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| issue date = 07/12/2006 | | issue date = 07/12/2006 | ||
| title = Letter to Mr. Steven G. Frantz from Johnny Eads Initial and Retake Examination Report No. 50-288/OL-06-01, Reed College | | title = Letter to Mr. Steven G. Frantz from Johnny Eads Initial and Retake Examination Report No. 50-288/OL-06-01, Reed College | ||
| author name = Eads J | | author name = Eads J | ||
| author affiliation = NRC/NRR/ADRA/DPR/PRTB | | author affiliation = NRC/NRR/ADRA/DPR/PRTB | ||
| addressee name = Frantz S | | addressee name = Frantz S | ||
| addressee affiliation = Reed College | | addressee affiliation = Reed College | ||
| docket = 05000288 | | docket = 05000288 | ||
Line 17: | Line 17: | ||
=Text= | =Text= | ||
{{#Wiki_filter:July 12, | {{#Wiki_filter:July 12, 2006 Mr. Steven G. Frantz, Director Reed Reactor Facility 3203 SE Woodstock Blvd. | ||
Portland, OR | Portland, OR 97202 | ||
==SUBJECT:== | ==SUBJECT:== | ||
INITIAL AND RETAKE EXAMINATION REPORT NO. 50-288/OL-06-01, | INITIAL AND RETAKE EXAMINATION REPORT NO. 50-288/OL-06-01, REED COLLEGE | ||
==Dear Mr. Frantz:== | ==Dear Mr. Frantz:== | ||
During the week of May 1, 2006, the NRC administered an initial operator licensing | During the week of May 1, 2006, the NRC administered an initial operator licensing examination at your Reed College Reactor facility. On March 29, 2006, you administered an NRC prepared retake operator licensing examination at your Reed College Reactor facility. The examinations were 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. | ||
Johnny Eads, | In accordance with 10 CFR 2.390 of the Commission's regulations, a copy of this letter and the enclosures will be available electronically for public inspection in the NRC Public Document Room 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 contact Mr. Paul Doyle Jr. at (301) 415-1058 or via internet e-mail pvd@nrc.gov. | |||
Sincerely, | |||
/RA/ | |||
Johnny Eads, Chief Research and Test Reactors Branch B Division of Policy and Rulemaking Office of Nuclear Reactor Regulation Docket No. 50-288 | |||
==Enclosures:== | ==Enclosures:== | ||
: 1. Initial Examination Report No. 50-288/OL-06- | : 1. Initial Examination Report No. 50-288/OL-06-01 | ||
: 2. Initial examination and answer key | |||
: 3. Comment on Retake Written Examination | : 3. Comment on Retake Written Examination | ||
: 4. Retake examination and answer | : 4. Retake examination and answer key cc w/encls: | ||
Portland, OR | Please see next page | ||
July 12, 2006 Mr. Steven G. Frantz, Director Reed Reactor Facility 3203 SE Woodstock Blvd. | |||
Portland, OR 97202 | |||
==SUBJECT:== | ==SUBJECT:== | ||
INITIAL AND RETAKE EXAMINATION REPORT NO. 50-288/OL-06-01, | INITIAL AND RETAKE EXAMINATION REPORT NO. 50-288/OL-06-01, REED COLLEGE | ||
==Dear Mr. Frantz:== | ==Dear Mr. Frantz:== | ||
During the week of May 1, 2006, the NRC administered an initial operator licensing | During the week of May 1, 2006, the NRC administered an initial operator licensing examination at your Reed College Reactor facility. On March 29, 2006, you administered an NRC prepared retake operator licensing examination at your Reed College Reactor facility. The examinations were 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. | ||
Johnny Eads, | In accordance with 10 CFR 2.390 of the Commission's regulations, a copy of this letter and the enclosures will be available electronically for public inspection in the NRC Public Document Room 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 contact Mr. Paul Doyle Jr. at (301) 415-1058 or via internet e-mail pvd@nrc.gov. | |||
Sincerely, | |||
/RA/ | |||
Johnny Eads, Chief Research and Test Reactors Branch B Division of Policy and Rulemaking Office of Nuclear Reactor Regulation Docket No. 50-288 | |||
==Enclosures:== | ==Enclosures:== | ||
: 1. Initial Examination Report No. 50-288/OL-06- | : 1. Initial Examination Report No. 50-288/OL-06-01 | ||
: 2. Initial examination and answer key | |||
: 3. Comment on Retake Written Examination | : 3. Comment on Retake Written Examination | ||
: 4. Retake examination and answer | : 4. Retake examination and answer key cc w/encls: | ||
Please see next page DISTRIBUTION w/ encls.:PUBLIC PRTB r/ | Please see next page DISTRIBUTION w/ encls.: | ||
Mayor of the City of | PUBLIC PRTB r/f JEads DHughes Facility File (EBarnhill) O-6 F-2 ADAMS ACCESSION #: ML061780620 TEMPLATE #:NRR-074 OFFICE PRTB:CE IOLB:LA PRTB:SC NAME Pdoyle:tls* Ebarnhill* JEads:tls* | ||
Salem, OR | DATE 6/28/2006 7/11/2006 7/12/2006 OFFICIAL RECORD COPY | ||
6/28/ | |||
Reed College Docket No. 50-288 cc: | |||
Mayor of the City of Portland 1220 Southwest 5th Avenue Portland, OR 97204 Reed College ATTN: Dr. Peter Steinberger Dean of Faculty 3203 S.E. Woodstock Boulevard Portland, OR 97202-8199 Reed College ATTN: Dr. Colin Diver, President 3203 S.E. Woodstock Boulevard Portland, OR 97202-8199 Oregon Department of Energy ATTN: David Stewart-Smith, Director Division of Radiation Control 625 Marion Street, N.E. | |||
Salem, OR 97310 Test, Research, and Training Reactor Newsletter University of Florida 202 Nuclear Sciences Center Gainesville, FL 32611 | |||
U. S. NUCLEAR REGULATORY COMMISSION OPERATOR LICENSING INITIAL EXAMINATION REPORT REPORT NO.: 50-288/OL-04-01 FACILITY DOCKET NO.: 50-288 FACILITY LICENSE NO.: R-112 FACILITY: Reed College EXAMINATION DATES: May 1-10, 2006 SUBMITTED BY: ______/RA/_____________________________ 6/28/2006 Paul V. Doyle Jr., Chief Examiner Date | |||
==SUMMARY== | ==SUMMARY== | ||
During the first two weeks of May the NRC administered Examinations to 26 Operator Licensing Candidates. All 26 candidates passed their respective examinations. During the last week of March, 2006 the NRC administered a Retake written examination to one Operator Licensing Candidate. This candidate also passed the administered examination. The NRC would like to recognize the quality of the candidates examined during the weeks of May 1 and May 8, 2006. | |||
During the first two weeks of May the NRC administered Examinations to 26 Operator | The overall average for the RO candidates taking the written examination was over 90%, and all three examiners noted that all of the candidates performed well on their operating tests. | ||
L Theory, Thermodynamics & Facility Operating | REPORT DETAILS | ||
: 1. Examiners: Paul V. Doyle Jr. (CE), Patrick Isaac, Phillip Young | |||
d.The area of the nucleus including the electron cloud. | : 2. Results: | ||
b.continually decreasing. | RO PASS/FAIL SRO PASS/FAIL TOTAL PASS/FAIL Written 16/0 0/0 15/0 Operating Tests 15/0 11/0 26/0 Overall 16/0 11/0 27/0 | ||
c.increasing, the decreasing. | : 3. Exit Meeting: | ||
d.constant. | Paul V. Doyle Jr., NRC, Examiner Phillip T. Young, NRC, Examiner Stephen Frantz, Reed College, Facility Director Rachel Barnett, Reed College, Deputy Facility Director The NRC examiners thanked the facility for their support in the administration of examinations. The examiners complimented the facility on the quality of the training given to the candidates taking the examination. | ||
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. | ENCLOSURE 1 | ||
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: | OPERATOR LICENSING EXAMINATION With Answer Key REED COLLEGE May 01, 2006 Enclosure 2 | ||
L Theory, Thermodynamics & Facility Operating | |||
b.60 seconds. | Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 2 QUESTION A.1 [1.0 point] | ||
c.90 seconds. | Core excess reactivity (ex) changes with | ||
d.120 seconds. | : a. fuel element burnup | ||
a.35 | : b. control rod height | ||
L Theory, Thermodynamics & Facility Operating | : c. neutron energy level | ||
b.thermal fission | : d. reactor power level QUESTION A.2 [1.0 point] | ||
c.fast and thermal fission to the number produced by thermal fission. | Which ONE of the following is the definition of the term Cross-Section? | ||
d.fast fission to the number produced by fast and thermal fission. | : a. The probability that a neutron will be captured by a nucleus. | ||
a.11 minutes b.22 minutes c.44 minutes d.51 | : b. The most likely energy at which a charge particle will be captured. | ||
a.High scattering cross-section and low absorption cross-section. | : c. The length a charged particle travels past the nucleus before being captured. | ||
b.Low scattering cross-section and high absorption cross-section. | : d. The area of the nucleus including the electron cloud. | ||
c.Low scattering cross-section and low absorption cross-section. | QUESTION A.3 [1.0 point] | ||
d.High scattering cross-section and high absorption cross-section. | Shown to the right is a trace of reactor PERIOD as a function of time. Between points A and B reactor POWER is | ||
L Theory, Thermodynamics & Facility Operating | : a. continually increasing. | ||
%K/K%K/ | : b. continually decreasing. | ||
b.6.48% | : c. increasing, the decreasing. | ||
: d. constant. | |||
d.3.80% | QUESTION A.4 [1.0 point] | ||
Section A: | The difference between a moderator and a reflector is that a reflector | ||
L Theory, Thermodynamics & Facility Operating | : a. increases the fast non-leakage factor and a moderator increases the thermal utilization factor. | ||
b.shorter due to long lived delayed neutron precursors. | : b. increases the neutron production factor and a moderator increase the fast fission factor. | ||
c.same due to equal amounts of reactivity being added. | : c. increases the neutron production factor, and a moderator decreases the thermal utilization factor. | ||
d.same due to equal reactivity rates from the rod. | : d. decreases the fast non-leakage factor, and a moderator increases the thermal utilization factor. | ||
: a. | |||
: b. | Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 3 QUESTION A.5 [1.0 point] | ||
: c. | The term reactivity may be described as | ||
: d. | : a. a measure of the cores fuel depletion. | ||
b.any Senior Reactor Operator licensed at the facility. | : b. negative when Keff is greater than 1.0. | ||
c.Facility Manager (or equivalent at facility).d.NRC Project Manager Section B | : c. a measure of the cores deviation from criticality. | ||
: d. equal to $.50 when the reactor is prompt critical. | |||
b.is the area bounded by the reactor room, pump room, control room and the hallway adjacent to reactor room. | QUESTION A.6 [1.0 point] | ||
c.is the geographical area beyond the site boundary, where the Reactor Director has direct authority over | The table provided lists data taken during a core loading. Estimate the number of fuel elements needed to go critical. | ||
Count Rate Number for Fuel Elements | |||
b.The dose that your whole body receives from sources outside the body. | : a. 9 842 2 | ||
c.The sum of the external deep dose and the organ dose. | : b. 11 936 4 | ||
d.The dose to a specific organ or tissue resulting from an intake of radioactive material. | : c. 13 1123 7 | ||
c. | : d. 15 1684 12 2807 16 QUESTION A.7 [1.0 point] | ||
d. | During a startup you increase reactor power from 100 watts to 195 watts in a minute. Which ONE of the following is reactor period? | ||
b.Operations may continue unrestricted. | : a. 30 seconds. | ||
c.Operations may continue ONLY if the remaining SRO remains in the control room. | : b. 60 seconds. | ||
d.Operations may continue ONLY if the remaining SRO remains within the Reactor Laboratory area. | : c. 90 seconds. | ||
: d. 120 seconds. | |||
c.The minimum shutdown margin with the most reactive or the operable control elements withdrawn shall be$1. | QUESTION A.8 [2.0 points, 1/2 each] | ||
b.Performing a Daily Shutdown Checklist. | Identify each of the listed radioactive decays as either alpha (), beta (), gamma () or neutron (n), or proton (p). | ||
c.Raising Power from 5 watts to 225 Kilowatts. | Proton added as a choice during administration of the examination. | ||
d.Performing a Fuel element Inspection. | : a. 35 Br87 º 33As83 | ||
Section B | : b. 35 Br87 º 35Br86 | ||
b.1 neutron-gamma sensitive pocket dosimeter for the tour guide. | : c. 35 Br87 º 34Se86 | ||
c.2 TLD badges for every 10 members of the group. | : d. 35 Br87 º 36Kr87 | ||
d.1 pocket dosimeter for each member of the group. | |||
: b. Release is expected of radioactive material, which will require off-site response. c. One or more elements of the emergency organization are likely to be notified. | Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 4 QUESTION A.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. | |||
QUESTION A.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? | |||
TIME ACTIVITY | |||
: a. 11 minutes 0 minutes 2400 cps | |||
: b. 22 minutes 10 minutes 1757 cps | |||
: c. 44 minutes 20 minutes 1286 cps 30 minutes 941 cps | |||
: d. 51 minutes 60 minutes 369 cps QUESTION A.11 [1.0 point] | |||
Which ONE of the following describes the characteristics of good moderators and reflectors? | |||
: a. High scattering cross-section and low absorption cross-section. | |||
: b. Low scattering cross-section and high absorption cross-section. | |||
: c. Low scattering cross-section and low absorption cross-section. | |||
: d. High scattering cross-section and high absorption cross-section. | |||
QUESTION A.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) | |||
Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 5 QUESTION A.13 [1.0 point] | |||
Using the graphs provided in the handout. Choose the ONE which most closely depicts the reactivity versus time plot for xenon for the following evolution. Bring the reactor to 100% power (clean core) and operate for four days (96 hours). Shutdown the reactor for 15 hours. Bring the reactor to 50% power for a day (24 hours). | |||
: a. A | |||
: b. B | |||
: c. C | |||
: d. D QUESTION A.14 [2.0 points, 1/2 each] | |||
A fissile material is one which will fission upon the absorption of a THERMAL neutron. A fertile material is noe which upon absorption of a neutron becomes a fissile material. Identify each of the listed isotopes as either fissile or fertile. | |||
: a. Th232 | |||
: b. U233 | |||
: c. U235 | |||
: d. Pu239 QUESTION A.15 [1.0 point] | |||
A reactor is xenon free, with no experiments in the core. Given the following reactivity worths, calculate the actual (NOT Technical Specification Limit) Shutdown Margin. | |||
worth worth | |||
%K/K %K/K Shim-Safety Blade #1: 2.41 Shim-Safety Blade #2: 2.32 Shim-Safety Blade #3: 2.49 Shim-Safety Blade #4: 2.60 Regulating rod: 0.084 Excess Reactivity: 3.42 | |||
: a. 9.90% | |||
: b. 6.48% | |||
c 6.40% | |||
: d. 3.80% | |||
Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 6 QUESTION A.16 [1.0 point] | |||
The reactor is operating at 100 KW. The reactor operator withdraws the Regulating Rod allowing 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. | |||
QUESTION A.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 the highest probability of occurring? A neutron | |||
: a. scattering reaction with aluminum | |||
: b. scattering reaction with copper | |||
: c. absorption in aluminum | |||
: d. absorption in copper QUESTION A.18 [1.0 point] | |||
When performing rod calibrations, many facilities pull the rod out a given increment, then measure the time for reactor 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 sec | |||
Section B Normal, Emergency and Radiological Control Procedures Page 7 QUESTION B.1 [1.0 point] | |||
The four Emergency Classifications used by the NRC are listed alphabetically below. Which ONE of the classifications is the ONLY one applicable to the Reed Reactor Facility? | |||
: a. Alert | |||
: b. General Emergency | |||
: c. Notification of Unusual Event | |||
: d. Site Area Emergency QUESTION B.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 mrem QUESTION B.3 [2.0 points, 1/2 each] | |||
Match type of radiation (1 thru 4) with the proper penetrating power (a thru d) | |||
: a. Gamma 1. Stopped by thin sheet of paper | |||
: b. Beta 2. Stopped by thin sheet of metal | |||
: c. Alpha 3. Best shielded by light material | |||
: d. Neutron 4. Best shielded by dense material QUESTION B.4 [1.0 point] | |||
10CFR50.54(x) states: A licensee may take reasonable action that departs from a license condition 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 provide adequate or equivalent protection is immediately apparent. 10CFR50.54(y) states that the minimum level of management which may authorize this action is | |||
: a. any Reactor Operator licensed at the facility. | |||
: b. any Senior Reactor Operator licensed at the facility. | |||
: c. Facility Manager (or equivalent at facility). | |||
: d. NRC Project Manager | |||
Section B Normal, Emergency and Radiological Control Procedures Page 8 QUESTION B.5 [1.0 point] | |||
According to the Emergency plan, the Site Boundary | |||
: a. is the area enclosed within the reactor room. | |||
: b. is the area bounded by the reactor room, pump room, control room and the hallway adjacent to reactor room. | |||
: c. is the geographical area beyond the site boundary, where the Reactor Director has direct authority over all activities. | |||
: d. is bounded by a 250 foot radius from the reactor. | |||
QUESTION B.6 [1.0 point] | |||
Per Technical Specifications regarding the Area Radiation Monitor: During short periods of repair to this monitor (up to _______), reactor operations may continue whil a detector capable of displaying gamma dose rate is utilized as a temporary substitute. | |||
: a. one day | |||
: b. two days | |||
: c. one week | |||
: d. two weeks QUESTION B.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. | |||
QUESTION B.8 [1.0 point] | |||
According to Technical Specification J.4.c experiments having reactivity worths greater than _____ shall be securely located or fastened to prevent inadvertent movement during reactor operations. | |||
: a. $.25 | |||
: b. $.50 | |||
: c. $.75 | |||
: d. $1.0 | |||
Section B Normal, Emergency and Radiological Control Procedures Page 9 QUESTION B.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. 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 QUESTION B.10 [1.0 point] | |||
When performing Wipe tests per SOP 23, no action is required unless any of the swipes reads greater than (Note: this IS the limit for CONTAMINATION, NOT the good policy limit for cleanup.) | |||
: a. 10 dpm/100 cm2 | |||
: b. 50 dpm/100 cm2 | |||
: c. 100 dpm/100 cm2 | |||
: d. 1000 dpm/100 cm2 QUESTION B.11 [2.0 points, 2/5 each] | |||
Match the tag on the Lazy Susan status board in column A with the correct sample description from column B. | |||
Note: This question was modified during the administration of the examination, to conform with a newly modified facility operating procedure. | |||
COLUMN A COLUMN B | |||
: a. White with a "1". 1. Aluminum TRIGA tube | |||
: b. White with a "2". 2. Position not to be used without Director's permission. | |||
: c. Yellow 3. Position not to be used at all. | |||
: d. Orange 4. Shutdown Irradiation | |||
: e. Blue 5. Double loaded plastic TRIGA tube | |||
: 6. Single loaded plastic TRIGA tube | |||
Section B Normal, Emergency and Radiological Control Procedures Page 10 QUESTION B.12 [1.0 point] | |||
Two Senior Reactor Operators (SROs) and one unlicensed trainee are the only people on-site during reactor operations. One SRO becomes ill and leaves the site. What action must be taken by the remaining SRO. | |||
: a. The reactor must be shutdown. | |||
: b. Operations may continue unrestricted. | |||
: c. Operations may continue ONLY if the remaining SRO remains in the control room. | |||
: d. Operations may continue ONLY if the remaining SRO remains within the Reactor Laboratory area. | |||
QUESTION B.13 [1.0 point] | |||
Which ONE of the following is the absolute MAXIMUM STEADY-STATE power level allowed by TECHNICAL SPECIFICATIONS? | |||
: a. 240 Kilowatts | |||
: b. 250 Kilowatts | |||
: c. 287.5 Kilowatts | |||
: d. 300 Kilowatts QUESTION B.14 [1.0 point] | |||
Which ONE of the following is NOT a part of the Technical Specifications definition of a Shutdown Reactor? | |||
: a. The console key is in the OFF position and the key is removed from the console and under the control of the licensed operator. | |||
: b. No work is in progress involving fuel handling or maintenance of the control rod mechanisms. | |||
: c. The minimum shutdown margin with the most reactive or the operable control elements withdrawn shall be | |||
$1.10 | |||
: d. Sufficient control rods are inserted so as to assure the reactor is subcritical by a margin greater than 0.7 K/K, cold Xenon free. | |||
QUESTION B.15 [1.0 point] | |||
Which ONE of the following evolutions does NOT require the presence of a Senior Reactor Operator in the facility? | |||
: a. Performing a Same Day Startup Checklist. | |||
: b. Performing a Daily Shutdown Checklist. | |||
: c. Raising Power from 5 watts to 225 Kilowatts. | |||
: d. Performing a Fuel element Inspection. | |||
Section B Normal, Emergency and Radiological Control Procedures Page 11 QUESTION B.16 [1.0 point] | |||
Which ONE of the following is a minimum requirement for visitors being escorted in the Reactor Bay? | |||
: a. 1 TLD per 10 members of the group. | |||
: b. 1 neutron-gamma sensitive pocket dosimeter for the tour guide. | |||
: c. 2 TLD badges for every 10 members of the group. | |||
: d. 1 pocket dosimeter for each member of the group. | |||
QUESTION B.17 [1.0 point] | |||
Technical specifications require the reactor to be shutdown if reactor pool limit exceeds 120EF. However, the pool temperature meter reads out in EC. Which of the temperatures in EC listed below corresponds to 120EF? | |||
: a. ~49EC | |||
: b. ~99EC | |||
: c. ~158EC | |||
: d. ~248EC QUESTION B.18 [1.0 point] | |||
The condition of Notification of Unusual Event encompasses all of the following except: | |||
: a. There is time available to take precautionary corrective steps. | |||
: b. Release is expected of radioactive material, which will require off-site response. | |||
: c. One or more elements of the emergency organization are likely to be notified. | |||
: d. Can be initiated by manmade events or natural phenomena. | : d. Can be initiated by manmade events or natural phenomena. | ||
Section C Facility and Radiation Monitoring Systems Page | |||
b.Small increase in indicated power. | Section C Facility and Radiation Monitoring Systems Page 12 QUESTION C.1 [1.0 point] | ||
c.Large decrease in indicated power. | During operations at high (150 Kwatts) power, you lose compensating voltage for a compensated ion chamber. | ||
d.Large increase in indicated power. | Which ONE of the following would be the resulting change in power level detected? | ||
c.Pull | : a. Small decrease in indicated power. | ||
d.Push | : b. Small increase in indicated power. | ||
a.H b.Air c. | : c. Large decrease in indicated power. | ||
b.Siphon breaks (holes) located in the pump suction piping. | : d. Large increase in indicated power. | ||
c.Level in pool drops below minimum required to supply suction pressure to the pump. | QUESTION C.2 [2.0 point, 0.5 each] | ||
d.Level in pool drops below the bottom of the suction piping. | Match the control rod drive mechanism part from column "A" with the correct function in column "B". | ||
Section C Facility and Radiation Monitoring Systems Page | COLUMN A COLUMN B | ||
b.Geiger-Müller portable radiation detector to determine the radiation field strength.c.Ion Chamber portable radiation detector to determine whether contamination is present. | : a. Piston 1. Provide rod bottom indication. | ||
d.Geiger-Müller portable radiation detector to determine whether contamination is present. | : b. Potentiometer 2. Provide rod full withdrawn indication. | ||
a.the reactor room is at a higher pressure than the atmosphere. | : c. Pull Rod 3. Provide rod position indication when the electromagnet engages the armature. | ||
b.the reactor room is at a lower pressure than the adjacent laboratory. | : d. Push Rod 4. Works with dash pot to slow rod near bottom of its travel. | ||
c.the reactor building is equal to atmospheric pressure. | QUESTION C.3 [1.0 point] | ||
d.the reactor room and the adjacent laboratory are always at the same pressure. | The gas used to move pneumatic tube rabbit samples into and out of the reactor is | ||
Section C Facility and Radiation Monitoring Systems Page | : a. H | ||
b.Chromate to minimize corrosion of the pipes. | : b. Air | ||
c.Sodium-Chloride to increase the thermal conductivity of the water. | : c. CO2 | ||
d.Ethyl-Glycol to prevents the water from freezing in cold temperatures. | : d. N2 QUESTION C.4 [1.0 point] | ||
B.Before the inlet to Fan A. | A pipe flange downstream of the primary pump fails. What design feature prevents the pump from draining the pool? | ||
C.After the outlet of Fan A. | : a. Closure of an automatic valve sensitive to pool level. | ||
D.Before the inlet to the Fan B. | : b. Siphon breaks (holes) located in the pump suction piping. | ||
A.To prevent the reactor from being manipulated to a critical position before the count rate | : c. Level in pool drops below minimum required to supply suction pressure to the pump. | ||
D.To ensure that a steady rate of startup to the critical position is achieved. | : d. Level in pool drops below the bottom of the suction piping. | ||
Section C Facility and Radiation Monitoring Systems Page | |||
B.Old rotating red APM light turns on and buzzer turns on. | Section C Facility and Radiation Monitoring Systems Page 13 QUESTION C.5 [1.0 point] | ||
C.Display turns red and rotating red light on control room ceiling turns on.D.Buzzer turns on and display starts blinking. | The reflector surrounding the reactor uses which ONE of the following materials to reflect neutrons? | ||
A.Geiger-Mueller B.Proportional counter C.Ionization chamber D.- | : a. Beryllium | ||
b.building exhaust and maintains the transfer system at a positive pressure. | : b. Graphite | ||
c.reactor room and maintains the transfer system at a negative pressure. | : c. Polyethylene | ||
d.building exhaust and maintains the transfer system at a negative | : d. Zirconium QUESTION C.6 [2.0 points b each] | ||
Identify which component of the purification system listed in column B is PRIMARILY designed to remove the impurities listed in column A. | |||
: a. dissolved solids 1. Filter | |||
: b. mosquito larvae 2. Ion Exchanger | |||
: c. suspended solids 3. Skimmer QUESTION C.7 [1.0 point] | |||
An experimenter drops and breaks open a sample vial in a laboratory room. He immediately runs out of the room 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. | |||
QUESTION C.8 [1.0 point] | |||
The ventilation system is designed so that: (Assume normal conditions, all equipment operating.) | |||
: a. the reactor room is at a higher pressure than the atmosphere. | |||
: b. the reactor room is at a lower pressure than the adjacent laboratory. | |||
: c. the reactor building is equal to atmospheric pressure. | |||
: d. the reactor room and the adjacent laboratory are always at the same pressure. | |||
Section C Facility and Radiation Monitoring Systems Page 14 QUESTION C.9 [10 point] | |||
Which ONE of the following is added weekly to the secondary cooling loop? | |||
: a. Algaecide to suppress biological growth in the cooling tower. | |||
: b. Chromate to minimize corrosion of the pipes. | |||
: c. Sodium-Chloride to increase the thermal conductivity of the water. | |||
: d. Ethyl-Glycol to prevents the water from freezing in cold temperatures. | |||
QUESTION C.10 [1.0 point] | |||
Which ONE of the following neutron flux monitoring channels provides a signal indicating the period of the reactor? | |||
: a. Linear Channel | |||
: b. Count Rate Channel | |||
: c. Log Channel | |||
: d. Percent Power Channel QUESTION C.11 [1.0 point] | |||
Where in the ventilation system is the gaseous stack monitor sampling loop located? Fan A is the reactor loop supply unit and Fan B is the reactor loop exhaust unit. | |||
A. After the outlet of Fan B. | |||
B. Before the inlet to Fan A. | |||
C. After the outlet of Fan A. | |||
D. Before the inlet to the Fan B. | |||
QUESTION C.12 [1.0 point] | |||
What is one of the purposes for the neutron count interlock? | |||
A. To prevent the reactor from being manipulated to a critical position before the count rate channel is verified to be operable. | |||
B. To provide a reference point where all instruments undergo a check before the reactor is brought to a critical position. | |||
C. To allow for all experiments to be installed before the reactor is critical. | |||
D. To ensure that a steady rate of startup to the critical position is achieved. | |||
Section C Facility and Radiation Monitoring Systems Page 15 QUESTION C.13 [1.0 point] | |||
Which ONE of the following describes the automatic actions for a high bulk water temperature alarm? | |||
A. Display turns orange and buzzer turns on. | |||
B. Old rotating red APM light turns on and buzzer turns on. | |||
C. Display turns red and rotating red light on control room ceiling turns on. | |||
D. Buzzer turns on and display starts blinking. | |||
QUESTION C.14 [1.0 point] | |||
What type of detectors are used in the APM, GSM, and CAM radiation monitoring systems? | |||
A. Geiger-Mueller B. Proportional counter C. Ionization chamber D. - Scintillation QUESTION C.15 [1.0 point] | |||
Which ONE of the following statements correctly describes the pneumatic transfer system path and operating pressure? The pneumatic transfer system exhausts to the | |||
: a. reactor room and maintains the transfer system at a positive pressure. | |||
: b. building exhaust and maintains the transfer system at a positive pressure. | |||
: c. reactor room and maintains the transfer system at a negative pressure. | |||
: d. building exhaust and maintains the transfer system at a negative pressure QUESTION C.16 [2.0 points, 0.5 each] | |||
Which of the following instruments is used to detect High range Beta-Gamma radiation during an emergency condition? | |||
: a. Eberline Model E-140 | |||
: b. Model RO-2 | : b. Model RO-2 | ||
: c. CD V - 700 model 6B | : c. CD V - 700 model 6B | ||
: d. CD V - 715 model 1B Section C Facility and Radiation Monitoring Systems Page | : d. CD V - 715 model 1B | ||
b.Log Power (Log-N Channel). | |||
c.Percent Power Channel. | Section C Facility and Radiation Monitoring Systems Page 16 QUESTION C.17 [1.0 point] | ||
d.Count Rate Channel. | Which one of the following does not provide any protective interlocks or actions? | ||
: a. Linear Power Channel. | |||
: b. Log Power (Log-N Channel). | |||
: c. Percent Power Channel. | |||
: d. Count Rate Channel. | |||
QUESTION C.18 [1.0 point] | |||
Which ONE of the following statements correctly describes the purpose of the potentiometer in the control rod drive assembly. | |||
: a. Provides rod position indication when the electromagnet engages the connecting rod armature. | |||
: b. Provides a variable voltage to the rod drive motor for regulating control rod speed. | : b. Provides a variable voltage to the rod drive motor for regulating control rod speed. | ||
: c. Provides potential voltage as required for resetting the electromagnet current. | : c. Provides potential voltage as required for resetting the electromagnet current. | ||
: d. Provides the potential voltage to relatch the connecting rod. | : d. Provides the potential voltage to relatch the connecting rod. | ||
Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 17 A.01 a REF: G A.02 a REF: x A.03 a REF: | |||
A.04 a REF: | |||
A.05 c REF: | |||
A.06 b REF: (See attached sketch, ~ 11 fuel elements) | |||
A.07 c REF: P = P0 et/ > = t/ln(P/P0) = 60/ln (195/100) = 60/ln(1.95) = 89.84 . 90 sec. | |||
A.08 a, ; b, n; c, p; d, A.09 c REF: | |||
A.10 b REF: | |||
A.11 a REF: R A.12 c REF: x A.13 c REF: x A.14 a, fertile; b, fissile; c, fissile; d, fissile REF: x A.15 d REF: Burn, R., Introduction to Nuclear Reactor Operations, © 1988, § 6.2.3 p. 6-4. SDM (cold/clean) = Total Rod worth - Kexcess = (2.41 + 2.32 + 2.49 + 2.60 + 0.084) - 3.42 = 6.484% | |||
A.16 a REF: | |||
A.17 a REF: | |||
A.18 c REF: ln (2) = -time/ = time/(ln(2)) = 60.59 . 61 seconds | |||
Section B Normal, Emergency and Radiological Control Procedures Page 18 B.01 c REF: | |||
B.02 d REF: | |||
B.03 a, 4; b, 2; c, 1; d, 3 REF: | |||
B.04 b REF: 10CFR50.54(y). | |||
B.05 d REF: Emergency Plan § 2.14 B.06 c REF: Technical Specifications G.1 B.07 a REF: 10 CFR 20.1003 Definititions B.08 d REF: Technical Specification J.4.c B.09 c DR1 DR2 DR1 2 2000 REF: = X22 = X X2 = x 12 = 400 ft 2 X = 20 ft X 2 2 X 12 DR2 5 B.10 d REFERENCE SOP 23 Health Physics Wipe Tests, § 23.7.1.6. | |||
B.11 a, 6; b, 5; c, 1; d, 3; e, 4 REFERENCE SOP 52 Lazy Susan Irradiations § 52.7.1.3, p. 3 B.12 c REF: Administrative procedures § III.3.1(3) | |||
B.13 c REF: Technical Specifications § A.2 Steady State Mode B.14 c REF: Technical Specifications § A Definitions B.15 c REF: SOP-40, Fuel Element Inspection; SOP-05, Daily Shutdown Checklist; SOP-04 Same Day Startup and SOP-03, Reactor Operations. | |||
B.16 d REF: SOP-17 B.17 a REF: Reed Reactor Facility SOP 63, SOP 70 and Technical Specifications. | |||
B.18 b REF: Reed Reactor Facility Emergency Plan §4.2 | |||
Section C Facility and Radiation Monitoring Systems Page 19 C.01 b REF: Typical NRC examination question C.02 a. 4; b. 3; c. 1; d. 2 REF: Reed Reactor Facility SAR p. 5-10, also NRC examination administered August 1992. | |||
C.03 b REF: Reed College Reactor Facility Description and Safety Analysis Report § 5.2.5, p. 5-7 3rd ¶ C.04 b REF: TRIGA MK I Reactor Mechanical Maint. & Operating Manual, § 5.11.10, p. 85 C.05 b REF: TRIGA MK I Reactor Mechanical Maint. & Operating Manual § 3.2 Reflector C.06 a, 2; b, 3; c, 1 REF: TRIGA, MK I Reactor Mechanical Maint. & Operating Manual § 5.11.8 C.07 a REF: Standard NRC question. | |||
C.08 b REF: Reed College Reactor Facility Description and Safety Analysis Report § 4.4, p. 4-5 C.09 a REF: | |||
8. | C.10 c REF: Reed Reactor Facility Training Manual Pg. 215 C.11 a REF: Reed instructor manual - Lectures - Lecture 3; Cooling, etc. Slide 19 of 23 C.12 a REF: Pg. 1 of 3; Safety Evaluation for Issuance of Amendment #7 to Amended Facility Operating License #R-112. Glasstone, S. and Sesonske, Nuclear Reactor Engineering, § 2.70 - 2.74, pp. 65 - 66. | ||
C.13 c REF: Reed Reactor Procedure Change Notice 03-02, modified per facility comment. | |||
12. | C.14 b REF: Reed Reactor Procedure Change Notice 03-01 C.15 d REF: RRF Description and SAR (pg 5-7) | ||
C.16 b REF: RRF introduction to Radiation and Rad. Inst. Manuals C.17 b REF: Reed, Instrumentation Maintenance Manual C.18 a REF: RRF SAR (pg 5-6 through 5-11) | |||
U. S. NUCLEAR REGULATORY COMMISSION NON-POWER INITIAL REACTOR LICENSE EXAMINATION FACILITY: Reed Reactor Facility REACTOR TYPE: TRIGA DATE ADMINISTERED: 2006/05/01 CANDIDATE: | |||
INSTRUCTIONS TO CANDIDATE: | |||
Answers are to be written on the answer sheet provided. Attach the answer sheets to the examination. | |||
A. | Points for each question are indicated in brackets for each question. A 70% in each section is required to pass the examination. Examinations will be picked up three (3) hours after the examination starts. | ||
% of Category % of Candidates Category Value Total Score Value Category 20.00 33.3 A. Reactor Theory, Thermodynamics and Facility Operating Characteristics 20.00 33.3 B. Normal and Emergency Operating Procedures and Radiological Controls 20.00 33.3 C. Facility and Radiation Monitoring Systems 60.00 % TOTALS FINAL GRADE All work done on this examination is my own. I have neither given nor received aid. | |||
Candidate's Signature | |||
NRC RULES AND GUIDELINES FOR LICENSE EXAMINATIONS During the administration of this examination the following rules apply: | |||
: 1. 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 neither received nor 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. | |||
: 4. Use black ink or dark pencil only to facilitate legible reproductions. | |||
: 5. Print your name in the blank provided in the upper right-hand corner of the examination cover sheet and each answer sheet. | |||
: 6. Mark your answers on the answer sheet provided. USE ONLY THE PAPER PROVIDED AND DO NOT WRITE ON THE BACK SIDE OF THE PAGE. | |||
: 7. The point value for each question is indicated in [brackets] after the question. | |||
: 8. If the intent of a question is unclear, ask questions of the examiner only. | |||
: 9. When turning in your examination, assemble the completed examination with examination questions, examination aids and answer sheets. In addition turn in all scrap paper. | |||
: 10. Ensure all information you wish to have evaluated as part of your answer is on your answer sheet. | |||
Scrap paper will be disposed of immediately following the examination. | |||
: 11. To pass the examination you must achieve a grade of 70 percent or greater in each category. | |||
: 12. There is a time limit of three (3) hours for completion of the examination. | |||
: 13. When you have completed and turned in you examination, leave the examination area. If you are observed in this area while the examination is still in progress, your license may be denied or revoked. | |||
Section A L Theory, Thermo, and Facility Characteristics Page 22 A.1 a b c d ___ A.10 a b c d ___ | |||
A.2 a b c d ___ A.11 a b c d ___ | |||
A.3 a b c d ___ A.12 a b c d ___ | |||
A.4 a b c d ___ A.13 a b c d ___ | |||
a b c | A.5 a b c d ___ A.14a fertile fissile ___ | ||
b | A.6 a b c d ___ A.14b fertile fissile ___ | ||
A.7 a b c d ___ A.14c fertile fissile ___ | |||
A.8a n p ___ A.14d fertile fissile ___ | |||
A.8b n p ___ A.15 a b c d ___ | |||
A.8c n p ___ A.16 a b c d ___ | |||
a | A.8d n p ___ A.17 a b c d ___ | ||
b. | A.9 a b c d p ___ A.18 a b c d ___ | ||
c | |||
Section B Normal/Emerg. Procedures & Rad Con Page 23 B.1 a b c d ___ B.11a 1 2 3 4 5 6 ___ | |||
B.2 a b c d ___ B.11b 1 2 3 4 5 6 ___ | |||
c | B.3a 1 2 3 4 ___ B.11c 1 2 3 4 5 6 ___ | ||
Section C:Facility and Radiation Monitoring | B.3b 1 2 3 4 ___ B.11d 1 2 3 4 5 6 ___ | ||
: | B.3c 1 2 3 4 ___ B.11e 1 2 3 4 5 6 ___ | ||
B.3d 1 2 3 4 ___ B.12 a b c d ___ | |||
B.4 a b c d ___ B.13 a b c d ___ | |||
B.5 a b c d ___ B.14 a b c d ___ | |||
B.6 a b c d ___ B.15 a b c d ___ | |||
B.7 a b c d ___ B.16 a b c d ___ | |||
B.8 a b c d ___ B.17 a b c d ___ | |||
B.9 a b c d ___ B.18 a b c d ___ | |||
B.10 a b c d ___ | |||
Section C Facility and Radiation Monitoring Systems Page 24 C.01 a b c d ___ C.08 a b c d ___ | |||
C.02a 1 2 3 4 ___ C.09 a b c d ___ | |||
C.02b 1 2 3 4 ___ C.10 a b c d ___ | |||
C.02c 1 2 3 4 ___ C.11 a b c d ___ | |||
C.02d 1 2 3 4 ___ C.12 a b c d ___ | |||
C.03 a b c d ___ C.13 a b c d ___ | |||
C.04 a b c d ___ C.14 a b c d ___ | |||
C.05 a b c d ___ C.15 a b c d ___ | |||
C.06a 1 2 3 ___ C.16 a b c d ___ | |||
C.06b 1 2 3 ___ C.17 a b c d ___ | |||
C.06c 1 2 3 ___ C.18 a b c d ___ | |||
C.07 a b c d ___ | |||
a b | |||
c d | |||
FIGURE A.13 | |||
OPERATOR LICENSING RETAKE EXAMINATION With Answer Key REED COLLEGE March 29, 2006 ENCLOSURE 4 | |||
Section C: Facility and Radiation Monitoring Systems Page 2 QUESTION C.1 [1.0 point] | |||
The PULL ROD is associated with the | |||
: a. Rod UP limit switch. | |||
: b. Rod DOWN limit switch. | |||
: c. Motor UP limit switch. | |||
: d. Motor DOWN limit switch. | |||
QUESTION C.2 [1.0 point] | |||
The purpose of the HEPA filter in the ventilation system is to reduce | |||
: a. routine Ar41 emissions from the reactor bay. | |||
: b. fission gas (Xe & Kr) emissions from the reactor bay during a fuel element failure. | |||
: c. fission gas daughter release (Cs and Rb) during a fuel element failure. | |||
: d. routine N16 emissions from the reactor bay. | |||
QUESTION C.3 [1.0 point] | |||
The rabbit system uses air to send samples into and out of the reactor core. Which ONE of the following is the largest radiological problem associated with using air? | |||
: a. 6C14 | |||
: b. 7N16 | |||
: c. 8O18 | |||
: d. 18Ar41 QUESTION C.4 [2 points, 1/2 each] | |||
The Multi-Trend is out of commission. Identify whether each of the parameters must be read locally (LOCAL), or may still be read in the control room (CR). | |||
: a. Rod Position Indication | |||
: b. Primary Conductivity | |||
: c. Gaseous Stack Monitor | |||
: d. Percent Power | |||
Section C: Facility and Radiation Monitoring Systems Page 3 QUESTION C.5 [1.0 point] | |||
Primary makeup water is added to the pool from city water through a hose | |||
: a. directly into the pool. | |||
: b. into the suction of the primary pump. | |||
: c. into the discharge of the primary pump. | |||
: d. upstream of the demineralizers. | |||
QUESTION C.6 [1.0 point] | |||
Which ONE of the following is the main function performed by the DISCRIMINATOR circuit in the startup channel? | |||
: a. To generate a current signal equal and of opposite polarity as the signal due to gammas generated within the Log-N Channel Detector. | |||
: b. To filter out small pulses due to gamma interactions, passing only pulses due to neutron events within the Log-N Channel Detector. | |||
: c. To convert the linear output of the Log-N Channel Detector to a logarithmic signal for metering purposes. | |||
: d. To convert the logarithmic output of the metering circuit to a t (differential time) output for period metering purposes QUESTION C.7 [1.0 point] | |||
On the rear wall (next to the window looking into the reactor bay) are two pushbuttons. Which ONE of the following correctly describes the action of these buttons. | |||
: a. Turn on and off the Primary and Secondary coolant Pumps. | |||
: b. Turn off (only) the primary and secondary coolant pumps. | |||
: c. Place the ventilation system into isolation mode and sound the evacuation alarm. | |||
: d. Reset the ventilation system and reset the evacuation alarm. | |||
Section C: Facility and Radiation Monitoring Systems Page 4 QUESTION C.8 [1.0 point] | |||
A wire supplying current to a control rod electromagnet was inadvertently damaged but not noticed. | |||
When the operator attempts to raise the rod out of the core, the "MOTOR IN" light will: | |||
: a. go out, but the position indication will not function normally. | |||
: b. go out, and the position indication will function normally. | |||
: c. stay lit, but the position indication will not function normally. | |||
: d. stay lit, and the position indication will function normally. | |||
QUESTION C.9 [1.0 point] | |||
The neutron absorber in Reed's reactor control rods is: | |||
: a. Aluminum oxide | |||
: b. Zirconium hydride | |||
: c. Graphite powder | : c. Graphite powder | ||
: d. Boron | : d. Boron carbide QUESTION C.10 [1.0 point] | ||
Which ONE of the following radiation monitors is routinely used to monitor Ar41 release to the environment? | |||
: a. APM | |||
: b. CAM | |||
: c. GSM | |||
: d. RAM QUESTION C.11 [1.0 point] | |||
Which ONE of the following parameters is NOT measured in the Primary Cooling/Purification System Loops? | |||
: a. Temperature | |||
: b. Flow Rate | |||
: c. Conductivity | |||
: d. pH | |||
Section C: Facility and Radiation Monitoring Systems Page 5 QUESTION C.12 [1.0 point] | |||
Which ONE of the following radiation monitoring systems will NOT cause a ventilation confinement actuation? | |||
: a. Particulate stack monitor | |||
: b. RAM | : b. RAM | ||
: c. GSM | : c. GSM | ||
: d. | : d. CAM QUESTION C.13 [1.0 point] | ||
Which ONE of the following statements correctly describes the purpose of the potentiometer in the control rod drive assembly. | |||
: a. Provides rod position indication when the electromagnet engages the connecting rod armature. | |||
: b. Provides a variable voltage to the rod drive motor for regulating control rod speed. | : b. Provides a variable voltage to the rod drive motor for regulating control rod speed. | ||
: c. Provides potential voltage as required to reset the electromagnet current. | : c. Provides potential voltage as required to reset the electromagnet current. | ||
: d. Provides the potential voltage to energize | : d. Provides the potential voltage to energize the electromagnet. | ||
Section C:Facility and Radiation Monitoring | QUESTION C.14 [1.0 point] | ||
Which ONE of the following statements describes the drive speeds of the Shim rod, Regulating rod and Safety rod? | |||
: a. The Shim rod drives at 24 inches per minute, the Regulating and Safety rods drive at 19 inches per minute. | |||
: b. The Shim and Regulating rods drive at 24 inches per minute, the Safety rod drives at 19 inches per minute. | |||
: c. The Safety rod drives at 24 inches per minute, the Regulating and Shim rods drive at 19 inches per minute. | |||
: d. The Regulating rod drives at 24 inches per minute, the Safety and Shim rods drive at 19 inches per minute. | |||
Section C: Facility and Radiation Monitoring Systems Page 6 QUESTION C.15 [1.0 point] | |||
The rotary specimen rack contains 40 tubular aluminum containers. Of these 40, 1 tube has a hole in the bottom. Which one of the following describes the reason for this hole. | |||
: a. To equalize pressure between the rack and tubes. | |||
: b. To detect moisture in the bottom of the rack. | : b. To detect moisture in the bottom of the rack. | ||
: c. To allow moisture buildup in the tubes to drain away. | : c. To allow moisture buildup in the tubes to drain away. | ||
: d. To allow dry air flow to flow through the rack bottom. | : d. To allow dry air flow to flow through the rack bottom. | ||
c.Reduce radiation due to suspended solids. | QUESTION C.16 [1.0 point] | ||
d.Reduce corrosion due to dissolved ions. | Reactor Level has decreased by 8 inches over the last 8 hours. Which ONE of the following is the approximate leak rate? | ||
: a. 0.125 gallons per MINUTE | |||
: b. 1.25 gallons per MINUTE | |||
: c. 12.5 gallons per HOUR | |||
: d. 125 gallons per HOUR QUESTION C.17 [1.0 point] | |||
Which ONE of the following is NOT a design function of the purification system? | |||
: a. Reduce radiation level due to dissolved ions. | |||
: b. Reduce radiation due to gases in solution. | |||
: c. Reduce radiation due to suspended solids. | |||
: d. Reduce corrosion due to dissolved ions. | |||
QUESTION C.18 [1.0 point] | |||
One of the air sampling pumps in the loft fails. Which ONE of the following statements could be true. | |||
: a. The Air Particulate Monitor (APM) ONLY is out of commission. | : a. The Air Particulate Monitor (APM) ONLY is out of commission. | ||
: b. the Continuous Air Monitor (CAM) ONLY is out of commission. | : b. the Continuous Air Monitor (CAM) ONLY is out of commission. | ||
: c. the Gaseous Stack Monitor (GSM) ONLY is out of commission. | : c. the Gaseous Stack Monitor (GSM) ONLY is out of commission. | ||
: d. the APM and the CAM are BOTH out of commission. | : d. the APM and the CAM are BOTH out of commission. | ||
U. S. NUCLEAR REGULATORY | Section C: Facility and Radiation Monitoring Systems Page 7 QUESTION C.19 [1.0 point] | ||
Which ONE of the following is added weekly to the secondary cooling loop? | |||
: a. Algaecide to suppress biological growth in the cooling tower. | |||
: b. Chromate to minimize corrosion of the pipes. | |||
: c. Sodium-Chloride to increase the thermal conductivity of the water. | |||
: d. Ethyl-Glycol to prevent the water from freezing in cold temperatures | |||
Section C: Facility and Radiation Monitoring Systems Page 8 C.1 b REF: Reed Reactor Facility Training Manual § 11.4. | |||
C.2 c REF: Standard NRC question. The HEPA is NOT in service during routine evolutions therefore A and D are incorrect. A HEPA filter is NOT designed to filter gases, therefore B is incorrect. | |||
C.3 d REF: Standard NRC question also, C.4 a, CON; b, LOCAL; c, LOCAL; d, CON REF: Check with Facility. | |||
C.5 a REF: Standard NRC Question. | |||
C.6 a REF: Old question, should still be good for new Fission Chamber circuitry. | |||
C.7 b REF: Facility supplied JPEG: Primary_Secondary Buttons#2CC5D.JPG C.8 b REF: Rewrite of NRC Examination question administered July 1992. | |||
C.9 d REF: GA TRIGA Maintenance and Operating Manual C.10 c REF: Examination Bank § C, question 66, also SOP 5, § 5.7.3, p. 2 C.11 d REF: Reed College Reactor Facility Description and Safety Analysis Report § 5.2.6, last ¶, p. 5-7 C.12 b REF: Emergency Plan C.13 a REF: RRF SAR (pg 5-6 through 5-11) | |||
C.14 d REF: GA TRIGA Mech. Maint. & Operating Manual C.15 b REF: Reed, Maintenance and Operating Manual, page 30. | |||
C.16 b REF: RRF Mech. Maint. & Op. Manual, p. 81 8 in/8 hr 6 1 in/hr x 75 gal/in 6 75 gal/hr 75 gal/hr x 1 hr/60 min = 1.25 gal/min C.17 b REF: Reed Reactor TRIGA Mark I Reactor Mechanical Maintenance & Operating Manual § 5.1 pg. 71. | |||
Section C: Facility and Radiation Monitoring Systems Page 9 C.18 b REF: Reed Operator Training 2003 Lecture 06 Detectors & Radiation Monitors Slide # 36. | |||
C.19 a REF: Reed Reactor Training Manual, p. 239. | |||
U. S. NUCLEAR REGULATORY COMMISSION NON-POWER INITIAL REACTOR LICENSE EXAMINATION FACILITY: Reed Reactor Facility REACTOR TYPE: TRIGA DATE ADMINISTERED: 2006/03/____ | |||
CANDIDATE: | |||
INSTRUCTIONS TO CANDIDATE: | |||
Answers are to be written on the answer sheet provided. Points for each question are indicated in brackets for each question. A 70% is required to pass the examination. The Examination will be picked up one (1) hour after the examination starts. | |||
% of Category % of Candidates Category Value Total Score Value Category 20.00 33.3 C. Facility and Radiation Monitoring Systems 20.00 % TOTALS FINAL GRADE All work done on this examination is my own. I have neither given nor received aid. | |||
Candidate's Signature | |||
NRC RULES AND GUIDELINES FOR LICENSE EXAMINATIONS During the administration of this examination the following rules apply: | |||
: 1. 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 neither received nor 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. | |||
: 4. Use black ink or dark pencil only to facilitate legible reproductions. | |||
: 5. Print your name in the blank provided in the upper right-hand corner of the examination cover sheet and each answer sheet. | |||
: 6. Mark your answers on the answer sheet provided. USE ONLY THE PAPER PROVIDED AND DO NOT WRITE ON THE BACK SIDE OF THE PAGE. | |||
: 7. The point value for each question is indicated in [brackets] after the question. | |||
: 8. If the intent of a question is unclear, ask questions of the examiner only. | |||
: 9. When turning in your examination, assemble the completed examination with examination questions, examination aids and answer sheets. In addition turn in all scrap paper. | |||
: 10. Ensure all information you wish to have evaluated as part of your answer is on your answer sheet. | |||
Scrap paper will be disposed of immediately following the examination. | |||
: 11. To pass the examination you must achieve a grade of 70 percent or greater. | |||
: 12. There is a time limit of one (1) hour for completion of the examination. | |||
: 13. When you have completed and turned in you examination, leave the examination area. If you are observed in this area while the examination is still in progress, your license may be denied or revoked. | |||
Section C Facility and Radiation Monitoring Systems Page 12 C.01 a b c d ___ C.09 a b c d ___ | |||
C.02 a b c d ___ C.10 a b c d ___ | |||
C.03 a b c d ___ C.11 a b c d ___ | |||
C.04a LOCAL CR ___ C.12 a b c d ___ | |||
C.04b LOCAL CR ___ C.13 a b c d ___ | |||
C.04c LOCAL CR ___ C.14 a b c d ___ | |||
C.04d LOCAL CR ___ C.15 a b c d ___ | |||
C.05 a b c d ___ C.16 a b c d ___ | |||
C.06 a b c d ___ C.17 a b c d ___ | |||
C.07 a b c d ___ C.18 a b c d ___ | |||
C.08 a b c d ___ C.19 a b c d ___}} |
Latest revision as of 03:15, 14 March 2020
ML061780620 | |
Person / Time | |
---|---|
Site: | Reed College |
Issue date: | 07/12/2006 |
From: | Johnny Eads NRC/NRR/ADRA/DPR/PRTB |
To: | Frantz S Reed College |
Doyle P, NRC/NRR/DPR/PRT, 415-1058 | |
Shared Package | |
ML060260425 | List: |
References | |
50-288/04-001 | |
Download: ML061780620 (41) | |
Text
July 12, 2006 Mr. Steven G. Frantz, Director Reed Reactor Facility 3203 SE Woodstock Blvd.
Portland, OR 97202
SUBJECT:
INITIAL AND RETAKE EXAMINATION REPORT NO. 50-288/OL-06-01, REED COLLEGE
Dear Mr. Frantz:
During the week of May 1, 2006, the NRC administered an initial operator licensing examination at your Reed College Reactor facility. On March 29, 2006, you administered an NRC prepared retake operator licensing examination at your Reed College Reactor facility. The examinations were 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 the enclosures will be available electronically for public inspection in the NRC Public Document Room 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 contact Mr. Paul Doyle Jr. at (301) 415-1058 or via internet e-mail pvd@nrc.gov.
Sincerely,
/RA/
Johnny Eads, Chief Research and Test Reactors Branch B Division of Policy and Rulemaking Office of Nuclear Reactor Regulation Docket No. 50-288
Enclosures:
- 1. Initial Examination Report No. 50-288/OL-06-01
- 2. Initial examination and answer key
- 3. Comment on Retake Written Examination
- 4. Retake examination and answer key cc w/encls:
Please see next page
July 12, 2006 Mr. Steven G. Frantz, Director Reed Reactor Facility 3203 SE Woodstock Blvd.
Portland, OR 97202
SUBJECT:
INITIAL AND RETAKE EXAMINATION REPORT NO. 50-288/OL-06-01, REED COLLEGE
Dear Mr. Frantz:
During the week of May 1, 2006, the NRC administered an initial operator licensing examination at your Reed College Reactor facility. On March 29, 2006, you administered an NRC prepared retake operator licensing examination at your Reed College Reactor facility. The examinations were 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 the enclosures will be available electronically for public inspection in the NRC Public Document Room 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 contact Mr. Paul Doyle Jr. at (301) 415-1058 or via internet e-mail pvd@nrc.gov.
Sincerely,
/RA/
Johnny Eads, Chief Research and Test Reactors Branch B Division of Policy and Rulemaking Office of Nuclear Reactor Regulation Docket No. 50-288
Enclosures:
- 1. Initial Examination Report No. 50-288/OL-06-01
- 2. Initial examination and answer key
- 3. Comment on Retake Written Examination
- 4. Retake examination and answer key cc w/encls:
Please see next page DISTRIBUTION w/ encls.:
PUBLIC PRTB r/f JEads DHughes Facility File (EBarnhill) O-6 F-2 ADAMS ACCESSION #: ML061780620 TEMPLATE #:NRR-074 OFFICE PRTB:CE IOLB:LA PRTB:SC NAME Pdoyle:tls* Ebarnhill* JEads:tls*
DATE 6/28/2006 7/11/2006 7/12/2006 OFFICIAL RECORD COPY
Reed College Docket No. 50-288 cc:
Mayor of the City of Portland 1220 Southwest 5th Avenue Portland, OR 97204 Reed College ATTN: Dr. Peter Steinberger Dean of Faculty 3203 S.E. Woodstock Boulevard Portland, OR 97202-8199 Reed College ATTN: Dr. Colin Diver, President 3203 S.E. Woodstock Boulevard Portland, OR 97202-8199 Oregon Department of Energy ATTN: David Stewart-Smith, Director Division of Radiation Control 625 Marion Street, N.E.
Salem, OR 97310 Test, Research, and Training Reactor Newsletter University of Florida 202 Nuclear Sciences Center Gainesville, FL 32611
U. S. NUCLEAR REGULATORY COMMISSION OPERATOR LICENSING INITIAL EXAMINATION REPORT REPORT NO.: 50-288/OL-04-01 FACILITY DOCKET NO.: 50-288 FACILITY LICENSE NO.: R-112 FACILITY: Reed College EXAMINATION DATES: May 1-10, 2006 SUBMITTED BY: ______/RA/_____________________________ 6/28/2006 Paul V. Doyle Jr., Chief Examiner Date
SUMMARY
During the first two weeks of May the NRC administered Examinations to 26 Operator Licensing Candidates. All 26 candidates passed their respective examinations. During the last week of March, 2006 the NRC administered a Retake written examination to one Operator Licensing Candidate. This candidate also passed the administered examination. The NRC would like to recognize the quality of the candidates examined during the weeks of May 1 and May 8, 2006.
The overall average for the RO candidates taking the written examination was over 90%, and all three examiners noted that all of the candidates performed well on their operating tests.
REPORT DETAILS
- 1. Examiners: Paul V. Doyle Jr. (CE), Patrick Isaac, Phillip Young
- 2. Results:
RO PASS/FAIL SRO PASS/FAIL TOTAL PASS/FAIL Written 16/0 0/0 15/0 Operating Tests 15/0 11/0 26/0 Overall 16/0 11/0 27/0
- 3. Exit Meeting:
Paul V. Doyle Jr., NRC, Examiner Phillip T. Young, NRC, Examiner Stephen Frantz, Reed College, Facility Director Rachel Barnett, Reed College, Deputy Facility Director The NRC examiners thanked the facility for their support in the administration of examinations. The examiners complimented the facility on the quality of the training given to the candidates taking the examination.
ENCLOSURE 1
OPERATOR LICENSING EXAMINATION With Answer Key REED COLLEGE May 01, 2006 Enclosure 2
Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 2 QUESTION A.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 level QUESTION A.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.
QUESTION A.3 [1.0 point]
Shown to the right is a trace of reactor PERIOD as a function of time. Between points A and B reactor POWER is
- a. continually increasing.
- b. continually decreasing.
- c. increasing, the decreasing.
- d. constant.
QUESTION A.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 Characteristics Page 3 QUESTION A.5 [1.0 point]
The term reactivity may be described as
- a. a measure of the cores fuel depletion.
- b. negative when Keff is greater than 1.0.
- c. a measure of the cores deviation from criticality.
- d. equal to $.50 when the reactor is prompt critical.
QUESTION A.6 [1.0 point]
The table provided lists data taken during a core loading. Estimate the number of fuel elements needed to go critical.
Count Rate Number for Fuel Elements
- a. 9 842 2
- b. 11 936 4
- c. 13 1123 7
- d. 15 1684 12 2807 16 QUESTION A.7 [1.0 point]
During a startup you increase reactor power from 100 watts to 195 watts in a minute. Which ONE of the following is reactor period?
- a. 30 seconds.
- b. 60 seconds.
- c. 90 seconds.
- d. 120 seconds.
QUESTION A.8 [2.0 points, 1/2 each]
Identify each of the listed radioactive decays as either alpha (), beta (), gamma () or neutron (n), or proton (p).
Proton added as a choice during administration of the examination.
- a. 35 Br87 º 33As83
- b. 35 Br87 º 35Br86
- c. 35 Br87 º 34Se86
- d. 35 Br87 º 36Kr87
Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 4 QUESTION A.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.
QUESTION A.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?
TIME ACTIVITY
- a. 11 minutes 0 minutes 2400 cps
- b. 22 minutes 10 minutes 1757 cps
- c. 44 minutes 20 minutes 1286 cps 30 minutes 941 cps
- d. 51 minutes 60 minutes 369 cps QUESTION A.11 [1.0 point]
Which ONE of the following describes the characteristics of good moderators and reflectors?
- a. High scattering cross-section and low absorption cross-section.
- b. Low scattering cross-section and high absorption cross-section.
- c. Low scattering cross-section and low absorption cross-section.
- d. High scattering cross-section and high absorption cross-section.
QUESTION A.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)
Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 5 QUESTION A.13 [1.0 point]
Using the graphs provided in the handout. Choose the ONE which most closely depicts the reactivity versus time plot for xenon for the following evolution. Bring the reactor to 100% power (clean core) and operate for four days (96 hours0.00111 days <br />0.0267 hours <br />1.587302e-4 weeks <br />3.6528e-5 months <br />). Shutdown the reactor for 15 hours1.736111e-4 days <br />0.00417 hours <br />2.480159e-5 weeks <br />5.7075e-6 months <br />. Bring the reactor to 50% power for a day (24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />).
- a. A
- b. B
- c. C
- d. D QUESTION A.14 [2.0 points, 1/2 each]
A fissile material is one which will fission upon the absorption of a THERMAL neutron. A fertile material is noe which upon absorption of a neutron becomes a fissile material. Identify each of the listed isotopes as either fissile or fertile.
- a. Th232
- b. U233
- c. U235
- d. Pu239 QUESTION A.15 [1.0 point]
A reactor is xenon free, with no experiments in the core. Given the following reactivity worths, calculate the actual (NOT Technical Specification Limit) Shutdown Margin.
worth worth
%K/K %K/K Shim-Safety Blade #1: 2.41 Shim-Safety Blade #2: 2.32 Shim-Safety Blade #3: 2.49 Shim-Safety Blade #4: 2.60 Regulating rod: 0.084 Excess Reactivity: 3.42
- a. 9.90%
- b. 6.48%
c 6.40%
- d. 3.80%
Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 6 QUESTION A.16 [1.0 point]
The reactor is operating at 100 KW. The reactor operator withdraws the Regulating Rod allowing 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.
QUESTION A.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 the highest probability of occurring? A neutron
- a. scattering reaction with aluminum
- b. scattering reaction with copper
- c. absorption in aluminum
- d. absorption in copper QUESTION A.18 [1.0 point]
When performing rod calibrations, many facilities pull the rod out a given increment, then measure the time for reactor 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 sec
Section B Normal, Emergency and Radiological Control Procedures Page 7 QUESTION B.1 [1.0 point]
The four Emergency Classifications used by the NRC are listed alphabetically below. Which ONE of the classifications is the ONLY one applicable to the Reed Reactor Facility?
- a. Alert
- b. General Emergency
- c. Notification of Unusual Event
- d. Site Area Emergency QUESTION B.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 mrem QUESTION B.3 [2.0 points, 1/2 each]
Match type of radiation (1 thru 4) with the proper penetrating power (a thru d)
- a. Gamma 1. Stopped by thin sheet of paper
- b. Beta 2. Stopped by thin sheet of metal
- c. Alpha 3. Best shielded by light material
- d. Neutron 4. Best shielded by dense material QUESTION B.4 [1.0 point]
10CFR50.54(x) states: A licensee may take reasonable action that departs from a license condition 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 provide adequate or equivalent protection is immediately apparent. 10CFR50.54(y) states that the minimum level of management which may authorize this action is
- a. any Reactor Operator licensed at the facility.
- b. any Senior Reactor Operator licensed at the facility.
- c. Facility Manager (or equivalent at facility).
- d. NRC Project Manager
Section B Normal, Emergency and Radiological Control Procedures Page 8 QUESTION B.5 [1.0 point]
According to the Emergency plan, the Site Boundary
- a. is the area enclosed within the reactor room.
- b. is the area bounded by the reactor room, pump room, control room and the hallway adjacent to reactor room.
- c. is the geographical area beyond the site boundary, where the Reactor Director has direct authority over all activities.
- d. is bounded by a 250 foot radius from the reactor.
QUESTION B.6 [1.0 point]
Per Technical Specifications regarding the Area Radiation Monitor: During short periods of repair to this monitor (up to _______), reactor operations may continue whil a detector capable of displaying gamma dose rate is utilized as a temporary substitute.
- a. one day
- b. two days
- c. one week
- d. two weeks QUESTION B.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.
QUESTION B.8 [1.0 point]
According to Technical Specification J.4.c experiments having reactivity worths greater than _____ shall be securely located or fastened to prevent inadvertent movement during reactor operations.
- a. $.25
- b. $.50
- c. $.75
- d. $1.0
Section B Normal, Emergency and Radiological Control Procedures Page 9 QUESTION B.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. 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 QUESTION B.10 [1.0 point]
When performing Wipe tests per SOP 23, no action is required unless any of the swipes reads greater than (Note: this IS the limit for CONTAMINATION, NOT the good policy limit for cleanup.)
- a. 10 dpm/100 cm2
- b. 50 dpm/100 cm2
- c. 100 dpm/100 cm2
- d. 1000 dpm/100 cm2 QUESTION B.11 [2.0 points, 2/5 each]
Match the tag on the Lazy Susan status board in column A with the correct sample description from column B.
Note: This question was modified during the administration of the examination, to conform with a newly modified facility operating procedure.
COLUMN A COLUMN B
- b. White with a "2". 2. Position not to be used without Director's permission.
- c. Yellow 3. Position not to be used at all.
- d. Orange 4. Shutdown Irradiation
- e. Blue 5. Double loaded plastic TRIGA tube
- 6. Single loaded plastic TRIGA tube
Section B Normal, Emergency and Radiological Control Procedures Page 10 QUESTION B.12 [1.0 point]
Two Senior Reactor Operators (SROs) and one unlicensed trainee are the only people on-site during reactor operations. One SRO becomes ill and leaves the site. What action must be taken by the remaining SRO.
- a. The reactor must be shutdown.
- b. Operations may continue unrestricted.
- c. Operations may continue ONLY if the remaining SRO remains in the control room.
- d. Operations may continue ONLY if the remaining SRO remains within the Reactor Laboratory area.
QUESTION B.13 [1.0 point]
Which ONE of the following is the absolute MAXIMUM STEADY-STATE power level allowed by TECHNICAL SPECIFICATIONS?
- a. 240 Kilowatts
- b. 250 Kilowatts
- c. 287.5 Kilowatts
- d. 300 Kilowatts QUESTION B.14 [1.0 point]
Which ONE of the following is NOT a part of the Technical Specifications definition of a Shutdown Reactor?
- a. The console key is in the OFF position and the key is removed from the console and under the control of the licensed operator.
- b. No work is in progress involving fuel handling or maintenance of the control rod mechanisms.
- c. The minimum shutdown margin with the most reactive or the operable control elements withdrawn shall be
$1.10
- d. Sufficient control rods are inserted so as to assure the reactor is subcritical by a margin greater than 0.7 K/K, cold Xenon free.
QUESTION B.15 [1.0 point]
Which ONE of the following evolutions does NOT require the presence of a Senior Reactor Operator in the facility?
- a. Performing a Same Day Startup Checklist.
- b. Performing a Daily Shutdown Checklist.
- c. Raising Power from 5 watts to 225 Kilowatts.
- d. Performing a Fuel element Inspection.
Section B Normal, Emergency and Radiological Control Procedures Page 11 QUESTION B.16 [1.0 point]
Which ONE of the following is a minimum requirement for visitors being escorted in the Reactor Bay?
- a. 1 TLD per 10 members of the group.
- b. 1 neutron-gamma sensitive pocket dosimeter for the tour guide.
- c. 2 TLD badges for every 10 members of the group.
- d. 1 pocket dosimeter for each member of the group.
QUESTION B.17 [1.0 point]
Technical specifications require the reactor to be shutdown if reactor pool limit exceeds 120EF. However, the pool temperature meter reads out in EC. Which of the temperatures in EC listed below corresponds to 120EF?
- a. ~49EC
- b. ~99EC
- c. ~158EC
- d. ~248EC QUESTION B.18 [1.0 point]
The condition of Notification of Unusual Event encompasses all of the following except:
- a. There is time available to take precautionary corrective steps.
- b. Release is expected of radioactive material, which will require off-site response.
- c. One or more elements of the emergency organization are likely to be notified.
- d. Can be initiated by manmade events or natural phenomena.
Section C Facility and Radiation Monitoring Systems Page 12 QUESTION C.1 [1.0 point]
During operations at high (150 Kwatts) power, you lose compensating voltage for a compensated ion chamber.
Which ONE of the following would be the resulting change in power level detected?
- a. Small decrease in indicated power.
- b. Small increase in indicated power.
- c. Large decrease in indicated power.
- d. Large increase in indicated power.
QUESTION C.2 [2.0 point, 0.5 each]
Match the control rod drive mechanism part from column "A" with the correct function in column "B".
COLUMN A COLUMN B
- a. Piston 1. Provide rod bottom indication.
- b. Potentiometer 2. Provide rod full withdrawn indication.
- c. Pull Rod 3. Provide rod position indication when the electromagnet engages the armature.
- d. Push Rod 4. Works with dash pot to slow rod near bottom of its travel.
QUESTION C.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. CO2
- d. N2 QUESTION C.4 [1.0 point]
A pipe flange downstream of the primary pump fails. What design feature prevents the pump from draining the pool?
- a. Closure of an automatic valve sensitive to pool level.
- b. Siphon breaks (holes) located in the pump suction piping.
- c. Level in pool drops below minimum required to supply suction pressure to the pump.
- d. Level in pool drops below the bottom of the suction piping.
Section C Facility and Radiation Monitoring Systems Page 13 QUESTION C.5 [1.0 point]
The reflector surrounding the reactor uses which ONE of the following materials to reflect neutrons?
- a. Beryllium
- b. Graphite
- c. Polyethylene
- d. Zirconium QUESTION C.6 [2.0 points b each]
Identify which component of the purification system listed in column B is PRIMARILY designed to remove the impurities listed in column A.
- a. dissolved solids 1. Filter
- b. mosquito larvae 2. Ion Exchanger
- c. suspended solids 3. Skimmer QUESTION C.7 [1.0 point]
An experimenter drops and breaks open a sample vial in a laboratory room. He immediately runs out of the room 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.
QUESTION C.8 [1.0 point]
The ventilation system is designed so that: (Assume normal conditions, all equipment operating.)
- a. the reactor room is at a higher pressure than the atmosphere.
- b. the reactor room is at a lower pressure than the adjacent laboratory.
- c. the reactor building is equal to atmospheric pressure.
- d. the reactor room and the adjacent laboratory are always at the same pressure.
Section C Facility and Radiation Monitoring Systems Page 14 QUESTION C.9 [10 point]
Which ONE of the following is added weekly to the secondary cooling loop?
- a. Algaecide to suppress biological growth in the cooling tower.
- b. Chromate to minimize corrosion of the pipes.
- c. Sodium-Chloride to increase the thermal conductivity of the water.
- d. Ethyl-Glycol to prevents the water from freezing in cold temperatures.
QUESTION C.10 [1.0 point]
Which ONE of the following neutron flux monitoring channels provides a signal indicating the period of the reactor?
- a. Linear Channel
- b. Count Rate Channel
- c. Log Channel
- d. Percent Power Channel QUESTION C.11 [1.0 point]
Where in the ventilation system is the gaseous stack monitor sampling loop located? Fan A is the reactor loop supply unit and Fan B is the reactor loop exhaust unit.
A. After the outlet of Fan B.
B. Before the inlet to Fan A.
C. After the outlet of Fan A.
D. Before the inlet to the Fan B.
QUESTION C.12 [1.0 point]
What is one of the purposes for the neutron count interlock?
A. To prevent the reactor from being manipulated to a critical position before the count rate channel is verified to be operable.
B. To provide a reference point where all instruments undergo a check before the reactor is brought to a critical position.
C. To allow for all experiments to be installed before the reactor is critical.
D. To ensure that a steady rate of startup to the critical position is achieved.
Section C Facility and Radiation Monitoring Systems Page 15 QUESTION C.13 [1.0 point]
Which ONE of the following describes the automatic actions for a high bulk water temperature alarm?
A. Display turns orange and buzzer turns on.
B. Old rotating red APM light turns on and buzzer turns on.
C. Display turns red and rotating red light on control room ceiling turns on.
D. Buzzer turns on and display starts blinking.
QUESTION C.14 [1.0 point]
What type of detectors are used in the APM, GSM, and CAM radiation monitoring systems?
A. Geiger-Mueller B. Proportional counter C. Ionization chamber D. - Scintillation QUESTION C.15 [1.0 point]
Which ONE of the following statements correctly describes the pneumatic transfer system path and operating pressure? The pneumatic transfer system exhausts to the
- a. reactor room and maintains the transfer system at a positive pressure.
- b. building exhaust and maintains the transfer system at a positive pressure.
- c. reactor room and maintains the transfer system at a negative pressure.
- d. building exhaust and maintains the transfer system at a negative pressure QUESTION C.16 [2.0 points, 0.5 each]
Which of the following instruments is used to detect High range Beta-Gamma radiation during an emergency condition?
- a. Eberline Model E-140
- b. Model RO-2
- c. CD V - 700 model 6B
- d. CD V - 715 model 1B
Section C Facility and Radiation Monitoring Systems Page 16 QUESTION C.17 [1.0 point]
Which one of the following does not provide any protective interlocks or actions?
- a. Linear Power Channel.
- b. Log Power (Log-N Channel).
- c. Percent Power Channel.
- d. Count Rate Channel.
QUESTION C.18 [1.0 point]
Which ONE of the following statements correctly describes the purpose of the potentiometer in the control rod drive assembly.
- a. Provides rod position indication when the electromagnet engages the connecting rod armature.
- b. Provides a variable voltage to the rod drive motor for regulating control rod speed.
- c. Provides potential voltage as required for resetting the electromagnet current.
- d. Provides the potential voltage to relatch the connecting rod.
Section A: L Theory, Thermodynamics & Facility Operating Characteristics Page 17 A.01 a REF: G A.02 a REF: x A.03 a REF:
A.04 a REF:
A.05 c REF:
A.06 b REF: (See attached sketch, ~ 11 fuel elements)
A.07 c REF: P = P0 et/ > = t/ln(P/P0) = 60/ln (195/100) = 60/ln(1.95) = 89.84 . 90 sec.
A.08 a, ; b, n; c, p; d, A.09 c REF:
A.10 b REF:
A.11 a REF: R A.12 c REF: x A.13 c REF: x A.14 a, fertile; b, fissile; c, fissile; d, fissile REF: x A.15 d REF: Burn, R., Introduction to Nuclear Reactor Operations, © 1988, § 6.2.3 p. 6-4. SDM (cold/clean) = Total Rod worth - Kexcess = (2.41 + 2.32 + 2.49 + 2.60 + 0.084) - 3.42 = 6.484%
A.16 a REF:
A.17 a REF:
A.18 c REF: ln (2) = -time/ = time/(ln(2)) = 60.59 . 61 seconds
Section B Normal, Emergency and Radiological Control Procedures Page 18 B.01 c REF:
B.02 d REF:
B.03 a, 4; b, 2; c, 1; d, 3 REF:
B.04 b REF: 10CFR50.54(y).
B.05 d REF: Emergency Plan § 2.14 B.06 c REF: Technical Specifications G.1 B.07 a REF: 10 CFR 20.1003 Definititions B.08 d REF: Technical Specification J.4.c B.09 c DR1 DR2 DR1 2 2000 REF: = X22 = X X2 = x 12 = 400 ft 2 X = 20 ft X 2 2 X 12 DR2 5 B.10 d REFERENCE SOP 23 Health Physics Wipe Tests, § 23.7.1.6.
B.11 a, 6; b, 5; c, 1; d, 3; e, 4 REFERENCE SOP 52 Lazy Susan Irradiations § 52.7.1.3, p. 3 B.12 c REF: Administrative procedures § III.3.1(3)
B.13 c REF: Technical Specifications § A.2 Steady State Mode B.14 c REF: Technical Specifications § A Definitions B.15 c REF: SOP-40, Fuel Element Inspection; SOP-05, Daily Shutdown Checklist; SOP-04 Same Day Startup and SOP-03, Reactor Operations.
B.16 d REF: SOP-17 B.17 a REF: Reed Reactor Facility SOP 63, SOP 70 and Technical Specifications.
B.18 b REF: Reed Reactor Facility Emergency Plan §4.2
Section C Facility and Radiation Monitoring Systems Page 19 C.01 b REF: Typical NRC examination question C.02 a. 4; b. 3; c. 1; d. 2 REF: Reed Reactor Facility SAR p. 5-10, also NRC examination administered August 1992.
C.03 b REF: Reed College Reactor Facility Description and Safety Analysis Report § 5.2.5, p. 5-7 3rd ¶ C.04 b REF: TRIGA MK I Reactor Mechanical Maint. & Operating Manual, § 5.11.10, p. 85 C.05 b REF: TRIGA MK I Reactor Mechanical Maint. & Operating Manual § 3.2 Reflector C.06 a, 2; b, 3; c, 1 REF: TRIGA, MK I Reactor Mechanical Maint. & Operating Manual § 5.11.8 C.07 a REF: Standard NRC question.
C.08 b REF: Reed College Reactor Facility Description and Safety Analysis Report § 4.4, p. 4-5 C.09 a REF:
C.10 c REF: Reed Reactor Facility Training Manual Pg. 215 C.11 a REF: Reed instructor manual - Lectures - Lecture 3; Cooling, etc. Slide 19 of 23 C.12 a REF: Pg. 1 of 3; Safety Evaluation for Issuance of Amendment #7 to Amended Facility Operating License #R-112. Glasstone, S. and Sesonske, Nuclear Reactor Engineering, § 2.70 - 2.74, pp. 65 - 66.
C.13 c REF: Reed Reactor Procedure Change Notice 03-02, modified per facility comment.
C.14 b REF: Reed Reactor Procedure Change Notice 03-01 C.15 d REF: RRF Description and SAR (pg 5-7)
C.16 b REF: RRF introduction to Radiation and Rad. Inst. Manuals C.17 b REF: Reed, Instrumentation Maintenance Manual C.18 a REF: RRF SAR (pg 5-6 through 5-11)
U. S. NUCLEAR REGULATORY COMMISSION NON-POWER INITIAL REACTOR LICENSE EXAMINATION FACILITY: Reed Reactor Facility REACTOR TYPE: TRIGA DATE ADMINISTERED: 2006/05/01 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 brackets for each question. A 70% in each section is required to pass the examination. Examinations will be picked up three (3) hours after the examination starts.
% of Category % of Candidates Category Value Total Score Value Category 20.00 33.3 A. Reactor Theory, Thermodynamics and Facility Operating Characteristics 20.00 33.3 B. Normal and Emergency Operating Procedures and Radiological Controls 20.00 33.3 C. Facility and Radiation Monitoring Systems 60.00 % TOTALS FINAL GRADE All work done on this examination is my own. I have neither given nor received aid.
Candidate's Signature
NRC RULES AND GUIDELINES FOR LICENSE EXAMINATIONS During the administration of this examination the following rules apply:
- 1. 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 neither received nor 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.
- 4. Use black ink or dark pencil only to facilitate legible reproductions.
- 5. Print your name in the blank provided in the upper right-hand corner of the examination cover sheet and each answer sheet.
- 6. Mark your answers on the answer sheet provided. USE ONLY THE PAPER PROVIDED AND DO NOT WRITE ON THE BACK SIDE OF THE PAGE.
- 7. The point value for each question is indicated in [brackets] after the question.
- 8. If the intent of a question is unclear, ask questions of the examiner only.
- 9. When turning in your examination, assemble the completed examination with examination questions, examination aids and answer sheets. In addition turn in all scrap paper.
- 10. Ensure all information you wish to have evaluated as part of your answer is on your answer sheet.
Scrap paper will be disposed of immediately following the examination.
- 11. To pass the examination you must achieve a grade of 70 percent or greater in each category.
- 12. There is a time limit of three (3) hours for completion of the examination.
- 13. When you have completed and turned in you examination, leave the examination area. If you are observed in this area while the examination is still in progress, your license may be denied or revoked.
Section A L Theory, Thermo, and Facility Characteristics Page 22 A.1 a b c d ___ A.10 a b c d ___
A.2 a b c d ___ A.11 a b c d ___
A.3 a b c d ___ A.12 a b c d ___
A.4 a b c d ___ A.13 a b c d ___
A.5 a b c d ___ A.14a fertile fissile ___
A.6 a b c d ___ A.14b fertile fissile ___
A.7 a b c d ___ A.14c fertile fissile ___
A.8a n p ___ A.14d fertile fissile ___
A.8b n p ___ A.15 a b c d ___
A.8c n p ___ A.16 a b c d ___
A.8d n p ___ A.17 a b c d ___
A.9 a b c d p ___ A.18 a b c d ___
Section B Normal/Emerg. Procedures & Rad Con Page 23 B.1 a b c d ___ B.11a 1 2 3 4 5 6 ___
B.2 a b c d ___ B.11b 1 2 3 4 5 6 ___
B.3a 1 2 3 4 ___ B.11c 1 2 3 4 5 6 ___
B.3b 1 2 3 4 ___ B.11d 1 2 3 4 5 6 ___
B.3c 1 2 3 4 ___ B.11e 1 2 3 4 5 6 ___
B.3d 1 2 3 4 ___ B.12 a b c d ___
B.4 a b c d ___ B.13 a b c d ___
B.5 a b c d ___ B.14 a b c d ___
B.6 a b c d ___ B.15 a b c d ___
B.7 a b c d ___ B.16 a b c d ___
B.8 a b c d ___ B.17 a b c d ___
B.9 a b c d ___ B.18 a b c d ___
B.10 a b c d ___
Section C Facility and Radiation Monitoring Systems Page 24 C.01 a b c d ___ C.08 a b c d ___
C.02a 1 2 3 4 ___ C.09 a b c d ___
C.02b 1 2 3 4 ___ C.10 a b c d ___
C.02c 1 2 3 4 ___ C.11 a b c d ___
C.02d 1 2 3 4 ___ C.12 a b c d ___
C.03 a b c d ___ C.13 a b c d ___
C.04 a b c d ___ C.14 a b c d ___
C.05 a b c d ___ C.15 a b c d ___
C.06a 1 2 3 ___ C.16 a b c d ___
C.06b 1 2 3 ___ C.17 a b c d ___
C.06c 1 2 3 ___ C.18 a b c d ___
C.07 a b c d ___
a b
c d
FIGURE A.13
OPERATOR LICENSING RETAKE EXAMINATION With Answer Key REED COLLEGE March 29, 2006 ENCLOSURE 4
Section C: Facility and Radiation Monitoring Systems Page 2 QUESTION C.1 [1.0 point]
The PULL ROD is associated with the
- a. Rod UP limit switch.
- b. Rod DOWN limit switch.
- c. Motor UP limit switch.
- d. Motor DOWN limit switch.
QUESTION C.2 [1.0 point]
The purpose of the HEPA filter in the ventilation system is to reduce
- a. routine Ar41 emissions from the reactor bay.
- b. fission gas (Xe & Kr) emissions from the reactor bay during a fuel element failure.
- c. fission gas daughter release (Cs and Rb) during a fuel element failure.
- d. routine N16 emissions from the reactor bay.
QUESTION C.3 [1.0 point]
The rabbit system uses air to send samples into and out of the reactor core. Which ONE of the following is the largest radiological problem associated with using air?
- a. 6C14
- b. 7N16
- c. 8O18
- d. 18Ar41 QUESTION C.4 [2 points, 1/2 each]
The Multi-Trend is out of commission. Identify whether each of the parameters must be read locally (LOCAL), or may still be read in the control room (CR).
- a. Rod Position Indication
- b. Primary Conductivity
- c. Gaseous Stack Monitor
- d. Percent Power
Section C: Facility and Radiation Monitoring Systems Page 3 QUESTION C.5 [1.0 point]
Primary makeup water is added to the pool from city water through a hose
- a. directly into the pool.
- b. into the suction of the primary pump.
- c. into the discharge of the primary pump.
- d. upstream of the demineralizers.
QUESTION C.6 [1.0 point]
Which ONE of the following is the main function performed by the DISCRIMINATOR circuit in the startup channel?
- a. To generate a current signal equal and of opposite polarity as the signal due to gammas generated within the Log-N Channel Detector.
- b. To filter out small pulses due to gamma interactions, passing only pulses due to neutron events within the Log-N Channel Detector.
- c. To convert the linear output of the Log-N Channel Detector to a logarithmic signal for metering purposes.
- d. To convert the logarithmic output of the metering circuit to a t (differential time) output for period metering purposes QUESTION C.7 [1.0 point]
On the rear wall (next to the window looking into the reactor bay) are two pushbuttons. Which ONE of the following correctly describes the action of these buttons.
- a. Turn on and off the Primary and Secondary coolant Pumps.
- b. Turn off (only) the primary and secondary coolant pumps.
- c. Place the ventilation system into isolation mode and sound the evacuation alarm.
- d. Reset the ventilation system and reset the evacuation alarm.
Section C: Facility and Radiation Monitoring Systems Page 4 QUESTION C.8 [1.0 point]
A wire supplying current to a control rod electromagnet was inadvertently damaged but not noticed.
When the operator attempts to raise the rod out of the core, the "MOTOR IN" light will:
- a. go out, but the position indication will not function normally.
- b. go out, and the position indication will function normally.
- c. stay lit, but the position indication will not function normally.
- d. stay lit, and the position indication will function normally.
QUESTION C.9 [1.0 point]
The neutron absorber in Reed's reactor control rods is:
- a. Aluminum oxide
- b. Zirconium hydride
- c. Graphite powder
- d. Boron carbide QUESTION C.10 [1.0 point]
Which ONE of the following radiation monitors is routinely used to monitor Ar41 release to the environment?
- a. APM
- b. CAM
- c. GSM
- d. RAM QUESTION C.11 [1.0 point]
Which ONE of the following parameters is NOT measured in the Primary Cooling/Purification System Loops?
- a. Temperature
- b. Flow Rate
- c. Conductivity
- d. pH
Section C: Facility and Radiation Monitoring Systems Page 5 QUESTION C.12 [1.0 point]
Which ONE of the following radiation monitoring systems will NOT cause a ventilation confinement actuation?
- a. Particulate stack monitor
- b. RAM
- c. GSM
- d. CAM QUESTION C.13 [1.0 point]
Which ONE of the following statements correctly describes the purpose of the potentiometer in the control rod drive assembly.
- a. Provides rod position indication when the electromagnet engages the connecting rod armature.
- b. Provides a variable voltage to the rod drive motor for regulating control rod speed.
- c. Provides potential voltage as required to reset the electromagnet current.
- d. Provides the potential voltage to energize the electromagnet.
QUESTION C.14 [1.0 point]
Which ONE of the following statements describes the drive speeds of the Shim rod, Regulating rod and Safety rod?
- a. The Shim rod drives at 24 inches per minute, the Regulating and Safety rods drive at 19 inches per minute.
- b. The Shim and Regulating rods drive at 24 inches per minute, the Safety rod drives at 19 inches per minute.
- c. The Safety rod drives at 24 inches per minute, the Regulating and Shim rods drive at 19 inches per minute.
- d. The Regulating rod drives at 24 inches per minute, the Safety and Shim rods drive at 19 inches per minute.
Section C: Facility and Radiation Monitoring Systems Page 6 QUESTION C.15 [1.0 point]
The rotary specimen rack contains 40 tubular aluminum containers. Of these 40, 1 tube has a hole in the bottom. Which one of the following describes the reason for this hole.
- a. To equalize pressure between the rack and tubes.
- b. To detect moisture in the bottom of the rack.
- c. To allow moisture buildup in the tubes to drain away.
- d. To allow dry air flow to flow through the rack bottom.
QUESTION C.16 [1.0 point]
Reactor Level has decreased by 8 inches over the last 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. Which ONE of the following is the approximate leak rate?
- a. 0.125 gallons per MINUTE
- b. 1.25 gallons per MINUTE
- c. 12.5 gallons per HOUR
- d. 125 gallons per HOUR QUESTION C.17 [1.0 point]
Which ONE of the following is NOT a design function of the purification system?
- a. Reduce radiation level due to dissolved ions.
- b. Reduce radiation due to gases in solution.
- c. Reduce radiation due to suspended solids.
- d. Reduce corrosion due to dissolved ions.
QUESTION C.18 [1.0 point]
One of the air sampling pumps in the loft fails. Which ONE of the following statements could be true.
- a. The Air Particulate Monitor (APM) ONLY is out of commission.
- b. the Continuous Air Monitor (CAM) ONLY is out of commission.
- c. the Gaseous Stack Monitor (GSM) ONLY is out of commission.
Section C: Facility and Radiation Monitoring Systems Page 7 QUESTION C.19 [1.0 point]
Which ONE of the following is added weekly to the secondary cooling loop?
- a. Algaecide to suppress biological growth in the cooling tower.
- b. Chromate to minimize corrosion of the pipes.
- c. Sodium-Chloride to increase the thermal conductivity of the water.
- d. Ethyl-Glycol to prevent the water from freezing in cold temperatures
Section C: Facility and Radiation Monitoring Systems Page 8 C.1 b REF: Reed Reactor Facility Training Manual § 11.4.
C.2 c REF: Standard NRC question. The HEPA is NOT in service during routine evolutions therefore A and D are incorrect. A HEPA filter is NOT designed to filter gases, therefore B is incorrect.
C.3 d REF: Standard NRC question also, C.4 a, CON; b, LOCAL; c, LOCAL; d, CON REF: Check with Facility.
C.5 a REF: Standard NRC Question.
C.6 a REF: Old question, should still be good for new Fission Chamber circuitry.
C.7 b REF: Facility supplied JPEG: Primary_Secondary Buttons#2CC5D.JPG C.8 b REF: Rewrite of NRC Examination question administered July 1992.
C.9 d REF: GA TRIGA Maintenance and Operating Manual C.10 c REF: Examination Bank § C, question 66, also SOP 5, § 5.7.3, p. 2 C.11 d REF: Reed College Reactor Facility Description and Safety Analysis Report § 5.2.6, last ¶, p. 5-7 C.12 b REF: Emergency Plan C.13 a REF: RRF SAR (pg 5-6 through 5-11)
C.14 d REF: GA TRIGA Mech. Maint. & Operating Manual C.15 b REF: Reed, Maintenance and Operating Manual, page 30.
C.16 b REF: RRF Mech. Maint. & Op. Manual, p. 81 8 in/8 hr 6 1 in/hr x 75 gal/in 6 75 gal/hr 75 gal/hr x 1 hr/60 min = 1.25 gal/min C.17 b REF: Reed Reactor TRIGA Mark I Reactor Mechanical Maintenance & Operating Manual § 5.1 pg. 71.
Section C: Facility and Radiation Monitoring Systems Page 9 C.18 b REF: Reed Operator Training 2003 Lecture 06 Detectors & Radiation Monitors Slide # 36.
C.19 a REF: Reed Reactor Training Manual, p. 239.
U. S. NUCLEAR REGULATORY COMMISSION NON-POWER INITIAL REACTOR LICENSE EXAMINATION FACILITY: Reed Reactor Facility REACTOR TYPE: TRIGA DATE ADMINISTERED: 2006/03/____
CANDIDATE:
INSTRUCTIONS TO CANDIDATE:
Answers are to be written on the answer sheet provided. Points for each question are indicated in brackets for each question. A 70% is required to pass the examination. The Examination will be picked up one (1) hour after the examination starts.
% of Category % of Candidates Category Value Total Score Value Category 20.00 33.3 C. Facility and Radiation Monitoring Systems 20.00 % TOTALS FINAL GRADE All work done on this examination is my own. I have neither given nor received aid.
Candidate's Signature
NRC RULES AND GUIDELINES FOR LICENSE EXAMINATIONS During the administration of this examination the following rules apply:
- 1. 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 neither received nor 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.
- 4. Use black ink or dark pencil only to facilitate legible reproductions.
- 5. Print your name in the blank provided in the upper right-hand corner of the examination cover sheet and each answer sheet.
- 6. Mark your answers on the answer sheet provided. USE ONLY THE PAPER PROVIDED AND DO NOT WRITE ON THE BACK SIDE OF THE PAGE.
- 7. The point value for each question is indicated in [brackets] after the question.
- 8. If the intent of a question is unclear, ask questions of the examiner only.
- 9. When turning in your examination, assemble the completed examination with examination questions, examination aids and answer sheets. In addition turn in all scrap paper.
- 10. Ensure all information you wish to have evaluated as part of your answer is on your answer sheet.
Scrap paper will be disposed of immediately following the examination.
- 11. To pass the examination you must achieve a grade of 70 percent or greater.
- 12. There is a time limit of one (1) hour for completion of the examination.
- 13. When you have completed and turned in you examination, leave the examination area. If you are observed in this area while the examination is still in progress, your license may be denied or revoked.
Section C Facility and Radiation Monitoring Systems Page 12 C.01 a b c d ___ C.09 a b c d ___
C.02 a b c d ___ C.10 a b c d ___
C.03 a b c d ___ C.11 a b c d ___
C.04a LOCAL CR ___ C.12 a b c d ___
C.04b LOCAL CR ___ C.13 a b c d ___
C.04c LOCAL CR ___ C.14 a b c d ___
C.04d LOCAL CR ___ C.15 a b c d ___
C.05 a b c d ___ C.16 a b c d ___
C.06 a b c d ___ C.17 a b c d ___
C.07 a b c d ___ C.18 a b c d ___
C.08 a b c d ___ C.19 a b c d ___