Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
9793894 | Journal of Nuclear Materials | 2005 | 5 Pages |
Abstract
The capability of a niobium panel to absorb atomic hydrogen was investigated for particle control application in divertors. The absorption rate (1.3 Ã 1020 H/m2 s) stayed almost constant up to a dose of 4 Ã 1023 H/m2 with no hydride formation occurring. The absorption panel can be easily regenerated. The absorbed hydrogen can be retained in the panel even after 48 h at room temperature. The absorption rate was found to decrease with panel temperature for T < 200 °C, remarkably dropping in the vicinity of room temperature. This is connected most probably with the formation of a multilayer impurity coverage. The multilayer carbon coverage deposited during the panel exposure in the divertor region of LHD decreased the absorption rate, but the panel properties could be completely restored by heating at 850 °C in spite of panel carbidization.
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Physical Sciences and Engineering
Energy
Nuclear Energy and Engineering
Authors
Y. Nakamura, A.I. Livshits, Y. Nakahara, Y. Hatano, A. Busnyuk, N. Ohyabu,