ML070080318: Difference between revisions

From kanterella
Jump to navigation Jump to search
(Created page by program invented by StriderTol)
 
(Created page by program invented by StriderTol)
Line 3: Line 3:
| issue date = 01/11/2007
| issue date = 01/11/2007
| title = Initial Examination Report, No. 50-027/OL-07-01, Washington State University
| title = Initial Examination Report, No. 50-027/OL-07-01, Washington State University
| author name = Eads J H
| author name = Eads J
| author affiliation = NRC/NRR/ADRA/DPR/PRTB
| author affiliation = NRC/NRR/ADRA/DPR/PRTB
| addressee name = Wall D
| addressee name = Wall D
Line 28: Line 28:


==Enclosures:==
==Enclosures:==
: 1. Initial Examination Report No. 50-027/OL-07-012. Facility comments with NRC resolution  
: 1. Initial Examination Report No. 50-027/OL-07-012. Facility comments with NRC resolution
: 3. Examination and answer key (RO/SRO)cc w/enclosures:Please see next page Washington State UniversityDocket No. 50-27 cc:
: 3. Examination and answer key (RO/SRO)cc w/enclosures:Please see next page Washington State UniversityDocket No. 50-27 cc:
Dr. James T. Elliston  Chair, Reactor Safeguards Committee Nuclear Radiation Center Washington State University P.O. Box 641300 Pullman, WA  99164 - 1300Mr. Eric CorwinReactor Supervisor, Nuclear Radiation Center Washington State University P.O. Box 641300 Pullman, WA  99164 - 1300Mr. Steve Eckberg, CHPDirector, Radiation Safety Office Washington State University P.O. Box 641302 Pullman, WA 99163-1302Director Division of Radiation Protection Department of Health 7171 Cleanwater Lane, Bldg #5 P.O. Box 47827 Olympia, WA 98504-7827 Office of the GovernorExecutive Policy Division State Liaisons Officer P.O. Box 43113 Olympia, WA 98504-3113 Test, Research, and Training  Reactor Newsletter University of Florida 202 Nuclear Sciences Center Gainesville, FL  32611 Mr. Donald Wall, DirectorJanuary 11, 2007Nuclear Radiation Center Washington State University Pullman, WA  99164-1300
Dr. James T. Elliston  Chair, Reactor Safeguards Committee Nuclear Radiation Center Washington State University P.O. Box 641300 Pullman, WA  99164 - 1300Mr. Eric CorwinReactor Supervisor, Nuclear Radiation Center Washington State University P.O. Box 641300 Pullman, WA  99164 - 1300Mr. Steve Eckberg, CHPDirector, Radiation Safety Office Washington State University P.O. Box 641302 Pullman, WA 99163-1302Director Division of Radiation Protection Department of Health 7171 Cleanwater Lane, Bldg #5 P.O. Box 47827 Olympia, WA 98504-7827 Office of the GovernorExecutive Policy Division State Liaisons Officer P.O. Box 43113 Olympia, WA 98504-3113 Test, Research, and Training  Reactor Newsletter University of Florida 202 Nuclear Sciences Center Gainesville, FL  32611 Mr. Donald Wall, DirectorJanuary 11, 2007Nuclear Radiation Center Washington State University Pullman, WA  99164-1300
Line 41: Line 41:


==Enclosures:==
==Enclosures:==
: 1. Initial Examination Report No. 50-027/OL-07-012. Facility comments with NRC resolution  
: 1. Initial Examination Report No. 50-027/OL-07-012. Facility comments with NRC resolution
: 3. Examination and answer key (RO/SRO)cc w/enclosures:
: 3. Examination and answer key (RO/SRO)cc w/enclosures:
Please see next pageDISTRIBUTION
Please see next pageDISTRIBUTION
Line 122: Line 122:
019  a  b  c  d         
019  a  b  c  d         


020  a  b  c  d        
020  a  b  c  d
(***** END OF CATEGORY  A *****)
(***** END OF CATEGORY  A *****)
Section B  Normal, Emergency and Radiological Control Procedures                              Page  3
Section B  Normal, Emergency and Radiological Control Procedures                              Page  3


Line 165: Line 165:
017  a  b  c  d       
017  a  b  c  d       


018  a  b  c  d        019  a  b  c  d      
018  a  b  c  d        019  a  b  c  d
  (***** END OF CATEGORY  B *****)
(***** END OF CATEGORY  B *****)
Section C Facility and Radiation Monitoring Systems                                Page  4
Section C Facility and Radiation Monitoring Systems                                Page  4


Line 218: Line 218:
: 3. Restroom trips are to be limited and only one candidate at a time may leave. You must avoidall 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.
: 3. Restroom trips are to be limited and only one candidate at a time may leave. You must avoidall 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 examination cover sheet.6. Fill in the date on the cover sheet of the examination (if necessary).
: 5. 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).
: 7. Print your name in the upper right-hand corner of the first page of each section of your answer sheets.  
: 7. Print your name in the upper right-hand corner of the first page of each section of your answer sheets.
: 8. The point value for each question is indicated in parentheses after the question.9. Partial credit will NOT be given.
: 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.
: 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 area asdefined by the examiner.
: 11. When you are done and have turned in your examination, leave the examination area asdefined by the examiner.
Line 331: Line 331:
c."Danger, High Radiation 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 (), and5 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[2.0 points, 1/2 each]Match type of radiation (1 thru 4) with the proper penetrating power (a thru d)
d."Caution, Radiation Area"QUESTIONB.2[1.0 point]While working on an experiment, you receive the following radiation doses:  100 mrem (), 25 mrem (), and5 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[2.0 points, 1/2 each]Match type of radiation (1 thru 4) with the proper penetrating power (a thru d)
: a. Gamma1. Stopped by thin sheet of paper
: a. Gamma1. Stopped by thin sheet of paper
: b. Beta2. Stopped by thin sheet of metal
: b. Beta2. Stopped by thin sheet of metal

Revision as of 07:03, 13 July 2019

Initial Examination Report, No. 50-027/OL-07-01, Washington State University
ML070080318
Person / Time
Site: Washington State University
Issue date: 01/11/2007
From: Johnny Eads
NRC/NRR/ADRA/DPR/PRTB
To: Wall D
Washington State Univ
Isaac, P, NRR/DRIP/REXB, 415-1019
Shared Package
ML062330220 List:
References
50-027/OL-07-01
Download: ML070080318 (37)


Text

January 11, 2007Dr. Donald Wall, Director Nuclear Radiation Center Washington State University Pullman, WA 99164-1300

SUBJECT:

INITIAL EXAMINATION REPORT NO. 50-027/OL-07-01, WASHINGTON STATEUNIVERSITY

Dear Dr. Wall:

During the week of December 11, 2006, the NRC administered an operator licensingexamination at your Washington State University 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.50-027

Enclosures:

1. Initial Examination Report No. 50-027/OL-07-012. Facility comments with NRC resolution
3. Examination and answer key (RO/SRO)cc w/enclosures:Please see next page Washington State UniversityDocket No. 50-27 cc:

Dr. James T. Elliston Chair, Reactor Safeguards Committee Nuclear Radiation Center Washington State University P.O. Box 641300 Pullman, WA 99164 - 1300Mr. Eric CorwinReactor Supervisor, Nuclear Radiation Center Washington State University P.O. Box 641300 Pullman, WA 99164 - 1300Mr. Steve Eckberg, CHPDirector, Radiation Safety Office Washington State University P.O. Box 641302 Pullman, WA 99163-1302Director Division of Radiation Protection Department of Health 7171 Cleanwater Lane, Bldg #5 P.O. Box 47827 Olympia, WA 98504-7827 Office of the GovernorExecutive Policy Division State Liaisons Officer P.O. Box 43113 Olympia, WA 98504-3113 Test, Research, and Training Reactor Newsletter University of Florida 202 Nuclear Sciences Center Gainesville, FL 32611 Mr. Donald Wall, DirectorJanuary 11, 2007Nuclear Radiation Center Washington State University Pullman, WA 99164-1300

SUBJECT:

INITIAL EXAMINATION REPORT NO. 50-027/OL-07-01, WASHINGTON STATEUNIVERSITY

Dear Dr. Wall:

During the week of December 11, 2006, the NRC administered an operator licensingexamination at your Washington State University 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.50-027

Enclosures:

1. Initial Examination Report No. 50-027/OL-07-012. Facility comments with NRC resolution
3. Examination and answer key (RO/SRO)cc w/enclosures:

Please see next pageDISTRIBUTION

PUBLICPRTB r/fJEadsFacility File EBarnhill (O6-F2)ADAMS ACCESSION #: ML070080318TEMPLATE #: NRR-074PACKAGE ACCESSION #: ML062330220OFFICEPRTB:CEIOLB:LAPRTB:BCNAMEPIsaacEBarnhillJEads DATE01/08/200701/11/200701/11/2007OFFICIAL RECORD COPY ENCLOSURE 1U. S. NUCLEAR REGULATORY COMMISSIONOPERATOR LICENSING INITIAL EXAMINATION REPORTREPORT NO.:50-027/OL-07-01FACILITY DOCKET NO.:50-027 FACILITY LICENSE NO.:R-76 FACILITY:Washington State University EXAMINATION DATES:12/14 - 15/2007 EXAMINER:Patrick Isaac, Chief ExaminerSUBMITTED BY:

/RA/ 01/03/2007 Patrick Isaac, Chief Examiner Date

SUMMARY

During the week of December 11, 2006, NRC administered examinations, consisting of awritten examination and an operating test, to one Reactor Operator (RO) and one Senior Operator Instant (SROI) applicant. The applicants passed all portions of the examination. REPORT DETAILS1.Examiner: Patrick Isaac, Chief Examiner2.Results:RO PASS/FAILSRO PASS/FAILTOTAL PASS/FAILWritten1/01/02/0 Operating Tests1/01/02/0 Overall1/01/02/03.Exit Meeting:Personnel attending: Eric Corwin, Reactor Supervisor Keith Fox, SRO Patrick Isaac, NRCThe licensee commented on a fair and well balanced examination. There were nogeneric concerns raised by the examiner.

ENCLOSURE 2Count RateNumber for Fuel Elements8422 936411237 168412 280716NRC RESOLUTIONS - WRITTEN EXAMINATIONQUESTIONA.6[1.0 point]The table provided lists data taken during a core loading. Estimate the number of fuel elementsneeded to go critical.a.9 b.11 c.13 d.15Answer: b

Reference:

Standard NRC QuestionFacility Comment:The list of possible answers does not contain the correct answer of ~23 fuel elements. Isuggest that this question be removed from the exam.NRC Resolution:Agree. Answer key has been modified to delete Question A.6 from the written examination. QUESTIONC.3[1.0 point]The gas used to move pneumatic tube "rabbit" samples into and out of the reactor is -a.H b.Air c.CO 2d.N 2Answer: b

Reference:

SAR, Figure 10-3, Pneumatic Transfer SystemFacility Comment:The pneumatic transfer (rabbit) system at the WSUNRC has been inoperable for many yearsprior to the exam date and as of 12/1/06 has been completely removed from the facility. The SOP for the operation of the rabbit was made inactive in the fall of 2006. I would recommend removing this question, as well as all related "rabbit" questions, from future examinations at Washington State.NRC Resolution:The answer key has been modified to delete Question C.3 from the written examination.

ENCLOSURE 3

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

FACILITY: WASHINGTON STATE UNIVERSITY

REACTOR TYPE: TRIGA

DATE ADMINISTERED: 12/13/2006

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

19.00 32.8 A. REACTOR THEORY, THERMODYNAMICSAND FACILITY OPERATING CHARACTERISTICS

20.00 34.4

B.NORMAL AND EMERGENCY OPERATING PROCEDURES AND RADIOLOGICAL CONTROLS 19.00 32,8 C.PLANT AND RADIATION MONITORINGSYSTEMS 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 Deleted 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

(***** 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 Deleted 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 could result inmore severe penalties.
2. After the examination has been completed, you must sign the statement on the cover sheetindicating 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 avoidall 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 examination cover 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 your answer 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 area asdefined by the examiner.

EQUATION SHEET Net Work (out)Q = m c p TCycle Efficiency =

)))))))))))))Energy (in) Q = m hSCR = S/(1-Keff) Q = UA TCR 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 = )))))) = 0.0077 DR 1 D 1 2 = DR 2 D 2 2 DR = DR o e-t 6CiE(n)DR =)))))))) DR , Ci Curies, E Mev, R feet 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 5QUESTIONA.1[1.0 point]Core excess reactivity (ex) changes with -a.fuel element burnup b.control rod height c.neutron energy level d.reactor power levelQUESTIONA.2[1.0 point]Which ONE of the following is the definition of the term "

Cross-Section

?"a.The probability that a neutron will be captured by a nucleus.

b.The most likely energy at which a charge particle will be captured.

c.The length a charged particle travels past the nucleus before being captured.

d.The area of the nucleus including the electron cloud.QUESTIONA.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.QUESTIONA.4[1.0 point]The difference between a moderator and a reflector is that a reflector -a.increases the fast non-leakage factor and a moderator increases the thermal utilization factor.

b.increases the neutron production factor and a moderator increase the fast fission factor.

c.increases the neutron production factor, and a moderator decreases the thermal utilization factor.

d.decreases the fast non-leakage factor, and a moderator increases the thermal utilization factor.

Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 6Count RateNumber for Fuel Elements8422 936411237 168412 280716QUESTIONA.5[1.0 point]The term "reactivity" may be described as -a.a measure of the core's fuel depletion.

b.negative when Keff is greater than 1.0.c.a measure of the core's deviation from criticality.

d.equal to $.50 when the reactor is prompt critical.QUESTIONA.6[1.0 point]DELETEDThe table provided lists data taken during a core loading. Estimate the number of fuel elements needed to gocritical.a.9 b.11 c.13 d.15QUESTIONA.7[1.0 point]During a startup you increase reactor power from 100 watts to 195 watts in a minute. Which ONE of thefollowing 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 Operator notesthat 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.

Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 7QUESTIONA.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.QUESTIONA.10[1.0 point]Given the data in the table to the right, which ONE of the following is the closest to the half-life of the material?

a.11 minutes b.22 minutes c.44 minutes d.51 minutesQUESTIONA.11[1.0 point]The reactor has just been pulsed to 940 MW from an initial power level of 1 KW. Select the reactivitycoefficient that will act FIRST to prevent reactor power from exceeding any pre-established limits after the Transient Rod has been "fired".

a.Fuel Temperature Coefficient

b.Bath Temperature Coefficient

c.Power Coefficient

d.Void Coefficient.QUESTIONA.12[1.0 point]The number of neutrons passing through a square centimeter per second is the definition of which ONE of the following?a.Neutron Population (np) b.Neutron Impact Potential (nip) c.Neutron Flux (nv) d.Neutron Density (nd)TIMEACTIVITY0 minutes2400 cps10 minutes1757 cps 20 minutes1286 cps 30 minutes941 cps 60 minutes369 cps Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 8QUESTIONA.13[1.0 point]The reactor has been at 100% power for several hours when a reactor scram occurs. All systems haveoperated 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]A fissile material is one which will fission upon the absorption of a THERMAL neutron. Which ONE offollowing listed isotopes is not a fissile material?a.Th 232b.U 233c.U 235d.Pu 239QUESTIONA.15[1.0 point]Which of the following is the PRIMARY advantage of using the homogeneous alloy of uranium fuel andzirconium-hydride moderator (U-ZrH) in the WSU TRIGA reactor?

This alloy combination:

a.gives much longer core life by providing a large amount of "excess reactivity".

b.makes the reactor self-regulating by providing a large negative temperature coefficient.

c.allows the reactor to be pulsed to high power levels with minimal potential for cladding failure.

d.yields more efficient heat transfer from the fuel centerline to the cladding and into the coolant.

Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 9QUESTIONA.16[1.0 point]The reactor is operating at 100 KW. The reactor operator withdraws the Regulating Rod allowing power toincrease. 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]A thin foil target of 10% copper and 90% aluminum is in a thermal neutron beam. Given a Cu = 3.79 barns, a Al = 0.23 barns, s Cu = 7.90 barns, and s Al =1.49 barns, which ONE of the following reactions has thehighest probability of occurring? A neutron -a.scattering reaction with aluminum b.scattering reaction with copper c.absorption in aluminum d.absorption in copperQUESTIONA.18[1.0 point]When performing rod calibrations, many facilities pull the rod out a given increment, then measure the time forreactor power to double (doubling time), then calculate the reactor period. If the doubling time is 42 seconds, what is the reactor period?a.29 sec b.42 sec c.61 sec d.84 secQUESTIONA.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 fission Section A:

L Theory, Thermodynamics & Facility Operating CharacteristicsPage 10QUESTIONA.20[1.0 point]Preparations are being made to "pulse" the reactor. Given the following conditions:

-- Peak power from the previous pulse: 800 MW

-- Reactivity added from the previous pulse: $2.00

-- Reactivity to be added on this pulse: $1.75

What will be the ESTIMATED peak power for the new pulse operation?

a.450 MW

b.600 MW

c.700 MW

d.1600 MW Section B Normal, Emergency and Radiological Control ProceduresPage 11QUESTIONB.1[1.0 point]An accessible area within the facility has general radiation levels of 325 mrem/hour. What would be theEXPECTED 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 (), and5 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[2.0 points, 1/2 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 materialQUESTIONB.4[1.0 point]10CFR50.54(x) states: "A licensee may take reasonable action that departs from a license condition or atechnical specification (contained in a license issued under this part) in an emergency when this action isimmediately needed to protect the public health and safety and no action consistent with license conditions and technical specifications that can provide adequate or equivalent protection is immediately apparent." Per10CFR50.54(y), which one of the 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 Manager Section B Normal, Emergency and Radiological Control ProceduresPage 12QUESTIONB.5[1.0 point]Identify the lowest level of authorization for a change to the Technical Specifications a.Senior Reactor Operator b.Facility Director c.Reactor Safeguards Committee d.The U.S. Nuclear Regulatory CommissionQUESTIONB.6[1.0 point]Per Technical Specifications regarding the Ventilation System: "The reactor shall not be operated unless thefacility ventilation system is operable, except for periods of time not to exceed hours to permit repair ortesting of the ventilation system.". a.8 b.12 c.24 d.48QUESTIONB.7[1.0 point]Which ONE of the following is the 10 CFR 20 definition of TOTAL EFFECTIVE DOSE EQUIVALENT (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]According to Technical Specification 3.10 "Nonsecured experiments shall have reactivity worths less than -

a.$.25 b.$.50 c.$.75 d.$1.0 Section B Normal, Emergency and Radiological Control ProceduresPage 13QUESTIONB.9[1.0 point]A small radioactive source is to be stored in the reactor building. The source reads 2 R/hr at 1 foot. Assumingno 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 feetQUESTIONB.10[1.0 point]SOP #4 requires that reactor power be approximately at 300 watts prior to a pulse. Which one of the followingis the reason for this limitation on power level?To prevent exceeding...

a.the maximum power level limit b.the reactivity insertion limits c.the fuel element temperature limit d.the maximum excess reactivityQUESTIONB.11[1.0 point]The Pre-critical Reactor checkout reveals that a non-operable instrumentation. The instrument beinginoperable will not violate Facility license, technical specifications, written procedures, nor safe practices. What is the minimum level of authorization required before starting the reactor?a.Reactor Operator b.Senior Reactor Operator c.Facility Director d.Reactor Safeguards Committee Section B Normal, Emergency and Radiological Control ProceduresPage 14QUESTIONB.12[1.0 point]Which One of the following conditions is a violation of a Limiting Condition for Operation?a.Core excess reactivity is $6.00.

b.During a power calibration, actual power was found to be 1.13 MW.

c.Pool conductivity is 6 x 10

-5 mhos/cm.d.During a pulse, a fuel element temperature reached 760CQUESTIONB.13[1.0 point]Which ONE of the following evolutions may be supervised by a Reactor Operator?a.Irradiated fuel is being removed from the core.

b.New fuel element clusters are being installed in the core.

c.The Transient Control rod is being removed for maintenance.

d.One fuel element cluster is being repositioned in the fuel storage racks.QUESTIONB.14[1.0 point]Which ONE of the following is NOT a part of the Technical Specifications definition of a Secured Reactor?a.The console key is in the OFF position and the key is removed from the console and under the control ofthe licensed operator.b.No work is in progress involving withdrawal of in-core experiments.

c.The reactor is in the cold critical condition.

d.The reactor is subcritical by at least 1.00$ of reactivity.QUESTIONB.15[1.0 point]You have not performed the functions of an RO or SRO in the past 6 months. Per the Regulations, prior toresuming 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 15QUESTIONB.16[1.0 point]Technical Specifications require, whenever practicable, that the reactor be operated at or beyond four (4)inches from the thermal column. IDENTIFY the reason for this distance limitation.

To minimize:

a. neutron embrittlement to the thermal column.
b. the radiation exposure due to iodine isotopes 131 through 135
c. the production of Nitrogen-16.
d. the production of Ar-41.QUESTIONB.17[1.0 point]Which of the following, does NOT require the mobilization of the site emergency organization?a. Following a pulse, the Transient Rod is stuck.
b. Fire in the NRC building outside the reactor operating areas.
c. Civil disturbance directed at the facility.
d. Failure of an in-core experiment.QUESTIONB.18[1.0 point]Which one of the following is a Non-License required test?a.Area radiation monitors alarm operability b.Building evacuation alarm operability c.Ventilation system filter D/P check d.Test pulse Section B Normal, Emergency and Radiological Control ProceduresPage 16QUESTIONB.19[1.0 point]The WSU reactor is xenon free, with no experiments in the core. Given the following reactivity worth, calculatethe Shutdown Margin.worth worth DollarsDollarsSafety Blade #1:2.28Safety Blade #2:3.22 Safety Blade #3:3.31Safety Blade #4:4.01 Servo rod:0.40Excess Reactivity:3.42a.9.80 b.9.40 c5.79 d.5.39 Section C Facility and Radiation Monitoring SystemsPage 17QUESTIONC.1[1.0 point]With the reactor secured and the console control power turned off which ONE (1) of the following alarms willresult in an automatic activation of the Building Evacuation alarm?a.High ARM alarm b.Fire alarm c.Low pool water level d.High neutron fluxQUESTIONC.2[1.0 point]Which ONE (1) of the following Modes of the operation of the reactor ventilation system providesapproximately 4500 CFM of treated external air into the pool area?a.Auto mode b.Emergency mode c.Isolation mode d.Dilution ModeQUESTIONC.3[1.0 point]DELETEDThe gas used to move pneumatic tube "rabbit" samples into and out of the reactor is -a.H b.Air c.CO 2d.N 2QUESTIONC.4[1.0 point]The reactivity worth of Standard TRIGA fuel and FLIP fuel are best described by which ONE (1) of thefollowing?a.FLIP fuel reactivity is much greater that Standard fuel b.Standard fuel reactivity is much greater than FLIP fuel c.The reactivities for both fuels are about equal d.The reactivity of each type fuel is based only on U-235 %

Section C Facility and Radiation Monitoring SystemsPage 18QUESTIONC.5[1.0 point]Standard TRIGA fuel has a shorter useful core lifetime than FLIP TRIGA fuel. Which ONE (1) of the followingcharacteristics of Standard fuel is a reason for this SHORTER lifetime?a.Uranium content of 8.5 wt%

b.Required position in the core c.U-235 enrichment d.Erbium content of 1.5 wt%QUESTIONC.6[1.0 point]The reactor is operating at 1 KW when electrical power is lost to the Diffuser pump. Which one of thefollowing is the reason why radiation dose rates on the bridge will increase?a.The Nitrogen-16 transport time will decrease.

b.The Nitrogen-16 production rate will increase.

c.The production of Ar-41 will increase.

d.Buildup of radionuclides in the pool water.QUESTIONC.7[1.0 point]An experimenter drops and breaks open a sample vial in a laboratory room. He immediately runs out of theroom and closes the door. You are called in to assist in the cleanup. Prior to opening the door you would take a reading using a(n)a.Ion Chamber portable radiation detector to determine the radiation field strength.

b.Geiger-Müller portable radiation detector to determine the radiation field strength.

c.Ion Chamber portable radiation detector to determine whether contamination is present.

d.Geiger-Müller portable radiation detector to determine whether contamination is present.

Section C Facility and Radiation Monitoring SystemsPage 19QUESTIONC.8[1.0 point]The Reactor Pool Room Ventilation System will shift to the "Dilute" mode upon receipt of a high alarm fromthe:a.Reactor Bridge Area Radiation Monitor.

b.Console Area Radiation Monitor.

c.Gaseous Effluent Monitoring System.

d.Continuous Air Monitor System.QUESTIONC.9[1.0 point]Which of the following describes how the demineralizer (mixed bed ion exchanger) in the Pool Make-up andDemineralizer System functions to MINIMIZE CORROSION of reactor components?The demineralizer:

a.maintains the pool water pH at a slightly basic value.

b.removes soluble radioactive impurities from the pool water.

c.removes suspended particles from the pool water.

d.maintains the pool water at a low conductivity.QUESTIONC.10[1.0 point]Which ONE of the following neutron flux monitoring channels provides a signal indicating the period of thereactor?a.Linear Power Channel b.Count Rate Channel c.Log Power Channel d.Percent Power Channel Section C Facility and Radiation Monitoring SystemsPage 20QUESTIONC.11[1.0 point]Which one of the following scrams is NOT an input to the Scram Circuitry Logic Element?a.High fuel temperature b.Log-N H.V. Failure c.Short period d.Safety channel #2 High FluxQUESTIONC.12[1.0 point]What is one of the purposes for the neutron count interlock?

a.To preclude the reactor from going super critical before the instrumentation starts to detect the neutronlevel in the core.b.To provide a reference point where all instruments undergo a check before the reactor is brought to acritical position.c.To allow for all experiments to be installed before the reactor is critical.

d.To ensure a sufficient neutron count to start the chain reaction.QUESTIONC.13[1.0 point]Which one of the following parameters provides the first and primary indication of a fuel element claddingfailure?a.Increase counts on the Ar-41 monitor.

b.Increasing pool water conductivity.

c.Increasing counts on the Continuous Air Monitoring d.Increasing N-16 counts.QUESTIONC.14[1.0 point]What type of detectors are used in the Argon-41 monitoring systems?

a.Geiger-Mueller b.Beta-Gamma sensitive scintillator c.Ionization chamber d.NaI Section C Facility and Radiation Monitoring SystemsPage 21QUESTIONC.15[1.0 point]Which ONE of the following is the mechanism by which clad failure will occur if the fuel elements temperaturelimit is exceeded?a.Excessive metallic "creep" in the type 304 stainless steel.

b.Hydrogen overpressurization from the dissociation of zirconium hydride.

c.Swelling of the fuel rod zirconium hydride.

d.Phase changes in the type 304 stainless steel that reduces the clad yield strength.QUESTIONC.16[1.0 point]The reactor is operating at 1 MW and a leak has developed in the primary cooling line from the pool coolingheat exchanger returning to the pool. Which one of the following will TERMINATE the pool water level decrease prior to reaching the top of the core?a.Any leakage is returned is returned to the pool via the drain system.

b.The pool cooling system design physically prevents the pool level from reaching the top of the core.

c.The pool cooling primary pump will automatically trip on lowering pool level.

d.Make-up water from the cooling tower will automatically divert to fill the pool.QUESTIONC.17[1.0 point]An emergency has occurred requiring the Reactor Pool Room Ventilation System to be placed in the "Isolate"mode. The Reactor Control Console (Room 201B) is not accessible. Identify the location where the ReactorPool Room Ventilation System can be placed in the "Isolate" mode.a.The Radiation Release Monitoring Panel in the Radiochemistry Laboratory.b.The Emergency Operating Panel in the Reactor Supervisor's Office.

c.The Ventilation System Auxiliary Panel in the main office.

d.The Air Handling Control Panel in the Penthouse.

Section C Facility and Radiation Monitoring SystemsPage 22QUESTIONC.18[1.0 point]Which ONE of the following statements correctly describes the purpose of the holes drilled at the bottom ofthe shroud for each control blade?a. To limit the force on the blade during scrams.

b. To decelerate the last 5 inches of fall.
c. To minimize the effects of viscous damping on the blade fall time.
d. To provide cooling for the blade.QUESTIONC.19[1.0 point]Which of the following determines the amount of reactivity that is inserted by the Transient Control Rod duringa pulse operation?a.The air pressure applied to the Transition Rod pneumatic piston.

b.The position of the air cylinder.

c.The anvil of the shock absorber.

d.The Drive Up switch on the air cylinder.QUESTIONC.20[1.0 point]How will a LOSS of the facility air supply systems affect the Transient Control Rod (Pulse Rod) during normaloperation at power?a.The rod will begin to insert as the accumulator air pressure decreases.

b.The rod will immediately scram (fully insert).

c.The rod will maintain its present position.

d.The rod will not be capable of individual movement as a control rod.

Answer KeyA.1aREF:Reactor Training Manual - Core Excess and Shutdown Margin.A.2aREF:Reactor Training Manual -

Cross Section. A.3dREF:Reactor Training Manual - Introduction To Nuclear PhysicsA.4aREF: Reactor Training Manual - Reflector and ModerationA.5cREF: Reactor Training Manual - ReactivityA.6bREF:Standard NRC questionA.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.11aREF:Reactor Training Manual - Reactor Physics and KineticsA.12cREF:Reactor Training Manual - Neutron FluxA.13dREF:Reactor Training Manual - Introduction to Nuclear PhysicsA.14aREF:Glasstone and Sesonske, Third Ed. § 1.45A.15bREF:Reactor Training Manual - Introduction to TRIGA ReactorsA.16aREF:Reactor Training Manual - Reactor Physics and KineticsA.17aREF:Reactor Training Manual - Introduction To Nuclear PhysicsA.18cREF:ln (2) = -time/ = time/(ln(2)) = 60.59 61 seconds Answer KeyA.19cREF:LaMarsh, pgs 318 - 320A.20aREF:P 1/(Rho 1-1)2 = P 2/(Rho 2-1)2 P 2 = 450 MW Answer Key DR X DR X X DR DRXXftXft 1 2 2 2 1 22 2 1 22222 2000 5140020===x==B.1cREF:Reactor Training Manual - 10CFR20B.2dREF:Reactor Training Manual - Ionizing RadiationB.3a, 4;b, 2;c, 1;d, 3REF:Reactor Training Manual -

Health PhysicsB.4bREF:10CFR50.54(y).B.5dREF:WSU Administrative Procedure #3B.6dREF:Technical Specifications § 3.9 Engineered Safety Feature - Ventilation SystemB.7aREF:10 CFR 20.1003 DefinitionsB.8dREF:Technical Specification § 3.10B.9c REF:B.10cREF:WSU TS 3.3B.11bREF:SOP #4, A.9B.12cREF:WSU TS 3.0B.13cREF:WSU SOP #7 & #8B.14cREF:Technical Specifications § 1.0 DefinitionsB.15bREF:10CFR55.53(f)(2))B.16dREF:WSU TS 3.12 Answer KeyB.17bREF:WSU EPlanB.18bREF:WSU SOPs for performing preventive maintenanceB.19dREF:SOP #5, Shutdown Margin Answer KeyC.1aREF:SOP #18, B.5C.2aREF:Emergency plan, Section 8.2 & Pool Room Ventilation System drawing, Fig. 8.2-1C.3bREF: SAR, Figure 10-3, Pneumatic Transfer SystemC.4cREF:SAR, Section 1.2C.5cREF:Reactor Training ManualC.6aREF:SAR, Section 5.6, Nitrogen-16 Control SystemC.7aREF:Standard NRC QuestionC.8dREF:SAR, Section 7.7.2, Continuous Air Monitoring SystemC.9dREF:WSU Technical Specification 3.13C.10cREF:SAR, Section 7.3.2 & Figure 7-5C.11bREF:SAR, Figure 7-9, Scram CircuitryC.12aREF:SAR, Section 7.3.1C.13cREF:Emergency Plan, Fuel Element FailureC.14dREF:SAR, Section 7.7.3, Argon-41 Monitoring SystemC.15bREF:SAR, Section 6.3.3, Fuel Operating TemperatureC.16bREF:SAR, Section 5.3C.17cREF:SAR, Section 9.1 Answer KeyC.18cREF:SAR, Section 4.2.2C.19bREF:SAR, Section 4.2.2C.20aREF: SAR, Section 4.2.2