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Fusion Technology Volume 38, 2000 - Issue 3: Special Issue on Beryllium Technology for Fusion
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Technical Paper

Tritium Loss in Molten Flibe Systems

Glen R. LonghurstIdaho National Engineering and Environmental Laboratory P.O. Box 1625 Idaho Falls, ID 83415-3860, USA 208-526-9950, Fax 208-526-2930 [email protected]
,
Robert A. AnderlIdaho National Engineering and Environmental Laboratory P.O. Box 1625 Idaho Falls, ID 83415-7113, USA 208-533-4153, Fax 208-533-4207 [email protected]
&
R. Scott WillmsLos Alamos National Laboratory, MS C-348 Los Alamos, NM 87545, USA 505-667-5802, Fax 505-665-4148 [email protected]
Pages 376-383 | Published online: 09 May 2017

References

  • R. W. Moir, “HYUFE-II Inertial Confinement Fusion Reactor Design,” Fusion Technology, 19 (May 1991) pp. 617–624.
  • R. W. Moir et al., “HYLIFE-ir. A molten-salt inertial fusion energy power plant design—Final Report,” Fusion Technology, 25 (1994) 5–25.
  • A. Sagara et al., “Materials design and related R&D issues for the force-free helical reactor (FFHR),” Journal of Nuclear Materials, 258-263 (1998) pp. 2079–2082.
  • H. Moriyama et al., “Molten salts in fusion nuclear technology,” Fusion Engineering and Design, 39-40 (1998) pp. 627–637.
  • A. Suzuki et al., “Change of tritium species in Li2BeF4 molten salt breeder under neutron irradiation at elevated temperature,” Journal of Nuclear Materials, 258-263 (1998) pp. 519–524.
  • T. Terai et al., “Compatibility of structural materials with Li2BeF4 molten salt breeder,” Journal of Nuclear Materials, 258-263 (1998) pp. 513–518.
  • A. Suzuki et al., “Mechanism on Change of Tritium species in Li2BeF4 Molten Salt Breeder under Neutron Irradiation at Elevated Temperature,” Fusion Technology, 34 (Nov 1988) pp.526–530.
  • M. T. Tobin, “Neutronics Analysis for HYLIFE-II,” Fusion Technology, 19 (May 1991) pp. 763–769.
  • T. J. Dolan and G. R. Longhurst, Safety and Environmental Issues of HYLIFE-II, EGG-FSP-8653, Idaho National Engineering Laboratory (October 1989).
  • F. W. Walker et al., eds., Nuclides and Isotopes, 14th Ed., General Electric Company, San Jose, CA (1989).
  • A. P. Malilnauskas and D. M. Richardson, “The solubilities of hydrogen, deuterium and helium in molten Li, BeF4,” Industrial and Engineering Chemistry. Fundamentals, 13 (1974) pp. 242–245.
  • G. R. Longhurst and T. J. Dolan, HYLIFE-II Tritium Management System, EGG-FSP-9971, Idaho National Engineering and Environmental Laboratory, Idaho Falls, Idaho (1993).
  • G. R. Longhurst, Permeation of Tritium through HYLIFE-II Heat Exchanger Tubes, EGG-FSP-8678, Idaho National Engineering and Environmental Laboratory, Idaho Falls, Idaho (September 1989).
  • G. R. Longhurst and T. J. Dolan, “Tritium Permeation Losses in HYLIFE-II Heat Exchanger Tubes,” Fusion Technology, 19 (May 1991) pp. 820–825.
  • R. B. Bird, W. E. Stewart, and E. N. Ligfhtfoot, Transport Phenomena, John Wiley & Sons, New York (1960) pp. 630, 384, 186.
  • J. Oishi et al., “Tritium recovery from molten LiF-BeF2 salt,” Fusion Engineering and Design, 8 (1989) pp. 317–321.
  • T. Tanabe et al., “Hydrogen Transport in Stainless Steels,” Journal of Nuclear Materials, 122 & 123 (1984) pp. 1568–1572.
  • M. I. Baskes, “A Calculation of the Surface Recombination Rate Constant for Hydrogen Isotopes on Metals,” Journal of Nuclear Materials, 92 (1980) p. 3.18
  • T. J. Dolan, G. R. Longhurst, and E. Garcia-Otero, A Vacuum Disengager for Tritium Removal from HYLIFE-II reactor Flibe, EGG-M-91508, Idaho National Engineering and Environmental Laboratory, Idaho Falls, Idaho (March 1992).
  • G. R. Longhurst, Gas Evolution from Spheres, EGG-FSP-9634, Idaho National Engineering and Environmental Laboratory, Idaho Falls, Idaho (April 1991).
  • Y. Asaoka et al., “Equilibrium Distributions of Tritium in Liquid Lithium/Molten Salt Systems,” Journal of Nuclear Materials, 179-181 (1991) pp. 879–881.
  • J. Oishi et al., “Tritium Recovery from Molten LiF-BeF2 Salt,” Fusion Engineering and Design, 8 (1989) pp. 317–321.

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