.jpg) Reactor 4 several months after the disaster. Reactor 3 can be seen behind the ventilation stack | |
| Date | 26 April 1986 |
|---|---|
| Time | 01:23:40 MSD (UTC+04:00) |
| Location | Chernobyl nuclear power plant, Pripyat, Chernobyl Raion, Ukrainian SSR, USSR (now Ukraine) |
| Type | Nuclear and radiation accident |
| Cause | Reactor design flaws and serious breach of protocol during simulated power outage safety test |
| Outcome | INES Level 7 (major accident) see Chernobyl disaster effects |
| Deaths | Fewer than 100 deaths directly attributed to the accident. Varying estimates of increased mortality over subsequent decades (see Deaths due to the disaster) |
The Chernobyl disaster was a nuclear accident that occurred on Saturday 26 April 1986, at the No. 4 reactor in the Chernobyl Nuclear Power Plant, near the city of Pripyat in the north of the Ukrainian SSR in the Soviet Union.[1][2] It is considered the worst nuclear disaster in history both in terms of cost and casualties,[3] and is one of only two nuclear energy accidents rated at seven—the maximum severity—on the International Nuclear Event Scale, the other being the 2011 Fukushima Daiichi nuclear disaster in Japan. The initial emergency response, together with later decontamination of the environment, ultimately involved more than 500,000 personnel and cost an estimated 18 billion Soviet rubles—roughly US$68 billion in 2019, adjusted for inflation.[4][5]
The accident occurred during a safety test on the steam turbine of an RBMK-type nuclear reactor. During the planned decrease of reactor power in preparation for the electrical test, the power unexpectedly dropped to a near-zero level. The operators were unable to fully restore the power level specified by the test program, which put the reactor in an unstable condition. This risk was not made evident in the operating instructions, so the operators proceeded with the test. Upon test completion, the operators triggered a reactor shutdown, but a combination of unstable conditions and reactor design flaws caused an uncontrolled nuclear chain reaction instead.[6]: 33
A large amount of energy was suddenly released, and two or more explosions ruptured the reactor core and destroyed the reactor building. One was a highly destructive steam explosionfrom the vaporizing super-heated cooling water; the other explosion could have been another steam explosion, a hydrogen deflagration, or a small nuclear explosion, akin to a nuclear fizzle. This was immediately followed by an open-air reactor core meltdown that released considerable airborne radioactive contamination for about nine days that precipitated onto parts of the USSR and Western Europe, especially Belarus, 16 km away, where around 70% landed,[7] before finally ending on 4 May 1986.[8][9] The fire gradually released about the same amount of contamination as the initial explosion.[4] As a result of rising ambient radiation levels off-site, a 10-kilometre (6.2 mi) radius exclusion zone was created 36 hours after the accident. About 49,000 people were evacuated from the area, primarily from Pripyat. The exclusion zone was later increased to 30 kilometres (19 mi) when a further 68,000 people were evacuated from the wider area.[10]
The reactor explosion killed two engineers and severely burned two more. A massive emergency operation to put out the fire, stabilize the reactor, and clean up the ejected nuclear core began. In the disaster and immediate response, 134 station staff and firemen were hospitalized with acute radiation syndrome due to absorbing high doses of ionizing radiation. Of these 134 people, 28 died in the days to months afterward and approximately 14 suspected radiation-induced cancerdeaths followed within the next 10 years.[11][12] Significant cleanup operations were taken in the exclusion zone to deal with local fallout, and the exclusion zone was made permanent.
Among the wider population, an excess of 15 childhood thyroid cancer deaths were documented as of 2011.[13][14] The United Nations Scientific Committee on the Effects of Atomic Radiation(UNSCEAR) has, at multiple times, reviewed all the published research on the incident and found that at present, fewer than 100 documented deaths are likely to be attributable to increased exposure to radiation.[15] Determining the total eventual number of exposure related deaths is uncertain based on the linear no-threshold model, a contested statistical model, which has also been used in estimates of low level radon and air pollution exposure.[16][17] Model predictions with the greatest confidence values of the eventual total death toll in the decades ahead from Chernobyl releases vary, from 4,000 fatalities when solely assessing the three most contaminated former Soviet states, to about 9,000 to 16,000 fatalities when assessing the total continent of Europe.[18]
To reduce the spread of radioactive contamination from the wreckage and protect it from weathering, the protective Chernobyl Nuclear Power Plant sarcophagus was complete in December 1986. It also provided radiological protection for the crews of the undamaged reactors at the site, which were restarted in late 1986 and 1987. Due to the continued deterioration of the sarcophagus, it was further enclosed in 2017 by the Chernobyl New Safe Confinement, a larger enclosure that allows the removal of both the sarcophagus and the reactor debris, while containing the radioactive hazard. Nuclear clean-up is scheduled for completion in 2065.[19]
https://en.wikipedia.org/wiki/Chernobyl_disaster
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