March/April 50-4132003-301 Exam-Final RO Written Exam

ML031250641
Person / Time
Site:	Catawba
Issue date:	05/15/2003
From:	Ernstes M Operator Licensing and Human Performance Branch
To:	Gordon Peterson Duke Energy Corp
References
50-413/03-301, 50-414/03-301 50-413/03-301, 50-414/03-301
Download: ML031250641 (135)
v • d • e

See also: IR 05000413/2003301

Text

Final Submittal

CATAWBA EXAM 2003-301

50-413 & 50-414

March 31 - April 4 &

April 10, 2003

1. Reactor operator Written Examination

NRC Official Use Only

Nuclear Regulatory Commission

Reactor Operator Licensing

Examination

Catawba Nuclear Station

Answer Key

This document is removed from

Official Use Only category on

Date of examination

NRC Official Use Only

Question #1 Catawba Nuclear Station RO Exam

Bank Question: 016.2 Answer: B

I Pt(s) Unit 2 is performing a plant startup when a problem occurs in the main

feedwater system.

The following events and conditions occur:

• 2A main feedwater pump is running

• 2B main feedwater pump turbine is not reset

• Reactor power is 25%

• The 2A main feedwater pump trips

• The operator manually trips the plant

• All steam generator levels decrease to 20%

Assuming systems operate as designed, when did the turbine driven CA

pump receive an auto-start signal (if at all)?

A. When the 2A main feedwater pump tripped.

B. When narrow range level decreased below 36%.

C. When the reactor trip occurred.

D. The turbine driven CA pump did not receive an auto start signal.

Distracter Analysis:

A. Incorrect: AMSAC is not in service

Plausible: The AMSAC signal to start CA on loss of both MFPs is

not in service and only starts the motor driven pumps.

B. Correct: 36.8% is the unit 2 setpoint

C. Incorrect: The TDCA pump started when SGWL reached 36.8%

Plausible: the S/G lo-lo level setpoint is 10.7% for unit I

D. Incorrect: The TDCA pump starts at <36.8% SGWL.

Plausible: this would be true for unit 1.

Level: RO&SRO

KA: SYS 059 K1.02 (3.4/3.4)

Lesson Plan Objective: CF Obj: 4

Source: Bank

Level of knowledge: analysis

Ques_016.2 For Official Use Only Page 1

Question #1 Catawba Nuclear Station RO Exam

References:

1.OP-CN-CF-CA page 10, 11

2. OP-CN-ADM-UD pages 12, 13

Ques_016.2 For Official Use Only Page 2

Question #2 Catawba Nuclear Station RO Exam

Bank Question: 037 Answer: D

I Pt(s) Unit I was conducting a reactor startup following a refueling outage. Given

the following conditions:

• N41 - N44 indicate 0%

• N-31 indicates 2.1x10 4 cps

• N-32 indicates 2.Oxio4 cps

• N-35 indicates 8.5x10" amps

• N-36 indicates l.5x10 9 amps

• Rods are in manual with no rod motion

• SR and IR NIs are slowly increasing

• Tave is holding steady

Which one of the following best explains the indications?

A. N-35 compensating voltage is set too high

B. N-35 compensating voltage is set too low

C. N-36 compensating voltage is set too high

D. N-36 compensating voltage is set too low

Distracter Analysis:

A. Incorrect: N-35 reads an equivalent power level to SR A and B

Plausible: If the candidate does not know that P6 = lxlO-" IR is

about 2x10 4 CPS SR.

B. Incorrect: N-35 reads an equivalent power level to SR A and B

Plausible: If the candidate does not know that P6 = lx10' 0 IR is

about 2x10 4 CPS SR.

C. Incorrect: N-36 reading too high - not too low

Plausible: If candidate reverses the effect of compensation in IR

detector

D. Correct answer N-36 is too high for existing SR level - therefore

must be under compensated.

Level: RO&SRO

KA: APE 033 AA2.01 (3.0/3.5)

Lesson Plan Objective: ENB Obj: 3, 7

Ques_037 For Official Use Only Page 3

Question #2 Catawba Nuclear Station RO Exam

Source: Bank

Level of knowledge: comprehension

References:

1.OP-CN-IC-ENB pages 11, 40

Ques-037 For Official Use Only Page 4

Question #3 Catawba Nuclear Station RO Exam

Bank Question: 039.1 Answer. B

I Pt(s) Unit I containment pressure is 4.0 psig. All equipment is operating as designed.

Safety injection has been RESET.

Which one of the following action(s) is necessary for the operator to reopen

IKC-425A (Reactor Building Non-Essential Supply Header Isolation)?

A. Press the OPEN pushbutton on MC-11.

B. Reset phase B and then press the OPEN pushbutton on MC-1.

C. Wait until containment pressure is less than 3 psig and then press the

OPEN pushbutton on MC-11.

D. Wait until containment pressure is less than 0.3 psig and then press

the OPEN pushbutton on MC-11.

Distracter Analysis:

A. Incorrect: must first reset phase B.

Plausible: may not realize valve has closed due to phase B.

B. Correct: valve has closed due to phase B. KC-425 is a train A valve.

Phase B can be reset at any time, therefore, to open KC-425, reset phase

B train A, then open the valve.

C. Incorrect: Phase B must be reset.

Plausible: candidate believes phase B cannot be reset until below the

phase B actuation setpoint.

D. Incorrect: Phase B must be reset

Plausible: if the candidate thinks that the CPCS interlock must be

actuated to clear the phase B signal.

Level: RO & SRO

KA: SYS 103 K4.06 (3.1/3.7)

Lesson Plan Objective: CNT-CNT SEQ 17

Source: Bank

Level of knowledge: comprehension

References:

1. OP-CN-ECC-ISE pages 18-19

2. OP-CN-CNT-CNT pages 19-20

Ques-039. 1 For Official Use Only Page 5

Question #4 Catawba Nuclear Station RO Exam

Bank Question: 060.1 Answer: B

1 Pt(s) Unit 2 was operating at 100% power when an electrical fire started inside the

auxiliary building cable room corridor. What type of fire suppression system

is installed in this area and what are the hazards to personnel if they enter this

room?

A. A manual deluge (Mulsifyre) System is installed. An electrical

shock hazard exists due to the use of water to combat an

electrical fire.

B. An automatic sprinkler system is installed. An electrical shock

hazard exists due to the use of water to combat an electrical fire.

C. An automatic Halon system is installed. An asphyxiation hazard

exists due to the presence of Halon gas.

D. A manual Cardox system is installed. An asphyxiation hazard

exists due to the presence of carbon dioxide gas.

Distracter Analysis:

A. Incorrect: An automatic sprinkler system is installed

Plausible: an electrical shock hazard exists

B. Correct Answer:

C. Incorrect: An automatic sprinkler system is installed

Plausible: Halon gas is generally used in areas in which electrical

fires are the predominant risk because it does not create a shock

hazard

D. Incorrect: An automatic sprinkler system is installed

Plausible: CARDOX is a common fire suppressant in the industry

Level: RO&SRO

KA: SYS 086K5.04 (2.9/3.5)

Lesson Plan Objective: SS-RFY Obj: 18

Source: Mod; Ques 060, McGuire NRC 99

Level of knowledge: memory

References:

1.OP-CN-SS-RFY page 15

2. SLC 16-9.2

Ques_060.1 For Official Use Only Page 6

Question #5 Catawba Nuclear Station RO Exam

Bank Question: 260.2 Answer: D

I Pt(s) Unit 2 is responding to a loss of main feedwater event from 100% power.

Given the following events and conditions:

• The reactor has tripped

The 2A and 2B motor-driven CA pumps started in auto

The turbine-driven CA pump (CAPT) started in auto

• Train "A" CA has been reset

• Train "B" CA has failed to reset

• The CA pumps are aligned to the CACST

Which one of the following automatic system responses will occur as storage

tank and CA pump suction pressures decrease?

A. 2A CA pump trips.

CAPT #2 pump trips.

2B CA pump shifts to the RN system.

B. 2A CA pump suction shifts to the RN system.

CAPT #2 suction shifts to the RN system.

2B CA pump trips.

C. 2A CA pump suction shifts to the RN system.

CAPT #2 pump trips.

2B CA pump trips.

D. 2A CA pump trips.

CAPT #2 suction shifts to the RN system.

2B CA pump suction shifts to the RN system.

Distracter Analysis:

A. Incorrect: because the CAPT pump swap to RN

Plausible: candidate believes A train controls CAPT pump

B. Incorrect: 2A CA pump trips and 2B CA pump shifts suction to RN

Plausible: if the candidate believes reset allows shift

C. Incorrect: Reverse of what actually happens

Plausible: if the candidate reverses the logic

D. Correct: because train B did not reset, it will shift when pressure

decreases below 6 psig.

Level: RO&SRO

KA: SYS 061 K6.02 (2.6/2.7)

Lesson Plan Objective: CA Obj: 12

Ques_260.2 For Official Use Only Page 7

Question #5 Catawba Nuclear Station RO Exam

Source: Mod McGuire NRC 2002

Level of knowledge: comprehension

References:

1. OP-CN-CF-CA page 13, 14

Ques_260.2 For Official Use Only Page 8

Question #6 Catawba Nuclear Station RO Exam

Bank Question: 263 Answer: A

I Pt(s) Unit I is shutdown in mode 6 with fuel movement in progress. Given the

following events and conditions:

• The new fuel elevator fails to operate in the up direction

Which one of the following statements describes the cause of this problem?

A. 1EMF-1S (SPENTFUEL BLDG REFUEL BRIDGE) has failed

high.

B. 1EMF-20 (NEWFUEL STOR IA) has failed high.

C. The load in the new fuel elevator weighs 1100 lbs.

D. The spent fuel bridge crane is NOT indexed over the new fuel

elevator.

Distracter Analysis:

A. Correct answer

B. Incorrect: does not have an interlock with the new fuel elevator

Plausible: new fuel vault monitor sounds like it "fits" with new fuel

monitor if candidate does not know answer

C. Incorrect: If load exceeds 1200 lbs., will prevent movement

Plausible: this is a valid interlock but the weight is insufficient to

actuate it

D. Incorrect: there is no interlock to prevent moving the new fuel

elevator

Plausible: there is an interlock to prevent moving the spent fuel pool

crane

Level: RO&SRO

KA: SYS 034K6.02 (2.6/3.3)

Lesson Plan Objective: FH-FHS SEQ 8

Source: Bank

Level of knowledge: memory

References:

1. OP-CN-FH-FHS page 18

Ques-263 For Official Use Only Page 9

Question #7 Catawba Nuclear Station RO Exam

Bank Question: 282.2 Answer:C

I Pt(s) Which one of the following statements correctly describes the sequence and

position of VI system valves in response to a loss of VI header pressure?

A. VI-500 (VI supply to VS) opens

VS-78 (VS supply to VI) opens

B. VI-500 (VI supply to VS) opens

VS-78 (VS supply to VI) closes

C. VI-500 (VI supply to VS) closes

VS-78 (VS supply to VI) opens

D. VI-500 (VI supply to VS) closes

VS-78 (VS supply to VI) closes

Distracter Analysis:

A. Incorrect: VI-500 closes - not opens

Plausible: partially correct - VS-78 opens

B. Incorrect: valve operations are reversed

Plausible: psychometric balance

C. Correct: This is the correct sequence

D. Incorrect: VS-78 opens - does not close

Plausible: partially correct - VI-500 closes.

Level: RO&SRO

KA: SYS 079 A4.01 (2.7/2.7)

Lesson Plan Objective: VI Obj: 5, 8, 28, 30

Source: Mod

Level of knowledge: memory

References:

1.OP-CN-SS-VI page 19

Ques_282.2 For Official Use Only Page 10

Question #8 Catawba Nuclear Station RO Exam

Bank Question: 300.2 Answer: C

I Pt(s) Unit I was responding to a steamline break inside containment on the I C S/G

per E-2 (FaultedSteam GeneratorIsolation). All equipment has operated as

designed.

Which one of the following action statements correctly describes the

expected method for isolating steam to the CAPT from the faulted S/G?

A. Manually close the CAPT #1 trip and throttle valve (ISA-145).

B. Manually close the IC MSIV and MSIV bypass valve.

C. Manually close the maintenance isolation valve (1SA-4).

D. Select "OFF" on the CAPT #1 control switch.

Distracter Analysis:

The key to this question is for the candidate to realize that the manual

isolation valve would be preferred to the stop check valve.

A. Incorrect: Will isolate steam from IB and IC S/G

Plausible: partially correct - will isolate wrong S/G

B. Incorrect:

Plausible: if candidate doesn't realize the tap for the CAPT is

upstream of the MSIV

C. Correct: the manual isolation is the preferred choice in E-2

Plausible:

D. Incorrect:

Plausible: the stop check is closed if the isolation valve cannot be

closed.

Level: RO&SRO

KA: APE 040 AK2.01 (2.6/2.5)

Lesson Plan Objective: CA Obj: 11

Source: Mod

Level of knowledge: memory

References:

1.EP-E2 page 12

2. E-2 Background Document page 7

Ques_300.2 For Official Use Only Page 11

Question #9 Catawba Nuclear Station RO Exam

Bank Question: 324 Answer: D

I Pt(s) Unit 2 was operating at 100% power when a design basis LOCA into

containment occurred. Given the following conditions:

• 2EMF-53A1B (Containment TRNA/B (HIRange)) are both inoperable

Which one of the following indications would most accurately determine the

dose rates inside containment for the offsite dose assessment calculations?

A. 2EMF-38, 39,40 (Containment PAR/GAS/JOD) indications

B. 2EMF-5 (LIQ R'WV CONTAREA) indications

C. 2EMF-54(HH) (Unit Vent Gamma (HI-HI Range)) indications

D. Portable instruments readings taken on the containment wall

and appropriately scaled for shielding factors

Distracter Analysis:

A. Incorrect: 2EMF-38, 39, 40 are isolated by a phase A signal

Plausible: They accurately measure radiation levels under normal

circumstances

B. Incorrect: This would only measure activity inside the NC system

piping

Plausible: This monitor is used to measure NC system activity

during normal operations

C. Incorrect: the unit vent path would be isolated during an accident

Plausible: If not isolated, this could be a good measurement of the

activity in containment

D. Correct: In the event both Containment High Range Radiation

Monitors become inoperable during an accident, alternate

measurement of containment radiation may be performed per

HP/0/B/1009/006 (Alternative Method for Determining Dose Rate

Within the Reactor Building).

Level: RO&SRO

KA: SYS 073 A1.01 (3.2/3.5)

Lesson Plan Objective: CNT Obj: 9

Source: Bank

Ques_324 For Official Use Only Page 12

Question #9 Catawba Nuclear Station RD Exam

Level of knowledge: memory

References:

1. OP-CN-CNT-CNT page 13

Ques 324 For Official Use Only Page 13

Question #10 Catawba Nuclear Station RO Exam

Bank Question: 331.1 Answer: B

I Pt(s) A technician is performing a calibration procedure, which requires a series of

approximately 10 sequential steps to be conducted while standing in a

contaminated area. The communicator holds the procedure and reads each

step sequentially by radio and the technician performs the step out of sight of

the communicator.

If the performer does not have the procedure in hand as he/she performs the

steps, what are the requirements of NSD 704 (Technical ProcedureUse and

Adherence) regarding the sign off for each step?

A. Only the performer can sign off the steps upon completion of the

task after leaving the contaminated area.

B. The communicator signs off each step as the step is completed

using his/her own initials and the initials of the performer.

C. The communicator signs off each step as the step is completed

using his/her own initials along with the time.

D. The communicator signs off each step as the step is completed

using the performer's initials along with the time.

Distracter Analysis:

A. Incorrect: Both initials must be entered on each step.

Plausible: this is a logical albeit incorrect choice.

B. Correct:

C. Incorrect: Both initials must be entered on each step.

Plausible: this is a logical albeit incorrect choice.

D. Incorrect: Both initials must be entered on each step.

Plausible: this is a logical albeit incorrect choice.

Level: RO&SRO

KA: ADM G 2.1.20(4.3 / 4.2)

Lesson Plan Objective: ADM-OP SEQ 13

Source: Bank

Level of knowledge: memory

References:

1.OP-CN-ADM-OP page 8

2. NSD 704 pages 4, 7

Ques_331.1 For Official Use Only Page 14

Question #11 Catawba Nuclear Station RO Exam

Bank Question: 353.3 Answer. A

I Pt(s) A radiation worker is repairing a valve in a contaminated area, which has the

following radiological characteristics:

• The worker's present exposure is 1943 mrem for the year

• General area dose rate = 30 mrem/hr

• Airborne contamination concentration = 10.0 DAC

The job will take 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> if the worker wears a full-face respirator. It will

only take I hour if the worker does NOT wear the respirator.

If the RP Manager grants all applicable dose extensions, which one of the

following choices for completing this job would maintain the worker's

exposure within the station administrative requirements?

A. The worker should NOT wear the respirator because the

calculated TEDE dose received will be less than if he wears one.

B. The worker should NOT wear the respirator because the dose

received without wearing a respirator will exceed site annual

personnel dose limits.

C. The worker should wear the respirator because the calculated

TEDE dose received will be less than if he does not wear one.

D. The worker should wear the respirator otherwise he could exceed

DAC limits.

Distracter Analysis:

Radiation exposure comparison:

Without respirator

DDE= 30 mrem/hr x 1 hr = 30 mrem

From airborne contamination:

CEDE = 10 DAC 1 hr x 2.5 mrem/DAC-hr = 25 mrem

TEDE = 30 + 25 = 55 mrem from job

Total exposure for year = 1943 + 55 = 1998 mrem

With respirator

DDE = 30 mrem/hr x 2 hr = 60 mrem

CEDE = 0

TEDE = 60 mrem

Total exposure for year = 1943 + 60 = 2003 mrem

Ques_353.3 For Official Use Only Page 15

Question #11 Catawba Nuclear Station RO Exam

(With respirator) (Without respirator)

TEDE = 60 mrem > 55 mrem = do not use a respirator

A. Correct answer

B. Incorrect: the dose will exceed the 2000 mrem limit based on

calculation.

Plausible: If the candidate miscalculates the dose.

C. Incorrect: The calculated exposure will be greater if you wear the

respirator.

Plausible: If the candidate incorrectly computes the exposure - this

was the correct answer on a previous exam

D. Incorrect: DAC limits are not direct ALARA controls.

Plausible: If the candidate does not understand the concept of

derived airborne concentrations.

Level: RO&SRO

KA: G 2.3.2 (2.5 / 2.9)

Lesson Plan Objective: HP Obj: 2, 4

Source: Bank

Level of knowledge: analysis

References:

1. OP-CN-RAD-HP pages 14-15

Ques-353.3 For Official Use Only Page 16

Question #12 Catawba Nuclear Station RO Exam

Bank Question: 363.2 Answer: A

1 Pt(s) Unit 2 is in mode 6 and refueling operations are currently in progress. Given

the following events and conditions:

• The Fuel Handling Manipulator Crane Operator (FHMCO) has indexed the

mast over the location where fuel assembly H-8 will be inserted.

• All conditions/indications on the fuel handling manipulator crane are

satisfied for inserting the fuel assembly located at H-8, in accordance with

procedure.

Which one of the following statements describes the responsibility of the

"Operator at the Controls", associated with inserting the fuel assembly?

A. Receives notification of assembly insertion from the Fuel Handling

SRO, and tracks core response to reactivity changes.

B. Specifies the acceptable storage locations per Tech Specs and

informs the Fuel Handling SRO.

C. Grants permission to the FHMCO for inserting the fuel assembly

from the control room via the engineer communicating with the

refueling crew.

D. Verifies proper l/m plot results and gives permission to the

FHMCO to unlatch the assembly.

Distracter Analysis:

A. Correct:

B. Incorrect: Reactor Engineering specifies the correct storage locations -

not the OATC.

Plausible: The RO can be used to relay this information to the Fuel

Handling SRO.

C. Incorrect: the FHSRO authorizes inserting the assembly.

Plausible: if the candidate thinks the refueling is controlled from the CR

D. Incorrect: the FHSRO authorizes inserting the assembly - monitor 1/m

process periodically.

Plausible: this would be the logical practice if the OATC was in charge.

Level: RO&SRO

KA: G 2.2.27 (2.6 / 3.5)

Lesson Plan Objective: FHS SEQ 11

Ques_363.2 For Official Use Only Page 17

Question #12 Catawba Nuclear Station RD Exam

Source: Bank

Level of knowledge: memory

References:

1. OP-CN-FH-FHS pages 17

2. NSD 304 page 13

3. NSD 414 pages 1-5

Ques_363 .2 For Official Use Only Page 18

Question #13 Catawba Nuclear Station RO Exam

Bank Question: 399 Answer A

I Pt(s) Unit I was operating at 100% with the pressurizer level controller in the 1-2

position. Given the following initial response:

• Charging flow reduces to minimum

• Backup heaters immediately energize

• Actual level begins to decrease

Which one of the following failures has occurred to cause this plant

response?

A. PZR level channel 1 detector reference leg has ruptured

B. PZR level channel 1 detector variable leg has ruptured

C. PZR level channel 2 detector reference leg has ruptured

D. PZR level channel 2 detector variable leg has ruptured

Distracter Analysis:

A. Correct answer - a leak in the reference leg causes the pressurizer

channel to sense a high level condition - which causes the system

response as indicated. Actual pressurizer level decreases initially due

to charging flow decreasing while letdown remains in service.

B. Incorrect: - variable leg rupture causes channel I to sense a low

PZR level - actual level will increase not decrease initially

Plausible: - if the candidate thinks that this will cause a high level

C. Incorrect: - will cause channel 2 to sense a high level - will not get

heaters deenergizing - only get a high level alarm

Plausible: - if the candidate confuses the plant response for channel

2 - thinks that channel 2 controls

D. Incorrect: - pressurizer level would increase not decrease

Plausible: - if the candidate confuses the direction of the pressurizer

level failure or doesn't recognize plant response - this is very similar

to a channel I high failure only the actual level increase instead of

decreases

Level: RO&SRO

KA: APE 028 K1.01 (2.8*/3.1*)

Lesson Plan Objective: ILE Obj: 6

Source: Bank

Ques_399 For Official Use Only Page 19

Question #13 Catawba Nuclear Station RO Exam

Level of knowledge: analysis

References:

1. OP-CN-IC-ILE page 15, 16

Ques_399 For Official Use Only Page 20

Question #14 Catawba Nuclear Station RO Exam

Bank Question: 436.1 Answer: D

I Pt(s) Unit 1 is responding to a station blackout. Given the following events and

conditions:

• A fault occurred on the IEMXE load center that supplied power to the

IA D/G battery charger. Repairs to this load center have not been

made.

• RN was manually lined up to supply the DG KD system

• After two hours, the operators are ready to start the IA diesel to restore

power on IETA.

What effect will the loss of power on I EMXE have on diesel generator

IA?

A. The diesel will start and run normally due to backup control

power from VADA.

B. The diesel will not start due to loss of control power.

C. The diesel will start but the output breaker will not close due to

loss of breaker control power.

D. The diesel will start and the output breaker will close.

Distracter Analysis:

A. Incorrect: - the diesel will run until the DG battery is exhausted

Plausible: - if the candidate thinks that 120 VAC control power

can be restored thru VADA.

B. Incorrect: - DG control power is not lost until 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> of DG

runtime.

Plausible: - if the candidate thinks that control power is lost due

to 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> idle drain on the battery or loss of EMXE.

C. Incorrect: - 125 VDC control power provides the needed

electrical power to start and load the DG

Plausible: - if the candidate believes that DG output breaker

control power is lost either by 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> idle drain on the battery or

loss of EMXE.

D. Correct: - D/G battery is sized for -2 hours runtime per Tech Spec Bases 3.8.4. The output breaker will close. However, after the

battery is exhausted, the diesel engine will continue to run. The

diesel generator will not receive field excitation but it may self

excite from residual magnetism.

Ques-436.1 For Official Use Only Page 21

Question #14 Catawba Nuclear Station RO Exam

Level: RO&SRO

KA: APE 055 AL.05 (3.3/3.6)

Lesson Plan Objective: DG-DGI Obj: 1, 14, 15, 18

Source: Bank

Level of Knowledge: Comprehension

References:

1. OP-CN-DG-DGI, page 13, 14, 26

2. Tech Spec Basis B3.8.4, page 2

Ques-436.1 For Official Use Only Page 22

Question # 15 Catawba Nuclear Station RO Exam

Bank Question: 453.3 Answer: C

1 Pt(s) Unit I was operating at 100% power when a loss of condenser vacuum

occurred. Given the following events and conditions:

• The operators initiated AP/09 (Rapid Downpower)

• Reactor power dropped to 80%

• Turbine load dropped to 82% based on turbine impulse pressure

• The operator reports that condenser vacuum is 23.8 inches vacuum

and is continuing to decrease slowly.

Which one of the following statements correctly describes the required

action?

A. Manually trip the turbine then trip the reactor and enter E-0

(Reactor Trip or Safety Injection) immediately.

B. Manually trip the reactor then trip the turbine and enter AP/2

(Turbine GeneratorTrip) immediately.

C. If vacuum reaches 21.8 inches, manually trip the reactor and

enter E-0.

D. If vacuum reaches 21.8 inches, manually trip the turbine and

enter AP/2.

Distracter Analysis: The operators should use AP/23 for a loss of

vacuum. The following turbine trip criteria are extracted from

AP/23 enclosure (1).

1. Turbine Trip Criteria:

IF condenser vacuum decreases to less than 21.8 in. Hg, THEN:

a. IF reactor power is greater than or equal to 69%, THEN

manually trip reactor.

b. Ensure turbine - TRIPPED.

c. IF reactor is tripped, THEN GO TO EP/i/A/5000/E-0 (Reactor

Trip Or Safety Injection).

d. REFER TO AP/1/A/5500/02 (Turbine Generator Trip).

IF turbine exhaust hood temperature is greater than 2250 F AND turbine

load is less than 60% (based on impulse pressure equal to 370 PSIG),

THEN:

a. Ensure turbine - TRIPPED.

b. REFER TO AP/1/A/5500/02 (Turbine Generator Trip).

A. Incorrect The turbine has not reached the trip setpoint.

Ques_453.3 For Official Use Only Page 23

Question #15 Catawba Nuclear Station RO Exam

Plausible: If the candidate does not know the turbine trip setpoint

or confuses condenser vacuum with condenser pressure (absolute)

B. Incorrect: The turbine has not reached the trip setpoint.

Plausible: If the candidate does not know the turbine trip setpoint

or confuses condenser vacuum with condenser pressure (absolute).

Note that the turbine would be tripped instead of the reactor if

power were < 69% per AP/23.

C. Correct:

D. Incorrect: The reactor should be tripped first, not the turbine

Plausible: the turbine would be tripped instead of the reactor if

power were < 69% per AP/23.

Level: RO&SRO

KA: G2.4.2

Lesson Plan Objective:

Source: Mod; Ques_453a, Catawba NRC 2001

Level of knowledge: memory

References:

1.AP/23 Encl (1) page 5

2. OP-CN-MT-ZM page 9

3. OMP 1-8 page 4

Ques-z453.3 For Official Use Only Page 24

Question #16 Catawba Nuclear Station RO Exam

Bank Question: 460.2 Answer. D

I Pt(s) If a large fire was reported in a vital area inside the RCA, which one of the

following responses is correct by station procedures?

A. The Fire Brigade must suppress this fire without assistance

because the Bethel Volunteer Fire Department is not allowed to

access vital areas under the NRC's post-9/11 anti-terrorist

orders.

B. The Fire Brigade must suppress this fire because Bethel

Volunteer Fire Department is not qualified to fight fire in a

radiologically controlled area.

C. The Fire Brigade is initially responsible for fire suppression

activities at the scene. Upon arrival, the Bethel Volunteer Fire

Department will take over control of the scene.

D. The Fire Brigade is primarily responsible for fire suppression

activities at the scene. The Bethel Volunteer Fire Department

will respond promptly to the scene and will function under the

Site Incident Commander.

Distracter Analysis:

A. Incorrect: - Offsite Fire Departments are allowed escorted access to

vital areas of the plant. Provisions are in place to allow the offsite

Fire Department to arrive at the scene promptly.

Plausible: - they have restrictions regarding leaving the site. The

NRC's post-9/l1 anti-terrorist orders place additional restrictions on

vital area access by non-permanent employees.

B. Incorrect: -Offsite Fire Departments are trained to fight fires in

radiologically controlled areas of the plant. Provisions are in place to

allow the offsite Fire Department to arrive at the scene promptly

Plausible: - If the candidate does not understand that offsite Fire

Departments are trained in radiological fires.

C. Incorrect: The Site Incident Commander retains responsibility for

the scene of the fire.

Plausible: The offsite Fire Departments are full-time professionals

and the candidate may think that the Fire Brigade Leader should turn

over the responsibilities to the offsite professionals.

D. Correct Incorrect: - The Fire Brigade is primarily responsible to

fight fire inside the protected area.

Level: RO&SRO

Ques 460.2

-

For Official Use Only Page 25

Question #16 Catawba Nuclear Station RO Exam

KA: G 2.4.27 (3.0/3.5)

Lesson Plan Objective: SS-RFY SEQ 38

Source: Mod Ques_460.1 McGuire NRC 2002

Level of knowledge: memory

References:

1. NSD 112 page I

Ques 460.2 For Official Use Only Page 26

Question #17 Catawba Nuclear Station RO Exam

Bank Question: 482.1 Answer: D

I Pt(s) During an outage, air-operated valves 2NV- 122B & 123B (Loop C To Excess

Ltdn HXIsol) are being used to isolate valve 2NV 124B (Excess Ltdn Press Cont)

for maintenance.

Which one of the following statements correctly describes the requirements for

using 2NV-122/123 as an isolation boundary?

A. Tag shut the air supply to the valves and tag open the air regulator

petcocks. Tags should also be firmly fixed around the remote

operating switch on the main control board.

B. Tag shut the air supply to the valves and tag closed the air

regulator petcocks. Tags should also be firmly fixed around the

remote operating switch on the main control board.

C. Tag shut the air supply to the valves and tag closed the air

regulator petcocks. A switch label should also be firmly fixed

around the remote operating switch on the main control board.

D. Tag shut the air supply to the valves and tag open the air regulator

petcocks. A switch labels should also be firmly fixed around the

remote operating switch on the main control board.

Distracter Analysis:

A. Incorrect: - switch labels are used on main control boards for tagging

remote switches - not red tags.

Plausible: -the position of the components is correct -

B. Incorrect: - the air regulator petcocks must be tagged open not closed

Plausible: - if the candidate does not know the proper position for

tagging the regulator petcock

C. Incorrect: - the air regulator petcock must be tagged open not closed -

tags are not hung on main control board switches

Plausible: if the candidate does not know the proper tagging for the air

operated valves

D. Correct answer - per NSD-500

Level: RO&SRO

KA: G 2.2.13 (3.6 / 3.8)

Lesson Plan Objective: NS02 Obj: 5

Ques_482.1 For Official Use Only Page 27

Question #17 Catawba Nuclear Station RO Exam

Source: Bank

Level of knowledge: memory

References:

1.OP-CN-ADM-NS02 page 9

2. NSD-500 page 5, 11

3. OMP 2-33 page 14

N-

Ques 4.82.1 For Official Use Only Page 28

Question #18 Catawba Nuclear Station RO Exam

Bank Question: 489.1 Answer: A

I Pt(s) Unit 1 was operating at 100% power following a refueling shutdown. Unit 2

was shutdown in mode 6. It was discovered that a spent fuel element from

the unit I refueling had been incorrectly stored in a filler location in the spent

fuel pool. The element had exceeded the burnup (GWD/MTU) requirements

to qualify for storage in a filler location.

Which one of the following statements describes the correct action(s)

required by Tech Specs to preserve spent fuel pool shutdown margin?

A. Immediately initiate action to move the non-complying fuel

assembly to an unrestricted storage location.

B. Immediately initiate actions to move the non-complying fuel

assembly to a restricted storage location and to shutdown Unit I

within I hour.

C. Initiate action to move the non-complying fuel assembly to a

restricted storage location within I hour.

D. Initiate actions to move the non-complying fuel assembly to an

unrestricted storage location and to shutdown Unit 1 within I

hour.

Distracter Analysis: Restricted locations in the spent fuel pool will store

spent fuel elements that have lower burnout. Elements that have

higher burnout must be stored in unrestricted areas.

A. Correct answer:

B. Incorrect: - moving the spent fuel element to a restricted location

would violate Tech Spec 3.7.16. Tech Spec 3.0.3 does not apply - no

need to shutdown unit 1.

Plausible: - If the candidate does not know the difference between

restricted and unrestricted locations and thinks that Tech Spec 3.0.3

applies to this condition.

C. Incorrect: - must initiate action immediately - not qualified for

storage in a restricted location.

Plausible: - I hour LCOs for important Tech Specs are common - a

"restricted" area may imply more reactive elements should be stored

there.

D. Incorrect: - must initiate action immediately - Tech Spec 3.0.3 does

not apply.

Ques_489.1 For Official Use Only Page 29

Question #18 Catawba Nuclear Station RO Exam

Plausible: - I hour LCOs for important Tech Specs are common

Tech Spec 3.0.3 requires initiating action to shutdown the unit within

I hour.

Level: RO&SRO

KA: SYS 033 A2.01 (3.0/3.5)

Lesson Plan Objective: KF Obj: 19, 22

Source: Mod McGuire NRC 1999

Level of knowledge: comprehension

References:

1. OP-CN-FH-KF page 13

2. Tech Spec 3.7.16

Ques_489. 1 For Official Use Only Page 30

Question #19 Catawba Nuclear Station RO Exam

Bank Question: 493.1 Answer: A

I Pt(s) Unit I was holding at 72% power during a load increase to 100% power

when one group of control rods in bank D failed to move with the rest of the

bank during a Xenon burnout transient. Given the following events and

conditions:

• Rod control was in automatic

• Rod control urgent failure alarm had NOT actuated

• Bank D group counter is at 112 steps

• 2 rods in bank D are at 120 steps

• 3 rods in bank D are at 108 steps

Which one of the following statements correctly describes the operator

actions prior to attempting rod realignment?

A. Place control rods in manual and do not move control rods. Hold

rods at present position until realignment.

B. Place control rods in manual and insert the 2 rods in bank D to

108 steps within one hour.

C. Place control rods in manual and withdraw the 3 rods in bank D

to 120 steps within one hour.

D. Trip the reactor and enter E-0.

Distracter Analysis: Tech Spec 3.1.4 LCO B requires rod position to be

restored within alignment limits (+ or - 12 steps) within one hour or

power reduced < 75%. A Xenon burnout causes positive reactivity to

be added and the rods will move IN to compensate. The candidate

must determine which rods are stuck if he/she cannot recall that the

rods can remain where they are if power is < 75%.

A. Correct: The rods do not exceed the >12-step alignment spec from

group counter - immediate action from API 5.

B. Incorrect: Reactor power is < 75% - not required to restore rod

position within one hour

Plausible: If power was > 75%, this would be correct

C. Incorrect: Reactor power is < 75% - not required to restore rod

position within one hour. Also, a Xenon burnout transient causes

rods to move IN not OUT in auto rod control. Thus the rods that are

stuck are at 120 steps not 108 steps. Attempting to insert the stuck

rods will not be successfil.

Ques-u493. 1 For Official Use Only Page 31

Question #19 Catawba Nuclear Station RO Exam

Plausible: Tech spec 3.1.4 requires rod alignment to be restored in

one hour or reduce power below 75%.

D. Incorrect: Rods are not > 12 steps misaligned

Plausible: If more than one rod is misaligned by > 12 steps, then the

immediate action would be to trip the reactor

Level: RO&SRO

KA: APE 005 EK1.03 (3.2/3.6)

Lesson Plan Objective: IRE Obj 18 EDA Obj: 6

Source: Mod Ques_493 Catawba NRC 1999

Level of knowledge: comprehension

References:

I .COLR Figure 2

2.Tech Spec 3.1.4

3. 1AD-2, B3 Comparator P/R Channel Deviation

4. OP-CN-IC-IRE page 22, 23

5. AP14 page 2

6. OP-CN-IC-EDA page 6

Ques_493 .1 For Official Use Only Page 32

Question #20 Catawba Nuclear Station RO Exam

Bank Question: 501.1 Answer: B

1 Pt(s) Unit 2 was operating at 100% power when a terrorist attack in the control

room caused the operators to rapidly evacuate to the Auxiliary Shutdown

Panel. The operators were not able to perform AP/17 (Loss of Control

Room) actions prior to evacuation at 0200.

The terrorists tripped the turbine but did not operate any other controls.

There are no other local operator actions taken. Given the following steam

generator narrow range levels:

0200 0202 0204 0206 0208

2A S/G NR 65% 37% 22% 15% 25%

2B S/G NR 64% 38% 23% 18% 26%

2C S/G NR 63% 39% 25% 16% 24%

2D S/G NR 65% 38% 26% 20% 27%

Which one of the following statements describes the complete list of

running feedwater pumps that can be monitored from the Auxiliary

Shutdown Complex when the operators first arrive at the panels at 0210 to

take local control of the plant?

A. Both motor driven CA pumps

B. Both motor driven CA pumps and the turbine driven CA

pump

C. Both motor driven CA pumps and both CF pumps (at

minimum speed)

D. Both motor driven CA pumps, the turbine driven CA pump

and both CF pumps (at minimum speed)

Distracter Analysis: The lo-lo setpoint for SGWL is 17% on Unit 2.

This causes:

• Reactor trip - on 1 of 4 S/Gs in 2 of 4 channels

• MD CA pumps auto-start - on I of 4 S/Gs in 2 of 4 channels

• TD CA pump auto-start - on 2 of 4 S/Gs in 2 of 4 channels

Only the CA pumps can be monitored from the Auxiliary Shutdown

Complex. The MD CA pumps are on the ASPs. The CAPT is

monitored from the Turbine Drive CA pump panel that is next to the

ASPs. These panels are all part of the Auxiliary Shutdown Complex.

Ques_501.1 For Official Use Only Page 33

Question #20 Catawba Nuclear Station RO Exam

A. Incorrect: CF pumps will not trip - this is done by a local operator

action in AP- 17, TD CA pump auto-starts.

Plausible: MD CA pumps will start when S/G levels < 17% on

1/4 S/Gs

B. Correct: The MD and TD CA pumps auto start. The CF pumps

will continue to run until tripped by local operator action in AP-17

but cannot be monitored from the Auxiliary Shutdown Complex.

C. Incorrect: The TD CA pump will auto start.

Plausible: The MD CA pumps auto start and the CF pumps remain

running

D. Incorrect: The CF pumps will continue to run at minimum speed

but cannot be monitored from the Auxiliary Shutdown Complex.

Plausible: If the candidates do not know that CF pumps do not

have a run indication on the Auxiliary Shutdown Complex.

Level: RO&SRO

KA: APE 068 AAl.12 (4.4/4.4)

Lesson Plan Objective: CP-RSS Obj: 4

Source: Mod

Level of Knowledge: Analysis

References:

1. OP-CN-CP-RSS page 9, 16-21

2. OP-CN-IC-IFE page 23

3. OP-CN-CF-CA page 9

Ques_501.1t For Official Use Only Page 34

Question #21 Catawba Nuclear Station RO Exam

Bank Question: 507 Answer: B

I Pt(s) Unit 2 is responding to a LOCA into the Auxiliary Building in ECA-1.2

(LOCA Outside of Containment). Upon completion of ECA- 1.2, NC system

pressure continues to decrease.

Which one of the following statements correctly describes the correct major

action to assure proper method of removing decay heat under these

conditions?

A. Transition back to E-1 (Loss of Reactor or Secondary Coolant).

B. Transition to ECA-1.1 (Loss of Emergency CoolantRecirculation).

C. Transition to ES-1.2 (Post LOCA Cooldown and Depressurization).

D. Transition to ES-1.3 (Transition to Cold Leg Recirc).

Distracter Analysis: This question does not require the candidate to

memonze procedure transitions. Instead, the candidate is expected to

logically assess conditions (LOCA into the AUX BLD that cannot be

isolated - pressure continues to decrease after completion of ECA-

1.2) and deduce that the containment sump inventory is still being

lost. The only correct procedure would be ECA- 1.I to address this

problem. All other procedure transitions do not work.

A. Incorrect: Not the correct procedural transition if the NC system

pressure continues to decrease (ie leak path not isolated).

Plausible: This IS the correct procedure if the NC system pressure

was stable or increasing.

B. Correct: continuing loss of inventory means that there may be

insufficient water in containment for recirculation cooling

C. Incorrect: Transition to ES-1.2 not allowed, as the leak is not

isolated.

Plausible: The name of the procedure is appropriate for the situation.

D. Incorrect: Transition to ES-1.3 not in accordance with the major

action steps.

Plausible: Although many actions are the same, it is not the correct

procedure.

Level: RO&SRO

KA: WE4 EA2.1 (3.4/4.3)

Lesson Plan Objective: EP2 Obj: 6, 13

Ques_507 For Official Use Only Page 35

Question #21 Catawba Nuclear Station RO Exam

Source: Bank

Level of knowledge: comprehension

References:

1. OP-CN-EP-EP2 page 12

2. ECA-1.2 page 6

Ques_507 For Official Use Only Page 36

Question #22 Catawba Nuclear Station RO Exam

Bank Question: 508.1 Answer. D

I Pts Unit 2 is responding to a main steam line break inside containment. Given

the following events and conditions:

Containment pressure is 0.1 psig

• The pressurizer is solid

• ES- 1.I (Safety Injection Termination) has been implemented

Which one of the following statements correctly describes the status of the

ECCS systems upon successful completion of ES- 1. I?

A. One NS pump running to provide containment pressure control

B. One ND pump running to provide adequate heat removal

C. One NI pump running to provide adequate inventory control

D. One NV pump running to provide a normal charging lineup

Distracter Analysis:

\ A. Incorrect: NS pumps are secured in ES-1.1, step 14

Plausible: If candidate does not know major actions of ES- 1. I

B. Incorrect: ND pumps are secured in ES- 1.1, step I

Plausible: If candidate does not know major actions of ES- 1. I

C. Incorrect: NI pumps are secured in ES- 1.1, step 11

Plausible: If candidate does not know major actions of ES- .I

D. Correct:

Level: RO&SRO

K/A: APE WEOI EK3.3 (3.8/4.0))

Lesson Plan Objective: EP2 Obj: 2, 9

Source: Mod NRC Catawba 1999

Level of Knowledge: memory

References:

1. OP-CN-EP-EP2 page 9

2. ES-1.lpages 10-12

Ques_508.1 For Official Use Only Page 37

Question #23 Catawba Nuclear Station RO Exam

Bank Question: 511.1 Answer. B

I Pt(s) Unit 2 is responding to a LOCA outside containment. The operators have

reached step 22 of E- 1 when the STA reports the following critical safety

functions (CSFs) status indications on the OAC:

CSF Status

1.NC INVENTORY Yellow

2. CORE COOLING Red

3. CONTAINMENT Green

4. NC INTEGRITY Green

5. HEAT SINK Red

6. SUBCRITICALITY Yellow

What is the correct order in which these CSFs shall be prioritized for

response?

A. 5,2,6,4,3,1

B. 2,5,6,1,4,3

C. 5,2,6,1,4,3

D. 2,5,6,4,3,1

Distracter Analysis:

A. Incorrect: Core cooling has a higher priority than heat sink for red

paths, and INVENTORY yellow takes precedence over greens.

Plausible: if the candidate reverses the relative priority of the red

paths, and thinks that the priority is the order of relative importance

of the CSFs for yellow/green.

B. Correct answer

C. Incorrect: Core cooling has a higher priority than heat sink for red

paths.

Plausible: If candidate reverses the relative priority of the red paths.

D. Incorrect: Core cooling and heat sink have higher priority than sub

criticality with a yellow path.

Plausible: If candidate does not recall the priority rules; this is the

correct order of priority without regard to COLORs.

Level: RO&SRO

KA: G 2.4.21 (3.7/4.3)

Ques_511.1 For Official Use Only Page 38

Question #23 Catawba Nuclear Station RO Exam

Lesson Plan Objective: EP-CSF Obj: 2

Source: Mod; Ques 511, Catawba NRC 1999

Level of knowledge: memory

References:

1. OP-CN-EP-CSF pages 6-7

2. OMP 1-7 page 11

Ques_511.1 For Official Use Only Page 39

Question #24 Catawba Nuclear Station RO Exam

Bank Question: 51&81 Answer: D

I Pt(s) Why do some of the phase A containment isolation valves located in lower

containment for the KC system have a separate manual reset on IMC7?

A. The valves use air operators, which are not subject to spurious

repositioning should they be submerged during containment

flooding therefore they may be reset and repositioned if required

by procedure.

B. The valves are all above the containment flooding level and are

not subject to spurious repositioning during containment

flooding therefore they may be reset and repositioned if required

by procedure.

C. A separate reset is required because a containment phase A

signal removes power from these valves causing them to fail

closed to prevent them from spuriously repositioning due to

containment flooding.

D. A separate reset is required because a containment phase A

signal disables the open circuits for these valves to prevent them

from spuriously repositioning due to containment flooding.

Distracter Analysis:

A. Incorrect: Valves have MOVs not AOVs

Plausible: Some plants have mainly AOVs in containment for this

reason

B. Incorrect: Valves are located below flooding plane

Plausible: This is one way of preventing the problem

C. Incorrect: Valves do not have closing power removed or this would

prevent actuation in response to a valid ESF signal

Plausible: This would prevent the valves from spuriously opening.

Some ECCS valves are protected this way.

D. Correct:

Level: RO&SRO

KA: WE15 EA1.3 (2.8/3.0)

Lesson Plan Objective: CNT Obj: 16

Source: Bank

Ques_518.1 For Official Use Only Page 40

Question #24 Catawba Nuclear Station RO Exam

Level of knowledge: memory

References:

1. OP-CN-CNT-CNT page 20

2. OP-CN-EP-FRZ pages 6, 7

Ques_518. 1 For Official Use Only Page 41

Question #25 Catawba Nuclear Station RO Exam

Bank Question: 521 Answer. C

1 Pt(s) Step 9.e of ECA-1 .1 (Loss of Emergency Coolant Recirculation) requires

operators to initiate NC system cooldown to cold shutdown:

"9.e Dump steam to condenser while maintainingcooldown rate

based on NC T-colds as close as possible without exceeding 100 F

in an hour."

Which one of the following statements is in accordance with this step?

A. Attention should be paid to maintaining the cooldown rate at

100 0 F/hr as an ideal value but not to be overly concerned if the

exact value is not achieved. Any previous cooldown that had

been conducted within the last hour needs to be considered.

B. Attention should be paid to maintaining the cooldown rate at

100 0 F/hr as an ideal value but not to be overly concerned if the

exact value is not achieved. Any previous cooldown that had

been conducted within the last hour does NOT need to be

considered.

C. Considerable attention must be devoted to achieving and

maintaining this cooldown rate - OMP 1-4 guidance on setpoints

does not apply to this step. Any previous cooldown that had been

conducted within the last hour needs to be considered.

D. Considerable attention must be devoted to achieving and

maintaining this cooldown rate - OMP 1-4 guidance on setpoints

does not apply to this step. Any previous cooldown that had been

conducted within the last hour does NOT need to be considered.

Distracter Analysis:

A. Incorrect: Not in accordance with the background document

knowledge/ability for this step.

Plausible: This is the standard OMP guidance for cooldowns.

B. Incorrect: Not in accordance with the background document

knowledge/ability for this step. Previous cooldowns need to be

considered.

Plausible: This isthe standard OMP guidance for managing

cooldown rates in most EOPs.

C. Correct answer - per the Background document

D. Incorrect: Must consider previous cooldowns

Ques_521 For Official Use Only Page 42

Question #25 Catawba Nuclear Station RO Exam

Plausible: Cooling down is very important under these

circumstances.

Level: RO&SRO

KA: WEI I EK3.2 (3.5/4.0)

Lesson Plan Objective: EP2 Obj: 28

Source: Bank

Level of knowledge: memory

References:

1. OP-CN-EP-EP2 page 13

2. 1ECA-1 . I Background document step 9e page 10

3. OMP 1.4 page 6

Ques_521 For Official Use Only Page 43

Question #26 Catawba Nuclear Station RO Exam

Bank Question: 531.1 Answer. B

1 Pt(s) Unit 2 is operating at 75% power. Given the following events and

conditions:

. 2CM-83 is in AUTO

• A load rejection occurs

Which one of the following statements correctly describes the response of

2CM-83, (Generator Load Rejection Bypass valve) during the load rejection?

A. 2CM-83 opens to provide condensate flow around the hotwell pumps

to assure minimum flow requirements.

B. 2CM-83 opens to provide additional condensate pressure to the

condensate booster pumps and bypass portions of the low pressure

CM system.

C. 2CM-83 closes to prevent a loss of water from the "C" heater drain

tank to the condensate booster pump suction.

D. 2CM-83 closes to prevent condensate water from being recirculated

to the suction of the condensate booster pumps.

Distracter Analysis:

A. Incorrect: 2CM-83 does not provide a flow path around the hotwell

pumps to meet minimum flow requirements

Plausible: 2CM-83 does open but CM-407 performs this function

B. Correct:

C. Incorrect: 2CM-83 opens - does not close

Plausible: 2CM-83 opens to route water from the hotwell pumps to

the condensate booster pumps.

D. Incorrect: 2CM-83 opens - does not close. Does not prevent water

from being recirculated around the hotwell pumps.

Plausible: 2CM-407 opens to assure minimum flow around the

hotwell pumps to prevent water hammer on the CM system during

startup.

Level: RO&SRO

KA: SYS 056 K1.03 (2.6/2.6)

Lesson Plan Objective: CM Obj: 6

Ques_531.1 For Official Use Only Page 44

Question #26 Catawba Nuclear Station RO Exam

Source: Bank

Level of knowledge: memory

References:

1.OP-CN-CF-CM page 12, 13

Ques-531.1 For Official Use Only Page 45

Question #27 Catawba Nuclear Station RO Exam

Bank Question: 540.1 Answer: C

I Pt(s) Unit 2 is responding to a LOCA.

Given the following sequence of events and conditions:

• A reactor trip and safety injection occurred

• All NV, NI and ND pumps sequenced on properly

• ECCS was reset

• The 2ETA bus momentarily lost power but was reenergized by the 2A D/G

Which one of the following statements describes the correct restoration

process for the train A NV, NI and ND pumps?

A. 2A NV pump must be restarted by operator action

2A NI pump will automatically restart

2A ND pump will automatically restart

B. 2A NV pump will automatically restart

2A NI pump will automatically restart

2A ND pump will automatically restart

C. 2A NV pump will automatically restart

2A NI pump must be restarted by operator action

2A ND pump must be restarted by operator action

D. 2A NV pump must be restarted by operator action

2A NI pump automatically restart

2A ND pump must be restarted by operator action

Distracter Analysis:

NV pumps are controlled by both the ECCS and blackout sequencers. NI

and ND pumps are controlled by the ECCS sequencer only

A. Incorrect: NI and ND pumps do not automatically restart, NV pump

will auto restart.

Plausible: Directed for psychometric balance by NRC (?)

B. Incorrect: NI pump does not auto restart

Plausible: NV pump will auto restart and ND pump must be

manually restarted

C. Correct answer

D. Incorrect: NV pump will auto restart, the NI pump will NOT auto

restart.

Plausible: ND pumps require manual restart.

Level: RO&SRO

KA: SYS 005 K2.01 (3.0/3.2)

Ques-540.1 For Official Use Only Page 46

Question #27 Catawba Nuclear Station RO Exam

Lesson Plan Objective: EQB Obj: 13

Source: Bank

Level of knowledge: comprehension

References:

1. OP-CN-EP-EQB page 25

Ques_540.1 For Official Use Only Page 47

Question #28 Catawba Nuclear Station RO Exam

Bank Question: 571.1 Answer: B

I Pt(s) Unit 2 is responding to a small break LOCA in ES- 1.2, (Post LOCA

Cooldown and Depressurization). Step 16 of ES- 1.2 requires the operators

to depressurize the NC system.

Which one of the following statements correctly describes the priority and

reasons for using the prescribed methods of depressurizing the NC system?

A.

1. Pressurizer spray - preferred method to be used if NC pump

is running

2. Auxiliary Spray - alternate method - better control over

depressurization rate

3. PORV - method of last resort - lack of control of

depressurization rate - results in rupturing the PRT

B.

1. Pressurizer spray - preferred method to be used if NC pump

is running

2. PORV - alternate method - better than auxiliary spray

3. Auxiliary Spray - method of last resort - too slow and may

thermal shock the spray nozzles and degrade regenerative

heat exchanger

C.

1. PORV - preferred method - rapid depressurization rate

2. Pressurizer spray - alternative method - next most rapid

depressurization rate

3. Auxiliary spray - method of last resort - too slow and may

thermal shock the spray nozzles

D.

1. Auxiliary spray - preferred method - does not degrade

containment

2. Pressurizer spray - alternative method - will not work if NC

pump is not running

3. PORV - method of last resort - will rupture PRT and degrade

containment environment

Distracter Analysis:

A. Incorrect: PORV is the alternative method - aux spray is the last

resort

Plausible: Pressurizer spray is the priority

Ques_571.1 For Official Use Only Page 48

Question #28 Catawba Nuclear Station RO Exam

B. Correct answer

C. Incorrect: Pressurizer spray preferred over PORV

Plausible: Aux spray is last resort

D. Plausible: Aux spray is the last resort

Plausible: Pressurizer spray preferred over PORV

Level: RO&SRO

KA: WE03 EK2.2 (3.7 /4.0)

Lesson Plan Objective: EP2 Obj: 24

Source: Bank

Level of knowledge: memory

References:

1. OP-CN-EP-EP2 pages 10-11

2. ERG Background Document ES-1.2 step 14 page 17

Ques-571.1 For Official Use Only Page 49

Question #29 Catawba Nuclear Station RO Exam

Bank Question: 592.1 Answer: C

1 Pt(s) Unit I is in mode 3. NC pressure is 1940 psig. CA auto start defeat

"Defeated" lights are lit

The following sequence of events occur on unit I while in mode 3:

1. CF isolation and the running CFPT trips on S/G Hi-Hi level

2. The S/G Hi-Hi level clears

3. CF isolation is reset

4. T-ave increases and NC pressure increases to 1960 psig

Which of the following correctly explains when (if at all) any CA pump(s)

should have automatically started?

A. Following the CF isolation reset.

B. When the S/G Hi-Hi level cleared.

C. When pressure increased above P-li.

D. The CA pumps have remained off for these events.

Distracter Analysis:

Tests the candidates' knowledge of the low suction pressure protection

circuitry when the CA has been reset.

A. Incorrect: defeated by CA auto start defeat

Plausible: could result in a CA pump start

B. Incorrect: defeated by CA auto start defeat

Plausible: normally true

C. Correct answer The auto start defeat will Auto RESET when above

P-lI and can be manually RESET at any time.

D. Incorrect: auto resets

Plausible: candidate does not recall the signal auto resets above P- Il

Level: RO&SRO

KA: SYS 061 A2.05 (3.1*/3.4*)

Lesson Plan Objective: CA Obj: 9

Source: Mod Ques_592 McGuire NRC 2000

Level of knowledge: analysis

Ques_592.1 For Official Use Only Page 50

Question #29 Catawba Nuclear Station RO Examr

References:

1. OP-CN-CF-CA pages 10 and II

Ques-592.1 For Official Use Only Page 51

Question #30 Catawba Nuclear Station RO Exam

Bank Question: 600 Answer: C

I Pt(s) Unit I is at 4% power, conducting a plant startup. Given the following

events and conditions:

• A control bank "A" rod drops

• NCS temperature decreases to 550 0 F

Which one of the following statements correctly describes the required

actions (if any)?

A. No technical specification action is required, however, the plant

must be shutdown to mode 3 to recover the rod.

B. Within 30 minutes, adjust power range N/Is to increase reactor

power so that reactor power and thermal power best estimate are

equal.

C. Within 30 minutes be in mode 2 with K,, less than 1.0.

D. Immediately trip the reactor and enter E-0 (Reactor Trip or

Safety Injection).

Distracter Analysis:

A. Incorrect: Tech Spec 3.4.2 is applicable in mode 2 when critical.

Plausible: The change from mode 2 to mode I occurs when power

exceeds 5%. If the candidate thinks that ITS 3.4.2 only applies in

mode 1,this would be a plausible mistake.

B. Incorrect: Thermal power would indicate lower, not higher than

reactor power due to increased thermalization of the neutrons. While

NI adjustment is a problem, this action does not comply with tech

spec 3.4.2.

Plausible: This was a recent event (July 1, 1998) at McGuire - but

the temperature remained under 551 0 F for only 4 minutes. The

concern expressed in the lessons learned report was for the NI power

to thermal power mismatch.

C. Correct answer

D. Incorrect: An immediate reactor trip is NOT required. AP/14

requires a controlled shutdown to mode 3 - but with temp only I 0 F

below minimum required for criticality, the best choice is C.

Shutting down to mode 3 is not a distracter.

Plausible: Seems like an appropriate response to finding yourself

below the minimum temperature for criticality - an overly

conservative response.

Ques 600 For Official Use Only Page 52

Question #30 Catawba Nuclear Station RO Exam

Level: RO&SRO

KA: G 2.1.11 (3.0/3.8)

Lesson Plan Objective: NC SEQ 10

Source: Bank

Level of knowledge: comprehension

References:

1.OP-CN-PS-NC page 33

2. Tech Spec 3.4.2 page 1

Ques_600 For Official Use Only Page 53

Question #31 Catawba Nuclear Station RO Exam

Bank Question: 602.1 Answer: A

I Pt(s) Unit 2 is responding to a LOCA. The crew has entered ES-1.2, Post LOCA

Cooldown and Depressurization.

Given the following events and conditions:

• NCPs tripped

• Pressurizer level is steady

• Only one train of ECCS is injecting

• Loop A temperatures are representative of all 4 loops

• MSIVs and steam dumps are open

Which one of the following sets of plant parameters is indicative of fully

established natural circulation as outlined in Enclosure 3, Natural Circulation

Monitoring Parameters?

REFERENCES PROVIDED: Steam Tables

Time 0200 0205 0210 0215

A. Steam Header Pressure (psig) 742 715 676 645

NC System Pressure (psig) 968 964 960 958

Loop A T-hot (0 F) 544 536 535 527

Loop A T-cold (IF) 512 510 502 497

B. Steam Header Pressure (psig) 742 709 676 645

NC System Pressure (psig) 968 972 975 981

Loop A T-hot (OF) 547 552 555 563

Loop A T-cold (0 F) 548 544 540 536

C. Steam Header Pressure (psig) 742 747 750 762

NC System Pressure (psig) 968 964 960 958

Loop A T-hot (pF) 544 536 535 527

Loop A T-cold (iF) 512 514 515 517

D. Steam Header Pressure (psig) 742 737 740 732

NC System Pressure (psig) 938 942 945 941

Loop A T-hot (0 F) 539 542 545 545

Loop A T-cold (0 F) 513 510 510 506

Distracter Analysis: The following conditions support natural circulation:

• S/G pressure stable of decreasing

• T-hot stable or decreasing

• T-cold stable or decreasing

• NC subcooling > 0 - NC pressure may trend up or down.

Ques-602.1 For Official Use Only Page 54

Question #31 Catawba Nuclear Station RO Exam

A. Correct: This shows indication of natural circulation flow occurring

- decreasing S/G pressure, T-cold at S/G saturation conditions and

decreasing, T-hot decreasing.

B. Incorrect: T-hot is increasing while steam pressure is decreasing

Plausible: Steam pressure and T-cold are both decreasing

C. Incorrect: Steam pressure is increasing and T-cold is tracking along

with this trend. Temperature difference is decreasing indicating that

heat removal rate is decreasing. This is a classic case of gas binding

Plausible: T-hot is decreasing.

D. Incorrect: No subcooling.

Plausible: T-cold is decreasing

Level: RO&SRO

KA: EPE 011 EA2.09 (4.3/4.5)

Lesson Plan Objective: HT Obj: 15

Source: Bank

Level of knowledge: analysis

1. EP/l/A/5000/ES-1.2 enclosure 3

2. steam tables

3. OP-CN-THF-HT page 8-10

Ques-602.1 For Official Use Only Page 55

Question #32 Catawba Nuclear Station RO Exam

Bank Question: 605.1 Answer: A

I Pt(s) Unit I trips from 100% power due to an electrical fault.

• 5 minutes later, IEMF-33 (Condenser Air Ejector Exhaust) alarms in trip 2.

Which one of the following indications will provide the best indication (most

sensitive and timely) to confirm that a S/G tube leak has just occurred?

A. Observing IEMF-26, 27, 28 and 29 (Steamline IA - ID)

B. Comparing S/G feed flow to steam flow mismatch

C. Observing 1EMF-34(L) (S/G sample (lo range))

D. Observing IEMF-71, 72, 73, 74 (SGCA-D leakage)

Distracter Analysis:

A. Correct answer: normally, EMF-71-74 are the most sensitive

monitors. But these monitors detect N16 7 radiation that has a high

energy (7 MeV) y that only is generated when the reactor is operating

at power (requires a neutron flux).

B. Incorrect: Not a sensitive method of comparison - requires large

gpm leak rates before this is noticeable.

Plausible: This method will show gross SGTRs

C. Incorrect: S/G sample line will isolate at EMF-33 trip 2 - the sample

line can only be lined up to I S/G at a time. If the leak is not in that

S/G, there will be no indication of anything after isolation. Prior to

isolation, it may show an increasing trend due to a general build up of

activity in the feedwater.

Plausible: This would be a good answer if the automatic isolation

did not occur

D. Incorrect: most sensitive method as it detects N"6 y radiation

Plausible: This was the correct answer for the 1997 NRC exam -

when the premise of the question had the reactor was operating at

100% power. In this question, the reactor has tripped and neutron

flux has decreased - causing the N' 6 y to decay off (TV2 is 7 seconds)

so that by the time that the steam line monitors see the contents of the

S/G, the N16 y has decayed away.

Level: RO&SRO

KA: SYS 039 A2.03 (3.4/3.7)

Lesson Plan Objective: SM Obj: 28

Source: Bank

Ques-605.1 For Official Use Only Page 56

Question #32 Catawba Nuclear Station RO Exam

Level of knowledge: comprehension

References:

1. OP-CN-STM-SM page 12, 13

Ques_605. 1 For Official Use Only Page 57

Question #33 Catawba Nuclear Station RO Exam

Bank Question: 731 Answer: A

I Pt(s) Federal Regulations require the emergency core cooling system to be

designed to maintain peak cladding temperature below 2200 'F.

Which one of the following statements correctly describes the basis for this

design criterion?

A. To prevent acceleration of the zircalloy-water reaction.

B. To prevent exceeding the zircailoy clad melting point.

C. To prevent exceeding the fuel melting point.

D. To prevent the onset of full film boiling and DNB.

Distracter Analysis:

A. Correct: The zirconium-water reaction is described by the following

chemical equation: Zr + 2H20 --> ZrO2 + 2H2 + HEAT. The rate of

this reaction is highly dependent upon clad temperature, such that

above approximately 18000F the reaction becomes significant. It

becomes accelerated at 2200 F and auto-catalytic (self-sustaining) at

48000 F.

B. Incorrect: Zircalloy will melt at approximately 3316 F.

Plausible: its approximately 900 degrees below the melting point.

C. Incorrect: fuel melt is a much higher temperature, 5 100F.

Plausible: a logical answer if the candidate doesn't know the answer

D. Incorrect: these are event specific mechanisms rather analysis

criteria.

Plausible: If the candidate confuses heat transfer mechanisms with

ECCS criteria.

Level: RO&SRO

KA: SYS 006 K3.02 (4.3/4.4)

Lesson Plan Objective: TA-AM SEQ 10

Source: Bank

Level of knowledge: memory

References:

1.OP-CN-IC-ISE page 5

Ques_731 For Official Use Only Page 58

Question #33 Catawba Nuclear Station RO Exam

2. OP-CN-TA-AM pages 7-9

3. IOCFR50.46

Ques_731 For Official Use Only Page 59

Question #34 Catawba Nuclear Station RO Exam

Bank Question: 736.1 Answer: D

I Pt(s) Unit 2 is in the process of conducting a plant startup.

Power range channels indicate the following:

PR N41 = 8%

• PR N42 = 8%

• PRN43= 10%

• PR N44 = 8%

Assuming no operator action, which of the following conditions would result

in an automatic reactor trip?

A. All four RCPs trip.

B. One turbine impulse pressure channel fails high.

C. NCS controlling pressurizer level channel fails low.

D. NCS controlling pressurizer pressure channel fails high.

Distracter Analysis:

A. Incorrect: all loop flow trips are automatically blocked below P-7

Plausible: if the candidate does not recall that the NCP trip is

blocked by P-7. The operators would manually trip the reactor in

AP/08 for this condition.

B. Incorrect: P-7 would be enabled, but this does not cause a trip

Plausible: if the candidate is confused over the effect of turbine

impulse on main generator trip

C. Incorrect: Pressurizer High Level, Pressurizer Low Pressure,

blocked by P-7

Plausible: an old horse is that if Pzr level fails low, eventually the

reactor will trip on high Pzr level.

D. Correct: As pressure decreases to 1845 psig, SI is actuated. The SI

signal generates a Reactor Trip Signal. The failure of the NCS

controlling pressure channel will cause spray actuation to reduce

pressure to the S/I setpoint.

Level: RO&SRO

KA: SYS 010 K3.03 (4.0/4.2)

Lesson Plan Objective: ISE Obj: 4

Source: Mod Catawba NRC 2000

Ques_736.1 For Official Use Only Page 60

Question #34 Catawba Nuclear Station RO Exam

Level of knowledge: comprehension

References:

1.OP-CN-ECCS-ISE page 14

.. >

Ques_736.1 For Official Use Only Page 61

Question #35 Catawba Nuclear Station RO Exam

Bank Question: 757 Answer. B

I Pt(s) Units I and 2 are operating at 100% power with a normal service water line-up

and RN pump 2A running. Given the following conditions and indications:

• RN pumps lA, lB and 2B start.

• 1 and 2 RN-48B (RNSUPPLYX-OVER ISOL) close

• 1 and 2 RN-47A (RNSUPPLYX-OVER ISOL) remain open

• RN suction and discharge valves swap to the SNSWP.

Which one of the following conditions correctly describes the cause of this

condition?

A. The Lake Wylie dam failed.

B. RN pump intake pit "A" screens are clogged.

C. RN pump intake pit "A" level indicator (RNINTAKEPITLVL "A")

failed low.

D. There was a spurious containment phase "B" actuation on Unit 1.

Distracter Analysis:

A. Incorrect: low lake level would cause a low level in both RN pump pits A

and B, which would close valves l/2RN-47A

Plausible: Partially correct - all other actuations would occur

B. Correct:

C. Incorrect: requires 2 of 3 level instruments to fail to get the actions.

Plausible: if the candidate does not know the coincidence logic.

D. Incorrect: would not cause RN suction valves to swap to the SNSWP -

would cause IRN-47A to close and would not cause 2RN-48B to close

Plausible: partially correct - would cause all other conditions

Level: RO&SRO

KA: APE 062 AAl.02 (3.2/3.3)

Lesson Plan Objective: PSS-RN Obj: 12

Source: Bank

Level of knowledge: comprehension

References:

Ques-757 For Official Use Only Page 62

Question #35 Catawba Nuclear Station RO Exam

1. OP-CN-PSS-RN pages 14, 15,32-33

2. AP-29 Enc 14 page 110

Ques_757 For Official Use Only Page 63

Question #36 Catawba Nuclear Station RO Exam

Bank Question: 769.1 Answer: C

I Pt(s) Unit I is recovering from a loss of secondary coolant accident. Safety

injection initiated properly. A total loss of feedwater has caused the

operators to implement FR-H. 1, (Loss of Secondary HeatSink). Given the

following plant conditions:

NCS Pressure 2335psig

NCS Temperature 5650F

S/G IA, IB, ICPressure 1180psig

S/G IA, iB, IC Level (WR) 12%

S/G ID Pressure 1OOpsig

S/G ID Level (WR) 35%

VI system pressure 1Opsig

Containment pressure 3.4psig

Which one of the following actions is initially required to assure the

maintenance of adequate core cooling?

A. Depressurize S/G IA, 1B, and IC to allow feeding the S/G using

the condensate system.

B. Reset the CAPT and align it to feed S/G's 1A, 1B and IC.

C. Open 1NC-32B (PZR PORT and INC-34A (PZR PORT) using

nitrogen pressure.

D. Reset safety injection and containment phase "A" isolation

signals to re-establish instrument air pressure to open 1NC-32B

and 1NC-34A.

Distracter Analysis: The FR-H. I values for dry S/G level is < 12% (ACC <

21%). Because containment pressure is 3.4 psig, ACC values are in

effect.

A. Incorrect: Can't feed dry S/G's

Plausible: if the candidate does not recognize dry S/G criteria met,

this is one FR-Z. 1 recovery method.

B. Incorrect: Can't feed dry S/G's

Plausible: if the candidate does not recognize dry S/G criteria met,

this is one FR-Z. 1 recovery method.

C. Correct:

D. Incorrect: Must reset Sp to reopen VI valves.

Plausible: if the candidate thinks that VI is a phase "A" isolated

system.

Ques_769.1 For Official Use Only Page 64

Question #36 Catawba Nuclear Station RO Exam

Level: RO&SRO

KA: WE05 G2.1.32 (3.4/3.8)

Lesson Plan Objective: FRH Obj: 2

Source: Bank

Level of knowledge: analysis

References:

1.OP-CN-EP-FRH page 6

2. FR-H. I background document step 17, page 18

Ques_769.1 For Official Use Only Page 65

Question #37 Catawba Nuclear Station RO Exam

Bank Question: 793.2 Answer. D

1Pt(s) Unit 2 is operating at 100% power with all rods out.

An operator notices that one core exit thermocouple (T/C) for quadrant 11

on the plasma display was 6200 F but suddenly spiked to 6700 F.

• Other nearby T/Cs indicate a steady 6200 F with no change in indicated

temperature.

• The reference junction effective temperature is designed to be controlled

at 1650F for all T/Cs.

The following instrument diagram represents the T/C measuring circuit.

TR.4 Tmot

Which one of the following statements correctly describes the reason for this

thermocouple to read much higher than the other thermocouples?

A. The thermocouple measuring junction has been shorted.

B. The thermocouple measuring junction has an open circuit.

C. The thermocouple reference junction effective temperature has

increased by 50F.

D. The thermocouple reference junction effective temperature has

decreased by S0WF.

Distracter Analysis: The voltage across any thermocouple junction

increases as the temperature of that junction increases. The temperature

measuring instrument measures the difference between the reference junction

emf (at Tref) and the T/C (at Thot). If the effective temperature of the

reference junction decreases, the EMF of the reference junction decreases

and the apparent measured temperature increases.

A. Incorrect: a short across the Thot thermocouple causes the removal

of the difference in EMF; the T/C will read low as the EMF is

shorted.

Plausible: If the candidate thinks that the Tref emf nominal value is

greater than then Thot emf value.

Ques_793.2 For Official Use Only Page 66

Question #37 Catawba Nuclear Station RO Exam

B. Incorrect: an open measuring junction causes a removal of the

measured emf and the temperature indication will indicate the value

of Tref

Plausible: if candidate believes that, like an RTD and open, causes a

high reading

C. Incorrect: the temperature measured is based on the difference on

voltage between the reference junction (at a lower temperature) and

the T/C. If the reference junction is heated above the nominal Tref

value, then the voltage difference will decrease and the temperature

signal will decrease.

Plausible: if the candidate reverses the effects

D. Correct: the temperature measured is based on the difference on

voltage between the reference junction at a lower temperature (Tref)

and the T/C at Thot. If the reference junction is cooled below the

nominal Tref value, then the voltage difference will increase and the

temperature signal will increase.

Level: RO&SRO

KA: SYS 017 K6.01 (2.7/3.0)

Lesson Plan Objective: IG Obj: 2

Source: Mod Catawba NRC 2000

Level of knowledge: comprehension

References:

1.OP-CN-SS-IG page 10

2. OP-CN-PS-CCM page 15

Ques_793.2 For Official Use Only Page 67

Question #38 Catawba Nuclear Station RO Exam

Bank Question: 796 Answer: C

I Pt(s) Unit I was operating at 100% power. Given the following events and

conditions:

I AD-6 F/R , (PRTHITEMP) in alarm

• I AD-6 F/I I (PRTHI PRESS) in alarm

• Lower containment temperature = 124 0F

The NC system is at normal operating temperature

• Letdown is in service

Which one of the following statements correctly describes a condition that

could cause these alarms?

A. The PRT has heated up due to ambient containment

temperature.

B. I ND-3 or 1ND-38, (ND SUCTION RELIEF VAL VEs) have lifted.

C. 1 NV-15B (LETDN CONTISOL) has spuriously closed.

D. The reactor vessel inner O-ring has leaked.

Distracter Analysis: The symptoms should cause the operators to enter

AP/ 10 for NC system leakage.

A. Incorrect: Containment temperature is less than PRT temperature.

Plausible: Heat up from containment ambient conditions can cause

this to occur if containment temperature is high enough.

B. Incorrect: the ND system is too low in temperature and isolated from

the NC system, to cause this to occur even if the ND suction relief

were to lift.

Plausible: the ND suction relief line goes to the PRT.

C. Correct: if INV-15B closes, the letdown relief valve 1NV-14 will

lift and relieve to the PRT.

D. Incorrect: the reactor vessel inner O-ring leaks to the NCDT.

Plausible: if the candidate thinks that this leaks to the PRT

Level: RO&SRO

KA: SYS 007 G2.4.4 (4.0/4.3)

Lesson Plan Objective: NC Obj: 3

Source: Bank

Ques-796 For Official Use Only Page 68

Question #38 Catawba Nuclear Station RO Exam

Level of knowledge: comprehension

References:

1. OP-CN-PS-NC pages 12, 21-22, 25-26, 31

2. OP-CN-PS-NV pages 11-13

3. OP/I/B/6100/OOG F/10, F/lI

Ques_796 For Official Use Only Page 69

Question #39 Catawba Nuclear Station RO Exam

Bank Question: 828 Answer: B

I Pt(s) Unit Iwas operating at 7% power when an electrical problem causes the loss

of ITIB. Given the following events and conditions in chronological

sequence:

• Voltage on short buses ITB and LTD drops to 75%

• Frequency on short buses ITB and ITD decreases to 55 hertz.

• The ITB-to- ITD fast bus transfer fails to occur

• All equipment operates as designed.

• No operator action

What is the current status of the unit?

A. The reactor does not trip, B and D NCPs trip.

B. The reactor does not trip, all NCPs trip.

C. The reactor trips, B and D NCPs trip.

D. The reactor trips, all NCPs trip.

Distracter Analysis:

A. Incorrect: all NCPs are tripped

Plausible: partially correct - power is below P-7, candidate may not

know UF will trip all NCPs.

B. Correct: UF (56 hertz) will trip all NCP breakers, because power is

less than P-7, the reactor will not trip.

C. Incorrect: the reactor does not trip if below P7 - all NCPs are

tripped

Plausible: partially correct - B& D NCPs do trip - candidate may

think UF trips only B and D NCPs and because it is always in effect,

may trip the reactor.

D. Incorrect: the reactor does not trip if below P7

Plausible: candidate may think UF trips all NCPs and because it is

always in effect, may trip the reactor.

Level: RO&SRO

KA: SYS 062 K4.03 (2.8/3.1)

Lesson Plan Objective: NCP Obj: 8 EP Obj: 12

Source: Bank

Ques_828 For Official Use Only Page 70

Question #39 Catawba Nuclear Station RO Exam

Level of knowledge: comprehension

References:

1. OP-CN-PS-NCP page 20,21, 22, 23

2. OP-CN-EL-EP page 29, 30

Ques-828 For Official Use Only Page 71

Question #40 Catawba Nuclear Station RO Exam

Bank Question: 829 Answer.A

I Pt(s) Unit I was operating at 100% power when the crew detects indications of a

loss of NC inventory. Given the following events and conditions:

• All systems are in automatic

• Indicated letdown flow is 62 gpm

• INV- I3A (LTDN ORIF IA OTLT CONTISOL) is open

• Letdown pressure is 350 psig

• Seal return - 3.5 gpm per NCP

• Indicated charging flow - 90 gpm

• Indicated seal injection flow - 35 gpm

• VCT level is decreasing

• Pressurizer pressure and level are constant

• Containment humidity is increasing

Which one of the following statements correctly describes the location of the

leak?

A. Letdown line, between the letdown orifice and the containment

isolation valve.

B. Charging line between 1NV-309 (Seal Water Injection Flow) and

INV-294 (NVPumps A&B Disch Flow CTRL).

C. Charging line inside containment.

D. One of the RCS loops.

Distracter Analysis:

A. Correct: if the leak is on the letdown line, VCT level will drop,

charging and letdown will be matched and pressurizer level will

remain constant.

B. Incorrect:

Plausible: operator misses that these valves are outside containment.

C. Incorrect: charging leak would be indicated by increased charging.

Plausible: candidate misinterprets indications.

D. Incorrect: Charging flow would have to increase.

Plausible: candidate assumes it's a small leak and misinterprets the

indications.

Level: RO&SRO

KA: SYS 004 Al. II (3.0/3.0)

Ques_829 For Official Use Only Page 72

Question #40 Catawba Nuclear Station RO Exam

Lesson Plan Objective: none

Source: Bank

Level of knowledge: analysis

References:

1. OP-CN-PS-NV page 20-25

2. K/A EPE 009 EA2.02 (3.5/3.8)

Ques-829 For Official Use Only Page 73

Question #41 Catawba Nuclear Station RO Exam

Bank Question: 834 Answer: B

I Pt(s) Unit 1 was operating at 100% when a design basis LOCA occurred.

Radiation monitoring teams at the site boundary report that projected Iodine

131 dose is 25 rem.

Which one of the following statements correctly describes the cause of this

problem on the VE filter trains?

A. The HEPA filters are saturated

B. The charcoal filters are saturated

C. The prefilter/demisters are saturated

D. The VE filter unit preheaters are energized

Distracter Analysis:

A. Incorrect: HEPA filters do not remove radioactive Iodine

Plausible: HEPA filter remove small particulates

B. Correct:

C. Incorrect: Prefilter/demister do not remove Iodine.

Plausible: If the candidate does not know the prefilter function.

D. Incorrect: Heaters are supposed to be energized.

Plausible: If the candidate does not know the heater function.

Level: RO&SRO

KA: SYS 027 K5.01 (3.1/3.4)

Lesson Plan Objective: CNT-VE Obj: 2, 3

Source: Bank

Level of knowledge: memory

References:

1. OP-CN-CNT-VE pages 5-6

Ques_834 For Official Use Only Page 74

Question #42 Catawba Nuclear Station RO Exam

Bank Question: 843.1 Answer: A

1 Pt(s) Unit I is operating at 75% power and Unit 2 is at 100% power. Given the

following events and conditions:

• Switchyard breakers PCB 20 and 21 open.

Which one of the following statements correctly describes the effect on units

I and 2?

A. Unit I will remain at 75% power and unit 2 will runback to

approximately 56%.

B. Unit 1 will runback to approximately 30% and unit 2 will remain

at 100%/

C. Unit I will runback to approximately 56% and unit 2 will remain

at 100%.

D. Both units I and 2 will runback to approximately 56%.

Distracter Analysis:

A. Correct: Unit 2 is affected, unit I is not.

B. Incorrect: Unit I will not runback

Plausible: answer transposed - if candidate believes unit I affected

and will runback for 3 minutes at 15%/minute.

C. Incorrect: Unit I will not runback

Plausible: previous correct answer on earlier test.

D. Incorrect: Unit I will not runback

Plausible: partially correct - if candidate believes both units

affected.

Level: RO&SRO

KA: SYS 062 A4.01 (3.3/3.1)

Lesson Plan Objective: EP Obj: 39

Source: Mod Catawba Audit Exam 2000

Level of knowledge: comprehension

References:

1. OP-CN-EP-EP pages 11 and 12

Ques_843.1 For Official Use Only Page 75

Question #43 Catawba Nuclear Station RO Exam

Bank Question: 857.2 Answer: C

I Pt(s) Unit 2 is operating at 100% power. Pressurizer level is on program, and

normal charging is in service and letdown flow is through a 75 gpm orifice.

Given the following events and conditions:

• 2NV-314B (CHARGING LINE CONT OUTSIDE ISOL) spuriously closes

due a relay failure

• Flashing in the letdown line reduces letdown flow to 5 gpm

Without operator action, approximately how long before a pressurizer level

deviation alarm actuates?

Assume 135 gallons = 1% pressurizer level

A. A low-level deviation alarm will occur in less than one hour.

B. A low-level deviation alarm will occur in greater than one hour.

C. A high-level deviation alarm will occur in less than one hour.

D. A high-level deviation alarm will occur in greater than one hour.

Distracter Analysis:

Charging flow is reduced to the minimum value - goes to 32 gpm to the NCP

seals. 12 gpm seal flow goes to the VCT.

PZR level starts on program (55%) and must change by 5% to actuate a

deviation alarm. 5% x 135 gallons is 665 gallons.

The reduction in charging flow into the NCS causes charging flow to reduce

to minimum (32 gpm) as the PZR fills up. NCP Seal flow continues (12

gpm). Letdown flow drops to 5 gpm because of high regen HX outlet

temperature (flashing at the orifices). Net charging flow drops to +15 gpm

(32 - 12 - 5)

665 gallons/15 gpm = 44.3 minutes.

A. Incorrect: level will increase not decrease

Plausible: If candidate miscalculates and believes level will decrease

because NC is supplying seal injection.

B. Incorrect: level will increase not decrease

Plausible: If the candidate believes only the 5 gpm letdown is causing

level to decrease.

C. Correct: Alarm should occur in 44 - 45 minutes

D. Incorrect: Alarm should occur in 44 - 45 minutes

Plausible: If the candidate miscalculates or does not know the

deviation is 5%, or neglects the 12 gpm loss due to the seal leakoff.

Ques 857.2 For Official Use Only Page 76

Question #43 Catawba Nuclear Station RO Examr

Level: RO&SRO

KA:APE 022 AA2.04 (2.9/3.8)

Lesson Plan Objective: NV Obj: 2,3,4

Source: Mod Ques_857.1 McGuire NRC 2002

Level of knowledge: analysis

References:

1. OP-CN-PS-NV pages 12

2. OP-CN-PS-ILE page 19

Ques_857.2 For Official Use Only Page 77

Question #44 Catawba Nuclear Station RO E-xam

Bank Question: 865.2 Answer. A

I Pt(s) Unit 2 is at full power when the following events occur:

• Reactor power is approximately 98%

• NCS TaV is increasing

• Main turbine load is 1150 MWe

• Feedwater flow continues to operate as designed

• The RO is manually inserting rods

Which one of the following statements correctly describes the EOP basis in

FR-S. I (Response to Nuclear Power Generation/A TWS) for immediately

tripping the turbine?

A. Prevent an uncontrolled cooldown and positive reactivity

addition.

B. Maintain or extend steam generator inventory.

C. Prevent turbine overspeed when the main generator trips.

D. Minimize the peak pressure transient for the event.

Distracter Analysis:

A. Correct: The basis in the EOPs is to prevent an uncontrolled

cooldown and causing a positive reactivity addition

B. Incorrect: if the main feedwater pumps continue to operate, the S/G

inventory will not be a problem

Plausible: This is the EOP basis for an ATWS with a loss of

feedwater

C. Incorrect: The basis in the EOPs is to prevent an uncontrolled

cooldown and causing a positive reactivity addition

Plausible: concern for the operation of the turbine

D. Incorrect: The basis in the EOPs is to prevent an uncontrolled

cooldown and causing a positive reactivity addition. The peak

pressure will actually be greater if the turbine is tripped early in the

transient.

Plausible: minimizing the peak pressure is always a good thing for

an accident.

Level: RO&SRO

KA: EPE 029 EK1.02 (2.6/2.8)

Lesson Plan Objective: FRS Obj: 5

Source: Mod McGuire NRC 2002

Ques_865.2 For Official Use Only Page 78

Question #44 Catawba Nuclear Station RO Exam

Level of knowledge: memory

References:

1. OP-CN-EP-FRS pages 5-7

2. FR-S. I page 2

3. FR-S. I Background Step 2 page 2

Ques_865.2 For Official Use Only Page 79

Question #45 Catawba Nuclear Station RO Exam

Bank Question: 870 Answer. A

I Pt(s) Unit I was operating at 100% power. Given the following trends on the

IA NCP:

Time 0200 0205 0210 0215

Motorbearingtemp(OF) 180 184 186 195

Lower pump bearing temp (OF) 221 225 228 231

1. 1 seal outlet temp (F) 205 227 235 251

Motorwindingtemp(OF) 312 314 316 323

What is the earliest time at which the IA NCP must be secured?

A. 0200

B. 0205

C. 0210

D. 0215

Distracter Analysis:

NCP Trip criteria:

Any motor bearing temperature > 1950 F

Seal Outlet temperature > 2350 F

Motor winding temperature > 311 OF

(Any bearing water exit temperature > 225WF)

A. Correct: NCP must be stopped if motor winding temperature reaches

311 degrees at 0200

B. Incorrect: NCP must be stopped at 0200

Plausible: reaches the temperature for securing NCP on lower

bearing.

C. Incorrect: NCP must be stopped at 0200

Plausible: reach the limit for securing NCP on seal outlet temp at

0210

D. Incorrect: NCP must be stopped at 0200

Plausible: reach the temperature for stopping NCP on motor bearing

at 0215

Level: RO&SRO

KA: APE 015 AK2.10 (2.8*/2.8)

Ques_870 For Official Use Only Page 80

Question #45 Catawba Nuclear Station RO Exam

Lesson Plan Objective: NCP Obj: 12

Source: Bank

Level of knowledge: memory

References:

1. OP-CN-PS-NCP pages 7, 10, 14, 15

Ques_870 For Official Use Only Page 81

Question #46 Catawba Nuclear Station RO Exam

Bank Question: 906.1 Answer: A

1 Pt(s) A station emergency battery is supplying DC bus loads without a battery

charger on line.

If the equipment load on the DC bus does not change, which one of the

following battery discharge curves describes the battery capacity as a

function of the battery discharge rate?

bJW ar C dPJCIC bawd cPJck

I

I

Al - ........19 B-- 1 9Cb.race

I I

C~

OISCh1IQ rJ'. cIschjrge:av

Distracter Analysis:

A. Correct: As battery voltage drops, discharge current will increase to

maintain power to the same load

B. Incorrect: Battery capacity decreases as discharge rate increases

Plausible: If the candidate does not apply E=IR and P=IE correctly

C. Incorrect: Battery voltage decreases slowly initiatally

Plausible: If the candidate does not apply E=IR and P=IE correctly

D. Incorrect: Battery capacity decreases as discharge rate increases

Plausible: If the candidate does not apply E=IR and P=IE correctly

Level: RO&SRO

KA:SYS 063 Al.01 (2.5/3.3)

Lesson Plan Objective: EPL Obj: 4, 21

Ques_906.1 For Official Use Only Page 82

Question #46 Catawba Nuclear Station RO Exam

Source: Mod Ques_906 McGuire NRC 2002

Level of knowledge: comprehension

References:

1. OP-CN-EP-EPL page 7,8

Ques-906.1 For Official Use Only Page 83

Question #47 Catawba Nuclear Station RO Exam

Bank Question: 907.1 Answer: A

I Pt(s) Unit I is responding to a S/G tube rupture in E-3 (Steam GeneratorTube

Rupture). Given the following events and conditions:

• The target temperature has been determined.

• P-lI has been reached and the operators have blocked main steam

isolation signal.

• Operators are preparing to open the steam dumps to cooldown to the

target temperature at step 19f of E-3.

What is the applicable limit for the operator opening the steam dumps?

A. The steam dumps should be opened as far as possible to dump

steam at a maximum rate while attempting to avoid a main

steam isolation.

B. Steam dumps should be opened to limit the cooldown rate to less

than 100 degrees/hour to prevent exceeding Tech Spec limits.

C. Steam dumps should be opened to limit the cooldown rate to less

than 25 degrees/hour to prevent pressurized thermal shock

concerns.

D. All steam dumps should be fully opened to depressurize the S/Gs

as quickly as possible.

Distracter Analysis:

A. Correct: E-3 requires depressurizing at the maximum rate while

avoiding a main steam isolation signal at 100 psig/sec (setpoint is rate

dependent) when below P-lI 1. The steam pressure rate is swapped

for low steam pressure main steam isolation when below P-l 1.

B. Incorrect: E-3 requires depressurizing at the maximum rate while

avoiding a main steam isolation signal at 100 psig/sec

Plausible: While TS limits apply, the dumps will be isolated long

before that limit is approached. This is the TS cooldown limit.

C. Incorrect: E-3 requires depressurizing at the maximum rate while

avoiding a main steam isolation signal at 100 psig/sec

Plausible: PTS and limiting cooldown are reasonable concerns for

other events.

D. Incorrect: E-3 requires depressurizing at the maximum rate while

avoiding a main steam isolation signal at 100 psig/sec - The steam

pressure rate is swapped for low steam pressure main steam isolation

when below P-l1.

Ques_907.1 For Official Use Only Page 84

Question #47 Catawba Nuclear Station RO Exam

Plausible: if the operator does not recognize that blocking P- 1

swaps the main steam isolation signal from low steam pressure to

steam pressure rate of 100 psig/sec.

Level: RO&SRO

KA: EPE 038 AI.05 (4.1/4.3)

Lesson Plan Objective: EP4 Obj: 19

Source: Mod McGuire NRC 2002

Level of knowledge: memory

References:

1.OP-CN-EP-EP4 page 8

2. E-3 page 20

3. E-3 Background Document step 19 pages 23-28

Ques_907.1 For Official Use Only Page 85

Question #48 Catawba Nuclear Station RO Exam

Bank Question: 911.1 Answer: B

I Pt(s) Unit I was operating at 100% power when a loss of offsite power caused a

reactor trip. The crew has verified natural circulation in ES-0. 1 (Reactor

Trip Response). Ten minutes later, the operator notes that the thermocouple

input to both plasma displays is malfunctioning.

Which one of the following correctly describes a valid indication that natural

circulation is continuing?

A. S/G saturation temperatures are decreasing and REACTOR VESSEL

UR LEVEL indication is greater than 100 %.

B. S/G pressures are decreasing and Tc0,, is at S/G saturation

temperature.

C. S/G pressures are decreasing and REACTOR VESSEL DIPindication

is greater than 100%.

D. S/G pressure is at saturation pressure for TCOId and REACTOR

VESSEL DIP indication is greater than 100 %.

Distracter Analysis:

A. Incorrect: There is no indication of coupling between primary and

secondary.

Plausible: These are important indications during natural circulation.

B. Correct:

C. Incorrect: RVLIS is unavailable during natural circulation.

Plausible: S/G pressure decreases during natural circulation and

RVLIS is one of the other plasma display indications.

D. Incorrect: RVLIS is unavailable during natural circulation.

Plausible: S/G pressure will remain close to saturation for Tcold

during natural circulation and RVLIS is one of the other plasma

display indications.

Level: RO&SRO

KA: APE 056 AK1.01 (3.7/4.2)

Lesson Plan Objective: HT Obj: 15

Source: Bank

Level of knowledge: memory

Ques_911.1 For Official Use Only Page 86

Question #48 Catawba Nuclear Station RO Exam

References:

1. ES-O.1 page 12

2. ES-O. 1 Enclosure 2 page 21

Ques_911.1 For Official Use Only Page 87

Question #49 Catawba Nuclear Station RO Exam

Bank Question: 957.1 Answer. D

I Pt(s) Unit I is operating at full power. Given the following containment

ventilation lineup:

• 3 Lower Containment Ventilation Units (LCVUs)

• 1 Pipe Tunnel Booster Fan (PTBF)

• 3 Control Rod Drive Mechanism (CRDM) Vent Fans

• 1 Incore Instrument Room Air Handling Units (IIRAHUs)

• 3 Upper Containment Ventilation Units (UCVUs)

• Both Containment Auxiliary Charcoal Filter Units (CACFUs) are

shutdown

A loss of offsite power occurs on Unit 1. Both diesel generators start and

energize ETA and ETB. Sequencing is complete. No operator action has

been taken regarding the electric plant.

What is the expected Containment Ventilation lineup?

A. LCVUs, UCVUs and CRDM fans will be running; all other

equipment will be shutdown.

B. LCVUs, UCVUs, CACFUs and CRDM fans will be running; all

other equipment will be shutdown.

C. LCVUs, UCVUs, CACFUs, PTBFs and CRDM fans will be

running; all other equipment will be shutdown.

D. LCVUs, UCVUs, PTBFs, LIRAHUs and CRDM fans will be

running; all other equipment will be shutdown.

Distracter Analysis:

A. Incorrect: Each train starts their respective fans, even those not

running previously, except for the CACFUs.

Plausible: Partially correct - LCVUS, UCVUs and CRDM fans will

start - if candidate believes that just the ventilation fans inside

containment except CACFUs start.

B. Incorrect: Each train starts their respective fans, even those not

running previously, except for the CACFUs.

Plausible: partially correct - true except for the CACFUs do not start

and the PTBF and IIRAHU start. If the candidate believe that ALL

ventilation fans inside containment will start.

C. Incorrect: Each train starts their respective fans, even those not

running previously, except for the CACFUs.

Plausible: partially correct - UCVUs start and CACFUs do not start.

Ques_957.1 For Official Use Only Page 88

Question #49 Catawba Nuclear Station RO Exam

D. Correct: Each train starts their respective fans, even those not

running previously, except for the CACFUs.

Level: RO&SRO

KA: SYS 022 A3.01 (4.1/4.3)

Lesson Plan Objective: VV Obj: 12

Source: Bank

Level of knowledge: comprehension

References:

1. OP-CN-VV pages 12 and 13

Ques_957.1 For Official Use Only Page 89

Question #50 Catawba Nuclear Station RO Exam

Bank Question: 963 Answer: C

I Pt(s) Which one of the following statements correctly describes how a severe axial

flux imbalance that is outside of the normal limits (as defined in the ROD

Book section 3.9 (OAC Manual Input Data)) could affect automatic and

manual rod withdrawal at 100% power?

A. AFD inputs to OTDT cause the OTDT setpoint to increase,

which could actuate a C3 rod stop to prevent automatic rod

withdrawal. Operator would manually insert rods to restore

AFD within the target band and clear the rod stop.

B. AFD inputs to OPDT cause the OPDT setpoint to decrease,

which could actuate a C3 rod stop to prevent automatic or

manual rod withdrawal. Operator would manually insert rods to

restore AFD within the target band and clear the rod stop.

C. AFD inputs to OPDT and OTDT cause both setpoints to

decrease, which could actuate a C3 or C4 rod stop to prevent

automatic or manual rod withdrawal. A turbine runback would

automatically reduce NC temperature below the OPDT or

OTDT setpoints to clear the rod stop.

D. AFD inputs to OPDT and OTDT cause both setpoints to

increase, which would actuate a C3 or C4 rod stop to prevent

automatic rod withdrawal. Manual rod withdrawal would still

operate and a turbine runback would not occur. Operators

would manually insert or withdraw rods to restore AFD within

the target band and clear the rod stop.

Distracter Analysis: AFD being outside the penalty box causes OTDT and

OPDT setpoints to decrease which will cause the C3 and C4 rod

stops to actuate at 100% power

A. Incorrect: An automatic turbine runback will reduce delta-t below

C3 setpoint.

Plausible: answer is partially correct - auto rod withdrawal will be

inhibited

B. Incorrect: OPDT causes a C4 rod stop - not C3. An automatic

turbine runback will reduce delta-t below C4 setpoint.

Plausible: confuses with OTDT - answer is partially correct

C. Correct:

D. Incorrect: Manual rod withdrawal is inhibited and an automatic

turbine runback will reduce delta-t below C3 or C4 setpoint.

Plausible: answer is partially correct - moving rods to restore AFD

directly counters the AFD problem.

Level: RO&SRO

Ques_963 For Official Use Only Page 90

Question #50 Catawba Nuclear Station RO Exam

KA: SYS 001 A3.03 (3.6/3.8)

Lesson Plan Objective: IPX SEQ 9

Source: New

Level of knowledge: comprehension

References:

1. OP-CN-IC-IPX page 14, 15

2. Tech Spec 3.3.1 pages 18-20

Ques_963 For Official Use Only Page 91

Question #51 Catawba Nuclear Station RO Exam

Bank Question: 964 Answer: D

I Pt(s) Unit I is operating at 100% power. Given the following events and

conditions:

• Train "A" equipment is in service.

• 1ETA is deenergized due to a bus fault and power cannot be restored.

• All plant safety equipment operates automatically as designed.

• No operator action has been taken.

What would be the immediate impact (if any) of the loss of lETA on the

NCPs?

A. All NCPs would continue to be cooled.

B. Only A and D NCPs would lose cooling.

C. Only B and C NCPs would lose cooling.

D. All NCPs would lose cooling.

Distracter Analysis:

A. Incorrect: all NCPs are affected - the bus fault precludes

reenergizing lETA and prevents restarting "A" train KC pumps from

the D/G.

Plausible: candidate believes the B train KC pumps would auto-

start.

B. Incorrect: all NCPs are affected - the bus fault precludes

reenergizing IETA and prevents restarting "A" train KC pumps from

the D/G.

Plausible: One header supplies A and D NCPs

C. Incorrect: all NCPs are affected - the bus fault precludes

reenergizing IETA and prevents restarting "A" train KC pumps from

the D/G.

Plausible: one header supplies B and C NCPs

D. Correct: all NCPs are affected.

Level: RO&SRO

KA: SYS 003 K2.02 (2.5*/2.6*)

Lesson Plan Objective: KC Obj: 4

Source: New

Ques_964 For Official Use Only Page 92

Question #5: Catawba Nuclear Station RO Exam

Level of knowledge: memory

References:

1. OP-CN-PSS-KC page 7

Ques-964 For Official Use Only Page 93

Question #52 Catawba Nuclear Station 0R0 Exam

Bank Question: 965 Answer: B

1 Pt(s) Unit 2 was operating at 100% when a large-break LOCA occurred inside

containment at 0200. Given the following events and conditions:

0201 - containment pressure = 1.0 psig

0205 - containment pressure = 3.0 psig

0210 - containment pressure = 0.5 psig

• 0215 - containment pressure = 0. I psig

What should be the status of the Containment Air Return dampers and fans at

time 0210?

A. Dampers open; fans running.

B. Dampers open; the fans never started.

C. Dampers opened but have closed; fans started but have stopped.

D. Dampers opened but have closed; the fans never started.

Distracter Analysis: from the VX lesson plan:

Dampers are automatically opened if the following conditions are met: (Obj.

1. 4, 5)

• 10 seconds have elapsed from receipt of Sp signal.

• Greater than or equal to 0.4 psig signal from Containment Pressure

Control System (CPCS).

• Less than or equal to 0.5 psid across the damper.

• Load Group #I from D/G sequencer has permission to start

Air return fans (ARF) automatically start if the following conditions are met:

(Obj. #4,5)

• 9 minutes have elapsed from receipt of Sp (phase B) signal.

• Greater than or equal to 0.4 psig signal from CPCS.

• Load Group #11 from D/G sequencer has permission to start.

A. Incorrect: fans are not running until 0210 - because 9 minutes have

not elapsed since reaching Sp setpoint (3.0 psig).

Plausible: Candidate believes the ARF starts 9 minutes after phase

"A" (St) signal

B. Correct: dampers open 10 seconds after the Sp signal. Fans start

nine minutes later if CPCS present. CPCS is not present until 0215.

C. Incorrect: dampers remain open; fans start nine minutes after the Sp

signal and would shutdown, however, they never started.

Plausible: candidate does not know time delay - fans stop on CPCS

interlock at 0.3 psig.

D. Incorrect: dampers remain open

Ques_965 For Official Use Only Page 94

Question #52 Catawba Nuclear Station RO Exam

Plausible: candidate believes the dampers close - partially correct.

Level: RO&SRO

KA: SYS 025 A4.02 (2.7*/2.5*)

Lesson Plan Objective: VX Obj: 4, 5

Source: New

Level of knowledge: analysis

References:

1. OP-CN-CNT-VX pages 7 and 8

Ques_965 For Official Use Only Page 95

Question #53 Catawba Nuclear Station RO Exam

Bank Question: 966 Answer: A

1 Pt(s) During a reactor start-up, the following conditions are noted:

• The reactor is at normal operating pressure and temperature.

• Four NCPs are running.

• NCS temperature is being controlled using the steam dumps.

• The reactor power is 5%.

Which of the following describes the change in actual(ncH II plant parameters

if the controlling steam header pressure transmitter fails high?

A. Steam dump demand increases. Steam header pressure

decreases, and NCS temperature decreases.

B. Steam dump demand decreases. Steam header pressure

increases, and NCS temperature increases.

C. Steam dump demand increases, Steam header pressure

increases, and NCS temperature decreases.

D. Steam dump demand decreases. Steam header pressure

decreases, and NCS temperature decreases.

Distracter Analysis:

A. Correct:

B. Incorrect: Steam dump demand increases.

Plausible: Parameter changes are consistent with error in steam

dump change.

C. Incorrect: Steam pressure change is not consistent with increased

demand.

Plausible: reflects indicated rather than actual pressure.

D. Incorrect: Steam dump demand does not go down.

Plausible: psychometrically balanced.

Level: RO&SRO

KA: SYS 041K3.02 (3.8/3.9)

Lesson Plan Objective: STM-IDE SEQ 9

Source: New

Level of knowledge: comprehension

References:

Ques_966 For Official Use Only Page 96

Question #53 Catawba Nuclear Station RO Exam

1.OP-CN-STM-IDE page 13

Ques-966 For Official Use Only Page 97

Question #54 Catawba Nuclear Station RO Exam

Bank Question: 968.3 Answer: C

I Pt(s) A unit I containment purge is in progress using OP/1/A6450/015. Given the

following events and conditions:

IEMF-39(L) (ContainmentGas (Lo Range)) spiked to a trip 2 condition

then cleared

Which one of the following statements correctly describes the action

required?

A. The VP release may not be reinitiated until RP draws a new

containment air activity sample.

B. The VP release may be reinitiated after the spike clears. If IEMF-39

spikes a second time, the release cannot be reinitiated without RP

sampling containment air for activity.

C. The VP release may be reinitiated after the spike clears. If 1EMF-39

spikes a second time, the release may also be reinitiated.

D. The VP release may be reinitiated if grab samples are taken of Unit

vent activity during subsequent reinitiation.

Distracter Analysis:

A. Incorrect: the OP allows the VP release to be reset twice if due to EMF

spike.

Plausible: This is a conservative answer.

B. Incorrect: the OP allows the VP release to be reset twice if due to EMF

spike.

Plausible: a new sample may be required if the EMF actuates prior to

initiating the release.

C. Correct: the OP allows the VP release to be reset twice if due to EMF

spike.

D. Incorrect: the OP allows the VP release to be reset twice if due to EMF

spike.

Plausible: grab samples are required if EMF-39 is inoperable when the

release occurs.

Level: RO&SRO

KA: G2.3.9 (2.5/3.4)

Lesson Plan Objective: VP Obj: 8, 9

Ques_968.3 For Official Use Only Page 98

Question #54 Catawba Nuclear Station RO Exam

Source: New

Level of knowledge: memory

References:

1.OP/1/A/6450/015, limits and precautions page 2

2. OP-CN-CNT-VP page 15

'

Ques_968.3 For Official Use Only Page 99

Question #55 Catawba Nuclear Station RO Exam

Bank Question: 970 Answer. B

I Pt(s) Unit I is at 75% power when a plant trip occurs due to P- 14 actuation. Given

the following events and conditions:

• The plant is currently stable.

• The steam dumps have just closed at no-load Tave.

• Steam generator levels are 35% in unaffected steam generators and 80%

in the affected steam generator.

What action must the operator take to reset CF isolation?

A. Cycle the reactor trip breakers only.

B. Cycle the reactor trip breakers and depress the CF isolation reset

pushbuttons.

C. Lower the affected steam generator level and cycle the reactor trip

breakers.

D. Lower the affected steam generator level, cycle the reactor trip

breakers and depress the CF isolation reset pushbuttons.

Distracter Analysis:

A. Incorrect: must also depress FWI pushbuttons

Plausible: would be true if P-4/Low Tave FWI had not occurred.

B. Correct: to clear the P-14, the trip breakers must be cycled. To clear

the low tave/p-4 FWI, it must be reset.

C. Incorrect: not need to reduce S/G level on Unit I - must reset FWI

Plausible: partially correct - would be true on Unit 2 and Low

Tave/P-4 FWI had not occurred.

D. Incorrect: no need to reduce S/G level

Plausible: would be true on unit 2.

Level: RO&SRO

KA: SYS 059 K4.17 (2.5*/2.8*)

Lesson Plan Objective: ISE Obj: 5

Source: New

Level of knowledge: comprehension

References:

1. OP-CN-ECCS-ISE page 21, 22,23

Ques_970 For Official Use Only Page 100

Question #56 Catawba Nuclear Station RO Exam

Bank Question: 971 Answer. A

I Pt(s) Unit I was operating at 100% power when a small break LOCA occurred.

Given the following events and conditions:

IEMF-53A/B (Containment TRNA/B (Hi Range)) = 36 R/hr

• Containment pressure = 0.5 psig

The operators enter FR-Z.3 (Response to Containment High Radiation

Level)

Which one of the following statements correctly describes the proper (major

action) response in FR-Z.3 to reduce airborne radiation levels inside

containment?

A. Place containment auxiliary charcoal filter units (CACFUs) in

service.

B. Place containment purge (VP) system in service.

C. Place the containment spray (NS) system in operation.

D. Place the containment air return fans (ARFs) in service.

Distracter Analysis:

A. Correct: This is a major action category for this event in FR-Z.3

B. Incorrect: VP is not used for accident response

Plausible: VP is used to reduce the airborne activity prior to entering

containment for maintenance, inspections and testing - VP is the

"normal" path for reducing airborne contamination

C. Incorrect: Containment spray is only used when there is a high

pressure in containment

Plausible: Containment spray is used to reduce the airborne fission

products during accident conditions

D. Incorrect: ARFs will not operate until CPCS actuates at 0.3 psig.

Plausible: ARFs force containment air through the ice condenser

during accident conditions, which will reduce airborne radiation

levels

Level: RO&SRO

KA: WE 16 EK1.1 (2.7/3.0)

Lesson Plan Objective: EP-FRZ Obj: 3

Ques-971 For Official Use Only Page 101

Question #56 Catawba Nuclear Station RO Exam

Source: New

Level of knowledge: memory

References:

1.OP-CN-EP-FRZ page 7

2. OP-CN-CNT-VP page 5

3. Background document FR-Z.3 page 3

Ques 971 For Official Use Only Page 102

Question #57 Catawba Nuclear Station RO Exam

Bank Question: 974 Answer. D

1 Pt(s) Unit I was operating at 100% power when a loss of vital power occurs.

Given the following events and conditions:

lAD-

I I I, H/2 "125 VDCESS PWR CHANNEL B TROUBLE" Alarm -

is lit

• The operators dispatch an NLO to investigate the cause of the alarm

• The control room supervisor implements AP-29 (Loss of Vital or Aux

ControlPower).

Which one of the following actions shall be performed immediately?

A. Close the breaker to 1EBB

B. Open the tie breaker to 1EDB

C. Verify ND - ALIGNED IN RHR MODE

D. Verify TURB IMP PRESS CH 1- NORMAL

Distracter Analysis:

A. Incorrect: This is not an immediate action for AP-29

Plausible: This is a supplementary action for the annunciator IAD-

11 H/2 and this could clear the condition if the cause of the

annunciator was the breaker to IEBB had tripped open

B. Incorrect: This is not an immediate action for AP-29

Plausible: This action would clear the alarm if the tie breaker had

closed for some reason. This is a supplementary action for the

annunciator response.

C. Incorrect: This is not an immediate action for AP-29

Plausible: This is the first supplementary action in AP-29

D. Correct: This is the only immediate action in AP-29.

Level: RO&SRO

KA: APE 058 G4.49 (4.0/4.0)

Lesson Plan Objective: EPL Obj: 8

Source: New

Ques-974 For Official Use Only Page 103

Question #57 Catawba Nuclear Station RO Exam

Level of knowledge: memory

References:

1.OP-CN-EP-EPL page 15

2. AP-29 page 3

4. OP/1/B/6100/LOL IAD-i1 R'2

Ques_974 For Official Use Only Page 104

Question #58 Catawba Nuclear Station RO Exam

Bank Question: 977 Answer: C

I Pt(s) Unit I was operating at 100% power.

Which one of the following conditions requires a reactor trip and turbine

trip?

A. Exhaust hood temperature channel = 226 IF

B. Turbine bearing oil pressure = 13 psig

C. Condenser vacuum = 21.5 inches Hg Vacuum

D. Generator frequency = 65 Hz

Distracter Analysis:

A. Incorrect: Exhaust hood high temperature trip is blocked / not

required above 60% power

Plausible: This would be correct is below 60% power

B. Incorrect: Turbine bearing oil pressure must be < 12 psig in I of 3

channels to cause / require a reactor/turbine trip

Plausible: If the candidate does not know the setpoint

C. Correct: low vacuum < 21.8 inches of Hg vacuum in 2 of 3 channels

will cause / require a turbine and reactor trip

D. Incorrect: Generator frequency > 66 Hz will cause or require a

reactor trip.

Plausible: 65 Hz is an extremely abnormal condition.

Level: RO&SRO

KA: APE 051 A2.02 (3.9/4.1)

Lesson Plan Objective: MT3 Obj: 6

Source: New

Level of knowledge: memory

References:

1. OP-CN-MT-MT3 page 11

Ques_977 For Official Use Only Page 105

Question #59 Catawba Nuclear Station RO Exam

Bank Question: 978 Answer. C

I Pt(s) Unit I is preparing to conduct a vacuum fill of the NC system at the end of a

refueling outage. The NC system is in a mid loop condition.

Which one of the following reactor vessel level instruments will provide the

greatest accuracy for this condition?

A. NC level loop indication

B. Sight glass loop indication

C. Ultrasonic level indication

D. RVLIS lower range indication

Distracter Analysis: During vacuum fill operations, the NC system is

evacuated to a condition of negative pressure. This affects any level

indicator that relies on pressure differences such as the loop level

indications or sight glasses. RVLIS indication will also not flunction

during this process. Ultrasonic sensors are not affected by vacuum

conditions because they do not measure pressure differentials.

A. Incorrect: The ultrasonic level indicators should be used during

vacuum fill to provide the greatest accuracy

Plausible: this is one source of Rx vessel level indication during

reduced inventory operations

B. Incorrect: The ultrasonic level indicators should be used during

vacuum fill to provide the greatest accuracy

Plausible: this is one source of Rx vessel level indication during

reduced inventory operations

C. Correct: The ultrasonic level indicators should be used during

vacuum fill to provide the greatest accuracy

D. Incorrect: The ultrasonic level indicators should be used during

vacuum fill to provide the greatest accuracy

Plausible: this is one source of Rx vessel level indication during

reduced inventory operations

Level: RO&SRO

KA: SYS 002 K6.03 (3.1/3.6)

Lesson Plan Objective: NC Obj: 9

Source: New

Ques_978 For Official Use Only Page 106

Question #59 Catawba Nuclear Station RO Exam

Level of knowledge: memory

References:

1. OP-CN-PC-NC page 28-30

Ques_978 For Official Use Only Page 107

Question #60 Catawba Nuclear Station RO Exam

Bank Question: 980 Answer: C

1 Pt(s) Unit I was shutdown in mode 6, in mid loop operations when a loss of ND

cooling occurred. Given the following events and conditions:

• The operators implemented CASE IV of AP- 19 (Loss ofResidual Heat

Removal System) and have reached step 23.

• The ND system has been refilled and properly vented

• Step 23 requires restart of one ND pump to restore cooling.

• A caution warns the operator that restarting an ND pump can cause NC

system level to decrease rapidly.

What is reason for this caution?

A. NC system level will drop due to the contraction of the water

from the cooldown.

B. NC system level will drop due to the suction of water from the

NC system into the ND pump.

C. NC system level will drop due to the collapse of system voids.

D. NC system level will drop due to increased system pressure.

- - - -_-___-----_ _ _ _ _ _ ___-_

Distracter Analysis:

A. Incorrect: Cooldown is insufficient to cause a level drop at

representative temperatures

Plausible: sufficient cooldown will cause volumetric contraction and

level drop

B. Incorrect: The suction surge is accompanied by discharge back into

the system so the mass balance remains the same.

Plausible: initially the suction will withdraw water from the NC

system

C. Correct: system voids can occur if the loss of ND is severe

D. Incorrect: system pressure will not increase - mid loop operations

require an open vent path to atmosphere

Plausible: if the vent path were not open, pressure could increase and

cause level to drop if there were gas pockets

Level: RO&SRO

KA: APE 025 G2.1.32 (3.4/3.8)

Lesson Plan Objective: none

Ques_980 For Official Use Only Page 108

Question #60 Catawba Nuclear Station RO Exam

Source: New

Level of knowledge: comprehension

References:

1.AP- 19 Case IV step 23 page 42

Ques_980 For Official Use Only Page 109

Question #61 Catawba Nuclear Station RO Exam

Bank Question: 981 Answer D

I Pt(s) What sub-group of pressurizer heaters can be powered from SLXG?

A. Backup heater Group A

B. Backup heater Group B

C. Control Group C

D. Backup heater Group D

Distracter Analysis:

A. Incorrect: Backup heater group D is powered from SLXG

Plausible: may feel the A group is logical for control

B. Incorrect: Backup heater group D is powered from SLXG

Plausible: may feel B is logical for control

C. Incorrect: Backup heater group D is powered from SLXG

Plausible: may feel the control group makes sense to be used for

control

D. Correct: Group D can be powered from SLXG for pressurizer

pressure control during plant control from the Safe Shutdown Facility

Level: RO&SRO

KA: SYS 011 K2.02 (3.1/3.2)

Lesson Plan Objective: IPE Obj: 6

Source: New

Level of knowledge: memory

References:

1. OP-CN-PS-IPE page 19,20

2. OP-CN-CP-AD page 12

Ques_981 For Official Use Only Page 110

Question #62 Catawba Nuclear Station RO Exam

Bank Question: 982 Answer. C

I Pt(s) Unit 2 is at 100% power following a refueling. Given the following events

and conditions:

• Reviews of surveillances reveals that all 3 channels on the flow

instruments for NC loops IC and ID were not calibrated properly and are

out of specification.

• Repairs cannot be made for 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> due to parts availability.

What is the maximum power level allowed by Tech Specs at the time of

repair?

REFERENCES PROVIDED: Tech Spec 3.3.1

A. Reduce power to less than 69%

B. Reduce power to less than 48%

C. Reduce power to less than 10%

D. Reduce power to mode 3

Distracter Analysis:

With 3 of 3 NC flow channels OOC in two loops, Tech Spec 3.3.1

Table 3.3.1-1 function 10.a requires action statement L when power

is > P-10 (10%). Action statement L requires placing the channel in

trip within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> (unable to do this due to failure) or reducing

power below PI0 in 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />.

A. Incorrect: Must get below PIO in 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />

Plausible: If candidate cannot locate the proper section of Table

3.3.1-1.

B. Incorrect: Must get below P10 in 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />

Plausible: If candidate reads action for loss of t loop flow

instruments

C. Correct: Tech Spec 3.3.1 Action L applies

D. Incorrect: Must get below P 10 in 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />

Plausible: If the candidate miss-reads note g in Table 3.3.1-1 .

Level: RO&SRO

KA: SYS 012 A2.01 (3.1/3.6)

Lesson Plan Objective: IPX Obj: 12

Source: New

Ques_982 For Official Use Only Page Ill

Question #62 Catawba Nuclear Station RO Exam

Level of knowledge: comprehension

References:

1.Tech Spec 3.3.1, table 3.3.1-1 - PROVIDED

Ques-982 For Official Use Only Page 112

Question #63 Catawba Nuclear Station RO Exam

Bank Question: 985 Answer: D

1 Pt(s) Unit 2 was operating at 100% power when a LOCA occurred.

Which one of the following statements correctly describes the operation of

the NS/VX reset during the LOCA and what is the reason for this operation?

A. NS/VX is reset to allow the operator to take manual control of NS

pumps.

B. NS/VX is reset to terminate spray flow after pressure is reduced to

prevent a vacuum in containment.

C. NSNVX is NOT reset to prevent excessive cycling of NS spray pumps

and VX fans.

D. NSIVX is NOT reset to allow NS components to continue to operate

when transferring to recirculation.

Distracter Analysis:

A. Incorrect: NS/VX is not reset

Plausible: this is a reason for resetting sequencers.

B. Incorrect: NS/VX is not reset

Plausible: this is why CPCS turns off spray when pressure is less

than 0.3

C. Incorrect: Resetting NSNVX does not prevent excessive cycling of

NS pumps and VX fans - these pumps and fans will continue to

cycle and must be manually secured later in the accident.

Plausible: partially correct - NSNVX is reset - but the reason is

incorrect. This is the correct reason for manually securing NS pumps

later in the procedure.

D. Correct: NS/VX Reset is not reset in order for NS components to

continue operating after transferring to the recirculation mode

Level: RO&SRO

KA: SYS 026 A4.05 (3.5/3.5)

Lesson Plan Objective: NS Obj: 10

Source: New

Level of knowledge: memory

References:

1.OP-CN-CNT-NS page 10

Ques_985 For Official Use Only Page 113

Question #64 Catawba Nuclear Station RO Exam

Bank Question: 986 Answer. B

I Pt(s) Unit 2 is operating at 100% power. Given the following events and

conditions:

• The plant operator reports the following annunciator is received on D/G

panel 2A: "LOW VG AIR TANK PRESS"

• VG receivers starting air pressure is 149 psig.

Which one of the following statements correctly describes the 2A D/G?

A. The D/G cannot be manually or automatically started until the

VG receiver is repressurized.

B. The D/G can be manually started and is capable of one or two

starts.

C. The D/G can be automatically started and is capable of one or

two starts.

D. The D/G can be automatically started and is capable of five

starts.

Distracter Analysis:

If VG Pressure decreases to less than 150 psig, all automatic start

signals are blocked. This conserves enough air for one or two

manual start attempts after the cause of the start failure is corrected.

A. Incorrect: Can be started manually started

Plausible: psychometric balance

B. Correct: Can be started manually one or two times

C. Incorrect: With starting air receiver pressure < 150 psig, auto starts

are blocked.

Plausible: partially correct - capable of one or two manual starts.

D. Incorrect: Auto starts are blocked below 150 psig - can't make 5

starts at 150 psig.

Plausible: This is the FSAR requirement for the number of starts on

a D/G

Level: RO&SRO

KA: SYS 064 A3.04 (3.1/3.5)

Lesson Plan Objective: DGI Obj: 10

Source: New

Ques 986 For Official Use Only Page 114

Question #64 Catawba Nuclear Station RO Exam

Level of knowledge: comprehension

References:

1.OP-CN-DG-DGI page 11, 12

2. Tech Spec Bases 3.8.3 El

Ques_986 For Official Use Only Page 115

Question #65 Catawba Nuclear Station RO Exam

Bank Question: 987 Answer. D

1 Pt(s) Which one of the following statements correctly explains the reason for

E-0, Reactor Trip or Safety Injection, step 8 "Verify all Feedwater

Isolation status lights (ISI-5) - LIT."?

A. Prevent unnecessary depletion of condensate inventory due to

excessive CF pump discharge flow.

B. Prevent dead-heading the CA pumps due to excessive CF

pump discharge pressure.

C. Prevent water from entering the steam lines due to

uncontrolled CA flow.

D. Prevent excessive NC system cooldown due to

uncontrolled CF flow.

Distracter Analysis:

A. Incorrect: This is not the correct EOP basis for this step.

Plausible: excessive CF flow would deplete the condensate

inventory.

B. Incorrect: CA pump discharge pressure is higher than CF pump

discharge pressure - CA pumps would not be deadheaded.

Plausible: If the candidate does not recognize that CA pump

discharge pressure is higher than CF pump discharge pressure.

C. Incorrect: CA flow is not affected by feedwater isolation.

Plausible: Partially correct - the EOP basis for this step is to

prevent S/G overfill (and to prevent excessive NC system

cooldown) due to uncontrolled CF flow.

D. Correct: This is the correct EOP basis for this step

Level: RO&SRO

KA: EPE 007 EK301 (4.0/4.6)

Lesson Plan Objective: EPi Obj: 18

Source: New

Level of Knowledge: Memory

References:

1. Background Document for E-0, page 10

Ques_987 For Official Use Only Page 116

Question #66 Catawba Nuclear Station RO Exam

Bank Question: 990 Answer B

I Pt(s) Which one of the following statements correctly describes the analog and

digital portions of the Engineered Safety Features Actuation System?

A. There are 2 analog input channels.

There are 3 to 4 digital output logic trains.

B. There are 3 to 4 analog input channels.

There are 2 digital output logic trains.

C. There are 3 to 4 analog input channels.

There are 4 digital output logic trains.

D. There are 4 analog input channels.

There are 4 digital output logic trains.

Distracter Analysis:

B. The system circuitry consists of an analog portion and a digital

portion.

I. The analog portion consists of three to four redundant channels per

parameter to monitor such variables as the reactor coolant system and

steam system pressures, temperatures, flows, and containment

pressure.

2. The digital portion consists of two redundant logic trains, which

receive inputs from the analog protection channels and perform the

needed logic to actuate the engineered safety features.

A. Incorrect: There are 3 or 4 analogue channels

Plausible: reverse of actual

B. Correct:

C. Incorrect: Only 2 digital logic trains, not 4.

Plausible: partially correct - relates 4 digital channels to the 4 ESF

channels.

D. Incorrect: There are 2 digital logic trains

Plausible: partially correct - believes there is a I to 1 correlation

Level: RO&SRO

KA: SYS 013 K5.01 (2.8/3.2)

Lesson Plan Objective: ISE Obj: 4

Source: New

Level of knowledge: memory

Ques_990 For Official Use Only Page 117

Question #66 Catawba Nuclear Station RO Exam

References:

1.OP-CN-ICCS-ISE page 6

Ques_990 For Official Use Only Page 118

Question #67 Catawba Nuclear Station RO Exam

Bank Question: 991 Answer: B

I Pt(s) Unit I was operating at 50% power. Instrument air pressure is reading 80

psig in the control room.

Which one of the following actions should have just occurred?

A. Quick start of the standby air compressor

B. VI-670 'VI Dryer Auto Bypass' opened

C. CF control valves failed closed

D. VS-78 'VS supply to VI' opened

Distracter Analysis:

A. Incorrect: wrong setpoint

Plausible: starts at 94 psig

B. Correct: VI-670 opens

C. Incorrect: wrong setpoint

Plausible: occurs around 50 psig.

D. Incorrect: wrong setpoint

Plausible: occurs at 76 psig.

Level: RO&SRO

KA: SYS 078 A4.01 (3.1/3.1)

Lesson Plan Objective: VI SEQ 5, 11

Source: New

Level of knowledge: memory

References:

1. OP-CN-SS-VI page 20

Ques_991 For Official Use Only Page 119

Question #68 Catawba Nuclear Station RO Exam

Bank Question: 992 Answer: A

I Pt(s) Unit I was operating at 100% power. Given the following events and

conditions:

• 3 control rod drive mechanism (CRDM) vent fans are running.

• CRDM vent fan ID is out of service.

• Lower containment temperature is 105 F and steady.

• LB pipe tunnel booster fan (PTBF) is running in LOW.

• Lower containment ventilation units (LCVUs) IB,1 C and I D are

running in LOW speed and NORM cooling.

• C I A 1081 (Reactor Vessel Head Area Temp) is 110 F

• C IA 1087 (Reactor Vessel Head Area Temp) is 110 F

• C IA1 093 (Digital Rod Pos Ind Cabinet Area Temp) is 97 F.

If one of the running CRDM fans trips on over-current, what is the first

action (if any) that needs to be taken by the crew?

REFERENCES PRO VIDED: OP/I/A/6450/001

A. Start a second PTBF.

B. Place all LCVUs to MAX cooling and shift LCVUs to high speed.

C. Place LCVU ID and lB only in MAX cooling and secure LCVU

IC.

D. Generate a work request to determine CRDM shroud leaving air

temperature.

Distracter Analysis:

See attachment 4.16 of the procedure (Abnormal Operation With

Two Control Rod Drive Ventilation Fans Available). When the

CRDM fan trips, the containment temperature (which has been 105lO

and steady) will increase.

A. Correct: this is correct since air temperature is greater than 100 'F

and DRPI area temperature is above 95F.

B. Incorrect: Not required by procedure - must start a second PTBF

Plausible: this distracter is a subset of distracter C and would provide

more cooling. Directed by NRC during exam review.

C. Incorrect: Containment temperature is not below 100 OF

Plausible: correct if containment temperature is below 100 'F

D. Incorrect: DRPI air temp > 95 'F

Plausible: correct if DRPI air temperature is below 95F

Ques_992 For Official Use Only Page 120

Question #68 Catawba Nuclear Station RO Exam

Level: RO&SRO

KA: SYS 022 A2.01 (2.5/2.7)

Lesson Plan Objective: none

Source: New

Level of knowledge: comprehension

References:

1. OP/1/A/6450/00 1/ Encl 4.16 pages 1-4

Ques_992 For Official Use Only Page 121

Question #69 Catawba Nuclear Station RO Exam

Bank Question: 993 Answer A

1 Pt(s) When does the CPCS shutdown signal actuate and what is the purpose of this

automatic protection?

A. CPCS actuates at 0.3 psig to prevent drawing a negative pressure

in containment.

B. CPCS actuates at 0.3 psig to prevent NS pump runout caused by

decreasing backpressure.

C. CPCS actuates at 0.5 psig to conserve FWST inventory.

D. CPCS actuates at 0.5 psig to reduce RN heat load.

Distracter Analysis:

A. Correct: Trips at 0.4 psig and resets at 0.3 psig to stop the NS

pumps. The shutdown signal prevents negative pressure from an

inadvertent spray down in containment.

B. Incorrect: Does not prevent NS pump runout

Plausible: lower containment pressure leads to increased S pump

flow.

C. Incorrect: CPCS actuates at 0.3 psig

Plausible: NS draws from the FWST before recirculation but this is

not the purpose of the system

D. Incorrect: CPCS actuates at 0.3 psig

Plausible: RN cools the NS heat exchangers so securing the NS

pumps would reduce the heat load on RN.

Level: RO&SRO

KA: SYS 026 G2.1.27 (2.8/2.9)

Lesson Plan Objective: NS Obj: 2

Source: New

Level of knowledge: memory

References:

1. OP-CN-ECCS-NS page 7

Ques 993 For Official Use Only Page 122

Question #70 Catawba Nuclear Station RO Exam

Bank Question: 994 Answer: D

I Pt(s) Unit I is operating at 100% power when a main steam line break occurs on

the I B steam generator. Given the following plant events and conditions:

• The operators have entered EP/l/A/5000/E-0 (Reactor Trip or Safety

Injection)

• Maximum containment pressure was 1.5 psig

• IA and 2A RN pumps are RUNNING

• IRN36A (RN PUMP INJ FILT INLT X-OVER) OPEN

• IRN37B (RN PUMP INJ FILT OTLT X-OVER) OPEN

• 1RN232A (D/G IA HX INLET ISOL) OPEN

• I RN292B (D/G lB HX INLET ISOL) OPEN

• IRN47A (RN SUPPLY X-OVER ISOL) CLOSED

• 1RN48B (RN SUPPLY X-OVER ISOL) CLOSED

• All other ECCS systems operate properly

Which one of the following actions is required to place the RN system in the

correct configuration for the given conditions?

A. Close 1RN36A and open lRN47A, 1B and 2B RN pumps are not

operating.

B. Close 1RN37B and OPEN 1RN48B, 1B and 2B RN pumps are

not operating.

C. Start 1B and 2B RN pumps, open 1RN47A & 1RN48B and close

1RN232A & 1RN292B.

D. Start 1B and 2B RN pumps, close 1RN36A & 1RN37B and open

1RN47A & 1RN48B.

Distracter Analysis: All 4 RN pumps start on a safety injection signal.

IRN36A & IRN37B close on a safety injection signal. IRN232A &

IRN292B open when the diesel engine starts. IRN47A & IRN48B

close on a Phase B signal.

A. Incorrect: The lB and 2B RN pumps should start on a safety

injection signal

Plausible: 1RN36A closes s on a safety injection signal and

1RN47A closes on a Phase B signal

B. Incorrect: The 1B and 2B RN pumps should start on a safety

injection signal

Plausible: IRN37B closes on a safety injection signal

Ques_994 For Official Use Only Page 123

Question #70 Catawba Nuclear Station RO Exam

C. Incorrect: IRN292B must be open when D/G lB is operating

Plausible: The IB and 2B RN pumps should start on a safety

injection signal

D. Correct answer

Level: RO&SRO

KA: SYS 076 A4.01 (2.9/2.9)

Lesson Plan Objective: RN Obj: 12

Source: New

Level of knowledge: analysis

References:

1. OP-CN-PSS-RN pages 10, 11, 18-20, 33

Ques 994 For Official Use Only Page 124

Question #71 Catawba Nuclear Station RO Exam

Bank Question: 995 Answer: C

I Pt(s) Unit 2 is operating at 100% power. Given the following events and conditions:

Normal letdown alignment exists

Controlling pressurizer pressure channel fails low.

• Operator immediately transfers control to an alternate operable channel.

Assuming no additional operator action, which one of the following statements

correctly describes how letdown flow responds?

A. Letdown will isolate.

B. Letdown flow will indicate approximately 45 gpm.

C. Letdown flow will indicate approximately 75 gpm.

D. Letdown flow will indicate approximately 120 gpm

Distracter Analysis:

A. Incorrect: Letdown remains in service

Plausible: Operator incorrectly determines that letdown will isolate on

low pressurizer pressure and/or reactor trip will occur when the spray

valves and PORV NC-34A open

B. Incorrect: Normal letdown alignment has 75 gpm orifice in service

Plausible: Operator incorrectly determines that 45 gpm orifice is in

service for normal letdown alignment

C. Correct:

D. Incorrect: Normal letdown alignment has only the 75 gpm orifice in

service

Plausible: Both the 45 gpm and 75 gpm orifice are in service if

pressurizer level is being reduced.

Level: RO&SRO

KA: APE 027 AA2.08 (3.2/3.2)

Level of knowledge: comprehension

Lesson Plan Objective: IPE Obj: 14

Source: New

Ques 995 For Official Use Only Page 125

Question #71 Catawba Nuclear Station RO Exam

References:

1. OP-CN-PS-IPE page 14

2. OP-CN-PS-NV page 12

Ques_995 For Official Use Only Page 126

Question #72 Catawba Nuclear Station RO Exam

Bank Question: 997 Answer D

I Pt(s) AP-21 (Loss Of Component Cooling) Foldout Page directs the operators to align

alternate cooling to the IA NV pump. Enclosure 4, Step 7 directs the operators to

reduce motor cooler and oil cooler flow.

Why is YD flow to the IA NV pump motor cooler and oil cooler flow reduced?

A. To preserve the YD storage tank inventory and to minimize chloride

contamination of the KC system.

B. To maintain motor bearing temperature less than 160'F and stator

temperature less than 240WF.

C. To minimize chloride contamination of the KC system only.

D. To reduce drainage to ND/NS sump, which minimizes radwaste.

Distracter Analysis:

A. Incorrect: YD flow is reduced to minimize radwaste

Plausible: this would minimize tank inventory loss but the tank can be

easily refilled from city water.

B. Incorrect: YD flow is reduced to minimize radwaste

Plausible: 160 0 F and 240'F are valid maximum allowed temperature

limits.

C. Incorrect: YD flow is reduced to minimize radwaste.

Plausible: YD water is purged to the ND/NS sump to minimize Chloride

contamination of the KC system.

D. Correct: Per note prior to step 7, enclosure 4.

Level: RO&SRO

KA: APE 026 AK303 (4.0/4.2)

Level of Knowledge: comprehension

Lesson Plan Objective: KC SEQ 10 & 14

Source: new

References:

1. AP/l/A15500/21 Enclosure 4, page 2, 4

Ques_997 For Official Use Only Page 127

Question #73 Catawba Nuclear Station RO Exam

Bank Question: 998 Answer: D

I Pts Unit I was operating at 100% power.

Which one of the following malfunctions could occur and still have KC train

"A" remain operable?

REFERENCES PROVIDED: Tech Spec 3.7.7 and Bases

A. 1A2 KC pump has failed

B. IA KC surge tank has been drained

C. 1A KC heat exchanger is being cleaned

D. 1A ND heat exchanger KC side has a flow blockage

- _ _ _ _----

- - - ----------

Distracter Analysis: Tech Spec 3.7.7 bases states:

A CCW train is considered OPERABLE when:

a. Both pumps and associated surge tank are OPERABLE; and

b. The associated piping, valves, heat exchanger, and instrumentation

and controls required to perform the safety related function are OPERABLE.

The isolation of CCW from other components or systems not required for

safety may render those components or systems inoperable but does not

affect the OPERABILITY of the CCW System

A. Incorrect: Required to have BOTH KC pumps operable - each

pump has 50% capacity

Plausible: the lB KC pump remains operable

B. Incorrect: Required to have the associated surge tank operable

Plausible: The pumps have sufficient NPSHA with the surge tank

empty provided the piping up to the tank is filled (per Tech Spec Bases 3.7.7

C. Incorrect: when cleaning the Hx, the FX is drained

Plausible: KC flow is routed through the IB Hx to maintain KC

system flow while cleaning

D. Correct: Although the IA ND RX would be inoperable, the IA KC

train remains operable.

Level: RO&SRO

K/A: SYS 008 G2.2.25 (2.5/3.7)

Lesson Plan Objective: KC Obj: 13

Source: New

Ques_998 For Official Use Only Page 128

Question #73 Catawba Nuclear Station RO Exam

Level of Knowledge: comprehension

References:

1.OP-CN-PSS-KC pages 13, 19

2. Tech Spec 3.7.7 bases

Ques_998 For Official Use Only Page 129

Question #74 Catawba Nuclear Station RO Exam

Bank Question: 999 Answer: A

I Pt(s) Unit 2 is operating at 23% power. Given the following events and conditions:

• 1 20VAC panel 2ERPA fails

Which of the following statements is correct?

REFERENCESPROVIDED: AP-29 Encl 14 Only

A. D/G 2A cannot be run in manual and it will run in auto due to an

emergency start signal.

B. D/G 2A cannot be run in manual and it will not run in auto due to an

emergency start signal.

C. D/G 2A can be run in manual and it will not run in auto due to an

emergency start signal.

D. D/G 2A can be run in manual and it will run in auto due to an

emergency start signal.

Distracter Analysis:

A. Correct:

B. Incorrect: D/G 2A will run in auto due to an emergency start signal

Plausible: D/G 2A cannot be run in manual

C. Incorrect: D/G 2A cannot be run in manual and will run in auto due to

an emergency start signal

Plausible: D/G2A cannot be run in manual and will run in auto due to an

emergency start signal

D. Incorrect: D/G 2A cannot be run in manual

Plausible: D/G 2A will run in auto due to an emergency start signal

Level: SRO&RO

KA: APE 057 AA106 (3.5/3.5)

Level of Knowledge: comprehension

Lesson Plan Objective: EPL Obj: 15

Source: new

Ques_999 For Official Use Only Page 130

Question #74 Catawba Nuclear Station RO Exam

Resources:

1. AP-29 Page 108-111 -PROVIDED

Ques_999 For Official Use Only Page 131

Question #75 Catawba Nuclear Station RO Exam

Bank Question: 1024 Answer: C

I Pt(s) IAE technicians are performing IP/0/B/3260/001 (Maintenanceand

TroubleshootingProcedurefor Making changes to 1.47 Bypass System) at

the local panel in the cable spreading room. They need the BOP to verify

plant process information in the control room.

Which one of the following statements correctly describes how these

communications should be conducted from the control room?

A. Communication should be over hand-held radios. Three-way

communication procedures are required.

B. Communication should be over hand-held radios. Three-way

communication procedures are NOT required.

C. Communication should be over plant telephones. Three-way

communication procedures are required.

D. Communication should be over plant telephones. Three-way

communication procedures are NOT required.

Distracter Analysis:

A. Incorrect: Radios should not be used from the cable spreading room.

Plausible: Partially correct - three-way communications are required

when taking action effecting vital equipment.

B. Incorrect: Radios should not be used from the cable spreading room.

Three-way communications are required when taking an action affecting

installed plant equipment.

Plausible: Radios are generally used by maintenance for many routine

communications. Some candidates might think that three-way

communications are not required for routine maintenance actions (as

opposed to plant operations.

C. Correct: Plant phones are used because radios may cause inadvertent

actuation of plant equipment.

D. Incorrect: Three way communication must be used for any action

affecting plant equipment.

Plausible: Partially correct - Some candidates might think that three-way

communications are not required for routine maintenance actions (as

opposed to plant operations.

Level: RO&SRO

Ques_1024 For Official Use Only Page 132. -

Question #75 Catawba Nuclear Station RO Exam

KA: G2. 1.17 (3.5/3.6) Ability to make accurate, clear and concise verbal

reports. (CFR: 45.12 / 45.13)

Lesson Plan Objective: ADM NS-01 Obj: 14

Source: New

Level of knowledge: memory

References:

1. NSD 509 pages 2, 7

2. OMP 2-22 page 3

Ques_1024 For Official Use Only Page 133