Pressure tube and calandria tube damage during a channel maintenance procedure, required replacement of the two tubes. īruce nuclear Reactor 6, Bruce B station. The Emergency Core Cooling System was used to prevent a meltdown. Pickering nuclear Reactor 1, Pickering, Ontario, CanadaĪ Heavy water leak of 2300 trillion becquerels of radioactive tritium into Lake Ontario, resulting in increased levels of tritium in Toronto drinking water. Pressure tube rupture during pressurizing test (reactor shut down). īruce nuclear Reactor 2, Bruce County, Ontario, Canada All four reactors re-tubed with new materials (Zr-2.5%Nb) over ten years. Pressure tube, that holds the fuel bundles, ruptured due to hydriding. Pickering nuclear Reactor 2, Pickering, Ontario, Canada The repair took several weeks for workers to complete. 2,739 litres of coolant oil leaked, most of it into the Winnipeg River. A fuel rod caught fire and broke when removed, then dispersed fission products and alpha-emitting particles in the reactor building. The world's first major nuclear reactor accident. A hydrogen explosion occurred in the reactor core due to a cascade of malfunctions and operator errors. Ĭanada Nuclear power accidents in Canada Date "Inadequate setting of the auxiliary feedwater turbopump". "Severe health effects for a worker at a commercial irradiation facility as a result of high doses of radiation" at Sterigenics. "Inadequate protection relays and related setpoints". "Safety injection during hot shutdown at Tihange 2 unit". See the Laka Foundation's list of recent nuclear and radiological incidents in Belgium from which this table is (partially derived). This list is incomplete but there are no known fatalities in Belgium. Relatively few accidents have involved fatalities, with roughly 74 casualties being attributed to accidents and half of these were those involved in the Chernobyl nuclear disaster. Īt least 57 accidents and severe incidents have occurred since the Chernobyl disaster, and over 56 severe incidents have occurred in the USA. A 30 kilometres (19 mi) " Zone of alienation" has been formed around the reactor. The plume spread in the near distance primarily over Belarus and after that covered extensive portions of Europe with traces of radioactivity, leaving reindeer in Northern Europe and sheep in portions of England unfit for human consumption. The accident occurred at the Chernobyl Nuclear Power Plant after an unsafe systems test led to a series of steam explosions that destroyed reactor number four. Note that the Chernobyl disaster may have scored an 8 or 9, if the scale continued. The world's worst nuclear accident has been the 1986 Chernobyl disaster in the Soviet Union, one of two accidents that has been rated as a level 7 (the highest) event on the International Nuclear Event Scale. The 1979 Three Mile Island accident in Pennsylvania was caused by a series of failures in secondary systems at the reactor, which allowed radioactive steam to escape and resulted in the partial core meltdown of one of two reactors at the site, making it the most significant accident in U.S. Because nuclear power plants are large and complex, accidents on site tend to be relatively expensive. Property damage costs include destruction of property, emergency response, environmental remediation, evacuation, lost product, fines, and court claims. Globally, there have been at least 99 (civilian and military) recorded nuclear power plant accidents from 1952 to 2009 (defined as incidents that either resulted in the loss of human life or more than US$50,000 of property damage, the amount the US federal government uses to define nuclear energy accidents that must be reported), totaling US$20.5 billion in property damages. An interdisciplinary team from MIT has estimated that given the expected growth of nuclear power from 2005 to 2055, at least four serious nuclear accidents would be expected in that period. Catastrophic scenarios involving terrorist attacks are also conceivable. According to UBS AG, the Fukushima I nuclear accidents have cast doubt on whether even an advanced economy like Japan can master nuclear safety. Mistakes do occur and the designers of reactors at Fukushima in Japan did not anticipate that a tsunami generated by an unexpected large earthquake would disable the backup systems that were supposed to stabilize the reactor after the earthquake. The nuclear power industry has improved the safety and performance of reactors, and has proposed new safer (but generally untested) reactor designs but there is no guarantee that the reactors will be designed, built and operated correctly.
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