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Nuclear Technology Volume 44, 1979 - Issue 3
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Technical Paper

ELESIM: A Computer Code for Predicting the Performance of Nuclear Fuel Elements

M. J. F. NotleyAtomic Energy of Canada Limited Chalk River Nuclear Laboratories, Fuel Materials Branch Chalk River, Ontario, KOJ IJO, Canada
Pages 445-450 | Published online: 10 May 2017

References

  • M. J. F. NOTLEY, “A Computer Program to Predict the Performance of UO2 Fuel Elements,” Nucl. Appl. Technol., 9, 195 (1970).
  • A. M. ROSS and R. L. STOUTE, “Heat Transfer Coefficient Between UO2 and Zircaloy-2,” AECL-1552, Atomic Energy of Canada Limited (1962).
  • A. C. RAPIER, T. M. JONES, and J. E. McINTOSH, “The Thermal Conductance of Uranium Dioxide/Stainless Steel Interfaces,” Int. J. Heat Mass Transfer, 6, 397 (1963).
  • F. R. CAMPBELL, L. R. BOURQUE, R. DESHAIES, and M. J. F. NOTLEY, “In-Reactor Measurements of the Fuel-to-Sheath Heat Transfer Between UO2 and Stainless Steel,” AECL-5400, Atomic Energy of Canada Limited (1977).
  • G. JACOBS and N. TODREAS “Thermal Contact Conductance in Reactor Fuel Elements,” Nucl. Sci. Eng., 50, 283 (1970).
  • “MATPRO-Version 09. A Handbook of Materials Properties for Use in the Analysis of Light Water Reactor Fuel Rod Behavior,” TREE-NUREG-1005, U.S. Nuclear Regulatory Commission (1976).
  • “Thermal Conductivity of Uranium Dioxide,” Technical Report Series No. 59, pp. 17-22, International Atomic Energy Agency (1965).
  • J. A. L. ROBERTSON, “kdd in Fuel Irradiations,” AECL-807, Atomic Energy of Canada Limited (1959).
  • J. E. SUICH and H. C. HONECK, “The HAMMER System: Heterogeneous Analysis by Multi-Group Methods of Exponentials and Reactors,” DP-1064, Savannah River Laboratory (1967).
  • M. J. F. NOTLEY and I. J. HASTINGS, “A Micro-structure-Dependent Model for Fission Product Gas Release and Swelling in UO2 Fuel,” IAEA Specialists’ Mtg. Fuel Element Performance Computer Modelling, Blackpool, United Kingdom, 1978, to be published in Nucl. Eng. Des.
  • R. HARGREAVES and D. A. COLLINS, “A Quantitative Model for Fission Gas Release and Swelling in Irradiated Uranium Dioxide,” J. Br. Nucl. Energy Soc., 15, 311 (1976).
  • J. R. FINDLAY, BNES Conf. Chemical Nuclear Data, Canterbury, United Kingdom (1971).
  • M. O. TUCKER, “Relative Growth Rates of Fission Gas Bubbles on Grain Faces,” RD/B/N4114, U.K. Central Electricity Generating Board (1977).
  • I. J. HASTINGS, J. A. SCOBERG, and Kathy MacKENZIE, “Grain Growth in UO2: ln-Reactor and Laboratory Testing,” to be published in J. Nucl. Mater.
  • B. J. BUESCHER and R. O. MEYER, “He Bubbles in Uranium Dioxide,” J. Nucl. Mater., 48, 143 (1973).
  • R. O. MEYER, C. E. BEYER, and J. C. VOGLEWEDE, “Fission Gas Release from Fuel at High Burnup,” NUREG-0418, U.S. Nuclear Regulatory Commission (1977).
  • H. CARLSEN, “Fission Gas Release in LWR Fuel Rods Exhibiting Very High Burnup,” IAEA Specialists’ Mtg. Fuel Element Performance Computer Modelling, Blackpool, United Kingdom (1978).
  • H. ZIMMERMANN, “Fission Gas Behavior in Oxide Fuel Elements of Fast Breeder Reactors,” Nucl. Technol., 28, 127 (1976).
  • M. J. F. NOTLEY, “Calculation of Fission-Product Gas Pressures in Operating UO2 Fuel Elements,” Nucl. Appl., 3, 334 (1967).
  • M. J. F. NOTLEY, F. R. CAMPBELL, I. J. HASTINGS, and H. E. SILLS, “Fuel Modeling: Gap Conductivity, Gas Bubble Swelling and Fission Gas Release,” ANS Topi. Mtg. Water Reactor Fuel Performance, St. Charles, Illinois (1977).
  • I. J. HASTINGS and L. E. EVANS, “Densification Term for Irradiated UO2 Fuel,” to be published in J. Am. Ceram. Soc.
  • J. R. MACEWAN, A. S. BAIN, M. J. F. NOTLEY, and R. W. JONES, “Irradiation Experience with Fuel for Power Reactors,” Proc. 4th Int. Conf. Peaceful Uses At. Energy, United Nations, New York (1971).
  • R. R. HOSBONS, C. E. COLEMAN, and R. A. HOLT, “Numerical Simulation of Tensile Behaviour of Nuclear Fuel Cladding Materials,” AECL-5245, Atomic Energy of Canada Limited (1975).
  • R. A. HOLT, R. R. HOSBONS, and C. E. COLEMAN, “Simulation of Nuclear Fuel Sheath Deformation Following Fuel Power Transients,” AECL-5430, Atomic Energy of Canada Limited (1976).
  • C. E. COLEMAN, R. A. HOLT, and R. R. HOSBONS, “Numerical Calculation of Plastic Instability During Tensile Deformation,” AECL-5429, Atomic Energy of Canada Limited; presented at 1976 Int. Conf. Computer Simulation for Materials Applications, Gaithersburg, Maryland.

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