“Superpermeability” and “pumping” of atomic hydrogen through palladium membranes

Permeation of atomic as well as molecular hydrogen through palladium membranes has been investigated experimentally in the temperature range from room temperature to 200 °C and at a higher incident flux of hydrogen atoms on palladium surface than in previous studies. The results demonstrate that phe...

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Published in	Journal of membrane science Vol. 320; no. 1; pp. 528 - 532
Main Authors	Zheludkevich, M.L., Gusakov, A.G., Voropaev, A.G., Kozyrski, E.N., Raspopov, S.A., Vecher, A.A.
Format	Journal Article
Language	English
Published	Elsevier B.V 15.07.2008
Subjects	Atomic hydrogen Palladium membrane Permeation Superpermeability Thermodynamical model Atomic hydrogen Thermodynamical model Superpermeability Palladium membrane Permeation
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Abstract	Permeation of atomic as well as molecular hydrogen through palladium membranes has been investigated experimentally in the temperature range from room temperature to 200 °C and at a higher incident flux of hydrogen atoms on palladium surface than in previous studies. The results demonstrate that phenomena of ‘superpermeability’ and ‘pumping’ of atomic gases through metal membranes are of a common nature. A theoretical model based on chemical thermodynamics and diffusion theory adequately describes the quantitative relationships observed in experiments. It was found that permeability of atomic hydrogen depends strongly on the magnitude of surface incident flux and membrane temperature.
AbstractList	Permeation of atomic as well as molecular hydrogen through palladium membranes has been investigated experimentally in the temperature range from room temperature to 200 °C and at a higher incident flux of hydrogen atoms on palladium surface than in previous studies. The results demonstrate that phenomena of ‘superpermeability’ and ‘pumping’ of atomic gases through metal membranes are of a common nature. A theoretical model based on chemical thermodynamics and diffusion theory adequately describes the quantitative relationships observed in experiments. It was found that permeability of atomic hydrogen depends strongly on the magnitude of surface incident flux and membrane temperature.
Author	Vecher, A.A. Voropaev, A.G. Gusakov, A.G. Raspopov, S.A. Zheludkevich, M.L. Kozyrski, E.N.
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Title	“Superpermeability” and “pumping” of atomic hydrogen through palladium membranes
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