SAFARI-1

SAFARI-1
Location of SAFARI-1 in South Africa
Official name South African Fundamental Atomic Research Installation 1[1][2]
Country South Africa
Location Pelindaba
Coordinates 25°48′0″S 27°57′0″E / 25.80000°S 27.95000°E / -25.80000; 27.95000Coordinates: 25°48′0″S 27°57′0″E / 25.80000°S 27.95000°E / -25.80000; 27.95000
Status Operational
Construction began 1961
Commission date 1965
Operator(s) NECSA
Power generation
Nameplate capacity 20 MW
Website
www.necsa.co.za

SAFARI-1 is a 20 MW light water-cooled, beryllium reflected, pool-type research reactor, initially used for high level nuclear physics research programmes and was commissioned in 1965.[3][4]

The reactor is owned and operated by South African Nuclear Energy Corporation (NECSA) at their facility in Pelindaba, South Africa.

The reactor is a tank in pool type reactor[5] and is designed to run on enriched uranium. Currently the fuel in use is the remains of the decommissioned South African nuclear weapons.

History

The reactor was built in cooperation with the Atoms for Peace program run by the US DOE in the 1950s and '60s.[6]

Planning started in 1960 and construction occurred between 1961 and 1965. In March 1965 the reactor was commissioned and initially operated at 6.75 MW, a limitation imposed by the capacity of the secondary cooling circuit. Output was increased to 20 MW in 1968 after the secondary cooling circuit was upgraded.[5]

Initially the reactor was fueled with HEU supplied by the United States, but in 1975 exports of HEU from the USA to South Africa was suspended in protest of South Africa's nuclear weapons program and the construction of the Valindaba Y-plant. In order to conserve the available fuel supply, reactor output was reduced to 5 MW and operating hours were dramatically reduced [5][7]

In 1979 the Valindaba Y-plant started producing 45% HEU and in 1981 the first fuel assemblies from Valindaba were made available to fuel SAFARI-1. Operating hours were increased, but power was kept at 5 MW until 1993 when it was increased to 10 MW and eventually 20 MW due to the commercialisation of NECSA operations.[5][7]

The reactor was shut down for repairs in 1988 after a water leak was detected in the pool.[5]

In 2005 it was announced that the reactor is to be converted from using High Enriched uranium to Low Enriched uranium as fuel.[4][8]

Use

One of Safari-1s primary uses is the production of radio isotopes for radiopharmacology use in nuclear medicine, specifically the production of molybdenum-99.[9]

Radio isotopes are distributed through NTP Radioisotopes, a subsidiary company of NECSA

See also

References

  1. "Nuclear research for a sustainable future" (PDF). South African Nuclear Energy Corporation. Retrieved 25 November 2012.
  2. "Obama praises SA on nuclear disarmament". defenceWeb. 12 April 2010. Retrieved 25 November 2012.
  3. "SAFARI-1: Conversion to LEU". South African Nuclear Energy Corporation. Retrieved 2008-12-03.
  4. 1 2 "Minister of Minerals and Energy announces the phasing out of the use of High Enriched Uranium for the Pelindaba Research Reactor Nuclear Fuel". South African Government Information. 2005-07-18. Retrieved 2008-12-03.
  5. 1 2 3 4 5 Vlok, JWH. "REACTOR OPERATIONS AT SAFARI-1" (PDF). Manager: Reactor Operations SAFARI-1 Research Reactor NECSA. Retrieved 2008-12-04.
  6. David Philip, ed. (1998). "Ch. 9. Apartheid's nuclear arsenal: Deviation from development". FROM DEFENCE TO DEVELOPMENT — Redirecting Military Resources in South Africa. CRDI. ISBN 1-55250-151-5. Retrieved 2008-12-03.
  7. 1 2 Cochran, Thomas B (1994). "Highly Enriched Uranium Production for South African Nuclear Weapons" (PDF). Science & Global Security. Gordon and Breach Science Publishers B.A. 4: 161–176. doi:10.1080/08929889408426398. Retrieved 2008-12-04.
  8. "SAFARI-1: Achieving Conversion to LEU — A Local Challenge" (PDF). South African Nuclear Energy Corporation. Retrieved 2008-12-03.
  9. Iturralde, Mario P. (December 1996). "Molybdenum-99 production in South Africa" (PDF). European Journal of Nuclear Medicine and Molecular Imaging. 23 (12): 1681–1687. doi:10.1007/BF01249633. ISSN 1619-7089.
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