Initial Examination Report, No. 05000005/OL-07-01 Pennsylvania State University

ML071840054
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Site:	Pennsylvania State University
Issue date:	07/06/2007
From:	Johnny H. Eads NRC/NRR/ADRA/DPR/PRTB
To:	Sears C F Pennsylvania State Univ, University Park, PA
Isaac P, NRC/NRR/DPR/PRTB, 301-415-1019
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July 6, 2007Dr. C. Frederick Sears, DirectorRadiation Science and Engineering Center Breazeale Nuclear Reactor Building Pennsylvania State University University Park, PA 16802-2301

SUBJECT:

INITIAL EXAMINATION REPORT 50-005/OL-07-01, PENNSYLVANIA STATEUNIVERSITY

Dear Dr. Sears:

During the week of June 4, 2007, the NRC administered an operator licensing examination atthe Pennsylvania State University Breazeale Reactor. The examination was conducted according to NUREG-1478, "Non-Power Reactor Operator Licensing Examiner Standards,"

Revision 1. Examination questions and preliminary findings were discussed with those members of your staff identified in the enclosed report at the conclusion of the examination. In accordance with 10 CFR 2.390 of the Commission's regulations, a copy of this letter and theenclosures will be available electronically for public inspection in the NRC Public DocumentRoom or from the Publicly Available Records (PARS) component of NRC's Agencywide Documents Access and Management System (ADAMS). ADAMS is accessible from the NRC Web site at (the Public Electronic Reading Room) http://www.nrc.gov/reading-rm/adams.html. The NRC is forwarding the individual grades to you in a separate letter which will not be released publicly. Should you have any questions concerning this examination, please contactPatrick Isaac at 301-415-1019.Sincerely,

/RA/

Johnny Eads, ChiefResearch and Test Reactors Branch B Division of Policy and Rulemaking Office of Nuclear Reactor RegulationDocket No. 50-5

Enclosures:

1. Initial Examination Report No. 50-005/OL-07-012. Examination and answer key (RO/SRO)cc w/enclosures:Please see next page Pennsylvania State UniversityDocket No. 50-5 cc:

Mr. Eric J. Boeldt, Manager of Radiation Protection The Pennsylvania State University 304 Old Main University Park, PA 16802-1504Dr. Eva J. PellVice President and Dean of the Graduate School Pennsylvania State University 304 Old Main University Park, PA 16802-1504Director, Bureau of Radiation ProtectionDepartment of Environmental Protection P.O. Box 8469 Harrisburg, PA 17105-8469Test, Research, and Training Reactor Newsletter University of Florida 202 Nuclear Sciences Center Gainesville, FL 32611 July 6, 2007Dr. C. Frederick Sears, Director Radiation Science and Engineering Center Breazeale Nuclear Reactor Building Pennsylvania State University University Park, PA 16802-2301

SUBJECT:

INITIAL EXAMINATION REPORT 50-005/OL-07-01, PENNSYLVANIA STATEUNIVERSITY

Dear Dr. Sears:

During the week of June 4, 2007, the NRC administered an operator licensing examination atthe Pennsylvania State University Breazeale Reactor. The examination was conducted according to NUREG-1478, "Non-Power Reactor Operator Licensing Examiner Standards,"

Revision 1. Examination questions and preliminary findings were discussed with those members of your staff identified in the enclosed report at the conclusion of the examination. In accordance with 10 CFR 2.390 of the Commission's regulations, a copy of this letter and theenclosures will be available electronically for public inspection in the NRC Public DocumentRoom or from the Publicly Available Records (PARS) component of NRC's Agencywide Documents Access and Management System (ADAMS). ADAMS is accessible from the NRC Web site at (the Public Electronic Reading Room) http://www.nrc.gov/reading-rm/adams.html. The NRC is forwarding the individual grades to you in a separate letter which will not be released publicly. Should you have any questions concerning this examination, please contactPatrick Isaac at 301-415-1019.Sincerely,

/RA/

Johnny Eads, ChiefResearch and Test Reactors Branch B Division of Policy and Rulemaking Office of Nuclear Reactor RegulationDocket No. 50-5

Enclosures:

1. Initial Examination Report No. 50-005/OL-07-012. Examination and answer key (RO/SRO)cc w/enclosures:Please see next pageDISTRIBUTION

PUBLICPRTB r/fJEadsFacility File EBarnhill (O6-F2)ADAMS ACCESSION #: ML071840054 TEMPLATE #: NRR-074PACKAGE ACCESSION #:

ML070720031OFFICEPRTB:CEIOLB:LAPRTB:BCNAMEPIsaacEBarnhillJEads DATE7/6/20077/6/20077/6/2007OFFICIAL RECORD COPY ENCLOSURE 1U. S. NUCLEAR REGULATORY COMMISSIONOPERATOR LICENSING INITIAL EXAMINATION REPORTREPORT NO.:50-5/OL-07-01FACILITY DOCKET NO.:50-5 FACILITY LICENSE NO.:R-2 FACILITY:Pennsylvania State University Breazeale Reactor EXAMINATION DATES:06/04 - 05/2007 EXAMINERS:Patrick Isaac, Chief ExaminerKevin M. WittSUBMITTED BY:

06/22/2007 Patrick Isaac, Chief Examiner Date

SUMMARY

During the week of June 04, 2007, the NRC administered Operator Licensing Examinations tofour Senior Reactor Operator Instant (SROI) candidates. All the candidates passed the examinations. REPORT DETAILS1.Examiners: Patrick Isaac, Chief ExaminerKevin M. Witt2.Results:RO PASS/FAILSRO PASS/FAILTOTAL PASS/FAILWrittenN/A4/04/0 Operating TestsN/A4/04/0 OverallN/A4/04/03.Exit Meeting:There were no generic concerns raised by the examiners. The Chief Examiner thanked thePennsylvania State University staff for their efforts in support of the examination and agreed to make the following changes to the written examination:Question A.15-Accept both "b" and "d" as correct.

Question B.8-Accept both "b" and "c" as correct.

U. S. NUCLEAR REGULATORY COMMISSIONNON-POWER REACTOR INITIAL LICENSE EXAMINATION

FACILITY: PENN STATE UNIVERSITY

REACTOR TYPE: TRIGA

DATE ADMINISTERED: 6/04/2007

CANDIDATE:

INSTRUCTIONS TO CANDIDATE:Answers are to be written on the answer sheet provided. Attach the answer sheets to the examination. Points for each question are indicated in paren-theses for each question. A 70%overall is required to pass the examination. Examinations will be picked up three (3) hours after theexamination starts.

% OFCATEGORY  % OF CANDIDATE'S CATEGORY VALUE TOTAL SCORE VALUE CATEGORY

20.00 33.3 A. REACTOR THEORY, THERMODYNAMICS ANDFACILITY OPERATING CHARACTERISTICS

20.00 33.3

B.NORMAL AND EMERGENCY OPERATINGPROCEDURES AND RADIOLOGICAL CONTROLS

20.00 33.3 C.PLANT AND RADIATION MONITORING SYSTEMS

FINAL GRADE  % TOTALSALL THE WORK DONE ON THIS EXAMINATION IS MY OWN. I HAVE NEITHER GIVEN NORRECEIVED AID. CANDIDATE'S SIGNATURE Section A:

L Theory, Thermodynamics & Facility Operating Characteristics Page 2

A N S W E R S H E E T

Multiple Choice (Circle or X your choice)

If you change your answer, write your selection in the blank.

MULTIPLE CHOICE

001 a b c d

002 a b c d

003 a b c d

004 a b c d

005 a b c d

006 a b c d

007 a b c d

008 a b c d

009 a b c d

010 a b c d

011 a b c d

012 a b c d

013 a b c d

014 a b c d

015 a b c d

016 a b c d

017 a b c d

018 a b c d

019 a b c d

020 a b c d

(***** END OF CATEGORY A *****)

Section B Normal, Emergency and Radiological Control Procedures Page 3

A N S W E R S H E E T

Multiple Choice (Circle or X your choice)

If you change your answer, write your selection in the blank.

MULTIPLE CHOICE

001 a b c d

002 a b c d

003 a b c d

004 a b c d

005 a b c d

006 a b c d

007 a b c d

008 a b c d

009 a b c d

010 a b c d

011 a b c d

012 a b c d

013 a b c d

014 a b c d

015 a b c d

016 a b c d

017 a b c d

018 a b c d 019 a b c d 020 a b c d

(***** END OF CATEGORY B *****)

Section C Facility and Radiation Monitoring Systems Page 4

A N S W E R S H E E T

Multiple Choice (Circle or X your choice)

If you change your answer, write your selection in the blank.

MULTIPLE CHOICE

001 a b c d

002 a b c d

003 a b c d

004 a b c d

005 a b c d

006 a b c d

007 a b c d

008 a b c d

009 a b c d

010 a b c d

011 a b c d

012 a b c d

013 a b c d

014 a b c d

015 a b c d

016 a b c d

017 a b c d

018 a b c d

019 a b c d

020 a b c d (********** END OF EXAMINATION **********)

NRC RULES AND GUIDELINES FOR LICENSE EXAMINATIONSDuring the administration of this examination the following rules apply:

1. Cheating on the examination means an automatic denial of your application and couldresult in more severe penalties.

2. After the examination has been completed, you must sign the statement on the coversheet 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 mustavoid all contacts with anyone outside the examination room to avoid even the appearance or possibility of cheating.4. Use black ink or dark pencil only to facilitate legi ble repr oductions.

5. Print your name in the blank provided in the upper right-hand corner of the examinationcover sheet.6. Fill in the date on the cover sheet of the examination (if necessary).

7. Print your name in the upper right-hand corner of the first page of each section of youranswer sheets.

8. The point value for each question is indicated in parentheses after the question.9. Partial credit will NOT be given.

10. If the intent of a question is unclear, ask questions of the examiner only.

11. When you are done and have turned in your examination, leave the examination areaas defined by the examiner.

EQUATION SHEET Q = m c p T= Q = m h Q = UA TSCR = S/(1-Keff)

CR 1 (1-Keff)1 = CR 2 (1-Keff)2 26.06 (eff)(1-Keff)0SUR =))))))))))))) M =

)))))))))) ( - )(1-Keff)1SUR = 26.06/M = 1/(1-Keff) = CR 1/CR 0P = P 0 10SUR(t)SDM = (1-Keff)/Keff P = P 0 e(t/)Pwr = W f m (1-)P = )))))))) P o* = 1 x 10-5 seconds - _ _ = (*/) + [(-)/eff] = */(-) = (Keff-1)/Keffeff = 0.1 seconds

-1 = Keff/Keff 0.693 T1/2 = )))))) DR 1 D 1 2 = DR 2 D 2 2 DR = DR o e-t 6CiE(n)DR =)))))))) R 21 Curie = 3.7x10 10 dps1 kg = 2.21 lbm1 hp = 2.54x10 3 BTU/hr1 Mw = 3.41x10 6 BTU/hr1 BTU = 778 ft-lbfF = 9/5C + 321 gal H 2 O 8 lbmC = 5/9 (F - 32)

Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 9QUESTIONA.1[1.0 point]Which ONE of the following is true concerning the differencesbetween prompt and delayed neutrons?

a.Prompt neutrons account for less than one percent of the neutron population while delayedneutrons account for approximately ninety-nine percent of the neutron population

b.Prompt neutrons are released during fast fissions while delayed neutrons are releasedduring thermal fissionsc.Prompt neutrons are released during the fission process while delayed neutrons arereleased during the decay of fission products

d.Prompt neutrons are the dominating factor in determining the reactor period while delayedneutrons have little effect on the reactor periodQUESTIONA.2[1.0 point]In accordance with the PSBR Technical Specifications, the term "Shutdown Margin" describes:

a.the time required for the rods to fully insert

b.the departure from K-effective = 1.00

c.the amount of subcriticality, considering the worth of all rods

d.the amount of subcriticality with the most reactive rod fully withdrawnQUESTIONA.3[1.0 point]A reactor startup is in progress. Each control rod withdrawal is inserting exactly EQUAL amounts of reactivity. Select the EXPECTED neutron population and count rate response as "Keff" approaches 1.0.

The change in neutron population per reactivity insertion is:

a.SMALLER, and it takes LESS time to reach a new equilibrium count rate

b.LARGER, and it takes LESS time to reach a new equilibrium count rate.

c.SMALLER, and it takes MORE time to reach a new equilibrium count rate.

d.LARGER, and it takes MORE time to reach a new equilibrium count rate.

Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 10Count RateNumber for Fuel Elements8422 8867105212 129617 421022QUESTIONA.4[1.0 point]As primary coolant temperature increases, control rod worth:a.decreases due to lower reflector efficiency.

b.decreases due to higher neutron absorption in the moderator.

c.increases due to the increase in thermal diffusion length.

d.remains the same due to constant poison cross-section of the control rods..QUESTIONA.5[1.0 point]In a subcritical reactor, K eff is increased from 0.861 to 0.946. Which ONE of the following isthe amount of reactivity that was added to the reactor core?

a.0.085 delta k/k

b.0.104 delta k/k

c.0.161 delta k/k

d.0.218 delta k/k.QUESTIONA.6[1.0 point]The table provided lists data taken during a core loading. Estimate the number of fuel elements needed to go critical.a.24 b.27 c.30 d.38 Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 11QUESTIONA.7[1.0 point]During a startup you increase reactor power from 100 watts to 195 watts in a minute. WhichONE of the following is reactor period?a.30 seconds.

b.60 seconds.

c.90 seconds.

d.120 seconds.QUESTIONA.8[1.0 point]The reactor has just been started up and has been at 100% power for 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br />. The Reactor Operatornotes that several small control rod withdrawals are required to maintain power at 100%. Which of the following is the reason for the rod withdrawals?

a.Fuel temperatures are decreasing.

b.Xenon is building in to equilibrium concentration.

c.Pool water temperatures are decreasing.

d.Samarium is burning out from equilibrium concentration.QUESTIONA.9[1.0 point]The Fast Fission Factor () is defined as "The ratio of the number of neutrons produced by -a.fast fission to the number produced by thermal fission.

b.thermal fission to the number produced by fast fission.

c.fast and thermal fission to the number produced by thermal fission.

d.fast fission to the number produced by fast and thermal fission.

Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 12QUESTIONA.10[1.0 point]Given the data in the table to the right, which ONE of the following is the closest to the half-lifeof the material?a.11 minutes b.22 minutes c.44 minutes d.51 minutesQUESTIONA.11[1.0 point]The amount of radioactivity in any material can be determined by:

a.Measuring the dose coming from it using an accurate radiation detector.

b.Taking the results of a. above and multiplying by (4 x pi) to account for geometry.

c.Measuring the total number of radioactive emissions given off over time.

d.First figure out c. above, then multiply the results by the correct quality factor.QUESTIONA.12[1.0 point]A reactor operator understands that:

a.The more neutrons multiply during startup the lower the shim blades are at critical.

b.There is no fixed relationship between neutron level and criticality.

c.Neutron multiplication during startup is just neutrons getting lost at a slower rate.

d.Without the Sb-Be source the reactor would not go critical.TIMEACTIVITY0 minutes2400 cps10 minutes1757 cps20 minutes1286 cps 30 minutes941 cps 60 minutes369 cps Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 13QUESTIONA.13[1.0 point]The reactor has been at 100% power for several hours when a reactor scram occurs. Allsystems have operated as designed, no experiments have been changed, and no fuel has been removed from the reactor. Several hours after the reactor scram, indicated reactor power will stabilize due to:

a.continuing decay of the shortest-lived delayed neutron precursor.

b.the decay of nuclear instrumentation compensation voltage at low power levels.

c.reaching the nuclear instrumentation minimum detectable level.

d.the continuing subcritical multiplication of source neutrons.QUESTIONA.14[1.0 point]Which ONE of the following statements describes the difference between Differential and Integral (IRW) rod worth curves?

a.DRW relates the worth of the rod per increment of movement to rod position. IRW relatesthe total reactivity added by the rod to the rod position.

b.DRW relates the time rate of reactivity change to rod position. IRW relates the totalreactivity in the core to the time rate of reactivity change.

c.IRW relates the worth of the rod per increment of movement to rod position. DRW relatesthe total reactivity added by the rod to the rod position.d.IRW is the slope of the DRW at a given rod positionQUESTIONA.15[1.0 point]During a reactor startup, the count rate is increasing linearly with time, with no rod motion. Thismeans:

a.the reactor is subcritical and the count rate increase is due to the buildup of delayed neutronprecursorsb.the reactor is critical and the count rate increase is due to Am-Be source neutrons

c.the reactor is subcritical and the count rate increase is due to Am-Be source neutronsd.the reactor is critical and the count rate increase is due to the buildup of delayed neutronprecursors Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 14QUESTIONA.16[1.0 point]The reactor is operating at 100 KW. The reactor operator withdraws the Regulating Rodallowing power to increase. The operator then inserts the same rod to its original position, decreasing power. In comparison to the rod withdrawal, the period due to the rod insertion will

be -a.longer due to long lived delayed neutron precursors.

b.shorter due to long lived delayed neutron precursors.

c.same due to equal amounts of reactivity being added.

d.same due to equal reactivity rates from the rod. QUESTIONA.17[1.0 point]Coolant flows through a reactor core at a rate of 50 GPM, resulting in a coolant temperatureincrease of 6 degrees F. The power of the reactor is:a.5.3 kW.

b.14.7 kW.

c.44.0 kW.

d.329.1 kW.QUESTIONA.18[1.0 point]The term "Prompt Critical" refers to:

a.the instantaneous jump in power due to a rod withdrawal

b.a reactor which is supercritical using only prompt neutrons

c.a reactor which is critical using both prompt and delayed neutrons

d.a reactivity insertion which is less than Beta-effective Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 15QUESTIONA.19[1.0 point]Identify the PRINCIPAL source of heat in the reactor after shutdown?

a.Stored energy from the reactor and core materials

b.Spontaneous fission within the core

c.Decay of fission products

d.Cosmic radiation causing fissionQUESTIONA.20[1.0 point]A factor in the six-factor formula which is most affected by control rod position is:

a.Resonance escape probability

b.Fast fission factor

c.Neutron reproduction factor

d.Thermal utilization factor Section B Normal, Emergency and Radiological Control ProceduresPage 16QUESTIONB.1[1.0 point]An accessible area within the facility has general radiation levels of 325 mrem/hour. Whatwould be the EXPECTED posting for this area?a."Caution, Very High Radiation Area" b."Danger, Airborne Radioactivity Area"

c."Danger, High Radiation Area"

d."Caution, Radiation Area"QUESTIONB.2[1.0 point]While working on an experiment, you receive the following radiation doses: 100 mrem (),25 mrem (), and 5 mrem (thermal neutrons). Which ONE of the following is your total dose?a.175 mrem b.155 mrem c.145 mrem d.130 mremQUESTIONB.3[1.0 point, 1/4 each]Match type of radiation (1 thru 4) with the proper penetrating power (a thru d)

a. Gamma1. Stopped by thin sheet of paper

b. Beta2. Stopped by thin sheet of metal

c. Alpha3. Best shielded by light material

d. Neutron4. Best shielded by dense material Section B Normal, Emergency and Radiological Control ProceduresPage 17QUESTIONB.4[1.0 point]10CFR50.54(x) states: "A licensee may take reasonable action that departs from a licensecondition or a technical specification (contained in a license issued under this part) in an emergency when this action is immediately needed to protect the public health and safety and no action consistent with license conditions and technical specifications that can provideadequate or equivalent protection is immediately apparent." Per 10CFR50.54(y), which one ofthe following is the minimum level of authorization for this action?a.Reactor Operator licensed at the facility.

b.Senior Reactor Operator licensed at the facility.

c.Facility Manager (or equivalent at facility).

d.The U.S. Nuclear Regulatory Commission Project ManagerQUESTIONB.5[1.0 point]In accordance with the Technical Specifications, which ONE situation below is NOT permissiblewhen the reactor is operating?a.scram time of a control rod = 1 second b.depth of water above the top of the bottom grid plate = 18 feet c.conductivity of bulk pool water = 5 micromhos/cm d.reactivity insertion by a control rod = 0.12% delta k/kQUESTIONB.6[1.0 point]As permitted by 10 CFR 50.59, the PSBR may:

a.Modify systems and change the Technical Specifications (TS) if the NRC is notifiedafterwards.b.Perform new and little understood experiments when they are for research.

c.Determine the affects of modifications and their impact on TS.

d.Redefine the boundaries of accidents previously analyzed in the Safety Analysis Report(SAR).

Section B Normal, Emergency and Radiological Control ProceduresPage 18QUESTIONB.7[1.0 point]Which ONE of the following is the 10 CFR 20 definition of TOTAL EFFECTIVE DOSEEQUIVALENT (TEDE)

?a.The sum of the deep does equivalent and the committed effective dose equivalent.b.The dose that your whole body receives from sources outside the body.

c.The sum of the external deep dose and the organ dose.

d.The dose to a specific organ or tissue resulting from an intake of radioactive material.QUESTIONB.8[1.0 point]Which ONE of the following does NOT require the direct supervision of a licensed SeniorReactor Operator?

a. recovery from an unplanned scramb. relocation of an in-core experiment with a reactivity worth of $0.50

c. a reactor operator trainee during a normal startup

d. an unlicensed individual moving the reactor graphite reflectors QUESTIONB.9[1.0 point]A small radioactive source is to be stored in an accessible area of the reactor building. Thesource reads 2 R/hr at 1 foot. Assuming no shielding is to be used, a Radiation Area barrier would have to be erected from the source at least a distance of approximately:a.400 feet b.40 feet c.20 feet d.10 feet Section B Normal, Emergency and Radiological Control ProceduresPage 19QUESTIONB.10[1.0 point]The Safety System channels required to be operable in all modes of operation are:a.fuel element temperature scram, reactor high power scram, and manual scram

b. fuel element temperature scram and manual scram

c. manual scram and reactor high power scram

d. reactor high power scram, detector power supply scram, and fuel element temperature scramQUESTIONB.11[1.0 point]Which ONE of the following would be classified as an OPERATIONAL EVENT?a. Operation in violation of a safety limit

b. Release of fission products from a fuel element

c. Unanticipated reactivity change greater than $1.00

d. Reactor scramQUESTIONB.12[1.0 point]Prior to insertion into a pneumatic transfer system, a rabbit sample must be inspected by:

a. the reactor operator

b. the Health Physics office

c. the experimenter

d. the duty senior reactor operator Section B Normal, Emergency and Radiological Control ProceduresPage 20QUESTIONB.13[1.0 point]In accordance with the Technical Specifications, which ONE situation below is permissible whenthe reactor is operating?:a. The Emergency Exhaust System is inoperable for 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> for repairs

b. A single secured experiment with a reactivity worth of 2.31 % delta k/k

c. The reactivity insertion rate for standard control rods is 0.71% delta k/k per second

d. The reactor bay truck door is open for ten minutes to move equipmentQUESTIONB.14[1.0 point]Which ONE statement below describes the basis for the Safety Limit applicable to fueltemperature?a. Excessive gas pressure may result in loss of fuel element cladding integrity

b. High fuel temperature combined with lack of adequate cooling could result in fuel melt

c. Excessive hydrogen produced as a result of the zirconium-water reaction is potentiallyexplosived. High fuel temperature could result in clad meltQUESTIONB.15[1.0 point]You have not performed the functions of an RO or SRO in the past 6 months. Per theRegulations, prior to resuming activities authorized by your license, how many hours must you complete in that function under the direction of an RO or SRO as appropriate?a.4 b.6 c.12 d.40 Section B Normal, Emergency and Radiological Control ProceduresPage 21QUESTIONB.16[1.0 point]An Emergency Action Level is:a. a condition which calls for immediate action, beyond the scope of normal operatingprocedures, to avoid an accident or to mitigate the consequences of one.b. a class of accidents for which predetermined emergency measures should be taken orconsidered.c. a procedure that details the implementation actions and methods required to achieve theobjectives of the Emergency Plan.d. a specific instrument reading or observation which may be used as a threshold for initiatingappropriate emergency procedures.QUESTIONB.17[1.0 point, 1/4 each]Match the 10 CFR Part 55 requirements listed in Column A for an actively licensed operator with the correct time period from Column B. Column B answers may be used once, more than once, or not at all.Column AColumn B a.License Expiration1.1 year b.Medical Examination2.2 years c.Requalification Written Examination3.3 years d.Requalification Operating Test4.6 years Section B Normal, Emergency and Radiological Control ProceduresPage 22QUESTIONB.18[1.0 point]Which ONE of the following is NOT true for reactor power calibration?a.The objective is to verify the performance and operability of the power measuring channel.

b.The thermal power level channel calibration will assure that the reactor is to be operated ator below the licensed power levels.c.The thermal power channel calibration shall be made on the linear power level monitoringchannel biennially, not to exceed 30 months.d.The percent power level monitor of the Power Range channel shall be used as the officialindication to verify that the reactor is operated at or below the authorized power level.QUESTIONB.19[1.0 point]Which ONE of the following are the potential sources of airborne radioactive material release at the PSBRa.A loss of coolant accident, and the reactivity insertion accident b.A loss of coolant accident, and a rupture of one or more fuel elements c.The reactivity insertion accident, and leakage or rupture of an irradiated sample orexperimental apparatusd.A rupture of one or more fuel elements, and leakage or rupture of an irradiated sample orexperimental apparatusQUESTIONB.20[1.0 point]Which one of the following terms matches the definition of "The reactor building and all connected structures" ?a.Emergency Planning Zone (EPZ).

b.Reactor Site Boundary.

c.Restricted Area.

d.Site Geographical Area.

Section C Facility and Radiation Monitoring SystemsPage 23QUESTIONC.1[1.0 point]Which ONE of the following is a condition under which air can be applied to the cylinder of thetransient rod on the DCC-X?a.Pulse mode and initial power up to 100 kw.

b.Transient rod drive is at the bottom end of travel position.

c.Square wave mode and initial power greater than 1 kw.

d.The counter clockwise limit switch is closed.QUESTIONC.2[1.0 point]The Emergency Exhaust System is activated when:

a. the facility exhaust system is secured

b. the reactor bay has a positive pressure with respect to the atmosphere

c. a building evacuation is initiated

d. the pressure drop across the facility exhaust system filters doublesQUESTIONC.3[1.0 point]Carbon dioxide is used in the pneumatic transfer system instead of compressed air because:

a. it is more compressible b.it does not retain moisture

c. it minimizes Ar-41 production

d. it minimizes N-16 production Section C Facility and Radiation Monitoring SystemsPage 24QUESTIONC.4[1.0 point]The top grid plate in the reactor:a.supports the weight of the fuel assemblies b.aligns and supports the nuclear detectors c.maintains lateral fuel alignment d.serves as a reflector over the top of the core QUESTIONC.5[1.0 point]A signal of notification to Penn State University Police Services is initiated by:a.reactor bay truck door open

b. UPS battery low c.emergency exhaust system initiation d.DCC-Z watchdog tripQUESTIONC.6[1.0 point]For a standard control rod, the drive up arrow is green, the drive down arrow is red, and rodbottom arrow is red. This indicates that:a. the rod and drive are not in contact, the rod is full up and the drive is full down

b. the rod and drive are both full up

c. the rod and drive are both full down

d. the rod and drive are not in contact, the drive is full up and the rod is full down Section C Facility and Radiation Monitoring SystemsPage 25QUESTIONC.7[1.0 point]All operational interlocks and safety trips required by technical specifications are performed bythe:a.Digital Control Computer (DCC-Z)

b. Digital Control Computer (DCC-X)

c. protection, control and monitoring system (PCMS)

d. reactor safety system (RSS)QUESTIONC.8[1.0 point]Which ONE of the following is a control rod interlock?

a. above reactor power of 1 kW, the transient rod cannot be operated in the pulse mode

b. only one standard rod at a time can be moved in the pulse mode

c. control rods cannot be withdrawn unless the count rate is greater than 1 CPS in the manualmoded. two control rods cannot be moved at the same time above 1 kW in the manual modeQUESTIONC.9[1.0 point]The Wide Range power monitor uses a (an):

a. uncompensated ion chamber

b. compensated ion chamber

c. fission chamber

d. boron-trifluoride detector Section C Facility and Radiation Monitoring SystemsPage 26QUESTIONC.10[1.0 point]SCRAM logic is designed to meet the single failure criterion. Which ONE pair of parametersbelow are in the correct circuits?Scram Circuit #1Scram Circuit #2a.Fuel temperature HighFission Chamber Power High b.Manual ScramPulse Timer Scram

c. Pulse Timer ScramGIC Power High

d. Keyswitch OffFuel Temperature High

QUESTIONC.11[1.0 point]Reclaimed water from the Liquid Waste Evaporator System is transferred to the reactormakeup by the:a. makeup pump

b. processed water pump

c. distillate pump

d. hot water pumpQUESTIONC.12[1.0 point]When the Automatic Mode Menu is displayed, rod mode "2" is selected. This means that therods selected for regulation are the:a. regulating rod and safety rod

b. regulating rod and shim rod

c. safety rod and shim rod

d. regulating rod and transient rod

Section C Facility and Radiation Monitoring SystemsPage 27QUESTIONC.13[1.0 point]

For a standard control rod, the rod drive up arrow is red, the rod drive down arrow is red, andthe rod drive magnet block is yellow. This indicates that:a. the rod and drive are in contact, and are both full down

b. the rod and drive are in contact, and are both full up

c. the rod and drive are not in contact, and the rod and drive are somewhere between full upand full downd. the rod and drive are in contact, and are somewhere between full up and full downQUESTIONC.14[1.0 point]In the PSBR Water Handling System, pool water conductivity is measured:

a. at the suction of the purification pump

b. downstream of the skimmer

c. between the filter and purification pump

d. at the inlet of the demineralizerQUESTIONC.15[1.0 point]In the Automatic Control mode, the controlling signal is:

a. reactor power as measured by the Power Range Monitor

b. reactor period as measured by the GIC

c. reactor power as measured by the Wide Range Monitor

d. reactor period as measured by the Power Range Monitor Section C Facility and Radiation Monitoring SystemsPage 28QUESTIONC.16[1.0 point]Streaming of radiation from the central thimble is prevented by:a. a graphite shield box over the top of the tube

b. the tube being filled with water

c. a boral plug inserted into the top of the tube

d. large radius bend in the tubeQUESTIONC.17[1.0 point]A reactor stepback is initiated by:

a. east or west bay monitor high radiation

b. east and west facility exhaust fans off

c. high fuel temperature

d. pulse timer timed outQUESTIONC.18[1.0 point]The purpose of the boral plate on top of the D2O tank is to:

a. reduce radiation escaping from the core

b. minimize production of gamma radiation resulting from neutron activation of the pool water

c. reduce gamma interactions with the pool wall

d. absorb reflected neutrons so that the outputs of the gamma and fission chambers are inagreement Section C Facility and Radiation Monitoring SystemsPage 29QUESTIONC.19[1.0 point]Which ONE of the following types of detector is used in the Reactor Bay East and WestMonitors?a. Geiger-Mueller tube

b. Scintillation detector

c. Ionization chamber

d. Proportional counterQUESTIONC.20[1.0 point]The thermocouples in the instrumented fuel elements measure temperature at the:

a. interior surface of the cladding

b. center of the zirconium rod

c. outer surface of the fuel

d. interior of the fuel Answer KeyA.1cREF:Reactor Training Manual, Page 2-16

.A.2dREF:PSBR Technical Specifications, Section 1.1.42. A.3dREF:Reactor Training Manual - Introduction To Nuclear PhysicsA.4.cREF:Reactor Training Manual - Reactivity FeedbackA.5bREF:Reactor Training Manual - Reactor KinecticsA.6aREF:Reactor Training Manual - Subcritical MultiplicationA.7cREF:P = P 0 e t/ -> = t/ln(P/P

0) = 60/ln (195/100) = 60/ln(1.95) = 89.84 90 sec.A.8bREF:Reactor Training Manual - Reactor Physics and KineticsA.9cREF:Reactor Training Manual - Neutron Life CycleA.10bREF:Reactor Training Manual - ReactivityA.11cREF:Glasstone, 1958, CHAP 5, LAMARSH, 1983, CHAP 2.8A.12bREF:Glasstone, 1958, CHAP 14A.13dREF:Reactor Training Manual - Introduction to Nuclear PhysicsA.14aREF:Standard NRC QuestionA.15b, dREF:Standard NRC QuestionA.16aREF:Reactor training Manual - Reactor Physics and Kinetics Answer KeyA.17cREF:Power = (Mass flow rate)(Specific heat)(temperature increase)Power = (50 GPM)(8.34 lbs/gallon)(1 Btu/lb-deg F)(6 deg F)(60 min/hour)

Power = (150,120 Btu/hour)(1 kW/3413 Btu/hour) = 44.0 kWA.18.bREF:Standard NRC QuestionA.19cREF:Lamarsh, pgs 318 - 320A.20. dREF:Reactor Training Manual - Fission Process Answer Key DR X DR X X DR DRXXftXft 1 2 2 2 1 22 2 1 22222 2000 5140020===x==B.1cREF:10CFR20B.2dREF:Reactor Training Manual - Ionizing RadiationB.3a, 4b, 2c, 1d, 3REF:Reactor Training Manual -

Health PhysicsB.4bREF:10CFR50.54(y).B.5aREF:Technical Specifications, Section 3.2.6B.6cREF: 10 CFR 50.59B.7aREF:10 CFR 20.1003 DefinitionsB.8b, cREF:AP-1B.9c REF:B.10bREF:Technical Specifications, Section 3.2.4B.11dREF:AP-4.B.3B.12dREF:SOP-9.B.13bREF:TS 3.7; 3.5; 3.4; 3.2.2B.14aREF:TS 2.1B.15bREF:10CFR55.53(f)(2))

Answer KeyB.16dREF:PSBR Emergency Preparedness Plan, Section 5.0.B.17a, 4b, 2c, 2d, 1.REF:AP-3, Operator and Senior Operator RequalificationB.18dREF:T.S. 4.1.1 and SOP-1, II.jB.19dREF:EP-5B.20aREF:EP-1, Definitions Answer KeyC.1bREF:PSBR Training Manual, page 4-45.C.2cREF:PSBR Training Manual, Page 3-23C.3 cREF:PSBR Training Manual, Page 3-30C.4 cREF:PSBR Training Manual, Page 3-1C.5 bREF:PSBR Training Manual, Page 4-30C.6 bREF:PSBR Training Manual, Page 6-5C.7 dREF:PSBR Training Manual, Page 4-15C.8 aREF:CCP-4C.9 cREF:PSBR Training Manual, Page 4-9C.10 cREF:PSBR Training Manual, Page 4-35C.11 bREF:PSBR Training Manual, Page 3-20C.12 bREF:PSBR Training Manual, Page 6-7C.13 dREF:PSBR Training Manual, Page 6-5C.14 dREF:PSBR Training Manual, Page 3-13C.15 cREF:PSBR Training Manual, Page 5-2C.16 bREF:PSBR Training Manual, Page 3-38 Answer KeyC.17 cREF:PSBR Training Manual, Page 4-28C.18 dREF:PSBR Training Manual, Page 5-2C.19 aREF:PSBR Training Manual, Page 4-11C.20 dREF:PSBR Training Manual, Page 3-7