Nuclear Engineering and Technology

  • 제43권1호
  • /
  • Pages.75-82
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  • 2011
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  • 1738-5733(pISSN)
  • /
  • 2234-358X(eISSN)
한국원자력학회 (Korean Nuclear Society)
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EFFECT OF STAINLESS STEEL PLATE POSITION ON NEUTRON MULTIPLICATION FACTOR IN SPENT FUEL STORAGE RACKS

  • 투고 : 2010.11.17
  • 심사 : 2011.01.17
  • 발행 : 2011.02.25
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초록

The neutron multiplication factor in spent fuel storage racks, in which a stainless steel plate encloses a fuel assembly, was evaluated according to the variation of distance between the fuel assembly and stainless steel plate, as well as the pitch. The stainless steel plate position with the lowest multiplication factor on each pitch consistently appeared as 6mm or 9mm away from the outmost surface of the fuel assembly. Because the stainless steel plate has a thermal neutron absorption cross section, its ability to absorb neutrons can work best only if it is installed at the position where thermal neutrons can be gathered most easily. Therefore, the stainless steel plate position should not be too close or too far away from the fuel assembly, but it should be kept a pertinent distance from the fuel assembly.

키워드

참고문헌

  1. Guidance on the Regulatory Requirements for Criticality Analysis of Fuel assembly Storage at Light Water Reactor Power Plant, Laurence I. Kopp, U.S. Nuclear Regulatory Commission Office of Nuclear Reactor Regulation, February 1998.
  2. NIST( National Institute of Standard and Technology) Center for Neutron Research, Neutron Scattering Lengths and Cross Sections of the Elements and Their Isotopes, October 2003.
  3. Drawing, Spent Fuel Assembly Storage Racks Region I Details, D-HC-95200-D02, Rev.1, Doosan, July 2009.
  4. Product Data Sheet, 304/304L Stainless Steel, AK Steel Corporation, 2007.
  5. Attachment 4-1 of Technical Specification in KHNP ITT, New & Spent Fuel Assembly Storage Racks, V10-N224-000PLUS-7 Fuel Assembly by KNF, April 2010.
  6. MCNP-A General Monte Carlo N-Particle Transport Code, Version X, LA-12625-M, Los Alamos National Laboratory, 2003.

피인용 문헌

  1. Evaluation of Cumulative Damage in a Series of Sequential Load Events vol.136, pp.2, 2014, https://doi.org/10.1115/1.4026047