Let's work together to end radioactive pollution in the Port Hope area.
Nuclear Accidents since 1952, Nuclear Sites
nuclear power plant accidents: listed and ranked since 1952
Source :http://www.guardian.co.uk/news/datablog/2011/mar/14/nuclear-power-plant-...
http://www.guardian.co.uk/news/datablog/2011/mar/14/nuclear-power-plant-accidents-list-rank
Check the link for location of sites and complete information on accidents. Great resource!
We have identified 33 serious incidents and accidents at nuclear power stations since the first recorded one in 1952 at Chalk River in Ontario, Canada.
The information is partially from the International Atomic Energy Authority - which, astonishingly, fails to keep a complete historical database - and partially from reports. Of those we have identified, six happened in the US and five in Japan. The UK and Russia have had three apiece.
Using Google Fusion tables, we've put these on a map, so you can see how they're spread around the globe:
Get the fullscreen version
But how serious are they? The International Atomic Energy Authority ranks them using a special International Nuclear Events Scale (INES) - ranging from 'anomaly' to 'major accident', numbered from 1 to 7.
The events at Fukushima are level 5, so far and there has only been one 7 in history: Chernobyl in 1986. You can see the full ranking system below and on the attached spreadsheet
What can you do with the data?
Data summary
Nuclear power station accidents and incidents Click heading to sort table. Download this data Year Incident INES level Country IAEA description
2011 Fukushima 5 Japan Reactor shutdown after the 2011 Sendai
earthquake and tsunami; failure of emergency cooling caused an explosion
2011 Onagawa Japan Reactor shutdown after the 2011 Sendai
earthquake and tsunami caused a fire
2006 Fleurus 4 Belgium Severe health effects for a worker at a
commercial irradiation facility as a result of high doses of radiation
2006 Forsmark 2 Sweden Degraded safety functions for common cause
failure in the emergency power supply system at nuclear power plant
2006 Erwin US Thirty-five litres of a highly enriched uranium
solution leaked during transfer
2005 Sellafield 3 UK Release of large quantity of radioactive
material, contained within the installation
2005 Atucha 2 Argentina Overexposure of a worker at a power
reactor exceeding the annual limit
2005 Braidwood US Nuclear material leak
2003 Paks 3 Hungary Partially spent fuel rods undergoing cleaning
in a tank of heavy water ruptured and spilled fuel pellets
1999 Tokaimura 4 Japan Fatal overexposures of workers following a
criticality event at a nuclear facility
1999 Yanangio 3 Peru Incident with radiography source resulting in
severe radiation burns
1999 Ikitelli 3 Turkey Loss of a highly radioactive Co-60 source
1999 Ishikawa 2 Japan Control rod malfunction
1993 Tomsk 4 Russia Pressure buildup led to an explosive mechanical failure
1993 Cadarache 2 France Spread of contamination to an area not
expected by design
1989 Vandellos 3 Spain Near accident caused by fire resulting in
loss of safety systems at the nuclear power station
1989 Greifswald Germany Excessive heating which damaged ten fuel rods
1986 Chernobyl 7 Ukraine (USSR) Widespread health and
environmental effects. External release of a significant fraction of reactor core inventory
1986 Hamm-Uentrop Germany Spherical fuel pebble became lodged in
the pipe used to deliver fuel elements to the reactor
1981 Tsuraga 2 Japan More than 100 workers were exposed to doses
of up to 155 millirem per day radiation
1980 Saint Laurent des Eaux 4 France Melting of one channel of
fuel in the reactor with no release outside the site
1979 Three Mile Island 5 US Severe damage to the reactor core
1977 Jaslovské Bohunice 4 Czechoslovakia Damaged fuel integrity,
extensive corrosion damage of fuel cladding and release of radioactivity
1969 Lucens Switzerland Total loss of coolant led to a power
excursion and explosion of experimental reactor
1967 Chapelcross UK Graphite debris partially blocked a fuel
channel causing a fuel element to melt and catch fire
1966 Monroe US Sodium cooling system malfunction
1964 Charlestown US Error by a worker at a United Nuclear
Corporation fuel facility led to an accidental criticality
1959 Santa Susana Field Laboratory US Partial core meltdown
1958 Chalk River Canada Due to inadequate cooling a damaged
uranium fuel rod caught fire and was torn in two
1958 Vinča Yugoslavia During a subcritical counting experiment a
power buildup went undetected - six scientists received high doses
1957 Kyshtym 6 Russia Significant release of radioactive material
to the environment from explosion of a high activity waste tank.
1957 Windscale Pile 5 UK Release of radioactive material to the
environment following a fire in a reactor core
1952 Chalk River 5 Canada A reactor shutoff rod failure, combined
with several operator errors, led to a major power excursion of more than double the reactor's rated output at AECL's NRX reactor
International Nuclear Events Scale (INES) Click heading to sort table. Download this data Level Definition People and environment Radiological barriers & control Defence in depth Example
SOURCE: IAEA
7 Major accident Major release of radio active material with
widespread health and environmental effects requiring implementation
of planned and extended countermeasures Chernobyl, Ukraine, 1986
6 Serious accident Significant release of radioactive material
likely to require implementation of planned countermeasures.
Kyshtym, Russia, 1957
5 Accident with wider consequences Limited release of radioactive
material likely to require implementation of • Severe damage to
reactor core. Windscale, UK, 1957; Three Mile Island, 1979
some planned countermeasures • Several deaths from radiation •
Release of large quantities of radioactive material within an installation
with a high probability of
significant public exposure. This
could arise from a major criticality accident or fire
4 Accident with local consequences • Minor release of radioactive
material unlikely to result in implementation of planned
countermeasures other than • Fuel melt or damage to fuel resulting in
more than 0.1% release of core inventory. FUKUSHIMA 1, 2011
local food controls. • Release of significant quantities of
radioactive
• At least one death from radiation. material within an
installation with a high probability of significant
public exposure.
3 Serious incident • Exposure in excess of ten times the statutory
annual limit for workers. • Exposure rates of more than 1 Sv/h in an
operating area. • Near accident at a nuclear power plant Sellafield,
UK, 2005
• Non-lethal deterministic health effect (e.g., burns) from
radiation. • Severe contamination in an area not expected by design,
with a with no safety provisions remaining.
low probability • Lost or stolen highly radioactive sealed source.
of significant public exposure. • Misdelivered highly
radioactive sealed source without adequate procedures in place to handle it.
2 Incident • Exposure of a member of the public • Radiation levels
in an operating area • Significant failures in safety provisions
Atucha, Argentina, 2005
in excess of 10 mSv. of more than 50 mSv/h. but with no actual
consequences.
• Exposure of a worker in excess of the • Significant
contamination within the • Found highly radioactive sealed
statutory annual limits facility into an area not expected by
orphan source, device or transport
design package with safety provisions intact.
• Inadequate packaging of a highly
radioactive sealed source.
1 Anomaly • Overexposure of a member of the
public in excess of statutory annual
limits.
• Minor problems with safety
components with significant
defence-in-depth remaining.
• Low activity lost or stolen radioactive
source, device or transport package
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