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Fusion Technology Volume 30, 1996 - Issue 3P2A
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Fuel Cycle and Tritium Technology

Tritium Test of Cryogenic Molecular Sieve Bed for He GDC Gas Cleanup by 60 SLM Test Loop

Mikio EnoedaJapan Atomic Energy Research Institute Tokai-muraNaka-gun Ibaraki-ken, 319-11 JAPAN011-81-292-82-6205
,
Yoshinori KawamuraJapan Atomic Energy Research Institute Tokai-muraNaka-gun Ibaraki-ken, 319-11 JAPAN011-81-292-82-6205
&
Kenji OkunoJapan Atomic Energy Research Institute Tokai-muraNaka-gun Ibaraki-ken, 319-11 JAPAN011-81-292-82-6205
Pages 885-889 | Published online: 17 Jan 2018

References

  • M. Enoeda, K. Okuno, M. Nishikawa and K. Tanaka, “Recovery of Tritium by Cryogenic Molecular Sieve Bed in Breeding Blanket interface Condition”, Fusion Technol., 26, 664 (1994)
  • M. Enoeda, Y. Kawamura, K. Okuno, K. Tanaka, M. Uetake and M. Nishikawa, ‘Recovery of Hydrogen Isotopes and Impurity Mixture by Cryogenic Molecular Sieve Bed for GDC Gas Cleanup’, Fusion Technol., 28,591 (1995)
  • M. Nishikawa, K. Tanaka and M. Uetake, “Mass Transfer Coefficients in Cryosorption of Hydrogen Isotopes on Molecular Sieves or Activated Carbon at 77 K”, Fusion Technol., 28, 717 (1995)
  • M. Nishikawa, K. Tanaka, M. Uetake, M. Enoeda, Y. Kawamura and K. Okuno, “Adsorption Isotherm and Separation Factor for Multicomponent Hydrogen Isotopes in Cryosorption Method for Recovery of Tritium from Blanket”, Fusion Technol., 28, 711 (1995)
  • J. J. Carberry, “A boundary-layer model of flouid-parucle mass transfer in fixed beds”, AIChE. J., 6, 460 (1960)
  • D. M. Ruthven, Principles of Adsorption and Adsorption Processes, John Wiley & Sons, Inc., p 209–211 (1984).

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