Kyshtym Disaster

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Kyshtym disaster
Map of the East Urals Radioactive Trace.png

Map of the East Urals Radioactive Trace (EURT): area contaminated by the Kyshtym disaster.

Date29 September 1957
LocationMayak, Chelyabinsk-40, Chelyabinsk Oblast, Russian SFSR, Soviet Union
Coordinates55°42′45″N 60°50′53″E / 55.71250°N 60.84806°ECoordinates: 55°42′45″N 60°50′53″E / 55.71250°N 60.84806°E
TypeNuclear accident
OutcomeINES Level 6 (serious accident)
Casualties
66 diagnosed cases of chronic radiation syndrome[citation needed]
Estimated 200 additional cases of cancer[citation needed]
10,000 evacuated[citation needed]

The Kyshtym disaster, sometimes referred to as the Mayak disaster or Ozyorsk disaster in newer sources, was a radioactive contamination accident that occurred on 29 September 1957 at Mayak, a plutonium production site for nuclear weapons and nuclear fuel reprocessing plant located in the closed city of Chelyabinsk-40 (now Ozyorsk) in Chelyabinsk Oblast, Russian SFSR, Soviet Union.

The disaster was the second worst nuclear incident (by radioactivity released) after the Chernobyl disaster. It measured as a Level 6 disaster on the International Nuclear Event Scale (INES),[1] making it the third highest on the INES (which ranks by population impact), behind Chernobyl (evacuated 335,000 people) and the Fukushima Daiichi nuclear disaster (evacuated 154,000 people) which are both Level 7 on the INES. At least twenty-two villages were exposed to radiation from the Kyshtym disaster, with a total population of around 10,000 people evacuated. Some were evacuated after a week, but it took almost two years for evacuations to occur at other sites.[2]

The disaster spread hot particles over more than 52,000 square kilometres (20,000 sq mi), where at least 270,000 people lived.[3] Since Chelyabinsk-40 (later renamed Chelyabinsk-65 until 1994) was not marked on maps, the disaster was named after Kyshtym, the nearest known town.

Background[edit]

After World War II, the Soviet Union lagged behind the United States in the development of nuclear weapons, so its government started a rapid research and development program to produce a sufficient amount of weapons-grade uranium and plutonium. The Mayak plant was built in haste between 1945 and 1948. Gaps in physicists’ knowledge about nuclear physics at the time made it difficult to judge the safety of many decisions.

Environmental concerns were secondary during the early development stage. Initially Mayak dumped high-level radioactive waste into a nearby river, which flowed to the river Ob, flowing farther downstream to the Arctic Ocean. All six reactors were on Lake Kyzyltash and used an open-cycle cooling system, discharging contaminated water directly back into the lake.[4] When Lake Kyzyltash quickly became contaminated, Lake Karachay was used for open-air storage, keeping the contamination a slight distance from the reactors but soon making Lake Karachay the "most-polluted spot on Earth".[5][6][7]

A storage facility for liquid nuclear waste was added around 1953. It consisted of steel tanks mounted in a concrete base, 8.2 meters (27 ft) underground. Because of the high level of radioactivity, the waste was heating itself through decay heat (though a chain reaction was not possible). For that reason, a cooler was built around each bank, containing twenty tanks. Facilities for monitoring operation of the coolers and the content of the tanks were inadequate.[8] The accident involved waste which was from the sodium uranyl acetate process used by the early Soviet nuclear industry to recover plutonium from irradiated fuel; this is discussed by Foreman in his review on nuclear accidents.[9] The acetate process was a special process which was never used in the West; the idea is to dissolve the fuel in nitric acid, alter the oxidation state of the plutonium, and then add acetic acid and base. This would convert the uranium and plutonium into a solid acetate salt.

Explosion[edit]

Track of the radiation plume from the Kyshtym event; the East Ural Reserve covers approximately a quarter of the trace in the southwest near the release site.

In 1957, the Mayak plant was the site of a major disaster, one of many other such accidents, releasing more radioactive contamination than Chernobyl. An improperly stored underground tank of high-level liquid nuclear waste exploded, contaminating thousands of square kilometres of territory, now known as the Eastern Ural Radioactive Trace (EURT). The matter was quietly and secretly covered up, and few either inside or outside Russia were aware of the full scope of the disaster until 1980. [10]

Before the 1957 accident, much of the waste was dumped into the Techa River, which it severely contaminated as well as residents of dozens of riverside villages such as Muslyumovo, who relied on the river as their sole source of drinking, washing and bathing water. After the 1957 accident, dumping in the Techa River officially ceased, but the waste material was dumped in convenient shallow lakes near the plant instead, of which 7 have been officially identified. Of particular concern is Lake Karachay, the closest lake to the plant (now notorious as the most contaminated place on Earth[11]) where roughly 4.4 exabecquerels of high-level liquid waste (75-90% of the total radioactivity released by Chernobyl) was dumped and concentrated in the shallow 45-hectare (110-acre) lake[12] over several decades.

On September 29, 1957, Sunday, 4:22 pm, an explosion occurred within stainless steel containers located in a concrete canyon 8.2 meters deep used to store high-level waste. The explosion completely destroyed one of the containers, out of 14 total containers ("cans") in the canyon. The explosion was caused because the cooling system in one of the tanks at Mayak, containing about 70–80 tons of liquid radioactive waste, failed and was not repaired. The temperature in it started to rise, resulting in evaporation and a chemical explosion of the dried waste, consisting mainly of ammonium nitrate and acetates (see ammonium nitrate–fuel oil bomb). The explosion was estimated to have had a force of about 70–100 tons of TNT,[13] As a result of the explosion of the container, a concrete slab weighing 160 tons was torn off. A brick wall was destroyed in a building located 200 meters from the explosion site. One tenth of the radioactive substances were lifted into the air. After the explosion, a column of smoke and dust rose up to a kilometer high, the dust flickered with an orange-red light and settled on buildings and people. The rest of the waste discarded from the tank remained at the industrial site.

The workers at Ozyorsk and the Mayak plant did not immediately notice the polluted streets, canteens, shops, schools, and kindergartens. In the first hours after the explosion, radioactive substances were brought into the city on the wheels of cars and buses, on the clothes and shoes of industrial workers. After the explosion at the facilities of the chemical plant, dosimetrists noted a sharp increase in the background radiation. Many industrial buildings, vehicles, concrete and railways were contaminated. The most polluted was the central city street Lenin, especially when entering the city from the industrial site, and Shkolnaya street, where the management of the plant lived. Subsequently, the flow of radioactive substances was suspended. It was forbidden to enter the city from industrial sites of cars and buses. Site workers at the checkpoint got off the buses and passed the checkpoint. This requirement extended to everyone, regardless of rank and official position. Shoes were washed on flowing trays. The radioactive cloud passed the city of atomic scientists and passed by due to the successful location of the city - when it was laid, the wind rose was taken into account. [14][15]

There were no immediate reported casualties as a result of the explosion, however, the scope and nature of the disaster was covered up both internally and abroad,[16] and even as late as 1982, Los Alamos published a report concluding that the release was actually caused by a weapons test gone awry. [17] The disaster is estimated to have released 20 MCi (800 PBq) of radioactivity. Most of this contamination settled out near the site of the accident and contributed to the pollution of the Techa River, but a plume containing 2 MCi (80 PBq) of radionuclides spread out over hundreds of kilometers.[18] Previously contaminated areas within the affected area include the Techa river, which had previously received 2.75 MCi (100 PBq) of deliberately dumped waste, and Lake Karachay, which had received 120 MCi (4,000 PBq).[7]

In the next ten to eleven hours, the radioactive cloud moved towards the north-east, reaching 300–350 km (190–220 mi) from the accident. The fallout of the cloud resulted in a long-term contamination of an area of more than 800 to 20,000 km2 (310 to 7,720 sq mi), depending on what contamination level is considered significant, primarily with caesium-137 and strontium-90.[7] The territory, which was exposed to radioactive contamination as a result of the explosion at the chemical plant, was named " East Ural Radioactive Trace " (EURT). This area was inhabited by about 270 thousand people. Fields, pastures, reservoirs, forests were polluted on the territory, which turned out to be unsuitable for further use.

In a memo addressed to the Central Committee of the CPSU, Industry Minister E.P. Slavsky wrote: “Investigating the causes of the accident on the spot, the commission believes that the main culprits of this incident are the head of the radiochemical plant and the chief engineer of this plant, who committed a gross violation of the technological regulations for the operation of storage of radioactive solutions " . In the order for the Ministry of Medium Machine Building, signed by E.P. Slavsky, it was noted that the reason for the explosion was insufficient cooling of the container, which led to an increase in the temperature in it and to the creation of conditions for the explosion of salts. This was later confirmed in experiments carried out by the Central Factory Laboratory (CPL). The director of the plant M. A. Demyanovich took all the blame for the accident, for which he was relieved of his duties as director. [15]

Evacuations[edit]

Village Population Evacuation time (days) Mean effective dose equivalent (mSv)
Berdyanish 421 7–17 520
Satlykovo 219 7–14 520
Galikayevo 329 7–14 520
Rus. Karabolka 458 250 440
Alabuga 486 255 120
Yugo-Konevo 2,045 250 120
Gorny 472 250 120
Igish 223 250 120
Troshkovo 81 250 120
Boyovka 573 330 40
Melnikovo 183 330 40
Fadino 266 330 40
Gusevo 331 330 40
Mal. Shaburovo 75 330 40
Skorinovo 170 330 40
Bryukhanovo 89 330 40
Krivosheino 372 670 40
Metlino 631 670 40
Tygish 441 670 40
Chetyrkino 278 670 42
Klyukino 346 670 40
Kirpichiki 160 7–14 5

Aftermath[edit]

Because of the secrecy surrounding Mayak, the populations of affected areas were not initially informed of the accident. A week later, on 6 October 1957, an operation for evacuating 10,000 people from the affected area started, still without giving an explanation of the reasons for evacuation.

Vague reports of a "catastrophic accident" causing "radioactive fallout over the Soviet and many neighboring states" began appearing in the western press between 13 and 14 April 1958, and the first details emerged in the Viennese paper Die Presse on 17 March 1959.[19][20] But it was only eighteen years later, in 1976, that Soviet dissident Zhores Medvedev made the nature and extent of the disaster known to the world.[21][22] In the absence of verifiable information, exaggerated accounts of the disaster were given. People "grew hysterical with fear with the incidence of unknown 'mysterious' diseases breaking out. Victims were seen with skin 'sloughing off' their faces, hands, and other exposed parts of their bodies".[23] Medvedev's description of the disaster in the New Scientist was initially derided by Western nuclear industry sources, but the core of his story was soon confirmed by Professor Lev Tumerman, former head of the Biophysics Laboratory at the Engelhardt Institute of Molecular Biology in Moscow.[24]

The true number of fatalities remains uncertain because radiation-induced cancer is very often clinically indistinguishable from any other cancer, and its incidence rate can be measured only through epidemiological studies. One book claims that "in 1992, a study conducted by the Institute of Biophysics at the former Soviet Health Ministry in Chelyabinsk found that 8,015 people had died within the preceding 32 years as a result of the accident".[4] By contrast, only 6,000 death certificates have been found for residents of the Techa riverside between 1950 and 1982 from all causes of death,[25] though perhaps the Soviet study considered a larger geographic area affected by the airborne plume. More recent epidemiological studies suggest that around 49 to 55 cancer deaths among riverside residents can be associated to radiation exposure.[25] This would include the effects of all radioactive releases into the river, 98% of which happened long before the 1957 accident, but it would not include the effects of the airborne plume that was carried north-east.[26] The area closest to the accident produced 66 diagnosed cases of chronic radiation syndrome, providing the bulk of the data about this condition.[27]

To reduce the spread of radioactive contamination after the accident, contaminated soil was excavated and stockpiled in fenced enclosures that were called "graveyards of the earth".[28] The Soviet government in 1968 disguised the EURT area by creating the East Ural Nature Reserve, which prohibited any unauthorised access to the affected area.

According to Gyorgy,[29] who invoked the Freedom of Information Act to gain access to the relevant Central Intelligence Agency (CIA) files, the CIA had known of the 1957 Mayak accident since 1959, but kept it secret to prevent adverse consequences for the fledgling American nuclear industry.[30] Starting in 1989, several years after the Chernobyl disaster, the Soviet government gradually declassified documents pertaining to the incident at Mayak.[31][32]

Current situation[edit]

The level of radiation in Ozyorsk, at about 0.1 mSv a year,[33] is harmless,[34] but a 2002 study showed the Mayak nuclear workers and the Techa riverside population are still affected.[26]

See also[edit]

References[edit]

  1. ^ Lollino et al. 2014, p. 192
  2. ^ Kostyuchenko & Krestinina 1994, pp. 119–125
  3. ^ Webb, Grayson (12 November 2015). "The Kyshtym Disaster: The Largest Nuclear Disaster You've Never Heard Of". Mental Floss. Retrieved 21 May 2017.
  4. ^ a b Schlager 1994
  5. ^ Lenssen, "Nuclear Waste: The Problem that Won't Go Away", Worldwatch Institute, Washington, D.C., 1991: 15.
  6. ^ Andrea Pelleschi (2013). Russia. ABDO Publishing Company. ISBN 9781614808787.
  7. ^ a b c "Chelyabinsk-65".
  8. ^ "Conclusions of government commission" (in Russian).
  9. ^ M.R.StJ. Foreman, Reactor accident chemistry an update, Cogent Chemistry, 2018, volume 4, 1450944, https://www.cogentoa.com/article/10.1080/23312009.2018.1450944
  10. ^ "The Kyshtym accident, 29th September 1957" (PDF), Stråleverninfo, Norwegian Radiation Protection Authority, 28 September 2007, ISSN 0806-895X
  11. ^ Lenssen, "Nuclear Waste: The Problem that Won't Go Away", Worldwatch Institute, Washington, D.C., 1991: 15.
  12. ^ Tabak, Faruk (3 December 2015). Allies As Rivals: The U.S., Europe and Japan in a Changing World-system. ISBN 9781317263968. Retrieved 9 August 2016. Lake Karachay, a shallow pond about 45 hectares in area.
  13. ^ "Kyshtym disaster | Causes, Concealment, Revelation, & Facts". Encyclopedia Britannica. Retrieved 26 November 2017.
  14. ^ Melnikova, N. V; Artemov, N. T.; Bedel, A. E.; Voloshin, N. P.; Mikheev, M. V.; Govorukhina, T. V. (Translation). "The History Of Interaction Between Nuclear Energy And Society In Russia" (PDF). Institute of History and Archeology, Ural Branch of the Russian Academy of Sciences. Russian Academy of Sciences, Ural Branch, Institute of History and Archaeology, Ekaterinberg, 2018, Ural University. Retrieved 22 September 2021.
  15. ^ a b "Accident at the lighthouse in 1957". IK-PTZ. Retrieved 22 September 2021. East Ural radioactive trace. Problems of rehabilitation of the population and territories of the Sverdlovsk region. Yekaterinburg: Ural Branch of the Russian Academy of Sciences, 2000. ISBN 5-7691-1021-X.
  16. ^ Newtan 2007, pp. 237–240
  17. ^ Soran, D.M., & Stillman, D.B. (1982). Analysis of the alleged Kyshtym disaster (LA--9217-MS). United States
  18. ^ Kabakchi & Putilov 1995, pp. 46–50
  19. ^ Soran & Stillman 1982
  20. ^ Barry, John; Frankland, E. Gene (25 February 2014). International Encyclopedia of Environmental Politics. Routledge. p. 297. ISBN 978-1-135-55396-8.
  21. ^ Medvedev 1976, pp. 264–7
  22. ^ Medvedev 1980
  23. ^ Pollock 1978
  24. ^ "The Nuclear Disaster They Didn't Want To Tell You About". Andrews Cockburn. Esquire Magazine. 26 April 1978.
  25. ^ a b Standring 2009, pp. 174–199
  26. ^ a b Kellerer 2002, pp. 307–316
  27. ^ Gusev, Gusʹkova & Mettler 2001, pp. 15–29
  28. ^ Trabalka 1979
  29. ^ Gyorgy 1979
  30. ^ Newtan 2007, pp. 237–240
  31. ^ "The decision of Nikipelov Commission" (in Russian).
  32. ^ Smith 1989
  33. ^ Suslova, KG; Romanov, SA; Efimov, AV; Sokolova, AB; Sneve, M; Smith, G (2015). "Journal of Radiological Protection, December 2015, pp. 789–818". Journal of Radiological Protection. 35 (4): 789–818. doi:10.1088/0952-4746/35/4/789. PMID 26485118.
  34. ^ "natural radioactivity exposition is 2,4 mS". radioactivity.

Bibliography[edit]

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