Nuclear Engineering and Technology (Aug 2018)

Performance of U3Si–Al dispersion fuel at HANARO full-power condition

  • Heetaek Chae,
  • Choong Sung Lee,
  • Jong Man Park,
  • Heemoon Kim,
  • Yeon Soo Kim

Journal volume & issue
Vol. 50, no. 6
pp. 899 – 906

Abstract

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The irradiation performance of U3Si dispersion fuel in an Al matrix, U3Si-Al, under the Hi-Flux Advanced Neutron Application Reactor (HANARO) design full-power condition of 30 MW was tested for full-power qualification of the fuel. A test assembly was fabricated containing 18 fuel rods made with atomized U3Si powder manufactured at the Korea Atomic Energy Research Institute. The test assembly was irradiated for 188 full-power operation days in the HANARO subject to the normal fuel-loading scheme and achieved about 60 at% U-235 average burnup and 75 at% U-235 peak burnup. The maximum linear power of the test assembly was 98 kW/m. Nondestructive and destructive postirradiation examinations were conducted. The measured postirradiation examination data were compared with data from previous irradiations and the design criteria required for HANARO fuel. Consequently, it was concluded that in-pile performance was acceptable and fuel integrity was maintained, and the behavior satisfied the fuel design requirements. Keywords: Fuel Qualification, HANARO, Postirradiation Examination Data, U3Si-Al Dispersion Fuel, U3Si Fuel