Kinetics of Tritium Release from Thermal Neutron-Irradiated Li<sub>0.17</sub>Pb<sub>0.83</sub>

Makoto Kobayashi; Akiko Hamada; Katsushi Matsuoka; Masato Suzuki; Junya Osuo; Yuki Edao; Satoshi Fukada; Toshihiko Yamanishi; Yasuhisa Oya; Kenji Okuno

doi:dx.doi.org/10.13182/FST12-A14112

/Create an Account

Home / Publications / Journals / Fusion Science and Technology / Volume 62 / Number 1

Kinetics of Tritium Release from Thermal Neutron-Irradiated Li_0.17Pb_0.83

Makoto Kobayashi, Akiko Hamada, Katsushi Matsuoka, Masato Suzuki, Junya Osuo, Yuki Edao, Satoshi Fukada, Toshihiko Yamanishi, Yasuhisa Oya, Kenji Okuno

Fusion Science and Technology / Volume 62 / Number 1 / July-August 2012 / Pages 56-60

Hydrogen/Tritium Behavior / Proceedings of the Fifteenth International Conference on Fusion Reactor Materials, Part A: Fusion Technology / dx.doi.org/10.13182/FST12-A14112

pdf View or Purchase Article

Articles are hosted by Taylor and Francis Online.

Tritium release behavior for thermal neutron-irradiated Li_0.17Pb_0.83 eutectic alloy was studied. Main tritium release peak was observed in the temperature just a little higher than melting point in a thermal desorption spectrometry (TDS) experiment. Most of tritium release from Li_0.17Pb_0.83 eutectic alloy was found to be governed by diffusion process from the results of isothermal annealing experiments. Tritium diffusivity in a liquid state of Li_0.17Pb_0.83 eutectic alloy was evaluated to be D = 4.7 × 10^-8 exp(-0.13 eV/kT) m² s^-1 . Tritium diffusivity was increased by the phase transition of Li_0.17Pb_0.83 eutectic alloy from a solid state to a liquid state, resulting in the sharp tritium release peak that appeared in TDS spectrum. In addition, about 4% of tritium was trapped in Li_0.17Pb_0.83 eutectic alloy as Li-T bond.

Kinetics of Tritium Release from Thermal Neutron-Irradiated Li0.17Pb0.83

Kinetics of Tritium Release from Thermal Neutron-Irradiated Li_0.17Pb_0.83