Vermont Yankee, Final - RO & SRO Written Examination with Answer Key (401-5 Format) (Folder 3)

ML090790243
Person / Time
Site:	Vermont Yankee
Issue date:	02/05/2009
From:	Entergy Nuclear Operations
To:	Operations Branch I
Hansell S
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ML082600332	List: IR 05000271/2009301 ML083090073 ML090360210 ML090420110 ML090420115 ML090420119 ML090420123 ML090760092 ML090790217 ML090790241 ML090790243 ML090790246 ML090960141 ML090960153
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TAC U01743
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1. # (K&A andlor LIQUID 100°/~ 84°F initiallv HI/LO LINE HIILO 6. Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 1 WA 21 1000, K1.03 Importance Rating 2.5 Statement)

Knowledge of the physical connections cause-effect relationships between STANDBY CONTROL SYSTEM and the following:

Plant air systems: Plant-Specific Proposed Question:

Common The plant is operating at power with the following Instrument air was inadvertently isolated to the Standby Liquid Control (SLC) system Reactor Building temperature is and steady No other evolutions are being performed on the SLC system Which of the following Control Room Annunciators alert the Control Room of this isolation?

9-5 A-1, SLC SQUIB VLV CON-PINUITY LOSS 9-5 A-3, SLC TANK LVL 9-5 A-4, SLC TANWSUCT TEMP A. 9-5-A-1 only B. 9-5-A-3 only C. 9-5-A-1 and 9-5-A-4 D. 9-5-A-3 and 9-5-A-4 Proposed Answer:

84" setpoint 75". <17% 849F setpoint 75". Reference(s):

P&ID Explanation (Optional):

B. Correct -The SLC Level instruments require instrument air for operation.

The level instrument fails low on a loss of Instrument Air. A. lncorrect

-There is no association between the instrument air system and the Squib Valves C. lncorrect

-There is no association between the instrument air system and the Squib Valves and although the low SLC tank level will trip the heater, But with Reactor Building temperatures at SLC tank temps will not reach the alarm of D. lncorrect

-At SLC tank indicated level the low SLC tank level will trip the heater. But with Reactor Building temperatures at SLC tank temps will not reach the alarm Technical ARS 21 003 (9-5) A-3, A-4 (Attach if not previously G-191171 provided) of Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

1. KIA (K&A 1 jn&~ Examination Outline Cross-reference: RO SRO Tier 2 1 Group 400000, K1.03 Importance Rating 2.7 Statement)

Knowledge of the physical connections and or cause-effect relationships between CCWS and the following:

Radiation monitoring systems Proposed Question:

Common 2 In accordance with ON-31 53, Excessive Radiation Levels, which one of the following indications would alert an operator of a possible leak the Reactor Building Closed Cooling Water (RBCCW) system? A rise in suction pressure to the RBCCW Pumps and a concurrently lowering of the Fuel Pool water level. Hi radiation alarm on the RBCCW Process Radiation Monitor and rising level in the RBCCW Surge Tank. A rise in the radiation levels in the vicinity of RBCCW system piping or components and high temperatures on the operating CRD Pump. Hi radiation alarm on the Service Water (SW) Process Radiation Monitor with concurrent indication of a RBCCW heat exchanger tube leak. Proposed Answer: B.

OP-2182, #1 Reference(s):

1. 1 Explanation (Optional):

B. Correct -Per ON-31 53, If the RBCCW radiation monitor indicates a high radiation level: Isolate the RCU system and check surge tank level indication to determine if the leak has been isolated, If the RBCCW surge tank level continues to increase, shift to the standby fuel pool cooling heat exchanger and continue to monitor surge tank level. A. There is no correlation between a lowering fuel pool level and rising RBCCW suction pressure.

C. Rising rad levels around RBCCW piping is a valid indication of a leak per P&L Be aware of normal radiation levels in the vicinity of the system. Any appreciable rise in these radiation levels can indicate a possible leak into the RBCCW system. RBCCW supplies bearing and oil coolers on the CRD Pump, therefore, high CRD pump temperatures could indicate a lower RBCCW flow and not a leak into the RBCCW system. D. A high radiation level in the SW system would indicate a leak into the SW system however by OP 2181 App B the SW system is maintained at a higher pressure than the RBCCW system, so leakage would be into the RBCCW system. Technical ON-31 53 (Attach if not previously 9 E-6 provided)

OP-2182, P&L Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

1. # K2.01 (K&A (DC-6A). - 3V4, R & DC-1AS. Reference(s):

Page 3 Learnirrg Examination Outline Cross-Level RO SRO Tier 2 Group 1 WA 263000, Importance Rating 3.1 Statement)

Knowledge of electrical power supplies to the following:

Major D.C. loads Proposed Question:

Common 3 While shutting down using Alternate Shutdown methods, Transfer Switch MTS-13-1 is placed to the EMERGENCY position.

This aligns RClC controls to be powered from: A. 24 VDC ECCS Bus (Panel " A"). B. 48 VDC Microwave Telemetering Bus C. 125 VDC Emergency Bus (DC-1 AS). D. 125 VDC Control Power Bus (DC-5A). Proposed Answer: C. Explanation (Optional):

C. Correct Two alternate shutdown (AS) battery systems are provided.

DC-1 AS provides control power to Vernon Tie Breaker to the alternate shutdown RClC panel (CP-82-I), (with the exception of V13-16) the RClC system valves (via transfer switch MTS-13-I), and Appendix Converter ES-24DC-3. By placing MTS-13-1 to EMERGENCY, all controls for RClC can be operated locally if system operation from the Control Room is lost. A. B. D. Incorrect

-The transfer switch shifts power to OP-2145, Discussion (Attach if not previously provided)

Technical Proposed references to be provided to applicants during None examination:

Objective: (As available)

Question Source: Bank # Modified Bank # New 604 (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. 1 KIA # (K&A ! I & Examination Outline Cross-Level RO SRO Tier # 2 Group 205000, K2.02 Importance Rating 2.5 Statement)

Knowledge of electrical power supplies to the following:

Motor operated valves Proposed Question:

Common 4 The plant is Shutdown for a refueling outage and the following conditions exist: Shutdown cooling is aligned to the " A" Loop of RHR using " C" RHR Pump Primary Containment is not in effect Reactor Coolant temperature is 11 0°F A plant transient results in the loss of DC-2. Which of the following describes the effect on the RHR System? RHR-17 18 remain open and the " C" RHR pump trips. RHR-18 ONLY will fail shut on a loss of power, tripping the " C" RHR pump on interlock. RHR-17 ONLY will fail shut on a loss of power, tripping the " C" RHR pump on interlock. System remains aligned as is with no effect from loss of DC-2. Proposed Answer: A.

DC-2, S/D 6. - Reference(s):

K1.07.b, K2.02.b, K5.02.b, K6.02.b, # # - Explanation (Optional):

A. Correct -IAW ON-3160, Loss of DC 2 and 3, on a loss of If in cooling, RHR pumps trip, RHR-17 de-energized.

lncorrect

-RHR -1 8 will remain open however the " C" RHR pump logic will see the RHR-17 closed due to a loss of power to the sensing relay C. lncorrect RHR -17 will remain open however the " C" RHR pump logic will see the valve closed due to a loss of power to the sensing relay D. lncorrect

-RHR 17 and 18 both remain open. ON 31 60, auto actions pg 3 (Attach if not previously provided)

Technical Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-205; (As available) Question Source: Bank 61 62 Modified Bank (Note changes or attach parent) New Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

I

1. KIA (K&A 1NB INB (1 1 niotor (21 IAIB - Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 1 # 262001 , K3.04 Importance Rating 3.9 Statement)

Knowledge of the effect that a loss or malfunction of the A.C. ELECTRICAL DISTRIBUTION will have on following:

Uninterruptible power supply Proposed Question:

Common 5 The UPS Units are in their normal at power alignment.

Which one of the following describes how the UPS Unit will respond when a loss of ALL normal AC power supplies occurs? First the UPS Feeder Breaker then the AC drive motor loses power and the DC drive is powered from U PS batt ery. When NORMAL power is restored UPS A. (I) trips (2) will automatically return to AC power B. (1) trips (2) must be locally returned to AC power. C. (1) does NOT trip (2) must be locally returned to AC power. D. (1) does NOT trip (2) will automatically return to AC power. Proposed Answer: D. Explanation (Optional):

D. Correct -IAW OT 3122, the UPS Feeder Breaker does NOT trip and UPS shift to DC drive when power is lost to 4 Kv Buses 3 and 4 (loss of all normal power supplies).

IAW OP 2143, Sect H. The AC drive will automatically return upon restoration of AC power. A. lncorrect

-UPS Feeder Breaker does NOT trip. B. lncorrect UPS Feeder Breaker does NOT trip and the AC drive will automatically return upon restoration of AC power. C. lncorrect

-The AC drive will automatically return upon restoration of AC power.

Reference(s):

Technical OT-3122, auto actions pg 11 (Attach if not previously OP 2143, Sect H pg 16 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-03-262 (As available)

Question Source: Bank # 1729 Modified Bank # (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. # 1 # (K&A Corr~mon A0 IVlust Examination Outline Cross-Level RO SRO Tier 2 WA 264000, K3.02 Importance Rating 3.9 Statement)

Knowledge of the effect that a loss or malfunction of the EMERGENCY GENERATORS (DIESEUJET) will have on following:

A.C. electrical distribution Proposed Question:

6 After a Loss of Normal Power, the " B" Emergency Diesel Generator (EDG) receives an automatic start signal. The diesel fails to reach the required speed during the start attempt and the Start Failure Timer energizes the Shutdown Relay. In accordance with OP 2126, Diesel Generators, which one of the following actions is required to restore power to the " B" Emergency Diesel Generator's respective 4KV Bus? lmmediately depress the local RESET pushbutton, place the control switch at the instrument panel in REMOTE, then attempt another start. lmmediately place the engine control in AT ENGINE, wait 100 seconds, reset the lockout relay, then direct an to start the DG locally. Wait 100 seconds, reset the lockout relay, depress the local RESET pushbutton, then place the control switch at the instrument panel in REMOTE. Immediately place the engine control in AT ENGINE, depress the local RESET pushbutton, wait 100 seconds, then place the control switch at the instrument panel in REMOTE. Proposed Answer: D. Explanation (Optional):

A. lncorrect

-place the engine control in AT ENGINE and wait 100 seconds for shutdown relay to time out. B. lncorrect

-Must wait 100 seconds after resetting the shutdown relay, to allow the Stopping Relay to time out. It is not necessary to reset the lockout relay, it does not trip. C. lncorrect

-Must wait 100 seconds after resetting the shutdown relay, to allow the Stopping Relay to time out. It is not necessary to reset the lockout relay, it does not trip. D. Correct -If a diesel generator start signal (such as an accident signal or LNP signal) occurs while the Stopping Relay is energized (timing out), the engine control must be placed in AT ENGINE, the shutdown relay must be reset as described above, then, following a period of 100 seconds, to allow the Stopping Relay to time out, the engine can be started locally, or automatically started by placing the Control switch at the instrument panel in REMOTE. Group Reference(s):

& [5], # Technical OP-2126, P L pg 7 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank # New X (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. # KIA # (K&A feature(s) and/or drywell. Drywell Drywell 167"F, mrlhr, beirlg - Drywell - Reference@):

Examination Outline Cross-reference:

Level RO SRO Tier 2 Group 1 261 000, K4.01 Importance Rating 3.7 Statement)

Knowledge of STANDBY GAS TREATMENT SYSTEM design interlocks which provide for the following:

Automatic system initiation Proposed Question:

Common 7 The plant has been shutdown following a small steam leak inside the The following conditions exist: pressure:

3.1 psig, rising slowly temperature:

rising slowly Reactor water level: 142 inches and stable Reactor Building ventilation exhaust radiation:

1.2 steady Assuming all plant equipment operated as designed, which one of the following is the present status of Secondary Containment atmospheric control? Secondary Containment is at a .. A. Positive pressure, being exhausted through a filtered and monitored path. B. Negative pressure, being exhausted through a filtered and monitored path. C. Positive pressure, being exhausted through an unfiltered and unmonitored path. D. Negative pressure, exhausted through an unfiltered and unmonitored path. Proposed Answer: B. Explanation (Optional):

A. lncorrect B. Correct -Hi pressure initiated a secondary containment isolation and SBGT start. C. lncorrect pressure is negative exhausting through SBGT D. lncorrect

-exhausting through SBGT Technical OP 21 17, Rev. 17, page 5 (Attach if not previously pressure is negative

1. LOT-00-261, Rev. 32, pages provided) 12-1 3 EOP 1 Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-261, K4.01 (As available)

Question Source: Bank 3563 Modified Bank # (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. KIA # - -- (K&A RHRILPCI:

RHR-16A SprayICooling "C" RHR- RHR-16A RHR- 1 RHR-16A RHR-16A. RHR-16A I RHR-16A. Examination Outline Cross-reference: RO SRO Tier 2 Group 1 203000, K4.05 Importance Rating 3.2 Statement)

Knowledge of INJECTION MODE (PLANT SPECIFIC) design feature(~)

and/or interlocks which provide for the following:

Prevention of water hammer Proposed Question:

Common 8 Following a plant trip that involved a lengthy High Pressure Coolant Injection run, the Residual Heat Removal (RHR) system was placed in Torus Cooling. The following conditions exist: RHR Pump " A running Minimum Flow Valve, is CLOSED Torus Cooling Valve, RHR-34A is THROTTLED Torus Valve, RHR-39A is OPEN RHR Pump " A" motor breaker trips on a breaker fault. IAW OP 2124, which one of the following describes a concern with starting the " C" RHR Pump at this time and how may this concern be averted? Starting the RHR Pump may result in.. . water hammer damage because the piping will drain. Immediately close 34A and RHR-39A. tripping the " C" pump on high current. Verify is closed and close 34A RHR-39A. overheating the " C" pump because will remain closed and RHR-39A will close on the pump trip. Open dead heading the " C" pump because is closed and both RHR 34A RHR-39A close on the pump trip. Open Proposed Answer: A.

- RHR-39A(B) 34A(B) 38A(B) flow/cooling.

Reference(s):

P&L Explanation (Optional):

A. Correct During Torus spray or Torus cooling operation, if RHR pump flow is lost, the discharge valves, either should be immediately closed to prevent drain down from the high points in the RHR system to the Torus. This can result in void formation at the high points and upon RHR pump restart, water hammer could result. B. C. and D. Incorrect

-The " C" pump min flow will open and provide RHR 34A AND RHR-39A do NOT close on the pump trip. The problem is the water hammer from starting the " C" pump. Technical OP-2124, #10 (Attach if not previously provided) or and Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. # WA K5.01 (K&A 1 MWt). Time Examination Outline Cross-Level RO SRO Tier 2 Group 1 21 2000, Importance Rating 2.7 Statement)

Knowledge of the operational implications of the following concepts as they apply to REACTOR PROTECTION SYSTEM : Fuel thermal time constant Proposed Question:

Common 9 Which one of the following RPS trip signals uses a " Thermal Time Constant" to ensure fuel cladding integrity?

A. High Neutron Flux B. High Reactor Pressure C. Turbine Control Valve Closure D. Main Steam Isolation Valve Closure Proposed Answer: A. Explanation (Optional):

A. Correct -From T.S. 2.1 FUEL CLADDING INTEGRITY A. Trip

1. Neutron Flux Trip

a. APRM Flux Scram Allowable Value (Run The average power range monitoring (APRM) system, which is calibrated using balance data taken during steady state conditions, reads in percent of rated power Because fission chambers provide the basic input signals, the APRM system responds directly to average neutron flux. During transients, the instantaneous rate of heat transfer from the fuel (reactor thermal power) is less than the instantaneous neutron flux due to the time constant of the fuel. Therefore, during abnormal operational transients, the thermal power of the fuel will be less than that indicated by the neutron flux at the scram setting.

Analyses are performed to demonstrate that the APRM flux scram over the range of settings from a maximum of 120% to the minimum flow biased setting provide protection from the fuel safety limit for all abnormal operational transients including those that may result in a thermal hydraulic instability.

B. C. and D. Although these scrams affect Reactor power the Constant" is only used for the Neutron Flux scrams.

Reference(s):

1. # Technical T.S. 2.1 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New X (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X Comments:

KIA (K&A Drywell Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group # 1 # 21 8000. K5.01 Importance Rating 3.8 Statement)

Knowledge of the operational implications of the following concepts as they apply to AUTOMATIC DEPRESSURIZATION SYSTEM : ADS logic operation Proposed Question:

Common 10 The plant has experienced a small break LOCA and station blackout.

The following conditions exist at 0900 hrs: Reactor water level is + 82.5" lowering pressure is 5 psig, increasing Reactor pressure is 750 psig, lowering slowly ALL ECCS pumps are in Pull-To-Lock Given these conditions how will Automatic Depressurization System (ADS) logic and Safety Relief Valves (SRVs) respond? ADS logic initiates at 0902 ALL SRVs open ADS logic initiates at 0908 ALL SRVs open ADS logic will time out but will not initiate NO SRVs open ADS logic will not initiate because the timers will not start. NO SRVs open Proposed Answer:

purrips PTL. Reference(s):

10 # Explanation (Optional):

C. Correct -With the combination of high DW Pressure and Lo-Lo RPV Water Level the ADS timer will begin timing and time-out at 0902 hrs. However, with all the ECCS pumps in PTL the ECCS logic will NOT see any ECCS pumps available and therefore will NOT initiate and the SRVs will not open. A. lncorrect

-The timer will time out but with the ECCS in PTL the ECCS logic will NOT see ECCS pumps available and will NOT initiate B. lncorrect Response -ADS logic is NOT satisfied and will NOT initiate after 2 minutes because the ECCS pumps are in D. lncorrect

-The timers will start and time out but the SRVs will not open Technical OP 2122 Discussion pgs 3 & (Attach if not previously 4 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-21 8, K3.02 (As available)

Question Source: Bank # 3474 Lot more Modified Bank # (Note changes or attach parent) New Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X CFR Part 55 Content: 55.41 X 55.43 12-1 5-08, underlined the starting Examination Outline Cross-Level RO SRO Tier # 2 Group 2 Importance Rating 3.1

1. WA (K&A Drywell 3? 6 6. B irr~mediately - - Reference(s):

Examination Outline Cross-Level RO SRO Tier # 2 Group 1 # 209001. K6.01 Importance Rating 3.4 Statement)

Knowledge of the effect that a loss or malfunction of the following will have on the LOW PRESSURE CORE SPRAY SYSTEM : A.C. power Proposed Question:

Common 1 1 The plant and its systems are normally aligned for full power operations.

A LOCA has occurred with a loss of normal power (LNP) and the following conditions exist: Emergency Diesel Generator (EDG) " B" fails to start Reactor pressure is 250 psig and is slowly pressure is 14 psig and is slowly NONE of the Bus 3 pumps are in the Pull-To-Lock position The CRO is able to energize 4KV Bus 3 from the Vernon Tie. Which one of the following is the ECCS pump response upon re-energizing Bus A. A and RHR Pumps start 5 seconds after power is restored.

A and RHR Pumps start after power is restored.

C. B Core Spray Pump starts 10 seconds after power is restored.

D. B Core Spray Pump starts immediately after power is restored.

Proposed Answer: C Explanation (Optional):

A. lncorrect

-A RHR Pump starts immediately.

B. lncorrect B RHR Pump starts AFTER a 5 second time delay C. Correct Response D. lncorrect B Core Spray Pump starts AFTER a 10 second time delay. Technical Table 7.4.3 UFSAR (Attach if not previously Table 14.6.4.A provided)

1. Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New 1206 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

(K&A RELIEFISAFETY "71A "71C 8" DC-1C, Reference(s): - # Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group # 1 Importance Rating 3.0 Statement)

Knowledge of the effect that a loss or malfunction of the following will have on the VALVES : D.C. power: Plant-Specific Proposed Question:

Common 12 Which one of the following describes the effect of a loss of 125 VDC-2C on the SRVs? A. All SRVs become inoperable in both manual and ADS mode. B. SRVs and become inoperable in both manual and ADS mode. C. SRVs " 71 and " 71 D become inoperable in both manual and ADS mode. D. All SRVs remain operable in both manual and ADS mode. Proposed Answer: D. Explanation (Optional):

D. Correct -If DC-2C is lost the relief valve power will swap to and the 4 SRVs will open. A. lncorrect

-All SRVs remain operable in both manual and ADS mode. C. lncorrect

-All SRVs remain operable in both manual and ADS mode. D. lncorrect

-All SRVs remain operable in both manual and ADS mode. Technical ON 3159, Auto Actions pg 3 (Attach if not previously LOT-00-239, pg 24 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Lot more Modified Bank (Note changes or

- attach parent) New Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Comprehension or 10 CFR Part 55 Content: 55.41 Comments:

1. 1 WA # (K&A andlor 100°/~ PB1 Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 259002, A1 .O1 Importance Rating 3.8 Statement)

Ability to predict monitor changes in parameters associated with operating the REACTOR WATER LEVEL CONTROL SYSTEM controls including:

Reactor water level Proposed Question:

Common 13 The plant is operating at power, with the Reactor Vessel Level Master Controller in AUTO when is inadvertently depressed.

The RO then immediately depresses the PB2 pushbutton.

Which one of the following is the RPV water level response?

Water level.. . A. remains at 160 inches B. lowers to 155 inches. C. lowers to 133 inches. D. rises above 177 inches PB1 setpoint setpoint setpoint setpoint runback. PB1 setpoint setpoint Reference(s): (IVote Proposed Answer: B. Explanation (Optional):

B. Correct -Master controller push button is configured to set the master controller to 133 inches when depressed.

Master controller pushbutton PB2 is configured to set the master controller to 155 inches when depressed.

This feature may be used to input a reduction (set down) should the automatic set down fail to actuate during the loss of a feedwater pump or condensate pump recirculation system Additionally, should be accidentally depressed, PB2 may be used to rapidly restore level to 155 inches. A. lncorrect-Depressing the buttons changes the controller's to 133 then 155. C. Since PB2 is immediately depressed the level will not reach 133. D. lncorrect level will not rise FIGURE 1 of OP-2172 and (Attach if not text on page 6 of the Discussion Technical Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. 1 # (K&A andlor (IRMs) IRMs char~nel - Reference@):

Examination Outline Cross-Level RO SRO Tier # 2 Group WA 21 5004, A1.04 Importance Rating 3.5 Statement)

Ability to predict monitor changes in parameters associated with operating the SOURCE RANGE MONITOR (SRM) SYSTEM controls including:

Control rod block status Proposed Question:

Common 14 The plant is subcritical withdrawing control rods for a reactor startup. The following conditions exist: Reactor power is 75 counts per second (CPS) in the source range Intermediate Range Monitors are downscale on Range 1. CH A SRM SELECT Switch on CRP 9-5 Benchboard is illuminated The CRO depresses and holds the DRIVE OUT pushbutton.

Which of the following describes the system response?

The A SRM detector will.. . NOT withdraw due to the current power level. NOT withdraw while the are on range 1. fully withdraw, however a Rod Block will occur. partially withdraw until the Full In indication is lost then the CH A SRM SELECT light will extinguish.

Proposed Answer: C. Explanation (Optional):

C. Correct -Any SRM will generate a rod block if a detector is not fully inserted and the level indicator for that channel drops below 100 cps. A. lncorrect

-The SRM will withdraw B. lncorrect The SRM will withdraw D. lncorrect

-The SRM will withdraw Technical OP 21 30 Page 3 (Attach if not previously

- 10 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New 292 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X CFR Part 55 Content: 55.41 X Comments:

1. 1 WA # (K&A ; 4011 (2) B. Group Examination Outline Cross-Level RO SRO Tier # 2 21 5003, A2.04 Importance Rating 3.7 Statement)

Ability to (a) predict the impacts of the following on the INTERMEDIATE RANGE MONITOR (IRM) SYSTEM and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations:

Up scale or down scale trips Proposed Question:

Common A reactor startup is in progress with following Power has risen from 20140 on IRM Range 3 to 25 on IRM Range 4 in 20 seconds. Annunciator 9-5 N-3, IRM HI alarms for IRM " D" prior to selecting Range 4. A half scram occurred on RPS Channel B NO rod motion is in progress (Assume a sustained period). Based on the above conditions the reactor period is about 1 . In accordance with OP 0105, the CRO should . A. (1) 58 seconds (2) reset the half scram ONLY WHEN directed by the SRO. (1) 29 seconds (2) IMMEDIATELY insert control rods to make the reactor sub-critical.

C. (1) 29 seconds (2) reset the half scram ONLY WHEN directed by the SRO. D. (1) 58 seconds (2) IMMEDIATELY insert control rods to make the reactor sub-critical.

Proposed Answer:

- sec sec. - Reference(s):

1. charrges Explanation (Optional):

B. Correct -IAW OP-0105 Note 1 from VYOPF 01 05-03: Stable Period = Time for power to double x 1.445. power doubled (1 25 scale is expanded 0-40 scale) over 20 therefore 20 x 1.445 = 28.9 If the sustained period becomes shorter than 30 seconds; use the EMERGENCY IN switch to turn the period and insert control rods until the reactor is subcritical.

CRO must await direction to reset the half scram. A. lncorrect

-Period is 29 seconds, reactor must be made subcritical C. lncorrect Reactor must be made subcritical D. lncorrect

-Period is 29 seconds OP 01 05 Page 21, (Attach if not previously provided)

Technical Proposed references to be provided to applicants during None examination:

Learning (As available)

Question Bank # Lot more Modified Bank (Note or attach parent) New X Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. WA # (K&A UNINTERRUPTABLE (A.C.1D.C.)

WITH 1 Initiatelverify 10A-S36A keylock Initiatelverify 10A-S36A keylock shifts Examination Outline Cross-Level RO SRO Tier 2 Group 1 262002, A2.01 Importance Rating 2.6 Statement)

Ability to (a) predict the impacts of the following on the POWER SUPPLY ;and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations:

Under voltage Proposed Question:

Common 16 A loss of MCC-8B resulted in a loss of the Vital MG Set when the DC Drive motor failed to power the Vital AC Generator.

In addition the auto transfer to the Vital Bus Alternate source failed. IN ACCORDANCE ON 3168, Loss of Vital AC, (1) What Control Room actions are taken to attempt to recover Vital AC? AND (2) Which one of the following actions are required if Vital AC CANNOT be restored? (1) Place the Vital Bus Manual Transfer Switch on CRP 9-8 to the ALT position, holding momentarily, and releasing.

a reactor SCRAM and enter OT 3100. (1) Position the UPS FDR TRIP, switch on CRP 9-32 to BLOCK and close the UPS FDR breaker on Switchgear Bus 9. a reactor SCRAM and enter OT 31 00. (1) Place the Vital Bus Manual Transfer Switch on CRP 9-8 to the ALT position, holding momentarily, and releasing.

(2) Verify RPV pressure control shifts to the MPR and place the Master Feedwater Controller in Manual and control RPV water level. (1) Position the UPS FDR TRIP, switch on CRP 9-32 to BLOCK and close the UPS FDR breaker on Switchgear Bus 9. (2) Verify RPV pressure control to the MPR and place the Master Feedwater Controller in Manual and control RPV water level. Proposed Answer: A. (2) (2) 10A-S36A keylock - 10A-S36A keylock Reference(s):

Pg 5 Explanation (Optional):

A. Correct -If Vital AC cannot be restored the plant must be scrammed.

If an automatic transfer did not occur, then attempt to re-energize the Vital bus by placing the Vital bus manual transfer switch on CRP 9-8 to the ALT position, holding momentarily, and releasing.

B. lncorrect

-UPS FDR TRIP, switch on CRP 9-32 is for an ECCS LIPS. C. lncorrect

-If Vital AC cannot be restored the plant must be scrammed.

D. lncorrect If Vital AC cannot be restored the plant must be scrammed and UPS FDR TRIP, switch on CRP 9-32 is for an ECCS UPS. Technical ON 31 68, Steps A and B (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X Comments:

1. (K&A SYSTEMINUCLEAR I The PClS ! I - I Reference(s):

CWDs Examination Outline Cross-Level RO SRO Tier # 2 Group 1 WA # 223002, A3.01 Importance Rating 3.4 Proposed Question:

Common 17 The six Primary Containment Isolation System (PCIS) red lights on the vertical section CRP 9-5, lower right hand corner, are illuminated. Which one of the following is indicated by these indicating lights? A PClS Group 1, 2 and 3 isolation signal is active and the isolations can NOT be reset. Isolation signals associated with PClS Group 1, 2 and 3 isolations are clear and the valves are still in the isolated condition.

C. valve position indications necessary to satisfy Group 1, 2 and 3 lnadvertent Opening Protect Logic (IOPL) are satisfied. The control switches required to satisfy the lnadvertent Opening Protect Logic (IOPL), for PClS Group 1, 2 and 3, are in the closed position.

Proposed Answer: D. Explanation (Optional):

D. Correct -The lights indicate the valves affected by the IOPL logic have had their control switches placed in the " closed" position.

The correct switch position will satisfy the logic requirement even if the valves fail to close. A. and B. lncorrect The red lights indicate the IOPL logic has been satisfied.

C. lncorrect

-The lights indicate the control switches for the valves are in the " closed" position the IOPL logic is satisfied by switch position and is independent of valve position.

1 100-1 123 (Attach if not previously LOT-01-223, page 89 provided)

Statement)

Ability to monitor automatic operations of the PRIMARY CONTAINMENT ISOLATION STEAM SUPPLY SHUT-OFF including:

System indicating lights and alarms Technical OP-2115, Sect G. pg 45. Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-01-223, K16 (As available)

Question Source: Bank # 1158 Lot more Modified Bank # (Note changes or attach parent) New Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. # (K&A MONITOWLOCAL converter/comparator APRMs 32%? ConverterIComparator Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 1 WA 21 5005, A3.05 Importance Rating 3.3 Statement)

Ability to monitor automatic operations of the AVERAGE POWER RANGE POWER RANGE MONITOR SYSTEM including:

Flow alarms Proposed Question:

Common A plant startup is in progress with the following The Recirc flow input signal to the is As Recirc flow is raised, the " B" Flow ConverterIComparator output remains Actual recirculation loop flows respond as What will be the effect on plant operation if recirculation flow continues to be raised to A. Full scram on flow-biased APRM Hi-Hi flux. B. Half scram on flow biased APRM Hi-Hi flux. C. Control rod block on Flow " inop" signal. D. Control rod block on Flow ConverterIComparator

" unbalance" signal. Proposed Answer:

ConverterIComparator.

32%, 7% 6, Dl "B" ConverterlComparator.

32% ConverterIComparator ConverterIComparator Dl converterlcornparator Reference@):

2d, Explanation (Optional):

D. Correct -An increase in actual flow will increase the output of the " A" Flow The lowest point a flow biased rod block could happen would be 42%. When flow increases to approximately the comparators will have a mismatch.

The mismatch causes an out of limits trip which causes a rod block. The inop is only caused by a loss of power. A. and B. lncorrect

-The Flow Biased Scram signal for the " B" RPS Channel APRMs (APRMs F) will remain unchanged as 70.5% based on the failure of the Flow Flow will be increased to on the " A" Flow before actual reactor power is increased to 70.5%. The 7% difference between the 2 units will cause a comparator unbalance ROD BLOCK before actual power reaches the artificially low trip setpoints for APRMs B, and F. C. lncorrect

-The inop flow rod block would occur if one of the comparators had lost power Technical LOT-05-21 5 (Attach if not previously ARS 5-M-5 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-05-21 5, CRO 5 (As available)

Question Source: Bank # 3892 Lot more Modified Bank # (Note changes or attach parent) New Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X

1. 1 (K&A and/or - - Reference@):

Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group Importance Rating 4.1 Statement)

Ability to manually operate monitor in the control room: Reactor water level Proposed Question:

Common The plant has scrammed following a loss of Feedwater.

The following conditions High Pressure Coolant Injection (HPCI) is inoperable Reactor Core Isolation Cooling (RCIC) is injecting RPV water level is 150 inches and If no further operator action is taken, which one of the following will The RClC System will trip. The trip must be manually reset to allow for RClC to automatically inject. isolate. The isolation will automatically reset when reactor water level lowers to 127 inches and RClC will inject. isolate. The isolation will automatically reset when reactor water level lowers to 82.5 inches and RClC will inject. trip. The trip will automatically reset when Steam Supply Valve (RCIC-131) closes. RClC will automatically inject when reactor water level lowers to 82.5 inches. Proposed Answer: D. Explanation (Optional):

A. lncorrect

-RClC will inject if level falls back to 82.5 inches B. lncorrect RClC does not isolate and isolations do not reset automatically C. lncorrect RClC does not isolate and isolations do not reset automatically D. Correct Response Technical OP 21 21, page 4 (Attach if not previously char-iges provided) or Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-21 7, K5.06, K8 (As available)

Question Source: Bank # 6402 Lot more Modified Bank # (Note attach parent) New Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. 1 # (K&A and/or BWR-2,3,4 HPCl 0 gPm HPCl HPCl 6. The HPCl setpoint Examination Outline Cross-Level RO SRO Tier # 2 Group WA 206000, A4.02 Importance Rating 4.0 Statement)

Ability to manually operate monitor in the control room: Flow controller:

Proposed Question:

Common A LOCA has occurred with the following plant RPV water level 90 inches lowering slowly RPV pressure 900 psig lowering slowly DW pressure 3.0 psig rising HPCl was in normal standby before initiation and initiated with the following pump turbine speed 2000 HPCl pump discharge pressure 550 minimum flow valve IAW OP 2120, which one of the following is the likely cause of this condition and what actions are required to raise RPV water level? The Controller has failed low, place the Overspeed Test Selector Switch in TEST and raise HPCl turbine speed with the Test Control knob. Ramp Generator did not transfer to the controller; raise the auto flow controller tape to raise HPCl discharge pressure. The controller has lost power, place the Overspeed Test Selector Switch in TEST and raise HPCl turbine speed with the Test Control knob. The Ramp Generator has failed, place the flow controller in manual control and raise the turbine speed and discharge pressure with the manual control potentiometer.

Proposed Answer: D.

Ilow PUMP setpoint Reference@):

APP B, Pg 1 of 3 Learning Explanation (Optional):

D. Correct -IAW OP Discussion Section -Upon system initiation and turbine start, the ramp generator Ramp function is initiated by the mechanical movement of the turbine stop valve as sufficient oil pressure is developed by the Auxiliary Oil Pump. Valve movement to the fully open position actuates a valve limit switch that initiates the Ramp function.

Throughout the transient time period (12 seconds) of the Ramp function from idle to rated speed setpoint, the HPCl System controller calls for maximum pump flow and turbine speed until pump flow reaches the flow controller setpoint.

The transition from the Ramp function to flow controller control is automatic and is accomplished by the Low Signal Selector in the ramp generator signal converter box. IAW OP, App. B. If HPCl PUMP FLOW CONTROLLER FIC 23-108 automatic feature fails or significant flow oscillations occur: a) Place HPCl FLOW CONTROLLER FIC 23-108 in b) Control injection flow using the MANUAL A. and C. Incorrect-There is no procedural guidance to use the overspeed test controller to control HPCl speed or discharge pressure.

B. Incorrect-Raising the tape would have no effect. Technical OP 2120, Discussion pg 3 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. # WA # (K&A / lnst HiILo FW SignalIAir Instrument/Scram Both running and and to fully shut. - - Examination Outline Cross-reference:

Level RO SRO Tier 2 Group 1 300000. 2.4.4 Importance Rating 4.5 Statement)

Emergency Procedures Plan: Ability to recognize abnormal indications for system operating parameters which are entry-level conditions for emergency and abnormal operating procedures. (Instrument Air) Proposed Question:

Common While operating at full power, the following annunciators are CRP 6-D-1 Air Receiver HDR Press LO CRP 5-C-8 Scram Pilot Air Hdr Press CRP 5-E-2 VLV Lockup Fail Instrument air header pressure is 80 psig and lowering slowly. IAW ON 3146, Low Air Header Pressure, and the Annunciator Response Procedures you are to confirm: A. Lead and Lag Compressors and SA-PCV-1 closed. B. Lead Compressors running SA-PCV-1 open. C. Lead and Lag Compressors running SA-PCV-1 open. D. Lead Compressors running SA-PCV-1 closed. Proposed Answer: A. Explanation (Optional):

A. Correct Response -Low instrument air 90 psig, lead compressors are normally running, lag compressors start at 95 psig, SA-PCV-1 starts shut at 85 psig in the instrument air header and is full shut at 80 psig. The continuing lower pressure causes SA-PCV-B. lncorrect The procedure assumes lead compressors running and does not require them checked, SA-PCV-1 should be closed C. lncorrect

-SA-PCV-1 should be closed D. lncorrect The procedure assumes lead compressors running and does not require them checked.

Reference(s):

1. - Technical ON 3146, pg 2 (Attach if not previously ARS-6-D-1 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-279, (As available)

Question Source: Bank 571 7 Lot more Modified Bank # (Note changes or attach parent) New Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

1. 1 WA (K&A / reclose 0. rr~inute - 6. - Reference@):

Examination Outline Cross-Level RO SRO Tier # 2 Group 262001, 2.4.30 Importance Rating 2.7 Statement)

Emergency Procedures Plan; Knowledge of events related to system operation I status that must be reported to internal organizations or external agencies, such as the state, the NRC, or the transmission system operator. (AC Distribution).

Proposed Question:

Common 22 In which of the following situations may you the breaker for the " A Core Spray Pump without prior permission from Electrical Maintenance?

In accordance with OP 2142, 4 KV Electrical System the breaker may be reclosed: Any time the Pump tripped following a loss of DC Control Power Only during an extreme emergency if the Pump tripped on Timed Overcurrent. Any time the Pump tripped on Timed Overcurrent following a 30 cooldown. Only during an extreme emergency if the Pump tripped following a loss of DC Control Power. Proposed Answer: B. Explanation (Optional):

A. and D. lncorrect Under no circumstances will the breakers be operated to closed if DC control power for the breaker is unavailable.

Correct operation of a 4 KV breaker will only be performed in an extreme emergency and then only with permission of the Shift Manager. C. lncorrect

-operation of a 4 KV breaker will only be performed in an extreme emergency and then only with permission of the Shift Manager. Technical OP 2142, sect. J pg 25 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

1. 10 Learning Objective:

LOT-01-262, K18 (As available) 1805 Lot more Modified Bank # (Note changes or attach parent) New Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis CFR Part 55 Content: 55.41 X Question Source: Bank 55.43 Comments:

1. # KIA # (K&A RHRILPCI:

"B B Reference(s)

Examination Outline Cross-Level RO SRO Tier 2 Group 1 203000, A2.14 Importance Rating 3.8 Statement)

Ability to (a) predict the impacts of the following on the INJECTION MODE (PLANT SPECIFIC) and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations:

Initiating logic failure Proposed Question:

Common 23 Prior to a valid Low Pressure Coolant Injection (LPCI) system initiation a loss of the side 24 VDC ECCS system occurred.

How will this failure affect the LPCl system response? The A loop LPCl injection valves will not automatically open and must be manually opened from the Control Room. The B loop LPCl injection valves will not automatically open and must be manually opened from the Control Room. The A loop LPCl injection valves will not automatically or manually open from the Control Room; the other LPCl loop must be used for injection. The B loop LPCl injection valves will not automatically or manually open from the Control Room; the other LPCl loop must be used for injection.

Proposed Answer: C. Explanation (Optional):

A. lncorrect

-The valves cannot be manually opened from the control room. B. lncorrect

-The valves cannot be manually opened from the control room. C. Correct -Upon loss of the side ECCS 24 VDC ECCS system, the A loop LPCl injection valves will not manually open from the Control Room because the power that provides the logic to open reactor low pressure relays will not make up. D. lncorrect

-The A loop valve won't open. Technical OP 2124, Discussion pg 6 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

1. (K&A feature(s) andlor OhlE A(B) sec. - Reference(s):

Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 1 Importance Rating 3.8 Statement)

Knowledge of AUTOMATIC DEPRESSURIZATION SYSTEM design interlocks which provide for the following:

ADS logic control Proposed Question:

Common 24 During a LOCA, a valid ADS signal exists and the ADS system has initiated and the Safety Relief Valves have opened. With the initiation signal still present both Initiation Signal Timer Reset Pushbuttons are depressed.

Which of the following describes the automatic response of the ADS system? All ADS valves will: A. remain open B. close and remain closed indefinitely C. close and remain closed for 8 minutes then reopen. D. close and remain closed for 2 minutes then reopen. Proposed Answer: D. Explanation (Optional):

D. Correct -IAW OP-2122, ADS Auto Logic pushbuttons on CRP 9-3 have the following functions.

The pushbuttons are normally in the AUTO position and will allow automatic initiation of the ADS system. The buttons can be depressed to reset the 120 initiation timers. The timers will restart when the buttons are released if the initiating conditions are still present. If the initiating signal is clear the timers will not restart. A. lncorrect the valves will close B. lncorrect

-the valves will re-open after 120 seconds. C. lncorrect

-the valves will re-open after 120 seconds. Technical OP-2122, Discussion pg 5 (Attach if not previously provided)

1. # Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-21 8, K 9.02 (As available)

Question Source: Bank Modified Bank New 3253 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowled Comprehension or Analysis ge X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. 1 KIA # (K&A UPlHOT WITHDRW HIIINOP lRMs - - - - x 103 x 105 x 103 1 o5 The lRMs Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 21 5004, A3.02 Importance Rating 3.4 Statement)

Ability to monitor automatic operations of the SOURCE RANGE MONITOR (SRM) SYSTEM including:

Annunciator and alarm signals Proposed Question:

Common The Mode Switch is in START The following Annunciators and indications are indicated on the Control Room 9-5-D-3, ROD 5-P-3, All are mid-scale on Range SRMs are being withdrawn from the core in accordance with OP Reactor period has dropped to 600 SRMs (cps) A B C D 2.0 2.0 3.0 5.0 x CRS has directed the next control rod be withdrawn to continue the Given the above, which one of the following is necessary to withdraw control A. Place the on Range 3 B. Withdraw All the SRM detectors.

C. Insert SRM Detectors A and C D. Withdraw SRM Detectors B and D Proposed Answer: D.

setpoint Inoperable Setpoint lo5 1A, lo3 lo5 CPS. lRMs lncorrect - lncorrect lncorrect Reference(s):

durircg # Explanation (Optional):

Clean up explanation D. Correct -IAW OP-2130 and ARS for 9-5 any SRM channel will generate a rod block if one of the following conditions exist: Any SRM downscale (3 cps) or any SRM detector not fully inserted and the level indicator for that channel drops below 100 cps. (With all IRM range switches at position 3 or higher, these rod blocks are bypassed automatically.) SRM count greater than the high unless the IRM range switches are on Range 8 or above. 3. Annunciator 5-P-3 Hi is 2.2 x CPS. In addition guidance in OP 0105 (Phase Step 33) directs SRMs be withdrawn from the core once IRM overlap has been confirmed.

Detectors are to withdrawn two at a time to maintain SRM count rates between to All SRM detectors are not fully withdrawn from the core until all are approximately mid-scale on Range 4. A. Going to range 3 will not bypass an SRM hi condition.

B. -Withdrawing all the SRMs is not necessary and if all the SRMs were withdrawn SRM " B would fall below 100 cps and cause a rod block. C. -Bypassing SRM " B will have no effect Technical OP-2130, Discussion pg 3 (Attach if not previously ARS for 9-P-3 provided)

OP 01 05, Phase 1 A, Step 33 Proposed references to be provided to applicants None examination:

Learning Objective: (As available)

Question Source: Bank Lot more Modified Bank # (Note changes or attach parent) New X Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X i Comments:

1. # (K&A 100°/~ MCC-8B. APRlVls MCC-86. Examination Outline Cross-Level RO SRO Tier 2 Group 1 WA # 21 5005, K2.02 Importance Rating 2.6 Statement)

Knowledge of electrical power supplies to the following:

APRM channels Proposed Question:

Common 26 The reactor is operating at power. RPS Bus " A was placed on it's alternate power source. All required operator were completed for realigning APRM power Subsequently, a voltage transient causes RPS MG Set " B Output Breaker to Which one of the following describes the power supplies for the APRMs A, C, and E are powered from APRMs B, D, and F are powered from Vital AC. APRMs A, C, and E are powered from Vital AC. APRMs B, D, and F are powered from MCC-8B. A, C, and E are powered from Vital AC. APRMs B, D, and F are powered from lnstrument AC. APRMs A, C, and E are powered from APRMs B, D, and F are powered from lnstrument AC. Proposed Answer: D.

A,C,E - A,C,E A,C,E B,D,F lnstrl~ment A,C,E A,C,E Reference(s):

1. # Explanation (Optional):

A. lncorrect

-APRMs are supplied from MCC-8A; RPS Bus B is de-energized B. lncorrect APRMs were shifted back to RPS Bus " A" power; APRMs are supplied from MCC-8A, APRMs are powered from AC. C. lncorrect

-APRMs were shifted back to RPS Bus " A" power; APRMs are supplied from MCC-8A D. Correct Response -IAW OP-2134, Trip system A receives power from MG-3-1A and trip system B receives power from MG-3-1 B. Alternate power is available to either RPS bus from 480V MCC 8B. When de-energizing either RPS bus, the APRMs will automatically transfer to a loss of normal power (LNP) alternate power source. APRMs associated with RPS Bus A will transfer to the Vital AC source and RPS Bus B will transfer to an instrument AC source. Technical OP 21 34, Discussion pg 3 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-05-21 5 (As available)

Question Source: Bank Modified Bank New 581 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

1. WA (K&A andlor effect flowlreactor P-Spec(Not-BWR6) 2450? < O/' AhlD < % <25% ~25% - % c25O/0 Reference(s):

OP 24507 Discussion!

pages #5 Pg Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 2 # 201 006, K1.04 Importance Rating 3.1 Statement)

Knowledge of the physical connections cause-relationships between ROD WORTH MINIMIZER SYSTEM (RWM) (PLANT SPECIFIC) and the following:

Steam power: Proposed Question:

Common 27 During a reactor shutdown at what point will the Rod Worth Minimizer (RWM) first begin to enforce Control Rod Blocks IAW OP A. Steam Flow OR Feed Flow 21 B. Steam Flow Feed Flow 21 C. Steam Flow OR Feed Flow D. Steam Flow AND Feed Flow Proposed Answer: A. Explanation (Optional):

A. Correct When either Steam Flow or Feed Flow drops below the Low Power Set Point the RWM will start imposing select, insert and withdraw blocks. The LPSP is 21 in accordance with OP 2450 (Discussion Section and Definition 6). B. lncorrect

-When either Steam Flow or Feed Flow drops below the Low Power Set Point the RWM will start imposing insert and withdraw blocks. C. lncorrect

-APRM power readings do not affect the RWM. (They affect the RBM.) D. lncorrect

-Steam flow at corresponds to the Low Power Alarm Set Point in accordance with OP 2450 (Discussion Section and Definition 5). The RWM will generate alarms and indicate rod insert & withdraw errors but will not enforce Rod Blocks. APRM power readings do not affect the RWM. (They affect the RBM.) Technical (Attach if not previously 3&4 provided)

OP 2450, Definitions, & 6, 7 charrges Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New 3255 Lot more (Note attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 or Comments:

1. # # (K&A Drywell No drywell INB 2NB 1NB 3NB 2NB 4AlB running DRYWELL AIC - Examination Outline Cross-Level RO SRO Tier 2 Group 2 WA 223001, K2.08 Importance Rating 2.7 Statement)

Knowledge of electrical power supplies to the following:

Containment cooling air handling units: Plant. Proposed Question:

Common A Loss of Normal Power (LNP) has occurred and the following conditions The " A" Emergency Diesel Generator failed to start. All Reactor Recirculation Units (RRUs) are selected to RUN. All other equipment functioned normally operator actions have been taken Which one of the following conditions will the CRO observe when verifying the RRU status on CRP 9-25? A. RRUs B. RRUs C. RRUs D. RRUs Proposed Answer: A. Explanation (Optional):

A. Correct -If an LNP condition still exists, RRU 1 and 3 will restart immediately; RRU 2 and 4 may be restarted by momentarily pushing the CLG AND CTRL BLOCKING RESET pushbutton.

However in this case EDG " A has tripped so no power is available to RRU-3. RRU-2 will not restart until reset. RRU-3&4 do not have power B. lncorrect

-RRU-2 will not restart until reset C. lncorrect

-RRU-3 does not have power D. lncorrect RRU-2 will not restart until reset. RRU-4 does not have power Specific running running and running and Reference(s):

None K10 # # lVew Technical OP 21 15, Discussion pg 5 (Attach if not previously provided)

Proposed references to be provided to applicants during examination:

Learning Objective:

LOT-00-288, (As available)

Question Source: Bank 1169 Lot more Modified Bank (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 X Comments:

1. -- # WA # (K&A 87% "C" 10% runback runback Examination Outline Cross-Level RO SRO Tier 2 2 Group 256000, K3.04 Importance Rating 3.6 Statement)

Knowledge of the effect that a loss or malfunction of the REACTOR CONDENSATE SYSTEM will have on following:

Reactor Feedwater System Proposed Question:

Common 29 Plant conditions are as follows: Reactor Power = Feed Water Level Control is in Automatic, 3-element control with level controlling at 160" The US lights are NOT LIT on the individual recirc controllers Condensate Pump trips on thermal overload, resulting in a trip of " B Reactor Feedwater Pump. IAW OT 31 13, Reactor Low Level, the correct response is to: Lower power by reducing recirculation flow then restart the " B Reactor Feed Pump. Lower recirculation flow at 10% per minute to clear the Feed Pump low suction annunciator. Manually both Recirculation Pumps and verify the Master Feedwater Level controller sets down to 155". Verify both Recirculation Pumps to minimum speed and manually set down the Master Feedwater Controller to 155". Proposed Answer: C.

rur~back setdown setdown 87% >I593 MWth. Runback, runback runback runback Reference(s):

Pg 2 # # Explanation (Optional):

C. Correct -IAW OT 31 13, If reactor power is greater than 1593 megawatts thermal and any condensate or feed pump trips: Manually Reactor Recirc Pumps to a 40% demand signal and verify the master vessel level controller to 155. Per OP 21 10, whenever PB-1 is depressed on the individual recirc pump controllers, a level to 155 is auto generated.

power is There is no low flow, level condition or Feed Pump Breaker tripping to automatically initiate a Recirc so the must be done manually.

A. and B. incorrect

-Recirc pumps must be to 40% demand D. Incorrect

-Because it was a Condensate Pump that tripped, an automatic will not occur because of the lower power level and actions must be manually taken.

OT 31 13, Immediate Actions (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-602, K3.05, K4.10, (As available)

CRO 2 Question Source: Bank 6209 Lot more Modified Bank (Note changes or attach parent) New Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. WA # (K&A RHRILPCI:

TORUS/SUPPRESSION feature(s) and/or "D" Drywell RHR-39A, SPRAYICLG 1 LPCl Loop(s) %" IVOT "6 ONLY 'B' Examination Outline Cross-reference: RO SRO Tier 2 2 230000, K4.02 Importance 3.1 Statement)

Knowledge of POOL SPRAY MODE design interlocks which provide for the following:

Redundancy Proposed Question:

Common 30 The plant was at power with the breaker for RHR Pump tagged out maintenance when the following A reactor coolant leak resulted in a pressure of 6 RHR Pump " A was TORUS was opened, for Torus No other actions are taken. Following these actions, a loss of power of Bus 4 occurs (DG fails to supply the bus and NO buses are cross-tied). What is the current status of the RHR i i i Group One RHR Pump is available for injection on (1) RHR I Torus sprays are (2) . A. (1) (2) " A NOT available on either RHR loop B. (1) (2) available on either RHR loop C. (1) (2) " A and " B available ONLY on 'A J RHR loop D. (1) (2) " A and available on RHR loop

& & & & RHR-39A, SPRAYICLG RHR- de- "6 6. & RHR-38A, Reference@):

P&IDs # # Proposed Answer: Explanation (Optional):

A. Correct -RHR Loop A consists of pumps A C, RHR Loop B consists of pumps B D. Bus 3 supplies RHR Pumps C D, Bus 4 supplies RHR Pumps A B. With the present plant conditions only the " C" RHR Pump has power which is being supplied from Bus 3 since the " D RHR Pump was previously tagged out of service. With TORUS previously opened for Torus Spray it is necessary to open 38A to initiate Torus Spray on the " A RHR Loop. However, with Bus 4 being energized and no buses cross-tied there is no power to the " A" Loop Valves so sprays are not available on " A RHR Loop. Although there is power to the RHR Loop valves from Bus 8 there is no RHR Pump available in the loop to supply torus spray. C. D. Incorrect

-Both pumps in loop B are inoperable (B pump de-energized D pump tagged-out). With the loss of power to Bus 4 and Bus 9, RHR containment cooling valves are deenergized on RHR Loop A. Cannot remotely open TORUS SPRAY 191 172, 191 299 (Attach if not previously OP 2143, App A Page 42 provided)

Technical Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. KIA (K&A INTERNALS 12% Oh - <12", (i.e. +6". Reference(s): .D VESSEL Examination Outline Cross-Level RO SRO Tier # 2 Group 2 290002, K5.07 Importance Rating 3.9 Statement)

Knowledge of the operational implications of the following concepts as they apply to REACTOR . Safety limits Proposed Question:

Common Which OWE of the following result in a violation of a TS Safety MCPR = 1.08 when Reactor Pressure = 81 0 psia AND core flow = of rated while in Two Loop operation. MCPR = 1.10 when Reactor Pressure = 81 0 psia AND core flow = 1 1 of rated in Single Loop operation. The reactor shutdown with irradiated fuel in the vessel and reactor vessel water level 10 above the top of the enriched fuel when it is seated in the core. The reactor shutdown with enriched fuel in the vessel and reactor vessel water level 12 above the top of the irradiated fuel when it is seated in the core. Proposed Answer: C. Explanation (Optional):

A. Incorrect:

This meets the TS Safety Limit 1.1 .A. B. Incorrect:

This meets the TS Safety Limit 1.1 .A. C. Correct response this is a violation of TS Safety Limit 1.1 .D. which states that whenever the reactor shutdown with irradiated fuel in the vessel the water level shall not be less than 12 inches above the top of the enriched fuel when it is seated in the core. D. Incorrect

-Not also, the limit concerns level above enriched and not irradiated fuel. 12 above the top of the irradiated fuel corresponds to an indicated level of 18 TAF + 12" where at VY TAF = Therefore TAF + 12 = 18.) Technical T.S. 1.1 (Attach if not previously provided)

1. Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. KIA (K8A CAlVlVOT 6. RPlS Reference(s):

1. Examination Outline Cross-Level RO SRO Tier # 2 Group 2 201 002, K6.01 Importance Rating 2.5 Statement)

Knowledge of the effect that a loss or malfunction of the following will have on the REACTOR MANUAL CONTROL SYSTEM : Select matrix power Proposed Question:

Common 32 During operation at 100% power, which one of the following is the effect of placing the Rod Select Power Switch in OFF? The Rod Worth Minimizer indicates a Select Error. The Rod Position Indication System becomes inoperative. A control rod CANNOT be selected for display on the four rod display. Control rod positions be determined on both the full core and four rod displays.

Proposed Answer: C. Explanation (Optional):

A. lncorrect

-the RWM has no effect at this power level. lncorrect-The does NOT become inoperable, but no control rods can be selected.

C. Correct -Rod select power must be turned on to select a control rod. If a rod cannot be selected, it cannot be displayed on the four rod display. D. lncorrect-Control rod positions are still displayed OP 2147, App B Page 18 (Attach if not previously ON 31 74, Page 2 provided)

Technical Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Lot more

1. Cogrritive Modified Bank New X (Note changes or attach parent) Question History: Last NRC Exam No Question Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. WA # (K&A pred~ct andlor resultirrg hlFPC 139°F ONE Examination Outline Cross-reference: RO SRO Tier 2 Group 2 233000, A1.07 Importance Rating 2.7 Statement)

Ability to monitor changes in parameters associated with operating the FUEL POOL COOLING AND CLEAN-UP controls including:

System temperature Proposed Question:

Common 33 The plant has just resumed power operations following a refueling outage. The following conditions exist: One train of Normal Fuel Pool Cooling (NFPC) is in service aligned to the Spent Fuel Pool with maximum cooling water flow through the in-service heat exchanger. , River temperatures are unusually high in high Service Water and Reactor Building Closed Cooling Water (RBCCW) temperatures.

All trains of and Standby Fuel Pool Cooling (SFPC) are available.

Spent Fuel Pool temperature is and rising. In accordance with OP 21 79, Standby Fuel Pool Cooling which one of the following actions is required? Place the OTHER train of NFPC in service. Maintain ONE train of NFPC in service and place train of SFPC in service. Place ONE train of SFPC in service and secure NFPC. Maintain ONE train of NFPC in service and place BOTH trains of SFPC in service. Proposed Answer:

140°F, -SFPC - Reference@):

I # # Explanation (Optional):

C. Correct -From OP-2179, P&L 8, Prior to the Spent Fuel Pool water temperature exceeding secure the Normal FPC and place the SFPC System in service. SFPC is cooled by SW, FPC is cooled by RBCCW. A. lncorrect

-SFPC needs to be placed in service and so NFPC must be secured. It is physically impossible for NFPC and SFPC to be in service on the Spent Fuel Pool at the same time. B. lncorrect needs to be placed in service and Normal FPC has to be secured. It is physically impossible for NFPC and SFPC to be in service on the Spent Fuel Pool at the same time. D. lncorrect SFPC need to be placed in service. It is physically impossible for NFPC and SFPC to be in service on the Spent Fuel Pool at the same time. Technical OP-2179, P&L 8, pg 6 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. KIA # (K&A Abllity following

predlctlons, mltigate cond~tlons operations

mismatch:

Plant-Spec~flc I "B" 43% i I I 65% 98% ! >34%. 1 >45%. >70% 70% - Reference(s):

Examination Outline Cross-Level RO SRO Tier # 2 Group 2 202001, A2.08 Importance Rating 3.1 Statement) to (a) predict the Impacts of the on the RECIRCULATION SYSTEM and (b) based on those use procedures to correct, control, or the consequences of those abnormal or Recirculation flow Proposed Question:

Common 34 The reactor was operating at 90% power when the Recirculation Pump tripped. In response reactor power has been lowered to by inserting control rods. In accordance with OT 31 18, Recirculation Pump Trip, which one of the following subsequent actions is required for speed control on the " A Recirculation Pump? A. Lower the pump speed to between and 70%. B. Lower the pump speed to between and 100%. C. Raise pump speed as necessary to insure Core flow is D. Raise pump speed as necessary to insure Core flow is Proposed Answer: A. Explanation (Optional):

A. Correct -IAW OT 31 18 (similar statements in OT-3117 and OP-2110) IF running pump is operating rated speed, THEN REDUCE speed to 65 to rated speed. B. Incorrect

-The initial portion of the procedure directs the operator to insure the recirc pump is not exceeding 98 100% speed; this is prior to inserting the control rods. C. and D. Pump speed should not be raised because the trip of the B pump occurred at 90% power the " A pump is already over 70% speed. Technical OT 31 18/31 17 and OP-2110 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

1. # Learning Objective: (As available)

Question Source: Bank Lot more Modified Bank (Note changes or attach parent) New Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

1. KIA # (K&A Statement)

-40% Ibmlhr Ibmlhr. Examination Outline Cross-Level RO SRO Tier # 2 Group 2 259001, A3.10 Importance Rating 3.4 Ability to monitor automatic operations of the REACTOR FEEDWATER SYSTEM including:

Pump trips Proposed Question:

Common 35 During power ascension at feedwater flow, a second feedwater pump is started. Shortly thereafter the discharge valve for the first running reactor feedwater pump is inadvertently shut and the associated minimum flow valve fails to open. What are the effects on the first running feedwater pump? The pump will continue to run until cavitation causes the pump to trip on high vibration after a six-second time delay. Cavitation in the pump will require operator action in 180 seconds to prevent pump damage. The pump will auto trip when suction flow drops below 300,000 after a thirteen second time delay. The discharge valve will automatically re-open when discharge flow drops below 300,000 Proposed Answer: C. I TD (>300,000 Ibmlhr). <90 purrlp sec. " run Reference(s):

1. Explanation (Optional):

A. lncorrect

-There is no high vibration trip. Six second is to allow the pump to develop sufficient flow B. lncorrect

-Operation near or at min flow conditions are only allowed for seconds. This pump is running with no flow path. Per Precaution 3 of OP 2172: " At operating speed, the energy expended by a pump running at shutoff head conditions will result in excess vibration of the pump casing and internals.

This will result in seal damage in approximately 20 when running at speed or slightly longer during a pump start. Trip the pump if flow isolates or minimum flow valve does not open when pump is started. Therefore the pump should be manually tripped as soon as pump isolation is diagnosed.

Allowing the pump to for up to 180 seconds would result in pump seal damage. C. Correct Response D. lncorrect

-The minimum flow valve opens on a low flow, not the discharge valve Technical OP 21 72 (Attach if not previously provided)

Proposed references to be provided to applicants during Learning Objective: (As Question Source: 1 648 (requal) Lot more Modified Bank # (Note changes or attach parent) New Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. # WA # (K&A and/or REFUEL I ! 1 Reference(s):

I Examination Outline Cross-reference: RO SRO 2 2 234000, A4.02 Importance Rating 3.4 Statement)

Ability to manually operate monitor in the control room: Control rod drive system (Fuel Handling Equipment)

Proposed Question:

Common 36 The reactor mode switch is in the position, and the refueling platform (bridge) is over the reactor pressure vessel. For which one of following reasons would a control rod block be generated?

A. The Grapple is NOT in the FULL UP position.

B. All rods are full-In, except for a selected rod at position 48. C. The Frame Mounted Hoist is unloaded and NOT FULL UP. D. The Grapple is loaded with a fuel assembly and in the FULL UP position.

Proposed Answer: D. Explanation (Optional):

A. lncorrect

-The Grapple not full up will not cause a block unless it is loaded. B. lncorrect

-The fuel grapple will not cause a block unless it is loaded. C. lncorrect

-For a rod block the control room must select a second rod for movement with any other rod withdrawn from the fully inserted position.

D. Correct -IAW OP-1100, Control rod withdrawal is prevented with the mode switch in REFUEL and Refuel platform over the core with fuel loaded on any refueling platform hoist. Technical OP 1 100, pg 1(Attach if not previously provided)

Tier Group Proposed references to be provided to applicants during examination:

None ,

, Learning Objective: (As available)

1. Question Source: Bank # Lot more Modified Bank 3408 (Note changes or attach parent) New Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. 2 KIA # (K&A / 100°/~ 1.f - Reference@):

Examination Outline Cross-Level RO SRO Tier # 2 Group 290001, 2.2.37 Importance Rating 3.6 Statement)

Equipment Control: Ability to determine operability and or availability of safety related equipment (Secondary Containment)

Proposed Question:

Common 37 With the plant operating at power, a leak has developed on the " A" Reactor Water Cleanup Pump (RWCU) discharge line. The leak CANNOT be isolated and temperatures on the Reactor Building 280 ft level are approaching the Maximum Safe Value for that area. Which one of the following actions is required and why is this action required? Immediately scram the reactor because EOP related equipment may fail. Commence a plant shutdown because Secondary Containment may be lost. Commence a plant shutdown because of limited access to the Reactor Building. Immediately scram the reactor because overheating of RWCU resin will produce increasing area radiation levels. Proposed Answer: A. Explanation (Optional):

A. Correct -IAW EOP-4, With a primary system discharging into Reactor Building scram the plant before any parameter reaches its Max Safe Value. parameters in EOP-4, Secondary Containment Control approach their maximum safe operating value, adequate core cooling, containment integrity, safety of personnel, or continued operability of equipment required to perform EOP actions can no longer be assured B. lncorrect

-A scram is required C. lncorrect A scram is required D. lncorrect

-The location of the RWCU leak will not result in the overheating of demineralizer resin. Technical EOP-4, Step SC-3 (Attach if not previously EOP Study Guide provided)

1. - Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. (K&A / Monitor~ng pCi/sec pCi/sec. OIV I - Reference(@:

Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 2 Importance Rating 4.2 Statement)

Emergency Procedures Plan: Ability to diagnose and recognize trends in an accurate and timely manner utilizing the appropriate control room reference material. (Radiation System) Proposed Question:

Common The plant is operating at 100% and SJAE radiation levels are No alarms are currently in but SJAE OFF GAS RAD recorder RR-17-152 higher than normal levels. Activity levels are fluctuating between and Which one of the following provides operational guidance for the current conditions?

A. ON 3152, MSL and Off Gas High Radiation B. 31 53, Excessive Radiation Levels C. EOP-4, Radioactivity Release Control D. Core Operating Limits Report Proposed Answer: A. Explanation (Optional):

A. Correct -ON 31 52, MSL and Off Gas High Radiation B. lncorrect

-ON 31 53 provides guidance for high area radiation levels NOT high activity levels in the Off Gas System C. lncorrect

-Air Ejector Hi-Hi (3-G-1) or Hi (3-G-2) Annunciators are NOT in alarm so there currently is no entry condition for EOP-4, Radiation Release. D. lncorrect The Core Operating Limits Report contains guidance regarding operation constraints placed on the reactor core such as thermal limits. It does not provide any constraints or guidance pertaining to high Off Gas activity.

Technical ON-31 52, Sect. 4, pg 4 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

1. WA # AK1 (K&A MAIN TRIP 6. 40% - lirrrit Reference(s):

Examination Outline Cross-Level RO SRO Tier # 1 Group 1 295005, .O1 Importance Rating 4.0 Statement)

Knowledge of the operational implications of the following concepts as they apply to TURBINE GENERATOR

Pressure effects on reactor power Proposed Question:

Common 39 Which one of the following is TRUE concerning the pressure transient that results from a design basis Turbine Stop Valve Closure Scram? Minimum Critical Power Ratio is NOT exceeded ONLY if the Turbine Bypass Valves open. Minimum Critical Power Ratio is NOT exceeded REGARDLESS of the Turbine Bypass Valves position. Technical Specifications Pressure Safety Limit is NOT exceeded ONLY if the Turbine Bypass Valves open. Technical Specifications Pressure Safety Limit is NOT exceeded REGARDLESS of the control rod positions following the scram. Proposed Answer: B. Explanation (Optional):

B. Correct -IAW TS, The turbine stop valve closure scram trip anticipates the pressure, neutron flux and heat flux increase that could result from rapid closure of the turbine stop valves. With a scram trip setting of of valve closure from full open, the resultant increase in surface heat flux is limited such that MCPR remains above the fuel cladding integrity safety limit even during the worst case transient that assumes the turbine bypass is closed. A. lncorrect MCPR remains above the fuel cladding integrity safety limit even when the Turbine Bypass Valves fail to open. C. lncorrect

-Power (MCPR) is the bases, safety limit is not exceeded regardless of bypass valve positions.

D. lncorrect

-Power (MCPR) is the bases. The transient analysis assumes control rods insert to reduce power and rise in reactor pressure and reduction in MCPR. Technical TS Bases 2.1.E, pg 17 (Attach if not previously

1. (Note 10 provided)

Modified Bank changes or Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Lot more attach parent) New X Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis CFR Part 55 Content: 55.41 X 55.43 Comments:

1. WA # EK1 lrr~portance HIGH DRYWELL Drywell 300°F ERFlS WIDEM071, ERFlS SHDAB046, Examination Outline Cross-reference:

Level RO SRO Tier # 1 Group 1 295028, .O1 Rating 3.5 Knowledge of the operational implications of the following concepts as they apply to TEMPERATURE

Reactor water level measurement Proposed Question:

Common Proposed Substitute Question 40 A LOCA has occurred and the following conditions exist: All control rods have inserted Recirc Pumps have tripped RPV Emergency Depressurization has just been commenced pressure is 5.3 psig RPV pressure is 700 psig and lowering Reference Leg Temperatures are reading Which of the following is the most accurate RPV level indication for the CURRENT conditions?

A. + 78 on ECCS Level Indicator LI-2-3-72A on CRP 9-5 B. + 79 on RPS Level Indicator LI-2-3-57B on CRP 9-5 C. -5 on point Compensated Rx Level Wide 70 D. -45" on point Compensated Rx Level Shroud 73A Proposed Answer: C.

- ERFlS WIDEM071, WIDE RPSIECCSlTransients - RPSIECCSKransients

< Corr~pensated Raqge ERFlS Reference(s):

RPSIECCSlTransients RPSIECCSlTransients Soi~rce: # lblemory Explanation (Optional):

C. Correct DP 01 66 (page 7) states: " During rapid reactor de-pressurization transients, the narrow range (NR) RPV level instruments may indicate high or off-scale. Because they are compensated, both Shroud and Wide Range level indications should be monitored.

During rapid depressurization Wide Range is preferred above 350 psig, while Shroud Level is preferred below 350 psig." DP 0166 then specifies that point COMPENSATED RX LEVEL 70 be used for this purpose A. lncorrect

-Based on the Minimum lndicated Level for curve. The minimum indicated level for the ECCS instruments with the Reference Leg at 300°F is greater than 81. Since the indicated ECCS level is 78" this level indicator cannot be used. B. lncorrect Based on the Minimum lndicated Level for curve. The minimum indicated level for the RPS instruments with the Reference Leg at 300°F is greater than 81. Since the indicated RPS level is 79, this level indicator cannot be used. D. lncorrect

-The Shroud Level Indicators are Cold Calibrated and therefore should not be used until reactor pressure is 350 psig. DP 01 66 specifies that during rapid depressurization the point is preferred above 350 psig, EOP-1 and EOP-3 (Attach if not previously Minimum Indicated Level -provided)

EOP Study Guide Sect 13, pg 47 DP 0166 (Rev. 19) Pg. 7 Wide Proposed references to be provided to applicants during Graph of Minimum examination:

Indicated Level -from EOP-1 Learning Objective:

LOT-00-622, 8 (As available)

Question Bank # Modified Bank New 3222 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: or Fundamental Knowledge Comprehension or Analysis 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

I # WA # EK1 (K&A I ! I I Examination Outline Cross-Level RO Tier # 1 295030. .O1 Importance Rating 3.8 Statement)

Knowledge of the operational implications of the following concepts as they apply to LOW SUPPRESSION POOL WATER LEVEL: Steam condensation Proposed Question:

Common I (fi) 6. drywell. 1)Event2 from drywell. Torus Level Refer to the PSP figure above and determine:

1) Which listed event challenges the LOW TORUS LEVEL portion of the graph? AND 2) What are the consequences of violating the limit? Event 1: Suppression Pool level uncovering of Torus Event 2: Suppression Pool level uncovering Safety Relief Valve T-1) Event 1 2) Violating the limit allows steam to flow directly into the torus free air space. 1) Event 2) Violating the limit allows steam to flow directly into the torus free air 1) Event 1 2) Violating the limit allows gases from the torus free air space to flow into the D. 2) Violating the limit allows gases the torus free air space to flow into the drywell The Reference(s):

1. Proposed Answer: Explanation (Optional):

A. Correct -7 ft (the elevation of the downcomer openings).

When the downcomer vent openings are not adequately submerged, any steam discharged From the RPV into the may not condense in the torus before torus pressure reaches unacceptable levels. B. lncorrect

-The SRVs may be used down to a torus level of 5.5 feet. C. lncorrect

-bases for the limit is to insure condensation of steam. D. lncorrect

-The SRVs may be used down to a torus level of 5.5 feet and The bases for the limit is to insure condensation of steam. Technical EOP-Study Guide, Sect 13, (Attach if not previously pg 39 of 54 provided)

Sect 5, pg 8 of 19 Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. WA # (K&A HIGH followirrg VIOLA-TES (ft) 6. Temperature Examination Outline Cross-reference:

Level RO SRO Tier # 1 1 295026, EK2.06 Importance Rating 3.5 Statement)

Knowledge of the interrelations between SUPPRESSION POOL WATER TEMPERATURE and the following:

Suppression pool level Proposed Question:

Common 42 Using the Heat Capacity Temperature Limit diagram below determine which one of the sets of parameters the HCTL. HCTL Group Torus Level Torus Level Torus RPV Pressure A. 9 1 80 1050 10 205 480 C. 11 220 250 D. 12 245 47 1 - Reference(s):

Pg 41 # # Proposed Answer: A. Explanation (Optional):

A. Correct -180 degrees exceeds the 1080 psig curve for 9' torus level. B. lncorrect

-205 degrees is below the 500 psig curve for 10' torus level. C. incorrect

-220 degrees is below the 300 psig curve for 1' torus level. D. Incorrect 245 degrees is below the 50 psig curve for 12' torus level. EOP Study Guide, Sect. 6, (Attach if not previously provided)

Technical Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. KIA # (K&A heatup The ONLY on .flow. The runout. Examination Outline Cross-reference: RO SRO Tier 1 1 29501 9, AK2.04 Importance Rating 2.8 Statement)

Knowledge of the interrelations between PARTIAL OR COMPLETE LOSS OF INSTRUMENT AIR and the following:

Reactor water cleanup Proposed Question:

Common 43 Given the following plant conditions:

A reactor startup and is in progress Reactor water level is being controlled via RWCU letdown to the main condenser RWCU Demin Bypass Valve (CU-74) is open Main condenser vacuum has been established using the Mechanical Vacuum Pump The Control Rod Drive System is in service. A loss of instrument air to the RWCU System will have which of the following effects under these conditions? The running RWCU Pump will trip low A loss of RWCU letdown flow will result in rising reactor water level. C. running RWCU Pump will trip on overcurrent due to pump RWCU will isolate on high Non-Regenerative Heat Exchanger outlet temperature.

Proposed Answer: Group on 'flow - NOT Reference@):

Instrument/Scram A, page 5) Explanation (Optional):

A. lncorrect

-The running RWCU Pump will NOT trip low because flow will still flow through the filterldemineralizers and back to the reactor. B. Correct -RCU Dump Flow Regulator will fail closed on loss of air. Use of cleanup system to lower or control Rx water level will not be available.

With CRD in service water level will increase.

C. lncorrect The running RWCU Pump will trip on high flow because flow will be controlled by flow through the filterldernineralizers and back to the reactor. D. lncorrect

-This may occur if the RCU Dump Flow Regulator failed open. Technical ON 31 46, Low (Attach if not previously Air Header provided)

Pressure, Rev 20 (Appendix Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New 3876 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

KIA # (K&A FIRE SITE MAlN TI TRIP 7-0-3, MAlN TI (1) (21 (1)off Examination Outline Cross-Level RO SRO Tier # 1 Group # 1 600000, AK2.04 Importance Rating 2.5 Statement)

Knowledge of the interrelations between PLANT ON and the following:

Breakers, relays, and disconnects Proposed Question:

Common The plant is operating at 100% power when the following alarm 7-D-XFMR HI TEMP HI Zone 40 Fire Alarm on Control Room fire panel (CP-115-3). Which one of the following is the status of the Main Transformer?

The Main Transformer deluge sprays are and the transformer A. (1) on (2) energized B. (1) on (2) de-energized C. (1) off (2) energized D. (2) de-energized Proposed Answer:

280°F IT, TI 86GP, Reference@):

provided)

Explanation (Optional):

B. Correct -IAW OP 21 86, At a continuous linear Protectowire loop activates Zone 40 ALARM, CP-115-3, Control Room fire panel and deluge valve, FP-DV-202, actuates water flows to the Main Transformer spray system. IAW 7-D-2, Check open 81-IT, MOD, exciter field breaker and turbine tripped. 86GB lockout relays de-A. lncorrect

-Transformer is de-B lncorrect

-Sprays are on and transformer is de-C. lncorrect

-Sprays are Technical ARS 21 005, 7-D-2 (Attach if not previously OP 21 86, Sect. L, pg 106 Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

1. WA # (K&A Which ductwork - design droppirlg asserr~bly ductwork Reference(s):

LIFSAR Examination Outline Cross-reference: RO SRO Tier 1 1 Group 295023, AK3.03 Importance Rating 3.3 Statement)

AK3.03 -Knowledge of the reasons for the following responses as they apply to REFUELING ACCIDENTS:

Ventilation isolation.

Proposed Question:

Common 45 one of the following is the reason for the Reactor Building Ventilation (RBHVAC) isolation during a Design Bases Refueling Accident IAW the UFSAR? lnsures containment integrity and an elevated release. lnsures a filtered release, regardless of Secondary Containment. Blocks the intake and exhaust of unfiltered air from the Reactor Building.

I i Blocks the RBHVAC spent fuel pool to minimize the pickup of radioactive particulates.

Proposed Answer: A. Explanation (Optional):

A. Correct A bases refueling accident involves a fuel the UFSAR analysis states (regarding the radiological release) " Credit is taken for containment, collection, and elevated release for 100% of the activity escaping the fuel pool. No credit is needed (or taken) for SGTS filters". B. lncorrect

-No credit is needed (or taken) for SGTS filters, however secondary containment is maintained.

C. lncorrect

-No credit is needed (or taken) for SGTS filters D. lncorrect

-This is not isolated and this is not the basis for the isolation.

Technical Section 14.6.4.4, pg (Attach if not previously 1558. provided)

Proposed references to be provided to applicants during None examination:

10 Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis CFR Part 55 Content: 55.41 X 55.43 Comments:

1. WA # (K&A shutdownltripped ONLY components1systems Reference(s):

Examination Outline Cross-reference:

Level RO SRO Tier # 1 1 29501 8, AK3.04 Importance Rating 3.3 Statement)

Knowledge of the reasons for the following responses as they apply to PARTIAL OR COMPLETE LOSS OF COMPONENT COOLING WATER : Starting standby pump Proposed Question:

Common 46 The running RBCCW pump has tripped and the standby pump did NOT start. If the standby pump cannot be started which of the following componentslsystems must be Group MANUALLY in accordance with ON 31 47, Loss of RBCCW? The Reactor Water Cleanup System The Recirculation Pumps, the operating CRD Pump ONLY The operating CRD Pump and the Reactor Water Cleanup System ONLY The Recirculation Pumps, the operating CRD Pump AND the Reactor Water Cleanup System. Proposed Answer: D Explanation (Optional):

A. lncorrect

-All three componentslsystems must be shutdown.

B. lncorrect

-All must be shutdown.

C. lncorrect

-All three componentslsystems must be shutdown.

D. RWCU must be shutdownlverified isolated and shutdown.

The CRD pumps supplying seal water and hi temperature effects on resin (demineralizers are protected by an automatic isolation at 140°F). Recirc pump seals will be damaged and the recirc pumps are required to be shutdown within 2 minutes after RBCCW is lost. CRD pump bearings and reduction gear are cooled by RBCCW and must be manually shutdown to prevent damage.

Technical ON 3147, Rev 11, pgs 2 & 3 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

1. # - Learning Objective: (As available)

Question Source: Bank Modified Bank New 5677 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 X Comments:

1. 1 KIA # (K&A 4KVl480V ENlER R R Examination Outline Cross-Level RO SRO Tier # 1 Group 29501 6, AK3.03 Importance Rating 3.5 Statement)

Knowledge of the reasons for the following responses as they apply to CONTROL ROOM ABANDONMENT

Disabling control room controls Proposed Question:

Common 47 In accordance with OP-3126, Shutdown Using Alternate Shutdown Methods, which one of the following occurs when the Switchgear transfer switches are placed in and what is the reason for this transfer? MOST automatic functions and system interlocks are defeated because a fire may cause inadvertent automatic actions. ONLY breaker control functions from the Control Room are defeated because Appendix requires that components must be controlled only from one area. ALL automatic functions are available but system interlocks are defeated because operators have less indications and controls available to them during alternate shutdown. ALL breaker control functions are defeated but most automatic functions and system interlocks are available because Appendix requires the majority of interlocks and automatic functions to remain functional.

Proposed Answer: A.

& #I 4KVl480V Reference(s):

Learnirrg

1. Modified # (IVote Explanation (Optional):

A. Correct -OP-3126, P L Placing the RCIC, RHR, Switchgear, or the DG transfer switches in EMER removes control function from the Control Room and defeats most automatic functions and system interlocks.

OP-3126, PG 51, Local Operation of 4KV Bus 4 Breaker, states Place the alternate shutdown transfer switch to the emergency position and then place the emergency breaker control switch to the desired position.

If not shifted to alternate various automatic actions may or may not occur as intended or they may occur inadvertently.

B. lncorrect

-Most automatic functions and system interlocks are defeated and If not shifted to alternate various automatic actions may or may not occur as intended or they may occur inadvertently.

C. lncorrect

-Most automatic functions and system interlocks are defeated and If not shifted to alternate various automatic actions may or may not occur as intended or they may occur inadvertently.

D. lncorrect

-Most automatic functions and system interlocks are defeated and If not shifted to alternate various automatic actions may or may not occur as intended or they may occur inadvertently.

Technical OP-3126, Rev 18 pg 6, 8 (Attach if not previously and 51 provided)

Proposed references to be provided to applicants during None examination:

Objective: (As available)

Question Source: Bank New Bank X Lot more changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

1. # KIA # (K&A andlor GRID 4? (4T2). (4T2). sequencelsteps - Reference@):

Examination Outline Cross-Level RO SRO Tier Group Importance Rating 3.9 Statement)

Ability to operate monitor the following as they apply to GENERATOR VOLTAGE AND ELECTRIC DISTURBANCES:

Engineered safety features.

Proposed Question:

Common 48 Following loss of the Auto Transformer, voltage on Emergency Buses 3 and 4 CANNOT be restored to above 3700 VOLTS. In accordance with ON-31 55, Loss off the Auto Transformer, which one of the following methods is used to restore voltage on Buses 3 and Note: Assume all actions are completed for one bus before completing the same actions for the second bus. START and PARALLEL each diesel generator to its 4 KV bus. OPEN Breaker 12 (22) to de-energize Bus 1 (2) initiating a full LNP sequence for each bus. START and PARALLEL the associated diesel generator to its 4 KV bus. Then separate the bus from the electrical system by opening Breaker 3T1 START the associated diesel generator, then transfer Bus 3 (4) to the diesel generator by de-energizing the bus by opening Breaker 3T1 Proposed Answer: D. Explanation (Optional):

A. lncorrect

-The procedure warns not to attempt manually connecting DG-1-1 B to Bus 3 because of the low voltage condition.

B. lncorrect

-The are not in accordance with procedural direction and would cause a temporary loss of power and challenge the electrical system. C. lncorrect

-The procedure warns not to attempt manually connecting DG-1-1 B to Bus 3 because of the low voltage condition.

D. Correct Response Correct per the procedure Technical ON 31 55, Rev 10, pg 6 Step (Attach if not previously

1. EB provided)

Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-601, CRO 3 (As available)

Question Source: Bank Modified Bank # New 205 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

9-9-08 --Revised question for readability and plausibility.

1. WA # AA1 (K&A and/or Cor~trol an & Reference(s):

Drawivgs Examination Outline Cross-Level RO SRO Tier # 1 Group 1 295004, .O1 Importance Rating 3.3 Statement)

Ability to operate monitor the following as they apply to PARTIAL OR COMPLETE LOSS OF D.C. POWER : D.C. electrical distribution systems Proposed Question:

Common 49 A 4KV breaker that is normally operated from the Control Room loses DC control power. What breaker responses, if any, are functional? Auto trips on an LNP Can be closed from the Control Room Auto trips on an LNP CANNOT be closed from the Control Room Does NOT auto trip on an LNP Can be opened from the Room Does NOT auto trip on CANNOT be opened from the Control Proposed Answer: D. Explanation (Optional):

D. Correct -The breaker will lose DC Control power and therefore not be operable from the control room. Additionally remote automatic functions like the load shed signal will not open the breaker. A. B. C. Incorrect the loss DC Control power prevents remote operation and remote automatic trips. Technical CWD 4KV breakers (Attach if not previously General Physics provided)

Fundamentals LOT-00-1 2 1 ON-31 59, Mentions specific breakers but not Load Shed breakers.

See Note pg 5 Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-263 (As available)

Question Source: Bank # Modified Bank # New 5650 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 1 # 1 (K&A andlor 0 - - f~~lly Reference(s):

P&ID Examination Outline Cross-reference:

Level RO Tier Importance Rating 3.5 Statement)

Ability to operate monitor the following as they apply to SCRAM : CRD hydraulic system Proposed Question:

Common 50 A hydraulic ATWS has occurred due to blockage of both scram discharge volumes. OE 3107 Appendix G, Manual Insertion of Individual Control Rods has been directed.

The following conditions exist: Scram air header pressure is psig. The scram valves for all 89 control rods are open. Only one CRD Pump is available CRD-56, CRD Charging Water Header Supply, is stuck in the OPEN position.

Under these conditions, control rods will: NOT move inward because the CRD flow control valve is fully open. MOVE inward even though both scram discharge volumes are blocked. MOVE inward since the CRD flow control valve will not be affected by the CRD 56 failure. NOT move inward because drive water differential pressure will not be sufficient to move the control rods. Proposed Answer: D. Explanation (Optional):

A. lncorrect the rods will NOT move inward because the CRD flow control valve is fully shut. B. lncorrect the CRD flow control valve is shut. C. lncorrect

-The blockage of the scram discharge volume only affects the discharge of scram water and not CRD drive flow which returns to the reactor. D. Correct Response 191 (Attach if not previously provided)

Technical

1. # Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-61 0, CRO-2, 3 (As available)

Question Source: Bank Modified Bank New 408 requal Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowled Comprehension or Analysis ge X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. KIA # (K&A > RPVISVIRV

> RPVISVIRV

> > Examination Outline Cross-reference:

Level RO SRO Tier # 1 1 295021, AA2.05 Importance Rating 3.4 Statement)

Ability to determine and/or interpret the following as they apply to LOSS OF SHUTDOWN COOLING : Reactor vessel metal temperature Proposed Question:

Common 51 A loss of shutdown cooling has occurred and forced circulation through the core cannot be established.

Which one of the following is required to monitor reactor vessel metal temperature?

A. Restore reactor water level to 160" and monitor reactor vessel skin temperatures at least every 15 minutes on PLC 2-1 66, screen and TR-2-3-90 (CRP 9-3). B. Restore reactor water level to 185" and monitor reactor vessel skin temperatures at least every 30 minutes on PLC 2-1 66, screen and TR-2-3-90 (CRP 9-3). C. Restore reactor water level to 160" and monitor reactor vessel bottom drain temperatures least every 15 minutes on Recirculation loop temperature recorder, TR-2-165. D. Restore reactor water level to 185" and monitor reactor vessel bottom drain temperatures least every 30 minutes on Recirculation loop temperature recorder, TR-2-165. Proposed Answer: B. Group 2-166, RPVISVIRV - Reference@):

Pg 7 Ql~estion Explanation (Optional):

B. Correct -IAW ON-31 56, Sect. If forced circulation through the core cannot be established proceed as Periodically monitor reactor vessel skin temperatures on PLC screen, (CRP 9-21) AND TR-2-3-90 (CRP 9-3) at least once per 30 minutes or more frequently dependent on the time to boil estimate.

A. lncorrect 160 is approximately the height reactor water level is raised to for normal SDC. C. lncorrect

-160 is approximately the height reactor water level is raised to for normal SDC and with no flow in the RPV the recirc loop temperatures would be meaningless.

D. lncorrect

-There is no guidance to use bottom head temperatures and with no flow in the RPV the recirc loop temperatures would be meaningless.

Technical ON-31 56, Sect. B.9, Rev (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

1. 1 # 1 KIA # (K&A andlor (1 ) (2) ir~put terr~perature Examination Outline Cross-Level RO SRO Tier Group 295037, EA2.04 Importance Rating 4.0 Statement)

Ability to determine interpret the following as they apply to SCRAM CONDITION PRESENT AND REACTOR POWER ABOVE APRM DOWNSCALE OR UNKNOWN : Suppression pool temperature Proposed Question:

Common 52 In accordance with EOP 2 during an ATWS boron must be injected before Torus water temperature reaches to ensure injection of A. (1) 110°F (2) Hot Shutdown Boron Weight to prevent additional containment heat which would cause a loss of primary containment integrity.

B. (1) 120°F (2) Hot Shutdown Boron Weight to prevent additional containment heat input which would cause a loss of primary containment integrity.

C. (1) 110°F (2) Cold Shutdown Boron Weight before torus exceeds the Heat Capacity Temperature Limit. D. (1) 120°F (2) Cold Shutdown Boron Weight before torus temperature exceeds the Heat Capacity Temperature Limit. Proposed Answer: A.

I O°F, drywell I ov6rpressurization, startirlg NOT Reference(s):

I I I Explanation (Optional):

A. Correct -The combination of high reactor power (above the APRM downscale trip), high torus temperature (above 11 the Boron Injection lnitiation Temperature), and an open SRV or high pressure (2. 5 psig), are symptomatic of heat being rejected to the torus at a rate in excess of that which can be removed by the torus cooling system. Unless mitigated, these conditions ultimately result in loss of NPSH for ECCS pumps taking suction on the torus, containment and (ultimately) loss of primary containment integrity.

The Boron Injection lnitiation Temperature (BIIT) is he highest torus temperature at which initiation of boron injection will permit the injection of the Hot Shutdown Boron Weight of boron before torus temperature exceeds the Heat Capacity Temperature Limit B. lncorrect

-Boron injection should be started prior to exceeding 110°F. C. lncorrect

-By starting injection at 110°F Hot, NOT COLD, Shutdown Boron Weight can be injected prior to exceeding the HCTL. D. lncorrect

-Boron injection should be started prior to exceeding 11 0°F. By injection at 110°F Hot, COLD, Shutdown Boron Weight can be injected prior to exceeding the HCTL. Technical EOP Study Guide, Rev 13, (Attach if not previously Sect 13.1, pg 3 of 54 provided)

Proposed references to be provided to applicants during None examination:

Learning (As available)

Question Source: Bank # Lot more Modified Bank # (Note changes or attach parent) New X Question Last NRC Exam No I Question Cognitive Memory or Fundamental Knowledge I Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

I

1. 1 KIA # (K&A determine andlor instrurr~entation APRMs mlblhr "B" & APRMs Reference@):

Examination Outline Cross-reference:

Level RO SRO Tier # 1 Group 295001, AA2.06 Importance Rating 3.2 Statement)

Ability to interpret the following as they apply to PARTIAL OR COMPLETE LOSS OF FORCED CORE FLOW CIRCULATION

Nuclear boiler Proposed Question:

Common 53 The reactor is in single loop following a trip of the " B" Recirc Pump at 100% power. The following conditions exist: Rapid Shutdown Sequence is latched are fluctuating between 58% and 70% power Total Core Flow: 20.5 " A" Recirc Pump Speed: 69.5% Recirc Pump Discharge Valve ( RV-53B): Closed Determine the correct action based on this information and the enclosed power to flow map. A. Immediately insert a manual scram B. Increase the speed of the " A" Recirc Pump. C. Insert rods using the rapid shutdown sequence.

D. Open " B" Recirc Pump Discharge Valve ( RV-53B). Proposed Answer: A. Explanation (Optional):

A. is correct B. C. D. Incorrect

-The reactor is operating in the Exclusion Area of the Power to Flow Map. Signs of reactor instability are present because are oscillating 10% peak-to-peak. The operator should immediately insert a manual reactor scram IAW OT 31 17. Technical OT 31 17, Rev 16, Immediate (Attach if not previously

1. 2.c PIF Operator Action provided)

Proposed references to be provided to applicants during Map examination:

Learning Objective:

LOT-00-602, CRO 2 (As available)

Question Source: Bank # Modified Bank # New 5924 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

1. WA # (K&A Drywell Drywell Drywell? "B" Drywell 6. 26A, RHR-31A, Drywell Drywell #2 Reference(s):

Examination Outline Cross-Level RO SRO Tier # 1 1 Group 295024, 2.1.30 Importance Rating 4.4 Statement)

Conduct of Operations:

Ability to locate and operate components, including local controls. (High Pressure)

Proposed Question:

Common 54 The plant is in OP-3126, Shutdown Using Alternate Shutdown Methods. temperature and pressure are rising. In accordance with OP-3126 which method is available for cooling the Place the RHR system in the Spray Mode from the RHR Alternate Shutdown Panel. Place the " A" RHR system in the Torus Cooling Mode then manually open RHR -DWL SPRAY OUTBD and DWL SPRAY INBD. At panel HVSGP A, start additional RRUs and vent the Torus using the Containment Ventilation System. At panel HVSGP A, start additional RRUs and vent the using the Containment Ventilation System. Proposed Answer: B. Explanation (Optional):

B. Correct -IAW OP-3126, App A, pg 7, If temperature exceeds 260°F direct Operator to place the " A" RHR system in the Torus Cooling Mode and manually open RHR-26A and RHR-31 A. A. lncorrect

-There are no controls for the " B RHR System or either set of DW Spray Valves on the RHR Alternate Shutdown Panel. B. lncorrect

-There are no additional RRUs to start and all Containment Ventilation valves are failed closed during alternate shutdown.

C. lncorrect

-There are no additional RRUs to start and all Containment Ventilation valves are failed closed during alternate shutdown.

Technical OP-3126, Rev 17 App A, pg (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

WA # (K&A SAGS flowpath drywell tank HEPA HEPA Reference(s):

II, Examination Outline Cross-Level RO SRO Tier # 1 Group 1 295038, 2.1.23 Importance Rating 4.3 Statement)

Conduct of Operations:

Ability to perform specific system and integrated plant procedures during all modes of plant operation. (High Off-Site Release Rate) Proposed Question:

Common 55 Following entry into the Severe Accident Guidelines (SAG), the provided direction to Vent the Containment using OE 3107 Appendix " HH" , Primary Containment Venting Methods. The TSC recommends using a filtered flow path. What section in Appendix " HH" provides a filtered flow path? A. Section 5, Torus Hardened Vent to Stack B. Section 6, 4" Sprays to Waste Collector to RW to Stack C. Section 10, 3" Vent to RB HVAC via RTF-5 to Stack D. Section 12, CAD via 1" Vent to SBGT to Stack Proposed Answer: D. Explanation (Optional):

Ans D. This is the only through filtration (SBGT). A. lncorrect

-Using Hardened Vent path to stack provides scrubbing but no filtration.

B. lncorrect

-Provides a 4 inch vent path from or torus sprays through the RHR system letdown to radwaste (RHR-57 and RHR-66) to the waste collector to Radwaste Ventilation to the stack. Although this path includes the filter OE-3107 does NOT consider this a vented flow path. C. lncorrect

-Using 3" Vent to RB HVAC via RTF-5 to Stack provides no filtration.

Technical EOP-3, OE 31 07, Rev 17, (Attach if not previously App HH, Table Pg 21 8 of provided) 227

1. - - Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-01-626, CRO 4 (As available)

Question Source: Bank Modified Bank # New 3107 Lot more (Note changes or attach parent) Question History: Last NRC Exam Similar 2007 to common 19 Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 X 55.43 Comments:

1. 1 (K&A / FW SIGIVAUAIR FAIL I 11 RTPImin. FDW-12A(B)

FDW-12A(B)

Examination Outline Cross-reference:

Level RO SRO Tier # 1 Group Importance Rating 4.2 Statement)

Emergency Procedures Plan: Ability to verify that the alarms are consistent with the plant conditions. (Reactor Low Water Level) Proposed Question:

Common The plant is raising power when the following events 5-E-2, VLV LOCKUP Annunciator alarms Attempts to reset the Feedwater Regulating Valves have failed At the time of the lock-up power is still slowly rising from the effect of the last recirculation flow adjustment What is the affect of the valve lock-up on reactor water level and what action IAW OT 31 13 is required in response to this condition?

Indicated reactor water level will be (1). Level is controlled by (2). A. (1) lowering.

(2) opening the AUX FEED REG VLV FDW-13. B. (1) rising. (2) raising core flow as necessary to stabilize level at a rate 0% C. (1) lowering.

(2) placing a FEEDWATER REG VLV CONTROLLER in manual and raise feedwater flow. D. (1) rising. (2) placing a FEEDWATER REG VLV CONTROLLER in manual and lower feedwater flow. Proposed Answer: A.

FWRVs FDW-12A(B)

Reference@):

OT 31137 Rev- 22, pg 3 of # # Explanation (Optional):

A. Correct -Because power was being raised steam flow will be still rising when the lockup. Because of the lockup the feedwater Reg. valves will lockup and not respond resulting in a lowering water level. IF a lockup of the Feedwater Reg Valves has occurred (loss of air or control signal) THEN: IF level is slowly trending downward, THEN attempt to control level by opening the AUX FEED REG VLV FDW-13. B. and D. lncorrect

-RPV water level will lower. C. lncorrect

-placing the FEEDWATER REG VLV CONTROLLER in manual will have no effect with the valves locked-up. Technical (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

1. KIA # (K&A Offsite "6 (88) (88) Examination Outline Cross-reference:

Level RO SRO Tier # 1 1 295003, AK3.01 Importance Rating 3.3 Statement)

Knowledge of the reasons for the following responses as they apply to PARTIAL OR COMPLETE LOSS OF A.C. POWER : Manual and auto bus transfer Proposed Question:

Common A Loss of power has occurred and the following conditions The " A Diesel Generator started and is supplying its The Diesel Generator started but did NOT close in on its bus due to a fault the No buses have been cross-tied at IAW OT 3122, Loss of Normal Power which one of the following actions is required for supplying Vital AC Bus and why is this action taken? Transfer the Vital AC Bus to AC Drive motor to minimize station DC loads on the Station Battery. Transfer the Vital AC Bus to its alternate source to minimize station DC loads on the Station Battery. Adjust the EDG frequency as required to obtain a steady state 60.0-60.2 Hz to permit the Vital AC Bus to automatic transfer to the AC Drive. Adjust the EDG frequency as required to obtain a steady state 60.0-60.2 Hz to prevent the Vital AC Bus from automatically transferring to the DC Drive. Proposed Answer: B. Explanation (Optional):

B. Correct -With the loss of 480 VAC Bus 8 the Vital AC MG set swaps from the AC supply to the DC Supply to minimize the load on the station batteries OT 3122 directs shifting to the alternate supply. A. lncorrect there is no power supply to 480 VAC Bus 8 C. and D. lncorrect the A EDG supplies 480 VAC Bus 9, adjusting voltage on that EDG will have no effect. Group Reference@):

Learnirlg hlRC Technical OT 31 22, Rev 21, Step 5 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 12-15-08, Removed the two DG statuses from the stem and put them in

1. # WA # (K&A 1 cooldown RClC - RClC - - Tier Group Examination Outline Cross-reference: RO SRO 1 1 295025, 2.4.34 Importance Rating 4.2 Statement)

Emergency Procedures Plan: Knowledge ot RO tasks performed outside the main control room during an emergency and the resultant operational effects. (High Reactor Pressure)

Proposed Question:

Common 58 The control room has been abandoned and OP 3126, Shutdown Using Alternate Shutdown Methods, is being performed.

Reactor pressure is currently 1000 psig. You are directed to commence a cooldown, lowering reactor pressure the maximum amount, while remaining within the reactor rate limit IAW OP 3126. 1) Which one of the following methods is used for the cooldown?

AND 2) Calculate the new reactor pressure and control band. (Figure 1 of Appendix C is attached for your use) Calculate the new reactor pressure then: A. 1) Place in a pressure control lineup then slowly lower reactor pressure to 430 psig 2) Operate the SRV as necessary to maintain pressure 430 530 psig. B. 1) Place in a pressure control lineup, then slowly lower reactor pressure to 530 psig. 2) Operate the SRV as necessary to maintain pressure 350 -530 psig. C. 1) Open Safety Relief Valve RV2-71A or RV2-71 B to reduce reactor pressure to 430 2) Operate the SRV as necessary to maintain pressure 530 psig. D. 1) Open Safety Relief Valve RV2-71 A or RV2-71 B to reduce reactor pressure to 530 2) Operate the SRV as necessary to maintain pressure 530 psig. Proposed Answer:

SRVs .F Reference(s):

1. Explanation (Optional):

C. Correct -IAW OP-3126, RV2-71A or RV2-71 B are opened to lower pressure to the value determined using Figure 1 of Appendix C. The correct pressure corresponding to 456 deg F (90 deg F drop from original temperature of 546 deg F) is 430 psig. A. and B. lncorrect

-The are used to lower pressure and the correct pressure corresponding to 456 deg F (90 deg drop from original temperature of 546 deg F) is 430 psig D. lncorrect

-The correct pressure corresponding to 456 deg F (90 deg F drop from original temperature of 546 deg F) is 430 psig. Technical OP 3126, Rev. 18 (Appendix (Attach if not previously C, Step 16, ), pg 33 of 53 provided)

Proposed references to be provided to applicants during OP-3126, figure 1 of examination:

Appendix C Learning Objective:

LOT-00-61 2 EO-10.2, 9.1, (As available) 8.1 Question Source: Bank Lot more Modified Bank # Requal 1149 (Note changes or attach parent) New Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

1. KIA # (K&A HIGH DRYWELL Drywell Drywell Drywell Drywell drywell drywell drywell drywell drywell Group Examination Outline Cross-reference:

Level RO SRO Tier # 1 2 29501 0, AK1.03 Importance Rating 3.2 Statement)

Knowledge of the operational implications of the following concepts as they apply to PRESSURE : Temperature increases Proposed Question:

Common 59 An accident occurred and pressure is 6 psig with temperature 360°F and rising. DWSIL 400 I 50 Pressure (psigBased upon these plant conditions and the Spray Initiation Limit Curve, what adverse conditions could result from The evaporative cooling pressure drop may result in de-inerting the following initiation of sprays. B. The delta pressure between the and torus will prevent the vacuum breaker from functioning as designed.

C. The evaporative cooling pressure drop following initiation of sprays may result in exceeding Torus design internal pressure.

spray initiation?

drywell causirrg DWSlL drywell drywell DIP Reference@):

IVone # D. Lowering pressure will reopen the SRVs, RPV pressure to drop below the saturation pressure for this temperature.

Proposed Answer: A. Explanation (Optional):

A. Correct -IAW EOP Study Guide, The is a function of pressure.

It is utilized to preclude de-inertion following initiation of sprays. B. lncorrect

-This is the bases for the level limit C. lncorrect

-the vacuum breakers are designed to prevent exceeding the DW external pressure limit (2 psig) D. lncorrect

-The SRVs may open in lowering PC pressure, however PC temperature will also be lowering and the SRVs will close at a sufficient to prevent falling below the saturation pressure for the new DW temperature.

Technical EOP Study Guide, Rev 13 (Attach if not previously Section 8, pg 186 of 346 provided)

Proposed references to be provided to applicants during examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X Comments:

1. (K&A HIGH The HPCI The HPCl Pool, 6. HCPl ,from Examination Outline Cross-reference:

Level Tier # RO 1 SRO Group 2 Importance Rating 3.4 Statement)

Knowledge of the interrelations between SUPPRESSION POOL WATER LEVEL and the following:

HPCI: Plant-Specific Proposed Question:

Common 60 The HPCl System is in a normal standby lineup when a spurious initiation signal is received.

The system auto initiates.

The Balance-Of-Plant (BOP) operator stops HPCl without referring to OP 2120 for guidance.

Fifteen minutes later, the crew detects Suppression Pool level is rising. Which one of the following is the cause of the high Suppression Pool level? The BOP operator secured HPCl injection, by inadvertently closing the Pump Discharge Valve, HPCI-19. B. spurious initiation signal caused the suction to shift to the Suppression Pool. C. BOP operator inadvertently opened the suction from the Suppression HPCI-The discharge from the HPCl gland seal condenser was pumped into the Suppression Pool. Proposed Answer: A. Explanation (Optional):

A. Correct -When HPCl initiates, it takes a suction from the CST. When the discharge valve is closed, the minimum flow valve will open providing flow (CST water) to the Torus. lncorrect

-A pump suction from the Suppression Pool would not transfer water the CST to the Suppression Pool. C. lncorrect

-If the Suppression Pool suction was opened, the CST suction would close. If both valves were open, there are check valves in the suction lines to prevent cross-connecting the CST and Suppression Pool. D. lncorrect

-The discharge from the HPCl gland seal condenser is pumped into the HPCl suction.

Reference(s):

&2 # (Note Technical OP-2120, Rev 55 App B, pg (Attach if not previously 31 of 37 provided)

DWG 191169, shts 1 Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank # New X Lot more changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

(K&A HIGH action(s) contair~ment cooliqg -The Reference(s):

Examination Outline Cross-reference: RO SRO Tier 1 Group 2 WA 295033, EK3.01 Importance Rating 3.3 Statement)

Knowledge of the reasons for the following responses as they apply to SECONDARY CONTAINMENT AREA RADIATION LEVELS : Emergency depressurization Proposed Question:

Common 61 Which one of the following is the reason for performing an emergency depressurization when required by High Secondary Containment Radiation levels? EOP are taken to.. . mitigate the loss of ECCS pumps taking suction on the torus which in turn could lead to a loss of adequate core cooling. permit the use of secondary containment ventilation to filter both primary and secondary containment atmospheres and allow access to the reactor building. mitigate the consequences of unisolable leakage from a primary system into the secondary containment that may pose a direct and immediate threat to primary containment integrity mitigate the consequences of unisolable leakage from a primary system into the secondary that may pose a direct and immediate threat to secondary containment integrity Proposed Answer: D Explanation (Optional):

D. Correct -IAW the EOP Study Guide, When the rise in secondary containment temperature, radiation or water level spreads to more than one area, a direct threat exists relative to secondary containment integrity, to equipment located in the reactor building, and to continued safe operation of the plant. A. lncorrect

-Adequate core is not the basis. B. lncorrect

-This is the basis for ED for an Off-Site release. C. lncorrect basis is not for Primary Containment integrity.

Technical Ref EOP Study Guide (Attach if not previously Section 9 page 14 of 16 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-61 1, RO-3 (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. KIA # (K&A HIGH Examination Outline Cross-Level RO SRO Tier Group # Importance Rating 3.4 Statement)

Ability to operate and monitor the following as they apply to CONTAINMENT HYDROGEN CONTROL: Containment atmosphere control system Proposed Question:

Common 62 Drywell. H2/02 ~~1 0~ Drywell H~ 0.6% o2 Hz O2 dy~ell torus ti2 f) 5% 490 Perforr~i contaknrnent nitrogen OP 125 drywell 6. drywell. H2/02 drywell drywell. Given the following conditions:

A large break LOCA has occurred inside the The Containment Analyzers were placed in-service 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> ago. The Containment Analyzers readings are: -3.0% -7.0% -Torus -0.2% or-exceeds AND exceeds post-accident purge per 2 Which one of the following actions is required?

A. Perform a containment purge by injecting nitrogen into the and venting from the torus. Perform a containment purge by injecting nitrogen into the torus and venting from the C. Continue to monitor containment Analyzers because post accident nitrogen purging is not required at this time. Perform a containment purge by injecting nitrogen into the torus and while simultaneously venting from the torus and Proposed Answer: A.

Drywell Offsite drywell Offsite injectirlg drywell Drywell drywell Reference@):

1. # Explanation (Optional):

A. Correct -H2 levels and torus 02 levels require purging IAW OP 2125. dose will be minimized by injecting nitrogen into the and venting from the torus. B. lncorrect

-dose will be minimized by nitrogen into the and venting from the torus. C. lncorrect

-H2 levels and torus 02 levels require purging IAW OP 2125. D. lncorrect

-and torus purge and vents should never be simultaneously opened because that would cross connect the two containments.

Technical EOP-3 (Attach if not previously OP-2125, Pg 15 provided)

The Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Lot more Modified Bank (Note changes or attach parent) New X Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. KIA # (K&A andlor Drywell The Rx/Turb TemperatureNVater TemperatureNVater Group Comments:

Examination Outline Cross-reference: RO SRO Tier 1 2 295032, EA2.01 Importance 3.8 Statement)

Ability to determine interpret the following as they apply to HIGH SECONDARY CONTAINMENT AREA TEMPERATURE

Area temperature Proposed Question:

Common 63 The plant is at 100% power when a fire is reported in material placed next to the Personnel Air Lock Area. following events occur: Annunciator 4-H-1, STEAM LEAK DET PANEL TEMP HI alarms STEAM LEAK DETECTION TOUCHSCREEN MONITOR on CRP 9-21 indicates Ch. 19 is above its max normal operating limit The crew has entered OP 3020, Fire Emergency Response Procedure In accordance with the Vermont Yankee Procedures, the operators shall: Enter EOP-4, Secondary Containment Control and initiate a shutdown per OP 01 05. Enter EOP-4, Secondary Containment Control and isolate and systems that might be affected. Enter ON 31 58, Reactor Building High Area Level and initiate a shutdown per OP 01 05. Enter ON 31 58, Reactor Building High Area Level and determine the equipment that may be affected.

Proposed Answer:

- Reference(s):

1. # Explanation (Optional):

D. Correct -This location is not an EOP-4 entry. Entry into ON-31 58 is required and the procedure directs the operators to determine the affected systems. A. lncorrect

-This location is not an EOP-4 entry and a shutdown is not required.

B. lncorrect

-This location is not an EOP-4 entry. C. lncorrect A shutdown is not required by ON 3158. Technical ARS 21 002, 4-H-1 (Attach if not previously ON 3158, provided)

Proposed references to be provided to applicants during examination:

Table of Secondary Containment Limits Learning Objective: (As available)

Question Source: Bank Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. # (K&A ONE MSlV 6. - ARCIOR-5 MSlVs Reference(s):

Pg 7 Examination Outline Cross-reference: RO SRO Tier 1 2 Group WA 29501 5, 2.1.28 Importance Rating 4.1 Statement)

Conduct of Operations:

Knowledge of the purpose and function of major system components and controls. (Incomplete Scram) Proposed Question:

Common 64 Which of the following is the purpose for bypassing the Low-Low RPV Water Level logic in EOP-2, RPV Control (implementing Appendix P)? To maintain the Main Condenser as a heat sink if reactor water level is to be lowered later. To preclude inadvertent positive reactivity addition by closure of the Main Steam Isolation Valves. To bypass the Emergency Core Cooling Systems automatic initiations to prevent uncontrolled injection. To ensure Main Steam Isolation Valves can be reopened concurrent with high main steam line radiation.

Proposed Answer: A. Explanation (Optional):

A. Correct -Subsequent actions in EOP-2 may require that RPV water level be lowered to or below the low RPV water level isolation setpoint.

To prepare for this possibility and prevent unintended loss of the main condenser, direction is given to bypass selected interlocks in advance of subsequent actions. lncorrect lncorrect

-Bypassing the LO-LO Level Water Level does not prevent a large positive reactivity insertion.

This is accomplished by inhibiting ADS. C. lncorrect

-This does NOT bypass ECCS initiations.

D. lncorrect

-EOP-2, states that should only be reopened if MSL Hi Rad signal is not present. Technical EOP Study Guide, Sect. (Attach if not previously provided)

1. # Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New 2226 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

1. KIA # (K&A and/or HIGH SUMPIAREA SOUTH HIILO AhlD TemperatureNVater TemperatureNVater Examination Outline Cross-reference: RO SRO Tier # Group Importance Rating 3.4 Statement)

Ability to determine interpret the following as they apply to SECONDARY CONTAINMENT WATER LEVEL : Cause of the high water level Proposed Question:

Common 65 The plant is operating at full power when the following annunciators alarm. RX BLDG EQMT DRN SUMP LVL HI (4-L-4) RBCCW SURGE TANK LVL (6-M-8) 1) What is the probable cause of these annunciators?

2) What action is required?

Gross failure of the. 1) sump cooling coils. 2) Enter EOP-4 Secondary Containment Control. 1) Reactor Recirc Unit Coolers. 2) Enter EOP-4 Secondary Containment Control. 1) sump cooling coils. 2) Enter ON-31 58, Reactor Building High Area Level. 1) Reactor Recirc Unit Coolers. 2) Enter ON-3158, Reactor Building High Area Level. Proposed Answer: C.

1" - Drywell Reference(s):

P&ID 191 177 # lVew Explanation (Optional):

C. Correct L-4 alarms one foot below the top of the sump. The Rx Bldg. Equipment Drain Sumps have sump coolers supplied by RBCCW, a gross failure of the tubes would allow large amounts of RBCCW into the sump causing a high level alarm and lowering the inventory in the RBCCW system causing the low level in the surge tank. A. lncorrect

-this is an entry into ON-3158. To enter EOP-4 and operator must locally verify that the level in a corner room is above the floor. 4-L-4 alarms one foot below the top of the sump. B. and D. lncorrect Because the Reactor Recirc Unit Coolers drain to the Sump. Technical (Attach if not EOP-4 ON-31 58, Rev 10, pg 9-4 ARS for 4-L-Proposed references to be provided to applicants during examination:

Table of Secondary Containment Limits Learning Objective: (As available)

Question Source: Bank # Modified Bank X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

SRO # KIA (K&A inchding A.2.m, A0 Reference@):

Examination Outline Cross-reference:

Level Tier # Group # Importance Rat RO 3 2.1.8 ing 3.4 Statement)

Ability to coordinate personnel activities outside the contro Proposed Question:

Common 66 The reactor has just scrammed from full power. l room. IAW DP-0166, which one of the following are the minimum actions directed by the Control Room for the Reactor Building Auxiliary Operator? Monitor the Recirc MG lube oil temperatures and the Control Rod Drive system the Flow Control Station. Monitor the Recirc MG lube oil temperatures and the Reactor Cleanup System, including the Cleanup Demineralizers. Monitor the Control Rod Drive system including the Flow Control Station and manually adjust cooling water valves for shutdown operation. Monitor the Control Rod Drive system including the Scram Discharge Volume and the Reactor Cleanup System, including the Cleanup Demineralizers.

Proposed Answer: B. Explanation (Optional):

B. Correct -IAW DP-166, Sect Auxiliary Operator actions on a reactor scram or plant transient include, but are not limited to, the following:

The Reactor Building shall, when directed by the Control Room, monitor the Recirc MG lube oil temperatures and the Reactor Cleanup System, including the Cleanup Demineralizers.

A. C. and D. Incorrect

-There is no direction to monitor the CRD system. Technical DP-166, Rev 19, pg 10 (Attach if not previously provided)

1. # hlRC Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New X Lot more (Note changes or attach parent) Question History: Last Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X Comments:

1. KIA # l rr~portance (K&A shifl 10CFR55, (AOs) AOs 0894? AOs AOs AOs AOs Reference(s):

AP 08941 Rev 87 Table Examination Outline Cross-Level RO SRO Tier # 3 Group 2.1.4 Rating 3.3 Statement)

Knowledge of individual licensed operator responsibilities related to staffing, such as medical requirements, " no-solo" operation, maintenance of active license status, etc. Proposed Question:

Common 67 The plant is conducting a startup. Three (3) of the five (5)on-shift Auxiliary Operators are stricken with food poisoning and are transported off-site to the hospital.

What is the REQUIRED number of additional needed to meet the minimum shift staffing requirements of AP A. None B. One C. Two D. Three Proposed Answer: Explanation (Optional):

B. Correct -three are needed during startup and power operations A. lncorrect

-only one is needed to make the required 3 C. lncorrect

-only one is needed to make the required 3 D. lncorrect

-only one is needed to make the required 3 Technical (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

1. # 10 Learning Objective: (As available)

Question Source: Bank Lot more Modified Bank (Note changes or attach parent) New X Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X CFR Part 55 Content: 55.41 X Comments:

WA # lrrlportance (K&A tagout tagout, tagout Tagout The hislher The AND - TagouWork car1 Reference(s):

A accepted the this must be released.

Examination Outline Cross-reference:

Level RO SRO Tier # 3 Group # 2.2.1 3 Rating 3.6 Statement)

Knowledge of tagging and clearance procedures Proposed Question:

Common 68 is in place for the A RFP Oil pump at the MCC 6B. The individual, who is off-site and cannot be contacted.

Plant startup is in progress and IAW EN-OP-102, which of the following describes the minimum authorization required for an alternate release authorization?

A. The Holders Supervisor B. Shift Manager or designee.

C. Supervisory Control Room Operator AND the Shift Manager..

D. The Shift Manager or hislher designee another Senior Licensed operator.

Proposed Answer: B. Explanation (Optional):

B. Correct EN-OP-102, Sect 5.1 7, In the event that release is required and a Order Holder cannot be contacted and is not on site, the release be authorized by the Shift Manager or hislher designee.

A. lncorrect

-Not authorized by EN-OP-102. C. lncorrect

-Not authorized by EN-OP-102. D. lncorrect

-Not authorized by EN-OP-102. Technical EN-OP-102, Sect 5.1 7 (Attach if not previously provided)

Proposed references to be provided to applicants during None

1. examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. WA # (K&A Airlock 1 lncorrect lncorrect lncorrect Reference@): .b Examination Outline Cross-Level RO SRO Tier # 3 Group 2.2.40 Importance Rating 3.4 Statement)

Ability to apply technical specifications for a system. Proposed Question:

Common 69 During an outage an Auxiliary Operator contacts the Control Room and notifies you both Inner and Outer Reactor Building Railroad Doors are Which of the following evolutions, if initiated in conjunction with the above, would Technical (Assume none of the evolutions has yet been done, or currently A. Moving irradiated fuel in the Spent Fuel Pool. B. Opening the Primary Containment Doors. C. Removing the reactor steam separator.

D. Performing Control Rod Timing. Proposed Answer: A. Explanation (Optional):

A. Correct -IAW T.S. Section 3.7.C .b, Secondary Containment is required whenever moving irradiated fuel assemblies.

B. -Because only irradiated fuel movement requires Secondary Containment.

C. -Because Primary Containment does not exist in this condition.

D. -Because it is not a core alteration and does not have the potential for draining the reactor vessel Technical T.S. 3.7.C.l (Attach if not previously provided)

Proposed references to be provided to applicants during None

1. examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. # KIA (K&A Drywell (1) (0') (21 70°/~.The drywell drywell drywell drywell Drywell AND >19.5% - 70%, Drywell >19.5% Examination Outline Cross-reference:

Level Tier RO 3 SRO Group # 2.3.12 Importance Rating 3.2 Statement)

Knowledge of Radiological Safety Principles pertaining to licensed operator duties, such as containment entry requirements, fuel handling responsibilities, access to locked high-radiation areas, aligning filters, etc. Proposed Question:

Common 70 IAW RP-0507, Primary Containment Entry, which one of the following are the MINIMUM requirements that must be met before personnel may enter the investigate a problem? at power to They may enter after reactor power is less than is greater than . and Oxygen concentration Proposed Answer: D. Explanation (Optional):

D. Correct -IAW RP-0507, Max power may be must be de-inerted and the is not considered de-inerted until two consecutive air samples, taken at least 15 minutes apart on both the and torus, indicate an oxygen concentration of greater than 19.5% Oxygen. AND Torus must be de-inerted to Oxygen. C. lncorrect

-Max power may be 70%. In all cases entry will not be made above 70% power. B. lncorrect

-Torus must be de-inerted to A. lncorrect Max power may be Reference(s):

pg # Technical RP-0507, Rev 25, P&L (Attach if not previously statements 4 of 5. provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Lot more Modified Bank (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 X Comments:

1. WA # (K&A ManagerIPlant ManagerIPlant Examination Outline Cross-Level RO SRO Tier # 3 2.3.4 Importance Rating 3.2 Statement)

Knowledge of radiation exposure limits under normal or emergency conditions.

Proposed Question:

Common 71 During an emergency, tasks are being conducted in areas that show no significant increase in general area dose rates from normal plant radiological conditions.

IAW OP 3507, Emergency Radiation Exposure Control, ... (1) What is the maximum exposure an individual can receive in these areas without Emergency Exposure authorization?

AND (2) Who must approve an Emergency Exposure above this limit? A. (1) 4.5 Rem (2) The General Manager Plant Operations and Senior Radiation Protection Representative.

B. (1) 9.5 Rem (2) The General Manager Plant Operations and Senior Radiation Protection Representative.

C. (1) 4.5 Rem (2) Shift Emergency Coordinator (or TSC Coordinator) and Senior Radiation Protection Representative.

D. (2) Shift Emergency Coordinator (or TSC Coordinator) and Senior Radiation Protection Representative.

Proposed Answer: C. Group (1) 9.5 Rem

-E AND SupervisorIPlant Supervisor/Plant D.lncorrect Reference@):

& hlRC Explanation (Optional):

B. Correct tasks are being conducted within areas that show no significant increase in general area dose rates from normal plant radiological conditions, dose commitment to any individual of less than or equal to 4.5 Rem is required, THEN the normal work process will be used to control radiation exposure of personnel.

Authorization to the 10 Rem limit (Protecting Valuable Property) 25 or 75 Rem limit (Lifesaving or Protection of a Large Population) may only be made with the joint concurrence of the Shift Emergency Coordinator (or TSC Coordinator) and Senior Radiation Protection Representative.

A. Incorrect

-Shift Emergency Coordinator (or TSC Coordinator) and Senior Radiation Protection Representative.

B. and -4.5 Rem is the limit. Technical 6 (Attach if not previously provided)

OP 3507, pgs 4 Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-404 (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. WA # (K&A - va.lve, trippirlg lncorrect lncorrect

(>.l lncorrect Reference(s):

ARS-21 Oo39 Rev 77 pg

• OP-2114, pgS 11 & provided)

None Examination Outline Cross-reference: RO SRO Tier 3 Group 2.4.46 Importance Rating 4.2 Statement)

Ability to verify that the alarms are consistent with the plant conditions.

Proposed Question:

Common 72 The plant is operating at 100% power when Annunciator 5-A-1, SLC SQUIB VLV CONTINUITY LOSS, alarms. Which one of the following indications is consistent with this alarm condition? Squib valve ready lights on CRP 9-5 are on. Squib valve continuity meters behind CRP 9-5 indicate 0.4 and 0.5 ma. The Red indicating light on the " A SLC pump is on because the pump has been started locally. The Red and the Green " B SLC pump indicating lights are off indicating the breaker has tripped. Proposed Answer: D. Explanation (Optional):

D. Correct The SLC Pump breaker supplies power to the squib the SLC pump breaker will cause the alarm. A. -These lights are energized when the valve is energized.

B. -These are acceptable currents ma) C. -Starting the pump locally has no affect on the squib valve. Technical Rev 33, (Attach if not previously Proposed references to be provided to applicants during examination:

- Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. KIA # (K&A (2) OSC FacilityIRecovery manned asserr~bled Examination Outline Cross-reference:

Level RO SRO Tier # 3 Group 2.4.42 Importance Rating 2.6 Statement)

Knowledge of emergency response facilities.

Proposed Question:

Common Following a plant scram conditions deteriorated and an ALERT has been Based on this emergency classification (1) will be activated.

If On-Site and Off-Site Boundary Teams are needed they will be dispa tched by the A. (1) ONLY the Technical Support Center (TSC) (2) TSC B. (1) ONLY the TSC and Operations Support Center (OSC) (2) C. (1) TSC, OSC and Emergency Operations Center (EOFIRC) (2) EOFIRC D. (1) TSC, OSC, and EOFIRC (2) OSC Proposed Answer: D. Explanation (Optional):

D. Correct -During an Alert all the facilities are activated the EOFIRC, TSC and OSC are activated, Boundary Teams are assembled and dispatched out of the OSC. A. lncorrect

-Both the TSC and OSC are activated, Boundary Teams are assembled and dispatched out of the OSC. B. lncorrect

-During an Alert all the facilities are activated the EOFIRC, TSC and OSC are activated (although the EOFIRC may not be until the recovery actions. C. lncorrect

-The Boundary Teams are and dispatched out of the OSC.

Technical Reference(s):

AP 3554, Sect. 5-2-29 pg 6 0P-3542, Pg 11 of 89, Pg 16 provided)

1. pg (Attach if not previously of 89. OP-3544, OSC Checklist 8 pg 3of 12 LOT-00-900, 40 Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 X 55.43 Comments:

WA (K&A Torl~s SRVs +25" & +6 9", +6" ivjection cooldown Reference(s):

Examination Outline Cross-Level RO SRO Tier # 3 Group # # 2.4.6 Importance Rating 3.7 Statement)

Knowledge of EOP mitigation strategies.

Proposed Question:

Common An ATWS has occurred with the following Reactor power is 20% and slowly temperature is 1 15°F and slowly Reactor pressure control is on 800-1 000 psig Reactor water level is and slowly lowering Injection has been terminated prevented IAW OE 3107 Appendix GG Which of the following conditions would establish the upper end of the RPV level control band? A. APRM downscales come in. B. Reactor water level reaches -1 9 inches, C. Only one SRV is open for reactor pressure control. D. Reactor power reaches the heating range with a negative period. Proposed Answer: A. Explanation (Optional):

A. Correct -IAW EOP-2 B. lncorrect

-This is the bottom of the ATWS level band of to -1 injection should recommence at -TAF. C. lncorrect

-Regardless of SRV conditions, is recommenced at TAF to insure adequate core cooling. lncorrect

-This is indication of the reactor being shutdown but is applicable when a is commenced and no boron has been injected.

Technical EOP-(Attach if not previously

1. IVo 10 provided)

Proposed references to be provided to applicants during EOP-2, Level leg examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New 5767 Lot more (Note changes or attach parent) Question History: Last NRC Exam Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X CFR Part 55 Content: 55.41 X 55.43 Comments:

1. # # (K&A andlor "B" -(I) -(2)-. >800 >800 Reference(s):

TS Bases 3.3 Examination Outline Cross-Level RO SRO Tier 3 Group WA 2.2.37 Importance Rating 3.6 Statement)

Ability to determine operability availability of safety related Jequipment.

Proposed Question:

Common 75 During a plant startup, with RPV pressure steady at 850 psig, the in-service CRD pump, pump " A trips. The CRD pump is out of service for maintenance.

After one minute, which one of the following statements is correct? Rod motion with RMCS is AND A. (1) NOT available.

(2) scram times will be within technical specification limits. B. (1) available.

(2) scram times will exceed technical specification limits. C. (1) available.

(2) scram times will be within technical specification limits. D. (1) NOT available.

(2) scram times will exceed technical specification limits. Proposed Answer: A. Explanation (Optional):

A. Correct -Normal rod motion is lost. Scram times are OK as long as accumulators are charged. IAW TS Bases Sect. 3.3, Accumulators, At reactor pressures in excess of 800 psig, even those control rods with inoperable accumulators will be able to meet required scram insertion times due to the action of reactor pressure.

B. lncorrect-Normal rod motion is lost. Scram times are OK as long as reactor pressure is psig C. lncorrect-Normal rod motion is lost. D. lncorrect

-Scram times are OK as long as reactor pressure is psig Technical (Attach if not previously

1. provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 X 55.43 Comments:

1. # WA (K&A and/or 10O0/0 0 HPCIIRCIC HPCIIRCIC InstrumenVScram InstrumenVScram Examination Outline Cross-reference:

Level SRO 1 1 29501 9, AA2.02 Tier Group # Importance 3.7 Statement)

Ability to determine interpret the following as they apply to PARTIAL OR COMPLETE LOSS OF INSTRUMENT AIR : Status of safety-related instrument air system loads (see AK2.1 -AK2.19) Proposed Question:

SRO 76 The plant is operating at power when the following occurs: A TOTAL LOSS of lnstrument Air has occurred lnstrument Air Header Pressure is psig RPV water level is lowering Which one of the following is the overall reactor water level control and pressure control strategy?

In accordance with.. . OT-3100, use to control reactor water level and control reactor pressure below 1055 psig by manually cycling SRVs per OT-3100. OT-3100, use to control reactor water level while pressure is controlled by placing the SRVs control switches to AUTO and allowing them to cycle on their relief setpoints. ON-3146, Low Air Header Pressure, start one feed pump and control reactor water level with FDW-5, HP HTR BYPASS, control reactor pressure below 1055 psig by manually cycling SRVs per EOP-1. ON-3146, Low Air Header Pressure, start one feed pump and control reactor water level with FDW-5, HP HTR BYPASS, by placing the SRVs control switches to AUTO and allowing them to cycle on their relief setpoints.

Proposed Answer: C.

MSlVs HPCIIRCIC HPCIIRCIC IA IA Reference(s):

Explanation (Optional):

C. Correct -The outboard will go closed on a loss of air the feedwater control valves will fail as is (100% flow). The feedwater pumps will trip on high level (or be manually tripped) one feed pump is started (ON-31 46) and the manual feedwater isolation valves are closed and feed flow controlled using FDW-5. Air pressure will be lost to the SRVs, the Containment Air System will provide operating pressure to the SRVs. . A. lncorrect

-Although could be used the preferred method is using Feedwater as directed in ON-31 46. B. lncorrect

-Although could be used the preferred method is using Feedwater as directed in ON-3146. Although all pressure is lost N2 bottles provide sufficient pressure to manually operate the SRVs until another method of pressure control is available.

D. lncorrect

-Although all pressure is lost N2 bottles provide sufficient pressure to manually operate the SRVs until another method of pressure control is available.

Technical ON-31 46 OT-3100 (Attach if not previously provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Lot more Modified Bank # (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 5 Comments:

1. # 1 (K&A andlor MAIN TRIP This rpmlminute.

ERFlS Examination Outline Cross-reference:

Level RO SRO Tier 1 Group Importance Rating 2.7 Statement)

Ability to determine interpret the following as they apply to TURBINE GENERATOR Turbine vibration Proposed Question:

SRO 77 During a plant startup the turbine is being brought up to speed using OP-0105, Phase 3, Turbine Startup and Synchronization.

The following conditions exist: is a Cold Startup Turbine speed is being raised at 90 Turbine speed is at 1000 rpm and slowly rising. 7-E-9, TURBINE SUPERVISORY CABINETS TROUBLE is in alarm 7-F-2, TURB EXCESSIVE VIBRATION has just alarmed indicates the low pressure turbine and generator vibrations are below the turbine trip setpoints.

Which one of the following actions is required for these conditions? Continue using OP-0105 to raise turbine speed through the critical speeds and then verify turbine vibration lowers. In accordance with the guidance in the ARS for 7-F-2, lower speed below 800 rpm then hold speed steady until the turbine vibration alarm clears. Continue using OP-0105 to raise the rate of speed until above 1300 rpm then hold speed to allow turbine shell warming and the vibration alarm to clear. In accordance with the ARS for 7-E-9, trip the turbine and if vibrations do not lower below turbine supervisory limits break vacuum on the main condenser.

Proposed Answer:

TURBIIVE TROLIBLE rpmlminute Reference(s):

1. # Explanation (Optional):

A. Correct -Turbine vibration trips are bypassed during a startup by placing VIB BYP SW-110-10 switch to the BYPASS position.

When this is done Ann 7-E-9, TURBINE SUPERVISORY CABINETS alarms. IAW OP-0105, Phase 3, As the turbine is accelerated, it is normal for the generator bearing vibration to increase as the first critical point is approached, approximately 1000 rpm. Less than 6 mils vibration is considered desirable and 10 mils is acceptable.

The turbine vibration alarm alarms at 7 and 8 mils. The turbine startup should continue through the critical speeds (1 100 -1400 rprn). B. lncorrect

-Do not operate the turbine at speeds below 800 rprn for greater than 5 minutes. Vibration detectors are inaccurate below approximately 800 rpm, with accuracy dropping off very rapidly below approximately 600 rpm. C. lncorrect

-At critical speeds of the unit (1000 to 1400 rprn), special care should be used in passing at a reasonably high rate of speed change. Prolonged operation at or close to a critical speed is positively not permitted.

Additionally turbine speed is limited to 90 because this is a cold startup. D. lncorrect

-There is no procedural guidance to trip the turbine at this time. If after turbine speed is raised above the critical speeds and turbine vibration does nor lower than the turbine may be tripped. Technical OP-0105 (Attach if not previously ARS-21005, rev 15 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Lot more Modified Bank (Note changes or attach parent) New X Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 Comments:

1. # (K&A and/or 10O0/0 I "6 A-1 3.10.B.2and 3.10.8.1 A-1 Examination Outline Cross-Level RO SRO Tier # 1 1 Group WA 295004, AA2.03 Importance 2.9 Statement)

Ability to determine interpret the following as they apply to PARTIAL OR COMPLETE LOSS OF D.C. POWER : Battery voltage Proposed Question:

SRO 78 The plant is operating at power with no equipment out of service when the Annunciator 8-P-1, BATT VOLTAGE LO alarms. None of the actions of ON 31 59, Loss of DC-1, have been completed.

For this situation which one of the following is required?

A. Battery charger BC-1-1 A or BC-1-1 C will supply power to DC Bus 1 and its loads. The " A" EDG must be declared inoperable and Tech. Spec. 3.10.B.1 entered, requiring the " B EDG demonstrated to be operable within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and the " A EDG returned to service within the succeeding seven days. B. Battery charger BC-1-1 A or BC-1-1 C will supply power to DC Bus 1 and its loads. The EDG must be declared inoperable and Tech. Spec. 3.10.B.1 entered, requiring the " A EDG demonstrated to be operable within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and the " B EDG returned to service within the succeeding seven days. C. Both the Battery and the " A EDG must be declared inoperable and Tech. Specs. entered. This will allow operation for the succeeding three days provided all required systems, subsystems, trains, components and devices supported by the operable 125 volt Station Battery System are operable and the " B EDG demonstrated to be operable within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. D. Both the Battery and the " B EDG must be declared inoperable and Tech. Specs. 3.1 0.B.2 and 3.1 O.B.l entered. This will allow operation for the succeeding three days provided all required systems, subsystems, trains, components and devices supported by the operable 125 volt Station Battery System are operable and the " A EDG demonstrated to be operable within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. Proposed Answer: D. I

- charrges.

Reference(s):

OPm21 45, Rev 45, pg 7. # # Memory Explanation (Optional):

D. Correct -IAW OP-2145, DC-1 for ACB control power and DG control power must be operable for DG-1 B to be considered operable.

Both the B EDG and the DC Bus must be declared inoperable requiring verifying operability of alternate equipment.

A. and B. lncorrect The charger is not allowed to power the bus alone due to charger may not handle any load Additionally all the components of the 125 VDC system are required to be operable therefore entry into 3.10.2.b is required.

C. Incorrect

-the A EDG receives power from the other battery (DC AS). (Attach if not previously Preq. 5 provided)

T.S. Sect 3.1 0.2.b ARS-21006, 8-P-1 Technical Proposed references to be provided to applicants during T.S. Sect 3.1 0 examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 Comments:

1. 1 KIA # (K&A 100°/~ SRMs; ERFlS Reference@):

Examination Outline Cross-Level RO SRO Tier # 1 295006, 2.1 .19 Importance Rating 3.8 Statement)

Conduct of Operations:

Ability to use plant computers to evaluate system or component status. Proposed Question:

SRO 79 The plant was operating at power when loss of feedwater causes a Low RPV Water Level scram coincident with a loss of the Rod Position Indicating System (RPIS) for several control rods. The following events occur: Control Room Operator reports that reactor power is observed on the and counts are lowering.

The Post Scram Rod Position screen indication (PSRP) indicates all rods inserted.

A Control Rod scan on the Plant Process Computer is NOT available.

Which one of the following actions is required?

A. Perform EOP-1 actions and make a four hour notification to the NRC. B. Perform EOP-1 actions and make a one hour notification to the NRC. C. Perform EOP-2 actions and make a four hour notification to the NRC. D. Perform EOP-2 actions and make a one hour notification to the NRC. Proposed Answer: A. Explanation (Optional):

A. Correct -EOP-2, ATWS is entered from EOP-1, RPV Control. When the crew has transitioned to OP-0109 there are no entry conditions for EOP-1, therefore no entry conditions for EOP-2 exist. The crew should continue in OP-0109. B. Incorrect there is no requirement to delay the Cooldown.

C. and D. There is no need to enter EOP-2 and therefore no need to enter the E-Plan. Technical OP 01 (Attach if not previously Group (Scram)

- G&H # # EOP-Study Guide. provided)

Appendix Proposed references to be provided to applicants during AP 01 56 examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

1. WA # (K&A corr~pleted Examination Outline Cross-Level RO SRO Tier # 1 1 Group 295001, 2.2.40 Importance Rating 4.7 Statement)

Equipment Control: Ability to apply technical specifications for a system. (Partial or Complete Loss of Forced Core Flow Circulation)

Proposed Question:

SRO 80 During the preparation for single loop operation following the trip of the " A" Recirculation Pump you are informed that drive flow for " B Recirculation Loop is MORE than it would be if both loops were still in service producing the same amount of core flow. Which one of the following actions must be taken for these conditions? The reactor must be immediately brought to a Hot Standby condition. Adjustments must be on the MCPR and MAPLHGR limits ONLY within the next 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. Adjustments must be completed on the APRM flux scram, APRM rod block settings and the rod block monitor trip settings ONLY within the next 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. Adjustments to the APRM flux scram, APRM rod block settings, rod block monitor trip settings, MCPR and MAPLHGR limits must be initiated within 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> following the trip of the " A Recirculation Pump. Proposed Answer: D.

3.6.G, .A.l .I), 3.2.5), - Reference(s):

3.2.E, 4.2.E, 3.6.F,3.6.Gl 1.C, 2,1 .B # # Explanation (Optional):

D. Correct -T.S. The reactor may be started and operated or operation may continue with a single recirculation loop provided that the designated adjustments for APRM flux scram setting (Specification 2.1 .a and Table 3.1 rod block monitor trip setting (Table MCPR fuel cladding integrity safety limit (Specification 1.1 .A), and MCPR operating limits and MAPLHGR limits, provided in the Core Operating Limits Report, are initiated within 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. During the next 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, either these adjustments must be completed or the reactor brought to Hot Shutdown.

A. lncorrect

-The specified actions of T.S. 3.6.G.1 must be completed within 20 hours2.314815e-4 days <br />0.00556 hours <br />3.306878e-5 weeks <br />7.61e-6 months <br /> following the trip of a Recirculation Loop. If the specified actions are not completed within 20 hours2.314815e-4 days <br />0.00556 hours <br />3.306878e-5 weeks <br />7.61e-6 months <br /> then the plant must be placed in Hot Standby condition.

B. lncorrect

-Adjustments are required on the APRM flux scram, APRM rod block settings, rod block monitor trip settings.

C. lncorrect Adjustments are required on the APRM flux scram, APRM rod block settings, rod block monitor trip settings. (Attach if not previously provided)

Technical T.S. 2.1 .A, 3.1 TRM Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New 293 requal Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowled Comprehension or Analysis ge X 10 CFR Part 55 Content: 55.41 55.43 2 Comments:

1. KIA (K&A 'The SID Shl~tdown LIFT becal~se DRYWELL HIILO, Drywell Examination Outline Cross-Level RO SRO Tier # 1 Group 1 # 295025, 2.4.45 Importance Rating 4.3 Statement)

Ability to prioritize and interpret the significance of each annunciator or alarm. (High Reactor Pressure)

Proposed Question:

SRO The plant has just shutdown with the following

" A" Loop of RHR is operating in Shutdown Cooling. Main Turbine is cooling down on the Turning Gear Primary Containment is still being maintained Operations to de-inert Primary Containment are in progress Which of the following annunciators would be the PRIORITY concern and why? 3-L-9, RX PRESS CLG PERMISSIVE ON, clears , because this indicates an entry condition for ON 31 56, Loss of Cooling. 7-H-6, PUMP PRESS LO, alarms this indicates a loss of the Turbine Bearing Lift Pumps. 5-G-1, PRESS low alarm clears because this indicates an entry condition for OT 31 11, High Pressure. 7-H-3, COND VAC LO, alarms because this indicates an entry condition for OT 3120, Condenser High Back Pressure Proposed Answer: A.

LIFT Drywell RRUs. Drywell vacuum Reference(s):

DP 0166, A.2.b.37(c) pg ARS21001, 14 pg of provided)

1. Cogr~itive Explanation (Optional):

A. Correct -The loss of the pressure permissive results in the isolation and loss of shutdown cooling requiring entry into ON-31 56, Loss of Shutdown Cooling. B. lncorrect

-This annunciator indicates the loss of any lift pump, since the lift pumps lower the power requirements of the turning gear there is no abnormal response other than to investigate and if necessary restart the lift pump or direct maintenance to investigate.

Low LO pressure is an entry condition for OT 31 15, Reactor Pressure Transients, NOT PUMP PRESS LO. C. lncorrect

-Low Pressure clearing does not cause any automatic actuations or isolations to occur. There is ample time to respond to the slowly rising DW pressure.

This condition can be easily corrected by restarting DW It is NOT an entry condition to OT 31 11, High Pressure.

D. lncorrect

-This annunciator indicates a loss of however in this plant condition there will be no negative effect. Technical (Attach if not previously rev 104 180. Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New X (Note changes or attach parent) Question History: Last NRC Exam No Question Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

1. # (K&A and/or HIGH DRYWELL PClS Drywell Drywell 183°F Drywell H~ 0.3% SAGs SAGs Examination Outline Cross-Level RO SRO Tier # 1 Group 1 WA 295028, EA2.02 Importance Rating 3.9 Statement)

Ability to determine interpret the following as they apply to TEMPERATURE

Reactor pressure Proposed Question:

SRO 82 A plant transient occurs resulting in a successful reactor scram and appropriate isolations.

The crew is currently implementing EOP-3. The following conditions exist: Reactor pressure is 750 psig Reactor water level is being maintained above Pressure 25.0 psig and temperature 250°F and rising Torus pressure 24.0 psig and rising Torus level 11.0 Torus water temperature and Torus at respectively and steady. For the above, the CRS is required to: A. Continue in EOP-3 and direct the containment sprays be initiated.

B. Direct the crew to enter EOP-5 RPV-ED and blowdown.

C. Enter Appendix E, Section 4 to re-assess containment conditions.

D. Enter Appendix E, Section 7 and direct venting the containment via CAD. Proposed Answer:

(drywell 350°F, Drywell blowdown HC-TL " - SAGS H~) Reference(s):

DWSlL - - - p~ Explanation (Optional):

A. Correct -With torus pressure greater than 10 psig and within the DWSlL containment sprays should be initiated.

This point is within the DWSIL temp within the max temp 280°F and within the HCTL curve 1080 psig). B. lncorrect

-RPV is not required until torus pressure reaches 27 psig. Reactor pressure is above the 500 psig line but below the 1080 psig line. With Torus water temperature at 183 F it is within the safe area of the 1080 psig line for the HCTL curve. C. and D. lncorrect There are no entry requirements for the (H 2 entry is not required until 0.5% Technical EOP-3 and associated (Attach if not curves.

EOP Study Guide, rev Section 13 pages 13 -17 Proposed references to be provided to applicants during EOP 3 curve, examination:

HCTL curve, PCPL-A, and PSP curves Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

1. 2 KIA # (K&A andlor Offgas RECOMBINER RECOMBlhlER PIPE OG-516A(B)

OG-516A(B) 510% RTP/min RTPImin HgA, Mlbmlhr. Examination Outline Cross-Level RO SRO Tier # 1 Group 295002, AA2.04 Importance Rating 2.9 Statement)

Ability to determine interpret the following as they apply to LOSS OF MAIN CONDENSER VACUUM : system flow Proposed Question:

SRO The plant is operating at 100% power when the following annunciators 7-H-3, COND VAC LO 50-A-INLET TEMP LOW 50-B-HlGH PRESSURE DROP 50-D-1, PREFILTER HlGH PRESSURE DROP 50-H-3, DELAY FLOW HlGH An operator at the 9-7 panel reports a slow downtrend on Main Condenser Vacuum. Given these indications, which one of the following is required?

Enter OT 31 20, Condenser Low Vacuum, transfer electrical loads and manually scram the reactor and enter OT 31 00. ON 31 51, Off Gas Explosion, reset the isolation and slowly re-open using the controller until desired back pressure is obtained. ON 31 51, Off Gas Explosion, commence power reduction per OP 01 05, Reactor Operations, at a rate until vacuum stabilizes or the plant is shut down. OT 31 20, Condenser Low Vacuum, lower power at 10% using recirc flow until condenser vacuum is less than 5.0 inches or core flow is 28.5-29.5 Proposed Answer: D.

OG-516A(B)

HgA. d/p Reference(s):

OT 31 20 Question Explanation (Optional):

A. lncorrect

-Entry requirements for OT-3120 are met however the plant would only be scrammed if condenser vacuum was dropping quickly. B. lncorrect

-None of the annunciators that are entry requirements for ON-3151 are in alarm and will NOT have isolated.

C. lncorrect

-None of the annunciators that are entry requirements for ON-3151 are in alarm and vacuum must be established at less than 5.0 inches D. Correct -These indications, recombiner inlet temp low and high pressure drop as well as the high on the filter and delay pipe flow indicate an excess air flow which would indicate increased main condenser air in-leakage. The low vacuum alarm is an entry condition into OT-3120 and for these conditions reactor power should be lowered while the air in-leakage is investigated. (Attach if not previously ARS-21018 (AOG) provided)

ARS-21005, 7-H-3 Technical Proposed references to be provided to applicants during examination:

None Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 5 Comments:

1. 7,2.1.23 (K&A perform RM-17-453AJB BLDGIREFUEL A(B) and and and Examination Outline Cross-Level RO SRO Tier 1 Group # 2 WA 29501 Importance Rating 4.4 Statement)

Conduct of Operations:

Ability to specific system and integrated plant procedures during all modes of plant operation. (High Off-site Release Rate) Proposed Question:

SRO 84 The plant is operating at 100% power and moving irradiated fuel in the fuel pool when the following events occur: A bundle is dropped and damaged. The Rad Monitors trip causing a Reactor Building HVAC isolation and SBGT initiation.

The following annunciators alarm: 3-E-3, RX BLDG RAD HI 5-H-1 and 5-J-1, FLR CH RAD HI 3-E-4, REFUEL FLOOR RAD HI Which of the following is required? Enter EOP-4 Secondary Containment and Radioactivity Release Control ONLY then determine Refuel Floor and Reactor Building radiation levels and direct Chemistry to obtain stack release samples. Enter EOP-4 Secondary Containment and Radioactivity Release Control ON-31 52, MSL and Off Gas High Radiation then direct an evacuation of personnel and verify OG-FCV-11, Off Gas to Stack Isolation. Enter ON-3152, MSL and Off Gas High Radiation ON-31 53, Excessive Radiation Levels then re-start Reactor Building HVAC using OE-3107, Appendix AA and direct Chemistry to obtain stack release samples Enter ON-3153, Excessive Radiation Levels EOP-4 Secondary Containment and Radioactivity Release Control then direct an evacuation of personnel and request Radiation Protection to obtain area dose rates and air samples Proposed Answer: D.

- - - Reference(s):

ARS-*10O1 1 for the 9-3 Ann # Explanation (Optional):

A. lncorrect-There are entry requirements for ON-3153 and an evacuation is required.

B. lncorrect There are no entry conditions for ON 31 52, and no requirement to verify OG-FCV-11 isolation for these conditions.

C. lncorrect There are no entry conditions for ON 31 52 and no requirements to re-start RB HVAC at this time or obtain stack samples. D. Correct There are entry conditions for these procedures and they direct an evacuation of personnel and request Radiation Protection to obtain area dose rates and air samples. Technical (Attach if not previously ON-31 53 provided)EOP-4 Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

1. KIA # - - - - (K&A "Dl' ,low. B RCIL-4 0 6. Temperature)

Examination Outline Cross-Level RO SRO Tier # 1 Group 2 29501 3, 2.1.25 Importance 4.2 Statement)

Ability to interpret reference materials, such as graphs, curves, tables, etc. (High Suppression Pool Proposed Question:

SRO 85 Given the following conditions:

The " B and RHR Pumps are aligned for Torus Pool Cooling at 10,000 gpm. Torus Temperature is 180°F rising slowly. RPV water Level is -5 inches and lowering slowly. Torus pressure is 4 psig. NO other ECCS is running. Which one of the following actions is required?

In accordance with the requirements of.. . A. EOP-3, Re-align B RHR Loop to DW Spray at 14,000 gpm B. EOP-3, Lower RHR Loop Torus Cooling flow to 9,500 gpm. C. EOP-1, Re-align B RHR Loop for LPCl mode at 9,500 gpm flow. D. EOP-1, Re-align B RHR Loop for LPCl mode at 14,000 gpm flow. Proposed Answer: C. Explanation (Optional):

C. Correct -Per step EOP-1, restore and maintain RPV level above 6 in. using Preferred Injection Systems. RHR flow must be lowered because they are above their NPSH limits. The overpressure lines indicate the minimum pressure required for that limit to be valid. , if tours pressure is reading 4 psig, the psig limit must be used. Do not interpolate between the limits. A. lncorrect

-RHR Pumps must be shifted to LPCl mode. lncorrect

-RHR Pumps must be shifted to LPCl mode. D. lncorrect

-There is no direction to raise flow and exceed NPSH requirements.

Reference@):

RCIL PCm PCIDT # - # Technical EOP-1 (Attach if not previously EOP Study Guide, Rev 13, p r o v i d e d) Section 13, pg 36 of 54 leg and Proposed references to be provided to applicants during EOP-1 and examination:

EOP-3 legs and NPSH Limits curve. Learning Objective: (As available)

Question Source: Bank Lot more Modified Bank New X (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 5 Comments:

1. # KIA # (K&A ; 187' "A" mirrimum "A B, LPCl NC LPCI/RECIRC LPCl NC LPCI/RECIRC Examination Outline Cross-Level RO SRO Tier 2 Group 1 203000, A2.14 Importance Rating 3.9 Statement)

Ability to (a) predict the impacts of the following on the RHWLPCI: INJECTION MODE (PLANT SPECIFIC) and (b)based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations:

Initiating logic failure Proposed Question:

SRO 86 The plant is in Cold Shutdown with all equipment operable.

The " D RHR Pump is aligned for Shutdown Cooling. Reactor water level is being controlled at 185" to using CRD make-up and RWCU letdown. The RHR Logic spuriously initiates and seals in. Which one of the following procedures contains the guidance necessary to prevent RHR injection AND what actions are required?

In accordance with.. . EN-OP-115, Conduct of Operations, verify adequate reactor water level using two independent indications then place ALL four RHR pump control switches on CRP 9-3 in Pull-to-Lock EN-OP-115, Conduct of Operations, verify adequate reactor water level using two independent indications then place the ONLY RHR Pumps and " C" control switches on CRP 9-3 in Pull-to-Lock OP-2124, Section System Shutdown from Operation, depress the RHR LOGIC VALVE RESET pushbutton then close OUTBD INJECTION, RHR-27A ONLY. OP-2124, Section B, System Shutdown from Operation, depress the RHR LOGIC VALVE RESET pushbutton then close OUTBD INJECTION, RHR-27A and 27B. Proposed Answer: B.

purrlp I A/C LPCI/RECIRC Reference@):

cha.nges I Explanation (Optional):

A. Incorrect-The pump start logic is one in each piping loop per logic. Therefore since only the " A logic initiated only the A and C Pumps would start. The " B RHR Loop is operating in shutdown cooling mode. Taking " D RHR pump to PTL would result in a loss of SDC. B. Correct -The A and C RHR pumps will start and injection can be terminated by placing their control switches in PTL. The injection valves cannot be closed because they are on timers. C. and D. lncorrect

-the LOGIC VALVE RESET pushbuttons are used to stop the pumps after the initiation signal has cleared. Both injection valves will receive and open signal from a single logic initiation.

Technical EN-OP-115, Pg. 27 (Attach if not previously OP-2124, Sect B provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Lot more Modified Bank # (Note attach parent) New X or Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 5 Comments:

I

1. WA # (K&A ; / FW 160", FW 160", FlowIFeedwater Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 1 259002, A2.01 Importance Rating 3.4 Statement)

Ability to (a) predict the impacts of the following on the REACTOR WATER LEVEL CONTROL SYSTEM and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations:

Loss of any number of main steam flow inputs Proposed Question:

SRO 87 A plant startup is in progress and reactor power is at 50%. Vessel level is being maintained at 160 inches when the " C" Main Steam Line Flow transmitter fails to a minimum (zero) output. Which one of the following correctly describes Feed Flow RPV level response AND the initial action required? Feed flow will not be affected by this failure, because the Feedwater Control system is in SINGLE ELEMENT control at this power level. In accordance with 5-E-6, CONTROL SYSTEM TROUBLE, initiate a WR. Feed flow will lower, and then maintain level less than but greater than the scram setpoint.

In accordance with 5-E-6, CONTROL SYSTEM TROUBLE, place the Feedwater Control System in SINGLE ELEMENT control. Feed flow will lower, and then maintain level less than but greater than the scram setpoint.

Enter OT-3113, Reactor Low Water Level, Shift RX VESSEL MASTER CONTROLLER (FC-6-83) to MANUAL and restore and control RPV water level. Feed flow will initially lower but then recover to 160 because on low reactor vessel water level, the reactor vessel water level signal overrides the Steam Flow error signal to increase Feedwater flow. Enter OT-3113, Reactor Low Water Level, and monitor the system response.

Proposed Answer: C.

or~ly single- 30% Reference(s):

48, Explanation (Optional):

C. Correct -Feed flow will lower as less steam demand is sensed by the feedwater control system. The system will compensate by lowering feedwater flow however at this power level and because one fourth of the demand signal is lost, and the level demand signal being dominant the level will not lower to the scram setpoint.

OT-3113 will be entered which directs placing the Feedwater Controller in manual. A. lncorrect

-Feedwater flow will be affected because FWLC is taken from element to three-element control at approximately power. Therefore operator actions are required to restore and properly control RPV water level. B. lncorrect

-There is no guidance in the ARS to shift to single element. D. lncorrect

-Feedwater flow will be affected and it will not automatically recover. Actions are required to restore and properly control RPV water level. Technical OP 01 05, Rev 85, (Phase (Attach if not previously Step 27, pg. 89) provided)

OT-3113, Rev 22, pg 2 ARS 21 003, for 5-E-6 Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam Similar to 2007 common 17 Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

1. 1 KIA # Importance (K&A / Drywell (V70-117), Drywell Drywell N, OIV a) Examination Outline Cross-Level RO SRO Tier # 2 Group 400000, 2.4.49 4.4 Statement)

Emergency Procedures Plan: Ability to perform without reference to procedures those actions that require immediate operation of system components and controls. (Component Cooling Water System) Proposed Question:

SRO 88 With the plant operating at power, a short develops in the RBCCW Return Valve causing the valve to go fully closed. The valve cannot be re-opened from either the Control Room or locally. Which one of the following actions is required? lmmediately trip both Recirc Pumps and within two minutes scram the reactor and enter OT 3100, Scram Procedure. lmmediately lower reactor power as necessary to reduce primary containment heat load and enter OT 31 11, High Pressure. Enter OT 31 11, High Pressure, close MAKE-UP AC-20 and open the normal Torus vent path isolation valves. Within 2 minutes scram the reactor, enter OT 3100, Scram Procedure, and trip the Recirc Pumps. Proposed Answer: Explanation (Optional):

A. lncorrect

-Two minutes are allowed to recover RBCCW, THEN the plant must be scrammed, then the recirc pumps are tripped. B. lncorrect

-Not required by ON 3147, the initial problem is loss of cooling water to the recirc pump seals. C. lncorrect

-Not required by ON 3147, the initial problem is loss of cooling water to the recirc pump seals. D. Correct -IAW 3147, If RBCCW flow is not restored in two minutes: 1) Scram the reactor, Enter OT 31 00, Scram Procedure

2) Trip both recirc pumps.

Reference(s):

1, 1 ! I # pg 2. (Attach if not previously provided)

Technical ON 3147, Sect. Proposed references to be provided to applicants during None I I Learning Objective: (As available) Question Source: Bank # Lot more Modified Bank (Note changes or attach parent) New X Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 5 Comments:

1. # KIA # (K&A (ACIDC)) drywell drywell "6" followirrg and 10A-S36B keylock MCC-896 MCC- keylock 10A-S36B keylock Examination Outline Cross-reference:

Level Importance Rating RO 262002, 2.1.20 SRO 2 1 4.6 Statement)

Ability to interpret and execute proc Proposed Question:

SRO 89 edure steps. (UPS With the plant operating at 75% power, a leak results in rising pressure.

When pressure exceeds 2.5 psig, the UPS Feeder Breaker opens. Shortly thereafter an AC generator output undervoltage condition occurs. Assume normal power remains available and all other automatic actions occur as designed.

Tier Group Which one of the describes how this failure affects the " B" UPS what action must be directed to comply with the procedure?

The AC generator output undervoltage trip does not effect the UPS output. Position the UPS FDR TRIP, switch on CRP 9-33 to BLOCK. UPS remains operable. causes a trip of the feed from UPS 1 B Breaker. Re-energize 89B from the Control Room by closing the Maintenance Tie Breaker, Declare UPS inoperable. does not effect the UPS output. At CRP 9-3 place UPS-1 B control selector switch to OFF and transfer MCC-89B Power from UPS to the Maintenance Tie. Declare UPS inoperable. causes a trip of the MCC-89B feed from UPS 1 B Breaker. Position the UPS FDR TRIP, switch on CRP 9-33 to BLOCK and re-close MCC-89B feed from UPS 1 B Breaker. UPS remains operable.

Proposed Answer: B.

lncorrect LPCl lA(1B). lncorrect lncorrect ,the MCC-896 16 Reference@):

1. # Explanation (Optional):

A. -UPS output is lost and UPS is inoperable.

B. Correct -there is a trip of the UPS Tie Breaker. The alternate power supplies (maintenance ties) are used to power affected subsystems in the event of the loss of UPS C. -UPS output is lost. D. -There is no need to bypass the ECCS trip to lineup the maintenance tie and with the AC generator output undervoltage trip present feed from UPS Breaker will not close and UPS is inoperable.

Technical OP 21 43, Rev. 1 17, Sect. I, (Attach if not previously pg 17 of 58 provided)

Proposed references to be provided to applicants during Learning Objective: (As Question Source: Lot more Modified Bank Requal 1475 (Note changes or attach parent) New Question Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 Cornments:

1. 1 # (K&A ; EOPISAG 0, Examination Outline Cross-Level RO SRO Tier # 2 Group WA 21 1000, A2.07 Importance 3.2 Statement)

Ability to (a) predict the impacts of the following on the STANDBY LIQUID CONTROL SYSTEM and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations:

Valve closures Proposed Question:

Common 90 During an ATWS the RO places the SLC control switch on CRP 9-5 to " System 1" and " System 2". Both pumps Red Lights energized when the respective system was started. Both squib valves continuity lights extinguished.

SLC pump discharge pressure is cycling between 1275 and 1400 psig SLC Flow Indicator red light is NOT illuminated.

Based on these indications.. 1) Which of the following is the cause? 2) What is the appropriate alternate boron injection method from OE-Appendices? 1) Boron has solidified in the SLC suction piping. 2) Use App. I, Alternate SLC Injection, for local operation of SLC pumps. 1) The SLC Tank Suction Valve, SLC-11, is closed. 2) Use App. Alternate lnjection Using SLC Test Tank. 1) The SLC Discharge to the Reactor, SLC-18, is closed. 2) Use App. J, Boron lnjection using RWCU. 1) Both squib valves have failed to fire. 2) Use App. I, Alternate SLC Injection, to locally fire at least one squib valve. Proposed Answer: C.

- Reference@):

P&ID-191 171 OE-3107, 17 App I, J, K, provided)

1. # Explanation (Optional):

C Correct -The discharge pressure of the SLC pumps (1275 -1400 psig) is well above RPV pressure the relief valves providing dead headed relief would cause these indications.

Using RWCU would be successful for these conditions because then the discharge is through RWCW. A. lncorrect

-The suction path blocked would not allow pump discharge pressure.

This method would still not inject into the reactor. B. lncorrect The suction path blocked would not allow pump discharge pressure.

This method if used for RPV water level makeup and would not work with SLC-18 closed. D. Incorrect

-Based on squib valves continuity lights being extinguished both squib valves have fired. Technical (Attach if not previously Rev and 0, EOP-2 Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

1. KIA # l (K&A FIRE ; C02 timeout timeout. INITIATEIABORT 1st C02 INITIATEIABORT C02 cardox CARDOX C02 cardox CARDOX C02 Examination Outline Cross-Level RO SRO Tier # 2 Group 2 286000, A2.02 mportance Rating 3.3 Statement)

Ability to (a) predict the impacts of the following on the PROTECTION SYSTEM and (b)based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations:

Failure to actuate when required Proposed Question:

SRO 91 A fire has occurred in the Cable Vault. The discharge timer TL-30U-1 starts but fails 20 seconds into the 30 second and does not Which one of the following actions is required? Enter OP 21 86, Fire Suppression Systems, and place the switch in SHOT to immediately initiate a discharge into the Cable Vault. Enter OP 3020, Fire Emergency Response Procedure, and place the switch in 1 st SHOT to immediately initiate a discharge into the Cable Vault. Enter OP 21 86, Fire Suppression Systems, and open a manual valve on one of the bottles to start the pneumatic timer allowing 70 seconds before discharge into the Cable Vault. Enter OP 3020, Fire Emergency Response Procedure, and open a manual valve on one of the bottles to start the pneumatic timer allowing 70 seconds before discharge into the Cable Vault. Proposed Answer: C.

sec sec sec Reference(s):

charlges Explanation (Optional):

C. Correct -OP 21 86, gives detailed instructions for the operation of fire suppression systems. Since the electrical timer failed the C02 system will remain waiting for the timer to complete its 30 time-out. This timer can be bypassed by manually opening one of the C02 bottles and starting the pneumatic timer. Placing the INITIATEIABORT switch in 1 st SHOT starts the electric timer which has failed. A. lncorrect

-Placing the INITIATEIABORT switch in 1st SHOT starts the electric timer which has failed so no initiation will occur. Additionally this timer then opens valves on two C02 bottles which start another 70 timer, so any initiation would not occur immediately.

B. lncorrect

-OP 3020, Fire Emergency Response Procedure, contains checklists for control room actions during the fire and assume normal system operation.

Placing the INITIATEIABORT switch in 1st SHOT starts the electric timer which has failed so no initiation will occur. Additionally this timer then opens valves on two C02 bottles which start another 70 timer, so any initiation would not occur immediately.

D. lncorrect

-OP 3020, Fire Emergency Response Procedure, contains checklists for control room actions during the fire and assume normal system operation.

Technical OP 21 86, Sect A, Pgs 15-22 (Attach if not previously OP 3020, App W. provided)

Proposed references to be provided to applicants during Learning Objective: (As Question Source: Bank Modified Bank # New Lot more (Note or attach parent) X Question History: Question Cognitive Level: 10 CFR Part 55 Content: Last NRC Exam No Memory or Fundamental Knowledge Comprehension or Analysis 55.41 X Comments:

1. WA # (K&A 30% Drywell IA LCOs Examination Outline Cross-Level RO SRO Tier # 2 2 268000, 2.2.36 Importance Rating 4.2 Statement)

Equipment Control: Ability to analyze the effect of maintenance activities, such as degraded power sources, on the status of limiting conditions for operations. (Radwaste)

Proposed Question:

SRO 92 The plant is starting up and is at power when Maintenance requests a clearance on Floor Drain Isolation Valve, LRW-82. The clearance will require the following:

Closing the Instrument Air (IA) isolation valve to LRW-82 Isolating the power supply to the supply solenoid Which one of the following must be entered? one (1) hour or the plant must immediately commence a shutdown and be in cold shutdown within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. twenty four (24) hours or the plant must immediately commence a shutdown and be in cold shutdown within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. six (6) days or the plant must immediately commence a shutdown and be in cold shutdown within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. seven (7) days or the plant must immediately commence a shutdown and be in cold shutdown within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. Proposed Answer: D. Group Reference(s):

P&ID 91 77, Sht 01\1-3146, Rev 20, APP A, Pg 8 4.7.2.A., & & Explanation (Optional):

D. correct -Isolating the air to 20-82 will cause the valve to close. This meets the requirement of T.S. 3.7.D.2 that reactor power operation may continue provided one containment isolation valve in each line having an inoperable valve is in the mode corresponding to the isolated condition.

In this case since 20-82 is failed closed it satisfies the T.S. requirement for one valve closed in the line and therefore T.S. 3.6.C.2 applies which requires the sumps to operable.

Both the sump and air sampling systems shall be operable during power operation.

From and after the date that one of these systems is made or found inoperable for any reason, reactor operation is permissible only during succeeding seven days. If this specification is not met then an orderly shutdown shall be initiated and the reactor shall be in the cold shutdown condition within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. A. B. and C. Incorrect

-The plant may operate for 7 days before starting the shutdown.

Technical (Attach if not previously provided)T.S. Table 3.7.D.2. 3.6.C.2. bases pgs 164 166 Proposed references to be provided to applicants during examination:

T.S. Sections 3.6.C and 3.7.D Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 2 Comments:

1. KIA # (K&A 1 4.0 Examination Outline Cross-reference:

Level RO SRO Tier # 2 Group 204000, 2.4.6 2 Importance Rating Statement)

Emergency Procedures Plan: Knowledge symptom based EOP mitigation strategies. (RWCU). Proposed Question:

SRO 93 PClS RB RB RB SRVs. 6. cooldown cooldown cooldown The plant was operating at 100% power when a leak in the Reactor Building from the RWCU system produced the following conditions:

Reactor is shutdown with all rods fully inserted.

Groups 2, and 3 have isolated; Group 5 Isolation valves cannot be closed. Station electrical loads are being supplied by the Start-Up Transformers.

Reactor Building Temperatures are as follows: East 252' at 147°F and rising RB East 280' at 145°F and NW 280' at 153°F and East 303' at 155°F and For these conditions, which one of the following is required?

A. Enter EOP-5, RPV-ED and open all Rapidly depressurize the RPV using Bypass Valves irrespective C. Begin a normal plant per OP-0105 using the Bypass Valves. Depressurize the RPV using SRVs without exceeding the Technical Specification rate limit.

blowdown BPVs - RCIOR-4 SRVs Reference(s):

1. #I # Proposed Answer: B. Explanation (Optional):

B. Correct -only one area (303') is above its Max Safe limit, but the others are approaching their limits. If is anticipated then the CRS should direct depressurizing with the per EOP-1. A. lncorrect RPV-ED is not yet required due to the same parameter not being above the Max Safe level in more than one area. C. lncorrect

-A rapid depressurization is warranted per EOP-1 D. lncorrect

-A rapid depressurization is warranted at this time per EOP-1 RCIOR-4. are not warranted at this time. EOP-1 (Attach if not previously EOP-4 provided)

Technical Proposed references to be provided to applicants during None examination:

Learning (As available)

Question Source: Bank Modified Bank Requal 185 Lot more (Note changes or attach parent) New Question History: Last NRC Exam Similar to 2007 SRO 77 Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.4.1 55.43 5 Comments:

1. (K&A consewative tagout, A0 #1 tagout tagout A0 #2 tagout A0 #2 2nd A0 #2 CAlVlVOT 2" A0 #2 2nd A0 #2 2nd tagout Examination Outline Cross-Level RO SRO Tier # 3 Group WA # 2.1.39 Importance Rating 4.3 Statement)

Knowledge of decision making practices.

Proposed Question:

SRO 94 The plant is in Cold Shutdown, HPCl was tagged out of service per EN-OP-102, Protective and Caution Tagging. Because of this HPCI status is controlled by EN-OP-102. is removing the HPCl in accordance with the 'Tags To Be Removed" sheet. This removal will align HPCl valves for normal operations and HPCl status control will be transferred back to AP 01 55, Current System Valve and Breaker Lineup and Identification.

Due to manpower constraints has been assigned to concurrently verify the removal. IAW EN-OP-012, what action is permitted for completing the Tag Out Removal and transferring HPCl status control back to AP 01 55? A. CAN sign the " Restoration Verification

" box in eSOMS. The valve restoration activities completed by the two operators MAY be considered adequate completion of the system line-up. B. sign the " Restoration Verification

box in eSOMS. Before the system valve line-up can be considered complete an lndependent Verification of the HPCl lineup MUST be performed by another operator.

CAN sign the " Restoration Verification

" box in eSOMS. Before the system valve line-up can be considered complete an lndependent Verification of HPCl lineup MUST be performed by another operator.

C. D. CANNOT sign the " Restoration Verification

" box in eSOMS. Another operator MUST perform an independent verification of the removal and MUST perform an lndependent Verification of the HPCl lineup. Proposed Answer: A.

- verifiedlestablished system/component EIV-OP-102. (LER9820Rl-04) - A0 tagout 2nd eSOMS. - - Reference(s):

1. Questior~

Explanation (Optional):

A. Correct The tag out removal can be performed with concurrent verification per Attachment 9.1 of EN-OP-102. IAW AP 01 55, System status must be prior to declaring a system or component operable.

The status is established by performing either; a complete system valve lineup, or by completing Restoration Conditions if the systemlcomponent status is under the control of B. lncorrect that observes the removal can sign the " Restoration Verification

" box in The independent verification of the system line-up is not required.

C. lncorrect The tag out removal can be performed with concurrent verification and this concurrent verification can be used to transfer status control to AP 01 55. D. lncorrect The tag out removal can be performed with concurrent verification.

The independent verification is not required.

Technical AP-0155, Discussion pg 4 (Attach if not previously EN-OP-102, Sect. 5.20, pg p r o v i d e d) 31 Proposed references to be provided to applicants during examination:

None Learning Objective: (As available)

Question Source: Bank Modified Bank # New X Lot more (Note changes or attach parent) History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

1. # KIA # (K&A STARTIHOT StartupIHot flilly StartupIHot Examination Outline Cross-reference:

Level SRO 3 2.2.35 Importance Rating 4.5 Statement)

Ability to determine Technical Specification Mode of Operation.

Proposed Question:

SRO 95 Vermont Yankee is shutdown with the following conditions:

Reactor coolant temperature is 185°F and steady Maintenance is preparing to install the steam dryer assembly.

All the requirements for Secondary Containment are met. The Reactor Mode Switch is in SHUTDOWN I&C has permission to perform Mode Switch Interlock Functional Testing. Which of the following is correct when the reactor mode switch is placed STANDBY The actual Reactor Mode is.. A. Standby and all normal requirements for transferring to Hot Standby Mode must be met. Cold Shutdown but all normal requirements for transferring to Hot Standby Mode must be met. Cold Shutdown and current plant conditions allow this operation control rods are verified to inserted.

Tier Group D. Standby and current plant conditions allow this operation provided control rods are verified to be fully inserted.

Proposed Answer: C.

StartupIHot operatior1

< 2°F - Reference@):

3.7.C, New Explanation (Optional):

C. Correct -The reactor mode switch may be changed to either the Run or Standby position, and not considered to be in the Run Mode or Startup Mode, to allow testing of instrumentation associated with the reactor mode switch interlock functions, provided:

1. Reactor coolant temperature is 21 2. All control rods remain fully inserted in core cells containing one or more fuel assemblies; and 3. No core alterations are in progress.

A. and D. lncorrect

-The plant is still in Cold Shutdown B. lncorrect Requirement is all rods verified fully inserted Technical T.S., Note at bottom (Attach if not previously of pg 155A provided)

Proposed references to be provided to applicants during TS Section 3.7.C examination:

Learning Objective: (As available)

Question Source: Bank # Lot more Modified Bank # (Note changes or attach parent) X Question History: Last NRC Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 Comments:

1. # WA # (KBA MINIMUM Reference(s):

Examination Outline Cross-Level RO SRO Tier 3 Group 2.3.1 1 Importance Rating 4.3 Statement)

Ability to control radiation releases.

Proposed Question:

SRO 96 Per OP 2610, Liquid Waste Disposal, which one of the following is required before the Shift Manager can authorize the BATCH Discharge of a Waste Sample Tank to the Condensate Storage Tank? Sample the tank to verify it is within the limits of OP-2610 and then complete a discharge permit, VYOPF 261 0.03, which must be approved by Chemistry and an SRO on shift ONLY. Sample the tank to verify it is within the limits of OP-2610 and then complete a discharge permit, VYOPF 2610.03, which must be approved by an SRO on shift ONLY. Chernistry must sample the tank prior to and during the discharge and then complete a discharge permit, VYOPF 2610.03, which must be approved by the Chemistry Manager and the Shift Manager ONLY. Chemistry must sample the tank prior to and during the discharge and then complete a discharge permit, VYOPF 261 0.03, which must be approved by the Operations Manager ONLY. Proposed Answer: A. Explanation (Optional):

A. Correct -IAW OP-2610 the tank must be sampled before it is pumped to verify the limits on VYOPF 2610.03 are met then a discharge permit must be signed by Chemistry and the Shift Manager or an SRO. B. Incorrect-Any SRO on shift can sign the discharge permit. C. and D. A continuous discharge should be initiated by the Operations Manager and approved by the Chemistry Manager; they are not required for a " Batch" discharge.

Additionally continuous sampling (or once per shift) is only required for a " Continuous" discharge.

Technical OP-2610, Section A.3 and (Attach if not previously

1. VYOPF 261 0.03, rev 27 provided)

Proposed references to be provided to applicants during None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 55.43 4 Comments:

1. WA # (K&A MWt setpoint < 25% ur~til c 25% Reference@):

Examination Outline Cross-Level RO SRO Tier # 3 2.4.49 Importance Rating 4.4 Statement)

Ability to perform without reference to procedures those actions that require immediate operation of system components and controls.

Proposed Question:

SRO 97 A plant startup is in progress.

Reactor power is 390 and plant loads are on the Auxiliary Transformer.

Reactor pressure is 950 psig. The CRO reports EPR Stroke is failing to zero. As the CRS you must direct entry into: OT 31 15, Reactor Pressure Transients, Verify pressure lowers until MPR takes control, take the EPR to cutout, and stop power increase. OT 31 10, Positive Reactivity Insertion, Verify pressure lowers until MPR takes control, take the EPR to cutout, and continue power increase. OT 31 15, Reactor Pressure Transients, Verify pressure rises until MPR takes control, take EPR to cutout, lower MPR setpoint, and stop power ascension. OT 31 10, Positive Reactivity Insertion, Verify pressure rises until MPR takes control, take EPR to cutout, lower MPR setpoint, and continue power ascension.

Proposed Answer: C. Explanation (Optional):

A. and B. lncorrect

-Because pressure will increase to the MPR when the EPR stroke fails to zero and for B. Because with reactor power RTP with the EPR out of service thermal limits should be considered suspect and power should not be increased above 25% RTP. C. Correct Response.

-Enter OP-3115, Verify pressure lowers until MPR takes control, take the EPR to cutout, and stop power increase core limits are verified.

D. lncorrect

-Because with reactor power RTP with the EPR out of service thermal limits should be considered suspect and power should not be increased above 25% RTP. Technical OT 31 15, rev 9, Follow-Up (Attach if not previously Group Action 2.a OP 01 05, Rev. 1 1, Phase Precaution Proposed references to be provided to applicants during None examination:

Learning Objective:

LOT-00-602, SRO 6 (As available)

Question Source: Bank # Modified Bank # New 5694 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

KIA (K&A 86% 71% Drywell 10% FDW-12NB andlor FDW-12NB andlor Examination Outline Cross-Level RO SRO Tier # 3 Group # # 2.4.20 Importance Rating 4.3 Statement)

Knowledge of operational implications of EOP warnings, cautions, and notes. Proposed Question:

SRO 98 An ATWS has occurred and reactor water level has been deliberately lowered for power control. The following conditions exist: Initial SLC Tank level was and is now and lowering Reactor pressure is 880 psig and rising slowly Reactor water level has been lowered to TAF pressure is 1.8 psig and steady CST level is and lowering Torus water level is 11.0 ft. and Torus temperature is 140°F and rising In accordance with EOP-2, which one of the following actions is required? Restore HPCl injection using OE 31 07, Sect GG with suction from the Torus and control RPV water level between 6" and 90". Restore HPCl injection using OE 31 07, Sect GG with suction from the Torus and control RPV water level between -1 9 and 177". Place Feedwater in service by adjusting controllers to throttle FDW-13 as necessary to control RPV water level between 127" and 177". Place Feedwater in service by adjusting controllers to throttle FDW-13 as necessary to control RPV water level between -1 9" and the level at which power went below 2%. Proposed Answer: C.

RClC Therefore - RClC - 15% Reference(s):

Explanation (Optional):

C. Correct IAW the note in EOP-2 Hot Shutdown Boron Weight is 15% of the SLC tank volume so level can be restored to 127 -177 using preferred ATWS injection system. Although HPCl is a preferred system a Caution states Operation of HPCl or turbines with suction temperatures above 140°F may result in equipment damage. HPCl should not be started and Feedwater used. A. and B. lncorrect Although HPCl is a preferred system a Caution states Operation of HPCl or turbines with suction temperatures above 140°F may result in equipment damage. Therefore HPCl should not be started and Feedwater used. D. lncorrect IAW the note in EOP-2 Hot Shutdown Boron Weight is of the SLC tank volume so level can be restored to 127 -177 Technical EOP-2 (Attach if not previously provided)

Proposed references to be provided to applicants during EOP-2, Level leg examination:

Learning Objective: (As available)

Question Source: Bank # Modified Bank # New X Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 55.41 55.43 5 Comments:

1. # (K&A (1) (2) (1) & & Examination Outline Cross-reference:

Level RO SRO Tier # 3 Group WA 2.2.21 Importance Rating 4.1 Statement)

Knowledge of pre and post-maintenance operability requirements.

Proposed Question:

SRO 99 RPS " A" System has been tripped for replacement of backup scram relay contacts.

The work party has informed the Shift Manager that work is complete and the equipment can be returned to service. to allow the post maintenance testing required to demonstrate its operability provided that IAW AP 0125, the RPS A trip can be reset under is completed first. A. (I)administrative controls, (2) all other required testing B. administrative controls, (2) all other preventive maintenance C. (1) Test Maintenance Tags (2) all other required testing D. (1) Test Maintenance Tags (2) all other preventive maintenance Proposed Answer: A.

testirlg equipment/components D. Reference(s):

1. # Explanation (Optional):

A. Correct -Per Sect. 5.2 of AP-0125, Technical Specification related equipment or components removed from service or declared inoperable may be returned to service under administrative control solely to perform post maintenance (PMT) required to demonstrate its operability.

All other required checks that support verifying operability shall be completed prior to returning the equipment or component to service under administrative control. Following successful completion of the PMT under administrative controls, the can be considered fully operable.

B. lncorrect

-All other testing must be completed.

Preventive maintenance can be deferred provided appropriate approvals are obtained.

C. and lncorrect

-RPS may be returned to service under administrative control and for D. All other testing must be completed.

Preventive maintenance can be deferred provided appropriate approvals are obtained.

Technical AP 0125, rev 12, Admin (Attach if not previously Limit 5.2 provided)

Proposed references to be provided to applicants durirlg None examination:

Learning Objective: (As available)

Question Source: Bank Modified Bank New 5709 Lot more (Note changes or attach parent) Question History: Last NRC Exam No Question Cognitive Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 55.41 55.43 2 Comments:

RO SRO # # KIA # (K&A EOPs. Drywell 190°F +1.5 / A- Examination Outline Cross-reference:

Level Tier Group 2.1.25 Importance Rating Statement)

Ability to interpret reference materials, such as graphs, curves, tables, etc. Proposed Question:

SRO 100 The plant experienced a large LOCA. Adequate core cooling accordance with applicable The following plant conditions currently exist: Reactor pressure is 170 psig and steady pressure is 23.3 psig and rising slowly Torus pressure is 22.1 psig and rising slowly Torus level -11.8 ft and steady DW Temp and steady at which containment integrity Using the EOP charts determine the could no longer be assured? A. 27 psig Torus pressure B. 62 psig Torus pressure C. 77 psig Torus pressur D. psid D Proposed Answer:

blowdown press~.~re This Drywell Reference(s):

provided) exarnination:

Limit # hlRC I Explanation (Optional):

A. Correct -The PSP pressure limit is based on the maximum pressure that can exist in the Torus that will prevent exceeding PCPL during a blowdown.

Since RPV pressure is above 50 psid with the Torus a could exceed the PCPL based on PSP. B. lncorrect

-For Vermont Yankee s PCPL-, the maximum (62 psig) at which the primary containment vent valves can be opened and closed however the lowest pressure is 27 psig. C. lncorrect

-pressure is above the design limit for the based on the upper limit of the PCPL-A for water levels above 57 feet. D. lncorrect

-The Torus Level Limit is based on the TS value for minimum and maximum torus level and is concerned with the ability of the torus to withstand a LOCA prior to the LOCA and is not concerned with Containment capabilities in these conditions.

Technical EOP 3 Basis document (Attach if not previously Must integrate the following:

PCPL-A graph maintains containment integrity.

T.S. Bases 3.7. A Proposed references to be provided to applicants during EOP Graphs for PCPL-A, PSP, Torus Level Learning Objective:

LOT-00-607, SRO 4 (As available)

Question Source: Bank Modified Bank # New 5652 Lot more (Note changes or attach parent) Question History: Last Exam No Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 Comments:

i