Engineering:Lucens reactor

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Lucens reactor
Control room - Lucens reactor - 1968 - L17-0251-0105.jpg
Control room of the Lucens reactor in April 1968
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Official nameVersuchsatomkraftwerk Lucens
CountrySwitzerland
LocationLucens, Vaud
Coordinates [ ⚑ ] : 46°41′34.16″N 6°49′36.81″E / 46.6928222°N 6.8268917°E / 46.6928222; 6.8268917
StatusDecommissioned
Construction began1 April 1962 (1962-04-01)
Project commissioning10 May 1968 (1968-05-10)
Decommission date3 March 1969 (1969-03-03)
Owner(s)Nationale Gesellschaft zur Förderung der industriellen Atomtechnik
Operator(s)Energie Ouest Suisse
Nuclear power station
Reactor typeHWGCR
Reactor supplierThermatom
Cooling sourceCarbon dioxide
Power generation
Nameplate capacity6 MW
External links
Websitewww.ensi.ch/fr/themes/centrale-nucleaire-lucens

Suffered a nuclear accident on 21 January 1969, leading to a partial core meltdown and massive radioactive contamination

The Lucens reactor was a 6 MW experimental nuclear power reactor built next to Lucens, Vaud, Switzerland. After its connection to the electrical grid on 29 January 1968, the reactor only operated for a few months before it suffered an accident on 21 January 1969. The cause was corrosion induced loss of heat dispersal leading to the destruction of a pressure tube which caused an adjacent pressure tube to fail, and partial meltdown of the core, resulting in radioactive contamination of the cavern.[1][2][3][4]

Description

In 1962 the construction of a Swiss-designed pilot nuclear power plant began.[1][5][6][7] The heavy-water moderated, carbon dioxide gas-cooled reactor was built in a cavern.[8] It produced 28 MW of heat, which was used to generate 6 MW of electricity, and it became critical 29 December 1966.[1] It was fueled by 0.96% enriched uranium alloyed with chromium cased in magnesium alloy (magnesium with 0.6% zirconium) inserted into a graphite matrix. Carbon dioxide gas was pumped into the top of the channels at 6.28 MPa and 223 °C and exited the channels at a pressure of 5.79 MPa and at a temperature of 378 °C.[9]

Nuclear accident

It was intended to operate until the end of 1969, but during a startup on 21 January 1969, it suffered a loss-of-coolant accident, leading to a partial core meltdown and the radioactive contamination of the cavern, which was then sealed.[10] Using the criteria of the International Nuclear Event Scale, introduced in 1990 by the International Atomic Energy Agency, the event has been assessed as a Level 4 "Accident with local consequences".[11]

The accident was caused by water condensation forming on some of the magnesium alloy fuel element components during shutdown and corroding them. These corrosion products accumulated in some of the fuel channels. One of the vertical fuel channels was sufficiently blocked by it to impede the flow of carbon dioxide coolant, causing the magnesium alloy cladding to melt and further block the channel. The increase in temperature and exposure of the uranium metal fuel to the coolant eventually caused the fuel to catch fire in the carbon dioxide coolant atmosphere. The pressure tube surrounding the fuel channel split because of overheating and bowing of the burning fuel assembly, and the carbon dioxide coolant leaked out of the reactor.[12][13]

No irradiation of workers or the population occurred, though the cavern containing the reactor was seriously contaminated. The cavern was decontaminated and the reactor dismantled over the next few years. The plant was totally decommissioned in 1988 and the last radioactive waste was removed in 2003.[14][15]

See also

References

  1. 1.0 1.1 1.2 1.3 "LUCENS – Reactor Details". International Atomic Energy Agency. https://www.iaea.org/PRIS/CountryStatistics/ReactorDetails.aspx?current=966. 
  2. Geoffrey F. Hewitt; John G. Collier (8 October 2018). Introduction to Nuclear Power. Taylor & Francis. p. 186. ISBN 978-1-4822-2132-9. https://books.google.com/books?id=2MeDDwAAQBAJ&pg=PA186. 
  3. Catherine Mei Ling Wong (9 December 2017). Energy, Risk and Governance: The Case of Nuclear Energy in India. Springer. p. 262. ISBN 978-3-319-63363-3. https://books.google.com/books?id=F2dCDwAAQBAJ&pg=PA262. 
  4. J. Wolters: Aufgetretene Unfälle mit Kernschäden; in Atomwirtschaft, Juni 1987
  5. Anthony, L. J. (1966) (in en). Sources of Information on Atomic Energy – International Series of Monographs in Library and Information Science. 2. Elsevier. pp. 85. ISBN 978-1-4831-5600-2. https://books.google.com/books?id=rxABBQAAQBAJ&pg=PA85. 
  6. Wildi, Tobias (2003) (in de). Der Traum vom eigenen Reaktor – die schweizerische Atomtechnologieentwicklung 1945–1969. Chronos. doi:10.3929/ethz-a-004459704. ISBN 978-3-0340-0594-4. http://e-collection.library.ethz.ch/eserv/eth:30387/eth-30387-01.pdf. 
  7. Hug, Peter (2009). "Energie nucléaire" (in fr). Hauterive: Gilles Attinger. http://www.hls-dhs-dss.ch/textes/f/F17356.php. 
  8. Summary of Swiss nuclear reactors, SAPIERR Support Action: Pilot Initiative for European Regional Repositories
  9. Heavy water reactors : status and projected development. Vienna: International Atomic Energy Agency. 2002. ISBN 978-9201115027. http://www-pub.iaea.org/MTCD/publications/PDF/TRS407_scr/D407_scr1.pdf. 
  10. J. Wolters: Aufgetretene Unfälle mit Kernschäden; in Atomwirtschaft, Juni 1987
  11. Ha-Duong, Minh; Journé, Venance (2014-05-14). "Calculating nuclear accident probabilities from empirical frequencies" (in en). Environment Systems and Decisions 34 (2): 249–258. doi:10.1007/s10669-014-9499-0. ISSN 2194-5403. https://halshs.archives-ouvertes.fr/hal-01018478/document. 
  12. Description of events, Nuclear tourist
  13. Heavy water reactors: Status and projected development , IAEA, 2002
  14. On-site disposal as a decommissioning strategy. International Atomic Energy Agency. November 1999. p. 67. http://www-pub.iaea.org/MTCD/publications/PDF/te_1124_prn.pdf. Retrieved 6 January 2013. 
  15. "Switzerland’s first nuclear plant decommissioned". SWI swissinfo.ch. http://www.swissinfo.ch/eng/switzerland-s-first-nuclear-plant-decommissioned/3518582. 

External links