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IAEAInternational Atomic Energy Agency
Emergency Response
Nuclear and radiological incidents – Introduction
Day 10 – Lecture 1
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IAEA 2
Introduction - Objective
• Radiation sources are an integral part of our technology-based life
• The potential for accidents is there and it is not disappearing
• The potential for accidents that could lead to radiological consequences will be examined
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IAEA 3
Content
• Types of radiation accidents• Where they can happen• Accident consequences• Statistics of radiation accidents• Summary
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IAEA 4
What is a Radiation Accident
• A situation in which there is an unintentional exposure to ionising radiation or radioactive contamination
• Exposure may be real or suspected
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IAEA 5
General Classification
• The range of potential emergencies involving ionizing radiations is enormous• From a major reactor accident to accidents
involving small amounts of radioactive material• In general, emergencies may be classified
into two broad categories:• Nuclear accidents • Radiological accidents
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IAEA 6
Nuclear Accidents
• The term nuclear accident (emergency) applies to• Reactor accident• Accident at reprocessing plants• Accidents at other large nuclear facilities• Accident involving the detonation with partial nuclear
yield of a nuclear weapon• It is one that involves the nuclear fuel cycle and the
potential for criticality
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IAEA 7
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IAEA 8
Where Can They Occur
• The highest risk of severe health effects resulting from a radioactive release comes from nuclear power plants or facilities storing large amounts of nuclear waste from reprocessed nuclear fuel
• By far the most common facility containing very large amounts of radioactive material is a nuclear power plant
• There are 437 commercial nuclear power plants (NPP) operating in the world (as of January 2013)
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IAEA 9
Reactor Accidents
• NRX, Canada, 1952• Windscale, UK, 1957• NRU, Canada, 1957• Westing House test reactor, USA, 1960• SL-1, USA, 1961• Enrico Fermi, USA• Lucens, Switzerland, 1976• Browns Ferry fire, USA• TMI, USA, 1979• Chernobyl, USSR, 1986• Fukushima , March 2011
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IAEA 10
Radiological Accidents
• A radiological accident (emergency) is one that involves• Sources other than nuclear fuel• The dispersion of material from a nuclear
weapon without a nuclear yield• Radiological emergencies that could result from
deliberate acts, such as terrorist activities or illicit trafficking
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IAEA 11
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IAEA 12
Types of Radiological Accidents
• Radiological accidents can be classified in three major categories:• Accidents with radiation sources or radioactive
material• Accidents outside the country with trans-
boundary effects, and• Nuclear powered satellite re-entry
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IAEA 13
Accidents With Radioactive Sources
• Discovery of a source or contamination• Missing source (lost or stolen)• Damaged source or loss of shielding• Fire involving radioactive source(s)• Dispersion of alpha emitter • Transport accident with radioactive sources• Accident involving nuclear or radiological
devices (research reactor, neutron generator, accelerator…)
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IAEA 14
Where Can They Occur
• Medical institutions• Industrial facilities• Research and educational institutions• Transport involving radioactive material• Nuclear fuel cycle• Field applications with gamma
radiography
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IAEA 15
Medical Institutions
Use Sources Dose rates or activity Exposure Hazard area
theraphy departments
Co-60 Cs-137
1 – 10 Sv/h in vicinity
external therapy rooms
applicators Cs-137, Ir-192, Ra-226, P-32, Sr-90, I-125
order of 10 MBq (mCi)
external internal
therapy or nuclear med. area
nuclear medicine
I-131, I-123, Tc-99m, Xe-133
order of 10 MBq (mCi)
external internal
storage, nuclear med. area, hospital
X-ray machines, accelerators
X-rays, electrons
less than 1 Sv/h external radiology or
therapy rooms
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IAEA 16
Industrial Facilities
Use Sources Dose rates or activity Exposure Hazard area
flow, friction, wear, thickness, densities, sterilization
Co-60, Cs-137, Ir-192, neutrons, Am-241, Po-210
more than TBq (100 Ci)
mostly external, internal
individual hazards, room, facility contamin.
X-ray machines, sterilizers, accelerators
X-rays, α, β, γ Co-60, Cs-137
up to 10 PBq (1 MCi)
external
facility
satellites, navigation buoys, weather stations
Pu-238, Sr-90 large activities
external internal
large areas, isolated locations
luminescent materials
Pr-147, H-3, Ra-226
up to 10 TBq (kCi)
internal facility and surrounding area
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IAEA 17
Research and Educational Institutions
Use Sources Dose rates or activity Exposure Hazard area
departments of physics, nuclear engineering and life sciences
H-3, C-14, Co-60, X-rays, alpha, beta, gamma, accelerators, neutron generators, microscopes, X-ray crystallography
various external and internal
facility and surrounding area; irradiation of hands and/or fingers from X-ray crystallography units
research reactors: power levels up to 10 MW
fission products, neutrons, fissile materials, transuranics
several 10 TBq (thousands of Ci)
external and internal
several km2
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IAEA 18
Transport
• Approximately 2.5 million packages of radioactive materials are shipped only in the USA each year
• Transport emergencies have caused no serious radiation overexposure• However, the subsequent loss of sources
has led to serious injuries, e.g. Algeria, 1976
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IAEA 19
Transport (Examples)
Use Sources Dose rates or activity Exposure Hazard area
fuel transport enriched uranium several 10 PBq (million of Ci) external several km2
radio-pharmaceuticals
I-131, Tc-99m, Xe-133 and others
several 10 TBq (thousands of Ci)
external, internal
transport, terminals, roads
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IAEA 20
Where Else
• Almost anywhere • In the field (gamma radiography sources)• Terrorist or criminal activities • Illicit trafficking• In scrap yards (wrongly disposed source)• On military premises• Basically, in many places where they should not
be
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IAEA 21
Transboundary Accidents
• Impact from a severe accident at a nuclear installation far from the country’s border
• Most significant threat: contamination of the environment through deposition• Deposition is highest if rain is present at the time
of plume passage• Most significant challenge: the media
perception
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IAEA 22
Nuclear Powered Satellite Re-entry
• Nuclear power sources are used in space vehicles such as satellites and deep space probes• Satellites may carry a small nuclear reactor,
radioisotopic thermoelectric generators and heating units contain plutonium
• Launch accidents are not a significant threat• Accidental re-entry is a possible threat
• Crash on ground may lead to wide-spread of contamination (e.g. COSMOS 954, Canada, 1979)
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IAEA 23
Possible Radiological Hazards
• External irradiation• Internal contamination through inhalation or
ingestion
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IAEA 24
Possible Health Consequences
• Acute radiation syndrome
• Local burns• Combined injuries• Death• Increased risk of late
effects (e.g. cancer)
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IAEA 25
Other Potential Consequences
• Environmental contamination• Economic losses• Psychological• Legal
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IAEA 26
Summary
• Radiation accidents can happen• Serious radiological consequences are rare
but they can occur• Stochastic effects• Severe injuries• Death
• Therefore, emergency response plans are required
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IAEA 27
Where to Get More Information
• Generic Procedures for Assessment and Response During a Radiological Emergency, IAEA-TECDOC-1162 (2000)
• Lessons learned from Accidents in Industrial Radiography, IAEA Safety Reports Series No.7 (1998)