Electrical Grid Disturbances, and make adjustments of Main Generator voltage.

Booth Operator Instructions: insert PLP-014 = 480, delay=0 ramp=120 (Grid Disturbance)

Indications Available:

OAC Alarm: U1 GENERATOR X PHASE AMPS

OAC Alarm: U1 GENERATOR Y PHASE AMPS

OAC Alarm: U1 GENERATOR Z PHASE AMPS

OAC Alarm: 230 KV Y BUS VOLTS

OAC Alarm: 230 KV R BUS VOLTS

Main Generator MVARs rise to outside of Generator Capability Curve

MCB Annunciator 1AD-1/C-5, EXCITATION LIMITER IN ACTION (5 minutes after event)

Time Pos. Expected Actions/Behavior Comments AP/1/A/5500/05, GENERATOR VOLTAGE AND ELECTRICAL GRID DISTURBANCES CRS (Step 1) Announce occurrence on page. NOTE: The CRS may ask U2 RO to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

CRS (Step 2) Ensure dispatcher is aware of NOTE: The CRS/BOP will problem. contact SOC.

Booth Instructor: as SOC, acknowledge.

As SOC, Booth Instructor report Electrical Grid voltage disturbances are occurring.

CRS (Step 3) Notify Unit 2 to evaluate Floor Instructor: As U2 RO, implementing AP/2/A/5500/05 (Generator acknowledge.

Voltage and Electric Grid Disturbances).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 5 Page 31 of 62 Event

Description:

Electrical Grid Voltage Oscillations/Failure of Exciter Limiter Time Pos. Expected Actions/Behavior Comments RO (Step 4) Check Unit 1 Generator - TIED TO GRID.

CRS (Step 5) IF AT ANY TIME reactor power is NOTE: This is a Continuous greater than 100%, THEN reduce turbine Action. The CRS will make load to maintain reactor power less than both board operators aware.

100%.

RO (Step 6) Check Unit 1 Generator frequency-GREATER THAN 58.5 Hz.

RO (Step 7) Monitor Generator Capability Curve NOTE: The RO or BOP will as follows: most likely place Curve on OAC Screen.

Check Generator voltage - LESS THAN NOTE: The Generator voltage 24 KV. will be 22 KV.

Check OAC - IN SERVICE.

Monitor Generator Capability Curve PER OAC turn on code GENCAP.

RO (Step 8) Check Generator MVARs - WITHIN NOTE: The MVARs will NOT LIMITS OF GENERATOR CAPABILITY be within the capability curve.

CURVE.

CRS (Step 8 RNO) GO TO Step 11.

RO (Step 11) Adjust MVARs to within the capability curve by performing one of the following:

Depress LOWER on the VOLTAGE NOTE: This adjustment should ADJUST to reduce lagging MVARs. be effective at controlling MVARs.

OR

Depress RAISE on the VOLTAGE ADJUST to reduce leading MVARs.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 5 Page 32 of 62 Event

Description:

Electrical Grid Voltage Oscillations/Failure of Exciter Limiter Time Pos. Expected Actions/Behavior Comments RO (Step 12) Check Generator MVARs - NOTE: The adjustment of the WITHIN LIMITS OF GENERATOR Voltage Regulator in AUTO CAPABILITY CURVE. occurs slowly and the operator may interpret the adjustment as ineffective. If so, MANUAL adjustment may be made using the Step 12 RNO.

Regardless, adjustment of the Voltage Regulator in AUTO and/or MANUAL will return MVARs to within the limits of the Capability Curve.

RO (Step 12 RNO) IF actions in Step 11 do not restore MVARs, THEN perform the following:

IF voltage regulator in AUTO, THEN perform the following:

Place voltage regulator in MAN.

Adjust MVARs to within the capability curve.

IF unable to maintain MVARs within NOTE: IF needed, the MVARs curve, will be able to be adjusted with the Voltage Regulator in MANUAL.

RO (Step 13) Monitor Generator frequency as follows:

Check generator frequency - BETWEEN 59.9 - 60.1 Hz.

IF AT ANY TIME generator frequency is NOTE: This is a Continuous abnormal OR TCC/SOC reports Action. The CRS will make abnormal grid frequency condition, both board operators aware.

THEN GO TO Step 13d.

CRS

GO TO Step 16.

RO (Step 16) Check if voltage regulator malfunction has occurred:

Generator MVARs - FLUCTUATED WITHOUT A KNOWN GRID DISTURBANCE IN EFFECT

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 5 Page 33 of 62 Event

Description:

Electrical Grid Voltage Oscillations/Failure of Exciter Limiter Time Pos. Expected Actions/Behavior Comments

OAC turn on code "MAINGEN" -

INDICATES PROBLEM WITH VOLTAGE REGULATOR

"VOLTAGE REGULATOR COMMON TROUBLE" alarm (1AD-1, D-4) - LIT.

CRS (Step 16 RNO) GO TO Step 20.

CRS (Step 20) Check if TCC or SOC has reported any of the following:

Real Time Contingency Analysis (RTCA) indicated that switchyard voltage would not be adequate should the unit trip.

OR

Real Time Contingency Analysis (RTCA) indicates that switchyard voltage would not be adequate if further grid degradation occurs.

OR

Red grid condition exists or is predicted within the next 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

OR

Degraded 230 KV switchyard (grid) NOTE: if NOT already done, voltage or frequency condition exists. As SOC, Booth Instructor report Electrical Grid voltage disturbances are occurring.

CRS (Step 21) Notify Work Window Manager or NOTE: The CRS may call STA to perform the following in electronic risk WCC to address the Voltage assessment tool: regulator failure.

If so, Booth Instructor acknowledge as WCC.

Enter PRA code OSSA_GRID for expected duration of event.

Evaluated results.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 5 Page 34 of 62 Event

Description:

Electrical Grid Voltage Oscillations/Failure of Exciter Limiter Time Pos. Expected Actions/Behavior Comments CRS (Step 22) Evaluate rescheduling work on the NOTE: The CRS will following equipment during degraded grid determine that there are no condition time frame: effects on this equipment.

Emergency D/Gs

Vital or Aux Control Power Systems

SSF equipment CRS (Step 23) Evaluate the following:

Stopping any ongoing surveillance testing.

Stopping any ongoing maintenance activities.

Returning systems to normal/functional status.

RO (Step 24) Check Unit 1 Generator - TIED TO GRID.

CRS/ (Step 25) IF AT ANY TIME TCC reports that NOTE: This is a Continuous RO Real Time Contingency Analysis (RTCA) Action. The CRS will make indicates 230 KV switchyard (grid) voltage both board operators aware.

would not be adequate should Unit 1 trip, THEN GO TO Enclosure 3 (RTCA Actions with Unit One On-line).

CRS (Step 26) IF AT ANY TIME offsite power is NOTE: This is a Continuous inoperable, THEN REFER TO the following Action. The CRS will make Tech Specs: both board operators aware.

CRS (Step 27) WHEN conditions return to normal, NOTE: This is a Continuous THEN perform the following: Action. The CRS will make both board operators aware.

Check Generator frequency - HAS REMAINED GREATER THAN 58.5 HZ.

Check Unit 1 Generator - TIED TO GRID.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 5 Page 35 of 62 Event

Description:

Electrical Grid Voltage Oscillations/Failure of Exciter Limiter Time Pos. Expected Actions/Behavior Comments

Ensure Unit 1 Generator Bus Voltage is adjusted PER Data Book, Enclosure 4.3, Table 3.1.3, Generator Voltage Operating Schedule, including any operational restrictions.

CRS Exit this AP. NOTE: The CRS will likely conduct a Focus Brief.

NOTE: It is possible that the crew will initiate a down power to clear the high Generator Amperage alarms on the OAC.

At the discretion of the Lead Examiner, move to Event #6.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 6 Page 36 of 62 Event

Description:

IPB Fan Failure/Rapid Downpower Following this, both IPB Fans will fail. The crew will respond in accordance with ARP1AD-11/J5, IPB AIR FLOW TROUBLE, and perform a rapid downpower in accordance with AP/1/A/5500/04, Rapid Downpower.

Booth Operator Instructions: Insert LOA-IPB001 and IPB002 = OFF Indications Available:

MCB Annunciator 1AD11/I-5; IPB TROUBLE

MCB Annunciator 1AD11/J-5; IPB AIR FLOW TROUBLE

OAC Alarm 1A IPB Blower OFF

OAC Alarm 1B IPB Blower OFF Time Pos. Expected Actions/Behavior Comments ARP1AD-11/J5, IPB AIR FLOW TROUBLE CRS (Step 1) IF load rejection NOTE: A load rejection is NOT occurring.

CRS/ (Step 2) Send operator to IPB Alarm Panel to BOP determine and acknowledge the alarm.

BOP (Step 3) IF a zone lockout occurred, . NOTE: A Zone Lockout has NOT occurred.

BOP (Step 4) IF both fans off, perform the NOTE: The CRS will dispatch following within 15 minutes: an AO to take this action.

Booth Instructor: as AO, acknowledge. Within 2 min report that neither IPB Fan will start.

Place fan in AUTO to MAN.

IF neither fan will start, go to AP/1/A/5000/004 (Rapid Down Power) and reduce Turbine Generator until the following obtained:

20,000 amps for double Busline (Approximately 700 MWs, 58% RTP)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 6 Page 37 of 62 Event

Description:

IPB Fan Failure/Rapid Downpower Time Pos. Expected Actions/Behavior Comments

10,000 amps for single Busline (approximately 350 MWs, 30% RTP)

NOTE: The CRS will transition to AP-4.

AP/1/A/5500/04, RAPID DOWNPOWER RO/ (Step 1) Monitor Foldout page.

BOP Uncontrolled Cooldown (If Tavg < 551°F and lowering..Not Expected)

Power Factor (Adjust power factor during NOTE: The RO will adjust load reduction to maintain power factor MVARS as needed.

between 0.9 to 1.0 lagging, using "VOLTAGE ADJUST" pushbutton)

Manual Rod Control Criteria ( < C-5, Not Expected)

Turbine Shutdown (Turbine Load < 15 MWe Not Expected)

CRS (Step 2) Announce occurrence on page. NOTE: The CRS may ask U2 RO to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

RO (Step 3) Check turbine control - IN AUTO.

RO (Step 4) Check MW LOOP - IN SERVICE.

RO (Step 4 RNO) Depress MW IN/MW OUT pushbutton.

CRS (Step 5) Check shutdown to Mode 3 -

DESIRED.

CRS (Step 5 RNO) Observe Note prior to Step 8 and GO TO Step 8.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 6 Page 38 of 62 Event

Description:

IPB Fan Failure/Rapid Downpower Time Pos. Expected Actions/Behavior Comments CRS (Step 8) Determine the required power NOTE: The CRS will reduce reduction rate (MW/min). load at 30-60 MWe/minute.

RO (Step 9) Check control rods - IN AUTO. NOTE: The Control Rods may or may not be in AUTO. If not, the RO will perform the Step 9 RNO and place the Control Rods in AUTO.

RO (Step 9 RNO) Perform the following:

IF auto control available, THEN perform the following:

Place control rods in auto.

GO TO Step 10.

BOP (Step 10) Notify SOC of load reduction (red Booth Instructor: as SOC, dispatcher phone). acknowledge.

RO (Step 11) Initiate turbine load reduction to desired load at desired rate.

BOP (Step 12) Borate NC System as follows:

Energize all backup Pzr heaters.

CRS

Check unit to be shutdown - VIA NOTE: It is normal practice to REACTOR TRIP FROM 15% POWER. shut down the reactor by driving rods, rather than tripping from 15%.

CRS (Step 12b. RNO) GO TO Step 12.d.

BOP

Determine boration amount based on the following:

Power Reduction Rate (MW/min)

Present NC System Boron Concentration (ppm)

Total Power change (%).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 6 Page 39 of 62 Event

Description:

IPB Fan Failure/Rapid Downpower Time Pos. Expected Actions/Behavior Comments

Record calculated boration amount: NOTE: Based on the rate of load reduction the total boration is 500-700 gallons.

RO

Check auto or manual rod control -

AVAILABLE.

BOP

Perform boration in 4 equal additions NOTE: The CRS may assign during load reduction PER the BOP to perform this action.

OP/1/A/6150/009 (Boron Concentration If so, BOP Examiner follow Control), Enclosure 4.7 (Boration Using actions of Enclosure 4.7.

1NV-265B (Boric Acid to NV Pumps)).

Other Examiners follow AP-4 Actions, Step 13, on Page 40.

OP/1/A/6150/009 BORON CONCENTRATION CONTROL ENCLOSURE 4.7 BORATION USING 1NV-265B (BORIC ACID TO NV PUMPS)

BOP (Step 3.1) Evaluate all outstanding R&Rs that may impact performance of this procedure.

BOP (Step 3.2) Evaluate energizing additional pressurizer heaters per OP/1/A/6100/003 (Controlling Procedure For Unit Operation) to enhance system mixing when changing NC System boron concentration. (R.M.)

BOP (Step 3.3) Perform following sections, as applicable:

Section 3.6, Adding Greater Than 20 Gallons of Boric Acid BOP (Step 3.6) Adding Greater Than 20 Gallons of Boric Acid

Ensure one of the following running:

1A BA Trans Pump OR

1B BA Trans Pump

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 6 Page 40 of 62 Event

Description:

IPB Fan Failure/Rapid Downpower Time Pos. Expected Actions/Behavior Comments

Determine length of time 1NV-265B (U1 NV Pump Boric Acid Sup Isol) full open as follows: (R.M.)

BOP

IF using Table 4.7-1 (Time 1NV-265B Full Open With One BAT Pump Running), record time 1NV-265B full open from table:_____sec.

IF using equation, perform the following:

Calculate time 1NV-265 is to to be Full Open.

Open 1NV-265B (U1 NV Pump Boric Acid Sup Isol). (R.M.)

HOLD until 1NV-265B (U1 NV Boric Acid Sup Isol) full open time elapsed, THEN close 1NV-265B (U1 NV Pump Boric Acid Sup Isol). (R.M.)

IF 1NV-265B (U1 NV Boric Acid Sup Isol) will NOT close

IF BA Trans Pump started in Step 3.6.1, perform the following:

Ensure the following off:

1A BA Trans Pump

1B BA Trans Pump

Ensure one of the following selected to AUTO:

1A BA Trans Pump OR

1B BA Trans Pump AP/1/A/5500/04, RAPID DOWNPOWER Examiner NOTE: Examiners following the CRS/RO continue HERE.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 6 Page 41 of 62 Event

Description:

IPB Fan Failure/Rapid Downpower Time Pos. Expected Actions/Behavior Comments RO (Step 13) Check control rods - MOVING IN AS REQUIRED TO MAINTAIN T-AVG AT T-REF.

RO (Step 14) Display Rod Insertion Limits on OAC by entering turn on code RIL.

CRS (Step 15) IF AT ANY TIME "CONTROL ROD NOTE: This is a Continuous BANK LO LO LIMIT" alarm (1AD-2, B-9) is Action. The CRS will make lit, THEN perform one of the following to both board operators aware.

comply with Tech Spec 3.1.6 (Control Bank Insertion Limits)

Ensure alarm clears within one hour as Xenon builds in.

OR

Initiate boration as necessary within one hour to restore control rods above insertion limits.

CRS (Step 16) IF AT ANY TIME during this NOTE: This is a Continuous procedure C-7A is received, THEN ensure Action. The CRS will make Transient Monitor freeze is triggered. both board operators aware.

CRS (Step 17) REFER TO the following: NOTE: The CRS may ask OSM to address.

If so, Floor Instructor acknowledge as OSM.

RP/0/A/5700/000 (Classification of Emergency)

RP/0/A/5700/010 (NRC Immediate Notification Requirements).

CRS (Step 18) Notify Reactor Engineer on duty of NOTE: The CRS may call load reduction. WCC/RE to address the load reduction.

If so, Booth Instructor acknowledge as WCC/RE.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 6 Page 42 of 62 Event

Description:

IPB Fan Failure/Rapid Downpower Time Pos. Expected Actions/Behavior Comments Examiner NOTE: The CRS may proceed past Step 18 of AP4 while waiting for the BOP to complete the first boration.

If so, wait until the BOP is complete with the first boration and then proceed to the next event.

RO (Step 19) Check target load LESS THAN 1000 MW.

RO (Step 20) Check Unit 2 available to supply aux steam as follows:

Unit 2 Reactor power GREATER THAN 15%

Unit 2 2AS12 (U2 SM to AS Hdr Control Inlet Isol) OPEN

Unit 2 AVAILABLE TO SUPPLY AS HEADER.

RO (Step 21) Check SM flow on all S/Gs GREATER THAN 25%.

RO (Step 22) WHEN all SM flows are less than 75%, THEN ensure the following valves ramp CLOSED:

1CF104AB (1A S/G CF Control Bypass)

1CF105AB (1B S/G CF Control Bypass)

1CF106AB (1C S/G CF Control Bypass)

1CF107AB (1D S/G CF Control Bypass).

RO/ (Step 23) WHEN P/R instruments indicate CRS less than 48%, THEN check "P8 HI PWR LO FLO RX TRIP BLOCKED" status light (1SI18) LIT.

At the discretion of the Lead Examiner move to Events #7-11.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 43 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored During the downpower, both CF Pumps will rollback to LOW Speed causing a low level condition in all Steam Generators. On the ensuing Rx Trip, the Main Turbine will fail to trip in both Auto and Manual, and the operator will need to manually close the Governor Valves. On the trip, the Steam Dumps will fail to actuate due to a C-9 failure and the SG PORVs will open to control steam pressure. Since the 1A SG PORV is isolated, a 1A SG Safety Valve will open instead, and stick about 60% open. Simultaneously, a lockout will occur on 1ETB and the 1A MDCA Pump will fail to start either automatically or manually and result in a total loss of CA flow. 30 seconds later a Major Steam Line Break will occur on the 1D Steamline in Containment. The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and verify reactor trip and Safety Injection actuation; and then transition to EP/1/A/5000/FR-H.1, Response to Loss of Secondary Heat Sink, based on no CA flow. When 3 of 4 Steam Generator Wide Range levels are < 36%), the operator will initiate NCS Feed and Bleed. Once NCS Feed and Bleed is established, the TDCA Pump will be returned to service, and the operator will restore CA flow to the 1B and/or 1C Steam Generator per Step 7 of FR-H.1. The scenario will terminate at Step 39 of FR-H.1, with the crew feeding at least one Steam Generator to restore Wide Range Level to > 12% (17% ACC).

Booth Operator Instructions: insert MAL-DCS1418 insert MAL-DCS1479 Indications Available:

Feed Flow indication on all SGs less than Steam Flow indication.

MCB Annunciator 1AD4-C1(-4), S/G A(-D) FLOW MISMATCH LO CF FLOW

1A CF Pump speed is lowering.

1B CF Pump speed is lowering.

Time Pos. Expected Actions/Behavior Comments EP/1/A/5000/E-0, REACTOR TRIP OR SAFETY INJECTION RO/ (Step 1) Monitor Foldout page. NOTE: Crew will carry out BOP Immediate Actions of E-0, prior to the CRS addressing the EP.

RO (Step 2) Check Reactor Trip: Immediate Action

All rod bottom lights - LIT

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 44 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

Reactor trip and bypass breakers -

OPEN

I/R power - GOING DOWN.

RO (Step 3) Check Turbine Trip: Immediate Action

All throttle valves - CLOSED.

RO (Step 3 RNO) Perform the following: Immediate Action

Trip turbine

IF turbine will not trip, THEN perform the following:

Place turbine in manual.

CLOSE governor valves in fast action.

IF governor valves will not close, THEN.

Critical Task:

Manually trip the Main Turbine prior to completing the Immediate Actions of E-0 Safety Significance: Failure to trip the Main Turbine when required causes a challenge to the Subcriticality/Integrity Critical Safety Function that otherwise would not or may not exist. This mis-operation by the operator necessitates the crew taking compensating action which complicates the event mitigation strategy and demonstrates an inability by the operator to recognize a failure of the automatic actuation of the RPS.

BOP (Step 4) Check 1ETA and 1ETB - Immediate Action ENERGIZED.

BOP (Step 4 RNO) Perform the following:

IF both busses deenergized, THEN. NOTE: Bus 1ETA is energized.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 45 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

WHEN time allows, THEN try to restore power to deenergized bus PER AP/1/A/5500/07 (Loss of Electrical Power) while continuing with this procedure.

RO/ (Step 5) Check if S/I is actuated: Immediate Action BOP

SAFETY INJECTION ACTUATED status light (1SI-18) - LIT.

Both LOCA Sequencer Actuated status lights (1SI-14) - LIT.

CRS/ Foldout Page:

RO/

BOP NC Pump Trip Criteria CA Suction Sources Position Criteria for 1NV150B and 1NV 151A (U1 NV Pump Recirc Isol)

Ruptured S/G Aux Feedwater Isolation Criteria Faulted S/G Aux Feedwater Isolation Criteria CRS (Step 6) Announce Unit 1 Safety Injection. NOTE: The CRS may ask U2 RO to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

BOP (Step 7) Check all Feedwater Isolation status lights (1SI-4) - LIT.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 46 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments BOP (Step 8) Check Phase A RESET lights -

DARK.

BOP (Step 9) Check ESF Monitor Light Panel on Energized train(s):

Groups 1, 2, 5 - DARK.

Group 3 - LIT.

Group 4 - LIT AS REQUIRED.

Group 6 - LIT.

CRS

GO TO Step 10.

RO/ (Step 10) Check proper CA pump status:

BOP

MD CA pumps - ON. NOTE: Both MD CA Pumps are OFF, and cannot be started.

RO/ (Step 10.a RNO) Start pumps. NOTE: The CRS may BOP dispatch an AO to evaluate the MD CA Pumps.

If so, Booth Instructor acknowledge as AO. Wait 3 Minutes and report that neither pump is running.

RO/

N/R level in at least 3 S/Gs - GREATER BOP THAN 17%.

RO/ (Step 10.b RNO) Ensure TD CA pump on. NOTE: The TD CA Pump is BOP OOS.

BOP (Step 11) Check all KC pumps - ON.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 47 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments BOP (Step 11 RNO) Perform the following:

Start pumps.

IF all KC pumps running, THEN.

IF any NC pump KC low flow NOTE: The BOP will stop annunciator lit on 1AD6, THEN stop all the NCPs.

NC pumps.

BOP (Step 12) Check both RN pumps - ON.

BOP (Step 12 RNO) Perform the following:

Start pump(s).

IF any RN pump off, THEN perform the following:

IF 1A RN pump is off, THEN..

CRS

IF affected train is deenergized, AND its D/G is off, THEN GO TO Step 13.

CRS (Step 13) Notify Unit 2 to perform the Floor Instructor: As U2 following: RO report 2A RN Pump is running.

Start 2A RN pump.

THROTTLE Unit 2 RN flow to minimum Booth Instructor:

for existing plant condition. insert LOA-RN087 (Start 2A RN Pump) insert LOA-RN083 8050.000000 delay=0 ramp=10 (Unit 2 Train A Demand Flow)

RO (Step 14) Check all S/G pressures - NOTE: The 1D S/G as a GREATER THAN 775 PSIG. minimum will be < 775 psig.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 48 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments RO (Step 14 RNO) Perform the following:

Check the following valves closed:

All MSIVs

All MSIV Bypass Valves

All SM PORVs.

IF any valve open, THEN BOP (Step 15) Check Containment Pressure - NOTE: Containment HAS REMAINED LESS THAN 3 PSIG. Pressure is > 3 psig.

BOP (Step 15 RNO) Perform the following:

Check Monitor Light Panel Group 7 lit

IF Group 7 window is dark on energized train(s), THEN..

Stop all NC pumps while maintaining seal injection flow.

Ensure all RV pumps are in manual and off.

Energize H2 Igniters by depressing "ON" and "OVERRIDE".

Dispatch operator to stop all Unit 1 NF NOTE: The CRS may AHUs PER EP/1/A/5000/G1 (Generic dispatch an AO.

Enclosures), Enclosure 28 (De If so, Booth Instructor energizing Ice Condenser AHUs). acknowledge as AO, and use LOA-NF016 = STOP.

WHEN time allows, THEN check Phase NOTE: The CRS may direct B HVAC equipment PER Enclosure 2 the U2 BOP to perform this.

(Phase B HVAC Equipment).

If so, Floor Instructor acknowledge as U2 BOP.

BOP (Step 16) Check S/I flow:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 49 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

Check NV PMPS TO COLD LEG FLOW gauge - INDICATING FLOW.

Check NC pressure - LESS THAN 1600 PSIG.

BOP (Step 16b RNO) Perform the following:

Ensure ND pump miniflow valve on running pump(s) OPEN:

1ND-68A (1A ND Pump & Hx Mini Flow Isol)

CRS

IF valve(s) open on all running ND pumps, THEN GO TO Step 17.

CRS (Step 17) Notify OSM or other SRO to NOTE: The CRS may ask perform EP/1/A/5000/G-1 (Generic OSM to address.

Enclosures), Enclosure 22 (OSM Actions If so, Floor Instructor Following an S/I) within 10 minutes. acknowledge as OSM.

RO/ (Step 18) Check CA flow:

BOP

Total CA flow - GREATER THAN 450 NOTE: There is NO CA GPM. flow.

RO/ (Step 18 RNO) Perform the following:

BOP

IF N/R level in all S/Gs is less than 11%

(32% ACC), THEN perform the following:

Ensure correct valve alignment.

Start CA pumps.

IF N/R level in all S/Gs is less than 11%

(32% ACC) AND feed flow greater than 450 GPM cannot be established, THEN perform the following:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 50 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

Implement EP/1/A/5000/F0 (Critical Safety Function Status Trees).

GO TO EP/1/A/5000/FRH.1 (Response to Loss of Secondary Heat Sink).

NOTE: The CRS will transition to FR-H.1.

EP/1/A/5000/FR-H.1, RESPONSE TO LOSS OF SECONDARY HEAT SINK CRS (Step 1) IF total feed flow is less than 450 GPM due to operator action, THEN RETURN TO procedure and step in effect.

CRS (Caution prior to Step 2) If a nonfaulted S/G NOTE: When feed flow is available, then feed flow should only be becomes available, the CRS established to nonfaulted S/G(s) in will ensure that feed is subsequent steps. initiated to the 1B or 1C S/G ONLY.

RO/ (Step 2) Check if secondary heat sink is BOP required:

NC pressure - GREATER THAN ANY NON-FAULTED S/G PRESSURE.

Any NC T-Hot - GREATER THAN 350°F (347°F ACC).

RO/ (Step 3) Monitor Foldout Page.

BOP

NC System Feed and Bleed Criteria (Applies after Step 2 in the body of the procedure)

IF W/R level in at least 3 S/Gs goes NOTE: This Criteria will below 24% (36% ACC), THEN GO most likely apply at this time.

TO Step 22 in the body of the procedure.

Cold Leg Recirc Switchover Criteria

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 51 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

CA Suction Sources BOP (Step 4) Check at least one of the following NV pumps - AVAILABLE:

1A NV pump OR 1B NV pump RO/ (Step 5) Check if NC System feed and bleed should be initiated:

BOP

Check W/R level in at least 3 S/Gs LESS THAN 24% (36% ACC).

CRS

GO TO Step 22. NOTE: This Criteria will most likely apply at this time.

CRS (Step 22) Perform Steps 23 through 27 quickly to establish NC heat removal by NC feed and bleed.

BOP (Step 23) Ensure all NC pumps - OFF. NOTE: The NCPs should be OFF at this time.

BOP (Step 24) Initiate S/I. NOTE: SI is already actuated.

BOP (Step 25) Check "NV PMPS TO COLD LEG FLOW" - INDICATING FLOW.

BOP (Step 26) Establish NC System bleed path as follows:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 52 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

Check all Pzr PORV isolation valves - NOTE: There is no power OPEN. available to the Train B PORV Isolation valves, however each of these valves were OPEN prior to the loss of power to 1ETB (OAC will indicate that ALL PORV isolation valves are OPEN).

Select "OPEN" on two Pzr PORVs that have an open Pzr PORV isolation valve.

Align N2 to Pzr PORVs by OPENING the following valves:

1NI-430A (Emerg N2 From CLA To 1NC-34A)

1NI-431B (Emerg N2 From CLA To 1NC-32B & 36B).

Check power to all Pzr PORV NOTE: There is no power isolation valves - AVAILABLE. available to the Train B PORV Isolation valves.

BOP (Step 26.d RNO) Perform the following:

Evaluate cause of power loss and initiate actions to restore power to affected isolation valve(s).

WHEN power is restored, THEN perform NOTE: This is a Continuous the following: Action. The CRS will make both board operators aware.

OPEN Pzr PORV isolation valves.

Ensure two Pzr PORVs that have an open Pzr PORV isolation valve are OPENED.

BOP (Step 27) Check two Pzr PORVs and associated isolation valves - OPEN.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 53 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments Critical Task:

Establish RCS Bleed and Feed before all four Steam Generator Wide Range Levels reach 0%, and the NCS temperature and/or pressure increases.

Safety Significance: Failure to establish RCS Bleed and Feed before automatic opening of the PORVs (due to plant heatup) reduces the probability of success to establish a heat sink for the core. This constitutes a Significant reduction of safety margin beyond that irreparably introduced by the scenario. Establishing feedwater flow into the Steam Generators offers the most effective recovery action to restore the heat sink. If all attempts to initiate feedwater flow fail, the crew must establish bleed and feed to cool the core. This is accomplished by manually initiating SI, and then manually opening the PORVs. The lower NCS pressure allows a greater ECCS flow to recover NCS inventory and force flow through the core. If this action is to be successful, it must be started before SG dryout. SG dryout would cause NC temperature to increase, increasing NC Pressure and forcing open the PORVs automatically. If NCS pressure is at the PORV setpoint due to NCS heatup, the operator action of opening the PORVs manually may not be successful in lowering NCS pressure and increasing ECCS flow. Ultimately, the core could uncover.

BOP (Step 28) Isolate NV Recirc flowpath as follows:

CLOSE the following valves:

1NV-150B (U1 NV Pump Recirc Isol)

1NV-151A (U1 NV Pump Recirc Isol).

Maintain NV recirc valves closed unless directed to open by subsequent steps.

RO/ (Step 29) Establish containment H2 mitigation as follows:

BOP Check EP/1/A/5000/FR-S.1 (Response To Nuclear Power Generation/ATWS) - HAS PREVIOUSLY BEEN IMPLEMENTED.

CRS (Step 29.a RNO) GO TO Step 29.c.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 54 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments RO/ Check EP/1/A/5000/FR-C.1 (Response To Inadequate Core Cooling) - HAS BOP PREVIOUSLY BEEN IMPLEMENTED.

CRS (Step 29.c RNO) GO TO Step 29.e.

BOP (Step 30) Ensure Pzr heaters remain off as follows:

Place A, B, and D Pzr heaters in manual and off.

Open "C PZR HTR GRP SUP BKR".

BOP

Energize H2 Igniters by depressing "ON" and "OVERRIDE".

Dispatch operator to stop all Unit 1 NF NOTE: The CRS may AHUs PER EP/1/A/5000/G-1 (Generic dispatch an AO.

Enclosures), Enclosure 28 (De-If so, Booth Instructor energizing Ice Condenser AHUs).

acknowledge as AO, and use LOA-NF016 = STOP.

RO/ (Step 31) Have another licensed operator NOTE: The CRS may check S/I equipment PER Enclosure 15 assign the RO to perform BOP (Subsequent S/I Actions) while continuing this action.

with this procedure.

If so, RO Examiner follow actions of Enclosure 15.

Other Examiners follow FR-H.1 Actions, Step 32, on Page 57.

EP/1/A/5000/FR-H.1, RESPONSE TO LOSS OF SECONDARY HEAT SINK ENCLOSURE 15, SUBSEQUENT S/I ACTIONS RO/ (Step 1) Check 1ETA and 1ETB -

BOP ENERGIZED.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 55 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

IF both busses de-energized, THEN

WHEN time allows, THEN try to restore power to de-energized bus PER AP/1/A/5500/07 (Loss of Electrical Power) while continuing with this procedure.

RO/ (Step 2) Check Phase A "RESET" lights -

BOP DARK.

RO/ (Step 3) Check ESF Monitor Light Panel on energized train(s):

BOP

Groups 1, 2, 5 - DARK.

Group 3 - LIT.

Group 4 - LIT AS REQUIRED.

Group 6 - LIT.

GO TO Step 4.

RO/ (Step 4) Check all KC pumps - ON.

BOP RO/ (Step 4 RNO) Perform the following:

BOP

Start pumps.

IF all KC pumps running, THEN.

IF any NC pump KC low flow NOTE: All NCPs are OFF.

annunciator lit on 1AD6, THEN stop all NC pumps.

RO/ (Step 5) Check both RN pumps - ON.

BOP

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 56 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments RO/ (Step 5 RNO) Perform the following:

BOP

Start pump(s).

IF any RN pump off, THEN perform the following:

IF 1A RN pump is off, THEN..

IF affected train is deenergized, AND its D/G is off, THEN GO TO Step 6.

RO/ (Step 6) Notify Unit 2 to perform the BOP following:

Start 2A RN pump. NOTE: The RO/BOP will ask the U2 operator to report the status of the U2 RN System.

Floor Instructor: Report the 2A RN Pump is running, and that flow has been throttled to MINIMUM.

THROTTLE Unit 2 RN flow to minimum for existing plant conditions.

RO/ (Step 7) Check all S/G pressures -

BOP GREATER THAN 775 PSIG.

RO/ (Step 7 RNO) Perform the following:

BOP

Check the following valves closed:

All MSIVs

All MSIV Bypass Valves

All SM PORVs.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 57 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

IF any valve open, THEN RO/ (Step 8) Reset Phase A Isolation.

BOP RO/ (Step 9) Notify OSM or other SRO to perform EP/1/A/5000/G-1 (Generic Enclosures),

BOP Enclosure 22 (OSM Actions Following an S/I).

EP/1/A/5000/FR-H.1, RESPONSE TO LOSS OF SECONDARY HEAT SINK Examiner NOTE:

Examiners following the CRS/BOP continue HERE.

BOP (Step 32) Maintain NC System heat removal by performing the following:

Maintain S/I flow.

Maintain two Pzr PORV flowpaths -

OPEN.

BOP (Step 33) Reset the following:

S/I.

Sequencers.

IF AT ANY TIME a B/O signal occurs, NOTE: This is a Continuous THEN restart S/I equipment previously Action. The CRS will make on. both board operators aware.

BOP (Step 34) Check containment pressure:

Pressure - HAS REMAINED LESS THAN 3 PSIG.

BOP (Step 34.a RNO) Perform the following:

Check Monitor Light Panel Group 7 lit.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 58 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

IF Group 7 window is dark on energized train(s), THEN..

Reestablish VI to containment as follows:

Ensure Phase B reset.

OPEN the following valves: NOTE: These valves are powered by B Train and have no power. However, the valves were open prior to the Loss of Power, and VI header pressure is normal.

1VI-129B (VI Supply to A Cont Ess VI Hdr Outside Isol)

1VI-160B (VI Supply to B Cont Ess VI Hdr Outside Isol)

1VI-150B (Lwr Cont Non-Ess Cont Outside Isol).

IF VI header pressure is less than 85 PSIG, THEN.

IF AT ANY TIME while in this procedure a Phase B reoccurs, THEN perform the following:

Reset Phase B.

OPEN 1VI-129B (VI Supply to A Cont Ess VI Hdr Outside Isol).

OPEN 1VI-160B (VI Supply to B Cont Ess VI Hdr Outside Isol).

OPEN 1VI-150B (Lwr Cont Non-Ess Cont Outside Isol).

Ensure all RV pumps are in manual and off.

Check Phase B HVAC equipment PER NOTE: The CRS will direct Enclosure 16 (Phase B HVAC the BOP to perform Equipment). Enclosure 16 (Not-Scripted

- Checks ONLY).

IF AT ANY TIME containment pressure is greater than 20 PSIG..

CRS

GO TO Step 36

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 59 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments Booth Operator Instructions: As WCCS call the CRS and report that the TD CA Pump Stop Valve is ready to be reset, and that personnel are standing by take this action.

When directed by CRS, Insert MAL-SM029 = 1, ramped over 60 seconds.

BOP (Step 36) Check containment H2 concentration:

Ensure Operator dispatched to stop Unit NOTE: The CRS may 1 NF AHUs PER EP/1/A/5000/G-1 dispatch an AO.

(Generic Enclosures), Enclosure 28 (De-If so, Booth Instructor energizing Ice Condenser AHUs).

acknowledge as AO, and use LOA-NF016 = STOP.

Check H2 analyzers - IN SERVICE.

CRS (Step 36.b RNO) Perform the following:

Dispatch operator to place H2 analyzers NOTE: The CRS may in service PER EP/1/A/5000/G-1 dispatch an AO.

(Generic Enclosures), Enclosure 5 If so, Booth Instructor (Placing H2 Analyzers In Service).

acknowledge as AO.

WHEN H2 analyzers in service, THEN NOTE: This is a Continuous complete Steps 36.c and 36.d. Action. The CRS will make both board operators aware.

GO TO Step 37.

BOP (Step 37) Align CA control valves as follows, to ensure flow will be reestablished in a controlled manner:

Reset CA modulating valves.

CLOSE all CA flow control valves from MD and TD CA pumps.

CRS (Step 38) Continue attempts to establish secondary heat sink in at least one S/G:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 60 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments

CA flow PER Step 7 NOTE: The CRS attempt to start the TD CA Pump using Step 7.

RO/ (Step 7) Attempt to establish CA flow to at least one S/G as follows:

BOP

Check power to both MD CA pumps -

AVAILABLE.

IF 1ETA OR 1ETB deenergized, THEN restore power to the affected essential bus PER AP/1/A/5500/07 (Loss of Electrical Power).

IF the essential bus is energized, NOTE: The CRS may THEN dispatch operator to dispatch an AO.

determine cause of breaker failure.

If so, Booth Instructor acknowledge as AO.

Ensure control room CA valves aligned NOTE: The CRS will direct PER Enclosure 4 (CA Valve Alignment). the BOP to perform Enclosure 4 (Not-Scripted -

Checks ONLY).

Start all available CA pumps.

Check TD CA pump - RUNNING. NOTE: The CRS will coordinate with the WCCS to start the TDCA Pump.

Booth Instructor acknowledge as WCCS.

Insert MAL-SM029 = 1, ramped over 60 seconds.

Check total flow to S/G(s) -

GREATER THAN 450 GPM.

CRS (Step 7.e RNO) Perform the following:

IF only one MD CA pump is on,..

IF any CA pump is started, AND Step 37 has been implemented, THEN GO TO Step 7.h.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 1 Event # 7, 8, 9, 10 & Page 61 of 62 11 Event

Description:

Both CF Pumps Roll Back to Low Speed/Turbine fails to Trip in AUTO and MANUAL/ C-9 fails to Actuate/1A Safety Valve Sticks OPEN/1A MD CA Pumps fails to start in AUTO/Man/1ETB Lockout/1D Steam Break in Containment/ TD CA Pump is Restored Time Pos. Expected Actions/Behavior Comments RO/

Check any S/G W/R level - LESS THAN BOP 12% (17% ACC).

Check core exit T/Cs - STABLE OR NOTE: It is likely that CETs GOING DOWN. are rising.

If NOT, the crew will perform Step 7.j, scripted below.

Perform the following:

THROTTLE OPEN CA control valve to one S/G to establish flow rate required to lower core exit T/Cs.

IF core exit T/Cs continue to go up, THEN THROTTLE OPEN CA control valve to feed another S/G as required to lower core exit T/Cs.

RO/ (Step 7.j) Slowly THROTTLE OPEN CA NOTE: If the CETs are control valve to one S/G to establish feed stable or lowering above, BOP flow less than or equal to 100 GPM. this step will be pereformed.

Critical Task:

Establish feedwater flow into at least one Steam Generator before transition out of FR-H.1.

Safety Significance: Failure to establish feedwater flow into at least one Steam Generator results in the crew having to rely upon the lower-priority action of having to remain in RCS Bleed and Feed to minimize the possibility of core uncovery. Failure to perform this task, when able to do so, constitutes incorrect performance that leads to degradation of the RCS and/or fuel cladding fission product barriers.

At the discretion of the Lead Examiner terminate the exam.

UNIT 1 STATUS:

Power Level: 100% NCS [B] 935 ppm Pzr [B]: 935 ppm Xe: Per OAC Power History: At this power level for 178 days Core Burnup: 250 EFPDs CONTROLLING PROCEDURE: OP/1/A/6100/003 Controlling Procedure for Unit Operation OTHER INFORMATION NEEDED TO ASSUME THE SHIFT:

The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service:

The 1A S/G PORV is isolated and its actuator is currently removed for maintenance.

1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating).

MCB Annunciator 1AD-9, E-2, B COLD LEG ACCUMULATOR ABNORMAL PRESSURE, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating).

Crew Directions:

The crew will perform PT/1/A/4600/001, RCCA Movement Test upon taking the shift, starting with the movement of Shutdown Bank A and continuing in the order identified in Section 12.6 of PT/1/A/4600/001.

IAE Technician Ralph is standing by at the Rod Control Power Cabinets to assist at X2608.

Work Control SRO/Offsite Communicator Jim Plant SRO Joe (FB)

NLO's AVAILABLE Unit 1 Unit 2 Aux Bldg. John Aux Bldg. Chris Turb Bldg. Bob (FB) Turb Bldg. Mike (FB) 5th Rounds. Carol Extra(s) Bill (FB) Ed (FB) Wayne (FB) Tanya Gus (RW)

PROGRAM: McGuire Operations Training MODULE: Initial License Operator Training Class 31 TOPIC: NRC Simulator Exam Scenario N15-1-2

REFERENCES:

1. Technical Specification LCO 3.7.4, Steam Generator Power Operated Relief Valves (SG PORVs) (Amendment 221/203)

2. Technical Specification LCO 3.7.5, Auxiliary Feedwater (AFW) System (Amendment 221/203)

3. OP/1/A/6100/003, Controlling Procedure for Unit Operation (Rev 196)

4. OP/1/A/6150/009, Boron Concentration Control (Rev 126)

5. OP/1/A/6300/001A, Turbine Generator Load Change (Rev 12)

6. AP/1/A/5500/14, Rod Control Malfunction (Rev 16)

7. AP/1/A/5500/20, Rod Control Malfunction (Rev 33)

8. Technical Specification 3.7.7, Nuclear Service Water System (NSWS) (Amendment 184/166)

9. Technical Specification 3.8.1, AC Sources - Operating (Amendment 184/166)

10. AP/1/A/5500/11, Pressurizer Pressure Anomalies (Rev 11)

11. Technical Specification 3.4.1, RCS Pressure, Temperature, and Flow Departure from Nucleate Boiling (DNB) Limits (Amendment 219/201)

12. AP/1/A/5500/03, Load Rejection (Rev 30)

13. EP/1/A/5000/E-0, Reactor Trip or Safety Injection (Rev 34)

14. EP/1/A/5000/FR-S.1, Response to Nuclear Power Generation/ATWS (Rev 15)

15. EP/1/A/5000/E-2, Faulted Steam Generator Isolation (Rev 10)

16. EP/1/A/5000/E-1, Loss of Reactor or Secondary Coolant (Rev 16)

17. EP/1/A/5000/E-3, Steam Generator Tube Rupture (Rev 24)

Validation Time: 107 minutes Author: David Lazarony, Essential Training & Consulting, LLC Facility Review: ________________________

Rev. 040615 Scenario Event Description NRC Scenario 2 Facility: McGuire Scenario No.: 2 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 75% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: The 1B MDCA Pump is OOS for bearing replacement. ACTION has been taken in accordance with Technical Specification LCO 3.7.5 ACTION B. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-3, F-5, BB DEMIN PNL TRBL, has alarmed spuriously several times over the last hour, and has currently failed OFF (IAE is investigating). The crew will raise power to 100% after taking the shift.

Event Malf. Event Type* Event No. No. Description 1 NA R-RO Power Increase w/Simple Dilute N-BOP N-SRO MAL 2 C-RO Uncontrolled outward Rod Motion in AUTO DCS1214 C-SRO REM 3 C-BOP 1B RN Pump Suction Valve inadvertently CLOSES RN0018B C(TS)-SRO MAL 4 C-BOP Pzr Spray Valve (1NC-27) Controller fails OPEN DCSSLIM 06D/G C(TS)-SRO MAL 5 C-RO 1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual LF003B C-BOP IRE009 C-SRO SG001A REM 6 M-RO 1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR SM007AB MAL M-BOP IPE001A/B M-SRO IPE002A/B SG001A SM004A MAL 7 C-BOP TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in CA004A AUTO C-SRO CA005

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Scenario Event Description NRC Scenario 2 McGuire 2015 NRC Scenario #2 The plant is at 75% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: The 1B MDCA Pump is OOS for bearing replacement. ACTION has been taken in accordance with Technical Specification LCO 3.7.5 ACTION B. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance.

1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-3, F-5, BB DEMIN PNL TRBL, has alarmed spuriously several times over the last hour, and has currently failed OFF (IAE is investigating). The crew will raise power to 100%

after taking the shift.

Shortly after taking the watch, the operator will commence a load increase to 100% starting with Step 3.37.10 of Enclosure 4.1, Power Increase, of OP/1/A/6100/003, Controlling Procedure for Unit Operation. The operator will dilute the NC System Boron concentration in accordance with .19, Simple Dilution, of OP/1/A/6150/009, Boron Concentration Control, and raise Turbine load in accordance with OP/1/A/6300/001 A, Turbine-Generator Load Change.

After the load increase is started, the Control Rods will fail such that rods are moving outward in AUTO. The operator will enter AP/1/A/5500/14, Rod Control Malfunction. The control rods will subsequently remain in MANUAL.

After this, the 1B RN Pump Suction Isolation valve will inadvertently CLOSE. The operator will respond using one or more Annunciator Response Procedures and ultimately enter AP/1/A/5500/20, Loss of RN, to place the standby train in service. The operator will address Technical Specification LCO 3.7.7, Nuclear Service Water System (NSWS), and LCO 3.8.1, AC Sources - Operating.

Next, the Pzr Spray Valve Controller, 1NC-27C A Spray, demand will fail to full output. The operator will enter AP/1/A/5500/11, Pressurizer Pressure Anomalies. The operator will address Technical Specification LCO 3.4.1, RCS Pressure, Temperature, and Flow Departure from Nucleate Boiling (DNB) Limits.

Subsequently, the 1B CF Pump will trip causing the turbine to automatically runback to 55%.

Simultaneously, a 40 gpm Steam Generator Tube Leak will occur in the 1A Steam Generator.

The operator will implement AP/1/A/5500/03, Load Rejection. During the runback the operator will need to drive rods in manually.

When the plant is stabilized or AP10 is entered to mitigate the SGTL, the 1A MSIV will inadvertently CLOSE, and the Reactor will fail to trip automatically and manually. Additionally, the low set Safety Valve on the 1A Steam Generator will lift and stick fully OPEN. Additionally, the TD CA Pump will trip on overspeed on auto start, and the 1A MDCA Pump will fail to start automatically. The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and then transition to EP/1/A/5000/FR-S.1, Response to Nuclear Power Generation/ATWS. During the performance of FR-S.1, the operator will continuously drive rods in manually, successfully trip the Reactor locally, and manually start the 1A MDCA Pump and establish 450 gpm of flow the Steam Generators.

The Steam Generator Tube Leak will degrade to a tube rupture in the 1A Steam Generator when the reactor is locally tripped.

Scenario Event Description NRC Scenario 2 After completion of FR-S.1, the operator will transition back to E-0, and then to EP/1/A/5000/E-2, Faulted Steam Generator Isolation. After the 1A Steam Generator is isolated, the operator will transition to EP/1/A/5000/E-3, Steam Generator Tube Rupture.

The scenario will terminate at Step 6 of E-3 after the operator has transitioned to EP/1/A/5000/ECA-3.1, SGTR with Subcooled Recovery Desired, or at Step 9 of E-3 upon initiating an NCS cooldown.

Critical Tasks:

Manually close the Failed OPEN Pzr Spray Valve before the Pressurizer pressure drops to 1945 psig.

Safety Significance: failure to close the Spray Valve and stop the pressure transient, under the postulated plant conditions, results in an unnecessary transient to the plant and challenge to the Reactor Protection System. Performance of the critical task would stabilize the pressure transient. A failure to stabilize the pressure transient, when able to do so, constitutes a mis-operation or incorrect crew performance which leads to incorrect NCS pressure control.

Manually drive rods inward before completing the immediate actions of FR-S.1 (Step 2).

Safety Significance: failure to insert negative reactivity, under the postulated plant conditions, results in an unnecessary situation in which the reactor remains critical or returns to a critical condition. Performance of the critical task would move the reactor towards a subcritical condition to prevent a subsequent return to criticality. A failure to insert negative reactivity constitutes a mis-operation or incorrect crew performance which leads to incorrect reactivity control.

Start the 1A MD CA Pump before transition out of FRS-.1, unless the transition is made to EP/1/A/5000/FR-H.1, and then before the NCPs are manually tripped to limit heat input to the RCS.

Safety Significance: Failure to establish a Secondary Heat Sink through the initiation of CA flow unnecessarily challenges both the HEAT SINK and the CORE COOLING Critical Safety Functions. Additionally, the FSAR Safety Analysis results are predicated on the assumption that at least one train of safeguards actuates and delivers a minimum amount of AFW flow to the Steam Generators. Failure to perform this task, when the ability to do so exists, results in a violation of the Facility License Condition and places the plant in an unanalyzed condition.

Isolate CA flow to the Faulted Steam Generator before an unwarranted Red Path occurs on Subcriticality or NCS Integrity.

Safety Significance: Failure to isolate a Faulted SG that can be isolated causes challenges to the Critical Safety Functions that may not otherwise occur. Failure to isolate flow could result in an unwarranted Orange or Red Path condition on NC Integrity and/or Subcriticality (if cooldown is allowed to continue uncontrollably).

Scenario Event Description NRC Scenario 2 SIMULATOR OPERATOR INSTRUCTIONS Bench Mark ACTIVITY DESCRIPTION Sim. Setup Rod Step On Reset to Temp IC 239 T = 0 Malfunctions (From IC-37):

(Originally 37).

insert LOA-CA010 = RACKED OUT; insert LOA-CA010A = RACKED OUT; (1B MDCA Pump is OOS)

Insert REM-SV0027 = 0 (Close 1SV-27 [1A S/G PORV Isolation])

Insert LOA-SV001= Racked_Out (SG PORV Breaker Racked Out)

H_X02_087_3 = 0 (1A PORV Controller LEFT lamp)

H_X02_087_4 = 0 (1A PORV Controller RIGHT lamp)

Insert LOA-SV014=0 (SM PORV A LOCAL OPERATION) insert XMT- KFTT5130 = 0 (Spent Fuel Pool Temperature Failure) insert OVR-1AD3_F05 = OFF (MCB Annunciator 1AD3/F5)

From IC-239 Per Lesson Plan 2015 NRC Exam Scenario 2 Insert MAL-IPE001A = TRUE (ATWS)

Insert MAL-IPE001B = TRUE (ATWS)

Insert MAL-IPE002A = TRUE (ATWS)

Insert MAL-IPE002B = TRUE (ATWS) insert MAL-CA004A = AUTO (1A MDCA Pump Start Failure [auto])

insert MAL-CA005 TRIP cd='H_X02_094_2 EQ 1' delay=0 (TDCA Overspeed Trip occurs on Reactor Trip Breaker Open Indicating Light) insert SM004A3 = 100 cd='H_X02_070_3 EQ 1' delay=0 (Safety Valve on 1A SG sticks OPEN on A MSIV CLOSE Indicating Light) insert MAL-SG001A = 300 cd='H_X01_094_2 EQ 1' delay=0 (300 gpm SGTR occurs on 1A SG on Reactor Trip Breaker Open Indicating Light)

Scenario Event Description NRC Scenario 2 Bench Mark ACTIVITY DESCRIPTION RUN Place Tagout/O-Stick on:

1B MDCA Pump (Tagout)

Reset all SLIMs 1SV-27 (Tagout) 1KFP-5130 (O-Stick)

MCB Annunciator 1AD-3, F-5 (O-stick)

Update Status Board, NOTE: RMWST DO = >1000 ppb.

Setup OAC Freeze.

Update Fresh Tech.

Spec. Log.

Fill out the AO's Available section of Shift Turnover Info.

Prior to Crew Briefing RUN Crew Briefing

1. Assign Crew Positions based on evaluation requirements

2. Review the Shift Turnover Information with the crew.

3. Provide Enclosure 4.1 of OP/1/A/6100/003 marked up as follows:

Step 2.3 initialed.

Note prior to Step 3.1 checked.

Step 3.1 Checkbox is checked.

Step 3.2 initialed.

Step 3.3 initialed.

Step 3.3.1 Checkbox is checked.

Step 3.3.2 Checkbox is checked, Step 3.37.10 is entered.

Step 3.3.3 Checkbox is checked.

Step 3.3.4 Initialed.

Step 3.37.12 is NA.

Step 3.37.13 is NA.

4. Provide the crew with OP/1/A/6150/009 (Boron Concentration Control) and OP/1/A/6300/1 A (Turbine-Generator Load Change).

5. Direct the crew to Review the Control Boards taking note of present conditions, alarms.

Scenario Event Description NRC Scenario 2 Bench Mark ACTIVITY DESCRIPTION T-0 Begin Familiarization Period At direction of examiner Execute Lesson Plan for Simulator Scenario N15-1-2.

At direction of examiner Event 1 Power Increase w/Simple Dilute At direction of examiner Event 2 Uncontrolled outward Rod Motion in AUTO insert MAL-DCS1214 =

TRUE At direction of examiner Event 3 1B RN Pump Suction Valve inadvertently CLOSES insert REM-RN0018B_1=0, Ramp =

30 seconds At direction of examiner Event 4 Pzr Spray Valve (1NC-27) Controller fails OPEN insertMAL-DCSSLIM06G BUTTON_DEPRESSED insertMAL-DCSSLIM06D BUTTON_DEPRESSED deleteMAL-DCSSLIM06G = 2, delay 10 seconds deleteMAL-DCSSLIM06D = 2, delay

30 seconds At direction of examiner Event 5 1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual insert MAL-LF003B

TRUE insert MAL-IRE009 =

FAIL_OF_AUTO insert MAL-SG001A =

40, Ramp = 600 seconds Scenario Event Description NRC Scenario 2 Bench Mark ACTIVITY DESCRIPTION At direction of examiner Event 6 1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR insert REM-SM007AB

=0.0 Ramp = 10 seconds insert:

Note: Malfunctions inserted at T = 0.

MAL-IPE001A MAL-IPE001B MAL-IPE002A MAL-IPE002B insert MAL-SM004A = 1 Insert MAL-SG001A =

300 Post-Rx Trip Event 7 TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Note: Malfunctions inserted at T = 0.

Terminate the scenario upon direction of Lead Examiner Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 1 Page 9 of 64 Event

Description:

Power Increase w/Simple Dilute Shortly after taking the watch, the operator will commence a load increase to 100% starting with Step 3.37.10 of Enclosure 4.1, Power Increase, of OP/1/A/6100/003, Controlling Procedure for Unit Operation. The operator will dilute the NC System Boron concentration in accordance with Enclosure 4.19, Simple Dilution, of OP/1/A/6150/009, Boron Concentration Control, and raise Turbine load in accordance with OP/1/A/6300/001 A, Turbine-Generator Load Change.

Booth Operator Instructions: NA Indications Available: NA Time Pos. Expected Actions/Behavior Comments OP/1/A/6100/003, CONTROLLING PROCEDURE FOR UNIT OPERATIONS ENCLOSURE 4.1, POWER INCREASE CRS (Step 3.37.10) Prior to increasing to greater NOTE: The power increase than 75% RTP, check all governor valves will be at 2 MWe/minute.

open.

RO/ (Step 3.37.11) WHEN 77-80% RTP, enable, NOTE: Based on the extent of BOP OTDT DCS alarming as follows: the power increase, this action may or may not be taken.

On DCS graphics, select MAINTENANCE MENU.

Select TAVG, DELTA T INPUTS &

ALARM CHECKING graphic.

Select ON for the following:

NCAA 5422

NCAA 5462

NCAA 5502

NCAA 5542

OTDELTAT-FAIL (Step 3.37.12) IF startup from refueling outage..

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 1 Page 10 of 64 Event

Description:

Power Increase w/Simple Dilute Time Pos. Expected Actions/Behavior Comments (Step 3.37.13) IF performing Generator/Automatic Voltage Regulator (AVR) testing at 78% RTP OP/1/A/6150/009, BORON CONCENTRATION CONTROL ENCLOSURE 4.19, SIMPLE DILUTE BOP (Step 3.1) Evaluate all outstanding R&Rs NOTE: The BOP may repeat that may impact performance of this this task as needed during the procedure. power increase.

BOP (Step 3.2) Evaluate energizing additional pressurizer heaters per OP/1/A/6100/003 (Controlling Procedure For Unit Operation) to enhance system mixing when changing NC System boron concentration. (R.M.)

BOP (Step 3.5) Set Total Make Up Flow Counter to value determined in Step 3.3. (R.M.)

BOP (Step 3.6) Select DILUTE on NC Sys M/U Controller.

BOP (Step 3.7) IF AT ANY TIME it is desired to lower VCT level, perform the following:

(Step 3.7.1) Monitor Letdown Pressure.

(Step 3.7.2) Select HUT on 1NV-137A (U1 NOTE: The BOP may do this NC Filters Otlt to VCT 3-Way Diversion at any time to lower VCT level.

Contrl).

(Step 3.7.3) IF Letdown Pressure increases greater than 20 psig, notify CRS.

(Step 3.7.4) AFTER desired level achieved, select AUTO on 1NV-137A (U1 NC Filters Otlt to VCT 3-Way Diversion Cntrl).

BOP (Step 3.8) IF AT ANY TIME plant parameters require termination of dilution, perform the following:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 1 Page 11 of 64 Event

Description:

Power Increase w/Simple Dilute Time Pos. Expected Actions/Behavior Comments (Step 3.8.1) Place NC System Make Up to STOP. (R.M.)

(Step 3.8.2) IF 1NV-137A (U1 NC Filters Otlt to VCT 3-Way Diversion Cntrl) was placed to HUT, place to AUTO.

BOP (Step 3.9) Momentarily select START on NC System Make Up. (R.M.)

BOP (Step 3.10) Check NC System Make Up red light lit.

BOP (Step 3.11) Check 1NV-175A (U1 Boric Acid Blender To VCT Outlet Control) open.

BOP (Step 3.12) Check 1NV-252A (Rx M/U Water Supply To U1 BA Blender Cntrl) open or throttled as required.

BOP (Step 3.13) Check Rx M/U Water Pump starts.

BOP (Step 3.14) Monitor Total Make Up Flow Counter. (R.M.)

BOP (Step 3.15) HOLD until one of the following occurs:

Amount of reactor makeup water recorded per Step 3.6 added OR

Reactor makeup water addition manually terminated BOP (Step 3.16) Ensure dilution terminated as follows: (R.M.)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 1 Page 12 of 64 Event

Description:

Power Increase w/Simple Dilute Time Pos. Expected Actions/Behavior Comments (Step 3.16.1) IF in AUTO, ensure the following off:

1A Rx M/U Water Pump

1B Rx M/U Water Pump BOP (Step 3.16.2) Ensure the following closed:

1NV-171A (U1 Boric Acid Blender To VCT Inlet Control)

1NV-252A (RX M/U Water Supply To U1 BA Blender Cntrl)

BOP (Step 3.17) Ensure 1NV-137A (U1 NC Filters Otlt to VCT 3-Way Diversion Cntrl) in AUTO.

BOP (Step 3.18) IF desired to flush blender. NOTE: It is NOT desired to flush the blender.

BOP (Step 3.19) Select AUTO for NC Sys M/U Controller.

BOP (Step 3.20) Momentarily select START on NC System Make Up.

BOP (Step 3.21) Check NC System Make Up red light lit.

BOP (Step 3.22) Ensure the following reset to zero: (R.M.)

Total Make Up Flow Counter

Boric Acid Flow Counter BOP (Step 3.23) Record in Narrative Log that final blender content is Rx Makeup Water.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 1 Page 13 of 64 Event

Description:

Power Increase w/Simple Dilute Time Pos. Expected Actions/Behavior Comments OP/1/A/6300/001A, TURBINE-GENERATOR STARTUP/SHUTDOWN ENCLOSURE 4.1, TURBINE-GENERATOR LOAD CHANGE RO (Step 3.5.1) IF Turbine in OPERATOR AUTO, perform the following:

(Step 3.5.1.1) Ensure desired change within Calculated Capability Curve.

(Step 3.5.1.2) IF turbine load will increase or decrease more than 10 MWs, notify Dispatcher of expected load change.

(Step 3.5.1.3) Depress LOAD RATE.

(Step 3.5.2.4) Enter desired load rate in NOTE: the RO will select 2 VARIABLE DISPLAY. MWe/Min loading rate.

(Step 3.5.1.5) Depress ENTER.

(Step 3.5.1.6) Depress REFERENCE.

(Step 3.5.1.7) Enter desired load in VARIABLE DISPLAY.

(Step 3.5.1.8) Depress ENTER.

(Step 3.5.1.9) Depress GO (Step 3.5.1.10) Check load changes at selected rate.

OP/1/A/6100/003, CONTROLLING PROCEDURE FOR UNIT OPERATIONS ENCLOSURE 4.1, POWER INCREASE CRS (Step 3.37.13) Continue power increase to NOTE: The power increase 95% RTP. will be at 2 MWe/minute.

At the discretion of the Lead Examiner move to Event #2.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 2 Page 14 of 64 Event

Description:

Uncontrolled outward Rod Motion in AUTO After the load increase is started, the Control Rods will fail such that rods are moving outward in AUTO. The operator will enter AP/1/A/5500/14, Rod Control Malfunction.

The control rods will subsequently remain in MANUAL.

Booth Operator Instructions: insert MAL-DCS1214 = TRUE Indications Available:

Rods stepping out continuously with no demand.

Time Pos. Expected Actions/Behavior Comments NOTE: When the malfunction is diagnosed the CRS may go to HOLD on the Turbine.

AP/1/A/5500/14, ROD CONTROL MALFUNCTION RO (Step 1) IF two or more rods are either Immediate Action dropped or misaligned by greater than 24 NOTE: No control rods steps, THEN.. dropped during this event.

RO (Step 2) Place control rods in manual. Immediate Action RO (Step 3) Check rod movement - STOPPED. Immediate Action NOTE: There was no rod motion when the Rods were taken to Manual.

RO (Step 4) Check all rods - ALIGNED WITH ASSOCIATED BANK.

RO (Step 5) Check ROD CONTROL URGENT FAILURE alarm (1AD-2, A-10) - DARK.

RO (Step 6) Check T-AVG/T-REF FAILURE ROD STOP alarm (1AD-2, B-7) - DARK.

RO (Step7) IF this AP entered due to NOTE: The SRO will transition unwarranted rod insertion or withdrawal, to AP-14, Enclosure 3.

THEN GO TO Enclosure 3 (Response to Continuous Rod Movement).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 2 Page 15 of 64 Event

Description:

Uncontrolled outward Rod Motion in AUTO Time Pos. Expected Actions/Behavior Comments AP/1/A/5500/14, ROD CONTROL MALFUNCTION ENCLOSURE 3, RESPONSE TO CONTINUOUS ROD MOVEMENT CRS (Step 1) Announce occurrence on paging NOTE: The CRS may ask U2 system. RO to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

CRS (Step 2) Notify IAE to investigate problem. NOTE: The CRS may call WCC/IAE to address the Rod Control malfunction.

If so, Booth Instructor acknowledge as WCC.

RO (Step 3) Evaluate the following prior to any control rod withdrawal:

Ensure no inadvertent mode change will occur

Ensure control rods are withdrawn in a deliberate manner, while closely monitoring the reactors response.

RO (Step 4) Check T-Ref indication - NORMAL.

RO (Step 5) Do not move rods until IAE determines rod motion is permissible.

RO (Step 6) Maintain T-Avg within 1°F of programmed T-Ref as follows:

Adjust Turbine load NOTE: The RO will adjust Turbine Load as needed to maintain T-avg.

OR

Borate/dilute NC System.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 2 Page 16 of 64 Event

Description:

Uncontrolled outward Rod Motion in AUTO Time Pos. Expected Actions/Behavior Comments RO (Step 7) IF AT ANY TIME a runback occurs NOTE: This is a Continuous while in this procedure, THEN observe the Action. The CRS will make following guidance: both board operators aware.

IF IAE has determined that it is permissible to move rods, THEN respond to the runback PER AP/1/A/5500/03 (Load Rejection).

For all other circumstances, assume rod control is not available and respond to the runback as follows:

Trip Reactor.

GO TO EP/1/A/5000/E-0 (Reactor Trip or Safety Injection).

RO (Step 8) IF AT ANY TIME while in this NOTE: This is a Continuous procedure a unit shutdown is required AND Action. The CRS will make rods cannot be moved, THEN perform the both board operators aware.

following:

Borate as required during shutdown to maintain T-Avg at T-Ref.

Monitor AFD during load reduction.

IF AT ANY TIME AFD reaches Tech Spec limit AND reactor power is greater than 50%, THEN perform the following:

Trip Reactor.

GO TO EP/1/A/5000/E-0 (Reactor Trip or Safety Injection).

NOTE: The CRS may call WCC/IAE to address.

If so, Booth Instructor acknowledge as WCC. After 5 minutes, report that the Control Rods must be kept in MANUAL, and that they can move rods in MANUAL as needed.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 2 Page 17 of 64 Event

Description:

Uncontrolled outward Rod Motion in AUTO Time Pos. Expected Actions/Behavior Comments RO (Step 9) WHEN problem is repaired, THEN NOTE: The CRS will likely perform the following: conduct a Focus Brief.

At the discretion of the Lead Examiner move to Event #3.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 18 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES After this, the 1B RN Pump Suction Isolation valve will inadvertently CLOSE. The operator will respond using one or more Annunciator Response Procedures and ultimately enter AP/1/A/5500/20, Loss of RN, to place the standby train in service. The operator will address Technical Specification LCO 3.7.7, Nuclear Service Water System (NSWS), and LCO 3.8.1, AC Sources - Operating.

Booth Operator Instructions: insert REM-RN0018B_1 = 0, Ramped = 30 seconds Indications Available:

OAC Alarm M1Q0180, 1RN18B RN PUMP SUCTION ISOL, alarms.

Numerous MCB Annunciator 1AD12 alarms associated with RN.

1RN-18B Green status light is LIT.

Low flow in RN header.

Time Pos. Expected Actions/Behavior Comments NOTE: If the load increase has been restarted, the RO will likely stop the load increase.

AP/1/A/5500/20, LOSS OF RN CASE I, LOSS OF OPERATING RN TRAIN BOP (Step 1) Check for potential loss of LLI as follows:

Check Unit 2 RN pump(s) that are Floor Instructor: If asked, As aligned to LLI - OPERATING U2 RO report 2A RN Pump is PROPERLY. running properly.

Check suction flowpath - NOTE: The crew should AVAILABLE. recognize that the LLI flowpath is available, but that the Suction Valve to the 1B RN Pump has closed, and continue to Step 2.

CRS (Step 2) Announce occurrence on page. NOTE: CRS may ask U2 RO to make Plant Announcement that AP-20 has been entered.

If so, Floor Instructor acknowledge as U2 RO.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 19 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments BOP (Step 3) Check Any RN pump - ON. NOTE: The crew should recognize that the 1B RN Pump is operating with its suction valve closed and stop the pump. This will result in both RN pumps being OFF.

BOP (Step 3 RNO) Perform the following:

IF strainer fouling has not occurred, THEN GO TO Step 6.

BOP (Step 6) Place RN train in service as follows:

Check both RN pumps OFF.

Check idle RN train - AVAILABLE TO NOTE: The CRS may dispatch START. an AO.

If so, Booth Instructor acknowledge as the AO.

Start one train of RN as follows:

To start 1A RN pump perform the following:

Ensure flowpath available.

Place manual loader for 1RN-89A (RN to A KC Hx Control) to 10% OPEN.

Start 1A RN pump. NOTE: The BOP will start the 1A RN Pump.

Ensure the following valve for train being started - OPEN.

1RN-86A (A KC Hx Inlet Isol).

Check the following cross-tie valves

- OPEN:

1RN-40A (Train A To Non Ess Hdr Isol)

1RN-41B (Train B TO Non Ess Hdr Isol)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 20 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments

1RN-43A (Train B To Non Ess Hdr Isol).

Ensure malfunctioning RN pump is off.

BOP

Check if local venting of RN pump NOTE: Local venting of RN has been performed PER one of the pump has NOT been following: performed.

Enclosure 5 (1A RN Pump Venting)

OR

Enclosure 6 (1B RN Pump Venting).

CRS (Step 6.g RNO) GO TO Step 6.i.

BOP

Check Enclosure 7 (NV Pump NOTE: Enclosure 7 has NOT Cooling Via Gravity Drain To Sump) been performed.

- HAS BEEN PERFORMED.

CRS (Step 6.i RNO) GO TO Sep 6.k BOP

Check Case II (Loss of Low Level or NOTE: Case II has NOT been RC Supply Crossover) - HAS BEEN performed.

IMPLEMENTED.

CRS (Step 6.kj RNO) GO TO Step 7.

BOP (Step 7) Ensure cooling to KC as follows:

BOP

Check 1A KC pump(s) - RUNNING. NOTE: The B Train of KC is operating.

CRS (Step 7.a RNO) GO TO Step 7.h.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 21 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments BOP

Check 1B KC pump(s) - RUNNING.

BOP

Ensure 1B KC pumps aligned to reactor bldg non essential header as follows:

OPEN the following valves:

1KC-18B (Trn B Rx Bldg Non Ess Ret Isol).

1KC-228B (Trn B Rx Bldg Non Ess Sup Isol).

CLOSE the following valves:

1KC-230A (Trn A Rx Bldg Non Ess Sup Isol).

1KC-3A (Trn A Rx bldg Non Ess Ret Isol).

BOP

Check 1B RN pump - OFF.

BOP

Check 1RN-187B (B KC Hx Inlet NOTE: 1RN-187B has NOT Isol) - LOCALLY THROTTLED been locally throttled.

DURING THIS PROCEDURE.

BOP (Step 7.k RNO) Perform the following:

IF VI header pressure is less than 60 PSIG, THEN.

Place 1RN-187B MODE SELECT switch to manual.

OPEN 1RN-187B (B KC Hx Inlet Isol).

THROTTLE 1RN89A (RN to A KC Hx Control) to maintain 1A RN pump discharge pressure greater than 50 PSIG.

IF 1A RN pump discharge pressure is greater than 50 PSIG, THEN GO TO Step 8.

BOP (Step 8) Maintain RN flow within operating limits as follows:

Check VI header pressure GREATER THAN 60 PSIG.

Check 1A RN pump RUNNING

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 22 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments

THROTTLE 1RN89A (RN to A KC Hx Control) to maintain 1A RN pump discharge pressure greater than 50 PSIG.

Check 1A RN pump flow LESS THAN 14,000 GPM.

Check 1B RN pump RUNNING.

BOP (Step 8.e RNO) GO TO Step 9.

BOP/ (Step 9) Investigate reason for loss of RN CRS train as follows:

Dispatch operator to check RN pump.

Dispatch operator to check RN pump breaker.

Check suction flowpath alignment.

Check discharge flowpath alignment. NOTE: The CRS may call WCC/IAE to address the Pump malfunction, and request that the 1B RN Pump Breaker be racked out.

If so, Booth Instructor acknowledge as WCC, and indicate that the 1B RN Pump Breaker will be Racked Out.

Use:

LOA-RN006 = Racked_Out (1B RN Pump BKR)

LOA-RN006A = Racked_Out (1B RN Pump Cntrl Pwr)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 23 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments CRS (Step 10) Ensure Control Room Area Chiller NOTE: The CRS may assign in service PER Enclosure 2 (VC/YC the RO to perform this action, Operation). or have the BOP perform these actions prior to continuing with Step 11.

If actions are performed in parallel, Appropriate Examiner follow actions of Enclosure 2.

Other Examiners follow AP-20 Actions, Step 11, below.

AP/1/A/5500/20, LOSS OF RN ENCLOSURE 2, VC/YC OPERATION Examiner NOTE: Follow the actions associated with Enclosure 3 if RO is assigned by CRS to perform.

RO/ (Step 1) Check train selected Control Room NOTE: The Chiller is BOP Area Chiller - ON. expected to be ON. If not, the RO/BOP will take action per the RNO to restart the Chiller.

AP/1/A/5500/20, LOSS OF RN CASE I, LOSS OF OPERATING RN TRAIN Examiner NOTE: Examiners following the CRS/BOP continue HERE.

BOP (Step 11) Align operating train of equipment with running RN pump as follows:

Check 1A RN pump - ON.

Check the following equipment - ON:

1A1 and 1A2 KC pumps - ON CRS (Step 11.b RNO) GO TO Step 11.i

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 24 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments BOP (Step 11.i) Perform one of the following as necessary to align operating RN train with train of equipment cooled by RN:

Swap operating equipment to opposite train as follows:

IF desired to swap KC trains, THEN perform Enclosure 1 (Shifting KC Trains).

NOTE: The CRS will transition to Enclosure 1.

AP/1/A/5500/20, LOSS OF RN ENCLOSURE 1, SHIFTING KC TRAINS BOP (Step 1) Limit KC flow to 4000 GPM per operating KC pump in subsequent steps.

BOP (Step 2) Check the following:

1RN-40A (Train A To Non Ess Hdr Isol) -

OPEN

1RN-41B (Train B To Non Ess Hdr Isol) -

OPEN

1RN-43A (Train B To Non Ess Hdr Isol) -

OPEN

Any KC pump - RUNNING. NOTE: The B Train KC Pumps are operating.

CRS (Step 3) GO TO Step 5.

BOP (Step 5) Check both ND pumps - OFF.

CRS (Step 6) Perform the following:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 25 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments

IF shifting from 1A KC Train to 1B KC NOTE: The crew will be Train, shifting from 1B KC Train to 1A KC Train.

OR

IF shifting from 1B KC Train to 1A KC Train, THEN GO TO Step 22.

BOP (Step 22) THROTTLE OPEN 1RN-89A (RN to A KC Hx Control) to establish desired flow to 1A KC Hx, while maintaining 1A RN pump discharge pressure greater than 50 psig.

BOP (Step 23) Place control switch for 1KC-51A (Train A Recirc Isol) in the AUTO position.

BOP (Step 24) Ensure 1KC-51A OPENS.

BOP (Step 25) Start 1A1 KC pump. NOTE: The CRS may contact the AO to start the pumps.

If so, Booth Instructor acknowledge as the AO.

BOP (Step 26) Start 1A2 KC pump.

BOP (Step 27) Align Reactor Bldg header to 1A Train as follows:

OPEN the following valves:

1KC-3A (Trn A Rx Bldg Non Ess Ret Isol)

1KC-230A (Trn A Rx Bldg Non Ess Sup Isol).

CLOSE the following valves:

1KC-228B (Trn B Rx Bldg non Ess Sup Isol)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 26 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments

1KC-18B (Trn B Rx Bldg Non Ess Ret Isol).

BOP (Step 28) Check both ND pumps - OFF.

BOP (Step 29) Place 1RN-187B MODE SELECT switch to auto.

BOP (Step 30) Check 1RN-187B (B KC Hx Inlet Isol) - CLOSED.

BOP (Step 31) WHEN RN flow through the 1B KC Hx begins to go down, THEN THROTTLE OPEN 1RN-89A (RN to A KC Hx Control) to achieve desired flow rate while maintaining the following:

1A RN pump discharge pressure GREATER THAN 50 PSIG

1A RN pump flow LESS THAN 14,000 GPM.

BOP (Step 32) Place 1KC-54B (Train B Recirc Isol) in CLOSE.

BOP (Step 33) Ensure 1KC-54B is CLOSED.

BOP (Step 34) Stop the following pumps:

1B1 KC pump

1B2 KC pump.

BOP (Step 35) Ensure NC pump thermal barrier isolation valves are OPEN.

BOP (Step 36) RETURN TO step in effect in body of this procedure.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 27 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments NOTE: The CRS will return to the main body of AP-20.

Examiner NOTE: Because there are still AP-related actions to take with this procedure, the CRS may NOT address the TS at the time.

Consequently, it may be necessary to move to next event, and address the TS after the scenario.

TECHNICAL SPECIFICATION 3.7.7, NUCLEAR SERVICE WATER SYSTEM CRS 3.7.7 Nuclear Service Water System (NSWS)

CRS LCO 3.7.7 Two NSWS trains shall be OPERABLE.

CRS APPLICABILITY: MODES 1, 2, 3, and 4.

CRS ACTIONS CRS CONDITION REQUIRED COMPLETION NOTE: The CRS will ACTION TIME determine that ACTION A.1 A. One NSWS A.1 Restore 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months must be entered.

train NSWS train inoperable. to OPERABLE status.

TECHNICAL SPECIFICATION 3.8.1, AC SOURCES - OPERATING CRS 3.8.1 AC Source - Operating CRS LCO 3.8.1 The following AC electrical sources shall be OPERABLE:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 28 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments

Two qualified circuits between the offsite transmission network and the Onsite Essential Auxiliary Power System AND

Two diesel generators (DGs) capable of supplying the Onsite Essential Auxiliary Power Systems AND

The automatic load sequencers for Train A and Train B shall be OPERABLE.

CRS APPLICABILITY: MODES 1, 2, 3, and 4.

CRS ACTIONS CRS CONDITION REQUIRED COMPLETION ACTION TIME NOTE: The CRS will B.1 Perform 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months determine that ACTION B.1, B. One DG SR 3.8.1.1 B.2, B3.1 or B.3.2 and B.4 inoperable. for the offsite AND must be entered.

circuit(s).

Once per 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months thereafter AND B.2 Declare 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months from required discovery of feature(s) Condition B supported by concurrent with the inoperability of inoperable redundant DG required inoperable feature(s) when its required redundant feature(s) is inoperable.

AND B.3.1 Determine OPERABLE DG is not 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months inoperable due to

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 3 Page 29 of 64 Event

Description:

1B RN Pump Suction Valve inadvertently CLOSES Time Pos. Expected Actions/Behavior Comments common cause failure.

OR 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months B.3.2 Perform SR 3.8.1.2 for OPERABLE DG.

AND 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months

B.4 Restore DG AND to OPERABLE status. 6 days from discovery of failure to meet LCO

At the discretion of the Lead Examiner move to Event #4.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 4 Page 30 of 64 Event

Description:

Pzr Spray Valve (1NC-27) Controller fails OPEN Next, the Pzr Spray Valve Controller, 1NC-27C A Spray, demand will fail to full output.

The operator will enter AP/1/A/5500/11, Pressurizer Pressure Anomalies. The operator will address Technical Specification LCO 3.4.1, RCS Pressure, Temperature, and Flow Departure from Nucleate Boiling (DNB) Limits.

Booth Operator Instructions: insertMAL-DCSSLIM06G BUTTON_DEPRESSED insertMAL-DCSSLIM06D BUTTON_DEPRESSED deleteMAL-DCSSLIM06G = 2, delay 10 seconds deleteMAL-DCSSLIM06D = 2, delay 30 seconds Indications Available:

NCS/Pzr pressure lowers

OAC Alarm: U1 PZR PRESS I through IV

1NC-27C SLIMs LS indication 50 or 100%

MCB Annunciator 1AD6/C-6 PZR LO PRESS CONTROL Time Pos. Expected Actions/Behavior Comments NOTE: The BOP may take all the necessary actions in the Immediate Actions, before CRS reads AOP.

AP/1/A/5500/11, PRESSURIZER PRESSURE ANOMALIES BOP (Step 1) Check Pzr pressure - HAS GONE Immediate Action DOWN.

BOP (Step 2) Check Pzr PORVs - CLOSED. Immediate Action BOP (Step 3) Check Pzr spray valves - CLOSED Immediate Action BOP (Step 3 RNO) CLOSE Pzr spray valve(s).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 4 Page 31 of 64 Event

Description:

Pzr Spray Valve (1NC-27) Controller fails OPEN Time Pos. Expected Actions/Behavior Comments Critical Task:

Manually close the Failed OPEN Pzr Spray Valve before the Pressurizer pressure drops to 1945 psig.

Safety Significance: failure to close the Spray Valve and stop the pressure transient, under the postulated plant conditions, results in an unnecessary transient to the plant and challenge to the Reactor Protection System. Performance of the critical task would stabilize the pressure transient. A failure to stabilize the pressure transient, when able to do so, constitutes a mis-operation or incorrect crew performance which leads to incorrect NCS pressure control.

BOP (Step 4) Check Pzr PORVs - CLOSED.

BOP (Step 5) Check Pzr spray valves - NOTE: IF the BOP has already CLOSED. used the EMERG SWITCH, the CRS may answer YES, and continue to Step 6.

If NOT, the Step 5 RNO will be performed.

CRS (Step 6) Announce occurrence on page. NOTE: CRS may ask U2 RO to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

BOP (Step 7) Check 1NV-21A (NV Spray to PZR Isol) - CLOSED.

BOP (Step 8) Check the following Pzr heaters -

ON:

1A

1B

1D BOP (Step 9) Check 1C Pzr heaters - ON.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 4 Page 32 of 64 Event

Description:

Pzr Spray Valve (1NC-27) Controller fails OPEN Time Pos. Expected Actions/Behavior Comments BOP (Step 10) Check PZR PRESS MASTER -

IN AUTO.

BOP (Step 11) Check 1NC-27 PRESSURIZER NOTE: In order to close the SPRAY EMERGENCY CLOSE switch - malfunctioning Spray Valve, SELECTED TO NORMAL. the BOP had to take the EMERG SWITCH to CLOSE.

CRS (Step 11 RNO) Notify station management to NOTE: The CRS may call ensure switch restored to NORMAL once WCC/Station Management to spray valve is repaired. address the switch position.

If so, Booth Instructor acknowledge as WCC.

BOP (Step 12) Check 1NC-29 PRESSURIZER SPRAY EMERGENCY CLOSE switch -

SELECTED TO NORMAL.

BOP (Step 13) Check Pzr pressure - GOING UP TO DESIRED PRESSURE.

CRS (Step 14) Exit this procedure. NOTE: The CRS may call WCC/IAE to address the valve failure.

If so, Booth Instructor acknowledge as WCC.

NOTE: The CRS will likely conduct a Focus Brief.

TECHNICAL SPECIFICATION 3.4.1, RCS PRESSURE, TEMPERATURE, AND FLOW DEPARTURE FROM NUCLEATE BOILING (DNB) LIMITS CRS LCO 3.4.1 RCS DNB parameters for NOTE: If NC System Pressure pressurizer pressure, RCS average drops to < 2216 psig on the temperature, and RCS total flow rate shall be failure, then TS 3.4.1 might be within the limits specified in Table 3.4.1-1. entered and exited during the transient.

CRS APPLICABILITY: MODE 1.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 4 Page 33 of 64 Event

Description:

Pzr Spray Valve (1NC-27) Controller fails OPEN Time Pos. Expected Actions/Behavior Comments CRS ACTIONS CONDITION REQUIRED COMPLETION ACTION TIME A. Pressurizer A.1 Restore DNB 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months pressure or parameter(s)

RCS average to within limit.

temperature DNB parameters not within limits.

At the discretion of the Lead Examiner move to Event #5.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 5 Page 34 of 64 Event

Description:

1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual Subsequently, the 1B CF Pump will trip causing the turbine to automatically runback to 55%. Simultaneously, a 40 gpm Steam Generator Tube Leak will occur in the 1A Steam Generator. The operator will implement AP/1/A/5500/03, Load Rejection. During the runback the operator will need to drive rods in manually.

Booth Operator Instructions: insert MAL-LF003B = TRUE Insert MAL-IRE009 = FAIL_OF_AUTO Insert MAL-SG001A = 40 Indications Available:

1B CF Pump Trips.

MCB Annunciator 1AD-1, D6, DEH TURBINE RUNBACK, alarms.

Turbine Generator MWe lowering.

MCB Annunciator 1RAD-1, C-1, 1EMF 71 S/G A LEAKAGE HI RAD

MCB Annunciator 1RAD-1, D-1, 1EMF 72 S/G B LEAKAGE HI RAD

MCB Annunciator 1RAD-1, D-2, 1EMF 73 S/G C LEAKAGE HI RAD

MCB Annunciator 1RAD-1, D-3, 1EMF 74 S/G D LEAKAGE HI RAD Time Pos. Expected Actions/Behavior Comments AP/1/A/5500/03, LOAD REJECTION RO (Step 1) Ensure control rods in auto. Immediate Action NOTE: Rods are in MANUAL from a previous malfunction and will NOT work in AUTO.

RO (Step 2) Check Turbine Generator response as follows:

Check Generator - TIED TO GRID.

Check Generator output - GOING DOWN AS REQUIRED.

RO (Step 3) Check control rod response as follows:

Check control banks - MOVING IN AS NOTE: Rods are in MANUAL REQUIRED. from a previous malfunction and will NOT work in AUTO.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 5 Page 35 of 64 Event

Description:

1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual Time Pos. Expected Actions/Behavior Comments RO (Step 3a RNO) IF no rods will move in auto; THEN perform the following:

Place Control Rods in manual.

Insert rods to reduce T-avg equal to programmed T-Ref.

If no rods will move, THEN.. NOTE: The Control Rods will move in MANUAL.

RO

Check all rods - ALIGNED WITH ASSOCIATED BANK.

RO (Step 3b RNO) IF two or more control rods are misaligned greater that 24 steps BOP (Step 4) Check CM system response as follows:

Standby Hotwell and Condensate Booster pumps - RUNNING.

1CM-420 (Unit 1 Generator Load Rejection Bypass control) - OPEN.

RO (Step 5) IF runback to 56% power in effect, THEN ensure turbine inlet pressure going down to less than or equal to 500 PSIG.

CRS (Step 6) Announce: UNIT 1 LOAD NOTE: CRS may ask U2 RO REJECTION, NON-ESSENTIAL to make Plant Announcement PERSONNEL STAY OUT OF UNIT 1 that AP-3 has been entered.

TURBINE BLDG. If so, Floor Instructor acknowledge as U2 RO.

RO (Step 7) Check P/R meters - LESS THAN 20%.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 5 Page 36 of 64 Event

Description:

1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual Time Pos. Expected Actions/Behavior Comments CRS / (Step 7 RNO) Perform the following:

RO

Designate an operator to continuously monitor reactor power.

IF AT ANY TIME reactor power is less NOTE: This is a Continuous than 20%, THEN perform Step 8 to Action. The CRS will stabilize reactor power. designate the RO to observe this action.

CRS

GO TO Step 9.

RO (Step 9) Check condenser dump valves -

MODULATING OPEN.

BOP (Step 10) Check IPB AIR FLOW TROUBLE alarm (1AD-11, J-5) - DARK.

BOP (Step 11) Check Pzr pressure control response as follows:

Ensure Pzr heaters are in auto.

Ensure Pzr spray control valves are in NOTE: 1NC-27C is NOT in auto. AUTO due to a previous malfunction.

Check Pzr PORVs - CLOSED.

Check Pzr spray control valves -

CLOSED RO (Step 12) Check load rejection - DUE TO NOTE: The load rejection was LOSS OF CF PUMP. due to a Loss of CF Pump.

CRS (Step 13) Dispatch operator as necessary to NOTE: The CRS may dispatch determine cause of CF pump trip. an AO.

If so, Booth Instructor acknowledge as the AO.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 5 Page 37 of 64 Event

Description:

1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual Time Pos. Expected Actions/Behavior Comments BOP (Step 14) Ensure in service CF pump properly responds in auto as follows:

Monitor in service CF pump discharge pressure.

"1A CF PUMP DISCHARGE PRESS" (OAC point M1A1108).

OR

"1B CF PUMP DISCHARGE PRESS" (OAC point M1A1114).

Monitor S/G N/R Levels.

IF AT ANY TIME any of the following NOTE: This is a Continuous occurs: Action. The CRS will make both board operators aware.

"CF PUMP DISCHARGE HI PRESS" 1AD8, A4 alarms (Setpoint at 1335 PSIG),

OR

S/G N/R level approaches Hi Hi level (83%),

OR

S/G N/R level approaches Lo Lo level (17%).

THEN take manual control of in service CF pump as follows:

Place low pressure governor control in manual.

Place high pressure governor control in manual

Adjust CF pump speed to maintain CF header pressure 100120 PSIG above steam header pressure.

Do not continue until the following are satisfied:

In service CF pump discharge pressure is stable.

S/G levels are at setpoint.

RO (Step 15) Check turbine inlet pressure -

LESS THAN 340 PSIG.

RO (Step 15 RNO) Perform the following:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 5 Page 38 of 64 Event

Description:

1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual Time Pos. Expected Actions/Behavior Comments

IF AT ANY TIME turbine inlet pressure drops to less than 340 PSIG, THEN GO TO Step 16.

CRS

GO TO Step 19.

RO (Step 19) Check Main Generator as follows:

Check Generator Breakers - EITHER GENERATOR BREAKERS CLOSED.

Check Generator - TIED TO GRID.

Check generator power factor - 0.9 TO 1.0 LAGGING.

CRS

GO TO Step 20.

CRS (Step 20) Ensure the following have been NOTE: The CRS may ask implemented: OSM to address.

If so, Floor Instructor acknowledge as OSM.

RP/0/A/5700/000 (Classification of Emergency)

RP/0/A/5700/010 (NRC Immediate Notification Requirements).

RO (Step 21) WHEN transient is over, THEN Examiner NOTE: The CRS perform the following: may enter AP10 to address the SGTL at any point once it is determined that the transient is over. If so, move to Events 6-7.

Check reactor power - GREATER THAN 40%.

Check the following on in service CF pump(s):

Low pressure governor control - IN AUTO

High pressure governor control - IN AUTO.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 5 Page 39 of 64 Event

Description:

1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual Time Pos. Expected Actions/Behavior Comments

Check SM flow on all S/Gs - LESS NOTE: SM flow is 60%.

THAN 75%.

Check SM flow on all S/Gs - LESS NOTE: SM flow is 60%.

THAN 25%.

RO (Step 21d RNO) Perform the following:

Check the following CF control bypass valves - CLOSED:

1CF-104AB (1A S/G CF Control Bypass) - CLOSED

1CF-105AB (1B S/G CF Control Bypass) - CLOSED

1CF-106AB (1C S/G CF Control Bypass) - CLOSED

1CF-107AB (1D S/G CF Control Bypass) - CLOSED RO

IF any CF control bypass valve is open NOTE: All CF control bypass valves are closed.

CRS

GO TO Step 21.f.

BOP

Slowly CLOSE 1CM-420 (Unit 1 NOTE: The BOP will close Generator Load Rejection Bypass 1CM-420.

Control) while monitoring Condensate Booster pump suction pressure.

WHEN 1CM-420 is closed, THEN check load rejection signal reset (OAC turn on code CM).

Reposition manual loader for 1CM-420 to NOTE: The BOP will open 100% OPEN. 1CM-420.

IF thermal power is greater than 15%,

THEN within 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of reaching stable conditions, ensure each power range channel is within 2% of heat balance.

Check T-Avg - GREATER THAN 561°F.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 5 Page 40 of 64 Event

Description:

1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual Time Pos. Expected Actions/Behavior Comments

Check CONTROL ROD BANK LO LO LIMIT alarm (1AD-2, B-9) - DARK.

Check CONTROL ROD BANK LO NOTE: 1AD-2, A-9 may be LIMIT alarm (1AD-2, A-9) - DARK. LIT. If so, the operator will perform Step 21.I RNO.

RO (Step 21.l RNO) Ensure the CONTROL ROD BANK LO LIMIT alarm clears as Xenon builds in.

RO (Step 22) Check load rejection - DUE TO NOTE: The load rejection was LOSS OF CF PUMP. NOT due to a Loss of CF Pump.

CRS (Step 22 RNO) GO TO Step 24.

BOP (Step 24) Shutdown unnecessary running plant equipment as follows:

BOP

Condensate Booster pumps and place in NOTE: The BOP may stop auto. one Condensate Booster Pump.

Hotwell pumps and place in auto. NOTE: The BOP may stop one Hotwell Pump.

IF desired to secure, THEN dispatch NOTE: The CRS may dispatch operator to shutdown PER an AO.

OP/1/B/6250/004 (Feedwater Heater If so, Booth Instructor Vents, Drains and Bleed System) acknowledge as the AO.

Enclosure 4.2 (System Shutdown) the following:

Unit 1 C Heater Drain Tank pumps

Unit 1 G Heater Drain Tank pumps.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 5 Page 41 of 64 Event

Description:

1B CF Pump Trip/SGTL/Turbine Runback w/rods in Manual Time Pos. Expected Actions/Behavior Comments CRS (Step 25) IF power change greater than 15% NOTE: The CRS may call in one hour, THEN notify Primary Chemistry Chemistry to address the to perform required Tech Spec sampling. power decrease.

If so, Booth Instructor acknowledge as Chemistry.

RO (Step 26) WHEN condenser dump valves closed AND no longer required for temperature control, THEN reset C-7A using STEAM DUMP SELECT switch.

At the discretion of the Lead Examiner, move to Events #6-7.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 42 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO When the plant is stabilized or AP10 is entered to mitigate the SGTL, the 1A MSIV will inadvertently CLOSE, and the Reactor will fail to trip automatically and manually.

Additionally, the low set Safety Valve on the 1A Steam Generator will lift and stick fully OPEN. Additionally, the TD CA Pump will trip on overspeed on auto start, and the 1A MDCA Pump will fail to start automatically. The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and then transition to EP/1/A/5000/FR-S.1, Response to Nuclear Power Generation/ATWS. During the performance of FR-S.1, the operator will continuously drive rods in manually, successfully trip the Reactor locally, and manually start the 1A MDCA Pump and establish 450 gpm of flow the Steam Generators. The Steam Generator Tube Leak will degrade to a tube rupture in the 1A Steam Generator when the reactor is locally tripped. After completion of FR-S.1, the operator will transition back to E-0, and then to EP/1/A/5000/E-2, Faulted Steam Generator Isolation. After the 1A Steam Generator is isolated, the operator will transition to EP/1/A/5000/E-3, Steam Generator Tube Rupture. The scenario will terminate at Step 6 of E-3 after the operator has transitioned to EP/1/A/5000/ECA-3.1, SGTR with Subcooled Recovery Desired, or at Step 9 of E-3 upon initiating an NCS cooldown.

Booth Operator Instructions: Insert REM-SM007AB (MSIV Closure)

Insert MAL-SG001A 300 delay=20 ramp=60 (S/G 1A Tube Rupture)

Indications Available:

1SM7AB Green status light is LIT.

1A SG Steam Flow lowering.

1A SG Feedflow lowering.

1A SG Narrow Range Level is lowering.

Time Pos. Expected Actions/Behavior Comments EP/1/A/5000/E-0, REACTOR TRIP OR SAFETY INJECTION RO/ (Step 1) Monitor Foldout page. NOTE: Crew will carry out BOP Immediate Actions of E-0, prior to the CRS addressing the EP.

RO (Step 2) Check Reactor Trip: Immediate Action

All rod bottom lights - LIT

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 43 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

Reactor trip and bypass breakers -

OPEN

I/R amps - GOING DOWN.

RO (Step 2 RNO) Perform the following: Immediate Action

Trip reactor.

RO

IF reactor will not trip, THEN perform the NOTE: The CRS may following: dispatch an AO to locally trip the reactor.

If so, Booth Instructor After 30 seconds insert:

LOA-IPE011=TRIP (Rx Trip Bkr 1A)

LOA-IPE012=TRIP (Rx Trip Bkr 1B)

As an Alternate Insert:

LOA-IRE001A = OPEN (MG Set 1A Gen Output Bkr)

LOA-IRE002A = OPEN (MG Set 1B Gen Output Bkr)

Implement EP/1/A/5000/F-0 (Critical Safety Function Status Trees).

CRS

GO TO EP/1/A/5000/FR-S.1 NOTE: The CRS will (Response To Nuclear Power transition to FR-S.1.

Generation/ATWS).

EP/1/A/5000/FR-S.1, RESPONSE TO NUCLEAR POWER GENERATION/ATWS RO (Step 1) Check Reactor Trip: Immediate Action

All rod bottom lights - LIT

Reactor trip and bypass breakers -

OPEN

I/R amps - GOING DOWN.

RO (Step 1 RNO) Perform the following: Immediate Action

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 44 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

Trip the reactor.

IF reactor will not trip, THEN manually NOTE: The RO will insert rods. manually drive Rods inward.

Critical Task:

Manually drive rods inward before completing the immediate actions of FR-S.1 (Step 2).

Safety Significance: failure to insert negative reactivity, under the postulated plant conditions, results in an unnecessary situation in which the reactor remains critical or returns to a critical condition. Performance of the critical task would move the reactor towards a subcritical condition to prevent a subsequent return to criticality. A failure to insert negative reactivity constitutes a mis-operation or incorrect crew performance which leads to incorrect reactivity control.

BOP (Step 2) Check Turbine Trip:

All throttle valves - CLOSED.

RO/ (Step 3) Monitor Foldout page.

BOP Cold Leg Recirc Switchover Criteria CA Suction Sources Position Criteria for 1NV150B and 1NV 151A (U1 NV Pump Recirc Isol)

BOP (Step 4) Check proper CA pump status:

MD CA pumps - ON. NOTE: The 1B MDCA Pump is OOS. The 1A MDCA Pump has failed to AUTO start.

BOP (Step 4.a RNO) Start pumps. NOTE: The BOP will start the 1A MDCA Pump.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 45 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments BOP

Check N/R Level in at least 3 S/Gs -

GREATER THAN 17%.

Critical Task:

Start the 1A MD CA Pump before transition out of FRS-.1, unless the transition is made to EP/1/A/5000/FR-H.1, and then before the NCPs are manually tripped to limit heat input to the RCS.

Safety Significance: Failure to establish a Secondary Heat Sink through the initiation of CA flow unnecessarily challenges both the HEAT SINK and the CORE COOLING Critical Safety Functions. Additionally, the FSAR Safety Analysis results are predicated on the assumption that at least one train of safeguards actuates and delivers a minimum amount of AFW flow to the Steam Generators. Failure to perform this task, when the ability to do so exists, results in a violation of the Facility License Condition and places the plant in an unanalyzed condition.

BOP (Step 5) Initiate emergency boration of NC System as follows:

Ensure one NV pump - ON

Align boration flowpath as follows:

Open 1NV-265B (Boric Acid To NV Pumps).

Start both boric acid transfer pumps.

Check emergency boration flow -

GREATER THAN 30 GPM.

Check if NV flowpath aligned to NC System:

1NV-244A (Charging Line Cont Outside Isol) - OPEN.

1NV-245B (Charging Line Cont Outside Isol) - OPEN.

Ensure charging flow is greater than emergency Boration flow.

Check Pzr pressure - LESS THAN 2335 PSIG.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 46 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments BOP (Step 6) Close the following VQ valves:

CLOSE 1VQ-1A (U1 Cont Air Release Inside Isol)

CLOSE 1VQ-6A (U1 Cont Air Addition Inside Isol)

CLOSE 1VQ-2B (U1 Cont Air Release Outside Isol)

CLOSE 1VQ-5B (U1 Cont Air Addition Outside Isol)

BOP (Step 7) IF AT ANY TIME while in this NOTE: This is a Continuous procedure an S/I signal exists or occurs, Action. The CRS will make THEN perform the following: both board operators aware.

Have another Licensed Operator check S/I equipment PER Enclosure 3 (Subsequent S/I Actions).

CRS

Continue with this procedure.

RO (Step 8) Check if the following trips have occurred:

Reactor trip.

Turbine trip.

RO (Step 9) Check reactor subcritical:

P/R channels - LESS THAN 5%

W/R Neutron Flux - LESS THAN 5%

I/R SUR - NEGATIVE.

CRS (Step 10 ) GO TO Step 17.

RO (Step 17) Ensure adequate shutdown margin as follows:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 47 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

Obtain current NC boron concentration NOTE: The CRS/RO may from Primary Chemistry. call Chemistry.

If so, Booth Instructor acknowledge as Chemistry.

WHEN current NC boron concentration is NOTE: The CRS may ask obtained, THEN perform shutdown the U2 RO to perform this margin calculation PER action.

OP/0/A/6100/006 (Reactivity Balance If so, Floor Instructor Calculation). acknowledge as U2 RO.

WHEN following conditions satisfied, NOTE: This is a Continuous THEN NC System boration may be Action. The CRS will make stopped: both board operators aware.

Adequate shutdown margin is obtained.

Uncontrolled cooldown has been stopped.

CRS (Step 18) REFER TO the following: NOTE: The CRS may ask OSM to address.

If so, Floor Instructor acknowledge as OSM.

RP/0/A/5700/000 (Classification of Emergency).

RP/0/A/5700/010 (NRC Immediate Notification Requirements).

CRS (Step 19) RETURN TO procedure and step NOTE: The CRS will in effect. transition back to E-0.

EP/1/A/5000/E-0, REACTOR TRIP OR SAFETY INJECTION RO/ (Step 1) Monitor Foldout page. NOTE: Crew will carry out BOP Immediate Actions of E-0, prior to the CRS addressing the EP.

RO (Step 2) Check Reactor Trip: Immediate Action

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 48 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

All rod bottom lights - LIT

Reactor trip and bypass breakers -

OPEN

I/R amps - GOING DOWN.

RO (Step 3) Check Turbine Trip: Immediate Action

All throttle valves - CLOSED.

BOP (Step 4) Check 1ETA and 1ETB - Immediate Action ENERGIZED.

RO/ (Step 5) Check if S/I is actuated: Immediate Action BOP

SAFETY INJECTION ACTUATED status light (1SI-18) - LIT.

Both LOCA Sequencer Actuated status Examiner NOTE: SI will lights (1SI-14) - LIT. most likely NOT be actuated at this time, however, plant conditions will not permit SI to be avoided.

If the crew transitions to ES-0.1, observe crew activities and continue with the script when SI is actuated.

RO/ Foldout Page BOP NC Pump Trip Criteria CA Suction Sources Position Criteria for 1NV150B and 1NV 151A (U1 NV Pump Recirc Isol)

Ruptured S/G Aux Feedwater Isolation Criteria

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 49 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments Faulted S/G Aux Feedwater Isolation Criteria NOTE: The BOP will diagnose that 1A S/G is faulted and isolate CA flow to the S/G.

IF all of the following conditions met, THEN stop CA flow to affected S/G:

S/G pressure going down in an uncontrolled manner or completely depressurized

Only one S/G is diagnosed as faulted

Secondary heat sink:

N/R level in at least one S/G GREATER THAN 11%(32% ACC)

OR

Total feed flow to S/Gs GREATER THAN 450 GPM.

CRS (Step 6) Announce Unit 1 Safety Injection. NOTE: The CRS may ask U2 RO to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

BOP (Step 7) Check all Feedwater Isolation status lights (1SI-4) - LIT.

BOP (Step 8) Check Phase A RESET lights -

DARK.

BOP (Step 9) Check ESF Monitor Light Panel on Energized train(s):

Groups 1, 2, 5 - DARK.

Group 3 - LIT.

Group 4 - LIT AS REQUIRED.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 50 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

Group 6 - LIT. NOTE: Group 6 lights may NOT be LIT due to the previously failed RN Pump.

CRS

GO TO Step 10.

RO (Step 10) Check proper CA pump status:

MD CA pumps - ON.

BOP (Step 10.a) Start pumps. NOTE: The BOP will start the 1A MDCA Pump.

BOP

N/R level in at least 3 S/Gs - GREATER THAN 17%.

BOP (Step 11) Check all KC pumps - ON.

BOP (Step 12) Check both RN pumps - ON. NOTE: The 1B RN Pump may have been rendered inoperable due to a previous malfunction.

If not, the CRS may contact the WCCS/dispatch an AO to stop the pump by opening the breaker.

If so, Booth Instructor acknowledge as WCC, and indicate that the 1B RN Pump Breaker will be Racked Out. Use:

LOA-RN006 = Racked_Out (1B RN Pump BKR)

LOA-RN006A =

Racked_Out (1B RN Pump Cntrl Pwr)

BOP (Step 12 RNO) Perform the following:

Start pump(s).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 51 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

IF 1A RN pump is off, THEN.

IF affected train is deenergized, AND its D/G is off, THEN

Reset the following on affected train:

S/I.

Sequencer.

Dispatch operator to stop affected D/G NOTE: The CRS may using emergency stop pushbutton. dispatch an AO.

If so, Booth Instructor acknowledge as the AO, and use LOA-DG004 =

STOP_DG to stop the 1B D/G.

Monitor affected RN cooled components and shut down as necessary.

CRS (Step 13) Notify Unit 2 to perform the Floor Instructor: As U2 following: RO report 2A RN Pump is running.

Start 2A RN pump.

THROTTLE Unit 2 RN flow to minimum Booth Instructor:

for existing plant condition. insert LOA-RN087 (Start 2A RN Pump) insert LOA-RN083 8050.000000 delay=0 ramp=10 (Unit 2 Train A Demand Flow)

RO (Step 14) Check all S/G pressures - NOTE: 1A S/G is faulted, GREATER THAN 775 PSIG. and may be less than 775 psig (Crew may perform RNO).

BOP (Step 15) Check Containment Pressure - NOTE: Containment HAS REMAINED LESS THAN 3 PSIG. Pressure is normal.

BOP (Step 16) Check S/I flow:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 52 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

Check NV PMPS TO COLD LEG FLOW gauge - INDICATING FLOW.

Check NC pressure - LESS THAN 1600 PSIG.

BOP (Step 16b RNO) Perform the following:

Ensure ND pump miniflow valve on running pump(s) OPEN:

1ND-68A (1A ND Pump & Hx Mini Flow Isol)

1ND-67B (1B ND Pump & Hx Mini Flow Isol).

CRS

IF valve(s) open on all running ND pumps, THEN GO TO Step 17.

CRS (Step 17) Notify OSM or other SRO to NOTE: The CRS may ask perform EP/1/A/5000/G-1 (Generic OSM to address.

Enclosures), Enclosure 22 (OSM Actions If so, Floor Instructor Following an S/I) within 10 minutes. acknowledge as OSM.

RO/ (Step 18) Check CA flow:

BOP

Total CA flow - GREATER THAN 450 GPM.

RO/ (Step 18.a RNO) Perform the following:

BOP

IF N/R level in all S/Gs is less than 11%

(32% ACC), THEN..

BOP

Check VI header pressure - GREATER THAN 60 PSIG.

RO/

WHEN each S/G N/R level is greater NOTE: This is a Continuous BOP than 11% (32% ACC), THEN control CA Action. The CRS will make flow to maintain that S/G N/R level both board operators aware.

between 11% (32% ACC) and 50%.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 53 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments RO (Step 19) Check NC temperatures:

IF any NC pumps on OR

IF all NC pumps off, THEN check NC T-Colds - STABLE OR TRENDING TO 557°F.

(Step 19 RNO) Perform the following based on plant conditions:

IF temperature less than 557°F AND NOTE: The CRS may going down, THEN attempt to stop assign the RO (BOP) to Cooldown PER Enclosure 3 perform this action.

(Uncontrolled NC System Cooldown). If so, RO (BOP) Examiner follow actions of Enclosure 3.

Other Examiners follow E-0 Actions, Step 20, on Page 55.

EP/1/A/5000/E-0, REACTOR TRIP OR SAFETY INJECTION ENCLOSURE 3, UNCONTROLLED NC SYSTEM COOLDOWN RO/ (Step 1) Check steam dump valves -

(BOP) CLOSED.

RO/ (Step 2) Check all SM PORVs - CLOSED.

(BOP)

RO/ (Step 3) Check MSR RESET light - LIT (BOP)

RO/ (Step 4) Check any NC pump - ON.

(BOP)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 54 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments RO/ (Step 5) Check NC TAvg GOING DOWN.

(BOP)

RO/ (Step 6) Control feed flow as follows:

(BOP)

IF S/G N/R level is less than 11% (32%

ACC) in all S/Gs,

WHEN N/r level is greater than 11%

(32% ACC) in at least one S/G, THEN THROTTLE feed flow further to:

Minimize cooldown

Maintain at least one S/G N/R level greater than 11% (32%ACC).

RO/ (Step 7) Check MSIVs - ANY OPEN.

(BOP)

RO/ (Step 8) CLOSE 1SM-15 (U1 SM to MSR 2nd (BOP) Stg Tube Bundles Isol).

RO/ (Step 9) Check any NC pump - ON.

(BOP)

RO/ (Step 10) Check NC TAvg STABLE.

(BOP)

RO/ (Step 10 RNO) IF cooldown continues, THEN CLOSE the following valves:

(BOP)

All MSIVs

All MSIV Bypass Valves.

RO/ (Step 11) Notify Control Room Supervisor of the following:

(BOP)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 55 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

NC temperature trend

Status of MSIV and Bypass Valves.

Examiner NOTE:

Examiners following the CRS/RO(BOP) continue HERE.

EP/1/A/5000/E-0, REACTOR TRIP OR SAFETY INJECTION BOP (Step 20) Check Pzr PORV and spray (RO) valves:

All Pzr PORVs - CLOSED.

Normal Pzr spray valves - CLOSED. NOTE: 1NC-27 is most likely closed using the Emergency CLOSE Switch.

BOP (Step 20.b) IF Pzr pressure is less than (RO) 2100 PSIG, THEN perform the following:

CLOSE spray valve(s)

IF spray valve(s) cannot be closed, THEN..

BOP

At least one Pzr PORV isolation valve-(RO) OPEN.

BOP (Step 21) Check NC subcooling based on (RO) core exit T/Cs - GREATER THAN 0°F.

BOP (Step 22) Check if main steamlines intact:

(RO)

All S/G pressures - STABLE OR GOING UP

All S/Gs - PRESSURIZED.

CRS (Step 22 RNO) IF any S/G is faulted, THEN NOTE: The 1A S/G is perform the following: faulted.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 56 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

Implement EP/1/A/5000/F-0 (Critical Safety Function Status Trees).

GO TO EP/1/A/5000/E-2 (Faulted Steam Generator Isolation).

NOTE: The CRS will transition to E-2.

EP/1/A/5000/E-2, FAULTED STEAM GENERATOR ISOLATION RO/ (Step 1) Monitor Foldout page.

BOP Cold Leg Recirc Switchover Criteria CA Suction Sources Position Criteria for 1NV-150B and 1NV-151A (U1 NV Pump Recirc Isol)

CRS (Step 2) Maintain any faulted S/G or secondary break isolated during subsequent recovery actions unless needed for NC System cooldown.

RO (Step 3) Check the following - CLOSED:

All MSIVs

All MSIV bypass valves.

RO (Step 4) Check at least one S/G pressure - NOTE: Although all SG STABLE OR GOING UP. pressures may be decreasing slowly, the operator will report stable based on plant conditions (i.e. faulted SG). Otherwise a transition to ECA-2.1 will be made.

RO/ (Step 5) Identify faulted S/G(s): NOTE: The 1A SG is BOP Faulted.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 57 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

Any S/G pressure - GOING DOWN IN AN UNCONTROLLED MANNER OR

Any S/G - DEPRESSURIZED.

RO (Step 6) Maintain at least one S/G available for NC System cooldown in subsequent steps.

RO (Step 7) Check faulted S/G(s) SM PORV -

CLOSED.

BOP (Step 8) Reset CA modulating valves.

RO/ (Step 9) Isolate faulted S/G(s) as follows:

BOP RO/

For 1A S/G:

BOP

Check S/G A FDW ISOLATED status light (1SI-4) - LIT.

Close 1CA-66AC (U1 TD CA Pump Disch To 1A S/G Isol).

Close 1CA-62A (1A CA Pump Disch To 1A S/G Isol).

Check BB valves - CLOSED:

1BB-1B (1A S/G Blowdown Cont Outside Isol Control)

1BB-5A (A S/G BB Cont Inside Isol).

Close 1SM-83 (A SM Line Drain Isol).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 58 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments Critical Task:

Isolate CA flow to the Faulted Steam Generator before an unwarranted Red Path occurs on Subcriticality or NCS Integrity.

Safety Significance: Failure to isolate a Faulted SG that can be isolated causes challenges to the Critical Safety Functions that may not otherwise occur. Failure to isolate flow could result in an unwarranted Orange or Red Path condition on NC Integrity and/or Subcriticality (if cooldown is allowed to continue uncontrollably).

RO (Step 10) Close 1AS-12 (U1 SM To AS Hdr Control Inlet Isol).

RO/ (Step 11) Check S/G tubes intact as follows:

BOP

Check the following EMFs - NORMAL: NOTE: 1EMF-24 is likely in TRIP2.

1EMF-33 (Condenser Air Ejector Exhaust)

1EMF-24 (S/G A)

1EMF-25 (S/G B)

1EMF-26 (S/G C)

1EMF-27 (S/G D).

CRS GO TO EP/1/A/5000/E-3 (Steam Generator Tube Rupture)

NOTE: The CRS will transition to E-3.

EP/1/A/5000/E-3, STEAM GENERATOR TUBE RUPTURE RO/ (Step 1) Monitor Foldout page.

BOP NC Pump Trip Criteria S/I Reinitiation Criteria

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 59 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments Secondary Integrity Criteria Cold Leg Switchover Criteria CA Suction Sources Multiple Tube Rupture Criteria:

Position Criteria for 1NV-150B and 1NV-151A (NV Pumps Recirculation)

BOP (Step 2) Identify ruptured S/G(s):

Any S/G N/R level - GOING UP IN AN UNCONTROLLED MANNER OR

Chemistry or RP has determined NOTE: The CRS may ruptured S/G. contact Chemistry for sampling.

Booth Instructor:

Acknowledge as appropriate.

OR

Any of the following EMFs - ABOVE NOTE: 1EMF-24 is likely in NORMAL: TRIP2.

1EMF-24 (S/G A)

1EMF-25 (S/G B)

1EMF-26 (S/G C)

1EMF-27 (S/G D)

RO (Step 3) Check at least one S/G -

AVAILABLE FOR NC SYSTEM COOLDOWN.

RO (Step 4) Isolate flow from ruptured S/G(s) as follows:

Check ruptured S/G(s) PORV -

CLOSED.

Check S/Gs 1B and 1C - INTACT. NOTE: The 1A SG is NOT Intact.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 60 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments RO

Check blowdown isolation valves on ruptured S/G/(s) - CLOSED.

For 1A S/G:

1BB-1B (1A S/G Blowdown Cont Outside Isol Control)

1BB-5A (A S/G BB Cont Inside Isol).

BOP

CLOSE steam drain on ruptured S/G(s)

1SM-83 (A SM Line Drain Isol)

RO

CLOSE the following valves on ruptured S/G(s):

MSIV

MSIV bypass valve.

RO (Step 5) Control ruptured S/G(s) level as follows:

Check ruptured S/G(s) N/R level -

GREATER THAN 11% (32% ACC).

BOP

Isolate feed flow to ruptured S/G(s):

BOP (Step 5.a) Perform the following:

IF any ruptured S/G is also faulted, THEN NOTE: The 1A S/G is NOT do not establish feed flow to the ruptured needed for cooldown.

S/G unless needed for NC System cooldown.

IF any ruptured S/G is nonfaulted OR is required for cooldown, THEN.

CRS

GO TO Step 6.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 61 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments RO (Step 6) Check ruptured S/G(s) pressure - Examiner NOTE: The 1A GREATER THAN 280 PSIG. S/G may be less than 280 psig.

IF so, the crew will transition to ECA-3.1, at which time the Exam should be terminated.

If not, continue in E-3 until the NCS cooldown is started.

BOP (Step 7) Check any NC pump - RUNNING.

BOP (Step 8) Check Pzr pressure - GREATER THAN 1955 PSIG.

RO (Step 9) Initiate NC System cooldown as follows:

CRS

Determine required core exit temperature based on lowest ruptured S/G pressure:

300 - 399 psig - 362°F NOTE: The CRS will likely 280 - 299 psig - 353°F determine the target temperature to be 362 or 353oF.

RO

Check the following valves on ruptured S/G(s) - CLOSED:

MSIV

MSIV bypass valve.

RO

Check ruptured S/G(s) SM PORV -

CLOSED.

RO

Check S/G(s) 1B and 1C - INTACT. NOTE: The 1A SG is ruptured.

RO (Step 9.e) Check condenser available:

C-9 COND AVAILABLE FOR STEAM DUMP status light (1SI-18) - LIT

MSIV on intact S/G(s) OPEN.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 62 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments RO (Step 9.e RNO) GO TO RNO for Step 9.h.

CRS (Step 9.h RNO)

Perform the following:

BOP

Ensure at least one Pzr PORV isolation valve is OPEN

IF VI is lost, OR a Phase B Isolation NOTE: VI is NOT lost.

has occurred, THEN..

IF Pzr pressure is greater than 1955 NOTE: Pzr pressure may be PSIG, THEN depressurize to 1900 greater than 1955 psig. If PSIG using Pzr PORV. NOT, not depressurization will be made.

Depress "BLOCK" on Low Pressure Steamline Isolation block switches.

Maintain NC pressure less than 1955 PSIG.

Ensure Main Steam Isolation reset.

Ensure SM PORVs reset.

IF any intact S/G SM PORV isolation valve is closed, AND associated SM PORV is operable, THEN perform the following:

OPEN SM PORV isolation valve.

IF isolation valve will not open,

Dump steam using all intact S/G(s) SM PORVs at maximum rate as follows:

CLOSE SM PORV manual loader on ruptured S/G(s).

Place intact S/G SM PORV manual loaders at 50%.

Select "MANUAL" on "SM PORV MODE SELECT".

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 2 Event # 6&7 Page 63 of 64 Event

Description:

1A MSIV fails CLOSED/ 1A SG SV fails OPEN/ATWS/SGTR/ TD CA Pump Overspeed Trip/1A MD CA Pumps fails to start in AUTO Time Pos. Expected Actions/Behavior Comments

Adjust manual loaders on intact S/G SM PORVs as required to control intact S/G depressurization rate at approximately 2 PSIG per second.

At the discretion of the Lead Examiner terminate the exam.

UNIT 1 STATUS:

Power Level: 75% NCS [B] 1036 ppm Pzr [B]: 1036 ppm Xe: Per OAC Power History: At this power level for 4 days Core Burnup: 250 EFPDs CONTROLLING PROCEDURE: OP/1/A/6100/003 Controlling Procedure for Unit Operation OTHER INFORMATION NEEDED TO ASSUME THE SHIFT:

The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service:

The 1B MDCA Pump is OOS for bearing replacement. ACTION has been taken in accordance with Technical Specification LCO 3.7.5 ACTION B.

The 1A S/G PORV is isolated and its actuator is currently removed for maintenance.

1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating).

MCB Annunciator 1AD-3, F-5, BB DEMIN PNL TRBL, has alarmed spuriously several times over the last hour, and has currently failed OFF (IAE is investigating).

MCB Annunciator 1AD-1, F-2, KG PANEL TBL, is in alarm due to a field local panel alarm relay.

Crew Directions:

The crew will raise power to 100% after taking the shift, starting with Step 3.37.10 of OP/1/A/6100/03.

Raise Turbine load at 2MWe/minute.

RE has recommended a 200 gallon initial Simple Dilution.

Work Control SRO/Offsite Communicator Jim Plant SRO Joe (FB)

NLO's AVAILABLE Unit 1 Unit 2 Aux Bldg. John Aux Bldg. Chris Turb Bldg. Bob (FB) Turb Bldg. Mike (FB) 5th Rounds. Carol Extra(s) Bill (FB) Ed (FB) Wayne (FB) Tanya Gus (RW)

PROGRAM: McGuire Operations Training MODULE: Initial License Operator Training Class 31 TOPIC: NRC Simulator Exam Scenario N15-1-3

REFERENCES:

1. Technical Specification 3.8.1, AC Sources - Operating (Amendment 221/203)

2. Technical Specification LCO 3.7.4, Steam Generator Power Operated Relief Valves (SG PORVs) (Amendment 221/203)

3. OP/1/A/6100/003, Controlling Procedure for Unit Operation (Rev 196)

4. OP/1/A/6150/009, Boron Concentration Control (Rev 126)

5. OP/1/A/6300/001A, Turbine Generator Load Change (Rev 12)

6. AP/1/A/5500/14, Rod Control Malfunction (Rev 16)

7. OP/1/A/6100/010 H Annunciator Response For Panel 1AD-7 (Rev 65)

8. OP/1/A/6150/002A, Reactor Coolant Pump Operation (Rev 65)

9. AP/1/A/5500/01, Steam Leak (Rev 18)

10. Technical Specification 3.4.1, RCS Pressure, Temperature and Flow Departure from Nucleate Boiling (DNB) Limits (Amendment 219/201)

11. AP/1/A/5500/08, Malfunction of NC Pump (Rev 14)

12. Selected Licensee Commitment 16.9.7, Standby Shutdown System (Rev 145)

13. AP/1/A/5500/02, Turbine Generator Trip (Rev 28)

14. EP/1/A/5000/E-0, Reactor Trip or Safety Injection (Rev 34)

15. EP/1/A/5000/ES-0.1, Reactor Trip Response (Rev 41)

16. AP/1/A/5500/38, Emergency Boration And Response To Inadvertent Dilution (Rev 11)

17. EP/1/A/5000/ECA-0.0, Loss of All AC Power (Rev 35)

Validation Time: 145 minutes Author: David Lazarony, Essential Training & Consulting, LLC Facility Review: ________________________

Rev. 040615 Scenario Event Description NRC Scenario 3 Facility: McGuire Scenario No.: 3 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 40% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: The 1A EDG is OOS for bearing replacement.

ACTION has been taken in accordance with Technical Specification LCO 3.8.1 ACTION B. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance.

1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-12, E-2, A RN PUMP ABNORMAL FLOW, has alarmed spuriously several times over the last hour (IAE is investigating). The crew will raise power to 100%

after taking the shift.

Event Malf. Event Type* Event No. No. Description 1 NA R-RO Power Increase w/Alternate Dilute N-BOP N-SRO MAL 2 C-RO Control Rods fail to Move in Auto IRE009 C-SRO REM 3 C-BOP 1B NCP Standpipe Low Level Alarm NV0461 C-SRO MAL 4 C-RO SG 1D PORV fails OPEN SM001D C(TS)-SRO MAL 5 C(TS)-SRO #1 Seal Leak on 1B NCP NCP008B MAL 6 C-RO Inadvertent Turbine Trip DEH001 C-SRO MAL 7 C-BOP #1 Seal Leak on 1B NCP Degrades NCP008B NCP016C NCP015C MAL 8 C-BOP 4 Control Rods fail to Fully Insert on Rx Trip IRE010 C-SRO MAL 9 M-RO Loss of Switchyard to Unit 1/1B EDG fails to START EP002A M-BOP EP002B M-SRO DG001B

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Scenario Event Description NRC Scenario 3 McGuire 2015 NRC Scenario #3 The plant is at 40% power (MOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: The 1A EDG is OOS for bearing replacement.

ACTION has been taken in accordance with Technical Specification LCO 3.8.1 ACTION B. The 1A SG PORV is leaking and isolated. The PORV has been declared inoperable and maintenance is being planned. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-12, E-2, A RN PUMP ABNORMAL FLOW, has alarmed spuriously several times over the last hour (IAE is investigating). The crew will raise power to 100% after taking the shift.

Shortly after taking the watch, the operator will commence a load increase to 100% starting with Step 3.35.19 of Enclosure 4.1, Power Increase, of OP/1/A/6100/003, Controlling Procedure for Unit Operation. The operator will dilute the NC System Boron concentration in accordance with .4, Alternate Dilute, of OP/1/A/6150/009, Boron Concentration Control, and raise Turbine load in accordance with OP/1/A/6300/001 A, Turbine-Generator Load Change.

During the power increase, the operator will discover that the Control Rods will not respond in AUTO. The crew will enter AP/1/A/5500/14, Rod Control Malfunction, and control rods in MANUAL. Because the crew may control the power increase such that an auto rod demand does not occur, this event may not be diagnosed until later.

Shortly after starting the power increase, AD-7/B-2, NC Pump B No. 2 Seal S-Pipe Lo Level, will alarm. The operator will address the Annunciator Response Procedure, and then use Enclosure 4.3, Filling and Draining NC Pump Standpipe, of OP/1/A/6150/002A, Reactor Coolant Pump Operation, to refill the standpipe.

After this, the 1D Steam Generator PORV will fail OPEN. The operator will respond in accordance with AP/1/A/5500/01, Steam Leak, and isolate the PORV. The operator will address Technical Specification LCO 3.7.4, Steam Generator Power Operated Relief Valves (SG PORVs), and may enter LCO 3.4.1, RCS Pressure, Temperature and Flow Departure from Nucleate Boiling (DNB) Limits.

Subsequently, a #1 seal leak will develop on the 1B NCP such that #1 Seal leakoff flow is 5.0-5.5 gpm. The operator will respond in accordance with AP/1/A/5500/08, Malfunction of NC Pump, and address Selected Licensee Commitment 16.9.7, Standby Shutdown System. The control operators will be directed on the action to take should the #1 Seal Leakoff flow degrade to > 6 gpm (which will occur subsequently).

Shortly afterwards, the Main Turbine will inadvertently trip. The operator will respond in accordance with AP/1/A/5500/02, Turbine Generator Trip. The RO will need to operate the control rods manually.

While the crew is in AP-2, the 1B Hi Vibration alarm will occur and the #1 seal leak flow on the 1B NCP will rise to 6 gpm. The operator go back to Step 8 of AP-8 (Continuous Action Step), and close the 1B NCP Pzr Spray Valve, manually trip the reactor and stop the 1B NCP when reactor power is < 5%. The crew will perform Enclosure 2, NC Pump Post Trip Actions For #1 Seal Failure, of AP8, while subsequently performing E-0.

Scenario Event Description NRC Scenario 3 The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and verify reactor trip.

On the reactor trip four control rods will fail to fully insert. The operator will transition to EP/1/A/5000/ES-0.1, Reactor Trip Response, and emergency borate per AP/1/A/5500/38, Emergency Boration And Response To Inadvertent Dilution.

Immediately following the initiation of Emergency Boration, a loss of the Unit 1 Switchyard will occur, and the 1B Emergency Diesel Generator will fail to start. The operator will immediately transition to EP/1/A/5000/ECA-0.0, Loss of All AC Power. The operator will restore power to 1ETA per Unit 2 6900V busses through SATA or SATB per Enclosure 14 Energizing Unit 1 4160V Bus From Unit 2 - SATA or SATB.

The scenario will terminate when one ESF Bus has been re-energized.

Critical Tasks:

Trip the Reactor prior to stopping the NCP during a high vibration condition, and trip the NCP only after Reactor power level has dropped to less than 5%.

Safety Significance: The P-8 interlock allows one NCP to be stopped less than 48% power. If a NCP is stopped in Mode 1 or 2, Tech Spec 3.4.4 requires the unit to be in Mode 3 within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

In addition, T-ave for the idle loop may violate Tech Spec 3.4.2, minimum temperature for criticality. In this case, the unit must be sub-critical within 30 minutes. The transient placed on the unit when a NCP is secured at power can challenge both reactor protection and control systems. Furthermore, an added burden is placed on the operator to stabilize the unit and shut down within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months (possibly 30 minutes) to comply with Tech Specs. Even though the plant is designed and analyzed to operate in this configuration for a short time, station management has decided that the conservative approach to dealing with this transient is to trip the reactor anytime a NCP malfunction warrants stopping a pump in Mode 1 or 2. Guidance is given to wait until reactor power is less than 5% before stopping the NC pump. This will ensure the NC pump will provide adequate flow/core cooling until reactor power is sufficiently low enough to preclude a challenge to fuel integrity. If the action can be taken, and is not taken, this demonstrates mis-operation or incorrect operation that could unnecessarily challenge a fission product barrier (NCS).

Energize at least one AC Emergency Bus From Unit 2.

Safety Significance: Failure to energize an AC Emergency Bus when able to do so constitutes mis-operation or incorrect performance which leads to degraded emergency power capacity.

Failure to perform the Critical Task may result in a needless challenge and/or degradation of a fission product barrier at the point of the remaining intact RCP Seals, and will result in the inability to add inventory through the ECCS during the existing and potentially subsequent small break LOCA(s). Since the conditions existed to re-energize an ESF Bus from Unit 2 via the SATA or SATB, not taking this action constitutes incorrect performance that leads to degradation of the RCS and/or fuel cladding fission product barriers.

Scenario Event Description NRC Scenario 3 SIMULATOR OPERATOR INSTRUCTIONS Bench Mark ACTIVITY DESCRIPTION Sim. Setup Rod Step On Reset to Temp IC 240 T = 0 Malfunctions (From IC-18):

(Originally 18).

insert MAL-EPQ001A ACTIVE (Loss of D/G A Control Power) insert LOA-DG020 RACKED_OUT (1A D/G Output Breaker Control Power Fuses) insert LOA-DG011 RACKED_OUT (1A D/G Output Breaker Racked Out)

Insert REM-SV0027 = 0 (Close 1SV-27 [1A S/G PORV Isolation])

Insert LOA-SV001= Racked_Out (SG PORV Breaker Racked Out)

H_X02_087_3 = 0 (1A PORV Controller LEFT lamp)

H_X02_087_4 = 0 (1A PORV Controller RIGHT lamp)

Insert LOA-SV014=0 (SM PORV A LOCAL OPERATION) insert XMT- KFTT5130 = 0 (Spent Fuel Pool Temperature Failure)

From IC-240 Per Lesson Plan 2015 NRC Exam Scenario 3 insert MAL-IRE010N9 (Shutdown Bank B-3 Stuck at original position) insert MAL-IRE010N11 (Shutdown Bank D-3 Stuck at original position) insert MAL-IRE010P10 Control Bank B-3 Stuck at original position) insert MAL-IRE010P12 Shutdown Bank A-3 Stuck at original position)

RUN Place Tagout/O-Stick on:

1A EDG (Tagout)

Reset all SLIMs 1SV-27 (Tagout) 1KFP-5130 (O-Stick)

MCB Annunciator 1AD-12, E-2 (O-stick)

Update Status Board, NOTE: RMWST DO = <1000 ppb.

Setup OAC Scenario Event Description NRC Scenario 3 Bench Mark ACTIVITY DESCRIPTION Freeze.

Update Fresh Tech.

Spec. Log.

Fill out the AO's Available section of Shift Turnover Info.

Prior to Crew Briefing RUN Crew Briefing

1. Assign Crew Positions based on evaluation requirements

2. Review the Shift Turnover Information with the crew.

3. Provide Enclosure 4.1 of OP/1/A/6100/003 marked up as follows:

Step 2.3 initialed.

Note prior to Step 3.1 checked.

Step 3.1 Checkbox is checked.

Step 3.2 initialed.

Step 3.3 initialed.

Step 3.3.1 Checkbox is checked.

Step 3.3.2 Checkbox is checked, Step 3.35.14 is entered.

Step 3.3.3 Checkbox is checked.

Step 3.3.4 Initialed.

Step 3.35 circled.

Step 3.35.1 Checkbox is checked.

Note prior to Step3.35.2 is checked.

Step 3.35.2 Checkbox is checked.

Step 3.35.3 is NA.

Step 3.35.4 is initialed (Person Notified/Todays time and date filled in).

Step 3.35.5 is circled.

Step 3.35.6 is initialed (Person Notified/Todays time and date filled in).

Step 3.35.7 Checkbox is checked.

Step 3.35.8 Checkbox is checked.

Step 3.35.9 All four bullets initialed.

Step 3.35.10 Initialed, all three Checkboxes checked.

Step 3.35.10.1 Checkbox checked.

Step 3.35.10.2 Checkbox checked.

Step 3.35.11 Initialed.

Step 3.35.12 Initialed

Step 3.35.13 is initialed.

Step 3.35.13.1 Initialed, A&B Checkboxes checked, C initialed.

Scenario Event Description NRC Scenario 3 Bench Mark ACTIVITY DESCRIPTION

Step 3.35.13.2 Checkbox checked.

Note prior to Step 3.35.14 is checked.

Step 3.35.14 Initialed, all four Checkboxes checked (Person Notified/Todays time and date filled in).

Step 3.35.15 Initialed

Step 3.35.15.1 Checkbox is checked.

Step 3.35.15.2 Both Checkboxes checked.

Step 3.35.15.3 Checkbox is checked.

Step 3.35.15.4 Initialed.

Note prior to Step 3.35.15.5 is checked.

Step 3.35.15.5 Initialed.

Step 3.35.15.6 Initialed.

Step 3.35.15.7 Initialed.

Step 3.35.15.8 Initialed.

Notes prior to Step 3.35.15.9 are checked.

Caution prior to Step 3.35.15.9 is checked.

Step 3.35.15.9 A Three Checkboxes are checked.

Step 3.35.15.9 B Initialed.

Step 3.35.15.9 C Initialed.

Note prior to Step 3.35.15.10 is checked.

Step 3.35.15.10 LP GOV CNTRL is fully open Checkbox is checked.

Step 3.35.15.11 Initialed.

Step 3.35.15.11 A Initialed.

Step 3.35.15.11 B NAd.

Step 3.35.15.12 NAd.

Step 3.35.16 Initialed.

Caution prior to Step 3.35.17 is checked.

Step 3.35.15.17 NAd.

Step 3.35.15.18 NAd.

4. Provide the crew with OP/1/A/6150/009 (Boron Concentration Control) and OP/1/A/6300/1 A (Turbine-Generator Load Change).

5. Direct the crew to Review the Control Boards taking note of present conditions, alarms.

T-0 Begin Familiarization Period At direction of examiner Execute Lesson Plan for Simulator Scenario N15-1-3.

At direction of examiner Event 1 Power Increase w/Alternate Dilute At direction of examiner Event 2 Control Rods fail to Move in Auto insert MAL-IRE009 =

FAIL_OF_AUTO Scenario Event Description NRC Scenario 3 Bench Mark ACTIVITY DESCRIPTION At direction of examiner Event 3 1B NCP Standpipe Low Level Alarm insertREM-NV0461 =

1.0 (Open Standpipe Drain Valve) delIA REM-NV0461 =

0.0 cd cd x10_152_5

=1 delay = 60 seconds (Closed Standpipe Drain Valve when MCB Annunciator 1AD-7 B-2L is LIT)

At direction of examiner Event 4 SG 1D PORV fails OPEN insert MAL-SM001D =

100, ramp=10 At direction of examiner Event 5 #1 Seal Leak on 1B NCP insertMAL-NCP008B=12, Ramp =

10 minutes At direction of examiner Event 6 Inadvertent Turbine Trip Insert MAL-DEH001 At direction of examiner Event 7 #1 Seal Leak on 1B NCP Degrades Change Severity MAL-NCP008B=15 Ramp =

120 seconds insertMAL-NCP016C =

16 Ramp = 120 seconds (1B NCP Hi Vibration) insertMAL-NCP015C =

11 Ramp = 120 seconds (1B NCP Hi Vibration)

H_X10_171_3 EQ1 (NCP 1B Breaker Green Status light ON),

delIA MAL-NCP016C and 015C Scenario Event Description NRC Scenario 3 Bench Mark ACTIVITY DESCRIPTION Rx Trip Event 8 4 Control Rods fail to Fully Insert on Rx Trip Insert These malfunctions are inserted at T=0.

MAL-IRE010N9 MAL-IRE010N11 MAL-IRE010P10 MAL-IRE010P12 Post-Immediate Event 9 Loss of Switchyard to Unit 1/1B EDG fails to START Insert MAL-EP002 AND Boration EP002B = TRIP Insert MAL-DG001B =

TRUE Terminate the scenario upon direction of Lead Examiner Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 1 Page 10 of 65 Event

Description:

Power Increase w/Alternate Dilute Shortly after taking the watch, the operator will commence a load increase to 100% starting with Step 3.35.19 of Enclosure 4.1, Power Increase, of OP/1/A/6100/003, Controlling Procedure for Unit Operation. The operator will dilute the NC System Boron concentration in accordance with Enclosure 4.4, Alternate Dilute, of OP/1/A/6150/009, Boron Concentration Control, and raise Turbine load in accordance with OP/1/A/6300/001 A, Turbine-Generator Load Change.

Booth Operator Instructions: NA Indications Available: NA Time Pos. Expected Actions/Behavior Comments OP/1/A/6100/003, CONTROLLING PROCEDURE FOR UNIT OPERATIONS ENCLOSURE 4.1, POWER INCREASE CRS (Step 3.35) Increase power to 50% RTP. NOTE: The power increase will be at 2 Mwe/minute.

RO/ (Step 3.35.19) Prior to 50% RTP, perform the BOP following concurrently:

Ensure proper secondary water chemistry for operation greater than 50%

RTP.

Evaluate air ejector off gas and nozzle operation per OP/1/B/6300/006 (Main Vacuum and Vacuum Priming System).

Record highest value:

1A Main Generator Breaker Air Compressor

Pilot Valve Counter

1B Main Generator Breaker Air Compressor

Pilot Valve Counter

Date/Time of counter readings

Notify Engineering to calculate Main Generator Breaker air leakage using counter readings from Step 3.33.19 and Step 3.35.19.3.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 1 Page 11 of 65 Event

Description:

Power Increase w/Alternate Dilute Time Pos. Expected Actions/Behavior Comments

Notify TCC (Transmission Control Center) (382-9401 or 382-9402) to check amperage output balanced on both busses to switchyard.

Maintain AFD within target band per OP/1/A/6100/022 (Unit 1 Data Book),

Enclosure 4.3, Graph(s) 1.1.

IF Power Range detectors have been replaced..

IF Initial Cycle Startup,..

IF NOT Initial Cycle Startup, check QPTR less than or equal to 1.02.

Check "P-8 Hi Pwr Lo Flo Reactor Trip Blocked" dark. (1SI-18).

Booth Operator Instructions: After the first Alternate Dilute and the Turbine is being loaded, insert MAL-IRE009 = FAIL_OF_AUTO OP/1/A/6150/009, BORON CONCENTRATION CONTROL ENCLOSURE 4.4, ALTERNATE DILUTE NOTE: The BOP may repeat this task as needed during the power increase.

BOP (Step 3.6) Determine amount of reactor makeup water needed to obtain desired boron concentration using McGuire Data Book, OAC, Reactor Group Guidance, or plant parameters (T-Ave, Steam Pressure, Xenon worth, etc.). (R.M.)

Total Reactor Makeup Water: NOTE: Total makeup is 200 gallons.

BOP (Step 3.7) Ensure the following reset to zero:

(R.M.)

Total Make Up Flow Counter

Boric Acid Flow Counter BOP (Step 3.8) Set Total Make Up Flow Counter to value determined in Step 3.6. (R.M.)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 1 Page 12 of 65 Event

Description:

Power Increase w/Alternate Dilute Time Pos. Expected Actions/Behavior Comments BOP (Step 3.9) Select ALTERNATE DILUTE on NC Sys M/U Controller.

BOP (Step 3.10) IF desired to makeup only through 1NV-175A (U1 Boric Acid Blender To VCT Outlet Control), select CLOSED on 1NV-171A (U1 Boric Acid Blender to VCT Inlet Control).

BOP (Step 3.11) IF AT ANY TIME it is desired to NOTE: It is NOT desired to adjust reactor makeup water flow, adjust Rx adjust reactor makeup water M/U Water Flow Control setpoint to achieve flow.

desired flowrate.

BOP (Step 3.12) IF AT ANY TIME it is desired to manually adjust reactor makeup water flow, perform the following:

(Step 3.12.1) Place Rx M/U Water Flow Control in manual.

(Step 3.12.2) Adjust Rx M/U Water Flow Control output to control reactor makeup water flowrate.

BOP (Note prior to Step 3.13) IF desired to dilute with a constant flow rate as advised by engineering to minimize VCT +temperature decrease, it is preferred to allow 1NV-137A (U1 NC Filter Otlt to VCT 3-Way Diversion Cntrl) to auto divert on high level.

BOP (Step 3.13) IF AT ANY TIME it is desired to lower VCT level, perform the following:

(Step 3.13.1) Monitor Letdown Pressure.

(Step 3.13.2) Select HUT on 1NV-137A (U1 NOTE: The BOP may do this NC Filters Otlt to VCT 3-Way Diversion at any time to lower VCT level.

Contrl).

(Step 3.13.3) IF Letdown Pressure increases greater than 20 psig, notify CRS.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 1 Page 13 of 65 Event

Description:

Power Increase w/Alternate Dilute Time Pos. Expected Actions/Behavior Comments (Step 3.13.4) AFTER desired level achieved, select AUTO on 1NV-137A (U1 NC Filters Otlt to VCT 3-Way Diversion Cntrl).

BOP (Step 3.14) IF AT ANY TIME plant parameters require termination of dilution, perform the following:

(Step 3.14.1) Place NC System Make Up to STOP. (R.M.)

(Step 3.14.2) IF 1NV-137A (U1 NC Filters Otlt to VCT 3-Way Diversion Cntrl) was placed to HUT, place to AUTO.

BOP (Step 3.15) Momentarily select START on NC System Make Up. (R.M.)

BOP (Step 3.16) Check NC System Make Up red light lit.

BOP (Step 3.17) Check 1NV-175A (U1 Boric Acid Blender To VCT Outlet Control) open.

BOP (Step 3.18) Check 1NV-252A (Rx M/U Water Supply To U1 BA Blender Cntrl) open or throttled as required.

BOP (Step 3.19) IF 1NV-171A (U1 Boric Acid NOTE: 1NV-171A is NOT in Blender To VCT Inlet Control) in AUTO, AUTO.

check 1NV-171A (U1 Boric Acid Blender to VCT Inlet Control) open.

BOP (Step 3.20) Check Rx M/U Water Pump starts.

BOP (Step 3.21) Monitor Total Make Up Flow Counter. (R.M.)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 1 Page 14 of 65 Event

Description:

Power Increase w/Alternate Dilute Time Pos. Expected Actions/Behavior Comments BOP (Step 3.22) HOLD until one of the following occurs:

Amount of reactor makeup water recorded per Step 3.6 added OR

Reactor makeup water addition manually terminated BOP (Step 3.23) Ensure dilution terminated as follows: (R.M.)

(Step 3.23.1) IF in AUTO, ensure the following off:

1A Rx M/U Water Pump

1B Rx M/U Water Pump BOP (Step 3.23.2) Ensure the following closed:

1NV-175A (U1 Boric Acid Blender To VCT Outlet Control)

1NV-252A (RX M/U Water Supply To U1 BA Blender Cntrl)

1NV-171A (U1 Boric Acid Blender To VCT Inlet Control)

BOP (Step 3.24) Ensure 1NV-171A (U1 Boric Acid Blender to VCT Inlet Control) in AUTO.

BOP (Step 3.25) Ensure Rx M/U Water Flow Control in AUTO. (R.M.)

BOP (Step 3.26) IF Rx M.U Water Flow Control NOTE: The Rx M.U Water adjusted per Step 3.11 Flow Control was NOT adjusted.

BOP (Step 3.27) Ensure 1NV-137A (U1 NC Filters Otlt to VCT 3-Way Diversion Cntrl) in AUTO.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 1 Page 15 of 65 Event

Description:

Power Increase w/Alternate Dilute Time Pos. Expected Actions/Behavior Comments BOP (Step 3.28) IF desired to flush blender. NOTE: It is NOT desired to flush the blender.

BOP (Step 3.29) Select AUTO for NC Sys M/U Controller.

BOP (Step 3.30) Momentarily select START on NC System Make Up.

BOP (Step 3.31) Check NC System Make Up red light lit.

BOP (Step 3.32) Ensure the following reset to zero: (R.M.)

Total Make Up Flow Counter

Boric Acid Flow Counter BOP (Step 3.33) Record in Auto Log that final blender content is Rx Makeup Water.

OP/1/A/6300/001A, TURBINE-GENERATOR STARTUP/SHUTDOWN ENCLOSURE 4.1, TURBINE-GENERATOR LOAD CHANGE RO (Step 3.5) Changing Turbine Load (Step 3.5.1) IF Turbine in OPERATOR AUTO, perform the following:

(Step 3.5.1.1) Ensure desired change within Calculated Capability Curve.

(Step 3.5.1.2) IF turbine load will NOTE: The BOP will notify the increase or decrease more than 10 MWs, Load Dispatcher.

notify Dispatcher of expected load change.

(Step 3.5.1.3) Depress LOAD RATE.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 1 Page 16 of 65 Event

Description:

Power Increase w/Alternate Dilute Time Pos. Expected Actions/Behavior Comments (Step 3.5.1.4) Enter desired load rate in NOTE: the RO will select 2 VARIABLE DISPLAY. Mwe/Min loading rate.

(Step 3.5.1.5) Depress ENTER.

(Step 3.5.1.6) Depress REFERENCE.

(Step 3.5.1.7) Enter desired load in VARIABLE DISPLAY.

(Step 3.5.1.8) Depress ENTER.

(Step 3.5.1.9) Depress GO (Step 3.5.1.10) Check load changes at selected rate.

WHEN the Auto Rod Control Failure is diagnosed, move to Event 2 OR, At the discretion of the Lead Examiner move to Event #3.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 2 Page 17 of 65 Event

Description:

Control Rods fail to Move in Auto During the power increase, the operator will discover that the Control Rods will not respond in AUTO. The crew will enter AP/1/A/5500/14, Rod Control Malfunction, and control rods in MANUAL. Because the crew may control the power increase such that an auto rod demand does not occur, this event may not be diagnosed until later.

Booth Operator Instructions: insert MAL-IRE009 = FAIL_OF_AUTO Indications Available:

White RODS OUT Rod Control Status light is LIT

Outward Rod direction arrow on the rod motion demand signal indicator.

OAC Alarm M1P1367, U1 TAVG-Tref HI 1.5°F Time Pos. Expected Actions/Behavior Comments NOTE: The RO may go to HOLD on the Turbine.

AP/1/A/5500/14, ROD CONTROL MALFUNCTION RO (Step 1) IF two or more rods are either Immediate Action dropped OR misaligned by greater than 24 NOTE: No control rods steps, THEN dropped or mialigned during this event.

RO (Step 2) Place control rods in manual. Immediate Action NOTE: The RO placed the rods in manual during the downpower when the malfunction occurred.

RO (Step 3) Check rod movement - STOPPED. Immediate Action RO (Step 4) Check all rods - ALIGNED WITH ASSOCIATED BANK.

RO (Step 5) Check ROD CONTROL URGENT FAILURE alarm (1AD-2, A-10) - DARK.

RO (Step 6) Check T-AVG/T-REF FAILURE ROD STOP alarm (1AD-2, B-7) - DARK.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 2 Page 18 of 65 Event

Description:

Control Rods fail to Move in Auto Time Pos. Expected Actions/Behavior Comments RO (Step 7) IF this AP entered due to NOTE: The CRS entered unwarranted rod insertion or withdrawal, AP14 because the Rods were THEN. NOT moving when required.

CRS (Step 8) IF this AP entered due to a failure of rods to withdraw or insert when required, THEN GO TO Enclosure 2 (Failure Of Rods To Move On Demand).

NOTE: The CRS will transition to AP-14, Enclosure 2.

AP/1/A/5500/14, ROD CONTROL MALFUNCTION ENCLOSURE 2, FAILURE OF RODS TO MOVE ON DEMAND CRS (Step 1) Announce occurrence on paging NOTE: CRS may ask U2 RO system. to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

RO (Step 2) Maintain T-Avg within 1°F of T-Ref NOTE: The RO will adjust using any of the following methods: Turbine Load to maintain Temperature and/or perform additional Alternate Dilutions.

Later, after IAE has permitted the use of Manual Rod Control, the Crew will use a combination of Rods, Alternate Dilute and Turbine adjustments to maintain Tavg-Tref within the 1.5°F band.

Borate/dilute NC System OR

Adjust Turbine load.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 2 Page 19 of 65 Event

Description:

Control Rods fail to Move in Auto Time Pos. Expected Actions/Behavior Comments CRS (Step 3) Notify IAE to investigate problem. NOTE: The CRS may call WCC/IAE to address the Rod Control malfunction.

If so, Booth Instructor acknowledge as WCC.

RO (Step 4) Check if rod control system failure has occurred as follows:

ROD CONTROL URGENT FAILURE NOTE: The Urgent Failure alarm (1AD-2, A-10) - LIT. light is DARK.

RO (Step 4 RNO) Perform the following:

If Manual Rod Control available, THEN Booth Instructor: as IAE, rods can be used to maintain T-avg within report that the use of Manual 1oF of T-Ref. Rod Control ONLY is permitted.

IF AT ANY TIME control rods do not NOTE: This is a Continuous move correctly in manual, THEN GO TO Action. The CRS will make Step 5. both board operators aware.

CRS

GO TO Step 8.

CRS (Step 8) Check if reactor control system failure has occurred as follows:

T-AVG/T-REF FAILURE ROD STOP alarm (1AD-2, B-7) - LIT.

CRS (Step 8.a RNO) GO TO Step 9.

CRS (Step 9) WHEN rod control problem is Examiner NOTE: IAE will repaired, OR Engineering determines that rod NOT be able to fix the Auto control malfunction will not affect auto rod Rod Control Malfunction. The motion, THEN rods will remain in MANUAL throughout the remainder of the scenario.

At the discretion of the Lead Examiner move to Event #3.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 3 Page 20 of 65 Event

Description:

1B NCP Standpipe Low Level Alarm Shortly after starting the power increase, AD-7/B-2, NC Pump B No. 2 Seal S-Pipe Lo Level, will alarm. The operator will address the Annunciator Response Procedure, and then use Enclosure 4.3, Filling and Draining NC Pump Standpipe, of OP/1/A/6150/002A, Reactor Coolant Pump Operation, to refill the standpipe.

Booth Operator Instructions: insertREM-NV0461 = 1.0 (Open Standpipe Drain Valve) (will take 3-4 min, to alarm) delIA REM-NV0461 = 0.0 cd x10_152_5

=1 delay = 60 seconds (Closed Standpipe Drain Valve when MCB Annunciator 1AD-7 B-2L is LIT)

Indications Available:

OAC Alarm: 1B NC Pump Standpipe Level Low

MCB Annunciator 1AD-7/B-2L NC PUMP B NO.2 SEAL S-PIPE LOW LEVEL Time Pos. Expected Actions/Behavior Comments OP/1/A/6100/010 H, ANNUNCIATOR RESPONSE FOR PANEL 1AD-7 B2, NC PUMP B NO. 2 SEAL S-PIPE LO LVL BOP (Step 1) IF drain was inadvertently opened, ensure it is closed.

BOP (Step 2) Check the following NC pump parameters stable:

Lower bearing Temperature

Number 1 seal outlet temperature

Number 1 seal leakoff flow BOP (Step 3) IF any NC pump parameter listed in NOTE: All listed parameters Step 2 abnormal, are normal.

BOP (Step 4) Make up to standpipe as necessary NOTE: The CRS will transition per OP/1/A/6150/002A (Reactor Coolant to the OP to refill the Pump Operation). standpipe.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 3 Page 21 of 65 Event

Description:

1B NCP Standpipe Low Level Alarm Time Pos. Expected Actions/Behavior Comments OP/1/A/6150/002 A, REACTOR COOLANT PUMP OPERATION BOP (Step 3.1) Evaluate all outstanding R&Rs that may impact performance of the procedure.

BOP (Step 3.2) Perform the following sections, as applicable:

Section 3.3, Filling NC Pump Standpipes BOP (Step 3.3) Filling NC Pump Standpipes

Check Reactor Makeup Water System aligned per OP/1/A/6200/012 (Reactor Makeup Water System).

Check 1NC-56B (PRT Spray Cont Outside Isol) open.

Open Applicable valve(s):

1NV-55B (B NC Pump Standpipe Fill)

IF required, start one of the following: NOTE: It is likely that the BOP will need to start a Rx M/U Water Pump.

1A Rx M/U Water Pump OR

1B Rx M/U Water Pump

WHEN applicable NC Pump No. 2 Seal S-pipe Lo Lvl alarm clears, perform the following:

IF pump started in Step 3.3.4, stop applicable pump:

1A Rx M/U Water Pump OR

1B Rx M/U Water Pump

Close applicable valve.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 3 Page 22 of 65 Event

Description:

1B NCP Standpipe Low Level Alarm Time Pos. Expected Actions/Behavior Comments

1NV-55B (B NC Pump Standpipe Fill)

NOTE: The CRS may call WCC to address the failure.

If so, Booth Instructor acknowledge as WCC.

NOTE: The CRS will likely conduct a Focus Brief.

At the discretion of the Lead Examiner move to Event #4.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 4 Page 23 of 65 Event

Description:

SG 1D PORV fails OPEN After this, the 1D Steam Generator PORV will fail OPEN. The operator will respond in accordance with AP/1/A/5500/01, Steam Leak, and isolate the PORV. The operator will address Technical Specification LCO 3.7.4, Steam Generator Power Operated Relief Valves (SG PORVs), and may enter LCO 3.4.1, RCS Pressure, Temperature and Flow Departure from Nucleate Boiling (DNB) Limits.

Booth Operator Instructions: insert MAL-SM001D 100 delay=0 ramp=10 (S/G PORV 1SV1 SGD fails OPEN)

Indications Available:

1SV-1AB Red status light LIT

1SV-1AB Black needle indication at 100%

OAC Alarm: TM FREEZE - MID3478-VLVSV1D SM PORV OPEN

OAC Alarm: U1 SV-PORV/SAFETY VLV OPEN -T/D CA PMP ON

OAC Alarm: 1SV-1AB 1D SM PORV

Core Ts rising

Rx Power rising

Steam flow on 1D steam line rising Time Pos. Expected Actions/Behavior Comments NOTE: It is likely that the operator will take actions to isolate the 1D SG PORV prior to being directed by the CRS.

(Step 13)

CONTROL ROOM CREW EXPECTATIONS MANUAL RO Transient load changes: Manual is preferred NOTE: The crew may

- immediately reduce 20Mwe and then diagnose an overpower reduce as needed to maintain Rx power less condition and adjust turbine than pre-transient condition. After the initial load per the Crew Expectation 20 Mwe load reduction, it is preferred that the Manual.

operators use multiple and diverse indications to determine how much more load should be reduced.

AP/1/A/5500/01, STEAM LEAK CRS (Step 1) Monitor Foldout page.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 4 Page 24 of 65 Event

Description:

SG 1D PORV fails OPEN Time Pos. Expected Actions/Behavior Comments Manual Reactor Trip Criteria: (IF any of the NOTE: Manual Reactor Trip following occur: (1) Steam leak is Criteria is NOT expected to be jeopardizing personnel safety or plant utilized.

equipment, (2) T-Avg is less than 551°F AND going down, or (3) UST level is less than 1 ft

- NOT Expected).

RO (Step 2) Reduce turbine load to maintain the following:

Excore NIs - LESS THAN OR EQUAL TO 100%.

NC Loop D/Ts - LESS THAN 60°F D/T

T-Avg - AT T-REF.

CRS (Step 3) Check containment entry - IN NOTE: A Containment Entry is PROGRESS. NOT in progress.

CRS (Step 3 RNO) GO TO Step 5.

BOP (Step 5) Check Pzr pressure prior to event -

GREATER THAN P-11 (1955 PSIG).

BOP (Step 6) Check Pzr level - STABLE OR GOING UP.

BOP (Step 7) IF AT ANY TIME while in this NOTE: This is a Continuous procedure Pzr level cannot be maintained Action. The CRS will make stable, THEN RETURN TO Step 6. both board operators aware.

CRS (Step 8) GO TO Step 12.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 4 Page 25 of 65 Event

Description:

SG 1D PORV fails OPEN Time Pos. Expected Actions/Behavior Comments CRS (Step 12) Announce occurrence on paging NOTE: CRS may ask U2 RO system. to make Plant Announcement that AP-1 has been entered.

If so, Floor Instructor acknowledge as U2 RO.

RO (Step 13) Identify and isolate leak on Unit 1 as follows:

(Step 13a) Check SM PORVs - NOTE: The 1D SG PORV is CLOSED. Open.

RO (Step 13a RNO) IF S/G pressure is less than 1092 PSIG, THEN perform the following:

Close affected S/G SM PORV manual NOTE: Closing the Manual loader. Loader will have no effect.

IF SM PORV is still open, THEN perform NOTE: The 1D SG PORV the following: Isolation Valve will need to be closed.

Close SM PORV isolation valve.

IF SM PORV isolation valve still NOTE: The PORV Isolation open valve is closed.

RO * (Step 13.b) Check condenser dump valves - CLOSED.

BOP * (Step 13.c) Check containment conditions - NORMAL:

Containment temperature

Containment pressure

Containment humidity

Containment floor and equipment sump level.

RO / * (Step 13.d) Check TD CA pump - OFF.

BOP

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 4 Page 26 of 65 Event

Description:

SG 1D PORV fails OPEN Time Pos. Expected Actions/Behavior Comments BOP * (Step 13.e) Check valves on STEAM NOTE: One or more of these LINE DRAIN VALVES board (1MC-9) - valves may be cycling. The CLOSED. RNO will direct closing the valves.

CRS * (Step 13.f) Check opposite Unit (Unit 2) NOTE: CRS may ask U2 RO STEAM HEADER PRESSURE - for AS Header pressure.

GREATER THAN 200 PSIG. If so, Floor Instructor report as U2 RO that U2 Steam Header pressure is 1000 psig.

CRS * (Step 13.g) Dispatch operator to check NOTE: The CRS may dispatch for leaks. an AO to look for leaks.

If so, Floor Instructor:

acknowledge.

Booth Instructor: Report back in 3-5 minutes that there are no leaks.

NOTE: The CRS may NOT dispatch AOs to look for leaks because it is understood that the SM PORV opening was the reason that AP-1 was entered.

BOP (Step 14) Check UST level - STABLE OR GOING UP.

CRS (Step 15) Evaluate unit shutdown as follows:

Check unit status - IN MODE 1 OR 2.

Determine if unit shutdown or load NOTE: CRS may call reduction is warranted based on the WCC/Management to address following criteria: the startup.

If so, Booth Instructor acknowledge as WCC.

Size of leak

Location of leak

Rate of depletion of secondary inventory

IF steam is leaking from a secondary heater relief OR MSR relief valve

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 4 Page 27 of 65 Event

Description:

SG 1D PORV fails OPEN Time Pos. Expected Actions/Behavior Comments

IF turbine trip will isolate steam leak (such as feedwater heater leak or MSR leak

Check unit shutdown or load reduction - NOTE: Shutdown/Load REQUIRED. Reduction will NOT be required.

CRS (Step 15.c RNO) Perform the following:

Maintain present plant conditions until leak can be isolated or repaired.

Exit this procedure.

NOTE: The CRS may call WCC/IAE to address the Valve failure.

If so, Booth Instructor acknowledge as WCC, and using Time Compression report that 1SV1AB is stuck fully open (and cannot be moved even using the Manual handwheel).

NOTE: The CRS will likely conduct a Focus Brief.

NOTE: The CRS will address Tech Specs based on plant response.

Booth Operator Instructions: While the CRS is checking Tech Specs, insertMAL-NCP008B=12 Ramp = 10 minutes (NOTE: The malfunction for Event 5 takes several minutes to develop)

TECHNICAL SPECIFICATION 3.7.4, STEAM GENERATOR POWER OPERATED RELIEF VALVES (SG PORVs)

CRS LCO 3.7.4 Three SG PORV lines shall be OPERABLE.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 4 Page 28 of 65 Event

Description:

SG 1D PORV fails OPEN Time Pos. Expected Actions/Behavior Comments CRS APPLICABILITY: MODES 1, 2, and 3, MODE 4 when steam generator is relied upon for heat removal.

CRS ACTIONS CONDITION REQUIRED COMPLETION NOTE: After evaluation, the ACTION TIME CRS will determine that two A. One required A.1 Restore 7 days PORVs are inoperable and SG PORV required SG Action A must be entered.

line PORV line to inoperable. OPERABLE status.

TECHNICAL SPECIFICATION 3.4.1, RCS PRESSURE, TEMPERATURE, AND FLOW DEPARTURE FROM NUCLEATE BOILING (DNB) LIMITS CRS LCO 3.4.1 RCS DNB parameters for NOTE: If NC System Pressure pressurizer pressure, RCS average drops to < 2216 psig on the temperature, and RCS total flow rate shall be failure, then TS 3.4.1 might be within the limits specified in Table 3.4.1-1. entered and exited during the transient.

CRS APPLICABILITY: MODE 1.

CRS ACTIONS CONDITION REQUIRED COMPLETION ACTION TIME A. Pressurizer A.1 Restore DNB 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months NOTE: The CRS may pressure or parameter(s) determine that ACTION A.1 RCS average to within limit.

temperature must be entered.

DNB parameters not within limits.

At the discretion of the Lead Examiner move to Event #5.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 5 Page 29 of 65 Event

Description:

1 Seal Leak on 1B NCP Subsequently, a #1 seal leak will develop on the 1A NCP such that #1 Seal leakoff flow is 5.0-5.5 gpm. The operator will respond in accordance with AP/1/A/5500/08, Malfunction of NC Pump, and address Selected Licensee Commitment 16.9.7, Standby Shutdown System. The control operators will be directed on the action to take should the #1 Seal Leakoff flow degrade to > 6 gpm (which will occur subsequently).

Booth Operator Instructions: insertMAL-NCP008B=12 Ramp = 10 minutes (NOTE: This malfunction was mostly likely inserted during the completion of Event 4).

Indications Available:

1B NC Pump #1 Seal leakoff flow is rising on the OAC.

OAC Alarm: 1B NCP Seal Flow > SSF Limit.

MCB Annunciator 1AD-7/E3, NCP PMP CNTRL LEKAGE HI FLOW Time Pos. Expected Actions/Behavior Comments AP/1/A/5500/08, MALFUNCTION OF NC PUMP CASE I, NC PUMP SEAL OR PUMP LOWER BEARING MALFUNCTION BOP (Step 1) Check abnormal NC pump NOTE: The operator may parameter - KNOWN TO BE VALID. address Enclosure 1 per the RNO.

BOP (Step 2) Check NC pump parameters within operating limits:

All NC pump lower radial bearing temperatures - LESS THAN 225°F

All NC pump number 1 seal outlet temperatures - LESS THAN 235°F

All NC pump number 1 seal D/Ps -

GREATER THAN 200 PSID.

BOP (Step 3) IF AT ANY TIME, any operating limit NOTE: This is a Continuous in Step 2 is exceeded, THEN GO TO Step 5. Action. The CRS will make both board operators aware.

CRS (Step 4) GO TO Step 6.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 5 Page 30 of 65 Event

Description:

1 Seal Leak on 1B NCP Time Pos. Expected Actions/Behavior Comments BOP (Step 6) Check if seal cooling available to affected pump:

Seal injection established (Normal or SSF Supply)

KC to Thermal Barrier established.

BOP (Step 7) Check any NC pump number 1 seal NOTE: It is likely that by the leakoff - GREATER THAN OR EQUAL TO 6 time the crew arrives at this GPM. step the leakoff flow will be rising, but will NOT have exceeded 6 GPM.

BOP (Step 7 RNO) Perform the following:

IF seal leakoff slowly going up, THEN NOTE: The CRS may call contact station management for further WCC/SM to address the seal guidance. failure with station management.

If so, Booth Instructor acknowledge as WCC/SM.

Continue to monitor NC pump seal leakoff flow.

CRS

IF AT ANY TIME seal leakoff flow goes NOTE: This is a Continuous up to 6 GPM, THEN GO TO Step 8. Action. The CRS will make both board operators aware.

CRS

GO TO Step 9.

BOP (Step 9) Check affected NC pump(s) seal return valve - OPEN:

1NV-50B (B NC Pump Seal Return Isol)

BOP (Step 10) Check NC pressure - GREATER THAN 2000 PSIG.

BOP (Step 11) Check any NC Pump number one seal leakoff - LESS THAN 0.8 GPM.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 5 Page 31 of 65 Event

Description:

1 Seal Leak on 1B NCP Time Pos. Expected Actions/Behavior Comments CRS (Step 11 RNO) Perform the following:

IF seal leakoff slowly going down, THEN.

Continue to monitor NC Pump seal leakoff flow.

IF AT ANY TIME seal leakoff flow goes NOTE: This is a Continuous below 0.8 GPM, THEN RETURN TO Action. The CRS will make Step 10. both board operators aware.

CRS

GO TO Step 17.

BOP (Step 17) Check for number two seal failure without a number one seal failure as follows:

Number one seal leakoff - LESS THAN NOTE: #1 Seal Leak off Flow NORMAL OR GOING DOWN. is higher than Normal.

CRS (Step 17 RNO) GO TO Step 18.

CRS (Step 18) Check for number three seal failure as follows:

High number three seal leakoff as indicated by frequent filling of seal standpipe with standpipe drains closed.

Assume number three seal failure.

Monitor NC Pump parameters.

Continue NC Pump operations.

Repair seal as soon as practical.

CRS (Step 19) Announce occurrence on paging NOTE: CRS may ask U2 RO system. to make Plant Announcement.

If so, Floor Instructor acknowledge as U2 RO.

BOP (Step 20) Check NC Pumps - ANY NOTE: All NCPs are running.

RUNNING.

BOP (Step 21) Check the following NC Pump temperatures - STABLE OR GOING DOWN:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 5 Page 32 of 65 Event

Description:

1 Seal Leak on 1B NCP Time Pos. Expected Actions/Behavior Comments

All NC Pump lower radial bearing temperatures

All NC Pump number one seal outlet temperatures.

CRS (Step 22) Have another SRO evaluate if NOTE: The CRS may ask the leakage exceeds SLC 16.9.7 Condition C OSM to evaluate SLC 16.9.7.

limit and immediately notify security if SSF is If so, Floor Instructor, inoperable.

indicate that another SRO is NOT available.

SELECTED LICENSEE COMMITMENT 16.9.7, STANDBY SHUTDOWN SYSTEM CRS COMMITMENT The Standby Shutdown System (SSS) shall be operable.

CRS APPLICABILITY: MODES 1, 2, and 3.

CRS REMEDIAL ACTIONS The SRO should ensure that security is NOTE: The CRS may call notified 10 minutes prior to declaring the SSS WCC/Security to implement inoperable. Immediately upon discovery of compensatory measures the SSS inoperability, Security must be within 10 minutes of discovery.

notified to implement compensatory If so, Booth Instructor measures within 10 minutes of discovery. acknowledge as WCC/Security.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 5 Page 33 of 65 Event

Description:

1 Seal Leak on 1B NCP Time Pos. Expected Actions/Behavior Comments CRS CONDITION REQUIRED COMPLETION Examiner NOTE: Because of ACTION TIME the transitory nature of the C. Total C.1 Declare the Immediately plant, the evaluation of this Unidentified Standby SLC may be delayed until after LEAKAGE, Makeup Identified Pump the exam.

LEAKAGE, inoperable.

and reactor AND coolant pump The CRS will identify that seal leakoff > C.2 Enter Actions C.1 and C.2 must be 20 gpm. Condition A.

taken immediately; and that OR C.2 requires Actions A.1 and Total reactor A.2.

coolant pump seal leakoff

> 16.3 gpm.

OR Any reactor coolant pump No. 1 seal leakoff > 4.0 gpm.

A. One or more A.1 Verify the 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months required SSS FUNCTINALITY components of fire identified in detection and Table 16.9.7- suppression

1. systems in the associated areas identified in Table 16.9.7-1 AND A.2 Restore the component to 7 days FUNCTIONAL status.

At the discretion of the Lead Examiner, move to Event #6.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 6 Page 34 of 65 Event

Description:

Inadvertent Turbine Trip Shortly afterwards, the Main Turbine will inadvertently trip. The operator will respond in accordance with AP/1/A/5500/02, Turbine Generator Trip. The RO will need to operate the control rods manually.

Booth Operator Instructions: MAL-DEH001 Indications Available:

Turbine Trip Valves closed

Turbine Governor Valves closed

Rx does NOT trip (Rx Trip Breakers closed)

Steam Dump Valves open Time Pos. Expected Actions/Behavior Comments NOTE: The CRS will enter AP-02.

AP/1/A/500/02, TURBINE GENERATOR TRIP RO (Step 1) Check Turbine Trip:

All throttle valves - CLOSED.

RO (Step 2) Check P/R meters - LESS THAN NOTE: PR indication is >

20%. 20%.

RO (Step 2 RNO) Perform the following:

Ensure control rods moving in to reduce NOTE: The rods must be T-Avg. moved in MANUAL.

Designate an operator to continuously NOTE: The CRS will monitor reactor power. designate the RO.

WHEN reactor power is less than 20%, NOTE: This is a Continuous THEN perform the following: Action. The CRS will make both board operators aware.

Place control rods in manual.

Perform Step 3 to stabilize reactor NOTE: The RO will stabilize power. reactor power at about 12-15%.

CRS

GO TO Step 4.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 6 Page 35 of 65 Event

Description:

Inadvertent Turbine Trip Time Pos. Expected Actions/Behavior Comments RO (Step 4) IF AT ANY TIME reactor power NOTE: This is a Continuous goes below 5%, THEN perform the following: Action. The CRS will make both board operators aware.

RO

Do not pull control rods.

Insert control rods as necessary to maintain negative SUR on I/R startup rate meters.

RO (Step 5) Check C-9 COND AVAILABLE FOR STEAM DUMP status light (1SI-18) -

LIT.

BOP (Step 6) Check any CF pump - IN SERVICE. NOTE: The 1A CF Pump is in service.

RO (Step 7) Check both generator breakers -

OPEN.

RO (Step 8) Check EXCITATION - OFF.

RO (Step 9) IF AT ANY TIME T-Avg is less than NOTE: This is a Continuous 551°F AND going down, THEN perform the Action. The CRS will make following: both board operators aware.

Trip reactor.

GO TO EP/1/A/5000/E-0 (Reactor Trip or Safety Injection).

RO (Step 10) Check all control rods - ALIGNED WITH ASSOCIATED BANK.

RO (Step 11) Check MSR RESET light - LIT.

CRS (Step 12) Announce the following: Unit 1 NOTE: CRS may ask U2 RO Turbine trip, non-essential personnel stay out to make Plant Announcement.

of Unit 1 turbine bldg. If so, Floor Instructor acknowledge as U2 RO.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 6 Page 36 of 65 Event

Description:

Inadvertent Turbine Trip Time Pos. Expected Actions/Behavior Comments RO (Step 13) Check UNBLOCK light for AMSAC ACTUATION BLOCK/UNBLOCK switch (1MC-2) - DARK.

RO (Step 14) Check condenser dump valves -

MODULATING OPEN.

BOP (Step 15) Check Pzr pressure control response:

Ensure Pzr heaters are in auto.

Ensure Pzr spray control valves are in auto.

Check Pzr PORVs - CLOSED.

Check Pzr spray control valves -

CLOSED.

BOP (Step 16) Check Pzr level -TRENDING TO PROGRAM.

RO (Step 17) Ensure Bearing Lift pump in AUTO.

RO (Step 18) WHEN bearing oil pressure goes down to 11-12 PSIG, THEN ensure AC Bearing Oil pump starts.

RO (Step 3) Stabilize reactor power as follows: NOTE: This Continuous Action will be taken by the RO when power level is less than 20%.

Place control rods in manual.

Check P/R meters GREATER THAN 5%.

Stabilize reactor power, as indicated on P/R meters, between 12%15% with control rods in manual.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 6 Page 37 of 65 Event

Description:

Inadvertent Turbine Trip Time Pos. Expected Actions/Behavior Comments

WHEN reactor power is stabilized between 12%15%, THEN maintain I/R startup rate at "0" to ensure a constant power level.

At the discretion of the Lead Examiner move to Events #7-9.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 38 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START While the crew is in AP-2, the 1B Hi Vibration alarm will occur and the #1 seal leak flow on the 1B NCP will rise to 6 gpm. The operator go back to Step 8 of AP-8 (Continuous Action Step), and close the 1B NCP Pzr Spray Valve, manually trip the reactor and stop the 1B NCP when reactor power is < 5%. The crew will perform Enclosure 2, NC Pump Post Trip Actions For #1 Seal Failure, of AP8, while subsequently performing E-0. The operator will enter EP/1/A/5000/E-0, Reactor Trip or Safety Injection, and verify reactor trip. On the reactor trip four control rods will fail to fully insert. The operator will transition to EP/1/A/5000/ES-0.1, Reactor Trip Response, and emergency borate per AP/1/A/5500/38, Emergency Boration And Response To Inadvertent Dilution.

Immediately following the initiation of Emergency Boration, a loss of the Unit 1 Switchyard will occur, and the 1B Emergency Diesel Generator will fail to start. The operator will immediately transition to EP/1/A/5000/ECA-0.0, Loss of All AC Power.

The operator will restore power to 1ETA per Unit 2 6900V busses through SATA or SATB per Enclosure 14 Energizing Unit 1 4160V Bus From Unit 2 - SATA or SATB.

The scenario will terminate when one ESF Bus has been re-energized.

Booth Operator Instructions: insertMAL-NCP008B = 15, Ramp = 120 seconds (1B NCP #1 Seal Failure) insertMAL-NCP016C = 16 Ramp = 120 seconds (1B NCP Hi Vibration) insertMAL-NCP015C = 11 Ramp = 120 seconds (1B NCP Hi Vibration)

Indications Available:

MCB Annunciator 1AD6/E-11, NC PUMP HI VIBRATION

1B NC Pump #1 Seal leakoff flow is rising on the OAC to 6 gpm.

Time Pos. Expected Actions/Behavior Comments NOTE: The CRS will go back and implement Step 8 of AP-8.

AP/1/A/5500/08, MALFUNCTION OF NC PUMP CASE I, NC PUMP SEAL OR PUMP LOWER BEARING MALFUNCTION CRS (Step 8) Stop affected NC pump as follows:

IF A or B NC pump is the affected pump, Then CLOSE associated spray valve:

BOP

1NC-29C (B NC Loop PZR Spray Control).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 39 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments CRS

Have any available RO perform NOTE: The CRS may direct Enclosure 2 (NC Post Trip Actions for #1 the Unit 2 BOP to perform Seaal Failure as crew performs the this action.

following steps: If so, Floor Instructor:

report that the U2 BOP (or any other RO) is NOT available.

Check unit status - IN MODE 1 OR 2.

RO

Trip reactor BOP

WHEN reactor power less than 5%,

THEN stop affected NC pump.

Critical Task:

Trip the Reactor prior to stopping the NCP during a high vibration condition, and trip the NCP only after Reactor power level has dropped to less than 5%.

Safety Significance: The P-8 interlock allows one NCP to be stopped less than 48%

power. If a NCP is stopped in Mode 1 or 2, Tech Spec 3.4.4 requires the unit to be in Mode 3 within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . In addition, T-ave for the idle loop may violate Tech Spec 3.4.2, minimum temperature for criticality. In this case, the unit must be sub-critical within 30 minutes. The transient placed on the unit when a NCP is secured at power can challenge both reactor protection and control systems. Furthermore, an added burden is placed on the operator to stabilize the unit and shut down within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months (possibly 30 minutes) to comply with Tech Specs. Even though the plant is designed and analyzed to operate in this configuration for a short time, station management has decided that the conservative approach to dealing with this transient is to trip the reactor anytime a NCP malfunction warrants stopping a pump in Mode 1 or 2. Guidance is given to wait until reactor power is less than 5% before stopping the NC pump. This will ensure the NC pump will provide adequate flow/core cooling until reactor power is sufficiently low enough to preclude a challenge to fuel integrity. If the action can be taken, and is not taken, this demonstrates mis-operation or incorrect operation that could unnecessarily challenge a fission product barrier (NCS).

NOTE: The CRS will direct the BOP to perform Enclosure 2, and continue in AP-8 with the RO.

If so, BOP Examiner follow actions of Enclosure 2.

Other Examiners follow AP-8 Actions on Page 41.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 40 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments AP/1/A/5500/08, MALFUNCTION OF NC PUMP ENCLOSURE 2, NC PUMP POST TRIP ACTIONS FOR #1 SEAL FAILURE Examiner NOTE: Follow the actions associated with Enclosure 2 if BOP is assigned by CRS to perform.

BOP (Step 1) Record time of NC pump shutdown.

BOP (Step 2) Check if seal cooling available to affected pump:

Seal injection established (Normal or SSF Supply)

KC to Thermal Barrier established.

BOP (Step 3) Check if any NC Pump number 1 seal leakoff flow - GREATER THAN OR EQUAL TO 6 GPM.

BOP (Step 4) Maintain seal injection flow greater than 9 GPM to affected pump(s).

BOP (Step 5) WHEN affected NC pump has been off 3 minutes, THEN immediately perform the following:

CLOSE affected NC pump seal return valve:

1NV-50B (B NC Pump Seal Return NOTE: The BOP will close Isol) this valve approximately three minutes after stopping the 1B NC Pump.

OPEN all of the following valves:

OPEN 1KC-394A (A NC Pump Therm Bar Otlt)

OPEN 1KC-345A (C NC Pump Therm Bar Otlt)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 41 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

OPEN 1KC-364B (B NC Pump Therm Bar Otlt)

OPEN 1KC-413B (D NC Pump Therm Bar Otlt)

AP/1/A/5500/08, MALFUNCTION OF NC PUMP CASE I, NC PUMP SEAL OR PUMP LOWER BEARING MALFUNCTION Examiner NOTE:

Examiners following the CRS/RO continue HERE.

CRS

Continue with this AP as time allows.

CRS

GO TO EP/1/A/5000/E-0 (Reactor Trip or Safety Injection).

EP/1/A/5000/E-0, REACTOR TRIP OR SAFETY INJECTION RO/ (Step 1) Monitor Foldout page. NOTE: Crew will carry out BOP Immediate Actions of E-0, prior to the CRS addressing the EP.

RO (Step 2) Check Reactor Trip: Immediate Action

All rod bottom lights - LIT NOTE: There will be four rods that failed to fully insert on the Rx Trip.

Reactor trip and bypass breakers -

OPEN

I/R amps - GOING DOWN.

RO (Step 2 RNO) Perform the following:

Trip reactor.

IF reactor will not trip NOTE: The reactor will trip manually.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 42 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments RO (Step 3) Check Turbine Trip: Immediate Action

All throttle valves - CLOSED.

BOP (Step 4) Check 1ETA and 1ETB - Immediate Action ENERGIZED.

RO/ (Step 5) Check if S/I is actuated: Immediate Action BOP

SAFETY INJECTION ACTUATED NOTE: SI will NOT be status light (1SI-18) - LIT. actuated.

Both LOCA Sequencer Actuated status lights (1SI-14) - LIT.

RO/ (Step 5 RNO) Perform the following: Immediate Action BOP Check if S/I is required:

Pzr pressure less than 1845 PSIG OR

Containment pressure greater than 1 PSIG.

IF S/I is required,.. NOTE: SI will NOT be required.

RO/ IF S/I is not required, THEN perform the BOP following:

Implement EP/1/A/5000/F-0 (Critical Safety Function Status Trees).

CRS GO TO EP/1/A/5000/ES-0.1 (Reactor Trip Response).

NOTE: The CRS will transition to ES-0.1.

EP/1/A/5000/ES-0.1, REACTOR TRIP RESPONSE

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 43 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments RO/ (Step 1) Monitor Foldout page.

BOP S/I Actuation Criteria CA Suction Sources BOP (Step 2) Check the following:

VI pressure - GREATER THAN 85 PSIG.

Any Unit 1 6900V bus - ENERGIZED.

CRS (Step 3) Announce: "Unit 1 Reactor trip, non- NOTE: The CRS may ask essential personnel stay out of Unit 1 turbine U2 RO to make Plant bldg". Announcement.

If so, Floor Instructor acknowledge as U2 RO.

RO (Step 4) Check any NC Pump ON. NOTE: The 1A, 1C and 1D NCPs will be ON.

RO (Step 5) Check NC temperatures as follows:

IF any NC Pump on, THEN check NC T Avg STABLE OR TRENDING TO 557°F.

RO (Step 6) Continue to monitor NC temperature as follows:

Check any NC Pump ON. NOTE: The 1A, 1C and 1D NCPs will be ON.

IF AT ANY TIME while in this procedure either of the following occurs, THEN perform Step 5:

NC TAvg is less than 557°F and going down OR

NC TAvg is greater than 557°F and going up.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 44 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments CRS (Step 7) REFER TO the following: NOTE: The CRS may ask OSM to address.

If so, Floor Instructor acknowledge as OSM.

RP/0/A/5700/000 (Classification of Emergency)

RP/0/A/5700/010 (NRC Immediate Notification Requirements).

RO (Step 8) Check Main Generator as follows:

Check both generator breakers OPEN.

Check "EXCITATION" OFF.

RO (Step 9) Check MSR "RESET" light LIT.

RO (Step 10) Check NC TAvg GREATER THAN 553°F.

RO (Step 11) Check feedwater status:

Check any CA Pump ON.

Check total feed flow to S/Gs GREATER THAN 450 GPM.

CRS (Step 12) WHEN time and manpower allow, NOTE: The CRS may THEN dispatch operator to perform dispatch an AO to look for Enclosure 5 (MSR Second Stage Drain Tank leaks.

Isolation).

If so, Floor Instructor:

acknowledge.

RO (Step 13) Check if shutdown margin adequate:

All control rods FULLY INSERTED. NOTE: There will be four rods that failed to fully insert on the Rx Trip.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 45 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments BOP (Step 13 RNO) Perform the following:

IF all rod position indication is lost, OR greater than 5 rods not fully inserted, THEN..

IF 2 to 5 rods not fully inserted, THEN NOTE: The BOP will borate emergency borate 2300 gallons of 7000 9200 gallons of Boric Acid PPM boron solution for each rod not fully per AP/1/A/5500/38, while inserted PER AP/1/A/5500/38 the crew continues with ES-(Emergency Boration And Response To 0.1.

Inadvertent Dilution).

NOTE: The CRS may assign the BOP to perform this action.

If so, BOP Examiner follow actions of Enclosure AP38.

Other Examiners follow ES-0.1 Actions, Step 13.b, on Page 48.

AP/1/A/5500/38, EMERGNCY BORATION AND RESPONSE TO INADVERTENT DILUTION Examiner NOTE: Follow the actions associated with AP38 if BOP is assigned by CRS to perform.

BOP (Step 1) Check if boron dilution -

SUSPECTED.

BOP (Step 1 RNO) Perform the following:

IF unit in Mode 1 or 2, THEN..

GO TO Step 12.

BOP (Step 12) Initiate emergency boration as follows:

Check 1A or 1B NV pump - AVAILABLE.

Check any NV pump - ON.

Check the following boric acid system components - AVAILABLE.

Boric Acid Storage Tank

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 46 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments BOP

Boric Acid Transfer pump.

OPEN 1NV-265B (U1 NV Pump Boric Acid Sup Isol).

Ensure a boric acid transfer pump is running.

Check boration flow using one of the following methods:

IF 1NV-265B is open, THEN check "EMERGENCY BORATION FLOW" -

ESTABLISHED.

OR

IF 1NV-269 is open, THEN..

BOP (Step 13) IF AT ANY TIME boration no longer required, THEN GO TO Step 20.

BOP (Step 14) IF AT ANY TIME a higher boration flowrate is desired, THEN evaluate performing the following as required:

Start a second boric acid transfer pump.

Align NV pump suction to FWST as follows:

OPEN the following valves:

1NV-221A (U1 NV Pump Suct From FWST Isol)

1NV-222B (U1 NV Pump Suct From FWST Isol).

CLOSE the following valves:

1NV-141A (U1 VCT Outlet Isol)

1NV-142B (U1 VCT Outlet Isol).

BOP (Step 15) Align Normal Charging flowpath as follows:

Ensure one of the following NC loop isolation valves is OPEN:

1NV-13B (U1 NV Supply To 1A NC Loop Isol)

OR

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 47 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

1NV-16A (U1 NV Supply To 1D NC Loop Isol).

Check both of the following valves -

OPEN:

1NV-244A (U1 Charging Hdr Cont Outside Isol)

1NV-245B (U1 Charging Hdr Cont Outside Isol).

BOP (Step 16) Establish desired charging flowrate to the NC System as follows:

THROTTLE OPEN 1NV-238 (U1 Charging Hdr Control) and 1NV-241 (U1 Seal Water Inj Flow Control) to establish desired charging flow, not to exceed 200 GPM.

IF required to compensate for higher charging flowrate, THEN raise letdown to a maximum of 120 GPM.

BOP (Step 17) Check if boric acid flow to NC System is adequate:

Reactor power - STABLE OR GOING DOWN

NC temperature - STABLE OR GOING DOWN

Control Rods - STABLE OR STEPPING OUT.

BOP (Step 18) Check NV pump suction -

ALIGNED TO VCT.

BOP (Step 19) IF AT ANY TIME VCT level approaches water solid, THEN evaluate performing the following:

Raise charging flow.

Raise letdown flow as required to compensate for higher charging flow.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 48 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

Ensure 1NV-137A (U1 NC Filter Otlt To VCT 3-Way Diversion Cntrl) diverts to the RHT as required.

BOP (Step 20) WHEN emergency boration no longer required, THEN EP/1/A/5000/ES-0.1, REACTOR TRIP RESPONSE Examiner NOTE:

Examiners following the CRS/RO continue HERE.

RO (Step 13.b-d) Stop any dilutions in progress.

Check all NC TColds GREATER THAN 538°F.

IF AT ANY TIME any NC TCold goes NOTE: This is a Continuous below 538°F, THEN perform Step 13.c. Action. The CRS will make the RO aware.

RO (Step 14) Check Pzr level control:

Check VI pressure GREATER THAN 60 PSIG.

Pzr level GREATER THAN 17%.

Check charging and letdown IN SERVICE.

Check Pzr level trending to program "PZR LEVEL SETPOINT".

RO (Step 15) Check Pzr pressure GREATER THAN 1845 PSIG.

RO (Step 16) Check NC loop flow instruments on 1MC5 ALL LOOPS INDICATING GREATER THAN 90% FLOW.

RO (Step 17) Check Pzr pressure STABLE AT OR TRENDING TO 2235 PSIG.

RO (Step 18) Control S/G levels as follows:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 49 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

Check N/R level in any S/G GREATER THAN 11%.

THROTTLE feed flow to maintain S/G N/R levels between 11% and 50%.

Booth Operator Instructions: Insert MAL-EP002 AND EP002B = TRIP Insert MAL-DG001B = TRUE Indications Available:

Control Room lights dim.

1B EDG does NOT start as required.

NOTE: The CRS will transition to ECA-0.0.

EP/1/A/5000/ECA-0.0, LOSS OF ALL AC POWER NOTE: Crew will carry out Immediate Actions of ECA-0.0, prior to the CRS addressing the EP.

CRS (Step 1) CSF Status trees should be monitored for information only. EPs referenced by them should not be implemented.

RO (Step 2) Check Reactor Trip: IMMEDIATE ACTION

All rod bottom lights - LIT NOTE: DRPI is NOT available on the LOOP.

Reactor trip and bypass breakers -

OPEN

I/R amps - GOING DOWN.

RO (Step 3) Check Turbine Trip: IMMEDIATE ACTION

All throttle valves - CLOSED.

CRS (Step 4) Establish NC pump seal injection from the SSF as follows:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 50 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments CRS

Immediately dispatch operator to SSF to NOTE: The CRS will perform the following: dispatch an AO to complete Enclosure 2.

Booth Instructor acknowledge as appropriate, after ten minutes insert ECA-0.0 (Enclosure 2 SSF Actions) and report that Enclosure 2 is complete.

Obtain Brown Folder at SSF and complete Enclosure 2 (Unit 1 SSF - ECA-0.0 Actions).

CRS

Dispatch operator to 1ETA room as follows:

Check if operator will enter aux bldg

- FROM MG SET ROOM.

Give operator dosimeter from Unit 2 SRO desk.

CRS

Dispatch operator to perform NOTE: The CRS will Enclosure 3 (Unit 1 ETA And ETB dispatch an AO to complete Rooms - ECA-0.0 Actions). Enclosure 3.

If so, Booth Instructor acknowledge as appropriate.

Booth Instructor: wait 2 minutes, then insert ECA-0.0 ENCLOSURE 3, then report that Enclosure 3 is complete.

CRS

Use any of the following to notify security NOTE: The CRS will to immediately dispatch officer with key dispatch a Security Officer to SSF to ensure operator can access to the SSF.

SSF: Booth Instructor:

Acknowledge as Security.

Security ringdown phone (located on Unit 2 SRO desk)

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 51 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

2688

4900. Floor Instructor: If asked, U2 does NOT have normal power, and both DGs are running.

RO/ (Step 5) Monitor Foldout Page BOP Alternate Low Pressure Feedwater (applies after Step 8 in body of the procedure)

Loss of Vital Instrumentation or Control Power Low Decay Heat Temperature Control CA Suction Sources (applies after Step 11 in body of the procedure)

BOP (Step 6) Check NC System - ISOLATED:

BOP

Check the following letdown orifice isolation valves - CLOSED.

1NV-458A (U1 75 GPM L/D Orifice Outlet Cont Isol).

1NV-457A (U1 45 GPM L/D Orifice Outlet Cont Isol).

1NV-35A (U1 Variable L/D Orifice Outlet Cont Isol).

BOP

CLOSE the following valves:

1NV-1A (U1 NC L/D Isol To Regenerative Hx)

1NV-2A (U1 NC L/D Isol To Regenerative Hx).

BOP

Check Pzr PORVs - CLOSED.

BOP

Check the following excess letdown isolation valves - CLOSED:

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 52 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

1NV-24B (1C NC Loop To Excess L/D Hx Isol)

1NV-25B (1C NC Loop To Excess L/D Hx Isol).

BOP

Check 1NV-121 (U1 ND Letdown Control) - CLOSED.

RO (Step 7) Check total CA flow - GREATER THAN 450 GPM.

BOP (Step 8) Try to restore power to 1ETA or 1ETB as follows:

Place both trains D/G mode select switches to control room.

Perform the following for any D/G(s) that are off:

Depress, then release, RESET on sequencer.

Start D/G.

Check both D/Gs - RUNNING.

BOP (Step 8.c RNO) Perform the following:

Initiate S/I

Notify Unit 2 to immediately ensure flow NOTE: The CRS will notify path for 2B RN pump PER Enclosure 5 U2.

(Unit 2 Actions). Floor Instructor:

Acknowledge as U2 RO.

CRS

IF at least one D/G starts, THEN NOTE: The 1A D/G is OOS, and the 1B D/G will NOT start.

CRS

GO TO Step 9

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 53 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments CRS (Step 9) Ensure the following have been NOTE: The CRS may ask implemented: OSM to address.

If so, Floor Instructor acknowledge as OSM.

RP/0/A/5700/000 (Classification of Emergency)

RP/0/A/5700/010 (NRC Immediate Notification Requirements).

RO/ (Step 10) Control intact S/G levels as follows:

BOP

Check N/R level in any intact S/G -

GREATER THAN 11% (32% ACC).

THROTTLE CA control valves to maintain all intact S/G N/R levels between 11% (32% ACC) and 50%.

IF AT ANY TIME CA flow control is lost, NOTE: This is a Continuous THEN perform RNO for Step 10.b Action. The CRS will make both board operators aware.

CRS (Step 11) Monitor CA Storage Tank (water tower) level and ensure CA suction source as follows:

Check if external event that has the potential to damage CA Storage Tank (water tower) (such as seismic or tornado) HAS OCCURRED.

CRS (Step 11.a RNO) Observe Note prior to Step 11.c and GO TO Step 11.c.

BOP (Step 11.c-e) Monitor CA Storage Tank (water tower) level using available Control Room indication.

IF AT ANY TIME CA Storage Tank (water NOTE: This is a Continuous tower) level indication is lost (invalid Action. The CRS will make reading), THEN dispatch operator to both board operators aware.

locally monitor level PER EP/1/A/5000/G 1 (Generic Enclosures), Enclosure 31 (Local CA Storage Tank (Water Tower)

Level Monitoring).

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 54 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

Ensure CA Suction Sources is monitored on Foldout Page.

CRS (Step 12) Have Unit 2 perform Enclosure 5 NOTE: The CRS will ask (Unit 2 Actions). U2 to address.

If so, Floor Instructor acknowledge as U2 BOP.

RO (Step 13) Check unit status IN MODE 3.

RO/ (Step 14) Stabilize S/G pressures using SM NOTE: Only the 1B and 1C BOP PORVs as follows: SG PORVs are available.

Reset Main Steam Isolation.

Reset SM PORVs.

Close all SM PORV manual loaders.

Place SM PORVs in manual.

Control S/G pressure between 1000 and 1100 PSIG using SM PORVs.

BOP (Step 15) Ensure VC/YC cooling available as follows:

Check VC/YC alignment using Unit 1 status board AT LEAST ONE OPERABLE VC/YC TRAIN ALIGNED TO AN ENERGIZED UNIT 2 4160V BUS.

Notify an available operator to initiate NOTE: The CRS will EP/1/A/5000/G1 (Generic Enclosures), dispatch an AO.

Enclosure 13 (VC and VA System If so, Floor Instructor Operation) within 30 minutes of loss of acknowledge.

power.

Booth Instructor: as AO, acknowledge CRS (Step 16) IF event has occurred that could NOTE: No such event has have caused damage to mechanical systems occurred.

internal to plant (seismic, tornado, etc),

THEN.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 55 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments RO/ (Step 17) Check if S/I is actuated as follows: NOTE: SI was actuated in BOP an attempt to start the 1B D/G.

"SAFETY INJECTION ACTUATED" status light (1SI18) LIT.

Reset S/I.

CRS (Step 18) Dispatch operator to open the NOTE: The CRS will following breakers to sequencer DC control dispatch an AO.

power:

Booth Instructor acknowledge as appropriate, after three minutes insert MAL-EQB002A and EQB002B =

FAILURE and report that the Sequencer DC Control Breakers have been opened.

A Train 1EVDA Breaker 6

B Train 1EVDD Breaker 8.

CRS (Step 19) IF AT ANY TIME operator NOTE: This is a Continuous dispatched to perform Enclosure 3 (Unit 1 Action. The CRS will make ETA And ETB Rooms ECA0.0 Actions) both board operators aware.

determines that lockout exists, THEN perform the following:

Have IAE clear or isolate fault from bus.

WHEN fault cleared or isolated from bus, THEN reset lockout.

CRS (Step 20) Restore power to 1ETA or 1ETB using any of the following while continuing with this procedure:

Local reset and start of D/G PER Enclosure 12 (Energizing Unit 1 4160V Bus With D/G)

OR

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 56 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

Unit 1 offsite power PER Enclosure 13 (Energizing Unit 1 4160V Bus From Unit 1)

OR

Unit 2 6900V busses through SATA or NOTE: This is the only SATB PER Enclosure 14 (Energizing Unit option for re-powering either 1 4160V Bus From Unit 2 SATA or 1ETA or 1ETB.

SATB).

The CRS will address Enclosure 14.

EP/1/A/5000/ECA-0.0, LOSS OF ALL AC POWER ENCLOSURE 14, ENERGIZING UNIT 1 4160V BUS FROM UNIT 2 - SATA OR SATB CRS (Step 1) Perform one of the following:

IF 1ETA is to be energized from Unit 2, Examiner NOTE: If the THEN observe Note prior to Step 22 and CRS elects to re-energize GO TO Step 22. 1ETA, proceed to Step 22 on Page 60.

OR

IF 1ETB is to be energized from Unit 2, Examiner NOTE: If the THEN observe Note prior to Step 2 and CRS elects to re-energize GO TO Step 2. 1ETB, proceed to Step 2 BELOW.

BOP (Step 2) Ensure SATB is not supplying Unit 2 NOTE: The CRS/BOP will 2ETB. ask U2 to address.

If so, Floor Instructor acknowledge as U2 BOP, and report that Unit 2 SATB Feeder Breaker is not supplying Unit 2 2ETB.

BOP (Step 3) Check the following 4160V breakers OPEN.

1ETB Normal Breaker

1ETB Standby Breaker

1ETB Emergency Breaker.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 57 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments CRS (Step 4) Have Unit 2 RO check Unit 2 SATB NOTE: The CRS will ask Feeder Breaker CLOSED. U2 to address.

If so, Floor Instructor acknowledge as U2 BOP, and report that Unit 2 SATB Feeder Breaker is CLOSED.

CRS (Step 5) GO TO Step 8.

CRS (Step 8) Dispatch operator to 1ETB room to NOTE: The CRS will perform the following: dispatch an AO.

Booth Instructor acknowledge as appropriate, after three minutes insert ECA-0.0 (Enclosure 14) and report that 1ETB-1 has been racked out, and 1ETB-2 has been racked in.

Obtain a copy of OP/0/A/6350/008 (Operation of Station Breakers),

Enclosure 4.2 (Operation of 4.16KV Essential Switchgear Breakers) to bring to 1ETB room.

Check 1ETB1 (Incoming Breaker Fed From Norm Transf. No. 1ATD)

RACKED IN.

Rack out 1ETB1 PER OP obtained in Step 8.a.

Remove kirkkey from 1ETB1 as follows:

Push plunger (located below kirk key) toward back of cubicle and hold.

Rotate kirkkey to extend bolt.

Remove kirkkey.

Release plunger.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 58 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

Insert kirkkey (removed from 1ETB1) into 1ETB2 (Incoming Breaker Fed From Stby. Transf. No. SATB), making sure number on key matches number on lock.

Check kirkkeys in 1ETB2 TWO INSERTED.

Operate kirkkey device inside 1ETB2 as follows:

Push plunger (located below kirk keys) toward back of cubicle and hold.

Rotate both kirkkeys to retract bolt.

Release plunger and allow it to move outward.

Pull plunger outward as necessary to ensure fully extended.

Rack in 1ETB2 breaker PER OP obtained in step 8.a.

CRS (Step 9) Do not continue until the following is performed:

Ensure Steps 2 through 8 are completed.

Ensure operators are away from breakers.

CRS (Step 10) Have Unit 2 RO check Unit 2 SATB NOTE: The CRS will ask Feeder Breaker CLOSED. U2 to address.

If so, Floor Instructor acknowledge as U2 BOP, and report that Unit 2 SATB Feeder Breaker is CLOSED.

BOP (Step 11) Check if S/I is actuated as follows:

"SAFETY INJECTION ACTUATED" NOTE: SI was previously status light (1SI18) LIT. reset.

CRS (Step 11.a RNO) GO TO Step 12.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 59 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments CRS (Step 12) Check "SEQ B LOSS OF CONTROL PWR" alarm (1AD11, E2)

LIT.

BOP (Step 13) Open 1B CA pump breaker.

BOP (Step 13 RNO) Open breaker by depressing 1B CA pump "START" and "STOP" at same time.

RO/ (Step 14) Open the remaining pump BOP breakers:

1B NV pump

1B ND pump

1B NI pump

1B1 KC pump

1B2 KC pump

1B RN pump

1B KF pump

1B NS pump BOP (Step 15) Open the following 600 V essential load center feeder breakers:

1ELXB

1ELXD

1ELXF BOP (Step 16) Check 1B D/G Mode Select switch IN CONTROL ROOM POSITION.

BOP (Step 17) Close 1ETB Standby Breaker.

BOP (Step 18) Place 1B D/G Mode Select switch to "AUTO" position.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 60 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments BOP (Step 19) Check 1ETB bus ENERGIZED.

BOP (Step 20) Notify Control Room Supervisor to GO TO Step 47 in body of this procedure.

Critical Task:

Energize at least one AC Emergency Bus From Unit 2.

Safety Significance: Failure to energize an AC Emergency Bus when able to do so constitutes mis-operation or incorrect performance which leads to degraded emergency power capacity. Failure to perform the Critical Task may result in a needless challenge and/or degradation of a fission product barrier at the point of the remaining intact RCP Seals, and will result in the inability to add inventory through the ECCS during the existing and potentially subsequent small break LOCA(s). Since the conditions existed to re-energize an ESF Bus from Unit 2 via the SATA or SATB, not taking this action constitutes incorrect performance that leads to degradation of the RCS and/or fuel cladding fission product barriers.

Examiner NOTE: If 1ETB has been re-energized, Terminate the Exam.

Examiner NOTE: Follow the steps below if the crew has elected to re-energize 1ETA from SATA.

BOP (Step 22) Ensure SATA is not supplying Unit NOTE: The CRS/BOP will 2 2ETA. ask U2 to address.

If so, Floor Instructor acknowledge as U2 BOP, and report that Unit 2 SATA Feeder Breaker is not supplying Unit 2 2ETA.

BOP (Step 23) Check the following 4160V breakers OPEN.

1ETA Normal Breaker

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 61 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

1ETA Standby Breaker

1ETA Emergency Breaker.

CRS (Step 24) Have Unit 2 RO check Unit 2 SATA NOTE: The CRS will ask Feeder Breaker CLOSED. U2 to address.

If so, Floor Instructor acknowledge as U2 BOP, and report that Unit 2 SATA Feeder Breaker is CLOSED.

CRS (Step 25) GO TO Step 28.

CRS (Step 28) Dispatch operator to 1ETA room to NOTE: The CRS will perform the following: dispatch an AO.

Booth Instructor acknowledge as appropriate, after ten minutes insert ECA-0.0 (Enclosure 14) and report that 1ETA-1 has been racked out, and 1ETA-2 has been racked in.

Obtain a copy of OP/0/A/6350/008 (Operation of Station Breakers),

Enclosure 4.2 (Operation of 4.16KV Essential Switchgear Breakers) to bring to 1ETA room.

Check 1ETA1 (Incoming Breaker Fed From Norm Transf. No. 1ATC)

RACKED IN.

Rack out 1ETA1 PER OP obtained in Step 28.a.

Remove kirkkey from 1ETA1 as follows:

Push plunger (located below kirk key) toward back of cubicle and hold.

Rotate kirkkey to extend bolt.

Remove kirkkey.

Release plunger.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 62 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments

Insert kirkkey (removed from 1ETA1) into 1ETA2 (Incoming Breaker Fed From Stby. Transf. No. SATA), making sure number on key matches number on lock.

Check kirkkeys in 1ETA2 TWO INSERTED.

Operate kirkkey device inside 1ETA2 as follows:

Push plunger (located below kirk keys) toward back of cubicle and hold.

Rotate both kirkkeys to retract bolt.

Release plunger and allow it to move outward.

Pull plunger outward as necessary to ensure fully extended.

Rack in 1ETA2 breaker PER OP obtained in step 28.a.

CRS (Step 29) Do not continue until the following is performed:

Ensure Steps 22 through 28 are completed.

Ensure operators are away from breakers.

CRS (Step 30) Have Unit 2 RO check Unit 2 SATA NOTE: The CRS will ask Feeder Breaker CLOSED. U2 to address.

If so, Floor Instructor acknowledge as U2 BOP, and report that Unit 2 SATA Feeder Breaker is CLOSED.

BOP (Step 31) Check if S/I is actuated as follows:

"SAFETY INJECTION ACTUATED" NOTE: SI was previously status light (1SI18) LIT. reset.

CRS (Step 31.a RNO) GO TO Step 32.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 63 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments CRS (Step 32) Check "SEQ A LOSS OF CONTROL PWR" alarm (1AD11, B2)

LIT.

BOP (Step 33) Open 1A CA pump breaker.

BOP (Step 33 RNO) Open breaker by depressing 1A CA pump "START" and "STOP" at same time.

RO/ (Step 34) Open the remaining pump BOP breakers:

1A NV pump

1A ND pump

1A NI pump

1A1 KC pump

1A2 KC pump

1A RN pump

1A KF pump

1A NS pump BOP (Step 35) Open the following 600 V essential load center feeder breakers:

1ELXA

1ELXC

1ELXE BOP (Step 36) Check 1A D/G Mode Select switch IN CONTROL ROOM POSITION.

BOP (Step 37) Close 1ETA Standby Breaker.

BOP (Step 38) Place 1A D/G Mode Select switch to "AUTO" position.

Appendix D Operator Action Form ES-D-2 Op Test No.: N15-1 Scenario # 3 Event # 7, 8 & 9 Page 64 of 65 Event

Description:

1 Seal Leak on 1B NCP Degrades/4 Control Rods fail to Fully Insert on Rx Trip/Loss of Switchyard to Unit 1/1B EDG fails to START Time Pos. Expected Actions/Behavior Comments BOP (Step 39) Check 1ETA bus ENERGIZED.

BOP (Step 40) Notify Control Room Supervisor to GO TO Step 47 in body of this procedure.

Critical Task:

Energize at least one AC Emergency Bus From Unit 2.

Safety Significance: Failure to energize an AC Emergency Bus when able to do so constitutes mis-operation or incorrect performance which leads to degraded emergency power capacity. Failure to perform the Critical Task may result in a needless challenge and/or degradation of a fission product barrier at the point of the remaining intact RCP Seals, and will result in the inability to add inventory through the ECCS during the existing and potentially subsequent small break LOCA(s). Since the conditions existed to re-energize an ESF Bus from Unit 2 via the SATA or SATB, not taking this action constitutes incorrect performance that leads to degradation of the RCS and/or fuel cladding fission product barriers.

At the discretion of the Lead Examiner terminate the exam.

UNIT 1 STATUS:

Power Level: 40% NCS [B] 1900 ppm Pzr [B]: 1900 ppm Xe: Per OAC Power History: At this power level for 3 days Core Burnup: 25 EFPDs CONTROLLING PROCEDURE: OP/1/A/6100/003 Controlling Procedure for Unit Operation OTHER INFORMATION NEEDED TO ASSUME THE SHIFT:

The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

MCB Annunciator 1AD-1, E-1, GENERATOR AUXILIARY PANEL TROUBLE, is in alarm due to a GENERATOR HYDROGEN PRESSURE - LOW alarm at the local panel.

MCB Annunciator 1AD-1, F-9, DEH/MSR SYSTEM MALFUNCTION, is in alarm due to low power and transient conditions.

The following equipment is Out-Of-Service:

The 1A EDG is OOS for bearing replacement. ACTION has been taken in accordance with Technical Specification LCO 3.8.1 ACTION B.

The 1A S/G PORV is isolated and its actuator is currently removed for maintenance.

1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating).

MCB Annunciator 1AD-12, E-2, A RN PUMP ABNORMAL FLOW, has alarmed spuriously several times over the last hour (IAE is investigating).

MCB Annunciator 1AD-1, F-2, KG PANEL TROUBLE, is in alarm due to a failed local panel alarm relay.

Crew Directions:

The off-going BOP is performing a 60 gallon Alternate Dilute every 10 minutes to maintain current plant conditions.

The crew will raise power to 100% after taking the shift, starting from Step 3.35.19 of Enclosure 4.1 of OP/1/A/6100/003.

Raise power at 2MWe/minute.

The RE recommends that the BOP perform a 200 gallon Alternate Dilute to initiate the power increase.

Work Control SRO/Offsite Communicator Jim Plant SRO Joe (FB)

NLO's AVAILABLE Unit 1 Unit 2 Aux Bldg. John Aux Bldg. Chris Turb Bldg. Bob (FB) Turb Bldg. Mike (FB) 5th Rounds. Carol Extra(s) Bill (FB) Ed (FB) Wayne (FB) Tanya Gus (RW)

PROGRAM: McGuire Operations Training MODULE: Initial License Operator Training Class 31 TOPIC: NRC Simulator Exam Scenario N15-1-4

REFERENCES:

1. Technical Specification LCO 3.7.4, Steam Generator Power Operated Relief Valves (SG PORVs) (Amendment 221/203)

2. OP/1/A/6100/003, Controlling Procedure for Unit Operation (Rev 196)

3. AP/1/A/5500/21, Loss of KC or KC System Leakage (Rev 10)

4. Technical Specification 3.7.6, Component Cooling Water (CCW) System (Amendment 184/166)

5. OP/1/A/6100/010 C, Annunciator Response For Panel 1AD-2 (Rev 64)

6. Technical Specification 3.1.7, Rod Position Indication (Amendment 184/166)

7. OP/1/A/6100/010 Q, Annunciator Response For Panel 1RAD-1 (Rev 66)

8. AP/1/A/5500/10, NC System Leakage Within The Capacity Of Both NV Pumps (Rev 23)

9. OP/0/A/6450/011, Control Area Ventilation/Chilled Water System (Rev 98)

10. Technical Specification 3.4.13, RCS Operational Leakage (Amendment 237/219)

11. Selected Licensee Commitment 16.9.7, Standby Shutdown System (Rev 145)

12. AP/1/A/5500/14, Rod Control Malfunction (Rev 16)

13. EP/1/A/5000/E-0, Reactor Trip or Safety Injection (Rev 34)

14. EP/1/A/5000/ES-1.1, Safety Injection Termination (Rev 27)

Validation Time: 117 minutes Author: David Lazarony, Essential Training & Consulting, LLC Facility Review: ________________________

Rev. 040615 Scenario Event Description NRC Scenario 4 Facility: McGuire Scenario No.: 4 Op Test No.: N15-1 Examiners: Operators: (SRO)

(RO)

(BOP)

Initial Conditions: The plant is at 4% power (BOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Turnover: The following equipment is Out-Of-Service: The 1A Hotwell Pump is OOS for bearing replacement. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance. 1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-1, F-9, DEH/MSR SYSTEM MALFUNCTION, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating). The crew will raise power to 12-18% and stabilize reactor power, and making preparations to synch the Turbine to the Grid while maintenance is completed.

Event Malf. Event Type* Event No. No. Description 1 NA R-RO Raise Power from 4% to 12-18%

N-BOP N-SRO MAL 2 C-BOP 1A2 KC Pump trip KC010B C(TS)-SRO 3 MAL I-RO 1EMF-34 fails HIGH/Failure of SG Blowdown Flow Control Valve EMF-34L to Auto CLOSE LOA I-SRO BB019 MAL 4 I(TS)-SRO DRPI Failure EDA350 MAL 5 C-BOP Letdown Line Leak Outside Containment NV019B C(TS)-SRO MAL 6 C-RO Sequentially Dropped Rods IRE006B6 C-SRO IRE006P10 MAL 7 M-RO Inadvertent Train B SI Actuation ISE001B M-BOP M-SRO MAL 8 BOP 1B ND Pump fails to start in AUTO ND001B

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Scenario Event Description NRC Scenario 4 McGuire 2015 NRC Scenario #4 The plant is at 4% power (BOL). The area has experienced severe weather over the last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and this is expected to continue for the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

The following equipment is Out-Of-Service: The 1A Hotwell Pump is OOS for bearing replacement. The 1A S/G PORV is isolated and its actuator is currently removed for maintenance.

1KFP-5130, Spent Fuel Pool Temperature, failed last shift (IAE is investigating) and MCB Annunciator 1AD-1, F-9, DEH/MSR SYSTEM MALFUNCTION, has alarmed spuriously several times over the last hour, and has currently failed ON (IAE is investigating). The crew will raise power to 12-18% and stabilize reactor power, and making preparations to synch the Turbine to the Grid while maintenance is completed.