radiation safety training - orm.uottawa.ca · radiation safety program 1 baisha ren, radiation...
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RADIATION SAFETY TRAINING
& the UNIVERSITY OF OTTAWA
Radiation Safety Program
1
Baisha Ren, Radiation Compliance Specialist
University of Ottawa – Office of Risk Management
Email: [email protected]
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• For this online course via Teams Meeting, please sign-in by sending me the following information:
▫ Your full name
▫ Your Department
▫ Your supervisor’s name
▫ Whether you are a user or not? Y/N
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Sign-in Please
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• Complete the in-class training
▫ 3 times per year at the beginning of each school session
▫ To get your certificate: take after class quiz (> 75% correction)
• Submit a New User Registration form
▫ Receive in-lab practical training from your PI/lab delegate
• Refresher training for existing users
▫ Every 4 years by taking a quiz
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Training Requirement
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1. Regulatory Framework
2. uOttawa Radiation Safety Program
3. Radiation 101
▫ Characteristics, risk, units, dose limits
4. Regulatory Control
▫ ALARA, classes, EQ, transportation, security
5. Operational Practice
▫ Acquisition, inventory, disposal, monitoring, exposure control,
handling, safety precautions, etc.
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Course Outline
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Module 1:
Regulatory Framework
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Regulators
• Canadian Nuclear Safety Commission (CNSC)
• International Atomic Energy Agency (IAEA)
• Transport Canada (TC)
• Health Canada (HC)
• Others▫ Ministry of Labor (MOL)
▫ Ministry of Environment (MOE)
▫ City of Ottawa
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Types of Radioactive Materials
• Nuclear Substances and Radiation Device (NSRD)
• Naturally Occurring Radioactive Material (NORM) and Environmental Samples
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Naturally Occurring Radiation
Sources:
• Cosmogenic radionuclides: created when cosmic radiation interacts with the atmosphere, soils, rocks or water
• Primordial radionuclides: they have existed since the earth was formed due to their long half-life
(U-238: t1/2=4.5 x 10^9 years)
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Natural Occurring Radioactive Material
(NORM)
• CNSC definition: NORM is material found in the environment that contains radioactive elements of natural origin.
• CNSC’s Nuclear Safety Act regulates NORM only if:
▫ Associated with the development, production or use of nuclear energy
▫ Imported into Canada or exported from Canada
▫ Transported when the specific activity is greater than the exempt material values
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Regulation of NORM
• Primarily regulated by provincial and territorial governments
• Health Canada - Federal Provincial Territorial Radiation Protection Committee (FPTRPC):
▫ Canadian Guidelines for the Management of Naturally Occurring Radioactive Materials
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Why Regulate “natural occurring”?
• Radon gas
▫ In homes
• Mining, oil and gas
▫ Mineral scale on pipes, equipment contamination
• Construction
▫ Bricks, cement, granite counter tops, glazed tiles
• Consumer products
▫ Phosphate fertilizer, tobacco
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NORM Product/By-product
• NORM primarily contains uranium and thorium and potassium
▫ Natural uranium ore
▫ Depleted Uranium
▫ Uranyl Acetate, Uranyl Nitrate, Thorium Nitrate, etc.
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Nuclear Substances & Radiation Devices
• Nuclear Substance Exemption Quantity (EQ)
▫ Radioisotope activities that are exempt from Licence requirements
▫ EQ is the activity sum for a radioisotope: all radioactive material must be tracked
• Radiation Device
▫ Contains more than EQ of a nuclear substance which used for its radiation properties
▫ Contains a radium luminous compound
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CNSC Regulatory Framework
• Nuclear Safety & Control Act
• Key Regulations:
▫ General Nuclear Safety & Control
▫ Radiation Protection
▫ Nuclear Substance and Radiation Devices (NSRD)
▫ Packaging and Transportation
▫ Nuclear Security
▫ Non-proliferation Import and Export Control
▫ Class I Nuclear Facility
▫ Class II Nuclear Facility and Prescribed Equipment
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CNSC Regulatory Vehicles
• uOttawa Licences:
▫ Consolidated: NSRD Licence
▫ Import Licence (H-3)
▫ Class II Nuclear Facility (AEL AMS lab)
• 5 year licence renewal process (last time: 2018)
• Annual Compliance Report
• Type I & II inspections (Type II: Feb 2020)
• Reporting criteria
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CNSC Safety Control Areas (SCA)
1. Radiation Protection
2. Emergencies & Unplanned Events
3. Environmental Protection
4. Security
5. Training & Qualification
6. Operational Procedures
7. Transportation
8. Organization & Management
9. Quality of Management
10. Non-radiological Health & Safety
11. Public Information Programs
12. Fire Protection
13. International Obligations & Safeguards
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CNSC Performance Grading System
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Did I forget to mention about the
monetary penalties???
• CNSC can impose monetary penalties for non-compliance by licensees
• CNSC is very demanding about accuracy and compliance
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Module 2:
uO Radiation Safety Program
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• Goal – Interpret the regulations, develop systems to allow for easy compliance and ensure reporting requirements are met
• “Cradle to Grave” management of radioactive materials
uOttawa Radiation Safety Program
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uOttawa RSP Oversees:
1. Internal permit (open, sealed, sealed in a device, EQ, environmental)
2. Authorized users
3. Training, user comprehension
4. Inventory control (Use and Disposition Form)
5. Waste management (disposal limits, logs, etc.)
6. Exposure monitoring (dosimeters)
7. Monitoring: contamination, leak testing, radiation field, ALARA
8. Safe work practices
9. Compliance monitoring: inspections, audits
10.Security of radioactive material, personnel and environment
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uOttawa RSP Accountabilities
• Radiation Safety Committee
▫ Reports to the board
▫ Chaired by Vice-Dean, Research
▫ Ensure compliance with CNSC regulations and licence conditions
• Office of Risk Management
▫ Manages the radiation safety program
▫ Monitors compliance
▫ Tracks dose, inventory and waste
▫ Delivers training
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uOttawa RSP Accountabilities
• Permit Holders
▫ Ensures all regulations, policies and requirements are met
▫ Adheres to all permit limits and conditions
▫ Ensures a safe work environment
• Radioisotope Users
▫ Complies with radiation safety program
▫ Maintain safe practices (self, colleagues and environment)
▫ Attends all required training
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Compliance Monitoring – Inspections
• Determine compliance and competency (Knowledge and Application)
• Mimics CNSC Inspections
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We are always available to help you make sure your lab is compliant.
It is always better that we fix things before CNSC finds
things.
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Module 3:
Radiation 101
(characteristics, risk , detection and calculations)
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Fundamental Building Blocks - Atoms
• Atoms
▫ Protons
▫ Neutrons
▫ Electrons
• Isotopes
▫ Same atomic number but different neutron number
▫ Most nuclides in nature are stable isotopes
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http://rsh.nst.pku.edu.cn
81 stable elements
275 isotopes,
> 800 radioisotopes
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Regardless of the source of the nuclear
radiation its objective is always to achieve
stability!
Release of excess energy (particles)
Release of excess energy (emr)
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Atoms that are unstable are called Radioactive
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Ionizing Radiation & Radioisotope
• Energy released by atoms that travels in the form of
▫ Particles (alpha, beta or neutron), or
▫ Electromagnetic waves (gamma or X-rays)
• Radioisotope = Radionuclide
▫ Unstable nuclide
▫ Emits excess energy/radiation
▫ Spontaneous emission
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Radioactive Decay & Half-life
• Radioactive decay
▫ Process of emitting radiation/energy
▫ Most common: alpha, beta, gamma or X-rays
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• Characteristic half-life
▫ The time required for half of the radioactive nuclides to decay to a stable state
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Alpha Radiation (α)
• Emit alpha particle
▫ Helium atom (4He): 2 protons and 2 neutrons
• Energy range: 4 – 8 MeV
• Travel range: 2 – 8 cm
• Characteristics:
▫ Large mass, double charge
▫ Limited external damage but great internal damage
▫ Cannot penetrate skin
▫ Heavy radionuclides – elements with Z greater than 82
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Beta Radiation (β)
• Emit beta particle
▫ Electrons (-) and positrons (+)
• Energy range: 0.02 – 4.8 MeV
• Travel range: 0 – 10 m in air
• Characteristics:
▫ Can penetrate the skin ~0.2 cm in tissue
▫ Travels almost the speed of light
▫ Almost no mass
▫ Bremsstrahlung: x-ray can be produced when beta particles pass through matter
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Gamma Radiation (γ)
• Made up of photons:
▫ Packet of energy with no mass
• Energy range: 10 keV– 3 MeV
• Travel range: far
• Characteristics:
▫ Electrically neutral
▫ No mass
▫ Always preceded by either a beta/alpha decay
▫ Much more penetrating than alpha/beta particles
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http://geoscienceworld.org/
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X-Ray Emission
• Also made up of photons - emitted when high speed electrons are slowed down or change directions a target material
• Energy range: 10 eV– 120 keV
• Travel range: far
• Characteristics:
▫ Electrically neutral
▫ No mass
▫ Similar to gamma ray but origin is different
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Radiation Penetrating Power
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/ X-Ray
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Radiation – the full spectrum
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Radiation Interaction
• Radiation can interact with atoms when passing through the matter
• Alpha & Beta: direct ionization
▫ Electric field is created: remove electrons from atoms
• Gamma/X-ray: indirect ionization
▫ Electrons knock out of orbit
▫ Results in: photoelectric effect, Compton scattering, pair production
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Radiation Interaction with Human Body
• In principle, radiation interaction with living material is the same as with non-living materials
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• Possible outcomes:
▫ No damage: Gamma and X-Ray can pass through without interacting
▫ Direct damage: breaks atoms or molecules in cells and DNA
▫ Indirect damage: create ions react with atoms or molecules in cells or DNA
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Damage in Human Body
• Direct damage
▫ Cell damage and death
▫ Chromosome damage: cell death, mutation
• Indirection damage
▫ Ionizing radiation breaks apart water molecules and generate H2O2
• Higher doses cause severer damages
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Biological Effects on Human Body
• Genetic effects (hereditary effects)
▫ Appears in future generations as a result of our exposure to radiation
• Somatic effects
▫ Appears in irradiated individuals immediately or delayed
▫ Stochastic effects – a probability of biological effect
▫ Deterministic effects – a certain result from radiation exposure
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Radiation Effects on Organs/Tissues
• Some organs/tissues are more sensitive than others
• The most sensitive
▫ Blood forming system -> decrease in the numbers of white blood cells, red blood cells and/or platelets
▫ Reproducing cells: embryo/fetus
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Radiation Effects on Organs/Tissues
• Organs/tissues can be more sensitive with certain radioisotopes
▫ H3 – Body water or tissue
▫ C14 – Fat tissue
▫ P32 – Bones
▫ S35 – Gonads
▫ I135 – Thyroid
▫ C057 – Large Intestine
▫ Depleted Uranium – Liver, spleen and kidney
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http://healthphysics.georgetown.edu
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Radioactivity Measurement
• International System
▫ The rate of decay of a nuclide: the number of disintegration per time (seconds or min) and hence the units: dps or dpm
▫ 1 dps = 1 Becquerel (Bq) (CNSC uses Bq)
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• Imperial System
▫ Radioactivity emitted by 1 g of Radium: 1 Curie (Ci) – named after Marie and Pierre Curie
▫ 1 Ci = 3.7 x 10^10 Bq
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Concept MeaningInternational
System Old units
Radioactivity Amount of ionizing radiation Becquerel (Bq) Curie (Ci)
ExposureAmount of ionization in air
by x-ray or gamma radiationCoulomb/kg Roentgen
Absorbed
Dose
Amount of radiation
absorbed Gray (Gy) Rad
Equivalent
Dose
Express exposure in terms of
the impact of the form and
energy deposited
Sievert (Sv) Rem
Effective
Dose
Express exposure in terms of
the organs and tissues
impacted
Sv Rem
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Radiation Measurement
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http://www.radprocalculator.com/Conversion.aspxRadPro calculator:
Radiation Measurement – Conversions
• 1 Coulomb/kg (C/kg) = 3876 Roentgen
• 1 Becquerel (Bq) = 1 decay per second (dps)
• 1 Bq = 2.7 x 10-11 Curie (Ci) 1 Ci = 3.7 x 1010 Bq
• 1 Gray (Gy) = 100 rad 1 rad = 0.01 Gy
• 1 Sievert (Sv) = 100 rem 1 rem = 0.01 Sv
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Radiation Quantities
x Radiation
Weighting Factor
x Organ/tissue
Weighting Factor
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Equivalent Dose
• Measures the damage caused by different type of radiation
Equivalent Dose = Absorb Dose x Radiation Weighting Factor
• Equivalent dose limits are set by CNSC
▫ Nuclear energy workers (NEW)
▫ Non-nuclear energy workers (non-NEW) – general public
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Radiation Weighting Factors
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Type of Radiation and Energy Range
See foot notes in RP Regulations
Weighting
Factor
Photons all energies 1
Electrons all energies 1
Neutrons energy < 10 keV 5
Neutrons energy 10 keV to 100 keV 10
Neutrons energy > 100 keV to 2 MeV 20
Neutrons energy > 2 MeV to 20 MeV 10
Neutrons energy > 20 MeV 5
Protons, other than recoil protons energy > 2 MeV 5
Alpha particles, fission fragments and heavy nuclei 20
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Equivalent Dose Limits for NEW
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Organ or tissue Person PeriodEquivalent
Dose (mSV)
Lens of Eye NEW 1 yr dosimetry period 150
Lens of Eye Non-NEW 1 calendar year 15
Skin NEW 1 yr dosimetry period 500
Skin Non-NEW 1 calendar year 50
Hands and Feet NEW 1 yr dosimetry period 500
Hands and Feet Non-NEW 1 calendar year 50
Whole Body NEW 1 yr dosimetry period 20
Whole Body Non-NEW 1 calendar year 1
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Effective Dose
• A single value representing the whole-body risk of stochastic effects resulting from exposure to radiation
Effective Dose = Equivalent Dose x Organ/Tissue Weighting Factor
• The sensitivity to radiation varies between different organs and tissues
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Organ/Tissue Weighting Factors
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Organ or Tissue Weighting Factor
Gonads (testes or ovaries) 0.2
Red bone marrow, colon, lung, stomach 0.12
Bladder, breast, oesophagus, thyroid gland 0.05
Skin, Bone surfaces 0.01
All organs and tissues not listed such as the
adrenal gland, brain, extra-thoracic airway,
small intestine, kidney, muscles, pancreas,
spleen, thymus and uterus
0.05
Whole body 1
Source: CNSC Radiation Protection Regulations
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Module 4:
Regulatory Control
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CNSC Criteria … that impact daily operations
• As Low As Reasonably Achievable (ALARA) Principle
• Exemption Quantities (EQ)
• Annual Limit on Intake (ALI)
• Action Levels
• Laboratory Classification
• Radioisotope Classes
• Transport of radioactive material
• Security & Reporting
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ALARA – As Low As Reasonably Achievable
• ALARA principle is a sound safety principle that is a mandatory requirement for all radiation safety programs
• CNSC Regulatory Guide G-129
▫ Keeping Radiation Exposures and Doses “As Low as Reasonably Achievable (ALARA)”
• Considering economic, and social factors
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Radiation Protection Principles
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• Mitigation of external radiation exposures can be achieved by considering the following:
Time Distance Shielding
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ALARA – Time
• Minimizing the time of exposure directly reduces radiation dose
• Reduce the amount of time you are exposed, by:
▫ Planning your experiments with time reduction in mind
▫ Returning the stock vial back to storage once you take aliquots
▫ Knowing and avoiding areas of higher radiation
▫ Waiting for source to decay if applicable
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Example: Calculate Work Time
Given:
The gamma radiation in an area is 25 μSv/h. To make sure you don’t receive a dose greater than 200 μSv, how long can you work in this area?
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Answer:
t = 200 (μSv) / 25 (μSv/h) = 8 h
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ALARA – Distance
• Inverse square law
Where:
I1 = Intensity 1 at D1
I2 = Intensity 2 at D2
D1 = Distance 1 from source
D2 = Distance 2 from source
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http://www.ndt-ed.org
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Example: Inverse Square Law
Given:
If the gamma dose rate at 1 m from a source is 160 μSv/h. What is the radiation field at 4 m?
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Answer:
D1 = 1 m D2 = 4 m
I1 = 160 μSv/h I2 = ?
I2 = (I1 x D12) / D2
2 = 160 (μSv/h) x 12 (m) / 42 (m)
= 10 μSv/h
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ALARA – Shielding
• Shielding can stop Alpha & Beta radiations but only attenuate Gamma radiation
• Half-value layer (HVL): the thickness of any given material reduce the gamma radiation to half of its initial intensity
• After n HVLs, a gamma radiation field will be reduced by a factor of 1/2n
▫ 7 HVLs: reduces to 1%
▫ 10 HVLs: reduces to 0.1%
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Examples: Radiation Shielding
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Shielding for sample storageShielding on work bench
Shielding for radioactive wasteShielding for during work
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ALARA – Practices in Lab
• Knowing of radioisotope characteristics
• Conducting risk assessment: where/what would result in an exposure
• Coming up with exposure mitigation strategies
• Having a good lab design and experimental design, storage and waste management
• Conducting dry runs to test new experimental designs & equipment
• Monitoring exposures
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Exemption Quantities (EQ)
• Exempt from CNSC licensing requirements, BUT if you have a license, your license conditions apply
• CNSC Implications:
▫ If >100 EQ, a radiation warning sign to be posted at entrance to the laboratory (or probability of an effective dose rate of > 25 μSv/hr)
▫ If > 10000 EQ of a radionuclide is used at a single time, CNSC approval is required
• Nuclear Substances and Radiation Device Regulations (NSRDR) Schedule 1 – Exemption Quantities
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Annual Limit on Intake (ALI)
• Defined by CNSC:
▫ The activity, in becquerel, of a radionuclide that will deliver an effective dose of 20 mSv during the 50-year period after the radionuclide is taken into the body of a person 18 years old or older, or during the period beginning at intake and ending at age 70 after it is taken into the body of a person less than 18 years old
• Specific to each radioisotopes
• Used to determine laboratory levels
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Laboratory Classification
• For laboratories work with unsealed sources
• Determined by quantity of a source used at a single time
▫ Does not exceed 5 ALI – Basic Level
▫ Does not exceed 50 ALI – Intermediate Level
▫ Does not exceed 500 ALI – High Level
▫ Exceeds 500 ALI – Containment Level
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Action Levels
• Defined by CNSC:
▫ A specific dose of radiation or other parameter that, if reached, may indicate a loss of control of part of a licensee’s radiation protection program and triggers a requirement for specific action to be taken.
• Action Levels at uOttawa
▫ A dose of 0.3 mSv over a 3-month dosimetry wearing period
▫ Atypical radiation fields, usually 5 times above background (< 2.5 µSv/hr)
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Radioisotope Classes
• Based upon common radiological properties
• Determines surface contamination criteria
• Three Classes : A, B, C
▫ CNSC Classes of Nuclear Substances
▫ Class A: Na-22, U-238
▫ Class B: Sr-90
▫ Class C: C-14, Co-57, H-3, I-125, P-32
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Transport of Radioactive Material
• Transport Canada
▫ Transportation of Dangerous Goods (TDG) Act and Regulations – Class 7
• CNSC
▫ Packaging and Transport of Nuclear Substances Regulations
• IAEA – transport between countries
▫ Regulations for the Safe Transport of Radioactive Materials
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Packages
• Except package – for low radioactive materials
▫ Safety mark “RADIOACTIVE” must be visible upon opening the package
▫ Radiation level at any point on the external surface of the package must not exceed 5 μSv/h
▫ Label with UN code required, no need a radioactive signage
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Packages
• Industrial packages
▫ Type A packages – low amounts
▫ Type B (U) packages – large amounts; ≤ 700 kPa
▫ Type B (M) package – large amounts; > 700 kPa
▫ Type C packages – for air transport of high activity
• Specific labelling is required
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Labelling Requirement
• Labels determined by surface dose and TI
▫ Category I-White: less than 5 uSv/h
▫ Category II-Yellow: less than 500 uSv/h, TI less than 1
▫ Category III-Yellow: less than 2 mSv/h, TI less than 10
• Transport Index (TI): maximum radiation level in uSv/h at 1 meter from the external surface of the package, divided by 10
▫ Example: 1 uSv/h at 1 m equals a TI = 0.1
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Labelling Requirement
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Increasing dose rate (mSv/h)
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Example: Packaging & Labelling
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Example of the transport of High Activity Material
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Security
• Security can be achieved by
▫ Physical barriers
▫ Psychological barriers
▫ Monitoring activities
▫ Personnel clearance
• General Nuclear Safety and Control Regulations (GNSCR)
▫ Obligations of licensee and workers
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Security – Obligations
• Licensee (GNSCR Section 12)
▫ Take all reasonable precautions
▫ Implement alerting measures
▫ Physical security program on site
• Workers (GNSCR Section 17)
▫ Comply with the measures established by the licensee
▫ Promptly inform the licensee (ORM – Radiation Safety Specialist) or the worker’s supervisor when there may be a security risk
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Reporting Requirement
• GNSCR Section 29
▫ Every licensee who becomes aware of a risk to security, environment or the health and safety of persons shall immediately make a report to CNSC
• For users, report to RSO immediately
▫ Ext. 5411
▫ PI/lab delegate
▫ ORM: [email protected]
▫ Online incident/accident report
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Module 5:
Operational Practices
(acquisition, inventory, signage, disposal, monitoring)
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Institutional Approval
• Permit Application
▫ Lab to become authorized
• User Authorization
▫ In-class training & quiz
▫ User registration under permit
• Acquisition Approval
▫ Purchase/transfer
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Internal Permit
• Types
▫ Open/unsealed sources: <EQ, basic, intermediate
▫ Sealed sources
▫ Sealed sources in a device
▫ Others: environmental samples, etc.
• Conditions apply
▫ Radioisotopes
▫ Quantity: level of lab, use limit…
▫ Disposal criteria
▫ Contamination monitoring
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Check uO Radiation Safety – Operational Hubfor permit application and conditions
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Internal Permits
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User Authorization
• Radiation Safety Training
▫ 3 times/year at the beginning of each school session
▫ A quiz must be completed after the class (>75%)
• New User Registration Form
▫ Users obligations
▫ Corporates in-lab practical training
▫ Reviewed by Radiation Safety Specialist
▫ User’s name to be added on the permit
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New User Registration Form
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Acquisition Requirements
• Acquisition Must be approved by RSO
▫ CNSC Licence and Internal Permit conditions apply
• Documentation
▫ Radioisotopes Purchase Requisition Form
▫ Internal/External Transfer Form
▫ Records must be kept (approval, packaging slips, shipper’s declaration)
• Upon receiving
▫ Check package (labels, contamination monitoring)
▫ Start a Use and Disposition Form for open source
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Purchasing Procedure
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Purchase Requisition Form
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Receipt of Radioactive Material
• Confirm the material you received is what you ordered or expected
• Review shipping label for possible exposure risk
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Receipt of Radioactive Material
• Inspect packaging both externally and internally for damage or leakage
• Perform contamination monitoring on the package
• Deface wording and labels prior to disposal of the package
• Start an Inventory of Use and Disposition Form for open source
• Put a label on the radioactive material/device
• Report any anomalies to the supervisor and RSO
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Open Source - Use and Disposition Form
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Inventory Management
• Inventory must be accurate
▫ Records in your lab must match with ORM records
• Open sources
▫ Inventory Use and Disposition Form
• Sealed sources/sealed source in a device
▫ Manufacturer & serial number
▫ Certification date and/or calibration date
▫ Current activity – leak testing critera
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Inventory Use and Disposition Form
• “Cradle to Grave” management
▫ Each use and disposal is tracked
• Submission to ORM is required when
▫ A source is used up/transferred
• ORM accepts electronic copy (excel) only – submission of the paper forms/scanned copies will not be accepted
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Open Source – Inventory Use and Disposition Form
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Inventory of Use and Disposition Form
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Minimize Your Inventory
• Help reduce exposure and security risks
• Dispose of old stock and samples where the chemical and radiological integrity is in question
• Frequently monitor the radiation field around your inventory
• Get rid of what you don’t use
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Old fridges and freezers are a pain to clean when they fail!
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Inventory Security
• Only authorized personnel have access to radioactive materials
▫ List of authorized users posted near permit
• Radioactive materials MUST be secure at all times!
▫ In common areas, must be under user’s “line of sight”
▫ Rooms must be locked when not in use
• Secure storage
▫ Labeled as “Radiation Storage Area”
▫ Area/container must be locked
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CNSC Specific Signage
• A CNSC Specific Signage is required at the entrance if
▫ Radioactive substance > 100 EQ,
and/or
▫ When there is reasonable probability that a person might be exposed to an effective dose rate of greater than 25 μSv/h
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Signage For Use and Storage
• Radioactive substance > 1 EQ is used or stored:
▫ Radiation symbol + “Radiation Use Area” label or tape
▫ Radiation symbol + “Radiation Storage Area” label
• No signage if all radioisotopes activities in use and storage are less than 1 EQ
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CautionRadioactive Use Area
CautionRadioactive Storage Area
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Posting Requirement
• The following must be posted in the lab:
▫ Copy of the internal permit
▫ Current list of authorize users
▫ CNSC safety poster for appropriate lab category
▫ CNSC spill procedure poster
▫ CNSC proper care and use of personal dosimeters poster
▫ CNSC guidelines for handling packages containing nuclear substances poster
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Labelling Requirement
• Labelling for container and device must include:
▫ Radiation trefoil
▫ Wording “Rayonnement-Danger-Radiation”
▫ Radioisotope name
▫ Activity (Ci or Bq)
▫ Reference date
▫ Calibration date (device)
▫ Form of chemical name
• Waste must be labeled
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Radioactive Waste
• Radioactive waste can be
▫ Solid waste
▫ Water soluble
▫ Liquid scintillation (LS)
▫ Animal carcasses
• Can be declassified if below disposal limits (DL)
▫ Regular garbage
▫ Chemical hazardous waste (LS waste)
▫ Regular carcass waste (bio waste)
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Procedures for Radioactive Waste Management
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Radioactive Waste Assessment
• At permit application
▫ Declassified upon generation
• Submit the electronic waste logs (excel format) to ORM for assessment before final disposal
▫ Waste held for decay
▫ Declassified waste (chem, bio, regular)
▫ RAM waste (special pickup by 3rd party)
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Liquid Scintillation Waste LogRadioactive Solid Waste Log
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Radioactive Waste Flowchart
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Waste
Declassified
No Chemical Hazard
Garbage/drain
uO Hazardous Waste Pro.
Chemical Hazard
Hold for Decay
Disposal company
RAM wasteHalf-life <
90 days
Radioactive
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Solid Radioactive Waste
• Disposal Limits (DL) listed on uOttawa’s CNSC License –disposal to landfill in MBq/kg
▫ C-14: 3.7 MBq (100 μCi)/kg
▫ H-3: 37 MBq (1000 μCi)/kg
▫ I-125: 0.037 MBq (1 μCi)/kg
▫ P-32: 0.37 MBq (1o μCi)/kg
• Radioisotopes with T ½ < 90 days can hold for decay until 1DL/kg is attained
• Off-site transfers when the activity is too great for other disposal options, or CNSC does not allow disposal
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Check 2nd page of Permit for Disposal Limits
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Calculate Time Required for Decay
A = Ao e - t
t = ln (A/Ao)
-
A = activity at time ‘t’
Ao = activity at time zero
t = elapsed time
= decay constant; = 0.693 / (t 1/2)
t1/2 = half-life
RadPro calculator: http://www.radprocalculator.com/Decay.aspx
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Step 1: Determine activity (A)
permitted at disposal
Weight = 0.785 kg
1 DL/kg = 10 Ci/kg
A = Weight x 1 DL/kg
= 0.785 kg x 10 Ci/kg
= 7.85 Ci
Given:
100 μCi of P-32 solid waste collected; weight of waste = 0.785 kg
Disposal limit of P-32 is 0.37 MBq/kg (10 μCi/kg)
Half life (t1/2) of P-32 is 14.3 days
Step 2: Determine Length of Decay Period (t)
t = ln (A/Ao)
-
A = activity at time ‘t’ (7.85 Ci)
Ao = activity at time zero (100 Ci)
t = elapsed time (?)
= decay constant
=0.693 / 14.3 days = 0.0485/day
t = ln (7.85 Ci / 100 Ci) = 52.5 days
- 0.0485/day
117Example: Calculate Time Required for Decay
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Retention time
Disposal Date
Its your waste until disposal – so your responsible for keeping records
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Solid Waste Decay Log
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Solid Waste Decay Label
• Stick on decay container
• Fill out numbers from calculation
▫ Total activity when transfer for decay
▫ Date of transfer for decay
▫ The length of time required for decay to disposal limits
▫ Established disposal date
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Water Soluble Radioactive Waste
• Disposal limits are assigned by building (CNSC-C-292)
▫ C-14 0.01 TBq/yr
▫ H-3 1 TBq/yr
▫ I-125 100 MBq/yr
▫ P32 4 GBq/yr
• Assessed at the time of user registration form – use profile
• Monitored by the City of Ottawa
• Should NOT be put down the drain if chemical hazard exists
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Liquid Scintillation Waste
• Do not hold for extended periods as vials can leak
• Waste should be stored in pails that are double lined with plastic bag and have a LS Waste label
• LS Waste Log should accompany pail or for electronic files, a note where log can be found (ORM only accept electronic copy)
• Where activities are low, we will verify if they can be declassified as radioactive waste which result in cost savings
• Keep in mind LS cocktails are chemical hazards
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Liquid Scintillation Waste Log
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Waste Storage Requirement
• Container: 20 L waste pails that are double lined with plastic bag
• Waste Logs to placed on lid of pail, or the pail should have a label indicating where log is
• Pails must be labelled with appropriate label
• Once decayed/removed: all radioactive labels must be removed, de-faced or covered
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Example: LS Waste Storage
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Radioactive Animal Carcass Waste
• Disposal via ACVS: Animal Carcass Waste Log is Required
• If sent for incineration, activities must meet regulatory criteria
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Radioactive Animal Carcasses Waste Disposal Procedure
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Monitoring Activities
• Radiation detection
• Contamination monitoring
• Dose rate monitoring (around storage, waste, use areas)
• Exposure monitoring
• Leak testing
• Thyroid screening
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Radiation Detection Instrument
• Measures radiation fields and dose rate
• Must be selected to measure specific α, β, γ, etc.
• Types of instrument
▫ Geiger Muller (GM) meter
▫ GeLi detector
▫ Ionization chamber
▫ Liquid scintillation counter (LSC)
▫ Gamma counter
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Portable detectors – survey meters
LSC
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Direct vs. Indirect Measurement
• Direct Measurement
▫ A portable survey meter
▫ Checks contamination, radiation field & surface dose rate
▫ Result is sum of both fixed and non-fixed contamination
• Indirect Measurement
▫ Wipe test by liquid scintillation counter/gamma counter
▫ Check low energy (H-3/C-14)
▫ Detects radioactive materials
▫ Detects removable (non-fixed) contamination
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Contamination Monitoring
• Must be done regularly when radioisotopes are used:
▫ If < 5 ALI: basic level - weekly
▫ If > 5 ALI: intermediate level - after each use
• Need an up-to-date map of lab
▫ Area numbers used on the Contamination Monitoring Monthly Log
• Also required for after spill, lab decommissioning etc.
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Contamination Monitoring Monthly Log
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Contamination Monitoring Criteria
• Contamination criteria
▫ Class A: 3.0 Bq/cm2
▫ Class B: 30 Bq/cm2
▫ Class C: 300 Bq/cm2
• Criteria for decommissioning & package prior to disposal
▫ Class A: 0.3 Bq/cm2
▫ Class B: 3.0 Bq/cm2
▫ Class C: 30 Bq/cm2
• uOttawa “Best Practice” is to meet 0.3 Bq/cm2 for all contamination monitoring
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• Record the monitoring results on the monthly log
• If radioactivity not used, record “no radioisotope used”
Contamination Monitoring Monthly Log
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Converting from cpm to Bq/cm2
Bq/cm2 = (cpm – bkg) / Ec x Ew x 60 x Acpm = counts per minute for the wipe,
bkg = counts per minute of the background filter,
Ec = scintillation counter or GM efficiency
Ew = wipe efficiency, assume 10% (0.1), and
A = area wiped in cm2.
• Note: as a rule of thumb, when the counter efficiency (Ec) is unknown, the following efficiencies can be used for the purpose of counting wipes:
▫ 100% (1) for 32P, 14C, 35S
▫ 75% (0.75) for 125I
▫ 50% (0.5) for 3H and unknowns
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Liquid Scintillation Counters (LSC)
• Detect low energy (H-3 and C-14) activities are not generally detectable by survey meters or contamination monitors
• When use LSC for contamination monitoring
▫ Select the appropriate energy range
▫ Decommissioning wipe testing, use the “open” (entire) energy range
▫ Know the efficiency for the radioisotope you are monitoring
▫ Know how to do an operational check to ensure your results are accurate (use standards)
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Dose Rate Monitoring
• Routinely to ensure doses are ALARA
• Dose rate around storage, waste, use areas must be < 2.5 µSv/hr
• Whenever new sources arrive, or new radioisotopes are used
• When new experimental procedures are implemented
• If your meter is not calibrated, make sure it is verified with a calibrated meter
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Reading a Survey Meter
Example: with range selected to x10, what is the radiation field in μSv/hr?
Use 2nd scale reading 11 multiply by 10: 110 μSv/hr
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Instrument Check (Survey Meters)
• Annual calibration/verification is required
• Pre-operations check: damage, battery check, audible response, calibration check, response setting, electronic connections
• Must be able to demonstrate capacity to detect CNSC criteria (Class A, B, C radioisotopes)
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Personal Exposure Monitoring
• Health Canada – National Dosimetry Service
• OSL – optical stimulated luminescence dosimeters
▫ Whole Body, extremities (ring, wrist)
• Report to CNSC if exceed criteria
▫ Dose limits for whole body: 1 mSv
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Dosimeter Wearing
• Avoid exposing them to high temperatures, water, direct sunlight and fluorescence light
• Avoid storage in areas of high radiation fields
• Wear securely with the badge facing the source of radiation
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• If contaminated or damage stop wearing, replace with a new dosimeter
• Review of all doses that meet action criteria
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CNSC poster should be posted in your lab if dosimeters are used.
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Thyroid Screening
• When work with unbound iodine I-125 & I-131, thyroid screening is required if personal contamination has occurred, or if in a 24-hour period the following amounts are exceeded:
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ConfinementQuantity of I-125 or I-131
Gases, volatile liquids and powders
None 2 MBq
Fumehood 200 MBq
Glovebox 20,000 MBq
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Leak Testing for Sealed Sources
• Required for > 50 MBq (1.35 mCi) sealed sources
• Leak testing frequency:
▫ In use – every 6 months
▫ In use in a device – every 12 month
▫ In storage – every 24 month
• Follow approved procedures
• Reporting criteria is a leakage of 200 Bq
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Radiation Decommissioning
• Required when ▫ Lab relocating
▫ Permit terminating
▫ Equipment disposal
▫ Radioactive material not in use for 1 year
• Requirements ▫ Radioactive material/waste is safely relocated/disposed
▫ Contamination monitoring is done
▫ Signages/postings are removed
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Radiation Decommission Guide & Form
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Spill Response
• Mitigated by training, appropriate experimental design and good work practices
• Anticipate the type of spill
▫ Minor spill < 100 EQ
▫ Major spill > 100 EQ
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Spill Response
• Quick risk assessment:
▫ Type of spill (liquid, solid, aerosol)
▫ Size of spill
▫ Activity involved
▫ Physical characteristic of the radioisotope (decay energy, type of emission, half-life)
▫ Biological risks
▫ Any other hazard that may exist
• Inform ORM immediately if
▫ Major spills (> 100 EQ)
▫ Contamination of personnel, or release of volatile
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Spill Response Procedures
1. Notify all individuals in the immediate area that a spill has occurred.
2. Increase distance from the spill. If the spill is severe, this may require evacuating the area.
3. If evacuation is required, lock and sign door. The warning sign should include your name, as well as a location of spill and time of return.
4. Limit access to only those individual responding to the spill.
5. If personal contamination has occurred, gently wash skin with a mild soap and tepid water.
6. If personal (skin) contamination has occurred, immediately contact ORM (x. 5411)
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Spill Response Procedures
If safe to do:
1. Contain the spill with absorbent material (paper towels)
2. Obtain any additional supplies and/or personal protective equipment (overalls, shoe coverings)
3. Push spill toward its centre. Clean from outside to inside and collect all contaminated material in one appropriately labelled bag
4. Decontaminate area with appropriate solutions (keep in mind biological or chemical hazards)
5. If fixed contamination remains, contact the ORM
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CNSC’s Spill Procedures poster must be posted in
your lab!
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Know Radioisotope Characteristics
• Know prior to work
▫ Type of emission Shielding
▫ CNSC exemption quantity Use limit
▫ Classification Contamination criteria
▫ Method of detection Dose rate/contamination
▫ Dosimetry wearing Applicable or not
▫ Safety precautions Operational
• Resources: CNSC Radionuclide Information Booklet
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Example: H-3
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Example: H-3
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Example: C-14
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Example: C-14
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Good Practices & Safety Precautions
• Know your radioisotopes
• Follow ALARA principles
• Always wear your dosimeter when working with radioactive material
• Conduct monitoring activity (package, radiation field/contamination)
• Good hygiene techniques (no food/drink, handwashing)
• Control contamination with absorbent paper and spill tray
• Use a fumehood when work with airborne radioactivity (e.g., vapours, dust, aerosols, etc.)
• Wear proper PPE such as gloves, safety glasses, lab coats, respirators etc. – consider wearing double gloves
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Records Retention
• Following records must be kept in the lab:
▫ Training (certificate, New User Registration Form)
▫ Inventory including Use and Disposition Form
▫ Acquisition & transfer
▫ Use and Disposition Form (with up-to-date map)
▫ Waste Logs (unit must be in Bq)
▫ Contamination monitoring (unit must be in Bq)
▫ Proof that instruments are calibrated/certified and capable of detecting CNSC contamination criteria
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If CNSC come into your lab…
• You need to know
▫ Where to find documents/records
▫ If your instrument is working properly
▫ The level of your lab. i.e. Basic, Intermediate (look at your internal permit)
▫ The Class (A, B or C) of radioisotopes used (found on your internal permit
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CNSC is asking you how and why you know you are compliant.
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Don’t forget to take
Radiation Safety
Training Quiz
• Link to Quiz is located on the same page as course registration
• https://web47.uottawa.ca/en/lrs/node/1401
• Must be completed in 2 weeks, deadline Tue, Oct. 6, 2020
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You can ask questions now or later, but
just make sure you ask them
Resources:
• Radiation Safety Web Page
• Contact Radiation Safety Specialist [email protected]
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