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Nuclear Technology Volume 93, 1991 - Issue 3
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Technical Paper

A Method to Evaluate the Maximum Allowable Temperature of Spent Fuel in Dry Storage During a Postulated Accident

Masami MayuzumiCentral Research Institute of Electric Power Industry 2-11-1 Iwato-kita, Komae-shi, Tokyo 210, Japan
&
Takeo OnchiCentral Research Institute of Electric Power Industry 2-11-1 Iwato-kita, Komae-shi, Tokyo 210, Japan
Pages 382-388 | Published online: 13 May 2017

References

  • C. L. WHEELER, R. A. McCANN, N. J. LOMBARDO, D. R. RECTOR, and T. E. MICHENER, “HYDRA and COBRA-SFS Temperature Calculations for Castor-lc, REA-2023, Castor-V/21, and TN-24P Casks,” Proc. 3rd Int. Spent Fuel Storage Technology Symp./Workshop, Seattle, Washington, April 8–10, 1986, Vol. 1, p. S-77.
  • J. M. CREER and D. H. SCHOONEN, “Castor-V/21 PWR Spent Fuel Storage Cask Performance Test,” Proc. 3rd Int. Spent Fuel Storage Technology Symp./Workshop, Seattle, Washington, April 8–10, 1986, Vol. 1, p. S-20.
  • L. D. BLACKBURN, D. G. FARWICK, S. R. FIELD, L. A. JAMES, and R. A. MOEN, “Maximum Allowable Temperature for Storage of Spent Nuclear Reactor Fuel,” HEDL-TME 78-37, Hanford Engineering Development Laboratory (1978).
  • B. A. CHIN and E. R. GILBERT, “Prediction of Maximum Allowable Temperatures for Dry Storage of Zircaloy-Clad Spent Fuel in Inert Atmosphere,” Nucl. Technol., 85, 57 (1989).
  • M. MAYUZUMI, “A Method for Evaluating the Max-imum Allowable Temperature of PWR Fuel Under Dry Storage Condition,” CRIEPI Report No. T88034, Central Research Institute of Electric Power Industry (1989) (in Japanese).
  • G. PORSCH, J. FLEISCH, and B. HEITS, “Accelerated High-Temperature Tests with Spent PWR and BWR Fuel Rods Under Dry Storage Conditions,” Nucl. Technol., 74, 287 (1986).
  • M. PEEHS and J. FLEISCH, “LWR Spent Fuel Storage Behaviour,” J. Nucl. Mater., 137, 190 (1986).
  • R. E. EINZIGER and R. KOHLI, “Low-Temperature Rupture Behavior of Zircaloy Clad Pressurized Water Reactor Spent Fuel Rods Under Dry Storage Conditions,” HEDL-7400, Hanford Engineering Development Laboratory (1983).
  • R. E. EINZIGER, S. D. ATKIN, D. E. STELLRECHT, and V. PASUPATHI, “High Temperature Postirradiation Materials Performance of Spent Pressurized Water Reactor Fuel Rods Under Dry Storage Conditions,” Nucl. Technol., 57, 65 (1982).
  • M. MAYUZUMI, T. SAEGUSA, N. YOSHIKI, T. YASUDA, M. NAKATSUKA, and K. ITOH, “Creep Deformation of Irradiated Zircaloy Cladding Tubes Under Dry Storage Condition,” Proc. 1988 Fall Mtg. Atomic Energy Society of Japan, Vol. 1, p. 6 (1988).
  • M. MAYUZUMI and T. ONCHI, “Creep Deformation/Rupture Property of Unirradiated Zircaloy-4 Nuclear Fuel Cladding Tube at Temperatures of 727 to 857 K,” to be published in J. Nucl. Mater.
  • M. MAYUZUMI and T. ONCHI, “Creep Deformation of an Unirradiated Zircaloy Nuclear Fuel Cladding Tube Under Dry Storage Condition,” J. Nucl. Mater., 171, 381 (1990).
  • H. SPILKER and J. FLEISCH, “Dry Storage Demonstrations of Castor I and TN-1300 Casks,” Proc. 3rd Int. Spent Fuel Storage Technology Symp./Workshop, Seattle, Washington, April 8–10, 1986, Vol. 1, p. S-1.
  • A. B. JOHNSON, Jr., and E. R. GILBERT, “Technical Basis for Storage of Zircaloy-Clad Spent Fuel in Inert Gases,” PNL-4835, Pacific Northwest Laboratory (1983).
  • M. MAYUZUMI, N. YOSHIKI, T. YASUDA, and M. NAKATSUKA, “Maximum Allowable Temperature of Zircaloy-2 Fuel Cladding Under Dry Storage Condition,” CRIEPI Report No. T88063, Central Research Institute of Electric Power Industry (1989) (in Japanese).

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