Study of Carbon Deposition Effect on Hydrogen Permeation Through Palladium Membrane

S. Tominaga; A. Busnyuk; T. Matsushima; K. Yamaguchi; F. Ono; T. Terai; M. Yamawaki

doi:dx.doi.org/10.13182/FST02-A22719

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Study of Carbon Deposition Effect on Hydrogen Permeation Through Palladium Membrane

S. Tominaga, A. Busnyuk, T. Matsushima, K. Yamaguchi, F. Ono, T. Terai, M. Yamawaki

Fusion Science and Technology / Volume 41 / Number 3P2 / May 2002 / Pages 919-923

Material Interaction and Permeation / Proceedings of the Sixth International Conference on Tritium Science and Technology Tsukuba, Japan November 12-16, 2001 / dx.doi.org/10.13182/FST02-A22719

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In view of benefits expected from the employment of membranes for particle control in fusion devices and for separation of hydrogen from its mixtures with hydrocarbons, the behavior of a Pd sample is investigated in a plasma-membrane device with a graphite target. The permeation of hydrogen through a 0.2 mm-thick Pd membrane with clean surfaces was found to be limited by the bulk diffusion. An incident flux of hydrocarbon radicals (approx. 2×10¹² cm⁻²s⁻¹) in hydrogen plasma forms no carbon layer on the Pd surface. Applying of a negative bias to the target gives rise to target sputtering, and to the deposition of carbon onto the membrane surface. The formation of carbon layer results in a decrease of the absorption probabilities of both H₂ molecules and H atoms. The effect of the deposition of carbon is found to depend non-monotonically on membrane temperature.