2015-10 Draft Written Exam

ML15293A552
Person / Time
Site:	South Texas
Issue date:	10/02/2015
From:	Vincent Gaddy Operations Branch IV
To:	South Texas
References
Download: ML15293A552 (257)
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Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000009, EK1.01 Importance Rating 3.5 RO Question 1 Given the following conditions:

1. RCS pressure is currently 1020 psia and is remaining stable

2. Core Exit Thermocouple (CET) Temperature is 532 F

3. RCS Temperature is lowering at a rate of 60 degrees per hour

4. Steam Generators are at the 60% NR and stable with no Main or Auxiliary Feedwater flow. 5. All ECCS equipment is operating as designed ASSUME RCS Pressure Remains stable and no other operator actions are occurring.

The RCS is currently ___(1)___ and the RCS cooldown is being controlled by ____(2)_____.

(1) (2) A. Saturated , combination of break cooling and steaming the Steam Generators B. Subcooled, combination of break cooling and steaming the Steam Generators C. Saturated, break cooling only D. Subcooled, break cooling only

000009 Small Break LOCA / 3 Knowledge of the operational implications of the following concepts as they apply to the small break LOCA:

EK1.02 Use of steam tables

Proposed Answer:

D Explanation (Optional):

Steam Tables with a RCS pressure of 1020 psia the saturation temperature of water is 547 F, therefore the RCS is currently sub

-cooled. Given that the steam generators are at their required level & stable and no feed is being supplied it eliminates the possibility that the cooldown is caused by steaming and leaves the only possible choice to be break flow as the cooling mechanism.

Technical Reference(s):

Steam Tables 2000 ASME Steam Tables (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

2000 ASME Steam Tables Learning Objective:

(As available)

Question Source:

New X 2392 Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3.0 10 CFR Part 55 Content:

(CFR 41.8 / 41.10 / 45.3)

Comments:

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000015/17 AA1.22 Importance Rating

4.0 Question

2 Given the following:

Unit 1 is operating at 100% power Annunciator RCP 1A NO 1 SEAL LKF FLOW HI/LO alarms.

Seal leakoff flow for RCP 1A indicates 0.8 gpm on CP

-004. Which of the following is the probable cause for the seal leakoff flow being low?

A. High seal water injection temperature B. Loss of seal injection flow C. Excessive #2 seal leakage D. Low VCT Pressure 000015/17 RCP Malfunctions / 4 Ability to operate and / or monitor the following as they apply to the Reactor Coolant Pump Malfunctions (Loss of RC Flow) AA1.22 RCP seal failure/malfunction

Proposed Answer:

C Explanation (Optional):

A. Incorrect; High seal water injection temperature decreases the density of the leakoff water resulting in a pressure imbalance (higher pressure drop across the inner portion of the ring) that causes the seal to open and pass more flow.

B. Incorrect; Loss of seal injection flow results in warmer liquid from the RCS to leak up and through the seal. The increased leakoff temperature, increases leakoff flow.

C. Correct; Excessive #2 seal leakoff lowers the backpressure on #1 seal causing it to close up and flow to go down.

D. Incorrect; Low VCT pressure results in less back pressure on the #1 seal, therefore a higher #1 seal leakoff flow.

Technical Reference(s): 0POP09

-AN-4M7-B-1, Rev 29 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

Bank # NRC 37 Question History:

Last NRC Exam 1999 Question Cognitive Level:

Comprehension or Analysis Difficulty 3.0

10 CFR Part 55 Content:

55.41.7 55.45.5 55.45.6 Comments: Parent:

Given the following:

Unit 1 is operating at 100% power Annunciator RCP 1 B NO 1 SEAL LKF FLOW HI/LO alarm

s. Seal leakoff flow for RCP 1 B indicates 0.9 gpm on CP-0 04. Which ONE of the following is the probable cause for the seal leakoff flow being low?

A. High seal water injection temperature B. Loss of seal injection flow C. Excessive #2 seal leakage D. Low VCT Pressure Answer C RCP 1A(2A) NO 1 SEAL LKF FLOW HI/LO Probable Causes:

1) High flow: a) Damage to the Number 1 Seal b) High seal water injection temperature c) Loss of seal water injection flow d) Number 1 Seal Ring cocked e) Instrument failure f) High Seal 1 water inlet temperature

2) Low flow: a) Insufficient DP across the Number 1 Seal b) Excessive leakage at the Number 2 Seal c) Damage to the Number 1 Seal d) Number 1 Seal inlet clogged e) "SEAL LKF ISOL FV-3154" closed f) Instrument failure Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000025, AA2.07 Importance Rating

3.4 Question

3 The Unit is in Mode 5 mid

-Loop Operation with RCS level at +9 inches.

RHR Pump 1A is in service with a flow rate of 3000 gpm.

At 10:00 AM the MAB RPO reports to the Control Room that RHR 1A is making a loud oscillating "swishing" noise when he was in the area.

The Primary RO then notices that RHR 1A amps are swinging more than normal, and RCS hot leg level is indicating +1.5 inches.

The Unit Supervisor has announced entry into the Loss of Residual Heat Removal Off normal Procedure, 0POP04

-RH-0001, Loss of Residual Heat Removal.

The NEXT operator action that the control room operators should take is to ___________.

A. Reduce RHR 1A pump flow to 1000 to 1500 gpm B. Decrease RCS temperature until the noise and amperage oscillations stop C. Stop RHR 1A and Start RHR1B D. Reduce RHR 1A pump flow to < 1000 gpm 000025 Loss of RHR System / 4 Ability to determine and interpret the following as they apply to the Loss of Residual Heat Removal System:

AA2.07 Pump cavitation

Proposed Answer: A Explanation (Optional):

A. Correct - With RCS NR Hot Leg Level at >1 inch, procedure direction is to reduce RHR flow within limit per Addendum 2 (1000 to 1500 qpm). This range should eliminate cavitation at the given level.

B. Incorrect

- This choice is not procedure based and would not help to correct the problem. C. Incorrect

- Starting an additional RHR pump when you have indications of cavitation would not be the correct action. Plus the procedure requires a level of

+6 inches prior to attempting a start or restart of an RHR Pump.

D. Incorrect

- Reducing RHR flow to < 1000 gpm would risk an RHR Pump trip on low flow. (925 gpm)

Technical Reference(s):

1. 0POP04

-RH-0001, Loss of Residual Heat Removal (Rev. 27)

(Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

Modified Bank #

B B50457-91901-01 Question History:

Last NRC Exam

None Question Cognitive Level:

Comprehension or Analysis Difficulty 2 10 CFR Part 55 Content:

(CFR: 41.10)

Comments:

Parent B50457

-91901-01 Requal Exam bank

The Unit is in Mode 5 in Mid Loop Operation.

RHR Pump 1A is in service with a flowrate of 3000 gpm.

At 10:00 a.m. the MAB RPO reports to the Control Room that the RHR pump 1A was making a loud and oscillating "swishing" noise when he was in the area.

The Primary RO then notices that RHR pump 1A amps are beginning to swing much more that normal, and RCS Hot Leg level is indicating (+1.5) inches.

The Unit Supervisor has announced entry into the Loss of Residual Heat Removal off normal procedure.

The next action the operators should take is to .....

A. reduce 1A RHR pump flow to < 1500 gpm B. decrease RCS temperature until the noise and amperage oscillation stop C. stop the 1A RHR Pump, and start the 1B RHR pump D. reduce 1A RHR pump flow until the noise and ampere oscillation stop Answer: A JUSTIFICATION:

MISCINFO:

A. Incorrect

- This choice is not procedure based and would not help to correct the problem.

B. Incorrect

- same as 'A' above.

C. Correct

- With RCS NR Hot Leg Level at -1 inches, procedure direction is to reduce RHR flow within limit per Addendum 2 (1500 qpm).

D. Incorrect

- This answer is similar to 'C' but, due to specific procedure direction, 'C' is a more correct choice.

REFERENCES

1. 0POP04

-RH-0001, Loss Of Residual Heat Removal (Rev. 7)

____________________________________________________

FILE ID: BE025010.HHB REV. 1 DATE: 09/05/95 TIME: 3 min.

New Author: Greg Chitwood

SYSTEM DESIGNATOR: RH KSA IMPORTANCE LESSON PLAN IDA NUMBERS NUMBER RO SRO NUMBER TASK# OBJ#

• • • • • • • • • • • • *** *** *********** ****** ******

1. 000025EA2.07 3.4 3.7 LOT504.57 A86700 A91901

2. 000025SG12 3.3 3.5

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000026 G2.2.4 Importance Rating

4.5 Question

4

Given the following conditions:

Rx Power is at 100% Rated Thermal Power CCW Surge tank level 63%

Annunciator CCW SURGE TANK Level Lo in A train CCW pump in operation B train CCW pump in Standby

Based on the above conditions the entry conditions for _____(1)______ are met and results in

____(2)_______ . A. (1) 0POP04-CC-0001 (Component Cooling Water Leak),

(2) AUTOMATIC closure "RCDT HX 1A(2A) INL MOV

-0392" (CCW to RCDT Hx isolation)

B. (1) 0POP04-CC-0001 (Component Cooling Water Leak) and 0POP04

-CV-0004 (Loss of Normal Letdown), (2) AUTOMATIC closure "LETDN ORIF HDR ISOL FV

-011" (Letdown Orifice Isolation Valve) C. (1) 0POP04-CC-0001 (Component Cooling Water Leak), (2) AUTOMATIC closure of "SUPPLY ISOL MOV 0768" (CCW Train A isol to charging pump header)

D. (1) 0POP04-CC-0001 (Component Cooling Water Leak) and 0POP04

-CV-0004 (Loss of Normal Letdown), (2) loss of the A train charging header.

000026 Loss of Component Cooling Water / 8 G2.4.4 Ability to recognize abnormal indications for systems operating parameters that are entry level conditions for emergency and abnormal operating

Proposed Answer:

A Explanation (Optional):

A. Correct, At 64.6% level on CCW Surge tank "RCDT HX 1A(2A) INL MOV

-0392" (CCW to RCDT Hx isolation)will automatically close 63% level indication on the CCW surge tank is below the required entry condition for 0POP04

-CC-0001 (Component Cooling Water Leak)

B. Incorrect, "LETDN ORIF HDR ISOL FV

-011" does not automatically isolate, it is manually isolated in the Component Cooling water leak procedure C. Incorrect, AUTOMATIC closure of "SUPPLY ISOL MOV 0768" (CCW Train A isol to charging pump header) does not happen until CCW surge tank level is below 61%

D. Incorrect, loss of letdown is not required until the orifice isolations are manually closed and CCP header A is not isolated until 61% on CCW surge tank Technical Reference(s):

0POP04-CC-0001 Rev 14, 0POP04-CV-0004 Rev 11 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

(As available)

Question Source:

New X 2393 Question History:

Last NRC Exam None Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

(CFR: 41.4)

Comments: This meets the K/A for loss of component cooling as component cooling is lost to several loads cooled by the CCW system.

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000027 AK 1.02 Importance Rating

2.8 Question

5

Given the following conditions on Unit 1 Initial Plant conditions:

100% reactor Power, normal plant operation RCS Pressure is 2205 psig Backup Heaters have been manually energized

With no further operator actions, what is the expected plant response?

A. RCS Pressure will rise until the PORV cycles to lower RCS pressure; PZR Level will be lower after the PORV cycles.

B. Backup heaters will turn off when one the spray valves open and cycle; PZR will remain within its normal level band.

C. Backup heaters will automatically cycle off prior to the spray valves opening; the PZR level will rise slightly.

D. Backup Heaters will remain on and the RCS pressure will be controlled at 2235 psig.

000027, Knowledge of the operational implications of the following concepts as they apply to Pressurizer Pressure Control Malfunctions:

AK1.02 Expansion of liquids as temperature increases RO2.8/SRO 3.1

Proposed Answer:

D Explanation (Optional):

A. Incorrect, RCS pressure will rise and then will lower once the spray valves open B. Incorrect, there is not interlock between turning off the backup heaters and the spray valves opening but the PZR will remain in its normal operating band C. Incorrect, if the heaters were in automatic this would be a correct response, but with the heaters in manual they would not secure.

D. Correct, this is the alignment that is used when equalizing the boron between the pressurizer and the RCS.

Technical Reference(s):

0POP04-RP-0001, Loss of Automatic Pressurizer Pressure Control (Attach if not previously provided)

(Including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

(As available)

Question Source:

New 2394 X Question History:

Last NRC Exam Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.8, 55.41.10 55.45.3 Comments:

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000029 EK 2.06 Importance Rating

2.9 Question

6 An operator action of 0POP05

-EO-FRS1, Response to Nuclear Power Generation

- ATWS, is to "Ensure 480V LC 1K1 (2K1) and 1L1 (2L1) feeder breakers open".

This step will de

-energize power to the Rod Drive MG Set:

A. Motors, Opening only one of the breakers should be sufficient to cause a reactor trip.

B. Motors, Both breakers must be opened to cause a reactor trip.

C. By Opening Load Center breaker to Rod Drive Motor

-Generator #1 and #2, Opening only ONE of the breakers should be sufficient to cause a reactor trip.

D. By Opening Load Center breaker to Rod Drive Motor

-Generator #1 and #2, BOTH breakers must be opened to cause a reactor trip.

Knowledge of the interrelations between the, and the following an ATWS:

EK2.06 Breakers, relays, and disconnects

Proposed Answer:

B Explanation (Optional):

A. Incorrect, while opening the 480 volt breakers will de

-energize the motor it requires both breakers to be opened to cause the Rods to trip.

B. Correct C. Incorrect, opening the 480 volt breakers interrupts power to the Motor and the Load center Breakers will lose power but will not open due to this step they may open due to under voltage condition D. Incorrect, opening the 480 volt breakers interrupts power to the Motor.

Technical Reference(s):

0POP05-EO-FRS1 rev 17, Response to Nuclear Power Generation

- ATWS (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

(As available)

Question Source:

Bank # 1577 Question History:

Last NRC Exam Not used Question Cognitive Level:

Comprehension or Analysis Difficulty 2 10 CFR Part 55 Content:

55.41.6 Comments: Distractors C and D in parent were not credible due to the generators do not have feeder breakers

Bank 1577 An operator action of 0POP05

-EO-FRS1, Response to Nuclear Power Generation

- ATWS, is to "Ensure 480V LC 1K1 (2K1) and 1L1 (2L1) feeder breakers open".

This step will de

-energize power to the Rod Drive MG Set:

A. motors. Opening only one of the breakers should be sufficient to cause a reactor trip.

B. motors. Both breakers must be opened to cause a reactor trip.

C. generators. Opening only one of the breakers should be sufficient to cause a reactor trip.

D. generators. Both breakers must be opened to cause a reactor trip.

Answer B Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000038 EK3.02 Importance Rating

4.4 Question

7 The control room operators are responding to the symptom of a SGTR, Control Board indications indicate that the 1D SG is the affected SG.

Step 3 of 0POP05

-EO-EO30, Steam Generator Tube Rupture states: ADJUST ruptured SG(s) PORV controller setpoint to BETWEEN 1260 PSIG AND 1265 PSIG.

1D Steam Generator is now reading ~ 1260 psig The PORV setpoint lowered to between 1260 and 1265 psig on the affected SG to -..

A. Stabilize the ruptured SG pressure and level to prevent an uncontrolled cooldown of the RCS. B. Prevent steam generator overpressure due to overfilling of the ruptured steam generator. C. Prevent an unmonitored release by keeping the PORV from lifting

. D. Minimize atmospheric releases.

Knowledge of the reasons for the following responses as the y apply to the SGTR

EK3.02 Prevention of secondary PORV cycling Proposed Answer:

D Explanation (Optional):

A. Incorrect, Lowering the set point would not prevent an uncontrolled RCS cooldown of the RCS, Plausible because if the there were no other SG's available feeding a intact SG with a tube rupture is a possible procedure flow path.

B. Incorrect, There is no indication in the stem that the affected SG is overfilled, Plasuable because feeding a SG with a tube rupture that is faulted can lead to an uncontrolled cooldown. C. Incorrect, If the PORV did lift the release would be monitored D. Correct Technical Reference(s):

0POP05-EO-EO30, Steam Generator Tube Rupture LP 504.15. Rev 10 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

LOT504.15, Objective: 92408 Question Source:

New X Question History:

Last NRC Exam Question Cognitive Level:

Memory or Fundamental Knowledge Difficulty 2

10 CFR Part 55 Content:

55.41.5, 55.41.10 55.43.6, 55.43.13 Comments:

From E-3 Background document for step 3 of 0POP05-EO-EO30 Isolation of the ruptured steam generator(s) effectively minimizes release of radioactivity from this generator. In addition, isolation is necessary to establish a pressure differential between the ruptured and non

-ruptured steam generators in order to cool the RCS and stop primary to secondary leakage.

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000040 AA1.15 Importance Rating

3.9 Question

8 Consider a Main Steam Line Break and its associated cooldown.

Which of the following sets of initial plant conditions would result in the GREATEST challenge to Shutdown Margin?

Rx PWR (%)

Tavg ( F) Burnup (MWD/MTU) A. 100 592 18,500 B. 0 567 18,500 C. 100 592 150 D. 0 567 150 000040 (W/E12) Steam Line Rupture

- Excessive Heat Transfer / 4 Ability to operate and / or monitor the following as they apply to the Steam Line Rupture: AA1.15 T-ave. protection indicators

Proposed Answer:

B Explanation (Optional):

A conservative analysis of the potential consequences of an excessive increase in secondary steam flow incident includes the following conservative assumptions.

EOL no-load value for the Shutdown margin Moderator Temperature Coefficient

Technical Reference(s):

LOT501.16, R1, UFSAR Figure 15.1

-11 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

(As available)

Question Source: Bank # NRC 214 Question History:

Last NRC Exam N/A used on Audit (2001)

Question Cognitive Level:

Memory or Fundamental Knowledge Difficulty 2 10 CFR Part 55 Content:

55.41.5 Comments: No changes were made to the parent question

Major Steam Line Break (continued)

Types of Accidents Analyzed The following cases have been analyzed in determining the core power and RCS transients:

Complete severance of a pipe, with the plant initially at no

-load conditions, full reactor coolant flow and offsite power available.

The previous case with loss of offsite power (LOOP) simultaneous with the steam line break and initiation of the SI signal.

LOOP results in reactor coolant pump (RCP) coastdown.

Since the SGs are provided with integral flow restrictors with a 1.4 ft 2 throat area, any rupture with a break area greater than 1.4 ft 2, regardless of location, would have the same effect on the NSSS as the 1.4 ft 2 break. Assumptions UFSAR Figure 15.1

-11 Assumptions used in the analysis are shown below.

Assumption Description Initial/Nominal Conditions Initial reactor power, Tave, and RCS pressure are assumed to be at their hot

-shutdown nominal values.

The reactor is shutdown with all rods inserted except for the most reactive RCCA which is stuck in the full out position.

Limiting Parameters A conservative analysis of the potential consequences of an excessive increase in secondary steam flow incident includes the following conservative assumptions.

EOL no-load value for the Shutdown margin Moderator Temperature Coefficient Note: UFSAR Figure 15.1

-11 shows the expected Keff responses for the temperature and pressure effects on the moderator temperature coefficient.

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000054 AA 2.03 Importance Rating

4.1 Question

9 Given the following plant Conditions:

Rx Startup in progress Rx Power 4%

The Crew has just completed Addendum 10, Transferring Feed for AFW to MFW of 0POP03

-ZG-005 Plant Startup to 100

%. SGFP-14 Startup Feed Pump is the only SGFP operating at this time Subsequently:

SGFP-14 trips for an unknown reason.

What is the INITIAL status of the AFW system?

A. AFW pumps running due to a AMSAC actuation signal

. B. AFW pump running due to an immediate automatic Reactor Trip signal

. C. AFW pumps are in standby and will start when the second Steam Generator meets the 2 of 4 logic for 20% level.

D. AFW pumps are in standby and will start when the First Steam Generator meets the 2 of 4 logic for 20% level. 000054 Loss of Main Feedwater / 4 Ability to determine and interpret the following as they apply to the Loss of Main Feedwater (MFW):

AA2.03 Conditions and reasons for AFW pump startup

Proposed Answer:

D Explanation (Optional):

A. Incorrect but plausible, AMSAC initiated by 3 of 4 SG NR level < 15% [ channels III and IV - LT-518, 528, 537, & 547] when armed by 2 of 2 turbine high load (PT505 and 506) signals (~ 224 psig or ~ 30% turbine power) (corresponding to 40% Reactor power)

B. Incorrect but Plausible, Loss of all feed does not automatically start the AFW system and there is no immediate reactor trip.

C. Incorrect but plausible, AFW is auto started when the first SG reaches meets the 2 of 4 logic for Lo Lo level of 20% not the second D. Correct Technical Reference(s):

0POP03-ZG-005 Plant Startup to 100%., LOT202.01.HO1 Rev. 10 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

(As available)

Question Source:

New 2397 X Question History:

Last NRC Exam Question Cognitive Level:

Comprehension or Analysis Difficulty 3

10 CFR Part 55 Content:

55.41.4 Comments: Copied from LOT202.01.HO1 Rev. 10 Trip Setpoints The direct trip setpoints applicable to the Steam Generator are for LO

-LO level and HI

-HI level. These setpoints are 20% for LO

-LO level and 87.5% for HI

-HI level.

The LO-LO level setpoint provides a reactor trip and a Auxiliary Feedwater actuation signal for this level indication. The circuitry logic is (2/4) on any Steam Generator. The purposes of this trip and actuation is to protect the heat sink for the reactor, and prevent uncovering the S/G tubes (prevent thermal shock to the tubes).

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 055 G 2.4.1 Importance Rating

4.6 Question

10 Unit 2 has experinced a Reactor Trip. The Primary RO is performing the Immediate Actions of 0POP05-EO-EO00, Reactor Trip or Safety Injection. Steps 1 and 2 have been performed SAT and the following conditions exist for Step 3:

4.16KV ESF busses are NOT energized 480V ESF LC's are NOT energized 480V ESF MCC's are NOT energized No Emergency Diesel Generators are running

Which of the following is the next correct action for the Primary RO to perform of the Immediate actions of 0POP05

-EO-EO00, Reactor Trip or Safety Injection?

A. RESTORE power to all AC ESF busses prior to continuing in 0POP05

-EO-EO00, REACTOR TRIP OR SAFETY INJECTION B. Immediately go to 0POP05

-EO-EC01, LOSS OF ALL AC POWER RECOVERY WITHOUT SI REQUIRED, This procedure will establish natural circulation and attempt to recover the AC ESF busses.

C. RESTORE power to at least one AC ESF bus by EMERGENCY STARTING STBY DG then continue with remaining Immediate actions of 0POP05

-EO-EO00. D. Immediately go to 0POP05

-EO-EC00, LOSS OF ALL AC POWER This procedure will attempt to restore power to the AC ESF busses.

000055 Station Blackout / 6 Knowledge of the operational implications of the following concepts as they apply to the Station Blackout

2.4.1 Knowledge

of EOP entry conditions and immediate action steps

Proposed Answer:

C Explanation (Optional):

A. Incorrect, It is not necessary to restore all AC ESF busses prior to continuing with the Immediate actions of 0POP05

-EO-EO00. This is plausible because the applicant may misunderstand the step that directs the operator to restore power to at least one AC ESF bus and restoring power to both would be optimal.

B. Incorrect, there is no immediate transfer to 0POP05

-EO-EC01, The distractor is plausible because the applicant may eventually get to this procedure after transfer to 0POP05-EO-EC00 if power was not able to be restored C. Correct, Immediate action step 3 Response not obtained step a of 0POP05

-EO-0000 requires this action.

D. Incorrect, The applicant would go to this procedure if Immediate action step 3 Response not obtained step a of 0POP05

-EO-0000 is not successful in starting the STBY DG.

Technical Reference(s):

OPOP05-EO-0000 Rev 23 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

(As available)

Question Source:

New 2398 X Question History:

Last NRC Exam None Question Cognitive Level:

Comprehension or Analysis Difficulty 3

10 CFR Part 55 Content:

55.43.5, 55.41.10 55.45.13 Comments:

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 1 K/A # 000056 AA1.06 Importance Rating

3.6 Question

11 Given the following plant conditions:

The plant was at full power when a loss of offsite power occurs Pressurizer pressure is 1850 psig Containment Pressure is 8 psig Offsite power has not been restored Emergency Diesels have just received there start signal

For the above conditions, which one of the following actions will automatically occur?

A. HHSI pumps start 11 seconds after the Emergency Diesels have received there start signal B. HHSI pumps start 7 seconds after ESF Busses are energized

C. HHSI pumps start ~ 17 seconds after the ESF busses are re

-energized D. HHSI pumps start 6 seconds after the Emergency Diesel generators receive there start signal 000056 Loss of Off

-site Power / 6 Ability to operate and / or monitor the following as they apply to

the Loss of Offsite Power:

AA1.06 Safety injection pump

Proposed Answer:

B Explanation (Optional):

A. Incorrect, with a loss of offsite power all loads on the ESF busses will load shed and the diesel generator will re

-energize the bus within ~10 seconds of the actuation. Mode III load sequence will begin 1 second after the diesel generator breakers have closed in repowering the bus. The HHSI pumps will start ~ 6 seconds later B. Correct, once the ESF bus is re

-energized there is a 1 second delay for the mode III sequence to begin and the HHSI pumps will start 6 seconds later or 7 seconds after the ESF bus is re

-energized.

C. Incorrect, once the ESF busses are energized (takes 10 seconds) an additional one second mode III sequence occurs and then the HHSI pumps will start in 6 seconds, (Total of 17 seconds to start the HHSU pumps from the time that the Emergency Diesels receive the start signal to re

-energize the bus)

D. Incorrect, this is plausible because there is a 6 second delay after the mode III sequence has started to start the HHSI pumps, however the 6 seconds is after the bus has been

re-energized and the mode III load sequence has started.

Technical Reference(s):

LOT201.22 Rev. 15 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New X Question History:

Last NRC Exam Question Cognitive Level:

Memory or Fundamental Knowledge Difficulty 2

10 CFR Part 55 Content:

55.41.7 55.45.6, 55.45.5 Comments:

1.ESF Actuation

1.1 Electrical

Power Distribution

1.1.1 Normal

Operations A. Electrical power normally supplied from main turbine through auxiliary transformers via 3 separate, redundant ESF power trains. B. Protected vital power supplied from:

1. Preferred Power

- One or more circuits from the off

-site transmission network.

2. Standby Power

- 3 electrically and mechanically separate emergency diesel generators.

3. Diesel generators designed to accept a sequential loading of all assigned ESF equipment within 10 sec. after receipt of an SI actuation signal.

1.1.2 ESF loading sequence: SI coincident with site blackout, Mode III A. All equipment operation on vital buses is terminated on loss of power by load shed signal.

B. Diesel generators start and connect to the vital buses within 10 seconds; vital power restored.

C. ESF loading sequence commences on DG breaker(s) closure. D. Mode III sequence is the same as Mode I after the load center breakers are sequenced on at 1 second.

Mode III - Safety Injection and Loss of Offsite Power Times given are times after DG output breaker has closed.

Equipment Time A. 480 VAC Busses 1 sec B. HHSI pump 6 sec C LHSI pump 10 sec D. Cnmt spray pump

• 15 sec E. RCFCs 15 sec F. CCW pump 20 sec G. ECW pump 25 sec H. AFW pump 30 sec I. CR HVAC 35 sec J. Ess. Chilled water pump 35 sec K. Cnmt spray pump

• 40 sec L. Ess. Chiller 240 sec Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 1 K/A # 000057 AK3.01 Importance Rating

4.1 Question

12 Given the following:

Unit 1 is performing a Mode 3 cooldown RCS is at 520 F and 1800 psig A loss of power occurs on 120 VAC vital distribution panel DP

- 1201 The crew enters 0POP04

-VA-0001, Loss of 120 VAC Class Vital Distribution A Plant Operator is directed to locally open the 1A SG PORV for temperature control

0POP04-VA-0001, cautions the Plant Operator to NOT open the SG PORV more than 50%.

Which ONE of the following is the reason for this caution?

A. Prevent excessive cooldown with limited RCS instrumentation available.

B. Minimize the mass loss out of the 1A SG with limited AFW capability.

C. Ensure the ability to reclose the 1A SG PORV following opening.

D. Limit the amount of positive reactivity due to cooldown.

000057 Loss of Vital AC Inst. Bus / 6 Knowledge of the reasons for the following responses as they apply to

the Loss of Vital AC Instrument Bus:

AK3.01 Actions contained in EOP for loss of vital ac electrical instrument bus

Proposed Answer:

C Explanation (Optional):

A. INCORRECT

- Not the correct basis for the SG PORV stroke limit. Some RCS instrumentation will be de

-energized, but not to the extent that monitoring capabilities will be jeopardized.

B. INCORRECT

- Not the correct basis for the SG PORV stroke limit. Automatic control of the AFW regulating valve will be lost, but manual control is still available.

C. CORRECT - This is the correct basis for the SG PORV stroke limit. There is only sufficient stored energy in the SG PORV accumulators for only one and one half full strokes of the valve. The caution limits the stroke of the SG PORV to ensure that the valve can be closed.

D. INCORRECT

- Not the correct basis for the SG PORV stroke limit. A low steam line pressure SI exists, but under the given conditions it would have already been blocked by procedure.

Technical Reference(s): 0POP04

-VA-0001 Rev 30, Addendum 9 Caution Step 1 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

92109 Question Source:

Bank NRC 28 (Note changes or attach parent)

Question History:

Last NRC Exam 1999 Question Cognitive Level:

Comprehension or Analysis Difficulty 3

10 CFR Part 55 Content:

55.41.5, 55.41.10 55.45.6, 55.45.13 Comments: Changed distractor D from (Avoid an inadvertent safety injection actuation on low steam line pressure) because it was not credible as the SI signal would have already been blocked by procedure

Note from 0POP4

-VA-0001 Rev 30 appendix 9 NOTE There is sufficient stored energy in the PORV hydraulic unit accumulators for only one and one half strokes. SG PORVs should NOT be opened GREATER THAN 50%.

IF the SG PORV was open and power is lost to hydraulic pump, THEN the amount of available stroke is reduced and the SG PORV available stroke COULD be limited to only one half stroke.

NRC Bank Question 28 Given the following:

Unit 1 is performing a Mode 3 cooldown RCS is at 520 F and 1800 psig A loss of power occurs on 120 VAC vital distribution panel DP

-001 The crew enters 0POP04

-V A-0001, Loss of 120 VAC Class Vital Distribution A Plant Operator is directed to locally open the 1A SG PORV for temperature control 0POP04-VA-0001, cautions the Plant Operator to NOT open the SG PORV more than 50%.

Which ONE of the following is the reason for this caution?

A. Prevent excessive cooldown with limited RCS instrumentation available.

B. Minimize the mass loss out of the 1A SG with limited AFW capability.

C. Ensure the ability to reclose the 1A SG PORV following opening.

D. Avoid an inadvertent safety injection actuation on low steam line pressure.

Examination Outline Cross

-

Reference:

Level RO SRO Tier # 1 Group # 1 K/A # 000058 AK3.02 Importance Rating 4.0 4.2 Question 13 An electrical fault has occurred on Unit 1 that de

-energized Train A Class 1E 125 VDC Power.

OP0P04-DJ-001, Loss of Class 1E 125 VDC Power, Addendum 1 is in progress. Step 7 reads as follows:

What is the reason for placing the control switches in the required positions?

A. This action immediately re

-positions the components to their normal shutdown position after they repositioned due to the loss of the bus.

B. This action re

-positions the components to their normal operating alignment when power is restored.

C. This action will ensure the components will not inadvertently reposition when power is restored. D. This action will ensure that the components will reposition to their normal shutdown alignment when power is restored.

000058 Loss of DC Power / 6 Knowledge of the reasons for the following responses as they apply to

the Loss of DC Power:

AK3.02 Actions contained in EOP for loss of dc power

Proposed Answer:

C Explanation (Optional):

A. Incorrect, there is no power to the relay racks and the valves will not reposition B. Incorrect, This is not the normal operating position for these components C. CORRECT per the Note in Addendum 1 just prior to step 7 OP0P04-DJ-001, Loss Of Class 1E 125 VDC Power, Addendum 1 D. Incorrect, the intent is to not allow the components to reposition when power is restored Technical Reference(s): OP0P04-DJ-001, Loss Of Class 1E 125 VDC Power, Addendum 1, Note on page 17 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

Question Source:

New X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.5, 55.41.10 55.45.1, 55.45.6 Comments: OP0P04-DJ-001, Loss Of Class 1E 125 VDC Power, Addendum 1, Note on page 17

Examination Outline Cross-

Reference:

Level RO Tier # 1 Group # 1 K/A # 000062 AA2.01 Importance Rating

2.9 Question14

Unit 1 is operating at 100% power when a leak develops in the Component Cooling Water System. 0POP04

-CC-0001, Loss of Component Cooling Water, is entered.

Level in the CCW surge tank is 63% and decreasing slowly.

Which of the following components is a potential source of the leak?

A. Letdown Heat Exchanger (Hx)

B. Reactor Coolant Pump 1C motor air cooler C. Reactor Coolant Drain Tank Hx D. Excess Letdown Hx

000062 Loss of Nuclear Svc Water / 4 Ability to determine and interpret the following as they apply to the Loss of Nuclear Service Water (SWS):

AA2.01 Location of leak in the SWS Proposed Answer:

B Explanation (Optional):

A. Incorrect; CCW to the Letdown Hx is isolated on the first level isolation (@64.6%)

B. Correct; CCW to and from all the RCPs is isolated on the second level isolation (@61.5%), which has not been reached yet.

C. Incorrect; CCW to the RCDT Hx is isolated on the first level isolation (@64.6%)

D. Incorrect; CCW to the Excess Letdown Hx is isolated on the first level isolation (@64.6%) Technical Reference(s): 0POP04

-CC-0001, Rev 3, step 1; 9F05017, Rev 19; 9F05020, Rev 16; 9F05021, Rev 12 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

Bank # NRC 1 Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3

10 CFR Part 55 Content:

55.41.4 55.45.13 Comments: Parent:

Unit 1 is operating at 100% power when a leak develops in the Component Cooling Water System. 0POP04

-CC-0001, Loss of Component Cooling Water, is entere

d. Level in the CCW surge tank is 63% and decreasing slowl

y. Which ONE of the following components is a potential source of the leak?

A. Letdown Heat Exchanger (Hx)

B. Reactor Coolant Pump 1C motor air cooler C. Reactor Coolant Drain Tank Hx D. Excess Letdown Hx Correct answer B From Addendum 1 of 0POP4

-CC-0001 Rev 15

1. WHEN CCW Surge Tank level is less than 64.6%, THEN the following valves will automatically close:

"NNS LOADS INL ISOL MOV

-0235" (CCW to common supply header isolation)

"NNS LOADS INL ISOL MOV

-0236" (CCW to common supply header isolation)

"BRANCH ISOL MOV

-0297" (CCW to RCDT Hx and Excess LD Hx isolation)

"RCDT HX 1A(2A) INL MOV

-0392" (CCW to RCDT Hx isolation)

"EXCESS LETDOWN HX 1A(2A) INL MOV

-0393" (CCW to Excess LD isol)

2. WHEN CCW Surge Tank level is less than 61.5%, THEN the following valves will automatically close:

Charging System Components "SUPPLY ISOL MOV

-0768"(CCW Train A isol to charging pump header)

"RET ISOL MOV

-0772"(CCW return header isolation from charging pumps to Train A)

"SUPPLY X-CONN FV-4656"(CCW to charging pump A crosstie)

"RETURN X-CONN FV-4657"(CCW return from charging pump A crosstie)

Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 1 K/A # W/E04 2.1.28 Importance Rating

3.2 Question15

Given the following:

Unit 1 is in Mode 3 RCS pressure 800 psig Pressurizer level is lowering rapidly Containment sump levels are NOT rising The CRS has entered 0POP04-RC-0006, Shutdown LOCA. One major action accomplished by this procedure is to

____(1)____ in order to

_____(2)______. A. (1) Isolate letdown, (2) protect the Reactor Core B. (1) Maintain Pressurizer level, (2) Minimize the amount of contaminated water generated C. (1) Secure RCP's, (2) prevent damaging the motors.

D. (1) Stabilize RCS temperature and pressure, (2) Prepare for an orderly cooldown in accordance with the normal operating procedures.

W/E04 LOCA Outside Containment / 3 2.1.28 Knowledge of the purpose and function of major system components and controls.

Proposed Answer:

A Explanation (Optional):

A. Correct, Listed in 0POP04-RC-0006 , Shutdown LOCA Rev 15 B. Incorrect, while minimizing waste is a good thing it is not the concern here C. Incorrect, RCP operation would be secured based on possible damage to the RCP seals. Credible because the student might believe that any containment isolation could involve CCW to the RCPs.

D. Incorrect, stabilization for transfer to Normal Operating procedures is not the correct course; the off normal procedure directs the cooldown.

Technical Reference(s):

0POP04-RC-0006 , Shutdown LOCA Rev 17 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New 2401 X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.10 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 1 K/A # W/E11 EK1.1 Importance Rating

3.7 Question16

A large break loss of coolant accident has occurred in Unit 2.

The following conditions exist:

RWST level is 32,500 gallons (6%) and lowering.

HHSI pumps have power available LHSI pumps have power available HHSI mini flow valves have power indication LHSI mini flow valves have power indication RWST to SI suction header has power indication Cold leg injection valves have power available Containment sump to SI suction header valves have no light indication Attempts made to regain power to the Containment Sump SI suction Header valves have NOT been successful Per Procedure 0POP05

-E0-EC11 Loss of Emergency Coolant Recirculation what actions should be taken?

A. The HHSI and LHSI pumps should be throttled and makeup to the RWST should be initiated.

B. Secure all but HHSI and LHSI pump and continue to use the remaining volume of the RWST. C. The HHSI and LHSI pumps are required to be secured until RWST level is restored to > 32,500 gallons (6%) then restarted.

D. The HHSI and LHSI pumps are to be placed in pull to lock and makeup from the VCT via a CCP should be used for inventory makeup until recirculation can be established or directed by TSC.

W/E11 Loss of Emergency Coolant Recirc. / 4 Knowledge of the operational implications of the following concepts as they apply to the (Loss of Emergency Coolant Recirculation)

EK1.1 Components, capacity, and function of emergency systems.

Proposed Answer:

D Explanation (Optional):

A. Incorrect, while it seems reasonable to add water to the RWST there is no procedural guidance to commence makeup to the RWST in this situation B. Incorrect, there is no procedural guidance to perform this action, the 6% level directs you to secure feeding from the RWST.

C. Incorrect, 6% RWST level is the required level to stop the pumps that are taking suctio n

on the RWST but there is no procedural guidance to restart the pumps after level has been raised to > 6%, this action would be directed from the TSC D. Correct, per 0POP05

-E0-EC11 Loss of Emergency Coolant Recirculation, steps 29 and 30 direct the operator to place the pumps taking suction on the RWST in Pull to Lock and initiate charging from the VCT and make adds to that tank to maintain level > 3% to prevent auto swap over to the RWST Technical Reference(s):

0POP05-E0-EC11 Rev 18, loss of emergency coolant recirculation (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

(As available)

Question Source:

New 2402 X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.8, 55.41.10 55.45.3 Comments:

Reference Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 1 K/A # W/E05 EK2.2 Importance Rating

3.9 Question

17 The following plant conditions exist:

Unit 1 reactor trip and SI have occurred.

ALL SG levels are BELOW the narrow range.

1B AFW pump is OOS.

Due to other AFW malfunctions, total AFW flow AVAILABLE is 350 gpm.

Which ONE of the following statements describes the basis for stopping the RCPs under these conditions?

A. Reduces reactor coolant inventory loss by reducing seal leak off.

B. Minimizes the possibility of a tube rupture as cooler AFW is injecting into the SGs.

C. Conserves SG secondary inventory by reducing heat input to the RCS.

D. Minimizes the time for the PORV to open and establish Feed and Bleed Cooling.

W/E05 Inadequate Heat Transfer

- Loss of Secondary Heat Sink / 4 Knowledge of the interrelations between the (Loss of Secondary Heat Sink) and the following:

EK2.2 Facility's heat removal systems, including primary coolant, emergency coolant, the decay heat removal systems, and relations between the proper operation of these systems to the operation of the facility.

Proposed Answer:

C Explanation (Optional):

A. Incorrect, securing the RCPs will not conserve inventory by reducing leak off B. Incorrect, This is not a reason for securing the RCP's having cold water impact with a dry SG is a concern but not for the step given C. Correct D. Incorrect, the purpose of securing the RCP's early in the procedure is to extend the time available to the operators to recover feedwater and not have to enter feed and bleed cooling Technical Reference(s):

FR-H.1 Background Document, 148

-00044QG Rev D (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

Learning Objective:

(As available)

Question Source: Bank NRC 787 (Note changes or attach parent)

Question History:

Last NRC Exam From NRC exam Bank not previously used

Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.14 Comments:

Reference:

Parent NRC 787 The following plant conditions exist:

Unit 1 reactor trip and SI have occurred.

ALL SG levels are BELOW the narrow range.

1B AFW pump is OOS.

Total AFW flow AVAILABLE is 350 gpm Which ONE of the following statements describes the basis for stopping the RCPs under these conditions?

A. Reduces reactor coolant inventory loss by reducing seal leak off.

B. Conserves SG secondary inventory by reducing heat input to the RCS.

C. Minimizes the possibility of a tube rupture as AFW is restored to the SGs.

D. Increases safety injection flow by decreasing RCS cold leg pressure.

Proposed Answer:

B

Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 1 K/A # 000077 AK2.0.1 Importance Rating

3.1 Question

18

A major power outage has occurred in South Texas, Several power plants have tripped off line and switchyard voltage has lowered due to the ongoing Electric Grid Disturbance.

Load Tap Changers have failed to bring voltage back to normal in the Unit.

Unit 1 experiences a Reactor Trip due to a Large Break Loss of Coolant Accident.

All required ECCS components started as designed.

The Emergency Diesels are not connected to any bus Compared to starting at normal grid voltage the current used by ECCS pumps is __________ and the potential for Pump Motor damages is more likely due to __________.

A. Lower, Slower start times resulting in bearing damage B. Lower, Higher Temperatures in the motor windings C. Higher, Faster start times resulting in bearing damage D. Higher, Higher Temperatures in motor windings 000077 Generator Voltage and Electric Grid Disturbances / 6 Knowledge of the interrelations between Generator Voltage and Electric Grid Disturbances and the following:

AK 2.0 1 Motors

Proposed Answer:

D Explanation (Optional):

Lower voltage results in higher current flow to operate motors Power = Voltage

• Current therefore with the power of the pumps remaining the same and a lower voltage the current will need to be higher The R of the Motor is constant, the heat generated in the motor will go up based on the I^2R losses. This higher level of heat is more likely to break down the insulation in the motor windings.

This concept makes D the only correct choice for the given conditions Technical Reference(s): 0POP04

-AE-0005, Offsite Power System Degraded Voltage REV 9 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New 2403 X Question History: Last NRC Exam N/A Question Cognitive Level:

Memory or Fundamental Knowledge Difficulty 2 10 CFR Part 55 Content:

55.41.4, 55.41.5, 55.41.7, 55.41.10 55.45.8 Comments:

Reference:

Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 2 K/A # 000033 AK3.02 Importance Rating

3.6 Question19

A reactor startup is in progress and power is being escalated to place the turbine on line.

Reactor Power is indicating 0% when NI

-35 fails low off scale

With NI-35 failed low off scale the power escalation should be

____________

. A. Stopped below 10% power until NI

-35 is restored to perform a channel check between the IR and the PR Nuclear instruments B. Stopped and the reactor should be shut down until NI

-35 is returned to operable status C. Continued as the PR instruments are on scale and you have good indication of reactor power. D. Continued until reactor power is at 15% and then perform a channel check with the remaining intermediate range NI 000033 Loss of Intermediate Range NI / 7 Knowledge of the reasons for the following responses as they apply to the Loss of Intermediate Range Nuclear Instrumentation:

AK3.02 Guidance contained in EOP for Proposed Answer:

A Explanation (Optional):

A. Correct 0POP04-NI-0001, Nuclear Instrument Malfunctions addendum 2 step 3 directs the not to exceed 10% power until the inoperable channel is restored.

B. Incorrect, there is no requirement to trip unless the IR instrument has failed high C. Incorrect, this violates the requirements of 0POP04

-NI-001 D. Incorrect, there is no guidance to perform a channel check with only one IR instrument.

Technical Reference(s):

0POP04-NI-0001, Nuclear Instrument Malfunctions (Attach if not previously provided) (including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3

10 CFR Part 55 Content:

55.41.5, 55.41.10 55.45.6, 55.45.13 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 2 K/A # 000036 AA1.03 Importance Rating

3.5 Question

20 Unit 2 is performing a core reload at the end of a refueling outage when a malfunction of the fuel bridge occurs allowing a fuel bundle to drop on top of several previously installed fuel assemblies.

The fuel bridge operator notices a large quantity of bubbles coming up from the area where the fuel assembly has landed. The fuel bridge radiation monitor is in alarm and the bridge operators have notified the control room.

The following radiation monitors are in HIGH alarm:

RT-8011 RCB Atmosphere RT-8012 RCB Purge Ventilation Monitor RT-8013 RCB Purge Ventilation Monitor RT-8099 Refueling Machine Area Monitor As a control room operator the containment evacuation alarm will (1) and the containment purge system (2).

A. Automatically sound due to RT

-8011 in HIGH alarm, should have isolated based on a Containment Ventilation Isolation signal from RT

-8099 and either RT

-8012 or RT

-8013. B. Need to be manually actuated due to RT

-8011 in high alarm, should have isolated based on a Containment Ventilation Isolation signal from RT

-8012 and RT

-8013. C. Automatically sound due to RT

-8099 in high alarm, will remain running as the purge system is needed to mitigate the alarming condition.

D. Need to be manually actuated due to RT

-8012 and RT

-8013 in HIGH alarm, will need to be manually secured in response to alarming Radiation monitors RT

-8012 and RT

-8013. 000036 (BW/A08) Fuel Handling Accident

/ 8 Ability to operate and / or monitor the following as they apply to the Fuel Handling Incidents:

AA1.03 Reactor building containment evacuation alarm enable switch.

Proposed Answer:

B Explanation (Optional):

A. Incorrect, Containment Evacuation Alarm must be Initiated per 0POP04

-RA-001, Containment Ventilation Isolation signal is derived from RT

-8012 and RT

-8013 not RT

-8099. B. Correct, 0POP04

-RA-001 requires you to initiate the reactor building evacuation alarm and Containment Building Ventilation System RT-8012 & 8013

-High radiation in the RCB Purge System Exhaust sends a signal to the Solid State Protection System (SSPS) for Containment Ventilation Isolation (CVI).

C. Incorrect, Alarm does not automatically sound D. Incorrect, Containment Building Ventilation System RT-8012 & 8013

-High radiation in the RCB Purge System Exhaust sends a signal to the Solid State Protection System (SSPS) for Containment Ventilation Isolation (CVI).

Technical Reference(s):

0POP04-RA-0001, Radiation Monitoring System Alarm Response (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.11 Comments:

References from 0POP04

-RA-0001, Radiation Monitoring System Alarm Response

Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 2 K/A # 000037 AA1.06 Importance Rating

3.8 Question

21 The control room has the following indication at 100% power RT-8130B, Primary to Secondary Leak Rate Monitor, indicates a leak rate of 2000 gpd The actions for a steam generator tube leak have been completed and the plant has been shut down for 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and is cooling down on the intact steam generators preparing to transition to RHR. Based on the above plant conditions what should the reading for RT

-8130B, Primary to Secondary Leak Rate Monitor be?

A. Higher, with the unit off line the steam is not flowing as fast past the monitors radiation is exposed to the monitor for a longer period of time making the indications read higher B. Lower, with the unit off line there is not as many radioactive particles in the steam and the monitor will be reading lower C. Higher, as time has passed the contamination in the main steam line has risen making the monitor read higher D. Lower, with the reactor shutdown the production of N

-16 has stopped and the monitor will read lower.

000037 Steam Generator Tube Leak / 3 Ability to operate and / or monitor the following as they apply to the Steam Generator Tube Leak:

AA1.06 Main steam line rad monitor meters Proposed Answer:

D Explanation (Optional):

A. Incorrect, the monitor is a N

-16 monitor and without the reactor operating N

-16 population will not be present 60 min after shutdown B. Incorrect, this monitor reads N

-16 and will be affected by the N

-16 radiation, not radioactive particles C. Incorrect, the contamination of the steam lines will not result in a higher reading D. Correct, RT

-8130 is the N

-16 monitor and with the reactor shut down the production of N-16 has lowered significantly (~0) and the N

-16 that was present while at power has decayed away.

Technical Reference(s): LOT202.02.HO.01 Rev.10, LOT202.41H0.01 Rev.15 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New 2406 X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3

10 CFR Part 55 Content:

55.41.7 55.45.5 55.45.6 Comments:

References:

N 16 Radiation monitors (RT

-8130, 8131, 8132, 8133) are installed to monitor primary to secondary leakage.

Detector enclosed in SS sleeve and placed on top of each steam line above the non

-1E chillers.

N 16 Processing Unit Cabinet (ZLP

-950) located just inside Cold Chemistry Lab (TGB 29').

Part of Gen

-Aid System (enhanced main generator monitoring).

Steam generator leakage monitoring screens assessable from ICS (Integrated Computer and Gen

-Aid Computers.

The processing unit uses a steam generator specific algorithm to calculate and display the activity linked to the N

-16 measurement window, that is the photons striking the detector with between 4.5 Mev and 7 Mev of energy. This calculation is weighted by a reactor power value (0% to 120%). The final value produced by the processor is gallons per day of primary to secondary leakage. The processing unit generally provides three digital outputs and one analog 4 to 20mA output. The digital outputs are alarms: alert, high, and high

-high. The analog output is gallons of primary to secondary leakage per day.

Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 2 K/A # 000051 AA2.02 Importance Rating

3.9 Question

22 Unit 1 Coming out of a refueling outage

, the Generator output breaker is closed and reactor power is currently at 25% holding power while I& C trouble shoot a problem with the condenser vacuum instrumentation.

During the troubleshooting actual condenser vacuum drops to 20.5 inches HG and stabilizes.

What is the expected plant response?

Assume all automatic actions occur as designed with no operator action A. The Turbine will Trip, The Reactor will Trip, MFW pumps will trip due to the reactor trip B. The Turbine will Trip, The Reactor not Trip and MFW pumps will remain running C. The Turbine will not Trip, The Reactor will Trip and the MFW pumps will Trip D. The Turbine will not Trip, the Reactor will not Trip and MFW pumps will remain running 000051 Loss of Condenser Vacuum / 4 Ability to determine and interpret the following as they apply to

the Loss of Condenser Vacuum:

AA2.02 Conditions requiring reactor and/or turbine trip.

Proposed Answer:

B Explanation (Optional): A. Incorrect, the trip set point for Unit 1 is 21" HGV, plausible because below 10% power the reactor will not trip when a turbine trip occurs B. Correct C. Incorrect, the MFW pumps will not trip on low vacuum under these conditions SGFP trip setpoint is 14 inches HG D. Incorrect, turbine trip setpoint on Unit 1 is 21" HGV Plausible because there is a step to manually trip turbine at 22" in the loss of condenser vacuum procedure.

Technical Reference(s):

LOT202.03.HO.01 Rev. 13, LOT202.14.HO.01 Rev.12 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New 2407 X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.6 Comments: LOT202.03.HO.01 Rev. 13 Turbine Trips and Setpoints Electrical overspeed trip ----------------

110% rated speed (1980 rpm)

Mechanical overspeed trip -------------

111% rated speed (1998 rpm)

Condenser low

-vacuum trip ------------21.0 Inches HG Excessive thrust

-bearing wear trip

-- + 40 mils (from reference)

Low bearing oil pressure trip ----------

6.0 psig Steam generator Hi

-Hi leve l -----------

87.5% Stator Cooling Water Low D/P -------- 19 PSID/40 sec Generator trip Reactor trip Safety injection

AMSAC Manual turbine trip from control room Manual turbine trip at turbine LOT202.14.HO.01 Rev.12 MFWP Low vacuum trip

- 14" hg vacuum, decreasing, or 3 psig, increasing. When the turbine is latched and vacuum is less than 20" Hg, the low vacuum trip is automatically set at 3 psig. When the vacuum increases to 20" Hg, the low vacuum trip is automatically reset to 14" Hg vacuum, decreasing.

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 2 K/A # 000059 2.1.32 Importance Rating

3.4 Question

23 Plant Operators are performing a transfer of the Floor Drain Tank to the Waste Monitor Tank per 0POP02-WL-0003, Floor Drain Tank Operation.

In accordance with 0POP02

-WL-0003, Floor Drain Tank Operation, which of the following is a condition that could occur if procedural steps are performed improperly?

A. Contamination of non

-contaminated systems B. Exceeding STP airborne limits C. Contamination of personnel D. Exceeding STP personnel dose limits 000059 Accidental Liquid RadWaste Rel. /

9 2.1.32 Ability to explain and apply all system limits and precautions.

Proposed Answer:

A Explanation (Optional):

A. CORRECT: During this evolution if improper valve lineup is performed the non radioactive systems could be contaminated by the Floor Drain Tank.

B. INCORRECT: Not a condition cautioned by the procedure and performing this evolution will not cause airborne limits to be exceeded.

C. INCORRECT: Not a condition cautioned by the procedure and since this is a closed system personnel will not become contaminated.

D. INCORRECT: Not a condition cautioned by the procedure and personnel dose limits will not be exceeded while performing this evolution.

Technical Reference(s):

LOT 203.1, 0POP02-WL-0003 Rev 11 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

T20311 Question Source:

Bank # NRC 470 Question History:

Last NRC Exam NRC Class 16

Question Cognitive Level:

Memory or Fundamental Knowledge Difficulty 2 10 CFR Part 55 Content:

55.41.11 Comments: Distractor B and D do not go together as you can exceed your personnel dose limit and not exceed the airborne limits, and airborne limits can be exceeded without exceeding the dose limit Candidates must understand that when operating these portions of the LWPS the potential for contamination of non-radioactive systems exist. Several years ago contamination of a clean system actually occurred at STP, while operating the LWPS a improper valve lineup caused contamination of the Aux Steam System.

0POP02-WL-0003 Rev 11

4.0 Notes

and Precautions 4.1 The maximum allowed filter differential pressure is 35 psid.

4.2 Changes

in flow rates or pressures SHOULD be performed gradually to prevent filter damage. 4.3 Any activity that requires entry or access to a Radiologically Controlled Area (RCA), requires a Radiation Work Permit.

4.4 Improper

performance of steps in this procedure could result in cross

-contamination of non

-contaminated systems (Reference 2.2.4).

4.5 The normal demineralizer alignment is LWPS Aux Demin upstream and WE Cond Demin downstream.

4.6 The lineup for some valves listed in Lineup 1, Valve Lineup, is performed per 0POP02

-XM-0001, Mechanical Auxiliary Building Valve Pit Lineup. The valves lined up per 0POP02

-XM-0001 are listed in Lineup 1, Valve Lineup, for reference. When performing Lineup 1, Valve Lineup, these valves do not have to be lined up. Credit may be taken for the last performance of a particular room lineup performed per 0POP02

-XM-0001 or this procedure.

ORIGINAL QUESTION:

Plant Operators are performing a transfer of the Floor Drain Tank to the Waste Monitor Tank per 0POP02-WL-0003, Floor Drain Tank Operation.

Which ONE of the following is a condition that the procedure cautions could occur if procedural steps are performed improperly?

A. Contamination of non

-contaminated systems

B. Exceeding STP airborne limits C. Contamination of personnel D. Exceeding STP personnel dose limits

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 2 K/A # 000060 AK1.02 Importance Rating

2.5 Question

24 An accidental leak in the waste gas system has occurred. Two operators are required to enter an area of the plant to isolate the waste gas leak. RP has determined that the area the team will be in is considered a high airborne area with an airborne concentration of 1 DAC/HR. The general area that the team will be in is 50 mrem/hr.

It will take the team 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> to complete the necessary valve alignments to properly isolate the leak. What is the CEDE that the two workers will receive for the task and what is the likely biological effects of this entry?

A. 210 mrem CEDE, some small increase in the probability in biological both Stochastic and Non-Stochastic effects

. B. 204 mrem CEDE, some small increase in the probability in biological both Stochastic and No n-Stochastic effects.

C. 210 mrem CEDE, significant increase in the probability in biological both Stochastic and Non-Stochastic effects D. 204 mrem CEDE, significant increase in the probability in biological both Stochastic and Non-Stochastic effects 000060 Accidental Gaseous Radwaste Rel. / 9 Knowledge of the operational implications of the following concepts as they apply to Accidental Gaseous Radwaste Release:

AK1.02 Biological effects on humans of the various types of radiation, exposure levels that are acceptable for personnel in a nuclear reactor power plant; the units used for radiation intensity measurements and for radiation exposure levels.

Proposed Answer:

A Explanation (Optional):

A. Correct, general area equals 50 mrem/hr with 4 man hours in exposed area equals 200 mrem exposure, 1 DAC equals an exposure of 2.5 mren/hr with 4 manhours of exposure equals 10 mrem. Therefore by summing the exposure received 210 mrem is received by the team. An exposure of 210 mrem is below the occupational limits and while all radiation exposure has some potential to raise the probability of biological effects it should be minimal.

B. Incorrect see A above, the 204 mrem is plausible if the candidate assumed that 1 DAC/hr is equivalent to 1 mrem per hour.

C. Incorrect see A above D. Incorrect see A and B Above Technical Reference(s):

10 CFR 20.1004, 10 CFR 20.1204 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New 2408 X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.8 55.41.10 55.45.3 Difficulty:

3 Comments:

10 CFR 20.1204 (h)(1) In order to calculate the committed effective dose equivalent, the licensee may assume that the inhalation of one ALI, or an exposure of 2,000 DAC

-hours, results in a committed effective dose equivalent of 5 rems (0.05 Sv) for radionuclides that have their ALIs or DACs based on the committed effective dose equivalent.

10 CFR 20.1004

Rem is the special unit of any of the quantities expressed as dose equivalent. The dose equivalent in rems is equal to the absorbed dose in rads multiplied by the quality factor (1 rem=0.01 sievert).

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 2 K/A # AK2.01 Importance Rating

2.5 Question

25 Each detector in the Area Radiation Monitoring (ARM) System has an RM

-80 Microprocessor Unit associated with it that is located in the vicinity of its associated detector.

Which of the below correctly lists functions of the RM

-80 Microprocessor?

1. allow the detector to be source checked.

2. provide ALERT/HIGH alarm signals to the Rad Monitoring Console (RM

-11) in the Control Room.

3. automatically actuate plant equipment (e.g. fans, valves, etc.) on an ALERT or HIGH alarm condition.

4. indicate local radiation levels from the detector.

A. 1, 2, 3 B. 1, 2, 4 C. 1, 3, 4 D. 2, 3, 4 APE 061 AK2 Knowledge of the interrelations between the Area Radiation Monitoring (ARM) System Alarms and the following:

AK2.01 Detectors at each ARM system

Proposed Answer:

B Explanation (Optional):

There are no automatic functions associated with the ARM system. Technical Reference(s):

LOT 20 2.41 Rev 15, 0POP04-RA-0001 Rev 30 Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

Bank # 1685 Question History:

Last NRC Exam Audit exam 2009 Question Cognitive Level:

Memory or Fundamental Knowledge Difficulty 2 Question Level of Difficulty:

2 10 CFR Part 55 Content:

55.41.7 55.45.7 Comments:

Examination Outline Cross

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Reference:

Level RO Tier # 1 Group # 2 K/A # W/E02, EK1.2 Importance Rating

3.4 Question

26

In which of the following procedures is RCS pressure included in the SI termination criteria

? A. 0POP05-EO-EO20 , Faulted Steam Generator Isolation B. 0POP05-EO-EC11 , Loss of Emergency Coolant Recirculation C. 0POP05-EO-EC33 , SGTR Without Pressurizer Pressure Control D. 0POP05-EO-FRP1 , Response to Imminent Pressurized Thermal Shock Condition W/E02 SI Termination

- Knowledge of the operational implications of the following concepts as they apply to the (SI Termination)

EK1.2 Normal, abnormal and emergency operating procedures associated with (SI Termination).

Proposed Answer:

A Explanation (Optional):

A. CORRECT. Faulted Steam Generator Isolation procedure, step 6, requires RCS pressure greater than 1745 psig and stable or rising to terminate SI

. B. INCORRECT. Loss of Emergency Coolant Recirculation procedure, step 16, does not require RCS pressure meet certain values to terminate SI

. C. INCORRECT. SGTR Without Pressurizer Pressure Control procedure, step 7, does not require RCS pressure meet certain values to terminate SI

. D. INCORRECT. Response to Imminent Pressurized Thermal Shock Condition procedure, step 6, does not require RCS pressure meet certain values to terminate SI

. Technical Reference(s):

0POP05-EO-EO20, Faulted Steam Generator Isolation, Rev 11 0POP05-EO-EC11, Loss of Emergency Coolant Recirculation , Rev 18 0POP05-EO-EC33, SGTR Without Pressurizer Pressure Control , Rev 17 0POP05-EO-FRP1, Response to Imminent Pressurized Thermal Shock Condition, Rev 12 Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New Question History:

Last NRC Exam N/A Question Cognitive Level:

Memory or Fundamental Knowledge

Question Level of Difficulty:

3 10 CFR Part 55 Content:

55.41.8, 41.10 55.45.3 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 1 Group # 2 K/A # W/E 13, EK2.2 Importance Rating

3.0 Question

27 Given the following:

Unit 1 is operating at 100% power.

RCS Tavg is 592 °F.

If RCS Tavg is allowed to rise to 602 °F, which one of the following should occur?

A. The reactor will trip on high pressurizer pressure B. RCS Subcooling will lower and go below 35 °F.

C. The Steam Dumps will automatically open.

D. SG PORV's will automatically open.

W/E 13 Steam Generator Over

-pressure - Knowledge of the interrelations between the (Steam Generator Overpressure) and the following:

EK2.2 Facility's heat removal systems, including primary coolant, emergency coolant, the decay heat removal systems, and relations between the proper operation of these systems to the operation of the facility.

Proposed Answer:

D Explanation (Optional):

A. INCORRECT: If the temperature of the pressurizer increases 10 °F as does Thot, saturation pressure is approximately 2350 psig, which is below the high pressure trip setpoint of 2380 psig B. INCORRECT: RCS subcooling will lower, but it's already below 35 °F in the intial condtions. (Tsat at NOP is approximately 650 °F)

C. INCORRECT: The Steam Dumps would open if they received an arming signal, but there is no arming signal present (turbine trip or load reduction).

D. CORRECT: With a Tavg of 602 °F, this would create a Tcold of approx. 572 °F. Tcold determines SG pressure and the saturation pressure for 572 °F is 1230 psig which is above the SG PORV setpoints.

Technical Reference(s):

LOT 204.01, "Integrated Plant Operations," Rev. 2 Proposed references to be provided to applicants during examination:

Saturated steam temperature table

Learning Objective:

(As available)

Question Source:

Bank # 1913 Question History:

Last NRC Exam 2010 Question Cognitive Level:

Comprehension or Analysis Question Level of Difficulty:

3 10 CFR Part 55 Content:

55.41.7 55.45.7 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 2 Group # 1 K/A # 003, A1.03 Importance Rating

2.6 Question

28

According to procedure 0POP04-RC-0002 , "Reactor Coolant Pump Off Normal," which of the following valid conditions would require tripping the reactor and stopping the affected reactor coolant pump:

A. Motor Upper or Lower Radial Bearing Temp Equal to 175°F B. Lower Seal Water Bearing Temp Equal to 220°F C. Motor Stator Winding Temp equal to 320°F D. Number 1 Seal DP equal to 250 PSID

003 Reactor Coolant Pump

- Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) associated with operating the RCPS controls including:

A1.03 RCP motor stator winding temperatures

Proposed Answer:

C Explanation (Optional):

The following are the requirements for tripping the reactor and stopping a reactor coolant pump A. INCORRECT. The RCP must be tripped when the Motor Upper or Lower Radial Bearing Temp is greater than or equal to 195°F B. INCORRECT. The RCP must be tripped when the Lower Seal Water Bearing Temp is greater than or equal to 230°F C. CORRECT. The RCP must be tripped when the Motor Stator Winding Temp is greater than or equal to 310°F D. INCORRECT. The RCP must be tripped when the Number 1 Seal DP is less than 220 PSID Technical Reference(s):

0POP04-RC-0002 , "Reactor Coolant Pump Off Normal," Rev 34 Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New Question History: Last NRC Exam N/A Question Level of Difficulty:

2 Question Cognitive Level:

Memory or Fundamental Knowledge 10 CFR Part 55 Content:

55.41.5 55.45.5 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 2 Group # 1 K/A # 004 K 6.17 Importance Rating

4.4 Question

29 Conditions have occurred while responding to a Reactor Trip which requires Emergency Boration be initiated. While attempting to open MOV 218, ALT BORATION ISOL, the valve indicated intermediate and then all indication was lost. Per 0POP04

-CV-0003, Emergency Boration for the given conditions what is the Emergency Boration flow path that will be established?

A. GOTO to Addendum 1 of 0POP04

-CV-003 Emergency Boration from RWST and align the system by ensuring OCIV

-MOV-025 is Open, Charging is aligned to inject via normal or alternate path, Charging Pump Running and RWST Isolation MOV

-112C is open B. Preferred Emergency Boration Flowpath by ensuring OCIV

-MOV-025 is Open, Charging is aligned to inject via normal or alternate path, Charging Pump Running and starting a Boric Acid Transfer Pump.

C. GOTO to Normal Boration through FCV 0110 A, per 0POP04

-CV-003 Emergency Boration, Utilize Form 1 of 0POP02

-CV-0001, Makeup to the Reactor Coolant System to continuality add Boron to the RCS.

D. Emergency Boration through "1(2)

-CV-0226 BORIC ACID TANK 1A CHARGING PUMP SUCTION BORATION VALVE and 1(2)

-CV-0333 BORIC ACID TANK 1A CHARGING PUMP SUCTION ISOLATION VALVE "

004 Chemical and Volume Control Knowledge of the effect of a loss or malfunction on the following CVCS components:

K6.17 Flow paths for emergency boration

Proposed Answer:

D Explanation (Optional):

A. Incorrect, per 0POP04-CV-0003, Emergency Boration if the preferred method of emergency boration is unavailable (Boric Acid Tank un available or not operable it directs you to Addendum 1, Emergency Boration which would direct emergency boration via the RWST From the RWST B. Incorrect, while MOV 218 may be partially open there is no way for the operator to know if the valve is open or closed based on the information that was given to him in the stem.

C. Incorrect, 0POP04

-CV-003 does not direct the operator to transfer to Normal Boration via FCV 0110 A, this alignment adds water to the batch controller and then to the VCT, under emergency boration conditions the VCT is isolated per procedure. This is plasuable as 0POP04

-CV-003 does direct the operator to initiate normal boration while manual actions are taken to manually open CV

-0333 and CV

-0226 then secure the normal boration path.

D. Correct, With the Boric Acid tanks available 0POP04

-CV-003 will direct the operator to align normal boration flowpath while manual actions are taken to align suction to the CCP directly from the Boric Acid tanks.

Technical Reference(s):

0POP04-CV-0003 REV 14, Emergency Boration, 0POP02

-CV-0001 REV 45, Makeup to the Reactor Coolant System (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New X Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.8 Comments:

The procedure first attempts to initiate emergency boration by pumping from the Boric Acid Tanks using a Boric Acid pump through MOV

-0218 to the suction of the charging pumps. If the Boric Acid Transfer Pumps are not available, then the Gravity feed method is used. If the Boric Acid Storage Tanks are not available, the RWST may be used as the source of boric acid.

0POP04-CV-0003, Emergency Boration

Steps 1-4 are met Step 5 cannot be completed so perform the RNO Step 5 RNO Align Normal boron injection flowpath Align the CCP suction directly to the Boric Acid tank Secure normal injection flow path

Examination Outline Cross

-

Reference:

Level RO Tie r # 2 Group # 1 K/A # 005 A2.01 Importance Rating

2.7 Question

30 Given the following plant conditions:

The plant is in Mode 4 cooling down to Mode 5 All six RHR Pump suction MOVs have been energized The crew is preparing to place RHR in service Sensing line blockage has caused RCS wide range pressure transmitter PT

-405 to stabilize at 700 psig RCS pressure has been verified to be 330 psig Which of the following correctly describes the effect of the sensing line blockage on the listed

RHR suction MOVs?

A. Both RH-MOV-0060A and RH

-MOV-0060C will open normally AND Both RH-MOV-0061A and RH

-MOV-0061C will have to be open from the ASP.

B. Both RH-MOV-0060A and RH

-MOV-0060C will have to be open from the ASP AND Both RH-MOV-0061A and RH

-MOV-0061C will open normally.

C. Both RH-MOV-0061A and RH

-MOV-0060C will open normally AND Both RH-MOV-0060A and RH

-MOV-0061C will have to be open from the ASP.

D. Both RH-MOV-0061A and RH

-MOV-0060C will have to be open from the ASP AND Both RH-MOV-0060A and RH

-MOV-0061C will open normally.

005 Residual Heat Removal

- Ability to (a) predict the impacts of the following malfunctions or operations on the RHRS, and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations:

A2.01 Failure modes for pressure, flow, pump motor amps, motor temperature, and tank level instrumentation

Proposed Answer:

C Explanation (Optional):

A. INCORRECT: RH

-MOV-0060A will NOT open normally and RH

-MOV-0061A will open normally. B. INCORRECT: RH

-MOV-0060C will open normally and RH

-MOV-0061C will NOT open normally. C. CORRECT: PT

-405 signal transmits to RH

-MOV-0060A and RH

-MOV-0061C thus these valves will NOT open normally (they will need to be opened from the ASP), but RH

-MOV-0061A and RH

-MOV-0060C will open normally.

D. INCORRECT: RH

-MOV-0061A will open normally and RH

-MOV-0060A will NOT open normally.

Technical Reference(s):

0POP02-RH-0001, "Residual Heat Removal System Operation," Rev 64; Lesson Plan Lot 201.09, "Residual Heat Removal System," Rev 11

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

Modified Bank #

1739 Question History:

Last NRC Exam 2009 Question Cognitive Level:

Comprehension or Analysis Question Level of Difficulty:

3 10 CFR Part 55 Content:

55.41.5 55.43.5 55.45.3/13 Comments:

Parent question below

Examination Outline Cross

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Reference:

Level RO Tier # 2 Group # 1 K/A # 006, K5.11 Importance Rating

2.5 Question

31 Given the following:

A Large Break Loss of Coolant Accident has occurred.

The ECCS is operating in the Cold Leg Recirculation mode.

Based on standard heat transfer relationships, which of the following describes the INITIAL effects of INCREASED CCW temperature to the RHR Heat Exchanger during these plant conditions?

A. RISE resulting in LOWER heat transfer rate in the RHR Heat Exchanger.

B. LOWER resulting in LOWER heat transfer rate in the RHR Heat Exchanger.

C. RISE resulting in HIGHER heat transfer rate in the RHR Heat Exchanger.

D. LOWER resulting in HIGHER heat transfer rate in the RHR Heat Exchanger.

006 Emergency Core Cooling

- Knowledge of the operational implications of the following concepts as they apply to ECCS: K5.11 Basic heat transfer equation

Proposed Answer:

B Explanation (Optional): A. INCORRECT. Higher tube inlet temperature B. C. INCORRECT. D. down. Technical Reference(s):

LOT 204.01, Integrated Plant Operations Part 2, Rev 2 Proposed references to be provided to applicants during examination:

None Learning Objective: (As available)

Question Source:

Bank # 1871 Question History:

Last NRC Exam 2009 Question Cognitive Level:

Comprehension or Analysis Question Level of Difficulty:

3 10 CFR Part 55 Content:

55.41.5 55.45.7 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 2 Group # 1 K/A # 007 A3.01 Importance Rating

2.7 Question

32 The following Unit 2 conditions exist:

A faulted steam generator (outside containment) resulted in a reactor trip and safety injection Operators have isolated the faulted steam generator RCS pressure is currently 1800 psig and INCREASI NG PRT PRESS HI alarm illuminates PRT level and pressure are INCREASING slowly Which ONE of the following is the cause of the PRT level and pressure increase?

A. Reactor Coolant Pump seal leakoff flow is returning to the PRT.

B. A Pressurizer Power Operated Relief Valve is open.

C. Normal letdown flow is diverted to the PRT.

D. Loss of instrument air to containment fails open the Reactor Make Up Water valve to the PRT, "SPRAY ISOL FV

-3650". 007 Pressurizer Relief/Quench Tank Ability to monitor automatic operation of the PRTS, including:

A3.01 Components which discharge to the PRT.

Proposed Answer:

A Explanation (Optional):

A. Correct B. Incorrect at current RCS pressure the PORV is not open C. Incorrect Letdown does not divert to the PRT D. Incorrect

Technical Reference(s): LOT201.04 Rev. 8 (Attach if not previously provided)

(including version/revision number)

Proposed references to be provided to applicants during examination:

none Learning Objective:

(As available)

Question Source:

Bank # NRC 160 Question History:

Last NRC Exam 2003 Question Cognitive Level:

Comprehension or Analysis Difficulty 3 10 CFR Part 55 Content:

55.41.7 55.45.3 Comments: From Lesson Plan LOT201.04 Rev. 8 1.1.3 PRT receives relief from other systems in addition to discharge from PORV's and safeties:

A. RHR pump discharge

- A, B, and C B. HHSI discharge (3) C. LHSI discharge (3) (RHR heat exchanger bypass line)

D. CVCS seal return E. CVCS letdown F. Also accommodates reactor vessel head vent

Examination Outline Cross

-

Reference:

Level RO Tier # 2 Group # 2 K/A # 008, A4.05 Importance Rating

2.7 Question

33

With the plant operating at 100%, the Component Cooling Water Surge Tank Level is indicating 63.5%. Which of the following components would see a reduction in Component Cooling Water flow? A. Spent Fuel Pool Heat Exchangers B. Reactor Coolant Pump Motor Air and Oil Coolers C. Letdown Heat Exchanger D. Centrifugal Charging Pump Oil Coolers 008 Component Cooling Water

- Ability to manually operate and/or monitor in the control room:

A4.05 Normal CCW

-header total flow rate and the flow rates to the individual components cooled by the CCWS

Proposed Answer:

C Explanation (Optional):

Applicant must know what isolates on a CCW Surge Tank Lo

-Lo Level at 64.6%.

A. INCORRECT. CCW to the Spent Fuel Pool Heat Exchangers does not isolate on a CCW Surge Tank Lo-Lo Level B. INCORRECT. CCW to the Reactor Coolant Pump Motor Air and Oil Coolers does not isolate on a CCW Surge Tank Lo

-Lo Level C. CORRECT. CCW isolates to the Letdown Heat Exchanger on a CCW Surge Tank Lo

-

Lo Level. D. INCORRECT. CCW to the Centrifugal Charging Pump Oil Coolers does not isolate on a CCW Surge Tank Lo

-Lo Level Technical Reference(s):

Lesson Plan Lot 201.12, "Component Cooling Water System" Rev 13; 0POP04-CC-0001, "Component Cooling Water System Leak" Rev 15 Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New Question History:

Last NRC Exam N/A Question Cognitive Level:

Comprehension or Analysis Question Level of Difficulty:

3 10 CFR Part 55 Content: 55.41.7 55.45.5 Comments:

Examination Outline Cross

-

Reference:

Level RO SRO Tier # 2 Group # 1 K/A # 010/K2.01 Importance Rating

3.0 Question

34 Which of the following Load Centers provide power for the Pressurizer Backup Heater Group B?

A. E1A1 B. E1B1 C. E1B2 D. E1C1 Knowledge of bus power supplies to the following:

K2.01 PZR heaters

Proposed Answer:

D Explanation (Optional):

A. INCORRECT. E1A1 supplies power for the A Group Pressurizer Backup Heaters.

B. INCORRECT. E1B1 does not supply power to any Pressurizer Backup Heaters.

C. INCORRECT. E1B2 does not supply power to any Pressurizer Backup Heaters.

D. CORRECT. E1C1 supplies power for the B Group Pressurizer Backup Heaters.

Technical Reference(s):

LOT201.36, 4.16KV, 480V ESF (Class 1E) AC Power Distribution, Rev 36

Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

New 2372 Question History:

Last NRC Exam N/A Question Cognitive Level:

Memory or Fundamental Knowledge Question Level of Difficulty:

2 10 CFR Part 55 Content:

55.41.7 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 2 Group # 1 K/A # 012, K4.06 Importance Rating

3.2 Question

35 Which of the following trip signals is blocked with reactor power at 15%?

A. Pressurizer low pressure B. Pressurizer high level C. Low flow in a single loop D. Reactor coolant pump undervoltage 012 Reactor Protection

- Knowledge of RPS design feature(s) and/or interlock(s) which provide for the following:

K4.06 Automatic or manual enable/disable of RPS trips

Proposed Answer:

C Explanation (Optional):

A. INCORRECT. The Pressurizer low pressure is blocked at less than 10% power.

B. INCORRECT. The Pressurizer high level is blocked at less than 10% power.

C. CORRECT. Low flow in a single loop is blocked at less than 40% power.

D. INCORRECT. Reactor coolant pump undervoltage is blocked at less than 10% power.

Technical Reference(s):

Lesson Plan LOT 201.20, Rev 17

Proposed references to be provided to applicants during examination:

None Question Source:

New Question History:

Last NRC Exam N/A Question Cognitive Level:

Memory or Fundamental Knowledge Question Level of Difficulty:

2 10 CFR Part 55 Content:

55.41.7 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 2 Group # 1 K/A # 013/A3.01 Importance Rating

3.7 Question

36 Ten minutes after a LOCA, containment pressure indicates the following:

PT-934 = 9.5 psig PT-935 = 9.6 psig PT-936 = 9.3 psig PT-937 = 9.4 psig Which of the following describes the response of the Containment Spray System 10 seconds after containment pressure reaches the listed values, assuming bistables actuate at their exact setpoint and no ESF systems have been reset?

Containment Spray has automatically actuated; A. But only the pumps have started.

B. The pumps have started and their discharge valves have opened.

C. But only the pump discharge valves have opened.

D. But the pumps have not started and the discharge valves have not opened.

013 Engineered Safety Features Actuation

- Ability to monitor automatic operation of the ESFAS including:

A3.01 Input channels and logic

Proposed Answer:

B Explanation (Optional):

A. INCORRECT: The valves directly open from the actuation signal B. CORRECT: Containment Spray actuates on a 2/4 logic at 9.5 psig. The valves directly open from the actuation signal. The pumps will start providing there is still a Sequencer signal present which locks in a 40 seconds after the sequencer started. The sequencer started on the initial Safety Injection. (RCB pressure at 3.0 psig.

C. INCORRECT: The pumps will also start because the sequencer has not been reset.

D. INCORRECT: The valves open directly from the actuation signal and the pumps will start from the sequencer.

Technical Reference(s):

LOT201.11, Containment Spray System, Rev 14 LOT201.20, Solid State Protection System, Rev 17 LOT202.22, Engineering Safety Features, Rev 15 Proposed references to be provided to applicants during examination:

None Learning Objective:

(As available)

Question Source:

Bank # 1359 Question History:

Last NRC Exam 2009 Question Cognitive Level:

Comprehension or Analysis Question Level of Difficulty:

3 10 CFR Part 55 Content:

55.41.7 55.45.5 Comments:

Examination Outline Cross

-

Reference:

Level RO Tier # 2 Group # 1 K/A # 022/K3.02 Importance Rating

3.0 Question

37 Given the following containment history:

Time C on tain m en t Pressure C on tain m en t Radiation C on tain m en t Integrated dose 0815 2 psig 9.0 E 4 R/h r 9.0 E3 Rad 0830 4 psig 1.0 E 5 R/h r 2.7 E4 Rad 0845 6 psig 9.6 E 6 R/h r 2.7 E5 Rad 0900 8 psig 2.0 E 7 R/h r 7.7 E6 Rad Which of the following describes the EARLIEST time at which adverse containment should have been declared?

A. 0815 B. 0830 C. 0845 D. 0900 022 Knowledge of the effect that a loss or malfunction of the CSS Will have on the following:

K3.02 Containment instrumentation readings Proposed Answer:

B Explanation (Optional):