Draft RO & SRO Written All Questions Key

ML032880208
Person / Time
Site:	Pilgrim
Issue date:	09/29/2003
From:	Santiago M Entergy Nuclear Operations
To:	Conte R NRC/RGN-I/DRS/OSB
Conte R
References
50-293/03-301
Download: ML032880208 (200)
v • d • e

Text

All Questions Key With AO-4353, High Press/ Low Press Service Air Inlet Crosstie Valve initially open, Instrument Air Header Pressure starts to degrade and reaches 78 psig. AO-4353 has remained open.

u Under these conditions AO-4353:

a. should have automatically closed and is now required by PNPS 5.3.8, Loss of Instrument Air to be manually closed.

b. should have automatically closed however PNPS 5.3.8, Loss of Instrument Air does NOT require the valve to be manually closed.

c. should not have automatically closed but should be manually closed in accordance with PNPS 5.3.8, Loss of Instrument Air.

d. should not have automatically closed and is NOT required to be closed by PNPS 5.3.8, Loss of Instrument Air.

Page l of200

All Questions Key Answer:

a

.v.

References:

PNPS 5.3.8, Loss of Instrument Air (Rev 25); pg 3 and 4 Provided

References:

None Explanation:

AO-4353 should have isolated at 85 psig. PNPS 5.3.8 has you close the valve at 80 psig.

Comments:

Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-02-04 EO 9 295019AA104 41.7 RO 3.3 Group 1 Question Source: New Difficulty Level: 3.5 Cognitive Level: Memory - Fundamental Page 2 of 200

All Questions Key u Given the following sequence of events:

0800: Torus cooling is placed in service.

08 10: A leak from the RPV causes drywell pressure to start increasing, RPV level to start lowering and RPV pressure to start lowering.

0820: Drywell pressure reaches 2.2 psig 0830: RPV Level reaches -46 inches.

0840: RPV pressure reaches 400 psig.

Under these conditions, LPCI Loop Select would initiate at (1)

Valve MO-10001-34A would close at (2) and Torus Cooling

a. (1) 0820 (2) 0820

b. (1) 0820 (2) 0830

c. (1) 0830 (2) 0830

d. (1) 0830 (2) 0840 Page 3 of 200

All Questions Key Answer:

a

References:

2.2.19, RHR (Rev 83); pgs 17-18 and Attachment 9 Provided

References:

None Explanation:

LPCI loop select will initiate at 2.2 psig DW Pressure or -46 inches reactor water level. A LPCI initiation signal will occur at 2.2 psig DW Pressure OR -46 inches reactor water level for 11 minutes OR -46 inches reactor water level with reactor pressure below 400 psig. MO-34 closes on LPCI initiation signal.

Comments:

Objective:

0-RO-02-09-01 EO 9 WA:

295024EK2 12 10CFR Ref:

41.7 Exam Level: RO Importance: 3.5 Tier: 1 Group 1 0-RO-02-09-01 EO 11 Question Source: New Difficulty Level: 2.5 Cognitive Level: Memory - Fundamental Page 4 of 200

All Questions Key Steady state reactor pressure at 100% power would be approximately (1)-.

Per PNPS 2.4.37 Turbine Control System Malfunctions, in the event of a pressure control malfunction that causes reactor pressure to start to rise, a reactor scram would be required (2)

a. (1) 1035 (2) only if reactor pressure exceeds the scram setpoint of 1060 psig.

b. (1) 1035 (2) if reactor pressure approaches the scram setpoint of 1060 psig.

c. (1) 1015 (2) only if reactor pressure exceeds the scram setpoint of 1060 psig.

d. (1) 1015 (2) if reactor pressure approaches the scram setpoint of 1060 psig.

Page 5 of 200

All Questions Key Answer:

b

References:

PNPS 2.1.1, Startup From Shutdown (Rev 129); pg 13 PNPS 2.4.37, Turbine Control System Malfunctions (Rev 17); pg 2 Provided

References:

None Explanation:

PNPS 2.1.1, Startup From Shutdown Precaution 28 states Reactor dome pressure must be limited to 1035 psig (1 025 to 1045) at rated power. The RPS system will trip upon reactor pressure reaching 1060 psig. PNPS 2.4.37 requires a reactor scram if reactor pressure approaches 1060 psig.

comments :

Objective:

None Identified WA:

29502562132 10CFR Ref:

41.10 Exam Level: RO Importance: 3.4 Tier: 1 Group 1 Question Source: New Difficulty Level: 3.O Cognitive Level: Comprehension-Analysis Page 6 of 200

All Questions Key

• +<-

Give the following information:

Reactor pressure 600 psig Torus water level 130 Bulk Torus water temperature 200 degrees F What color would the border of the Torus Water Temperature / HCTL SPDS display be?

a. Green

b. Yellow

c. Red

d. White Page 7 of 200

All Questions Key

'LJ' Answer:

c

References:

2.6.1, Emergency & Plant Information Computer (EPIC) System Real Time Analysis... (Rev 8);

Pf2 47 EOP-03 Provided

References:

EOP-03 Explanation:

Per the procedure and the given conditions, the SPDS display would be alarming and have a red border.

Comments:

Objective:

None Identified WA:

295026EK204 Question Source: New 10CFR Ref:

41.7 Difficulty Level: 2.5 Exam Level: RO Cognitive Level: Comprehension-Analysis Importance: 2.5 Tier: 1 Group 1 Page 8 of 200

All Questions Key u-Given the following conditions:

A leak in the drywell has caused drywell temperature and pressure to rise.

A torus-drywell vacuum breaker has failed open.

All torus bottom pressure indication has been lost.

Torus water level is normal.

Torus bottom pressure:

a. will be the same as drywell pressure.

b. will be the same as torus air space pressure.

c. can be determined by adding the pressure exerted by the height of the water in the torus to drywell pressure.

d. can be determined by subtracting the pressure exerted by the height of the water in the torus from torus air space pressure.

Page 9 of 200

All Questions Key u Answer:

c References :

Properties of Water Provided

References:

None Explanation:

Since a torus-drywell vacuum breaker has failed open, the drywell pressure and torus air space pressure will be the same. Torus bottom pressure can be derived by adding the pressure exerted by the water in the torus to drywell pressure.

Comments :

Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-03-04-05 EO 14.a 29 5 028EA205 41.10 Difficulty Level: 4.0 RO Cognitive Level: Comprehension-Analysis 3.6 Group 1 Question Source: New Page 10 of 200

All Questions Key v

RCIC is being used to control RPV water level with its suction aligned to the torus when a leak in the torus occurs:

Which ONE of the following will occur as torus level continues to lower?

a. RCIC will trip on low suction pressure

b. RCIC will tip on low cooling water flow

c. RCIC suction will auto transfer to the CST on low torus water level.

d. RCIC suction will auto transfer to the CST on low suction pressure.

Page 11 of 200

All Questions Key Answer:

a References :

2.2.22, RCIC (Rev 61); pg 11 of 53 Provided

References:

None Explanation:

RCIC has no auto swap feature. RCIC trips on low suction pressure but not on low cooling water flow.

~~

Comments:

Objective:

K/A:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-09-04 EO 12 295030EA102 41.7 RO 3.4 Group 1 Question Source: Bank Difficulty Level: 2.5 Cognitive Level: Memory - Fundamental Page 12 of 200

All Questions Key L l The plant is initially at 100% power. Which ONE of the following conditions will cause a trip of all Reactor Feed Pumps within approximately 1 minute of occurring?

a. A loss of bus A-1 occurs with the RFP Sequential Trip Selector Switch in the OFF position.

b. A loss of bus A-2 occurs with the RFP Sequential Trip Selector Switch in the OFF position.

c. A trip of the A Condensate Pump occurs with the RFP Sequential Trip Selector Switch in the ON position.

d. A trip of the A Reactor Feed Pump occurs with the RFP Sequential Trip Selector Switch in the ON position.

Page 13 of 200

All Questions Key Answer:

b

\\u

References:

2.4.49, Feedwater Malfunctions (Rev 3 1); pg 18 of 20 Provided

References:

None Explan ation:

A loss of A-2 will cause a trip of 2 condensate pumps and 1 RFP. With 1 Condensate Pump and two RFPs running and the RFP sequence trip selector switch in OFF, suction pressure will lower until the RFPs trip on low suction pressure.

A loss of A-1 will cause a trip of 2 RFPs and 1 Condensate Pump. While this will cause a scram on low level if operating initially at full power, it will not cause a trip of all reactor feed pumps.

A trip of the A Condensate Pump or the A RFP with the RFP trip selector switch in ON will cause only a trip of one RFP, Recirc Pumps will run back to 44% speed and the unit will stay on line.

Comments:

Objective:

0-RO-02-04-02 EO 13.k WA:

29503 1Alll Question Source: New 10CFR Ref:

41.7 Difficulty Level: 3.0 Exam Level: RO Cognitive Level: Comprehension-Analysis Importance: 4.1 Tier: 1 Group 1 Page 14 of 200

All Questions Key W

Given the following conditions:

Reactor power is 20%.

A failure to scram has occurred.

Torus bulk water temperature is 115 degrees F.

Pressure is being controlled between 1000 and 1050 psig with SRVs RPV water level is +5 inches.

Injection has been terminated and prevented from Condensate and Feedwater, HPCI, RHR and Core Spray.

In accordance with EOP-02, which ONE of the following conditions would allow injection fkom these systems to be resumed?

a. APRM downscale lights come in.

b. Reactor power reaches the heating range with a negative period.

c. Reactor water level reaches -25 inches.

d. Reactor power is reduced such that only one (1) SRV is needed for pressure control.

~~

~

Page 15 of 200

All Questions Key Answer:

a

References:

EOP-02, RPV Control, Failure-to-Scram Provided

References:

EOP-02, RPV Control, Failure-to-Scram Explanation:

Reactor power less than 3% (as indicated by APRM downscale alarms) is a conditions which will allow resuming injection.

Power below the heating range with negative period is the definition of shutdown but cannot be used as a basis for starting injection.

Reactor water level dropping to -25 inches could be used as a basis for resuming injection if level was lowered to prevent oscillations. However, level was lowered in this case to protect containment.

If all SRVs can be closed with DW pressure below 2.2 psig, injection can be resumed.

Comments :

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-03-04-04 EO 25.a 295031EA202 Question Source:

41.10 Difficulty Level:

RO Cognitive Level:

4.0 Group 1 New 3.O Comprehension-Analysis Page 16 of 200

All Questions Key Given the following conditions:

b-'

A failure to scram has occurred.

750 Gallons fiom the SBLC tank have been injected to the RPV.

Reactor water level has been lowered to control power.

At this point (1) has been injected into the RPV. Analysl; shows that injection of this amount of boron will safely allow (2)

a. (1) hot shutdown boron weight (2) commencement of a cooldown

b. (1) hot shutdown boron weight (2) restoration of level to the +12 to +45 inch band

c. (1) cold shutdown boron weight (2) commencement of a cooldown

d. (1) cold shutdown boron weight (2) restoration of level to the +12 to +45 inch band Page 17 of 200

All Questions Key Answer:

b

References:

EOP-02, RPV Control, Failure-to-Scram Provided

References:

EOP-02, RPV Control, Failure-to-Scram Explanation:

Hot shutdown boron weight is 750 gallons. Injection of this amount of boron will allow restoration of level but not a cooldown.

Comments :

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-03-04-04 EO 14 295 03 7EK3 04 41.5 RO 3.2 Group 1 Question Source: New Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 18 of 200

All Questions Key

'd The Technical Specification limit of 20 microcuries per milliliter Total Iodine of reactor water is based on ensuring that dose at the site boundary to:

a. the skin is limited to 8 Rem in the event of a rod withdrawal error.

b. the thyroid is limited to 8 Rem in the event of a rupture of a main steam line.

c. the whole body is limited to 8 Rem in the event of a rod drop accident.

d. extremities is limited to 8 Rem in the event of a failure to scram.

Page 19 of 200

All Questions Key i_/

Answer:

b

References:

Tech Specs 3.6.B.1 and Bases Provided

References:

None Explanation:

Per T.S. Bases for 3.6.B.1, the 20 microcurie limit on reactor water limits dose to the thyroid to 8 Rem in the event of a steam line rupture.

Comments:

PNPS 2002 SRO Exam - Question 1 1-modified Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 None Identified 29503 862225 43.2 RO 2.5 Group 1 Question Source:

Difficulty Level:

Cognitive Level:

Bank Modified 3.0 Memory - Fundamental Page 20 of 200

All Questions Key The Control Room is evacuated due to a fire in the Main Control Room. The immediate actions of PNPS 2.4.143, Shutdown Outside the Control Room were completed. No subsequent actions were accomplished prior to evacuation.

L-.

Which of the following is an action required per PNPS 2.4.143 and the reason for it?

a. Open the APRM breakers to protect the RPS power supply fiom possible feedback from the Control Room.

b. Open the APRM breakers to scram the reactor.

c. Open the IRM breakers to protect the RPS power supply from possible feedback from the Control Room.

d. Open the IRM breakers to scram the reactor.

Page21 of200

RO Initial License Exam Key Answer:

b

References:

2.4.143, Shutdown From Outside the Control Room (Rev 29); pg 6 of 106

~~

Provided

References:

None Explanation:

Per step [9].(a) of the subsequent actions of PNPS 2.4.143, Shutdown From Outside the Control Room, the APRM breakers are opened to scram the reactor.

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 Comments:

0-RO-03-03-25 600000AK304

.o RO 2.8 Group 1 Question Source: New Difficulty Level: 3.0 Cognitive Level: Memory - Fundamental Page 22 of 150

All Questions Key During a loss of coolant accident in the drywell, drywell sprays have been initiated. The following plant conditions exist:

W Drywell pressure is 30 psig and rising slowly Torus bottom pressure is 35 psig and rising slowly Torus water level is 165 and rising slowly How would the containment integrity be affected if torus water level were to continue to rise?

a.

b.

C.

d.

As water level rose, bottom pressure would also rise to the point of exceeding internal design pressure.

As water level rose, the drywell atmosphere would get compressed causing it to exceed internal design pressure.

At 1 SO, the Drywell to Torus Vacuum Breakers would become covered causing drywell pressure to lower and exceed negative design pressure.

Containment integrity would not be affected.

Page 23 of 200

All Questions Key Answer:

c

References:

0-RO-03-04-05 (Rev 5); pg IG 35,40,46

~~~

~

~

Provided

References:

None Explanation:

At 1 SO, the Drywell to Torus Vacuum Breakers will become covered. Since the drywell and torus areas can no longer equalize pressure, the condensing action of the steam being cooled by the drywell spray will eventually draw a vacuum on the Drywell, threatening containment integrity.

Comments:

Modified - TADS bank # 5652 Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-03-04-05 EO 8 295 029EK10 1 41.8 RO 3.4 Group 2 Question Source: Bank Modified Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 24 of 200

All Questions Key

\\W The plant is operating normally at 100% power when a Reactor Building Vent Hi Rad alarm is received and is verified to be valid.

Which ONE of the following describes the actions required by EOP-04 to determine whether the radiation levels in the reactor building have exceeded their Max Normal Values?

a. Since a valid Reactor Building Vent Hi Rad alarm has been received, the radiation levels throughout the reactor building are assumed to be above their Max Normal Values.

b. All Area Radiation Monitors in the Reactor building must be verified below their alarm setpoint, otherwise radiation levels in the reactor building would be assumed to be above their Max Normal Values.

c. All Area Radiation Monitors in the Reactor building must be verified below 1000 mEUhr, otherwise radiation levels in the reactor building would be assumed to be above their Max Normal Values.

d. Personnel must be dispatched to check radiation levels in the reactor building in order to determine whether any radiation levels are above their Max Normal Values.

Page 25 of 200

All Questions Key Answer:

d W

References:

EOP-04, Secondary Containment Control 0-RO-03-04-06 (Rev 4); pgs 14-15 Provided

References:

None Explanation:

Local surveys must be taken in order to determine whether you are above Max Normal Rad Levels. While ARMS are available for various locations within the reactor building, the determination as to whether the Max Normal Rad Levels are exceeded would be based upon survey.

~~

Comments:

Objective:

0-RO-03-04-06 EO 7 WA:

29503 3EA20 1 Question Source: New 10CFR Ref:

41.10 Difficulty Level: 2.5 Exam Level: RO Cognitive Level: Memory - Fundamental Importance: 3.8 Tier: 1 Group 2 Page 26 of 200

All Questions Key u Secondary Containment Ventilation Radiation levels are rising as indicated by rising readings on the Reactor Building Ventilation Radiation Monitors.

Which of the following is the automatic system response if these radiation monitors continue to rise?

a.

b.

C.

d.

No protective actions would occm SBGT will automatically start. The Reactor Building Supply and Exhaust Fans will remain running and must be manually secured.

The Reactor Building Supply and Exhaust Fans will automatically trip. SBGT will not automatically start but must be manually started.

The Reactor Building Supply and Exhaust Fans will automatically trip and SBGT will automatically start.

Page 27 of 200

All Questions Key Answer:

a

.v

References:

PRM Reference Text (Rev 5); pgs 17-18 Provided

References:

None Explanation :

The Reactor Building Ventilation Exhaust Radiation monitors are used for monitoring only and do not drive any protective functions. It should be noted that at many plants, Reactor Building Vent Rad Monitor do provide a protective function.

Comments:

Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-03-02 EO 4.e 295034EA102 41.7 RO 3.9 Group 2 Question Source: New Difficulty Level: 3.O Cognitive Level: Memory - Fundamental Page 28 of 200

All Questions Key An ATWS is in progress. While attempting to inhibit ADS, the A keylock seizes and wont turn to the INHIBIT position. Drywell pressure spikes up to 5 psig, and then returns to its previous value of 1.3 psig. A RHR Pump is operating in the Torus Spray Mode. Reactor water level remains below -46.

u Five minutes into this evolution, ADS:

a. is not blowing down because it is inhibited.

6. is not blowing down because drywell pressure did not stay above 2.2 psig.

c. is blowing down but only with the A & C valves

d. is blowing down with all four valves.

~

Page 29 of 200

All Questions Key L' Answer:

d

References:

ADS Reference Text (Rev 3); pg 12 Provided

References:

None Explanation:

The drywell Hi-pressure signal seals-in and, when coupled with the existing low water level, causes the 105 second timer to actuate.

Comments:

Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-03-04-09 EO 4.a 21 8000K302 41.7 RO 4.5 Group 1 Question Source: New Difficulty Level: 3.O Cognitive Level: Comprehension-Analysis Page 30 of 200

All Questions Key Reactor pressure is 25 psig with Shutdown Cooling just placed in service when a loss of D-4 occurs. This will result in a failure of (1) to isolate on a valid Group I11 isolation signal. In order to continue to have this valve open, PNPS 5.3.1 1, Loss of Essential DC Bus D-16 or D-4 and D-36 requires (2)

a. (1) MO-1001-47 (2) Site Vice President Permission

b. (1) MO-1001-50 (2) Site Vice President Permission C. (1) MO-1001-47 (2) Maneuvering the plant to cold shutdown

d. (1) MO-1001-50 (2) Maneuvering the plant to cold shutdown Page 3 1 of 200

All Questions Key Answer:

d

\\---

References:

5.3.1 1, Loss of Essential Bus D16 or D4 and D36 (Rev 33); pg 7 of 20 Provided

References:

None Explanation:

Loss of D-4 results in the failure of the MO-1001-50 valve to auto close on an Group I11 PCIS signal. Plant procedures allow the valve to continue to be open provided the plant is maneuvered to cold shutdown conditions.

Comments:

Objective:

1. A:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-08-10 EO 12.k 223002A202 Question Source:

41.5 Difficulty Level:

RO Cognitive Level:

2.9 Group 1 New 3.O Comprehension-Analysis

--+-

Page 32 of 200

All Questions Key Reactor pressure exceeds the reactor scram setpoint and continues to rise. You note that the 4A Safety Valve lifts before any of the other safety or safetyhelief valves. You also note that drywell pressure rapidly rises when the 4A Safety Valve lifts.

The fact that the 4A Safety Valve lifted first was (1)

The fact that drywell pressure rose rapidly when 4A Safety Valve lifted was (2)

a. (1) a proper system response since this valve has a lower setpoint than any safety or (2) NOT a proper system response and may be due to a stuck open drywell-torus vacuum safetyhelief valve.

breaker.

b. (1) NOT a proper system response since this valve has a higher setpoint than the (2) NOT a proper system response and may be due to a stuck open drywell-torus vacuum safetyhelief valves.

breaker.

c. (1) a proper system response since this valve has a lower setpoint than any safety or (2) a proper system response since this valve discharges to the drywell.

safetyhelief valve.

d. (1) NOT a proper system response since this valve has a higher setpoint than the (2) a proper system response since this valve discharges to the drywell.

safetyhelief valves.

L--

Page 33 of 200

All Questions Key Answer:

d u

References:

Technical Specification 3.6.D.1 Main Steam Reference Text (Rev 2); pg 12 Provided

References:

Technical Specifications Explanation:

Safety valve setpoints are 1240 psig. Safety Relief Valves are 1095-1 115.

Safety valves discharge to the drywell.

Comments:

Objective:

0-RO-02-04-01 EO 22 WA:

23 9002K 1 09 10CFR Ref:

41.2 Exam Level: RO Importance: 4.0 Tier: 2 Group 1 Question Source: New Difficulty Level: 3.O Cognitive Level: Comprehension-Analysis Page 34 of 200

All Questions Key L,

During operation at 100% power with Feed Water Level Controllers in Automatic 3-element control, a single steam line flow channel fails downscale.

Whxh ONE of the following describes the proper system response?

a. The total steam flow signal increases, a feed flowhteam flow mismatch is produced which increases RPV level.

b. The total steam flow signal decreases, a feed flowkteam flow mismatch is produced which decreases RPV level.

c. The total steam flow signal increases, a feed flowhteam flow mismatch is produced which decreases RPV level.

d. The total steam flow signal decreases, a feed flowhteam flow mismatch is produced which increases RPV level.

Page 35 of 200

All Questions Key Answer:

b 1,

References:

FWLC Reference Text (Rev 3); pgs 27-28 of 50 Provided

References:

None Explanation:

Loss of one steam flow detector will result in indicated steam flow being less than actual.

FWLC will then see feed flow as greater than steam flow and will anticipate a level change and close the FRVs, lowering level.

Comments:

PNPS 2002 SRO Exam Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-04-10 EO 26 259002K5 0 1 41.5 RO 3.1 Group 1 Question Source: Bank Difficulty Level: 2.5 Cognitive Level: Comprehension-Analysis Page 36 of 200

All Questions Key v

Which of the following is NOT a path from the torus to the suction of the SBGT system?

a. Normal Exhaust line through AO-5041A & B

b. Purge Exhaust line through AO-5042A & B

c. Through the Combustible Gas Control (CAD) Valves

d. Through the Direct Torus Vent Line Page 37 of 200

All Questions Key Answer:

d References :

PCAC Reference Text (Rev 4); pg 17 Provided

References:

None Explanation:

The Direct Torus Vent Line ties into the exhaust of the SBGT system, not the suction.

Comments:

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-08-02 EO 19 261000K103 41.2 RO 2.9 Group 1 Question Source: New Difficulty Level: 2.0 Cognitive Level: Memory - Fundamental Page 38 of 200

All Questions Key b With regard to switchboards A5 & A6, the AC Electrical Distribution system is designed to allow paralleling between which of the following AC sources?

a. SUT, SDT, & EDG

b. UAT, SDT, & EDG

c. UAT, SUT, & EDG

d. UAT, SUT, & SDT Page 39 of 200

All Questions Key Answer:

c L/

Refer en ces :

Emergency AC Distribution Reference Text (Rev 6); pgs 11 PNPS 2.2.5,23 kV Shutdown Transformer (Rev 15); pg 6 of 12 Provided

References:

None Explan ation:

There is no way to parallel the SDT with any other source; the SDT is placed on a bus via dead bus transfer.

Comments:

Objective:

0-RO-02-09-08 EO 9 KIA:

262001K405 Question Source: New 10CFR Ref:

41.7 Difficulty Level: 2.0 Exam Level: RO Cognitive Level: Memory - Fundamental Importance: 3.4 Tier: 2 Group 1 Page 40 of 200

All Questions Key L

a With the plant operating at rated conditions, a reactor scram occurs. If the auto transfer switches for all (6) 4160- VAC buses are in the OFF position, the status of the 4160 VAC buses 1 minute after the scram signal will be:

a. Al, A2, A3, A4 are de-energized; A5 & A6 are energized from the EDGs.

b. Al, A2, A3, A4 are de-energized; A5 & A6 are energized from the SDT.

c. Al, A2, A3, A4 are de-energized; A5 & A6 are energized from the SUT

d. Al, A2, A3, A4, A5, A6 are all de-energized.

Page41 of200

All Questions Key Answer:

b L

References:

4160 Reference Text (Rev 4); pg 26 2.2.8, Standby AC Power System System (Diesel Generators) (Rev 78); pg 22 2.2.5,23KV Shutdown Transformer (Rev 15); pg 6 Provided

References:

None Explanation:

In all cases, A A-4 will be de-energized since the only 2 power supplies for them are the UAT and SUT. The SUT will only pick up A-5 & A-6 if the Auto Transfer Switches are in ON.

The EDGs wont pick up A-5 & A-6 because they will only start on accident conditions which are not present. After 12 seconds, the SDT will supply the A-5 &A-6.

Comments :

TADS # 5544 Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-01-05 EO 10 262001A401 Question Source: Bank 41.7 Difficulty Level: 3.0 RO Cognitive Level: Comprehension-Analysis 3.4 Group 1 Page 42 of 200

All Questions Key L/

The plant is operating at power when a loss of B-6 occurs. Which ONE of the following describes the effect on panel Y-2?

a. Y-2 will be de-energized until B-6 is repowered.

b. Y-2 will be de-energized until manual action is taken to start the Vital MG Set DC Motor.

c. The Vital MG Set DC Motor will automatically energize and maintain the Vital MG Set running and powering Y-2.

d. Y-12 will switch Y-2 to B-15.

Page 43 of 200

All Questions Key L.-,

Answer:

c

References:

5.3.32, Loss of B6 (Rev 10); pg 2 of 11 Provided

References:

None Explanation:

The Vital MG set DC motor cannot start the MG set but can keep it running. No manual action is necessary. Y-12 only transfers Y-2 if the Vital MG set is not available.

Comments :

PNPS 2002 SRO Exam - Question 73 Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-01-07 EO 5.a 262002K401 Question Source: Bank 41.7 Difficulty Level: 3.0 RO Cognitive Level: Memory - Fundamental 3.1 Group 1 Page 44 of 200

All Questions Key b A loss of D-6 causes a reactor scram. When the A505 Breaker opens, a lockout of Bus A-5 occws. Which one of the following will be true?

a. B-6 will be without power

b. Outboard MSIVs will be closed

c. B-6 will be on B-2

d. A Recirc pump will be tripped and B recirc pump will be running.

Page 45 of 200

All Questions Key Answer:

a i-/

References:

5.3.13, Loss of Essential DC Bus D6 (Rev 21); Attachment 1 Provided

References:

None Explanation:

D-6 supplies power to (among other things) MSIVs and position indication, B6 breaker control, and the Auxiliary Oil pumps for the Recirc MGs. When D-6 is lost, B6 breaker control power is lost so the swbd will not transfer to the alternate supply - thus B-6 will be without power.

Distractor #1-D-6 powers the inboard MSIV logic, but even then, the AC supply will prevent the MSIV from closing.

Distractor #2 - As stated above, B-6 will be without power.

Distractor #3 - Loss of D-6 causes both Aux Oil Pumps trip, causing both Recirc pumps to trip.

L Comments :

TADS # 5775 Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-01-06 EO 6 263000K101 Question Source:

41.2 Difficulty Level:

RO Cognitive Level:

3.3 Group 1 Bank 3 -0 Memory - Fundamental Page 46 of 200

All Questions Key v

During the execution of EOP-01 following a reactor scram, 125 VDC bus D-6 is lost due to a hard ground on the bus. Reactor water level is + 50. Which of the following systems /

components would be available to establish pressure control?

a. HPCI in pressure control mode

b. RCIC is pressure control mode

c. Main Turbine Bypass valves

d. SRVs Page 47 of 200

All Questions Key Answer:

d u

References:

EOP-01, RPV Control 2.2.14, 125V DC Battery Systems (Rev 46); pg 156 Provided

References:

EOP-01 w/o entry conditions Explan ation:

Turbine Bypass Valves will be unusable due to the loss of D-6, which causes a loss of power to the MHC system & the Bypass Opening Jack Motor. EOP-01, RPV Control step P-5 refers the operator to Table D for alternate pressure control systems. HPCI & RCIC will be tripped due to the high reactor water level and thus not available for immediate use (would have to bypass interlocks)

Comments:

Modified - TADS # 6147 Objective:

KIA:

1 OCFR Ref:

Exam Level:

Import an ce :

Tier: 2 0-RO-02-04-01 EO 21.n 263000A201 Question Source: Bank Modified 41.5 Difficulty Level: 4.0 RO Cognitive Level: Comprehension-Analysis 2.8 Group 1 Page 48 of 200

All Questions Key L In accordance with PNPS 2.4.16, Distribution Alignment Electrical System Malfunctions, the field of the A diesel generator can be locally flashed during a loss of the A 125 VDC Bus D-4 by:

a. placing all four switches in the A EDGs alternate shutdown panel to the LOCAL position.

b. placing two car batteries in series and connecting them inside EDG A local panel ClOl.

c. depressing the local start pushbutton on C103.

d. placing the voltage regulator in MANUAL on panel C 103.

Page 49 of 200

All Questions Key Answer:

b u

References:

2.4.16, Distribution Alignment Electrical System Malfunctions (Rev 27), Attachment 3 Provided

References:

None Explanation :

Per the procedure, two 12 volt car batteries are connect in series to the terminals in the ClOl panel for A EDG.

Distracters are all valid possibilities because they are all actual equipment involved in operating the EDGs.

Comments:

TADS # 2909 Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-06 EO 26 264000K609 Question Source: Bank 41.7 Difficulty Level: 2.5 RO Cognitive Level: Memory - Fundamental 3.3 Group 1 Page 50 of 200

All Questions Key u

The K-1 10 air compressor is the lead compressor, K-1 1 1 is lag. Plant heating units in the Reactor Building have been disabled due to a rupture of the Plant Heating system. The internal Reactor Building temperature is slowly lowering due to a cold winter day.

As temperature in the air system lowers, the absolute change in pressure will be:

a. directly proportional to the change in absolute temperature. This will result in K-1 10 air compressor starting at 102 psig.

b. directly proportional to the square of the change in absolute temperature. This will result in the K-1 10 air compressor starting at 102 psig.

c. directly proportional to the change in absolute temperature. This will result in the K-1 10 air compressor starting at 108 psig.

d. directly proportional to the square of the change in absolute temperature. This will result in the K-110 air compressor starting at 108 psig.

Page 51 of 200

All Questions Key Answer:

a b

References:

PNPS 2.2.36, Insturment Air Systems (Rev 51); pgs 6-9 Provided

References:

None Explanation:

Pressure changes directly proportional with temperature and the lead compressor will start at 102 psig.

Comments :

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-02-04 EO 5 3 00000A302 41.7 RO 2.9 Group 1 Question Source: New Difficulty Level: 2.5 Cognitive Level: Comprehension-Analysis Page 52 of 200

All Questions Key

+- RBCCW pumps C & F are running and all other lU3CCW pumps are available. The RBCCW LOOP A HDR DISCH LO alarm annunciates, followed shortly by the automatic start of an additional A loop pump.

The pump start timer commenced at (1) and the (2) started after a time delay of (3)

a. (1) 40 psig (2) A Pump (3) 20 seconds

b. (1) 40 psig (2) 3 Pump (3) 40 seconds

c. (1) 56 psig (2) A P U P (3) 30 seconds

d. (1) 56 psig (2) B PWP (3) 60 seconds Page 53 of 200

All Questions Key

- Answer:

c Refer en ces :

PNPS 2.2.30, RBCCW System (Rev 52); pg 15 of 90

~ _ _ _ _ _ _ ~

~

Provided

References:

None Explanation:

The pump auto-start feature starts timing when pressure < 60 psig. The A pump is the first one to start since it has the shortest time delay (30 seconds).

40 psig is the Low Pressure start setpoint for TBCCW. 20 seconds and 40 seconds are the time delays for start of A and B TBCCW Pumps respectively.

Comments:

Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-02-06 EO 14 400000A301 41.7 RO 3.O Group 1 Question Source: New Difficulty Level: 2.5 Cognitive Level: Memory - Fundamental Page 54 of 200

All Questions Key b %le moving a fuel bundle from the reactor vessel to the spent fuel pool, the electrical power supply is lost to the main hoist motor. The fuel bundle is presently hanging one foot above the top of the fuel storage rack Under these conditions:

a. the main hoist motor will automatically swap to its Alternate Power Supply.

b. the main hoist motor must be manually swapped to its Alternate Power Supply.

c. the main hoist motor will be without power and must be operated using a handwheel in order to place the fuel bundle in a safe position.

d. the main hoist motor will be without power. The bundle must be left in its current location until electrical power is restored.

Page 55 of 200

All Questions Key

- Answer:

c

References:

2.2.75, Fuel Handling and Servicing Equipment (Rev 45), Section 7.1.4 Provided

References:

None Explanation:

Answer is per procedure.

c Comments:

TADS # 2324 Objective:

0-NL-03-011-03 EO 3.c WA:

234000A203 Question Source: Bank Modified 10CFR Ref:

41.5 Difficulty Level: 3.5 Exam Level: RO Cognitive Level: Memory - Fundamental Importance: 2.8 Tier: 2 Group 2 Page 56 of 200

All Questions Key b Technical Specifications require the MSIVs to close in

a.

b.

C.

d.

1 to 3 seconds 3 to 5 seconds 5 to 10 seconds 7 to 12 seconds Page 57 of 200

All Questions Key Answer:

b b

References:

Main Steam Reference Text (Rev 2); pg 17 Provided

References:

None Explanation:

Technical specifications require the valves to close within 3 to 5 seconds following an initiation signal. This time limit is set to meet the MSIV safety objectives.

Technical Specification section 3.13 requires testing of MSIVs per the IST program. The IST program sets the requirements for 3-5 second closure time.

~

~~

Comments:

Modified - TADS # 3623 Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-04-01 EO 24 239001G2222 43.2 RO 3.4 Group 2 Question Source: Bank Modified Difficulty Level: 3.O Cognitive Level: Memory - Fundamental Page 58 of 200

All Questions Key

- You are conducting an emergency trip valve test on the main turbine per PNPS 8.A.9-1, Turbine Test Weekly. After you position the switch to TRIP and check the lights, you move it to RESET as required. You do not leave it in RESET long enough before taking the switch to LOCKOUT and pushing down on the switch, returning it to normal. Which of the following describes the proper response of the plant to this manipulation?

a. The turbine overspeed trip function is now disabled, although no annunciation warns the operator of this condition.

b. The turbine overspeed function will still operate normally because the controls at the Front Standard are in their normal positions.

c. The turbine will immediately trip because the Emergency Trip Oil @TO) header becomes depressurized

d. The turbine will immediately overspeed and trip.

Page 59 of 200

All Questions Key Answer:

c L/

Refer en ces :

8.A.9-1, Turbine Test Weekly (Rev 27); pgs 46 - 47 MHC Reference Text (Rev 3); pgs 10- 1 1 Provided

References:

None Explanation:

Not clearing the trip condition prior to restoring the switch to its normal position will immediately drain the ETO, causing the Steam Admission valves to close and the turbine to trip immediately.

Comments:

Modified - TADS # 175 Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-05-04 EO 23 241000A3 12 41.7 Difficulty Level: 3.0 RO Cognitive Level: Comprehension-Analysis 2.9 Group 2 Question Source: Bank Modified Page 60 of 200

All Questions Key b While taking the C Condensate pump switch to START, you observe the red light above the pump start switch flicker on and then off (and the green light flicker off and then on), followed by a CONDENSATE PUMP C OVERLOAD alarm annunciation.

These indications could be caused by closing the condensate pump breaker with:

a. the pump seized.

b. the pump rotor sheared.

c. the pump suction valve closed.

d. the pump discharge valve closed.

Page 61 of 200

All Questions Key Answer:

a

References:

0-RO-01-04-04, Pumps (Rev 3); pg 38 0-RO-01-04-05, Moters and Generators (Rev 3); pgs 49-50 Provided

References:

None Explanation:

A pump that has a seized bearing or shaft will try to develop sufficient torque to overcome the seizing, thus drawing excessive current and tripping the breaker on high current. This will give the operator the OVERLOAD alarm.

Comments:

Objective:

0-RO-02-04-02 EO 9.a KIA:

256000A407 10CFR Ref: 41.7 Exam Level: RO Importance: 2.9 Tier: 2 Group 2 Question Source: New Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 62 of 200

All Questions Key u The following conditions exist:

- RBIs has initiated A leak exists in the A RHR pump suction line Level in A RHR quad is 2 and slowly rising Reactor water level is -40 and rising slowly with RCIC injecting.

No other leaks have been identified All radiation levels are normal Based on these conditions, you would be required:

a. to maintain the Reactor Building ventilation in an isolated condition.

b. to reset RBIs. This would not require bypassing any interlocks.

c. to reset RBIs. This would require bypassing interlocks at panels C915 and C917.

d. to reset RBIs. Ths would require bypassing interlocks in the Cable Spreading Room at panels C941K942 Page 63 of 200

All Questions Key Answer:

d u

References:

EOP-04, Secondary Conatinment Control 5.3.21, Bypassing Selected Interlocks (Rev 18); Attachment 13 Provided

References:

EOP-04 w/o entry conditions Explanation:

Per EOP-04, Secondary Containment Control override, RBIs can be reset if RBIs has isolated, Rehel Exhaust rad levels are < 16mR/hr, no primary system is discharging into secondary containment, and no high rad levels exist in the RB. Since water level is < 12, there is a RBIs initiation signal present that would have to be bypassed per 5.3.21, Bypassing Selected Interlocks. This would be accomplished from the Cable Spreading Room.

comments:

~ _ _ _ _

~

Objective:

0-RO-03-04-06 E01 1.b WA:

290001G2130 Question Source: New 10CFR Ref: 41.7 Difficulty Level: 3.5 Exam Level: RO Cognitive Level: Comprehension-Analysis Importance: 3.9 Tier: 2 Group 2 Page 64 of 200

All Questions Key

'U' The TIP system 4-way connector allows (1) forthepurposeof (2)

a. (1) each TIP detector to be admitted to a central TIP tube (2) calibration.

b. (1) each TIP detector to be admitted to any TIP tube (2) calibration.

c. (1) each TIP detector to be admitted to a central TIP tube (2) redundancy

d. (1) each TIP detector to be admitted to any TIP tube (2) redundancy.

Page 65 of 200

All Questions Key Answer:

a

References:

TIP Reference Text (Rev 1); pg 13 Provided

References:

None Explanation:

The 4-way connector allows each of the 4 TIP detectors to enter a central TIP tube for cross -

calibration between the detectors. Each of the other TIP tubes can only be accessed by a specific TIP detector.

.\\-

Comments:

Modified - TADS 5838 Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-07-08 EO 2.j 290002K119 41.2 RO 2.5 Group 2 Question Source: Bank Modified Difficulty Level: 2.0 Cognitive Level: Memory - Fundamental Page 66 of 200

All Questions Key

c. The plant is operating at 100% reactor power. An operator notices that Main Steam Line activity is rising. If this condition continues, PNPS 2.4.40, Rapid Increase in Main Steam Line or Offgas Activity will require a reactor scram:

a. when Main Steam Line activity rises by a factor of 2.

b. when the MAIN STM LINE RAD HI-HI alarm annunciates.

c. when the MAIN STM LINE RAD HI alarm annunciates.

d. when there is indication of gross fuel damage with imminent fission product release.

Page 67 of 200

All Questions Key

~w Answer:

d Refer en ces :

2.4.40, Rapid Increase in Main Steam Line or Offgas Activity (Rev 18); pg 4 Provided

References:

None Explanation:

Per PNPS 2.4.40, Rapid Increase in Main Steam Line or Offgas Activity a reactor scram is required if there is indication of gross fuel damage with imminent fission product release.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-03-17-17 G23I 1 45.9 RO 2.7 Group Question Source: New Difficulty Level: 3.0 Cognitive Level: Memory - Fundamental

~

Page 68 of 200

All Questions Key u A major LOCA is in progress which has resulted in fuel cladding damage. The vessel is depressurized and all RHR and Core Spray pumps are just able to maintain RPV level at the top of the active fuel. CHRMS readings for both the torus and drywell are beginning to rise significantly. There is a leak of unknown origin in the CRD quad. CRD quad level is 3 and rising slowly.

The proper configuration of the Reactor Building floor drain sump pumps for this condition is:

a. running in AUTO.

b. running in MANU& without regard to the source of the leak.

c. running in MANUAL as long as the water is not from a primary system

d. not running and breaker open.

~~

Page 69 of 200

All Questions Key L,

Answer:

d

References:

0-RO-03-04-06 (Rev 4); pg IG-12 Provided

References:

None Explanation:

The basis of this action in the override of EOP-04, Secondary Containment Control is: If the Rx building sumps could be contaminated, opening the breakers for the RX building sump pumps will preclude pumping highly contaminated water outside the secondary containment.

Comments:

Modified - TADS # 6626 Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 3

~~

0-RO-03-04-06 EO 1 1.b G23 10 43.4 Difficulty Level: 3.5 RO Cognitive Level: Comprehension-Analysis 2.9 Group Question Source: Bank Modified Page 70 of 200

All Questions Key b EOP-02 has been entered due to an RPS electrical failure. EOP-02 has you verify recirculation runback to minimum prior to tripping the recirculation pumps. The reason for this is to prevent:

a. MSIV closure.

b. aturbinetrip.

c. aRFP trip.

d. a rapid pressure increase which may lift a relief valve.

Page 71 of 200

All Questions Key Answer:

b

'-v

References:

0-RO-03-04-04 (Rev 5); pgs IG 57-59 Provided

References:

None Explanation:

In order to effect a rapid power reduction, if the turbine is on-line, the recirculation pumps are run back to minimum speed. This increases the void production in the core, which increases the slowing down length of the neutrons, increases the probability of resonance capture and thereby adds negative reactivity to shutdown the reactor. If the recirc pumps are tripped fi-om too high of a speed, a turbine tip could occur.

Comments :

TADS # 5597 Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-03-04-04 EO 17 G2418 Question Source: Bank 41.10 Difficulty Level: 2.5 RO Cognitive Level: Comprehension-Analysis 2.7 Group Page 72 of 200

All Questions Key L. Given the following conditions:

N A severe reactor pressure regulator malfunction occurs.

N You depress the manual scram pushbuttons, place the mode switch in shutdown, and initiate AFa N The C905 Group Scram Logic lights are still lit.

1 The Blue Scram Lights on the full core display are all extinguished.

1 The SPVAH PRESSURE LO alarm has NOT come in.

You have only one operator available outside the Main Control Room and have a choice between having this operator vent the scram air header or vent CRD overpiston areas.

In accordance with PNPS 5.3.23, Alternate Rod Insertion, you would have the operator vent:

a. the overpiston area of CRDs since the plant conditions indicate a hydraulic ATWS.

b. the overpiston area of CRDs since the plant conditions indicate an electrical ATWS.

c. the scram air header since the plant conditions indicate a hydraulic ATWS.

d. the scram air header since the plant conditions indicate an electrical ATWS.

Page 73 of 200

All Questions Key L-Answer:

d

References:

PNPS 5.3.23, Alternate Rod Insertion (Rev 21); pgs 6, 9 of 25 Provided

References:

None Explanation:

The given indications should tell the operator that an electrical ATWS exists (see PNPS 5.3.23 page 6.) Venting the SPVAH header is effective against an electrical ATWS. While venting overpiston area would still insert the control rods, it would take much longer (would have to be done 145 times, once per HCU.) Additionally, based on the conditions given, PNPS 5.3.23 would diagnose this as an electrical ATWS and would direct venting the SPVAH header.

Comments:

Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-03-04-04 EO 24 G2423 Question Source: New 43.5 Difficulty Level: 4.0 RO Cognitive Level: Comprehension-Analysis 2.8 Group Page 74 of 200

All Questions Key b EOP-27, Emergency RPV Depressurization Failure-To-Scram is in progress. You are at the P-12 stop-sign awaiting pressure to drop below 75 psig with 4 SRVs open. One of the SRVs then fails closed. Torus air space pressure is 0 psig.

Under these conditions you would enter EOP-27 at step P-4:

a. immediately.

b. after reactor pressure has lowered to 75 psig.

c. after steps P-12 through P-17 of EOP-27 are complete.

d. only if you determine that pressure will not drop below 75 psig with 3 SRVs open.

Page 75 of 200

All Questions Key Answer:

a u

References:

0-RO-03-04-02 (Rev 6); IG-33 Provided

References:

None Explanation:

Per the EOP usage lesson: When an override is applicable to a series of steps, the operator must consider the override continuously while executing those steps to which it is applicable and take the specified override action any time the contingent conditions exist while executing those steps.

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3

~~

Comments:

0-RO-03-04-02 EO 7 G24 1 9 41.10 RO 2.7 Group Question Source: New Difficulty Level: 2.5 Cognitive Level: Comprehension-Analysis Page 76 of 200

All Questions Key An APRM downscale alarm has come in and APRM A indicates downscale on the 905 panel.

The BOP operator is sent to the APRM cabinet to investigate. While attempting to check LPRM inputs, the BOP operator inadvertently positions the APRM A mode switch to the POWER position.

This action will cause:

a. alarms only

b. alarms and rod block only.

c. alarms, rod block and ?4 scram.

d. alarms, rod block and full scram.

Page 77 of 200

All Questions Key Answer:

c References :

APRM Reference Text (Rev 3); pg 12 Provided

References:

None Explanation:

An inop trip is generated when an APRM modules mode switch on panel 937 is not in OPERATE. An inop trip generates both a scram signal and a rod block signal, illuminates a red hi-hi triphnop light on 905 and white inop light on panel 937.

Comments :

Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-07-04 EO 9 215005A102 41.5 RO 3.9 Group 1 Question Source: New Difficulty Level: 3.0 Cognitive Level: Memory - Fundamental Page 78 of 200

All Questions Key During a low water level condition, RCIC has failed to initiate automatically. The CRS has directed you to start RCIC manually. You are operating FIC -1340-1 to control Turbine RPM which is currently indicating 1300 RPM. At this speed, which of the following is a concern with regard to RCIC operation?

a. Inadequate cooling flow to the lube oil cooler.

b. Inadequate cooling flow to the barometric condenser.

c. Insufficient oil pressure to the control system and bearings.

d. Water hammer in the exhaust line.

Page 79 of 200

All Questions Key

- Answer:

d

~~

~

References:

2.2.22.5, RCIC Injection and Pressure Control (Rev 10) ; pg 10 Provided

References:

None Explanation:

RCIC turbine should not be run below 2000 RPM since intermittent exhaust flow will cause water hammer in the exhaust line. The only other precaution is to avoid running the turbine below 1000 RPM to ensure adequate oil pressure to the control oil system and bearing lubrication.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-04 EO 7 2 17000K506 41.5 RO 2.7 Group 1 Question Source: New Difficulty Level: 2.5 Cognitive Level: Comprehension-Analysis Page 80 of 200

All Questions Key L...., While withdrawing a control rod during approach to criticality, an RMCS timer malfunction alarm is received and the red timer malfunction light on C905 energizes.

This would cause (1)

. Other than scramming the reactor, movement of control rods under these conditions (2)

a. (1) the rod select relays to deselect the selected rod as indicated by the white select light on (2) is possible only using the EMERGENCY IN switch.

the hll core display de-energizing.

b. (1) the rod select relays to deselect the selected rod as indicated by the white select light on (2) would require that the timer malhction be repaired.

the full core display de-energizing.

c. (1) a control rod withdraw block alarm to come in and the white rod out permissive light to (2) is possible only using the EMERGENCY IN switch.

de-energize.

d. (1) a control rod withdraw block alarm to come in and the white rod out permissive light to (2) would require that the timer malfunction be repaired.

de-energize.

Page 81 of 200

All Questions Key Answer:

b I

References:

ARP C905L (Rev 20), C-4 Provided

References:

None Explanation:

The timer malfunction will cause the white select light on the fhll core display to de-energize, you will be unable to select any control rod. Rod motion cannot be performed (other than by scram) if the timer is malfunctioning, therefore it must be repaired.

Comments :

November 2000 NRC Exam #68 Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-06-02-08 EO 5 20 1002A201 41.5 RO 2.7 Group 2 Question Source: Bank Modified Difficulty Level: 3.5 Cognitive Level: Comprehension-Analysis Page 82 of 200

All Questions Key L.-/

Consider the following situations:

Situation 1 Reactor power:

82%

B Recirc pump speed:

42%

A Recirc pump speed:

55%

Situation 2 72%

36%

50%

When would an LCO entry be required per Technical Specifications?

a. Neither situation

b. Situation 1 only

c. Situation 2 only

d. Both situations Page 83 of 200

All Questions Key Answer:

b c

References:

Tech specs 3.6.F.1 Provided

References:

Tech Specs Explanation:

Per Tech Specs, pump speeds shall be maintained within 10% of each other when power level is greater than 80% and within 15% of each other when power level is less than or equal to 80.%

Situation 1 is greater than 80%, but the mismatch is 13% so LCO entry is required. Situation 2 is less than 80%, but mismatch is only 14% percent so LCO entry is not required.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 O-R0--2-06-02 EO 39 20200262 133 43.2 RO 3.4 Group 2 Question Source: New Difficulty Level: 3.O Cognitive Level: Memory - Fundamental

~~

Page 84 of 200

All Questions Key u The reactor is initially operating at 92% power. A control rod in a high power region of the core is selected and withdrawn. While withdrawing the rod, a RBM HI rod block is received.

The rod block initiated at (1)

. In order to continue withdrawing this rod, you are required to verify that MCPR is 2 (2)

a. (1) 110% of reference level (2) 1.41

b. (1) 11 0% of reference level (2) 1.72

c. (1) 115% of reference level (2) 1.41

d. (1) 115% of reference level (2) 1.72 Page 85 of 200

All Questions Key Answer:

a L-References :

RBM Reference Text (Rev 5); pg 16 Tech Spec Table 3.2.C-1 Provided

References:

Tech Specs

~

Explanation:

Since reactor power > 82%, the trip setting is 110% of reference level. RBM operability is required in the RUN mode in the presence of a limiting rod pattern with reactor power greater then the RBM low power setpoint. A limiting rod pattern exists when MCPR < 1.41 for reactor power 2 90%.

Comments:

Objective:

0-RO-02-07-05 EO 11 0-RO-02-07-05 EO 14 KIA:

215002A201 10CFR Ref:

41.5 Exam Level: RO Importance: 3.3 Tier: 2 Group 2 Question Source: New Difficulty Level: 3.O Cognitive Level: Memory - Fundamental Page 86 of 200

All Questions Key W

The plant is depressurizing due to a leak. Both Reactor Recirc Pumps are tripped. All available makeup to the RPV is being used and indicated level is remaining constant. Pressure has decreased fiom 950 psig to 550 psig.

Since indicated level on the fuel zone level instrument has remained constant during this transient, actual level in the vessel would (1)

. If indicated level is now -70, actual level at the current pressure is (2)-.

a. (1) rise (2) -19

b. (1) lower (2) +7

c. (1) rise (2) +7

d. (1) lower (2) -19 Page 87 of 200

All Questions Key Answer:

d W

References:

2.2.80, Reactor Vessel Level, Temperature and Internal Pressure Insturnantation (Rev 37),

Provided

References:

Density Compensator - Operator Aid Explan ation:

As the temperature / pressure of the vessel water inventory lowers, the density of the water in the vessel will increase, thus actual water level will lower. Using the compensator correctly will give a current level of -1 9.

Comments:

Objective:

0-RO-02-06-01 EO 5.1 WA:

216000A211 Question Source: New 10CFR Ref:

41.5 Difficulty Level: 3.O Exam Level: RO Cognitive Level: Comprehension-Analysis Importance: 3.2 Tier: 2 Group 2 Page 88 of ZOO

All Questions Key u 480 VAC bus B-17 has been lost due to an electrical fault. Which RHR loop(s) can be aligned for torus cooling from the Main Control Room?

a. Neither A nor B is available.

b. A loop is available.

c. B loop is available.

d. Both A and B loops are available.

Page 89 of 200

All Questions Key

- Answer:

c

References:

RHR Reference Text (Rev 7), pg 66 Provided

References:

None Explanation:

B-17 causes a loss of power to the 34A and 36A valves, preventing the ability to remotely operate these vales for the A torus cooling lineup.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-01 EO 15.a 2 19OOOK201 Question Source:

41.7 Difficulty Level:

RO Cognitive Level:

2.5 Group 2 New 2.5 Memory - Fundamental Page 90 of 200

All Questions Key

\\b When placing H2/02 monitoring in service with an isolation signal present, the containment leak detection lines are left isolated if containment temperature is above 180 degrees F in order to:

a. prevent condensation in the sample lines.

b. protect the radiation detectors from exces ive heat.

c. prevent overheating the heat trace cables on the lines.

d. ensure the potential ignition sources in the leak detection monitors remain isolated.

Page 91 of 200

All Questions Key L-Answer:

b

References:

2.2.133, H202 Analyzer and C19 Systems (Rev 28); pg 9 Provided

References:

None Explanation :

The Containment Radiation Detectors are subject to deterioration at temperatures over 180 degrees F.. The containment leak detection lines will remain isolated after a LOCA when the containment temperature exceeds their heat trace temperature of 160 degrees F.

Comments:

1998 NRC Exam - Question 75 Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-08-09 EO 3.h 223001K5 13 41.5 RO 2.7 Group 2 Question Source: Bank Modified Difficulty Level: 3.5 Cognitive Level: Memory - Fundamental c

Page 92 of 200

All Questions Key u During the performance of a procedure with place-keeping blanks at the end of each step, you have come to a step that does not need to be done and will not affect the outcome of the procedure. How are you required to handle this situation?

a. The blank shall be left blank. No supervisor approval is required.

b. The blank shall be left blank. CRS/SM shall approve the omission by initialing the step.

c. The blank shall be marked NP.

No supervisor approval is required.

d. The step shall be marked NE. CRS/SM shall approve the omission by initialing the step.

Page 93 of 200

All Questions Key Answer:

d W

References :

1.3.34, Conduct of Operations (Rev 84); pg 46 Provided

References:

None Explanation:

1.3.34, Conduct of Operations states that if it is inappropriate to perfom a specified step, the step may be omitted or not performed and be marked as NR provided the CRS/SM concur with the decision and initial the step, and the outcome of the procedure is not affected.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-06-06-01 EO 62 G2118 45.12 RO 2.9 Group Question Source: New Difficulty Level: 2.5 Cognitive Level: Memory - Fhdamental

~~

Page 94 of 200

All Questions Key b The plant is operating at 100% power when a loss of bus A5 occurs.

In accordance with PNPS 2.4.15 1, Loss of Electrical Bus A-5 which ONE of the following is an immediate action of this condition?

a. Commence a normal plant shutdown.

b. Verify started or start the B TBCCW pump.

c. Place steam tunnel cooling in service as necessary to maintain steam tunnel below 170 degrees.

d. Reduce reactor power using B recirc pump as necessary to control steam tunnel temperature.

Page 95 of 200

All Questions Key Answer:

b b

References:

2.4.15 1, Loss of Electrical Bus A5 (Rev 4); pg 3 Provided

References:

None Explanation:

Verifying started or starting the B TBCCW pump is an immediate action of 2.4.15 1, Loss of A5 Comments :

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3

~

None Identified G2120 41.10 RO 4.3 Group Question Source: New Difficulty Level: 2.5 Cognitive Level: Memory - Fundamental Page 96 of 200

All Questions Key L-RHR has been placed in Torus cooling and is expected to be in service for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

Assuming all other required systems are determined to be operable, this requires a (1)

LCO entry for LPCI. Information about actions required if the LCO Required Action Time is not met can be found in the (2)

a. (1) 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> (2) eSOMS LCOTR Log

b. (1) 72hours (2) Pilgrim Station Morning Report

c. (1) 7 day (2) eSOMS LCOTR Log

d. (1) 7 day (2) Pilgrim Station Morning Report

~~~

~

Page 97 of 200

All Questions Key Answer:

c L../

References:

1.3.34.2, Limiting Conditions for Operation (Rev 12); pgs 8, 11 2.2.19, Residual Heat Removal (Rev 83); pg 30 TS 3.5.A Provided

References:

Tech Specs Explanation:

Placing torus cooling in service requires a LPCI LCO which is a 7 day LCO which will be tracked in eSOMS.

Comments:

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-06-01-01 EO 9 G2223 43.2 RO 2.6 Group Question Source:

Difficulty Level:

Cognitive Level:

New 3.0 Comprehension-Analy sis Page 98 of 200

All Questions Key L..-,

In accordance with ENN-DC-136, Temporary Alterations, all of the following are methods used for controlling Temporary Alterations EXCEPT

a.

b.

C.

d.

Operations Dept. Standing Order Work Request Procedure Temporary Alteration Package Page 99 of 200

All Questions Key Answer:

a

References:

ENN-DC-1 36, Temporary Alterations (Rev 6); pg 10 Provided

References:

None Explanation:

The Operations Department Standing Order is the only one given that is not allowable for tracking temporary alterations.

Comments :

Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-06-06-01 EO 34 G2211 43.3 RO 2.5 Group Question Source: New Difficulty Level:

Cognitive Level: Memory - Fundamental Page 100 of 200

All Questions Key

- You are starting the Recirculation system as directed by the startup procedure. After verifying pre-startup checks, you start the A Recirc pump.

The field breaker will close -(1) seconds after the pump starts. When the field breaker closes, pump speed will (2)

a. (1) 4 (2) rise

b. (1) 4 (2) lower

c. (1) 9 (2) rise

d. (1) 9 (2) lower Page 101 of 200

All Questions Key Answer:

b

References:

Recirculation System Reference Text (Rev 5); pg 16 2.2.84, Reactor Recirculation System (Rev 74); pg 35 Provided

References:

None Explanation:

The pump initially starts at a high speed, and then lowers once the field is applied. 9 seconds is the time delay for the ATWS field breaker trip on low-low water level.

Comments:

Objective:

0-RO-02-06-02 EO 17 K/A:

G22 1 10CFR Ref: 45.1 Exam Level: RO Importance: 3.7 Tier: 3 Group Question Source: New Difficulty Level: 3.0 Cognitive Level: Memory - Fundamental Page 102 of 200

All Questions Key L With the plant initially operating at approximately 100% power, the following parameter changes are noted:

H Net Mwe lowers f7om 685 to 630 The Turbine Control Valves throttle closed Reactor pressure lowers from 1010 psig to 998 psig Core Plate d/p lowers from 12 psid to 10 psid Core Flow rises from 58 Mlbm/hr to 59 Mlbm/hr These parameter changes are indicative of:

a. inadvertent SRV opening.

b. an upscale failure of a recirculation flow controller.

c. jet pump failure.

d. EPR failure.

Page 103 of 200

All Questions Key Answer:

c u

References:

INPO OE fiom 1/9/02 2.4.23, Rev 13, Page 2 of 5 Provided

References:

None Explanation:

Increasing core flow and lowering power would only be caused by a failed jet pump. This data set is derived roughly fi-om Quad Cities jet pump failure data from January 2002.

Comments:

Objective:

KIA:

295001A205 Question Source: New 10CFR Ref:

41.10 Difficulty Level: 3.O Exam Level: RO Cognitive Level: Comprehension-Analysis Importance: 3.1 Tier: 1 Group 1 0-RO-02-06-02 EO 3 1.a and 35.a Page 104 of 200

All Questions Key u Given the following conditions:

A Loss of Off-Site Power, a design basis LOCA and a lockout of Bus A-5 occur simultaneously.

Drywell pressure rises to 25 psig.

H Reactor pressure has lowered to 50 psig.

The EOPs that should be entered are initiations and isolations.

(2) will be injecting to the FWV.

t 1)

. You are directed to verify automatic

a. (1) EOP-01 only (2) HPCI, RCIC, 2 RHR Pumps and 1 Core Spray Pump

b. (1) EOP-01 only (2) 2 RHR Pumps and 1 Core Spray Pump only

c. (1) EOP-01 and EOP-03 only (2) HPCI, RCIC, 2 RHR Pumps and 1 Core Spray Pump

d. (1) EOP-01 and EOP-03 only (2) 2 RHR Pumps and 1 Core Spray Pump only Page 105 of 200

All Questions Key Answer:

d w

References:

EOP-0 1 and EOP-0 1 entry conditions TS Table 3.2.C Provided

References:

EOP-01 and EOP-03 minus entry conditions TS Explanation:

With reactor pressure at 50 psig, RCIC and HPCI would be isolated. With drywell pressure of 25 psig, EOP-01 and EOP-03 would have their entry condition satisfied.

Comments:

Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-03-04-03 EO 2 295003G2401 41.10 RO 4.3 Group 1 Question Source:

Difficulty Level:

Cognitive Level:

New 3.O Comprehension-Anal ysis Page 106 of 200

All Questions Key u A loss of bus D-4 occurs. Which ONE of the following describes the effect on the A Core Spray Pump?

If running, the A Core Spray Pump (1) and if not running, the pump

-(2)-*

a. (1) will trip (2) cannot be started from the Control Room

b. (1) cannot be tripped fiom the Control Room (2) cannot be started fiom the Control Room but will auto start if a start signal is generated

c. (1) cannot be tripped from the Control Room (2) will not respond to an auto start signal but can be manually started from the Control Room

d. (1) cannot be tripped from the Control Room (2) will not respond to an auto start signal and cannot be started from the Control Room Page 107 of 200

All Questions Key Answer:

d u

References:

5.3.1 1, Loss of Essential DC Bus D16 or D4 and D36, (Rev 33); pg 3 of 20 Provided

References:

None Explanation:

A loss of D-4 will cause the 'A' ECCS pumps to fail to start and to keep running if currently running.

Comments :

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-09-02 EO 7.f 295004A103 41.7 RO 3.4 Group 1 Question Source: New Difficulty'Level: 3.O Cognitive Level: Memory - Fundamental Page 108 of 200

All Questions Key u Given the following conditions:

A manual reactor scram is inserted.

W The B Backup Scram Valve fails to energize.

The A Backup Scram Valve operates normally.

Under these conditions, the Main Turbine (1) automatically trip. The Backup Scram Valves (2) depressurize the scram air header.

a. (1) will (2) will

b. (1) will (2) will not

c. (1) will not (2) will

d. (1) will not (2) will not Page 109 of 200

All Questions Key Answer:

a i_,

References:

RPS Ref Text (Rev 2); pg 11 of 40 Provided

References:

None Explanation:

The A Backup Scram Valve operates a contact to start a 30 second timer which will then trip the turbine. Due to a check valve in the line, either Backup Scram Valve energizing will depressurize the scram air header.

Comments:

Objective:

1. A:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-07-07 EO 3.f 295005K201 41.7 RO 3.8 Group 1 Question Source: New Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 110 of 200

All Questions Key c-The plant has been operating at 100% power for the past year. A half scram is in effect on RPS Channel B when APRM A spikes high causing a full scram.

Approximately 10 seconds after the scram, decay heat will be approximately (1) of full power. This heat will be removed via the (2)

a. (1) 7%

(2) SRVs

b. (1) 7%

(2) Bypass Valves

c. (1) 14%

(2) SRVs

d. (1) 14%

(2) Bypass Valves Page 1 I1 of 200

All Questions Key L.,

Answer:

b

References:

0-RO-01-02-08 (Rev 3); pg 29 of 34 Provided

References:

None Explan ation:

Power level will be approximately 7% 8-10 seconds after a scram. SRV lift points will not be approached. Bypass valves will remove this heat.

Comments:

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-01-02-08 EO 3 1.1 and 3 1.C 295006K101 Question Source: New 41.8 Difficulty Level: 3.O RO Cognitive Level: Comprehension-Analysis 3.7 Group 1 Page 1 12 of 200

All Questions Key u Given the following conditions:

W A fire requires evacuation of the Control Room W PNPS 2.4.143, Shutdown From Outside the Control Room is in progress W RCIC is being operated from the ASP in level control RHR is being operated from the ASP in torus cooling W Torus air space pressure increases from 0 psig to 1 psig.

This would cause an increase in the suction pressure of the (1)

. Torus pressure (2) be read in the plant with normally installed instruments.

a. (1) RHR pump that is in torus cooling (2) can

b. (1) RHR pump that is in torus cooling (2) cannot

c. (1) RCIC pump (2) can

d. (1) RCIC pump (2) cannot L

Page 1 13 of 200

All Questions Key Answer:

b u

References:

2.4.143, Shutdown From Outside Control Room (Rev 29); pg 25 of 106 Primary Containment Reference Text (Rev 2); pg 18 of 38 Provided

References:

None Explanation:

RHR pumps but not RCIC will be taking a suction from the suppression pool. Torus pressure can be read with a temporary guage which can be installed but no in plant installed instruments read torus pressure.

Comments:

Objective:

0-RO-02-08-01 EO 10 KIA:

2950 16A207 10CFR Ref:

41.10 Exam Level: RO Importance: 3.2 Tier: 1 Group I Question Source: New Difficulty Level: 2.5 Cognitive Level: Comprehension-Analysis Page 114 of 200

All Questions Key i/ The plant is operating at power when a leak occurs on the cooling water line to the A CRD Pump Oil Cooler. The operator is directed to attempt to isolate this leak fkom the Main Control Room.

The operator will:

a, not be able to isolate this leak fiom the Main Control Room since there are no valves that can be operated fkom the Main Control Room that will perform this function.

b. can isolate the leak by closing the A RI3CCW loop Non-essential block valves which will also isolate flow to the A Fuel Pool Cooling Heat Exchanger.

c. can isolate the leak by closing the B RBCCW loop Non-essential block valves which will also isolate flow to the By Fuel Pool Cooling Heat Exchanger.

d. can isolate the leak by closing the B RBCCW loop Non-essential block valves which will also isolate flow to the HPCI Area Cooling Coils.

\\--

Page 115 of 200

All Questions Key Answer:

c i/

References:

2.4.42, Loss of RBCCW (Rev 22), Attachment 2 Provided

References:

None Explanation:

Both CRD pump oil coolers are off the B loop of RBCCW non-essential loop which also supplies the B Fuel Pool Cooling HX.

Comments:

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-02-06 EO 2 295018K201 41.7 RO 3.3 Group 1 Question Source: New Difficulty Level: 3.5 Cognitive Level: Comprehension-Analysis Page 116 of 200

All Questions Key L-Given the following conditions:

The plant is depressurized with coolant temperature at 150 degrees F.

MO-1001-50 Valve (Shutdown Cooling Suction) fails closed and cannot be opened by any means.

Both Reactor Recirc Pumps are tagged out.

Under these conditions, PNPS 2.4.25, Loss of Shutdown Cooling requires reactor water level be:

a. maintained below the Group I isolation setpoint to ensure that Bypass Valves are available for use in the event that the plant becomes pressurized.

b. maintained below the HPCI Hi Level trip point to ensure that HPCI is available for use in the event that the plant becomes pressurized.

c. raised above +60 inches to promote natural circulation.

d. raised above +60 inches in preparation for initiating cooling by feed and bleed.

Page 11 7 of 200

All Questions Key

- Answer:

c

References:

PNPS 2.4.25, Loss of Shutdown Cooling (Rev 23); pg 4 of 10 Provided

References:

None Explanation:

Per PNPS 2.4.25, Loss of Shutdown Cooling if forced the reactor is NOT pressurized or if no heat sink is available, you must raise level above +60 inches in order to promote natural circulation or start a recirc pump to promote natural circulation.

\\

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-09-01 TO 19 29502 1K104 Question Source: New 41.8 Difficulty Level: 3.0 RO Cognitive Level: Comprehension-Analysis 3.6 Group 1 Page 1 18 of 200

All Questions Key

- Given the following conditions:

H The plant is in a refueling outage with a fuel move in progress.

H The A Refuel Floor Radiation Monitor has failed downscale. No actions have been taken to address this failure.

At time 0000 a fuel bundle is dropped and radiation levels on the refuel floor start to slowly rise.

At time 0005 the B Refuel Floor Radiation Monitor reaches its Hi Trip Setpoint.

At time 0010 the C Refuel Floor Radiation Monitor reaches its Hi Trip Setpoint.

At time 0015 the D Refuel Floor Radiation Monitor reaches its Hi Trip Setpoint.

Under these conditions, an automatic start of SBGT due to Hi Refuel Floor Radiation levels:

a. is effectively disabled due to the A Refuel Floor Radiation Monitor being failed downscale.

b. is expected to occur at time 0005.

c. is expected to occur at time 0010.

d. is expected to occur at time 0015.

L Page 119 of 200

All Questions Key Answer:

c w

References:

PRM Ref Text (Rev 5); pg 30 Provided

References:

None Explanation:

The logic is such that a trip will occur if a) one channel in both trip system is upscale OR b) all 4 are downscale OR 3) both monitors in one channel are downscale and one monitor in the other channel is upscale Comments:

Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-08-05 EO 10 295023K203 41.7 RO 3.4 Group 1 Question Source:

Difficulty Level:

Cognitive Level:

New 3.O Comprehension-Analysis Page 120 of 200

All Questions Key

.d An air leak into the Main Condenser has resulted in the following:

W Increased Off Gas Flow W Main Condenser Vacuum initially degrades but then stabilizes at a less desirable value.

W Hold up time in the 30 minutes Hold Up Volume is shortened.

Shortening the Hold up time reduces the effectiveness of the Hold Up Volume in performing its function of:

a. allowing for decay of short-lived nuclides.

b. allowing for decay of long-lived nuclides.

c. preventing an explosive mixture by removing Oxygen

d. preventing an explosive mixture by removing Hydrogen.

Page 121 of 200

All Questions Key Answer:

a L

d

References:

AOG Reference Text (Rev 4); pg 15 Provided

References:

None Explanation:

The hold up volume allows for decay of short lived nuclides. Long lived nuclides are not held up long enough to significantly decay. The recombiners are the components which prevent a combustible mixture.

Comments:

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-04-11 EO 3.g 295002K104 Question Source: New 41.8 Difficulty Level: 3.O RO Cognitive Level: Memory - Fundamental 3.0 Group 2 Page 122 of 200

All Questions Key L

A small LOCA has created the following conditions in the drywell:

- Drywell Pressure:

3.5 psig and rising slowly Drywell Temperature:

160 degrees F and rising slowly Drywell cooling has been maximized The leak has just been isolated. What effect will drywell cooling now have on the conditions in the drywell?

a. Neither will change, but a convection current will be created to keep the drywell environment mixed.

b. Drywell pressure and drywell temperature will both lower.

c. Drywell pressure will lower but drywell temperature will not change.

d. Drywell temperature will lower but drywell pressure will not change.

Page 123 of 200

All Questions Key Answer:

b W

References:

2.2.49, Primary Containment Cooling System (Rev 24); pg 6 Provided

References:

None Explanation:

Cooling a closed, saturated system will cause both pressure and temperature to lower.

Comments:

Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-08-04 E01 2950 1 OAK302 41.5 RO 3.4 Group 2 Question Source: New Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 124 of 200

All Questions Key W

Given the following conditions:

The plant is operating at 90% power.

H SRVs are being tested.

The A Loop of RHR is in Torus Cooling.

Torus temperature is 88 degrees F and continuing to rise.

The Shift Manager indicates that you are to operate Torus Cooling as necessary to maintain Torus temperature below 90 degrees F.

The reason the Shift Manager desires to maintain Torus temperature below 90 degrees F is that if torus temperature reaches 90 degrees F, you will be required to:

a. begin continuously monitoring torus temperature and logging it every 5 minutes.

A

b. terminate testing of SRVs.

c. immediately commence a plant shutdown.

d. immediately scram the reactor.

Page 125 of 200

All Questions Key Answer:

b W

References :

TS 3.7.A.l

~

Provided

References:

TS 3.7.A. 1 Explanation:

Monitoring and logging torus temperature required when any heat is being added to torus.

Shutdown required if cannot restore to less than 80 degrees F within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

Scram is required at 1 10 degrees F.

Termination of testing is required at 90 degrees F.

No reference to Tech Specs are given in the question since the Tech Specs are a provided reference.

Cominen ts:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-08-01 EO 14.k 29501 3K301 Question Source: New 41.5 Difficulty Level: 3.0 RO Cognitive Level: Comprehension-Analysis 3.6 Group 2 Page 126 of 200

All Questions Key i, Given the following conditions:

H An ATWS occurs and power oscillations commence.

Attempts to inject SBLC are unsuccessful.

H Pressure is swinging between 900 psig and 1380 psig.

H Reactor water level is currently -25 inches and lowering.

H Torus bulk water temperature is 115 degrees F and rising.

At the present time, the (1)

Water Temperature LCO of (2) has also been exceeded.

has been exceeded. The Normal Operating Torus

a. (1) Reactor Steam Dome Safety Limit but NOT the Reactor Water Level Safety Limit (2) 80 degrees F.

b. (1) Reactor Steam Dome Safety Limit and the Reactor Water Level Safety Limit (2) 80 degrees F.

c. (1) Reactor Steam Dome Safety Limit but NOT the Reactor Water Level Safety Limit (2) 1 10 degrees F.

d. (1) Reactor Steam Dome Safety Limit and the Reactor Water Level Safety Limit (2) 11 0 degrees F.

L, Page 127 of 200

All Questions Key

- Answer:

a

References:

TS Safety Limits TS 3.7.A.1

~

Provided

References:

TS (But Not Bases)

Explanation:

Since level is maintained above +12 inches above TAF, the Reactor Water Level Safety Limit is not exceeded. Since pressure exceeded 1345, the RPV Pressure Safety Limit is exceeded. The normal TS limit for Torus Temperature is 80 degrees F. The 11 0 degrees F number is based on the requirement to scram the reactor at this point.

L-Comments:

Objective:

0-RO-06-01-02 EO 1 KIA:

29501562222 Question Source: New 10CFR Ref:

43.2 Difficulty Level: 3.5 Exam Level: RO Cognitive Level: Comprehension-Analysis Importance: 3.4 Tier: 1 Group 2 Page 128 of 200

All Questions Key u Following a major earthquake, the following conditions exist:

Drywell pressure is 11 psig and rising Reactor pressure is 300 psig and lowering Reactor level is +20 and steady A Core Spray is injecting RHR Pump A is not injecting but has been placed in torus cooling using the LPCI Override Switch RHR Pump B is not injecting but has been placed in torus spray using the LPCI Override Switch Another tremor then occurs, causing the A Core Spray pump to trip and reactor water level to rapidly lower to -200 inches. The RHR system will realign to:

a. start injecting and secure spray/cooling.

b. start injecting and maintain spray/cooling.

c. maintain not injecting and secure spray/cooling.

d. maintain not injecting and maintain spray/cooling.

Page 129 of 200

All Questions Key Answer:

c

References:

v RHR Reference Text (Rev 7); pg 59 Provided

References:

None Explanation:

Once overridden, the containment cooling valves will not close automatically until 2/3 core coverage is reached. The injection valves will only open automatically when the LPCI initiation signal is first received.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-01 E014 203000A305 41.7 RO 4.4 Group 1 Question Source: New Difficulty Level: 3.5 Cognitive Level: Comprehension-Analysis Page 130 of 200

All Questions Key F

i, At time 0000 the following conditions exists:

MO-1001-7D RHR Pump D Torus Suction Valve is closed.

H MO-1001-43D RHR Pump D Shutdown Cooling Suction Valve is open.

At time 0005 an operator starts to locally open the MO-1001-7D.

At time 001 5 the MO-1001-7D reaches full open.

The MO-1001-43D will start to close at:

a. 0005 in order to prevent overpressurizing the torus from the reactor.

b. 0015 in order to prevent overpressurizing the torus from the reactor.

c. 0005 in order to prevent draining the reactor to the torus.

d. 0015 in order to prevent draining the reactor to the torus.

Page 131 of 200

All Questions Key Answer:

c u

Refer en ces :

2.2.19.1 RHR System - Shutdown Cooling Mode of Operation (Rev 9); pg 14 of 137 Provided

References:

None Explanation :

If the MO-1001-7D is not full closed the MO-1001-43D will receive a close signal. This is designed to prevent draining the RPV to the torus.

Comments :

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-01 EO 14 20500062128 41.7 RO 3.2 Group 1 Question Source: New Difficulty Level: 3.5 Cognitive Level: Comprehension-Analysis Page 132 of 200

All Questions Key W

Following a loss of off-site power HPCI initiated on low reactor water level then tripped on high reactor water level.

Current plant conditions are:

W Reactor level is 18 inches and steady HPCI Initiation Seal In White Light is LIT H HPCI High Water Level White Light is LIT H HPCI TURB TRIP alarm is sealed in If drywell pressure then rises to 2.2 psig, the HPCI Turbine Trip will:

a. reset. HPCI will initiate and inject to the reactor with no operator action.

b. reset. HPCI will initiate but will not inject to the reactor until the MO-2301-8 HPCI Injection Valve is manually opened.

c. NOT reset. HPCI will inject if the operator resets the High Water Level Trip.

d. NOT reset. HPCI will inject only if the operator BOTH opens the MO-2301-8, HPCI Injection Valve manually AND resets the High Water Level Trip.

Page 133 of 200

All Questions Key L. Answer:

c

References:

P&ID MlJ16-10 sheet 3 of 10 Provided

References:

None Explanation:

HPCI High Level Turbine Trip will seal in until Level reaches the Low Level initiation setpoint

(-46 inches). While the turbine is tripped on High Reactor Water Level, the High Drywell Pressure HPCI initiation is effectively disabled. Once the operator manually resets (via pushbutton) the High Level trip, HPCI will commence injection on the High Drywell pressure signal.

Comments:

TADS 3158 Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-03 EO 4 206000A108 41.5 RO 4.1 Group 1 Question Source: Bank Difficulty Level: 3.5 Cognitive Level: Comprehension-Analysis Page 134 of 200

AI1 Questions Key u Which one of the following describes the immediate response of the HPCI system to a complete loss of 125VDC? Assume HPCI was in a normal standby lineup prior to the loss.

a.

b.

C.

d.

HPCI will auto-initiate. Initiation logic is de-energized to function.

HPCI will NOT auto-initiate, but the steam line isolation valves will close. Isolation logic is de-energized to function.

HPCI will NOT auto-initiate and the steam line isolation valves will not close. Both initiation and isolation logic is energized to function.

HPCI will attempt to initiate but the steam line isolation valves will close. Isolation logic is de-energized to function.

Page 135 of 200

All Questions Key L-Answer:

c

References:

HPCI Reference Text (Rev 6), Figures 11 & 12 Provided

References:

None Explanation:

Per electrical prints, both circuits have seal-ins; therefore, they must be energized to function.

c Comments :

TADS 6668 Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-03 EO 25.1 206000K203 Question Source: Bank 41.7 Difficulty Level: 2.5 RO Cognitive Level: Memory - Fundamental 2.8 Group 1 Page 136 of 200

All Questions Key i, ADS has initiated due to a loss of coolant accident. The following conditions exist:

- Reactor Pressure:

900 psig

- Drywell Pressure:

12 psig

- RPVLevel:

-60 inches A Core Spray pump is injecting; all other low pressure ECCS pumps are secured All 4 SRVs are open due to the ADS actuation An operator mistakenly trips the A Core Spray pump. The proper response of the ADS system is:

a. the ADS blowdown will continue.

b. all 4 SRVs will close and remain closed indefinitely.

c. all 4 SRVs will close, but will immediately reopen.

d. all 4 SRVs will close then reopen after a two minute delay.

Page 137 of 200

All Questions Key Answer:

a b

References:

ADS Reference Text (Rev 3); pg 23 Provided

References:

None Explanation :

Any one pump running (RHR or Core Spray) will keep both ADS logics energized and all SRVs open. The blowdown is a seal-in circuit, so even if the pumps trip off, the blowdown will continue.

Comments:

Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-05 EO 3 20900 1 K3 02 41.7 RO 3.8 Group 1 Question Source: New Difficulty Level: 2.5 Cognitive Level: Memory - Fundamental Page 138 of 200

All Questions Key

- The high pressure sensing line for the core plate D/P instrumentation has a fitting leak of 10 gpm. An ATWS event occurs and SLC is started.

The SLC system will inject:

a. all boron into the RPV above the core plate.

b. all boron into the RPV below the core plate.

c. some boron into the RPV above the core plate, the rest outside the RPV.

d. some boron into the RPV below the core plate, the rest outside the RPV.

Page 139 of 200

All Questions Key Answer:

d L.

References:

SLC Reference Text (Rev 2), Figure 8 Provided

References:

None Explanation:

Comments:

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-06-06 EO 2.1 2 1 1 OOOKl02 41.2 RO 2.7 Group 1 Question Source:

Difficulty Level:

Cognitive Level:

Bank 3.O Comprehension-Analysis Page 140 of 200

All Questions Key L The plant is in an ATWS. The Standby Liquid Control system is out of service. Which of the following is an approved means of alternate boron injection?

a. Add sodium pentaborate to the condensate storage tank and midinject with HPCI.

b. Add sodium pentaborate to the condensate demineralizer precoat tank and inject with condensate and feedwater systems.

c. Connect the SLC tank to CRD pump suction and inject with a CRD pump.

d. Connect the SLC tank to the RWCU demineralizer precoat tank and inject with RWCU Pump.

Page 141 of200

All Questions Key Answer:

d

~~

References:

5.3.20, Alternate Borate Injection (Rev 15), Section 2.1 - "Alternate Injection of SLC after Gravity Drain from SLC Storage Tank" Provided

References:

None Explanation:

Of the 4 listed as answers, only the RWCU option is part of a procedure.

Comments:

Grand Gulf 1998 NRC Exam Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-06-06 EO 15.d 21 1000K301 Question Source: Bank 41.7 Difficulty Level: 2.5 RO Cognitive Level: Memory - Fundamental 4.3 Group 1 Page 142 of 200

All Questions Key L/

Given the following conditions:

A plant shutdown is in progress.

At 60% power, a relay that is used to bypass the Stop Valve Closure and Control Valve Fast Closure Scrams, the 5A-K9A relay, fails in its de-energized position.

Assuming the person assigned to check the status of relays on back panels during the shutdown fails to do so, how would a front panel operator become aware of this failure?

a. The Turbine Stop Valve Not Full Open Scram Bypass and the Control Valve Fast Closure Scram Bypass alarms will come in as soon as the relay fails.

b. The Turbine Stop Valve Not Full Open Scram Bypass and the Control Valve Fast Closure Scram Bypass alarms will not come in when Turbine First Stage Pressure drops below 108 psig.

c. A half scram will occur when the turbine is tripped.

d. A full scram will occur when the turbine is tripped.

Page 143 of 200

All Questions Key v

Answer:

c

References:

P&Ids MlN19-7 and 21-9 ARP-C905R A l m E-4 Provided

References:

None Explanation:

These relays are normally de-energized so there would be no effect fiom it failing in the de-energized state at 60% power. Any of the relays energizing would give the alarms on C905R for the scrams being bypassed. If one relay is failed in the de-energized condition, a half scram on that side will occur when the stop valves go closed.

Comments:

Objective:

0-RO-02-07-07 EO EO 22.h WA:

2 12000A 109 Question Source: New 10CFR Ref:

41.5 Difficulty Level: 3.5 Exam Level: RO Cognitive Level: Comprehension-Analysis Importance: 2.7 Tier: 2 Group 1 Page 144 of 200

All Questions' Key

- With the plant operating at power a loss of Panel Y-2 occurs. The plant is subsequently manually scrammed.

Which ONE of the following describes the ability to monitor reactor power post scram on the IRMS?

a. The IRM detectors will not be able to be inserted since the detector drive motors are powered from Panel Y-2.

b. The IRM detectors will not be able to be inserted since the detector drive control relays are powered from Panel Y-2

c. The ability to monitor IRM levels on C905 will be lost since the recorders are powered from Y-2. IRM levels can still be determined on back panels.

d. All IRM indications will be lost since they are powered from Panel Y-2.

Page 145 of 200

All Questions Key

+ Answer:

c

References:

PNPS 5.3.6, Loss of Vital AC (Y2) (Rev 18); pg 4 of 12 Provided

References:

None Explanation:

Y-2 powers the IRM recorders on C905. The detectors can still be driven in and can be read on back panels.

Comments:

Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-7-02 EO 13.a 215003K304 41.7 RO 3.6 Group 1 Question Source: New Difficulty Level: 3.0 Cognitive Level: Memory - Fundamental Page 146 of 200

All Questions Key c A reactor startup is in progress. Reactor power is 50/125 scale on IRM Range 2. IRM detectors A & D were bypassed during the outage and both have just failed downscale. The CRS directs that IRM A and D be bypassed.

Under these conditions, the remaining IRMs satisfy the operability requirements of:

a. both RPS trip systems.

b. RPS A only.

c. RPS By only.

d. neither RPS trip system.

Page 147 of 200

All Questions Key L,

Answer:

a

References:

TS Table 3.1.1 Provided

References:

TS Table 3.1.1 Explanation:

IRMs A, C, E, and G supply signals to RPS A. IRMs B, D, F, and H supply signals to RPS B.

Each RPS trip system only requires 3 IRMs to be operable.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-07-02 EO 15 2 15003K604 41.7 RO 3.0 Group 1 Question Source: New Difficulty Level: 3.0 Cognitive Level: Memory - Fundamental Page 148 of 200

All Questions Key L-The A SRM high voltage power supply is powered from:

a.

b.

C.

d.

D-25 D-26 Y-1 Y-2 L

Page 149 of 200

All Questions Key Answer:

a b

References:

SRM Reference Text (Rev 1); pg 22 Provided

References:

None Explanation:

The A & Cy SRM detector high voltage power supplies are powered from D-25. All other distracters are power sources that supply other parts of the SRM system.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-07-01 EO 8 2 1 5004K20 1 41.7 RO 2.6 Group 1 Question Source:

Difficulty Level:

Cognitive Level:

New 3.0 Memory - Fundamental Page 150 of 200

All Questions Key u A partial loss of core flow has occurred. The plant is currently operating in the Monitored Region of the power-to-flow map. Per PNPS 2.2.160, Period Based Detection System, the minimum number of operable channels of PBDS is (1) and a reactor scram is required immediately (2)

a. (1) 1 (2) if you do not have the minimum number operating

b. (1) 2 (2) if you do not have the minimum number operating

c. (1) 1 (2) if a validated Hi-Hi Decay Ratio alarm annunciates on an operable channel

d. (1) 2 (2) if a validated Hi-Hi Decay Ratio alarm annunciates on an operable channel Page 151 of 200

All Questions Key

'.c-,

Answer:

c

~~

References :

2.2.160, Period Based Detection System (Rev 4); pg 1 1 Provided

References:

None Explanation:

Per 2.2.160, Period Based Detection System (PBDS), the minimum number of operable channels is 1. When in the monitored region, the only time an operator is required to scram immediately is when a Hi-Hi Decay Ratio alarm comes in on an operable channel and it is validated.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02 10 EO 17a 29500 1 AA202 43.5 Difficulty Level: 3.0 SRO Cognitive Level: Comprehension-Analysis 3.2 Group 1 Question Source: New Page 152 of 200

All Questions Key c During rated power conditions, 125 VDC bus D-16 de-energizes. All other systems are aligned normally. Upon loss of D-16, 125 VDC panel D-6 will (1)

. Ifpower cannot be restored to bus D-16, the plant must be placed in cold shutdown within (2)

a. (1) immediately transfer to D-17 (2) 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />

b. (1) transfer to D-17 after a time delay (2) 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />

c. (1) immediately transfer to D-17 (2) 7 days

d. (1) transfer to D-17 after a time delay (2) 7 days Page 153 of 200

All Questions Key Answer:

a b

References:

5.3.1 1 Loss of Essential DC Bus D16 or D4 and D36 (Rev 33); pgs 3,6 Provided

References:

None Explanation:

Transfer to D-17 will be immediate. If power is lost to Bus D-16 and cannot be restored, A side ECCS and A EDG will be unavailable.

Comments :

PNPS 2002 SRO Exam - Question 2 Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-01-02 EO 6 295004AA101 43.5 SRO 3.4 Group 1 Question Source: Bank Modified Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 154 of 200

All Questions Key L-With the plant operating at 100% power, power is lost to B 15 due to a fault.

After completing all immediate and subsequent actions of 2.4.42, Loss of RBCCW there

-(1)-

flow in both loops of RBCCW. The most restrictive LCO for this condition requires the plant to be placed in cold shutdown within (2) hours.

a. (1) is not (2) 72

b. (1) is (2) 72

c. (1) is not (2) 24

d. (1) is (2) 24 Page 155 of 200

All Questions Key Answer:

d L

References:

Tech Specs; Section 3.5.B.3.U Tech Specs; pg B3.5-12 2.4.42, Rev 22, page 7 of 17 Provided

References:

None Explanation:

B-15 powers all loop A lU3CCW pumps, thus the loop is still intact, but inoperable due to loss of pumps.. The subsequent actions of 2.4.42, Loss of RBCCW call for the operators to cross-connect the A and By loops. Per Tech Specs, a RBCCW subsystem is inoperable if the cross-connect valves are open since a failure of one subsystem will affect the other. With 2 RBCCW subsystems inoperable, Cold Shutdown is required within 24 hrs.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-06-01-03 EO 3 295018AA204 Question Source: New 43.5 Difficulty Level: 3.5 SRO Cognitive Level: Comprehension-Analysis 2.9 Group 1 Page 156 of 200

All Questions Key L Given the following sequence of events:

A RHR pump was placed in Shutdown Cooling at time 0000.

Reactor water level dropped to +9 inches at 0005. When this occurred MO-1001-47 and MO-1001-50 valves auto closed.

No other RHR auto or manual actions took place.

Operators used feedwater to restore reactor water level to the normal band at 0010.

Current reactor water temperature is 220 degrees F and slowly rising Which ONE of the following statements describe whether systems/components responded properly to the level transient AND what actions will allow Shutdown Cooling to be restarted?

a.

b.

C.

u

d.

The response was proper. The Group I11 isolation may be reset and Shutdown Cooling may be restarted.

The response was proper. The Group I11 isolation must be bypassed before Shutdown Cooling may be restarted.

The response was NOT proper. One containment isolation valve in line with the MO-1001-29A should be deactivated in the isolated condition and may only be reopened if an ORC approved procedure is obtained to allow opening it. The Group I11 isolation would be reset and Shutdown Cooling could be restarted.

The response was NOT proper. One containment isolation valve in line with the MO-1001-29A should be deactivated in the isolated condition. There are no provisions to allow opening this valve by use of an ORC approved procedure. The deactivated containment isolation valve must remain in that state until the Group 111 isolation circuitry has been repaired following which Shutdown Cooling could then be restarted.

Page 157 of 200

All Questions Key l-..-

Answer:

c

References:

2.2.19.1 RHR System - Shutdown Cooling Mode of Operation (Rev 9); pg 13 TS 3.7.A.2.b Provided

References:

Tech Specs Explanation:

MO-1001-29A closes on high DW pressure and low Reactor water level, not on high reactor pressure.

TS allow reopening valves closed to compensate for an inoperable containment isolation valve provided it is directed by an ORC approved procedure.

Comments:

Objective:

0-RO-02-09-01 EO 15.j KIA:

295021AA102 Question Source: New 10CFR Ref:

43.3 Difficulty Level: 3.5 Exam Level: SRO Cognitive Level: Comprehension-Analysis Importance: 3.5 Tier: 1 Group 1 Page 158 of 200

All Questions Key L-The Reactor Steam Dome Safety Limit is based upon not exceeding 110% of the Reactor Vessel Design Pressure of (1) psig and takes into account the pressure change associatedwith (2)

a. (1) 1035 (2) a rod drop accident

b. (1) 1250 (2) a rod drop accident

c. (1) 1035 (2) the elevation change from the steam dome to the lowest point in the reactor vessel

d. (1) 1250 (2) the elevation change fiom the steam dome to the lowest point in the reactor vessel Page 159 of 200

All Questions Key Answer:

d

%w

References:

Tech Specs; pg B2-4 Provided

References:

None Explanation:

Per Tech Specs, Reactor dome pressure shall be < or equal to 1325 at any time irradiated fuel is present in the vessel. This is based on a maximum pressure transient of 110% (1375 psig) of design pressure (1250 psig). The safety limit, as measured by the reactor steam dome pressure indicator, is equivalent to 1375 psig at the lowest elevation of the reactor coolant system.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-06-01-02 295007G2222 43.2 SRO 4.1 Group 2 Question Source: New Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 160 of 200

All Questions Key

- The plant is at 920 psig and the mode switch has just been taken to RUN. A transient occurs which causes reactor pressure to lower to 800 psig and reactor water level to go off scale high on the Narrow Range Instruments on C905.

Under these conditions PNPS 1.3.34, Conduct of Operations, requires the operator to close or verify closed the MSIVs since they received an isolation signal on (1)

. Thissignal is designed to protect against (2)

a. (1) +55 inches Reactor Water Level (2) excessive plant depressurization due to failure of a pressure regulator

b. (1) 8 10 psig Main Steam Line Pressure (2) excessive plant depressurization due to failure of a pressure regulator

c. (1) +55 inches Reactor Water Level (2) water hammer in the HPCI turbine

d. (1) 8 10 psig Main Steam Line Pressure (2) water hammer in the HPCI turbine Page 161 of 200

All Questions Key L,

Answer:

b

References:

TS Table 3.2..A TS Section 3.2 Bases PNPS 1.3.34, Conduct of Operations, Rev 84, Page 57 of 11 8 Provided

References:

Tech Specs Explanation :

With the mode switch in RUN, the MSIVs should have gone closed at 8 10 psig Main Steam Line Pressure in order to protect against a failed pressure regulator.

If the mode switch were out of RUN, the MSIVs would have gone closed on a high reactor water level signal.

Comments:

Objective:

KIA:

2950086222 Question Source: New 10CFR Ref:

43.5 Difficulty Level: 3.5 Exam Level: SRO Cognitive Level: Comprehension-Analysis Importance: 3.5 Tier: 1 Group 2 0-RO-02-08-10 EO 3 and 4 Page 162 of 200

All Questions Key L

The RHR system is in Shutdown Cooling (SDC) mode per 2.2.19.1, RHR Shutdown Cooling Mode of Operation with A loop at 3500 GPM. The following conditions exist:

Reactor water temperature is 180 degrees F Both Reactor Recirc Pumps are secured A tagging error has resulted in the MO-l001-18A, Minimum Flow Valve not being tagged in the closed position The B loop has just been placed in Suppression Pool Cooling mode at 2000 GPM A low flow condition occurs in the A loop, causing A loop flow to be 1000 GPM Which of the following describes the correct plant response / operator action, in accordance with PNPS 2.4.25, Loss of Shutdown Cooling, if these conditions do not change?

a. The MO-1 SA valve does not open and the pump must be tripped Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> to prevent overheating the pump.

b. The MO-1SA valve does not open and the pump may be run indefinitely in this condition.

c. The MO-1SA valve opens and SDC eventually isolates. Temperature stratification is not a concern since the plant is below 212 degrees F.

d. The MO-1 SA valve opens and SDC eventually isolates. Starting a Reactor Recirc Pump will prevent temperature stratification.

Page 163 of 200

All Questions Key Answer:

d L-,

~~

References:

2.2.19.1, RHR System - Shutdown Cooling Mode (Rev 9); pgs 12, 17 2.4.25, Loss of Shutdown Cooling (Rev 23), pg 4 of 10 RHR Ref Text Rev 7 pages 28-29 Provided

References:

None Explanation:

The min flow valve operates if (1) flow in both loops < 2500 GPM, (2) at least one pump is running in the respective loop, & (3) the 10 second timer has timed out. (conditions do not change)

Per 2.4.25, Loss of Shutdown Cooling procedure, if reactor is not pressurized or heat sink is not available, you must either raise RPV level or establish force flow with a recirc pump Comments:

Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-01 EO 14 205000A2 12 Question Source: New 43.5 Difficulty Level: 3.5 SRO Cognitive Level: Comprehension-Analysis 3.O Group 1 Page 164 of 200

All Questions Key L-,

A transient results in the following conditions:

- A reactor scram with all rods inserting

- The RPV completely depressurizes

- Torus bottom pressure is 15 psig

- Torus water level is 30 inches

- Torus bulk water temperature is 150 degrees F

- RPV Level is being maintained steady at -160 inches with the A Core Spray Pump which is the only source of injection.

Under these conditions the A Core Spray Pump is violating its (1)

. EOPs direct that -(2)-*

a. (1) Vortex limit only (2) the A Core Spray Pump not be operated in violation of this limit. The A Core Spray Pump must be shutdown and the Primary Containment must be flooded.

b. (1) Vortex and NPSH limits (2) the A Core Spray Pump not be operated in violation of these limits. The A Core Spray Pump must be shutdown and the Primary Containment must be flooded.

c. (1) Vortex limit only (2) the A Core Spray Pump will be maintained in service without regard to exceeding this

\\

limit

d. (1) Vortex and NPSH limit (2) the A Core Spray Pump will be maintained in service without regard to exceeding these limits Page 165 of 200

All Questions Key

- Answer:

c

References:

EOP-11 EOP-01 EOP-03 Provided

References:

EOP-11 EOP-0 1 EOP-03 Explanation:

EOP-01 Requires 3600 GPM flow from a core spray pump in order to avoid Primary Containment Flooding. Caution 2 only states that operation beyond NPSH and Vortex limits may result in equipment damage, does not prohibit their use.

The conditions given put you in the red region of Vortex but not NPSH..

Comments:

Objective:

0-RO-03-04-02 EO 3.b WA:

209001A209 10CFR Ref:

43.5 Exam Level: SRO Importance: 3.3 Tier: 2 Group 1 Question Source: New Difficulty Level: 4.0 Cognitive Level: Comprehension-Analysis Page 166 of 200

All Questions Key

- Given the following conditions:

The plant is nearing the end of a refueling outage.

As an SRO working in the Control Room Annex, you have been directed to ensure that the Containment Spray mode of RHR meets its Technical Specification LCO.

Which one of the following describes the Technical Specification operability requirements for the RHR pumps and Heat Exchangers to meet this LCO?

a. All 4 RHR pumps and both RHR Exchangers must be OPERABLE.

b. One RHR pump per loop and both RHR Heat Exchangers must be OPERABLE. The other two RHR pumps may be INOPERABLE.

c. All 4 RHR pumps must be OPERABLE. Both RHR Heat Exchangers may be INOPERABLE.

d. One RHR pump per loop must be OPERABLE. The other two RHR pumps and both RHR Heat Exchangers may be INOPERABLE.

Page 167 of 200

All Questions Key L,

Answer:

b

References:

Tech Specs; pg 3.5-8 Provided

References:

None Explanation:

Per Tech Spec, an RHR containment spray subsystem is OPERABLE when one of the pumps, the heat exchanger, and associated piping, valves, instrumentation, and controls are OPERABLE.

Comments:

PNPS 2002 SRO Exam - Question 91 Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-02-09-01 EO 22 230000G2225 43.2 SRO 3.7 Group 2 Question Source: Bank Difficulty Level: 3.5 Cognitive Level: Comprehension-Analysis Page 168 of 200

All Questions Key u Given the following conditions:

The plant was shutdown to perform maintenance on the Group VI isolation circuitry.

Shutdown cooling is in service with reactor water temperature at 140 degrees F.

The MO-1201-2 and MO-1201-5 valves are open with their auto closure capabilities Both drywell personnel airlock doors are open with interlocks defeated.

A loss of shutdown cooling occurs and the RPV begins to heat up.

One drywell personnel airlock door is then closed.

The operator then closes the MO-1201-2 valve using the C904 control switch.

disabled.

When primary temperature exceeds 2 12 degrees F, a violation of Technical Specifications:

a. has not occurred since Primary Containment integrity had been met.

b. has not occurred due to Primary Containment integrity not being required.

c. has occurred only because no valves in the RWCU section line have been disabled.

d. has occurred due to one personnel airlock door being open AND no valves in the RWCU suction line being disabled.

Page 169 of 200

All Questions Key L-Answer:

c

References:

Tech Spec 3.7.A.2.a Tech Spec 3.7.A.2.b Provided

References:

None Explanation:

Primary containment required when temperature exceeds 2 12 degrees F. Containment requires one personnel airlock to be closed and one valve in the line with inop PCIS valves to have one valve disabled in the closed position.

Comments:

PNPS 2002 SRO Exam - Question 7 Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-06-01-03 EO 3 G2122 43.2 SRO 3.3 Group Question Source: Bank Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 170 of 200

All Questions Key L

Following the quarterly SBLC flow test for the A SBLC pump, you receive a report that the results of the required concentration analysis are as follows:

Tank Volume 4226 gallons

% Sodium Pentaborate 8.32 Tank Temperature 68 degrees F Select the statement below that describes the actions required by the Technical Specifications:

a. The plant must be placed in cold shutdown condition within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

b. If the isotopic enrichment of Boron-10 is above 54.4 atom percent then a shutdown can be avoided if the sodium pentaborate solution meets the original design criteria.

c. Power operation may continue for the next 7 days provided that the B SBLC pump passes the flow rate test immediately and daily thereafter.

d. Restore concentration of boron in solution to within limits within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> AND 10 days fiom discovery of failure to meet the LCO, or else place the plant in hot shutdown within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

Page 171 of 200

All Questions Key Answer:

d

References:

T.S. 3.4.A T.S. Figure 3.4-1 Provided

References:

Tech Specs Explanation:

Per Tech Spec 3.4.A: With concentration of boron in solution now within limits but restore concentration of boron in solution to within limits within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> AND 10 days fiom discovery of failure to meet the LCO. If unable to meet the completion time, be in Hot Shutdown within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

8%,

Comments :

TADS # 311 Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-02-06-06 EO 17 G2 125 Question Source: Bank 43.2 Difficulty Level: 3.0 SRO Cognitive Level: Comprehension-Analysis 3.1 Group Page 172 of 200

All Questions Key I-It is desired to remove the HPCI system from service for on line maintenance. Per Technical Specifications, power operation may continue for 14 days with HPCI out of service provided that ADS, RCIC, LPCI, and both Core Spray systems are (1)

In order to declare HPCI operable when it is returned to service, PNPS 2.2.21, HPCI System requires the MO-2301-9 valve to be (2)

a. (1) demonstrated operable (2) closed

b. (1) verified operable (2) open

c. (1) demonstrated operable (2) open

d. (1) verified operable (2) closed Page 173 of 200

All Questions Key Answer:

b L

References:

TS 3.5.C.2 2.2.21, HPCI System (Rev 64); pg 13 of 66 Provided

References:

TS 3.5.C.2 Explanation:

Tech Spec requires that LPCI, ADS, RCIC and LPCI be operable. Since Tech Specs do not specify whether to demonstrate or to verify, the candidate must be familiar with the meaning of this specification.

Since MO-2301-9 is a passive safety related valve, it must be open in order to declare HPCI operable.

Comments :

NOTE: TS only required that they be operable, does not specify whether to demonstrate or verify operability.

Objective:

0-RO-02-09-03 EO 27 KIA:

G222 1 10CFR Ref:

43.2 Exam Level: SRO Importance: 3.5 Tier: 3 Group Question Source: New Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 174 of 200

All Questions Key L

The drywell is being purged in order to allow entry in accordance with PNPS 1.4.12, Primary Containment Entry. In order to make initial drywell entry, the oxygen concentration in (1) must be at least (2)

~-

a. (1) Drywell only (2) 19.5%

b. (1) Drywell and torus (2) 19.5%

c. (1) Drywell only (2) 20%

d. (1) Drywell and torus (2) 20%

Page 175 of 200

All Questions Key Answer:

d L..'

References :

PNPS 1.4.12, Primary Containment Entry (Rev 19); pg 9 Provided

References:

None Explanation:

PNPS 1.4.12 requires that both the drywell and torus be above 20% oxygen prior to initial drywell entry. This ensures that nitrogen is not introduced if vacuum breakers operate.

Comments :

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-02-08-02 EO 8 G239 43.5 SRO 3.4 Group Question Source: New Difficulty Level: 3.0 Cognitive Level: Memory - Fundamental Page 176 of 200

All Questions Key A leak in the drywell has caused containment pressure to rise such that torus bottom pressure is 16 psig and drywell pressure is 11 psig. You find that drywell spray is required and are attempting to determine drywell temperature when you find that the only available instrument reading drywell temperature is the Kaye Computer. See Attachment 2 of 2.1.27 for Drywell Temperature Data (attached).

L' Bulk drywell temperature is (1) and you (2) within the safe region of the Drywell Spray Initiation Limit Curve.

a. (1) 300.5 degrees F (2) are

b. (1) 300.5 degreesF (2) arenot

c. (1) 308 degrees F (2) are

d. (1) 308 degrees F (2) arenot

~~

Page 177 of 200

All Questions Key Answer:

a L--,

References:

2.1.27, Drywell Temperature Indication (Rev 6)

EOP-03 EOP-11 Provided

References:

2.1.27, Rev 6; pg 1 1 DSIL curve of EOP-11 Explanation:

Comments :

Objective:

0-RO-03-04-05 EO 12 WA:

295024A202 10CFR Ref:

43.5 Exam Level: SRO Importance: 4.0 Tier: 1 Group 1 Question Source: New Difficulty Level: 3.O Cognitive Level: Comprehension-Analysis Page 178 of 200

All Questions Key u A plant startup is in progress with reactor power at 30%. Reactor pressure is being maintained on the EPR following an MPR failure.

In accordance with Attachment 2 of 2.4.37, Turbine Control System Malfunctions, once pressure is determined to be under control, the reactor pressure setpoint shall be (1) 2.4.37 requires that power be reduced to less than 25% if the MPR is not restored within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless an approved operability evaluation for this condition exists since you can not enswe that (2) will be maintained within specification during a transient.

a. (1) adjusted to between 940 and 960 psig (2) MCPR

b. (1) adjusted to between 940 and 960 psig (2) LHGR

c. (1) adjusted to between 935 and 955 psig.

(2) MCPR

d. (1) adjusted to between 935 and 955 psig.

(2) LHGR Page 179 of 200

All Questions Key

-v Answer:

a

References:

2.4.37, Turbine Control System Malfunctions (Rev 17); pgs 9 and 13 Provided

References:

2.4.37, Attachment 2 Explanation:

Per the Attachment 2 of 2.4.37 which will be provided, the band for reactor pressure for 30%

would be 940-960 psig. With only one pressure regulator in service, you cannot ensure that MCPR will be met during a transient.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-02-05-04 EO 16 295025A202 43.5 SRO 4.2 Group 1 Question Source: New Difficulty Level: 3.5 Cognitive Level: Comprehension-Analysis Page 180 of 200

All Questions Key L/

The following conditions exist:

Switchboard Y-3 is unavailable.

A DBA LOCA has occurred All available sources of water are needed to maintain reactor water level Torus Water Level is 165 inches and slowly rising Torus Water Temperature is 185 degrees F and slowly rising Reactor Pressure is 600 psig and stable You are in the process of putting torus cooling in service.

The torus water temperature (1) has power and is qualified for use as a Post Accident Monitor. Emergency Depressurization is (2)

a. (1) recorder TRU-5021-01A on C170 (2) currently required without regard to any other plant conditions.

b. (1) recorder TRU-5021-01A on C170 (2) required at this time only if you determine that you cannot lower torus water temperature below 180 degrees F

c. (1) indicator TI -5022-1B on C903 (2) currently required without regard to any other plant conditions.

d. (1) indicator TI -5022-1B on C903 (2) required at this time only if you determine that you cannot lower torus water u

temperature below 180 degrees F Page 181 of 200

All Questions Key Answer:

c u

References:

EOP-03 5.3.18, Loss of 120V AC Safeguard Buses Y3 and Y31 (Rev 18); pg 5

~~

Provided

References:

EOP-03 Explanation:

The loss of Y3 causes all instrumentation on C170 to lose power, as well as all A channel Torus water indicators. The B indicator on 903 will still be available and is a PAM instrument.

At 600 psig Reactor pressure, the HCTL limit is reached at about 18 1 degrees in the torus. Once this temperature has been reach, Emergency Depressurization is required.

Comments:

Modified from 2002 PNPS NRC exam - Question 88 Objective:

0-RO-03-04-05 EO 14a KIA:

2950266243 Question Source: Bank Modified 10CFR Ref: 43.5 Difficulty Level: 3.0 Exam Level: SRO Cognitive Level: Memory - Fundamental Importance: 3.8 Tier: 1 Group 1 Page 182 of 200

All Questions Key L-- The reactor is at 100% power. A fire has been discovered in the Cable Spreading Room and Halon is discharging.

Assume CRHEAFS is in a normal lineup. With regard to the fire, both A and B CRHEAFS trains (1)

. If one of the trains is found to be inoperable, (2) or the reactor shall be in cold shutdown within 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />.

a. (1) will automatically start (2) within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> the other CRHEAFS train must be verified operable. No other systems are required to be verified operable.

b. (1) will automatically start (2) within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> the other CRHEAFS train must be verified operable and the EDG associated with the operable train shall be operable

c. (1) will remain in standby (2) within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> the other CRHEAFS train must be verified operable. No other systems are required to be verified operable.

d. (1) will remain in standby (2) within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> the other CRHEAFS train must be verified operable and the EDG associated with the operable train shall be operable v

Page 183 of 200

All Questions Key Answer:

b

References:

T.S. 3.7.B.2.c PNPS 2.2.46, Rev 38, Page 10 of 43

~~

Provided

References:

Tech Specs Explanation:

Only in the event of a fire in the Cable Spreading Room, as long as the VSF-103A and B control switches are in AUTO, both fans should start to draw outside air into the control room. Tech Specs require verifLing the other side CRHEAF is operable and that the EDG associated with the operable train of CRHEAFS is operable to permit.operating the reactor over the next 7 days.

The distracter of neither train starting is valid since the procedure states that CRHEAFS shall not be run in the event of a fire, except in the case of a fire in the CSR.

Comments:

Objective:

0-RO-06-01-01 EO 9 WA:

600000A105 10CFR Ref:

43.2 Exam Level: SRO Importance: 3.1 Tier: 1 Group 1 Question Source: New Difficulty Level: 3.0 Cognitive Level: Comprehension-Analysis Page 184 of 200

All Questions Key u During a small LOCA, SRVs are being used to lower reactor pressure. If one of the tail pipe vacuum relief valves is failed in the open position, which of the following will result?

a. Direct pressurization of the drywell each time that SRV is opened.

b. Direct pressurization of the torus each time that SRV is opened.

c. Steam bypassing the T quenchers with a direct discharge path into the suppression pool water.

d. Suppression pool water being drawn up into the SRV tailpipe after the SRV is closed.

c Page 185 of 200

All Questions Key Answer:

a

'v

References:

P&ID M252 Sh 2 Provided

References:

None Explanation:

Must integrate location of Vacuum Relief Valves with the fact that if failed open, a direct path exists for steam to discharge into the drywall vice below the torus water level.

Commen ts:

Clinton 1 2000 NRC exam Objective:

WA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 1 None identified 295010A202 43.5 SRO 3.9 Group 2 Question Source: Bank Difficulty Level: 3.O Cognitive Level: Comprehension-Analysis Page 186 of 200

All Questions Key u Which of the following is the basis for the automatic initiation of SBGT on a high secondary containment ventilation exhaust radiation level?

a.

b.

C.

d.

Provides for the maintenance of a positive pressure in the secondary containment, therefore preventing any of the fission products released into the containment from being released into the environment.

Provides for the cleanup of the secondary containment atmosphere, allowing personnel entry into the secondary containment during a DBA LOCA.

Provides for the recirculation of the secondary containment atmosphere without exhausting air outside of containment.

Provides for the filtration of the secondary containment atmosphere of radionuclides prior to their release into the environment, maintaining offsite releases within limits.

Page 187 of 200

All Questions Key Answer:

d u

References:

Tech Spec Bases Provided

References:

None Explanation:

The SBGT system does not establish a positive pressure in the containment, does not allow for drywell entry during a DBA LOCA, nor does it recirculate air.

Comments :

Grand Gulf 1 1998 NRC Objective:

KIA:

10CFR Ref:

Exam Level:

Importance:

Tier: 1 0-RO-06-01-03 EO 4 295034EK302 43.4 SRO 4.1 Group 2 Question Source: Bank Difficulty Level: 2.5 Cognitive Level: Comprehension-Analysis Page 188 of 200

All Questions Key u The SBGT System is designed to reduce and hold Secondary Containment Pressure at (1) inches of water atmospheric with only one SBGT Fan operating.

If one SBGT Train is inoperable with the plant at power and all other equipment operable, reactor operation may continue for a maximum of (2)-

after which the reactor must be placed in Cold Shutdown within 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />.

a. (1) -0.25 (2) 7 days

b. (1) -0.25 (2) 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> C. (1) -0.50 (2) 7 days

d. (1) -0.50 (2) 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> Page 189 of 200

All Questions Key u Answer:

a

References:

TS 3.7.B.l.c FSAR page 5.3-3 Provided

References:

TS 4.7.B.l.c Explanation:

Per FSAR, page 5.3-3, one SBGT fan can reduce pressure and hold it at -0.25 inches of water.

If one train of SBGT is inop, TS 3.7.B. 1.c allows 7 days maximum time to operate, at which time you must be in cold shutdown with 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />.

Comments:

Objective:

0-RO-02-08-03 EO 1 KIA:

26 100062127 10CFR Ref:

43.2 Exam Level: SRO Importance: 2.9 Tier: 2 Group 1 Question Source: New Difficulty Level: 3.5 Cognitive Level: Comprehension-Analysis Page 190 of 200

All Questions Key U

In accordance with 2.2.8, Standby AC Power Systems (Diesel Generators), which ONE of the following is the MINIMUM starting air system component status that is required to consider an EDG operable?

a. An operable air compressor

b. One air start receiver with pressure at least 225 psig

c. Two air start receivers with pressure at least 225 psig

d. Two air start receivers with pressure at least 235 psig Page 191 of 200

All Questions Key Answer:

b L

References:

2.2.8, Standby AC Power System (Diesel Generators) (Rev 78); pg 39 Provided

References:

None Explanation:

With one receiver isolated, the remaining receiver must be at least 225 psig in order to remain operable.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 2 0-RO-06-01-06 EO 10 264000K601 43.2 SRO 3.9 Group 1 Question Source: New Difficulty Level: 3.5 Cognitive Level: Memory - Fundamental Page 192 of 200

All Questions Key L, The following conditions exist:

An RFO is in progress; refueling is complete The fuel pool is isolated fiom the reactor basin and reactor basin draindown has commenced.

The B Fuel Pool Cooling heat exchanger has developed a major tube leak and is isolated.

Fuel Pool Cooling temperature is 115 degrees F and rising If the Fuel Pool temperature continues to rise, the nominal FSAR limit of (1) will be exceeded. To control Fuel Pool water temperature, Augmented Fuel Pool Cooling (2) may be used.

a. (1) 140 degrees F (2) With Shutdown Cooling

b. (1) 140 degrees F (2) Without Shutdown Cooling

c. (1) 125 degrees F (2) With Shutdown Cooling

d. (1) 125 degrees F (2) Without Shutdown Cooling b

Page 193 of 200

All Questions Key Answer:

d References :

2.2.85.2, Augmented Fuel Pool Cooling Mode 2 (Rev 9); pg 5 FSAR page 10.4-1 Provided

References:

None Explanation:

The FSAR limit is 125 degrees F. The limit on demineralizer operation is 140 degrees F. With the fuel pool gate installed, Augmented Fuel Pool Without Shutdown Cooling is the only lineup to provide additional cooling.

Comments:

The word "may was retained in the question since there is no procedural requirement to control Fuel Pool temperature with Augmented Cooling.

Objective:

0-NL-03-11-01 EO 4g K/A:

233000A207 Question Source: New 10CFR Ref:

43.7 Difficulty Level: 3.5 Exam Level: SRO Cognitive Level: Comprehension-Analysis Importance: 3.2 Tier: 2 Group 2 Page 194 of 200

All Questions Key

\\-.-,

A job is being planned in a high radiation area. Consideration is being given to installing temporary shielding and to using a special tool that will allow the job to be performed at a greater distance fiom the source, but will increase the time required to complete the job. The temporary shielding will require a total dose of 1R to install and remove.

The following estimates are available:

OPTION 1: The job can be performed in a field of 2.4 FUhr in one hour without temporary shielding and without the special tool.

OPTION 2: The job can be performed in a field of 500 mR/hr in one hour with temporary shielding and without the special tool.

OPTION 3: The job can be performed in a field of 600 mIUhr in two hours without temporary shielding and with the special tool.

OPTION 4: The job can be performed in a field of 120 mR/hr in two hours with temporary shielding and with the special tool.

In order to maintain the stations dose as low as reasonably achievable (ALARA), this job should be performed using:

a. OPTION1

~-

b. OPTION2

c. OPTION3

d. OPTION4 Page 195 of 200

All Questions Key

- Answer:

c

References:

GET C-GT-01-02-01 p SG-118~12 Provided

References:

None Explanation:

Point source calculation relative to personnel ALARA considerations under radiological conditions.

Comments:

Objective:

WA:

10CFR Ref:

Exam Level:

Importance:

Tier: 3 GET C-GT-01-02-01 SG-3 G2.3.10 Question Source: Bank 43.4 Difficulty Level: 3.O SRO Cognitive Level: Comprehension-Analysis 3.3 Group Page 196 of 200

All Questions Key

- In accordance with EP-IP-200, On-Call Emergency Director, which one of the following responsibilities may be delegated by the On-Call Emergency Director?

a. Offsite protective action recommendations

b. Classification of an emergency event

c. Actual phone notification of the Nuclear Regulatory Commission.

d. Specifling the access authorization requirements for the emergency conditions.

Page 197 of 200

All Questions Key Answer:

c L--

References:

EP-IP-200, On-Call Emergency Director (Rev 10); p.4-5 Provided

References:

None Explanation:

Guidance is given within the Emergency Plan regarding the responsibilities which may not be delegated by the Emergency Director or the On-Call Emergency Director.

Comments:

Objective:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 3 GET C-GT-01-01-27 G2.4.40 43.5 SRO 4.0 Group EO 4 Question Source: Bank Difficulty Level: 3.5 Cognitive Level: Memory - Fundamental Page 198 of 200

All Questions Key

- You are the Emergency Director during a classified emergency. The person attempting to notifl the state and local authorities informs you that the DNN is out of service.

Which ONE of the following is a backup to the DNN?

a. ENS

b. BECONS

c. Plant Data Phone

d. Emergency Conference Line Page 199 of 200

All Questions Key Answer:

b b

References:

EP-IP-100, Emergency Classification and Notification (Rev 20), Attachment 5, sheets 1 and 2 Provided

References:

None Explanation:

The BECONS is listed as the backup to the DNN. Each of the other systems is an emergency communication system but they are not used to contact state and local authorities.

Comments:

0 b j ec tive:

KIA:

1 OCFR Ref:

Exam Level:

Importance:

Tier: 3 0-RO-07-04-01 EO 3 G2443 43.5 SRO 3.5 Group Question Source: New Difficulty Level: 3.0 Cognitive Level: Memory - Fundamental Page 200 of 200