ML20154G188
ML20154G188 | |
Person / Time | |
---|---|
Site: | 07000510 |
Issue date: | 12/09/1985 |
From: | Tolderlund D U.S. COAST GUARD, TRANSPORTATION, DEPT. OF |
To: | |
Shared Package | |
ML20154G132 | List: |
References | |
10300, 104763, 24711, NUDOCS 8603070597 | |
Download: ML20154G188 (9) | |
Text
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USDepartment New London, CT 06320 Phon 2 (203) 444-8632 ofTransportation FTS 642-8632 United States Coast Guard 10300 9 December 1985 John E. Glenn, Ph.D., Chief Nuclear Materials Section B Division of Engineering and Technical Programs U.S.N.R.C.
Region 1 631 Park Avenue King of Prussia, PA 19406 Re: License No.
SNM-463 Docket No.
070-00510 Control No. 24711
Dear Dr. Glenn:
In response to your letter of May 21, 1985, the U. S. Coast Guard Academy requests the following amendment to the above license:
Under Condition 12:
Delete Raymond J. Christian Add Edward L. Wilds, Jr. (See attached Statement of Training and Experience)
Sincerely, b
D. S. TOLDERLUND, Ph.D.
Professor, Marine Science Head, Department of Science Enc 1:
(1) Personnel Nuclear Vitae (2) Radiation Protection Technology: Description and Outline EE !XEMPT
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"O rCIA. RECORD COPY" 104763 8603070597 860221 1
REG 2 LIC70 SNN-0463 PDR DEC 121985
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PERSONNEL NUCLEAR VITAE Name: LT Edward L. Wilds, Jr.
Nuclear Education / Training:
1978 BS Physical Science, USCG Academy 1985 MS Physics, University of Connecticut 1985 Radiation Protection Technology Course, University of Connecticut Experience:
LT Wilds has received nuclear laboratory experience and on-the-job training as an undergraduate at the USCG Academy and as a graduate student at the University of Connecticut. He has assisted the Radiation Safety Officer for the past 6 months and is familiar with the isotopes and the Academy nuclear facilities. He is continuing to receive additional training from the Radiation Safety Office at the University of Connecticut.
Enc 1:
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USDepartment superintendent (ds) ( ')
N w London.CT 06320 u.s. cc:st ou rd Academ/d Phone. (203) 444-8632 ofTransportation FTS 642-8632 g $g Coast Guard 10300 9 December 1985 John E. Glenn, Ph.D., Chief Nuclear Katerials Section B Division of Engineering and Technical Programs U.S.N.R.C.
Region 1 631 Park Avenue King of Prussia, PA 19406 Re: License No.
Stai-463 Docket No.
070-00510 Control No. 24711
Dear Dr. Glenn:
In response to your letter of May 21, 1985, the U. S. Coast Guard Academy requests the following amendment to the above license:
Under Condition 12:
Delete Raymond J. Christian Add Edward L. Wilds, Jr. (See attached Statenent of Training and Experience)
Sincerely, hb D. S. TOLDERLUND, Ph.D.
Professor, E1rine Science Ibad, Department of Science Encl: (1) Personnel Nuclear Vitae (2) Radiation Protection Technology:
Description and Outline EE EXEM)T
_! MMC _
"0FFIC A. RECORD COPY 860307 m'7 060221 1
104763 REC 2 L ic70 SNM-04ci3 PDR DEC 121985
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RADIATION PROTER 1IOli I FC16tKILilG.Y DESCRIPi!ON AND UllfLINE This course is designed to hntp tr*=pw" Radiation Protect 1on Technologists for taking of the we-i t trin e :i*evin nat i on given by the National Registry of Radiation Protection inchnoincists.
It provides comprehensive coveraue.
in a eel ( p ar:ed format.
on radiation protection topics within the t hr eo nennral arcan of Fundamentals.
Mea 9urements, and Oper ati nnal.
The program Heuld alsu be ideal ior technici ans enter ino somo phase oi health physics worl: but not seeking regietry at this time.
FUNDAMErlT ALG LESSON 1 - COURSE OUTLINE ATID DAGIC F4 ELATED UCIENf.'E I.
Structure of the Course A.
Introduction D.
Overall. course Outline and Purpo e C.
Lesson Format II. Mathematics Review A.
Scientific Notation B.
Ratios and Proportions C.
The Mathe#natics at Units D.
Linear Graphs E.
Power Functions F.
E>: ponen t i a l Functiens G.
Trigonometrac Functione and I;r anhes III. Physics Review A.
Structure of Matter B.
Work and Energy C.
Principles of Electrarit/ and flannotimm 1.
Electric Charoe 2.
Electric Currents 3.
Ohm's 1aw 4.
Principles of Electronics 1.
Vacuum Tubes 2.
Sol i d -St a t e Devices 3.
Power Supplies 4.
Amplifiers Enc 1: (2) 1
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LESSON 2 - RADIDACi!VITY I.
Atomic Structure A.
Thompson Model B.
Rutherford Model C.
Bohr Model II. Nulclear Structure A.
A Nuclear Model B.
Nuclear Stability C.
Binding Energy III. Nuclear Decay Processes A.
Alpha Decay D.
Beta Decay C.
Gamma Decay
]
D.
Fission Decav IV.
Radioactive Decay Laws LCSGOri 3 - INTERACTIOris OF RADI AT IOff b! TH MAllER j
I.
Charged Prticle Interactions A.
Energy Loss Mechantsms D.
Stopping Power C.
Specific Ioni: 2nq D.
Range-Energy i
II. Photon Interactions A.
Photelectric Effect B.
Compton Scattering C.
Pair Production D.
Attenuation Coefficients III. Neutron Interactionn A.
Thermal flou trons D.
Fast fleutrons C.
Neutron Cross Sections l
LESSON 4 - DIOLOGICAL EFFECTS OF ffADIATION i
Radiation Effects on Water A.
Direct Action B.
Indirect Action II. Padiation Effects on Cells A.
Cell Structure D.
Effects on Cell Components C.
Cell Radiosensitivity i
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"(11. Radiation Ef f ects on Human Organ Systems f
g" A.
Blood System B.
Gastro-Intestinal System f
C.
Central Nervous System D.
Reproductive System IV.
Whole body Effects in Humans A.
Acute Effects B.
Late Effects V.
Treatments of Radiation Gica rices A.
Pre-Irradiation Tr ea t.non t B.
Post-Irradiation Treat ment LESSOt1 5 - FUNDEMEt4TALG OF RADI Al LON DOSillE IRY 1.
Radiation Quantities and Limito A.
Activity. Curie D.-
Exposure. Roentgen C.
Specific Esposurn Rate Constant D.
Absorbed Dose, rad E.
Dose Equivalent, rem II. Radiation Dose Calculations A.
Point Gamn.a Sources D.
Neutron Dos i n.e try LES3DN 6 - FUNDAMEllT ALS OF FADI AI Tort 500Pf;ES 1.
flatural Radiation Sourcos A.
Terrestrial sources 1.
External 2.
Internal B.
Cosmic Rays
!!. Han-Made Radiation Source A.
Fallout D.
Electronte Product C.
X-Ray Machines 1.
Medical 2.
Industrial D.
Medical Rarit onuclide Aon t icat i onq E.
Acceleratnro F.
fluclear Reactors 3
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O MEASUPEMF.NTS
/ ' LESSON 7 - RADIATION DETECTION AtlD NEAGilFWMFfit INSIRUMEN1ATIOfl 7
I.
Detection Mechanisms II. Gas-Filled Detectors A.
Characteristic Curve B.
Ion Chambers C.
Proportional Cpimters D.
Geiger Counters III. Solid-State Deter. tors A.
Scintillation Counters D.
Semiconductor Counters 1.
Surface Darrier Diodes 2.
GE (Li) Counters LESSON 8 - EXPOSURE EVALUATIOrl FOR EXIERflAL GOURCFS I.
The Ideal Personnel Dostmeter II. Photographic Technt auris f or En nneur es Cvoluatinn A.
Response of Film to Radiotton D.
Design of Film Dadge C.
Interpretation of Readinos III..TLD Techniques for Exposure Evaluation A.
The TLD Priciple D.
Response of TL rhospors to Radiatten C.
Design of TLD Badans D.
Interpretation of Readings IV. Comparison of Film and TLD Syr,tems V.
Criticality Badges LEGCOtt 9 - EXPOSURE CVALUAT!Url FOR IN T ERilAL SDRCES I.
Dicassay Tecniques A.
Dasic Principles D.
Applications in Practical Problems
!!. Whole Dody Counting Techniquen A.
Liquid Scintillation Type B.
ICRP Technique C.
Sample Calculations 4
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- LESSON 10
- ENVIRONMENTAL SURVEILLANCE IllSTF(UNEN TS AND DAIA ANALYSIS I.
Introduction to Environmental Monit.orina II. Environmental Surveillanco Ins trument att on 4
A.
Gamma Radiation Instruments l
B.
Surface Deposition Instrumento
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C.
Air Sampling Instruments 1.
Fixed Filter i
j 2.
Moving Filter 1
3.
Precipitator 4.
Radioactive Gas 5.
Sample Calculations D.
Water Sampling E.
Food Sampling III. Counting Stati stics f or Nuclear Data Analynis A.
Basic Equations B.
Sample Calculations OPERAIIONAL LESSON 11 - RADIATION PROTECTIOt1 AND SHIELDING I.
Dasic Principles A.
Time B.
Distance C.
Attenuation, HVL, TVL II. Gamma Ray Shields A.
Point Sources D.
Buildup Factor C.
Scattering III. Deta Source Shields TV. Neutron Shields A.
Thermal Neutrons B.
Fast Neutrons V.
Applied Shielding A.
Nucliear Reactors D.
Medical X-Rays C.
Industrial Radiography D.
fluelear Accel erators E.
Radioactive Materials 5
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' LCSSON 12 - OPERATIONAL SURVEYS AND INSPECTIOMG Principles of Radiation tienitorinn
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A.
Alpha Fields 1.
Proportional Counters 2.
Scintillators
'3.
Monitoring Procticos B.-
Gamma Fields
+
1 1.
GM Counters 2.
Ion Chambers C.
Deta Fields 1.
GM Counters 2.
Ion Chambers D.
Neutron Fields 1.
Thermal 2.
Fast 3.
Rel a ti vi sti c 4
E.
Surface Contamination II.
Applied Monitoring Techniques i
A.
Nuclear Reactors 1.
Radtation Fields 2.
Hazard Evaluation B.
Nuclear Acceleratora 1.
Radiation Fi elds 2.
Hazard Evaluation i
r'.
University. Madical. end todnotri..t r.aci1ittos 1.
Radiation Sourcom 2.
Hazard Evaluation s
i LESSON 13 - RADIOACTIVE WAS TE Mane,0r itru r
' t.
Sources of Rad Waste A.
~ Uranium Cycle 1.
Mining and Millinq 2.
Reactor Rad Weste Svetoms 3.
Fuel Reprocessing i
B.
Radiotsotope Applications t
C.
Principles of Management i
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II. Principles of Management
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A.
Low Level
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1.
Solid f
2.
Liquid 3.
Gases B.
High Level 1.
Solid 2.
Liquid 3.
Gases LEGSON 14 - NUCLEAR EMEREErlCIES I.
Classification of Accidents A.
Damage B.
Location C.
Exposure t
D.
Source II. Accident Phases t
A.
Occurrence l
D.
Emergency
[
C.
Recovery r
D.
Restoration j
III. Emergency Planning
[
IV.
Accident Response A.
Initial Actions B.
Emergency Screening
]
C.
Medical Aspects D.
Decontamination
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V.
Public Relations Aspects i
l LESSOrt 15 - PROTECTIOrl 5i AilDARDS Atl0 FECUt Ai!UNG I.
Standards Getting Organizations j
!!. Types of Standards A.
Regulation B.
Consensus or Recommnndatinn l
C.
Regulatory Guide l
D.
License Condittun III. Terminology and Danis f or Grandartin IV.
Dose-Limiting Regulations
)
A.
Occupati on E::ponuro B.
Ocneral Public C.
Emergency Conditions D.
RPG and PAG
)
V.
Practical Exposurn Control 7
.