Diffusion baroeffect in a capillary in a broad range of knudsen numbers / Seleznev V.D., Suetin P.E. // Journal of Applied Mechanics and Technical Physics. - 1975. - V. 14, l. 2. - P. 208-212.

ISSN:
00218944
Type:
Article
Abstract:
The magnitude of the diffusion baroeffect in a capillary is calculated in the entire range of Knudsen numbers based on a solution of BGK equations for a binary gas equation. The theoretical magnitudes of the baroeffect agree well with the experimental results obtained in a broad range of Knudsen numbers. The thermodynamic coefficients are calculated, and the Onsager reciprocal relation is demonstrated, from which in the limit of a viscous system it follows that the barodiffusion constant is equal to the coefficient of diffusion slippage. © 1975 Plenum Publishing Corporation.
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нет данных
DOI:
10.1007/BF01200656
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References L. H. Shendalman, “Low-speed transport of gas mixture in long cylindrical tubes according to the BGK model,” J. Chem. Phys., 51, No. 6 (1969); H. Lang, “Zur Theorie der Gegendiffusion — von Verdünnten Gasen in Einem Engen Spalt,” Z. Angew. Math. und Mech., 48, No. 8 (1968); N. K. Makashev, “Flow of a binary mixture of rarefied gases in a flat channel at an arbitrary Knudsen number,” Uch. Zap. Tsentr. Aérogidrodinam. Inst., 4, No. 3 (1971); L. H. Halway, Jr., “New statistical models for kinetic theory: methods of construction,” Phys. Fluids, 9, No. 9 (1966); T. F. Morse, “Kinetic model equations for a gas mixture,” Phys. Fluids, 7, No. 12 (1964); V. Zhdanov, Yu. Kagan, and A. Sazykin, “Effect of viscous transfer of an impulse on diffusion in a gas mixture,” Zh. Éksperim. i Teor. Fiz., 42, No. 3 (1942)
Publisher Kluwer Academic Publishers-Plenum Publishers
Language of Original Document English
Abbreviated Source Title J Appl Mech Tech Phys
Source Scopus