ML18005B108
| ML18005B108 | |
| Person / Time | |
|---|---|
| Site: | Harris  |
| Issue date: | 10/04/1989 |
| From: | Casto C, Ernstes M NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION II) |
| To: | |
| Shared Package | |
| ML18005B106 | List: |
| References | |
| 50-400-OL-89-01, 50-400-OL-89-1, NUDOCS 8910200043 | |
| Download: ML18005B108 (66) | |
Text
~pR Afgg (4
(g"o pW gl UNITED STATES NUCLEAR REGULATORY COMMISSION~
REGION II 101 MARIETTAST., N.W.
ATLANTA,GEORGIA 30323 ENCLOSURE 1
EXAMINATION REPORT 400/OL89-01 Facility Licensee:
Facility Name:
Facility Docket No.:
Facility License No.:
Carolina Power and Light Company P.O.
Box 1551
- Raleigh, NC 27602 Shearon Harris Nuclear Power Plant 50-400 NPF-63 Examinations were administered at Shearon Harris Nuclear Power Plant near New Hill, North Carolina.
Chief Examiner:
Approved By:
Mic ae
. Ernstes harles A. Casto, C se Operator Licensing Section 2
Division of Reactor Safety Date Signed
/o- <-H Date Signe
SUMMARY
Examinations were administered on August 21 - 24, 1989.
written examinations and operating tests were administered to seven RO applicants, six of whom passed.
89l0200043 89'i005 PDR ADOCK 05000400 V
REPORT DETAILS 1.
Facility Employees Contacted:
- R. Richey, Harris Site Manager C. Hinnant, Harris Plant General Manager W. Powell, Training Manager
- C. Olexik, Operations Supervisor
+J. Bryan, Simulator Support
- J. Hudson, License Training Supervisor
- H. Love Jr.,
CP&L guality Assurance L. Martin, Nuclear Training Manager
- Attended Exit Meeting 2.
Examiners:
- M. Ernstes, NRC, Region II M. Morgan, NRC, Region II D. Starkey, NRC Region II.
- Chief Examiner 3.
Exit Meeting:
At the conclusion of the site visit, the examiners met with representa-tives'f the plant staff to discuss the results of the examinations.
The examiners made the following observations concerning your training program:
Areas of. generic weaknesses were found in the use of P8IDs, specifically in determining the revision currently in effect.
The cooperation given to the examiners and the effort to ensure an atmosphere in the control room conducive to oral examinations was also noted and appreciated.
The licensee did not identify as proprietary any material provided to or reviewed by the examiners.
U.
S.
NUCLEAR REGULATORY COMMISSION REACTOR'PERATOR LICENSE EXAMINATION REGION 2
FACILITY:
REACTOR TYPE:
DATE ADMINSTERED:
CANDIDATE:
Use separate paper for the answers.
Write answers on one side only.
Staple question sheet on top of the answer sheets.
Points for each question are indicated in parentheses after the question.
The passing grade requires at least 78% in each category and a final grade of at least 88%.
Examination papers will be picked up six (6) hours after the examination starts.
OF CATEGORY OF CANDIDATE S CATEGORY VALUE TOTAL SCORE VALUE CATEGORY D,J0
-28 Yf 49.25 I oZ. oO 25.88 k~W" FINAL GRADE 1.
GENERIC FUNDAMENTALS EXAM (25%)
2.
EMERGENCY AND ABNORMAL PLANT EVOLUTIONS (27%)
3.
PLANT SYSTEMS (38%)
AND PLANT-WIDE GENERIC RESPONSIBILITIES (18%)
TOTALS All work done on this examination is my own.
I have neither given nor received aid.
Candidates s Signiture
NRC RULES AND GUIDELINES FOR LICENSE EXAMINATIONS During the administration of this e>:aminatinn the following rules apply:
Cheating on the examination means an automatic denial of your application and could result in more severe penalties.
2.
After the examination has been completed, you must sign the statement on the cover sheet indicating that the work is your own and you have not received or given assistance in completing the examination.
This must be done after you complete the examination.
3.
Restroom trips are to be limited and only one candidate at a time may leave.
You must avoid all contacts with anyone outside the examination room to avoid even the appearance or possibility of cheating.
Use black ink or dark pencil only to facilitate legible reproductions.
Print your name in the blank provided in the upper right-hand corner of the examination cover sheet.
6.
Fill in the date on the cover sheet of the examination (if necessary).
Write all of your answers on the examination answer sheets provided.
USE ONLY THE PAPER PROVIDED AND DO NOT HRITE ON THE BACK SIDE OF THE PAGE.
If you need more space to answer a specific question, use a separate sheet of the paper provided.
Be sure to include your name on any additional sheets.
Sign your name in the upper right-hand corner of each page of your answer sheets'
- 18. If you are using additional answer sheets, number each answer as to category and number (i.e.
1.84, 6.18) and skip at least 3 lines between answers to allow space for grading.
Use abbreviations only if they are commonly used in facility literature.
Avoid using symbols such as
< or
> signs to avoid a simple transposition error resulting in an incorrect answer.
Write it out.
12.
The point value for each question is indicated in parentheses after the question.
The amount of blank space on an examination question page is NOT an indication of the depth of answer required.
13.
Show all calculations,
- methods, or assumptions used to obtain an answer.
14.
Partial credit may be given, Therefore, ANSHER ALL PARTS OF THE QUESTION AND DO NOT LEAVE ANY ANSHER BLANK.
NOTE: partial credit will NOT be given on multiple choice questions.
15.
Proportional grading will be applied.
Any additional wrong information that is provided may count against you.
For example, if a question is worth one point and asks for four responses, each of which is worth 8.25
- points, and you give five responses, each of your responses will be worth 8.28 points.
If one of your five responses is incorrect, 8.28 will be deducted and your total credit for that question will be 8.88 instead of 1.88 even though you got the four correct answers.
- 16. If the intent of a-question is unclear, ask questions of the examiner only.
17.
When turning in your examination, assemble the examination cover sheet, your answer sheets and all scrap paper.
You may keep your copy of the examination questions and examination aids.
18.
To pass the examination, you must achieve an overall grade of 88% or greater and at least 78% in each category.
19.
There is a time limit of four hours and thirty minutes for completion of the examination.
28.
Hhen,you are done and have turned in your examination, leave the examination area as defined by the examiner.
If you are found in this area while the examination is still in progress, your license may be denied or revoked.
Page 4
QUESTION 2.81 (1.88)
Hhich one of the following conditions would require an immediate trip of the affected reactor coolant
- pump, per AOP-818, "Reactor Coolant Pump Abnormal Conditions" ?
a.
Seal injection flow is lost.
b.
Thrust bearing temperature increases to 188 degrees F.
c.
Seal inlet temperature increases to 218 degrees F.
d.
Motor winding temperature increases to 388 degrees F.
QUESTION 2.82 (1.88)
Hhich one of the following flow paths is the one required by the immediate actions of AOP-882, "Emergency Boration"?
a.
RHST suction to CSIP suction.
b.
Boric acid pump to blender to VCT.
c.
Boric acid pump to emergency boration valve to CSIP suction.
d.
Boric acid pump to blender to CSIP suction.
QUESTION 2.83 (1.88)
Hhen control is shifted to the Auxilary Control Panel, which one of the following lists of automatic functions is removed?
a
~
All functions associated with P-7 b.
All functions of P-18 and P-6 All automatic SI actuation signals to the sequencers d.
All automatic SI actuation signals and functions of P-7 (4444+
CATEGORY 2 CONTINUED ON NEXT PAGE 44444)
Page 5
QUESTION 2.84 (1.88)
Procedure EOP-EPP-881, "Loss of AC Power to 1A-SA and 1B-SB Busses",
cautions the operator to maintain S/G pressures above 98 psig.
Why is this limit imposed'?
(select one) a.
To prevent nitrogen from being injected into the RCS b.
To prevent voiding in the vessel head region c.
To ensure the nuclear instruments continue to read properly d.
To ensure the S/G's continue as reliable heat sinks QUESTION 2.85 (1 '8)
Hhich one of the following correctly describes why S/G s are depressurized at the maximum rate during execution of EOP-FRP-C.1, "Response to Inadequate Core Cooling" ?
To reduce RCS pressure to prevent the formation of superheated steam in the core.
To reduce RCS pressure to allow the ECCS accumulators and low pressure SI (RHR) pumps to inject water.
c.
To reduce RCS temperature to increase thermal driving head for natural circulation.
d.
To reduce RCS temperature in order to collapse any steam void in the upper part of the reactor vessel.
(444~4 CATEGORY' CONTINUED ON NEXT'AGE'*~44)
h 'I Page 6
QUESTION 2.86 (1.88)
Assume both CCH pumps are lost, which one of the following actions is required immediately according to AOP-814, "Loss of Component Cooling Hater" ?
a.
Isolate letdown b.
Line-up SH to standby ESH header c.
Connect "C" CCH pump to emergency bus d.
Stop 'Spent Fuel Cooling pumps QUESTION 2.87 (1.88)
Hhich one of the following areas is NOT served by the fire protection HALON 1381 system?
a.
QA records storage rooms b.
Control Room
\\
c.
Administration Building PABX rooms d.
TSC PABX room QUESTION 2.88 (1.88)
According to AOP-885, "Radiation Honitoring System",
which one of the following statements is correct concerning high airborne radiation levels in the control room?
a.
It is preferable to evacuate to the Auxiliary Control Panel instead of remaining in the control room and using Self Contained Breathing Aparatus (SCBA).
b.
Personnel will not evacuate the control room unless directed by the Senior Control Operator.
c.
A high airborne radiation level does not require PEP entry.
d.
If needed, check the radiation levels at each Emergency Outside Intake and open the intake with the lowest radiation level.
(44444 CATEGORY 2 CONTINUED ON NEXT PAGE 44*~*)
NS Page 7
QUESTION 2.89 (1.88)
According to AOP-812, "Partial Loss of Condenser Vacuum", which one of the following conditions requires a manual turbine trip?
a.
Condenser pressure in either zone increases above 5.5" Hg abs b.
Condenser pressure in either zone increases above 6.5" Hg abs Condenser pressure in either zone increases above 7.5" Hg abs Condenser pressure in either zone increases above 8.5" Hg abs QUESTION 2.18 (1.88)
According to EOP-EPP-888, "SI Termination",
which one of the following correctly states a SI Reinitiation Criteria' a.
PZR LEVEL-can not be maintained greater than 28% [55%/
RCS SUBCOOLING-less than 28 degrees F (58 degrees F]-C PZR LEVEL-can not be maintained greater than 18% [45%]
RCS SUBCOOLING-less than 18 degrees F [42 degrees Fj-M QUESTION
- 2. 11
( 1. 88)
Which one of the following is NOT a symptom of loss of containment integrity according to AOP-823, "Loss of Containment Integrity".
High or increasing Penetration Pressurization System leakage.
Failure of both doors of one of the personnel hatches to seal when the plant is in Mode 5.
A manual or blind flange not in proper position as required by plant conditions.
Failure of a containmnet isolation valve to shut when given a "shut" signal.
(***4*CATEGORY' CONTINUED ON NEXT PAGE 44~~~)
MLS age 8
QUESTION 2.12 (1.88)
Hhich one of the following is a correct symptom of a continuous withdrawal of a control bank as stated in AOP-881, "Malfunction of Rod Control and Indication Systems" ?
a.
Decreasing Tavg and steam pressure b.
Actuation of PZR backup heaters c.
"Over Power Delta-T Block Rod C-4" alarm d.
"RCS Loop Tavg Low-Low Alert" alarm
.QUESTION 2.13 (1.88)
Which one of the following actions does NOT automatically occur upon receipt of a,"Fuel Handling Building (FHB) High Radiation" alarm' a.
FHB Emergency exhaust fans start b.
FHB Fuel Pool Purification System starts c.
FHB normal supply fans stop d.
FHB loading area isolation dampers shut (44*44 CATEGORY 2 CONTINUED ON NEXT PAGE 44~4*)
0 Page 9
The c trol room has received a RM-11 alarm for the Tank Area Drain Transfer p Monitor.
The Tank Area Drain Transfer Pumps are aligned to the storm dra'ystem.
According to AOP-888, "Accidental Release of Liguid Haste",
w 'ne of the following is NOT one of the automatic actions which should occur a
result of an accidental effluent release?
a.
The isolation valve to he oil separator closes.
b.
1FD-189, "Tank Area D
harge to Storm Drains", closes if the leak is in the Tank Buildi c.
The isolation valve to divert the flow the Secondary Haste Holdup Tank opens.
d.
Tank Area Drain Transfer Pumps shut-off.
QUESTION 2.15 (1.88)
Several indicators must exist before natural circulation can be verified.
Hhich one of the following is one of the indicators to be used by an operator-to verify natural-circulation' a.
S/G pressure stable or increasing b.
RCS subcooled cd Narrow range hot leg RTD stable d.
S/G level decreasing (444** CATEGORY 2 CONTINUED ON. NEXT PAGE ~4***)
Page 18 QUESTION
- 2. 16 (1.88)
A reactor trip has occurred.
During performance of EOP-EPP-884, "Reactor Trip Response",
a safety injection is required.
After an SI is actuated, which one of the following is the correct procedure where you are to proceed?
a.
Path 2, entry point J b.
Path 1, entry point C
c.
EOP-EPP-884, step 1
d.
Path 1, entry point A
QUESTION 2.17 (1.88)
Hhich one of the following statements is a correct automatic action associated with AOP-818, "Feedwater Malfunctions" ?
a.
If a heater. drain pump is lost above 78% power a turbine runback will occur.
b.
The condensate demineralizer bypass valve will close on high delta-P-across the demineralizers.
c.
Loss of a condensate booster pump will trip the associated main feedwater pump if both are running.
d.
If both Main Feedwater Pump breakers are open the motor driven AFN pumps will start and a turbine runback will occur above 58%
power.
(44444 CATEGORY 2 CONTINUED ON NEXT PAGE 44++)
lg f22~d N
EVO T
NS Page 11 QUESTION 2.18 (1.88)
Hhich one of the following statements concerning AOP-881, "Malfunction of Rod Control and Indication Systems",
is correct'?
a.
Recovery from a dropped RCCA will be made easier if Tavg is higher than Tref prior to commencing withdrawal of the dropped RCCA.-.
b.
If two or more RCCA's have dropped, manually trip the reactor and proceed in accordance with EOP-Path-1.
c.
During recovery of the dropped
- RCCA, a
"Rod Control Urgent" alarm will occur because the lift coils for the other rods in the bank will have been disconnected.
d.
The delta flux target band is not applicable during a dropped RCCA malfunctions and recovery'UESTION According following a
~
2.19 (1.88)r to AOP-816, "Excessive Primary Plant Leakage",
which one of the is the criteria for initiating safety injection'?
If PZR level cannot be maintained greater than 15%
.If VCT level cannot be maintained with letdown isolated c.
If the leakage exceeds the capacity of one charging pump d.
If the leakage exceeds normal auto VCT makeup capability QUESTION 2.28 (1.88)
According to the immediate actions of AOP-817,
" Loss of Instrument Air",
which one of the following plant conditions should be present before the operator initiates AFN and trips the turbine?
a.
MSIV s going closed b.
A significant decrease in S/G level c.
Feedwater reheater bypass valves close d.
Feedwater cascading valves close
(**~~+ CATEGORY 2 CONTINUED ON NEXT'AGE 4*4~4)
Page 12 QUESTION 2.21 '1.88)
EOP-EPP-828, "SGTR Hith Loss of Reactor Coolant:
Subcooled Recovery",
contains a CAUTION which reads:
"Steps to depressurize the RCS and terminate SI should be performed as quickly as possible after the cooldown has been initiated...".
Hhich one of the following is the purpose of this CAUTION?
a.
Minimize possible pressurized thermal shock of the reactor vessel.
b.
Minimize possible pressurized thermal shock of the S/G tubes.
c.
Ensure the RCP minimum seal delta-p is maintained.
d.
Minimize the potential for S/G overfill.
QUESTION 2.22 (1.88)
Hhich one of the following statements is correct concerning response to abnormal hydrogen concentration in containment?
r a.
Hithin 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> of SI initiation the Containment Hydrogen Monitor System must be started.
b.
One Electric Hydrogen Recombiner (EHR) should be put in operation when hydrogen concentration exceeds 8.5%.
c.
The second EHR should be started after the first EHR is in operation and within 2 days after a LOCA.
d.
Hithin 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> of SI initiation the Containment Hydrogen Monitor System must be started.
QUESTION 2.23 (1.88)
EOP-FRP-S.l.
"Response to Nuclear Power Generation/ATHS",
allows the operator to exit the procedure when all steps have been implemented and the reactor is subcritical.
List the two (2) conditions, according to EOP-FRP-S.1, which must be met to satisfy the requirement of subcriticality.
(8.5 each)
(444~4 CATEGORY' CONTINUED ON NEXT PAGE *44>4)
Page 13 QUESTION 2.24 (2.88)
According to AOP-818, "Feedwater Malfunctions", what are the 4 immediate action steps to be taken if a main feed water pump trips above 88% reactor power?
(8.5 each)
QUESTION 2.25 (1.88)
List the four (4)
ESF signals that must be reset, per EOP-Path 1, after a
LOCA in order to stabilize the plant.
('.25 each)
QUESTION 2.26 (1.25)
List in order the five (5) immediate action steps of EOP-FRP-S.1, "Response to Nuclear Power Generation/ATHS".
Do not include subtasks or contingency actions.
(.25 each)
QUESTION 2.27 (1.88)
Answer the following according to AOP-813, "Fuel Handling Accident".
1.
List the three (3) immediate actions required of personnel in the area of the accident.
(.25 each) 2.
List the one (1) immediate action required of control room personnel.
(
~ 25)
(*4444 END OF'ATEGORY 2 +~***)
Page 14 QUESTION 3.81 (1.88)
After a Safety Injection (SI) actuation, which one of the following conditions/interlocks must be satisfied to block an automatic reinitiation of SI?
a.
SI signal cleared b.
PZR pressure above P-11 c.
Reactor trip breakers open d.
28 seconds have elapsed since SI initiation QUESTION 3.82 (1.88)
Hhich one of the following is a correct statement concerning RCP seal failure?
a.
Failure of No.2 seal would be Indicated by a high No.2 seal leakoff flow condition with a corresponding increase in No.1 seal leakoff flow.
Failure-of No.l seal would be indicated by a low No.1 seal leakoff flow condition with a corresponding change in No.2 seal leakoff flow.
C.
Failure of the No.3 seal would be indicated by an increase in makeup requirement to the standpipe.
d.
Failure of the No.2 seal would be indicated by a significant increase in No.3 seal leakoff
~
(**~~4 CATEGORY 3
CONTINUED ON NEXT PAGE *~~*~)
0 Opt Page 15 QUESTION 3.83 (1.88)
Hhich one of the following parameters provides the power level input to the Rod Insertion Limit Monitoring System for calculating rod insertion limits?
a.
Turbine First Stage Pressure b.
RCS Tavg c.
Auctioneered High Power Range NI Signal d.
RCS Delta-T QUESTION 3.84 (1.88)
Hhich one of the following containment pressures (high 2/3) will initiate Main Steamline isolation' a.
2.8 psig b.
3.8 psig c.
5.8 psig d.
18.8 psig QUESTION 3.85 (1.88)
Hhich one of the following statements concerning NIS permissives is correctly stated?
P-6, permits bypassing the intermediate range (IR) trip and removing IR high voltage.
b.
P-18, prevents IR high voltage from being manually reinstated.
C.
d.
P-8, blocks reactor trip on low flow in a single loop.
P-18, automatically blocks IR trip and Soure Range high voltage reinstatement.
(44444 CATEGORY 3 CONTINUED ON NEXT'AGE 44444)
Opt Page 16 QUESTION 3.86 (1.88)
According to OF-137, "Auxiliary Feedwater System",
which one of the following is the minimum steam inlet pressure at which the turbine driven AFH pump should be operated?
a.
95 psig b.
185 psig c.
115 psig d.
125 psig QUESTION 3.87 (1.88)
Nhich one of the following will initiate an automatic start signal for the Turbine Driven Auxiliary Feedwater Pump' a.
SI signal b.
Loss of power to either emergency bus c.
Trip of-last running main feedwater pump d.
Low-low level in one S/G (1/3 detectors)
QUESTION 3.88 (1.88)
Assume the Control. Room Isolation System (GRIS) is initiated by a High Radiation signal at the normal intake.
Hhich one of the following statements would be correct concerning the Control Room HVAC system?
a.
Normal exhaust damper opens b.
Purge makeup valve opens cd Emergency filtration inlet damper opens d.
Control room recirculation damper manually opened by operator (44~** CATEGORY 3 CONTINUED ON NEXT PAGE **4**)
3 0/
E E
E Page 17 QUESTION 3.89 (1.88)
Which one of the following is a function of the Incore Thermocouple System (ITS)?
a.
Used to determine subcooling margin b.
Used to calibrate excore thermocouples c.
Used for calorimetric calculations d.
Used as density compensation to RVLIS QUESTION 3.18 (1.88)
Hhich one of the following correctly describes the Normal power supply to a typical protection channel bus?
a.
488 VAC from emergency
- bus, transformed to 258 VAC, rectified to 258 VDC, inverted to 258 VAC. transformed to 118 VAC.
488 VAC from emergency
- bus, transformed to 128 VAC, rectified'o 125 VDC, inverted to 118 VAC.
488 VAC from emergency
- bus, transformed to 118 VAC.
d.
258 VDC from battery bus, inverted to 258 VAC, transformed to 118 VAC.
QUESTION 3.11 (1.88)
Which one of the following is the power supply to Containment Spray Pump 1A-SA?
a
~
Bus lA3-SA d.
Bus 1Al
(***
CATEGORY' CONTINUED ON NEXT PAGE +44>+)
0/
Page 18 QUESTION 3.12 (1.88)
Hhich one of the following Diesel Engine Control Panel indicating light descriptions is correctly stated?
a.
READY TO LOAD-energizes when engine speed
>375 rpm.
b.
SHUTDOHN SYSTEM ACTIVE-energized on manual start and indicates that all trips are active.
c.
UNIT AVAILABLEEMERGENCY STATUS-energized when all major components and associated subsystems are operable.
d.
RUN-energizes when engine speed reaches 458 rpm.
QUESTION
- 3. 13 (1. 88)
The Emergency Diesel Generator Air Qtarting System is designed to crank a
cold diesel engine times without recharging the receiver.
a.
2 b.
3 c.
4 d.
5 QUESTION 3.14 (1.88)
According to Technical Specification 3/4.9.11, "Hater Level-New and Spent Fuel Pools",
how many feet of water shall be maintained over the top of irradiated fuel assemblies seated in the storage racks.
a.
21 feet b.
22 feet c.
23 feet d.
24 feet
(*444 CATEGORY 3 CONTINUED ON'EXT'AGE" 44444)
0/
E 8%
Page 19
'.QUESTION 3.15 (1.88)
Hhich one of the following statements correctly describes the operation of the Main Steam Line Isolation logic?
a.
b.
A trip signal to an MSIV causes redundant solenoid valves to energize and bleed air from pilot valves.
A retentive memory in the isolation logic allows the MSIV s to be reset only if the actuation signal has cleared.
C.
A low steam line pressure signal in 1 of 3 detectors in 2 out of 3 main steam line loops will initiate an isolation signal.
d.
Any ESFAS signal which isolates the MSIV's will also isolate the steam supplies to the turbine driven auxiliary feedwater pump.
QUESTION
- 3. 16
( 1. 88)
Hhich one of the following Reactor Coolant Pump (RCP) conditions will cause an automatic reactor trip?
a
~
One RCP voltage's below its undervoltage setpoint while at 35%
reactor-power.
C.
Two RCP breakers are opened while the reactor is at 5% power.
One RCP trips on underfrequency while at 75% power.
One RCP trip frequency is below its underfrequency setpoint while at 15% power.
QUESTION 3.17 (1.88)
Hhich one of the following components is cooled by the CCHS essential loop?
a 0
c
~
d.
Spent fuel pool heat exchanger Reactor coolant pump thermal barrier cooler RHR pump seal water heat exchanger Letdown heat exchangers (444~
CATEGORY' CONTINUED ON NEXT PAGE 444**)
0/
Oy Page 28 QUESTION 3.18 (1.88)
Hhich one of the following main turbine generator trips has a 38 second time delay before the generator output breakers will open?
a.
An electrical fault b.
Low condenser vacuum c.
Low turbine bearing oil pressure d.
Thrust bearing failure QUESTION 3.19 (1.88)
Which one of the following, according to OP-188, "Reactor Coolant System",
is a correct precaution concerning the operation of a Reactor Coolant Pump.
RCP sea/ injection water temperature should be limited to a maximum of 155 degrees F.
b.
Seal leak-off valves must be closed when the seal injection water is not supplied'nd the RCS pressure is less than 288 psig.
If injection water is lost, pump operation may not continue.
The oil lift pump should be started at least two minutes before starting the RCP.
QUESTION 3.28 (1.88)
Hhich one of the following signals would cause a Main Feedwater Pump to trip?
a.
Low shaft RPM b.
Pump suction low flow c.
Low pump discharge flow d.
Low discharge header pressure (444~4 CATEGORY 3 CONTINUED ON NEXT'AGE':K444)
0/
Page 21 QUESTION 3.21 (1.88)
Hhich one of the following will cause automatic closure of CVCS Letdown Isolation Valves, 1CS-1 and 1CS-2?
a.
Pressurizer low level I
Low CVCS system pressure High CVCS flow High CVCS temperature QUESTION 3.22 (1.88)
Concerning the loss of an Emergency dc Bus, which one of the following statements is correct?
a.
Loss of emergency dc bus DP-1A-SA will cause the AFH Terry Turbine to be inoperable.
Loss of either emergency dc bus will cause the main feed regulating valves to Rail as-is.
Loss of either emergency dc bus will cause the feedwater isolation valve to fail open.
d.
Loss of emergency dc bus DP-1B-SB will prevent Emergency Diesel Generator 1B from starting.
QUESTION 3.23 (1.88)
The MSIV s are designed to close in seconds or less with or without steam flow.
(select one) a.
1 b.
3 c.
5 d.
7 (4****CATEGORY 3 CONTINUED ON NEXT PAGE 44444)
0/
or Page 22 QUESTION 3.24 (1.88)
At what water pressure will the motor-driven fire pump automatically start?
a 0
b.
C.
d.
183 psig 98 psig 93 psig 88 psig QUESTION 3.25 (1.88)
Which one of the following is correct concerning the Residual Heat Removal System (RHBS) during a Safety Injection following a LOCA?
a.
RHRS delivers water to the BCS when RCS pressure drops below approximately 258 psig.
b.
RHST 'to RHB pump isolation valves (1SI-322 and 1SI-323) are normally closed during power operation.
c.
Hhen water in the RHST is at a low-low level, the containmnet sump suctions automatically open and the RHST suctions automatically close.
d.
Hot leg recirculation is manually aligned approximately 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after initiation of SI.
(~~*** CATEGORY 3 CONTINUED ON NEXT PAGE **~~)
E 0
T S
0/
Page 23 QUESTION 3.26 (1.88)
Procedure GP-887, "Normal Plant Cooldown (Mode 3 to Mode 5)", lists 'the maximum cooldown rates for several RCS temperature ranges.
Assume the plant is cooling down from 358 degrees F to 288 degrees F.
Select the maximum RCS cooldown rate (rate in any 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />) allowed for this temperature range.
a.
188 degrees F
b.
58 degrees F
c.
28 degrees F
d.
5 degrees F
QUESTION 3.27 (2.88)
Match the-RPS permissives in COLUMN A with the statement in COLUMN B describing their function.
(Each permissive has only one correct response)
COLUMN A-PERMISSIVE COLUMN B-FUNCTION P-4
.P-6 P-8 P-18 1.
Blocks low flow in one loop trip 2.
Blocks steam dump operation 3.
Trips main turbine 4.
Blocks PZR low press trip 5.
Allows block of source range high flux trip 6.
Allows block of intermediate range high flux trip (4*444 CATEGORY 3 CONTINUED ON NEXT PAGE'**>~)
Opt 0/
Page 24 QUESTION 3.28 (2'.88)
Match the permissive interlocks in COLUMN A with the statement in COLUMN B about their function in the Steam Dump System.
(Each permissive has only one correct response.)
COLUMN A-PERMISSIVE C-8, turbine trip b.
C-9, condenser COLUMN B-FUNCTION 1.
Blocks operation of atmospheric dumps.
2.
Permits steam dump operation for cooldown below hot standby.
cd C-7a, loss of load 3.
Arms condenser dumps after 18% load rejection in less than 2 minutes.
C-7b, loss of load 4.
Arms condenser dumps after 58% load rejection in less than 2 minutes.
5.
Protects condenser from over-pressurization.
6.
Arms atmosphere'umps after 48% load rejection in less than 2 minutes.
(4444 CATEGORY 3 CONTINUED ON NEXT PAGE 44444)
0/
0/I Page 25 QUESTION 3.29 (2.88)
Hatch the Digital Rod Position Indication System (DRPIS) alarms in COLUMN A with their correct function in COLUMN B.
(each alarm has only one correct fuction)
COLUMN A-ALARMS "RPI Rod Deviation" "RPI Urgent "One Rod At Bottom" "RPI Non-urgent" 2.
3
~
5.
6.
COLUMN B-FUNCTIONS Indicates banks B,C,D on bottom with bank A above 6 steps.
Indicates
+ or -
12 st'ep deviation between rod and bank demand positions Indicates error or failure from both data cabinets.
indicates dropped rod or improper bank sequence.
Indicates
+ or 12 step deviation between any 2 rods in a bank.
Indicates conflict between two deviation cards.
QUESTION 3.38 (1.88)
Nhat 2 signals are inputs to the "Charging Flow Control Valve Controller",
1FC-122, to cause valve motion.
(specific instrument numbers not required)
(8.5 each)
QUESTION 3.31 (1.88)
List the four (4) sources of control signals which are used by the SGLCS to position the feedwater flow control valves.
(.25 each)
(~44** CATEGORY 3 CONTINUED ON NEXT PAGE 4*4+)
Opt 0/
Page 26 QUESTION 3.32 (8.75)
List the three (3) Containment Cooling System subsystems which automatically start following a loss of off-site power?
(.25 each)
QUESTION 3.33 (1'.88)
List 2 automatic actions which will occur if the VCT reaches a low-low level (<5%).
Do not list alarms and indications.
QUESTION 3.34 (1.88)
An Emergency Service Hater (ESH) pump will auto start if pressure falls to 53 psig in its associated header after a 28 second time delay.
Hhat is the purpose of the 28 second time delay?
QUESTION 3.35 (1.58)
List all the signals that'ill generate a containment ventilation isolation signal.
QUESTION 3.36 (1.88)
Hhich one of the following lists of Critical Safety Functions is in the correct ascending order or priority (lowest priority to highest priority)?
a.
Inventory, Containment, Integrity, Heat Sink, Core Cooling, Subcriticality.
b.
Heat Sink, Inventory, Integrity, Containment, Core Cooling, Subcriticality.
c.
Integrity, Inventory, Containment',
Heat Sink, Core Cooling, Subcriticality.
d.
Containment, Integrity, Inventory, Core Cooling, Heat Sink, Subcriticality.
(44444 CATEGORY 3
CONTINUED ON NEXT'AGE'444)
0/
Page 27 QUESTION 3.37 (1.88)
According to AP-828, "Clearance. Procedure",
a clearance may be transferred from one clearance holder to another.
Hhich one of the following statements concerning clearance transfer is correct'?
a.
A new clearance number will be assigned when a clearance is transferred.
b.
Either person involved in the clearance transfer may go to the Clearance Center to complete the clearance forms.
c.
The Shift Foreman must approve a clearance which is transferred more than 2 times.
d.
If the person holding the previous clearance, is not available, any supervisor may approve the transfer.
QUESTION 3.38 (1.88)
Which one of the following statements is correct concerning a fire emergency?
When evacuating from an RCA, persons will report to the access control assembly area unless otherwise instructed'pon receipt of a fire alarm, the Control Room Operators will immediately sound the plant-wide fire alarm and announce the the location of the fire.
C.
At least four Fire Brigade members shall be on the scene prior to commencing fire fighting.
If the fire cannot be readily extinguished, the person discovering the fire shall report to the access control assembly area.
(4**44 CATEGORY 3
CONTINUED ON'EXT PAGE 4*444)
or 0/
Page 28 QUESTION 3.39 (1.88)
According to PEP-782, "Independent Verification", which one of the following statements is correct?
Observation of the relative height of a valve stem can be used as the sole determinant of a valve's position if necessary.
Having a verifier observe the initial operator position a throttle valve is preferable to having both persons independently operate the valve.
Actual physical separation between the individuals is required to ensure the integrity of the independent verification.
Independent verification requirements must always be performed and cannot be waived.
QUESTION 3.48 (1.88)
Hhich one of the following is the correct emergency exposure limit in a lifesaving situation'?
a.
25 rem wholebody b.
58 rem wholebody c.
75 rem wholebody d.
188 rem wholebody (44~4* CATEGORY 3 CONTINUED ON NEXT PAGE 4*4*4)
S B
I 0/
0/
Page 29 QUESTION 3.41 (1.88)
Concerning keeping of control room logs and records, which one of the following statements is correct,?
a.
White out may be used to make a correction, if the correction is initialed and dated.
b.
Log entries may be made in either black or blue ink, unless required to be another color by specific procedures.
c.
Times of events shall'be recorded on a 12 hour1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> clock (A.M. &
P.M.).
d.
Editorial comments in official logs or records are not permitted.
QUESTION 3.42 (1.88)
Which one of the following statements is correct concerning pre-fire plans?
a.
Each pre-fire plan provides guidance on managing systems which may have been damaged in the fire.
b.
Copies of pre-fire plans are provided in the
c.
Each pre-fire plan contains guidance to assist in restoring ventilation to normal after a fire.
d.
Pre-fire plans may be used by all SHNPP personnel.
QUESTION 3.43 (1.88)
Select the lowest emergency classification from the list below that requires activation of the Operations Support Center (OSC).
a.
Notification of Unusual Event b.
Alert c.
Site Area Emergency d.
General Emergency (44444 CATEGORY 3 CONTINUED ON NEXT PAGE 44444)
Pa'ge 38 QUESTION 3.44 (1.88)
According to AP-583, "Entry Into Radiological Areas",
what are the four (4) requirements which an unescorted individual shall meet before entering the RCA'?
(.25 each)
QUESTION 3.45 (1.88)
List the four (4) plant alarms which can be actuated from the Hain Control Board.
(.25 each)
QUESTION 3.46 (1.88)
State the two (2) conditions both of which must be met prior to granting approval to deviate from an approved procedure.
(8.5 each)
(4444 END OF CATEGORY 3 4~+~~)
(~*44444444 END OF EXAMINATION 44*4*4444*)
Name:
ANSWER SHEET 2.
EMERGENCY AHD ABNORMAL PLANT EVOLUTIONS Multiple choice: Circle your choice.
If you change your answer,
~rite your selection in the blank.
2.81 A
B C
D 2.82 A
B C
D 2'3 A
B C
D 2.84 A
B C
D 2.85 A
B C
D 2.86 A
B C
2.87 A
B C
D 2.88 A
B C
D 2 89' B
C D
218 A
B C
D 2.11 A
B C
2.12 A
B C
D D
213 A
B C
D 214 A
B C
D 215 A
B C
D 216 A
B C
D 217 A
B C
D 2.18 A
B C
D 2.19 A
B C
D 2.28 A
B C
D 2.21 A
B C
D 2.22 A
B C
D
Name:
ANSWER 2.23 ANSWER 2.24
Name:
ANSHER 2.25 ANSHER 2.26
Name:
ANSHER 2.27 (44444 END OF CATEGORY 2 44:K44)
Name:
ANSWER SHEET 3.
PLANT SYSTEMS AND PLANT-HIDE GENERIC RESPONSIBILITIES Multiple choice: Circle your choice.
If you change your answer, write your selection in the blank.
381 A
B C
D 3.82 A
B C
D 3.83 A
B C
D 3,84 A
B C
D 3.85 A
B C
D 3.86 A
B C
D 3.87 A
B C
D 308 A
B C
D 3.89 A
B C
D 3.18 A
B C
D 3.11 A
B C
D 3.12 A
B C
D 3.13 A
B C
D 3 '4 A
B C
D 3
~ 15 A
B C
D 316ABCD 3.17 A
B C
D 318 AB CD
.3.19 A
B C
D 3.28 A
B C'
Name:
3.21 A
B C
D 322 A
B C
D 3.23 A
B C
D 3.24 A
B C
D 3.25 A
B C
D 3.26 A
B C
D 3.27 a.
C.
d.
3.28 b.
4 d.
3.29 C.
Name:
ANSHER 3.38 ANSHER 3.31
ANSHER 3.32 ANSHER 3.33
Name:
ANSWER 3.34 ANSWER 3.35
Name:
3.36 A
B C
D 3,37 A
B C
D 3,38 A
B C
D 3.39 A
B C
D 3.48 A
B C
D 3.41 A
B C
D 342 A
B C
D 343 A
B C
D ANSWER 3.44
Name:
ANSWER 3.45 ANSWER 3.46 (44444 ND OF CATEGORY 3 **:t:**)
(ewww40444 ND OF EXAMINATION +*~**++~~*)
Page 31 ANSWER 2.81 (1.88)
REFERENCE AOP-818, p.18 KA:
888815A289 888815A289 (3 4)
..(KA s)
ANSWER
'2.82 (1.88)
REFERENCE AOP-882, p.4 KA:
888824G811 888824G811 (3.8)
..(KA's)
ANSWER 2.83 (1.88)
REFERENCE AOP-LP-3.8, LO 1.1.6, p.18 AOP-884, p.63 KA:
888868A121 (3.9) 888868A121
..(KA's)
ANSWER 2.84 (1.88)
REFERENCE EOP-LP-3.7, LO 1.1.2, p.11 EOP-EPP-881, p.28 KA:
888855K382 (4.3) 888855K382
..(KA s)
(4444 CATEGORY 2 CONTlNUED ON NEXT PAGE 4*~44)
Page 32 ANSHER 2.85 (1.88)
REFERENCE EOP-LP-3.18, LO 1.1.12, p.18,17,18 EOP-FRP-C.1, p.14 KA:
888874K311 (4.8) 888874K311
..(KA s)
ANSHER a.
REFERENCE 2.86 (1.88)
AOP-LP-3.8, LO 1.1.3, p.13 AOP-814, p.15 KA:
888826K383 (4.8) 888826K383
..(KA's)
ANSHER 2.87 (1.88)
REFERENCE FP-LP-3.8, LO 1.1.2,p.16 KA:
888867A216 (3.3) 888826K383 888867A216
..(KA s)
ANSHER 2.88 (1.88)
(444*4 CATEGORY' CONTINUED ON NEXT PAGE 4444)
Page 33 REFERENCE AOP-LP-3.3, LO 1.1.4, Para.
2.4.4 AOP-885, p.18 KA:
888868K318 (4.2) 888868K318
..(KA s)
ANSHER 2.89 (1.88)
REFERENCE AOP-LP-3.6, LO 1.1.3, para.
2.4.C AOP-812, p.4 KA:
888851A282 (3.9) 888851A282
..(KA's)
ANSWER C.
REFERENCE 2.18 (1.88)
EOP-EPP-828, p.3 KA:
888848A181 (4.6) 888848A181
..(KA's)
ANSWER b.
REFERENCE 2.11 (1.88)
AOP-823, p.3 Technical Specification 3.6.1.3 KA:
888869A281 (3.7) 888869A281
..(KA's)
ANSWER C.
2.12 (1.88)
(44*44 CATEGORY 2 CONTINUED ON NEXT PAGE ~44~~)
Page 34 REFERENCE AOP-881, p.9 AOP-LP-3.1, LO 1.1.4, p.S-9 KA:
888881A285 (4.4) 888881A285
~.(KA s)
ANSWER b.
REFERENCE 2.13 (1.88)
RMS-LP-3.8, LO 1.1.6, TPO:
RMS-TP-38.8 AOP-885, p.4 APP-ALB-818-4-5, p.55 KA:
888861K382 (3.4) 888861K382
..(KA s) b.
WER 2.14 (1.88)
REFERENCE Pk I 6-r E AOP-LP-3.5,,
L 1.1.2, para.
2.3.1.A AOP-888, p.4-6 KA:
888859K384
.8) 888859K384 A s)
Q<
e/a(/eg ANSWER 2.15 (1.88)
REFERENCE FF-LP-3.4, LO 1.1.3, p.6 KA:
888889K181 (4.2) 888889K181
..(KA s)
(4444* CATEGORY 2 CONTlNUED ON NEXT PAGE *4444)
Page 35 ANSWER 2.16 (1.88)
REFERENCE EOP-LP-3.1, L01.1.1, p.24 KA:
888887G812 (3.8) 888887G812
..(KA s)
ANSWER 2.17 (1.88)
REFERENCE AOP-818, p.6 AOP-LP-3.6, L01.1.2, para.
2.3.A KA:
888854K384 (4.4)
~
888854K384
~ (KA s)
ANSWER
- 2. 18 (1.88)
REFERENCE AOP-881, p.11-13 KA:
888883K384 (3.8) 888883K384
..(KA s)
ANSHER 2.19 (1.88)
REFERENCE AOP-816, p.5 KA:
888889K321 888889K321 (4.2)
..(KA's)
(44444 CATEGORY 2 CONTINUED ON NEXT PAGE 44444)
ANSHER 2.28 (1.88)
REFERENCE AOP-LP-3.18, LO 1.1.3, p.4 AOP-817, p.3 KA:
888865G812 (3.1) 888865G812
..(KA s)
ANSHER 2.21 (1.88)
REFERENCE EOP-LP-3.5, LO 1.1.2 EOP-EPP-828, p.18 KA:
888838A136 (4.3) 888838A136
..(KA s)
ANSHER 2.22 (1.88)
REFERENCE HR-LP-3.8, LO 1.1.6, p.7-8 OP-125, p.6 KA:
828888/G818 (3.8) 828888G818
..(KA's)
ANSHER 2.23 (1 '8) 1.
Power Range Channels-less than 5%
(8 5) 2.
Intermediate range startup rate channels-negative (8.5)
(444~4 CATEGORY 2 CONTINUED ON NEXT PAGE 4**44)
V U
Page 37 REFERENCE EOP-LP-3.15, LO 1.1.13 EOP-FRP-S.1, p.18 KA:
888829K312 (4.4) 888829K312
..(KA s)
ANSHER 2.24 (2.88) l.
2.
3.
4, Start all AFH pumps (8.5 each)
Isolate steam generator blowdown Shut the recirc valve for the tripped MFH pump As control rod speed slows below 48 steps per minute, put rods in manual and continue to insert the control rods to shut the steam dumps.
REFERENCE AOP-LP3.6, LO 1.1.3 AOP-818, p.7 KA:
888854G812 (3.2) 888854G812
..(KA s)
ANSHER 2.25 (1.88)
(8.25 each) 1.
SI 2.
Phase A
3.
Phase B
4.
Feed Hater Isolation REFERENCE EOP-EPP-888, p.4 KA:
888811A288 (3.4) 888811A288
..(KA s)
ANSHER 2.26 (1 '5) 1.
2.
3.
5.
Check reactor tripped Check turbine tripped Check feedwater status Initiate Emergency Boration of RCS Verify Emergency Boration
(.2 for step,
.85 for correct relative order)
(44*44 CATEGORY 2 CONTINUED ON NEXT PAGE 444*4) r
Page 38 REFERENCE EOP-LP-3.15, LO 1.1.5, p.13-16 EOP-FRP-S.1, p.3 KA:
888829K312 (4.4) 888829K312
..(KA s)
ANSWER
- 2. 27
( 1. 88) 1.
a
~
Place an assembly that is being moved in a safe location (.25)
(if time permits) b.
Notify the control room (.25) c.
Evacuate the area
(.25) 2.
Sound the "Local Evacuation Alarm" and evacuate the affected area REFERENCE AOP-813, p.4 AOP-LP-3.7, LO 1.1.3, para 2.3.C KA:
888836K383 (3.7) 888836K383
..(KA s)
(44444 END OF CATEGORY 2 4*444)
RESPONS' LITIES 18%
Page 39 ANSWER C.
REFERENCE 3.81 (1.88)
SD-183, p.25 Logic Diagram, 188D831 Series, Sheet 8
KA:
813888K481 (3.9) 813888K481
..(KA s)
ANSWER C.
REFERENCE 3.82 (1.88)
RCS-LP-3.8, LO 1.1.8, p.19-21 AOP-818, p.18,12 KA:
883888A281 (3.5) 883888A281
'.(KA s)
ANSWER 3.83 (1.88)
REFERENCE RODCS-LP-3.1, LO 1.1.5, p.12 KA:
881888K584 (4.3) 881888K584
..(KA's)
ANSWER 3.84 (1.88)
(+*~** CATEGORY 3 CONTINUED ON NEXT PAGE 44~4*)
Page 48 REFERENCE ESFAS-LP-3.8, LO 1.1.4, p.l4 SD-126.81, p.12 KA:
813888K187 (4.1) 813888K187
..(KA s)
ANSHER C
~
REFERENCE 3.85 (1
~ 88)
NIS-LP-3.8, LO 1.1.17, p.43-44 SD-185, p.38 KA:
815888K487 (3.7) 815888K487
..(KA's)
ANSHER 3.86 (1.88)
REFERENCE AFS-LP-3.8, LO 1.1.11 OP-137, p.6-8 KA:
861888A381 (4.2) 861888A381
..(KA s)
ANSHER 3.87 (1.88)
REFERENCE AFS-LP-3.8, LO 1.1.9, p.26 KA:
861888K486 (4.8) 861888K486
..(KA s)
ANSHER 3.88 (1.88)
(44444 CATEGORY 3 CONTINUED ON NEXT PAGE +*~~+)
Page 41 REFERENCE RMS-LP-3.8, LO 1.1.6, p.38-48 SD-173, p.12 KA:
872888K284 (3.3) 872888K284
..(KA's)
ANSHER 3.89 (1.88)
REFERENCE II-LP-3.8, LO 1.1.1, p.5 KA:
817828K181 (3.2) 817828K481 (3.4) 817828K181
~.(KA s)
ANSHER 3.18 (1.88)
REFERENCE SD-156, p.11,27 KA:
862888K418 (3.1) 862888K418
..(KA's)
ANSHER 3.11 (1.88)
REFERENCE CSS-LP-3.8, LO 1.1.7, p.16 KA:
8826888K281 (3.4) 826888K281
..(KA s)
ANSHER 3.12 (1.88)
(+~~44 CATEGORY 3 CONTINUED ON NEXT PAGE 444~)
Page 42 REFERENCE DE-LP-3.8, LO 1.1.6, p.37 KA:
864888A383 (3')
864888A383
..(KA s)
ANSHER 3.13 (1.88)
REFERENCE DE-LP-3.8, LO 1.1.2, p.11 KA:
864888K185 (3.4) 864888K185
~ (KA's)
ANSHER 3.14 (1.88)
REFERENCE FPC-LP-3.8, LO 1.1.7, p.23 T.S. 3/4.9.11 KA:
833888K481 (2.9) 833888K481
..(KA s)
ANSHER b.
REFERENCE 3.15 (1.88)
SD-126.81, p.11,29 ESFAS-LP-3.8, LO 1.1.4, p.14-15 KA:
839888K485 (3.7) 839888K485
..(KA's)
ANSHER 3.16 (1.88)
'I (44444 CATEGORY 3 CONTINUED ON NEXT PAGE *4:K44)
E PONS Page 43 REFERENCE BPS-LP-3.8, LO 1.1.12, p.21-22,26
- KA
812888K482 (3.9) 812888K482
..(KA's)
ANSWER C.
REFERENCE 3.17 (1.88)
CCWS-LP-3,8, LO 1.1.3, p.8-9 KA:
888888K182 (3.3) 888888K182
..(KA s)
ANSWER b.
REFERENCE 3.18 (1.88)
GEN-LP-3.8, LO 1.1.6, p.18 MT-LP-3.8, LO 1.1:27, p.33 KA:
845888A384 (3.4) 845888A384
..(KA s)
ANSHER 3.19 (1.88)
REFERENCE RCS-LP-3.8, LO 1.1.22 KA:
883888G818 (3.3) 883888G818
..(KA s)
ANSWER b.
3.28 (1.88)
(4444 CATEGORY 3 CONTINUED ON NEXT PAGE ~4~4*)
Page 44 REFERENCE CFH-LP-3.8, LO 1.1.4, p.41 KA:
859888K416 (3.1) 859888K416
..(KA s)
ANSHER a
~
REFERENCE 3.21 (1.88)
CVCS-LP-3.8, LO 1.1.3, p.23 KA:
884888A382 (3.6) 884888A382
..(KA s)
ANSHER 3.22 (1.88)
REFERENCE DCP-LP-3.8, LO 1.1.3, p.18 AOP-825, p.8 SD-155.81, p.16 KA:
863888K381 (3.7) 863888K381
..(KA s)
ANSHER 3.23 (1.88)
REFERENCE MSSS-LP-3.8, LO 1.1.1, p.12 KA: 835888K681 (3.2) 835888K681
..(KA s)
ANSHER 3.24 (1.88)
(44444 CATEGORY 3 CONTINUED ON NEXT'AGE 444*4)
Og age 45 REFERENCE FP-LP-3.8, LO 1.1.3, p-;28 SD-149, p.18 KA:
886888G884 (3.1) 886888G884
..(KA s)
ANSHER 3.25 (1.88)
REFERENCE RHRS-LP-3.8, LO 1.1.4, p.26-27 SD-118, p.15 OP-ill. p.35 KA:
886888K182 (4.3) 886888K182
..(KA s)
ANSHER 3.26 (1.88)
REFERENCE RHRS-LP-3.8, LO 1.1.3, p.38 GP-887, p.12 KA:
885888A181 (3.5) 885888A181
..(KA s)
ANSHER 3.27 (2.88) a.
3 (8.5 each) b.
5 c.
1 d.
6 REFERENCE RPS-LP-3.8, LO 1.1.13, p.24 KA:
812888K618 (3.3) 812888K618
..(KA's)
(44*44 CATEGORY 3 CONTINUED ON NEXT PAGE:K**44)
Page 46 ANSWER 3.28 (2.88) a.
1
(.5 each) b.
5 C.
3 d.
6 REFERENCE SD-126.81, p.13-15 KA:
839888K186 (3.1) 841828K417
..(KA s)
ANSWER 3.29 (2.88) a.
2
(.5 each) b.
3 c.
4 d.
6 REFERENCE RODCS-LP-3.1, LO 1.1.1) p.18-21 KA:
814888K486 (3.4) 814888K486
..(KA s)
ANSHER
- 3. 38
( 1. 88) 1.
PZR Master Level Controller (8.5) 2.
A flow detector in the charging line (8.5)
REFERENCE CVCS-LP-3.8,,
LO 1.1.7 PZRLC-LP-3.8, LO 1.1.7, p.12,17 KA:
884888K181 (3.6) 884888K181
..(KA s)
(:~44*4 CATEGORY 3 CONTINUED ON NEXT PAGE 444*4)
PON L
ES 1
Page 47 3.31 (1.88)
REFERENCE SD-134, p.16 CFH-LP-3.8, LO 1.1.1, p.22-23 SD-126.82, p.5 KA:
859888K184 (3.4) 859888K184
..(KA s)
ANSHER 1.
Steam generator level
(.25 each) 2.
Feedwater flow 3.
Steam flow 4.
Power demand level or reference level (first stage turbine pressure or reactor power)
ANSHER 3.32 (8.75) 1.
Containment Fan Coolers
(.25 each) 2.
Primary Shield Cooling 3.
Reactor Support Cooling REFERENCE SD-169, p.14-18 CCS-LP-3.8, LO 1.1.7, p.12-17 KA:
822888A381 (4.1) 822888A381
..(KA s)
ANSHER 3.33 (1.88) 1.
RHST suction valves open (8.5) 2.
VCT outlet valves close (8.5)
REFERENCE CVCS-LP-3.8, LO 1.1.5, p.32-33 KA:
884888K488 (3.8) 884888K488
..(KA s)
(4*~~~ CATEGORY 3 CONTINUED ON NEXT PAGE 4444~)
Page 48 ANSWER 3.34 (1.88)
The 28 second time delay is to allow the alternate Normal Service Hater pump to start.
REFERENCE ESHS-LP-3.8, LO 1.1.11, p.29 KA:
876888K482 (2.9) 876888K482
..(KA s)
ANSWER 3.35 (1.58) 1.
High radiation (on 2/4 containment isolation system rad.
monitors )~~
Lo. >>>)
2.
Any SI signal ~~to.37m)
(low steam line pressure)
(Low PZR pressure)
(High containyent pressure)
(Manual initiation) 3.
Manual phase A
9.
P1~nua>
conga i n~en Sp~qy qclcpi;o~,~nql, (d.37'EFERENCE CVS-LP-3.8, LO 1.1.4, p.23 SIS-LP-3.8, TP¹ SIS-TP-7.8 KA:
829888A381 (3.8) 829888A381
..(KA s)
(o.> mJ ANSWER 3.36 (1.88)
REFERENCE EOP-LP-3.8, LO 1.1.13, p26 KA:
194881A182 (4.1) 194881A182
..(KA's)
ANSHER C.
3.37 (1.88)
(4444 CATEGORY 3
CONTINUED ON NEXT PAGE 4*~44)
S 3 I
S 0/
Page 49 REFERENCE AP-828.
p.7
. KA:
194881K182 (3.7) 194881K182
..(KA s)
ANSWER a
~
REFERENCE 3.38 (1.88)
FPP-882, p 5-6 KA:
194881K116 (3.5) 194881K116
..(KA s)
ANSWER 3.39 (1.88)
REFERENCE PLP-782, p
6 KA:
194881K181
-(3.6) 194881K181
..(KA s)
ANSHER 3.48 (1.88)
REFERENCE RP-LP-3.3, LO 1.1.17, p.12 PEP-391, p.8 PEP-394, p.6 KA:
194881K183 (3.8) 194881K183
..(KA s)
ANSHER d.
3.41 (1.88)
(4~444 CATEGORY 3
CONTINUED ON NEXT PAGE 44~4~)
Og Page 58 REFERENCE AP-882, p.38 PP-LP-3.18, LO 1.1.4 KA:
194881A186 (3.4) 194881A186
..(KA s)
ANSHER 3 '2 (1.88)
REFERENCE FPP-812, p.5 KA:
194881K116 (3.5) 194881K116
..(KA s)
ANSHER 3.43 (1.88)
REFERENCE EPT-LP-3.8, LO 1.3..2, EAL OVERVIEH, TP5 EP-TP-249.8 KA:
194881A116 (3.1) 194881A416
..(KA s)
ANSHER 3.44 (1.88) 1.
2.
3.
4 General Employee Training, Level II (GETII)
(.25 each)
Hhole Body Count (unless waived by RC Supervisor)
Personnel monitoring devices Sign in on GRHP or SRHP REFERENCE AP-583, p.ll KA:
194881K184 194881K184 (3.3)
..(KA's)
(44:~4* CATEGORY' CONTINUED ON NEXT PAGE 4~444)
0/I 0/
Page 51 ANSWER 3.45 (1.88) 1.
Site Evacuation
(.25 each) 2.
Local Evacuation 3.
Containment Evacuation 4.
Fire Alarm REFERENCE OF-188, p.v KA:
194881A184 (3.8) 194881A184
..(KA s)
ANSHER 3.46 (1.88) 1.
In an emergency when the action is immediately needed to protect the public health and safety.
(8.5) 2.
No action consistent with license conditions aqd technical specification that can provide adequate or equivalent protection is immediately apparent.
(8.5)
REFERENCE AP-882, p.23 OMM-881, p.58 KA:
194881A182 (4.1) 194881A182
..(KA's)
(*4*~* END OF CATEGORY 3 **~~*)
(444444444+
END OF EXAMINATION 44*4~*4444)
QU]F~S~IN
~V(~U TEST CROSS REFERENCE Page 1
2.81 2.82 2.83 2 '4 2.85 2.86 2.87 2.88 2.89 2.18 2.11 2.12 2.13 2.14 2.15 2.16 2.17 2.18 2.19 2.28 2.21 2.22 2.23 2.24 2.25 2 '6 2.27 3.81 3.82 3.83 3.84 3.85 3.86 3.87 3.88 3.89 3 '8 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 3.19 3.28 3.21 3.22 3.23 3.24 3.25 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1 '8 1
~ 88 1.88 2.88 1.88 1.25 1.88 28.25 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1
~ 88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 9888182 9888183 9888184 9888185 9888186 9888163 9888187 9888188 9888189 9888118 9888111 9888114 9888115 9888117 9888128 9888121 9888122 9888123 9888124 9888126 9888118 9888127 9888112 9888113 9888116 9888119 9888125 9888128 9888129 9888138 9888132 9888133 9888135 9888136 9888137 9888139 9888141 9888142 9888143 9888144 9888146 9888147 9888148 9888158 9888152 9888153 9888154 9888155 9888156 9888157 9888158 9888168
TEST CROSS REFERENCE Page 2
3.26 3 '7 3.28 3.29 3.38 3.31 3 '2 3.33 3'4 3.35 3.36 3.37 3.38 3.39 3.48 3.41 3.42 3.43 3.44 3.45 3.46 1.88 2.88 2.88 2.88 1.88 1.88 8.75 1.88 1.88 1.58 1'8 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 1.88 49.25 9888161 9888145 9888149 9888159 9888131 9888134 9888138 9888148 9888151 9888162 9888891 9888892 9888893 9888894 9888897 9888898 9888899 9888181 9888895 9888896 9888188 77.58