Relaxation of a free-molecular gas to equilibrium caused by interaction with vessel wall

Tetsuro Tsuji; Kazuo Aoki; François Golse

doi:10.1007/s10955-010-9997-5

Relaxation of a free-molecular gas to equilibrium caused by interaction with vessel wall

Tetsuro Tsuji
, Kazuo Aoki
, François Golse

Kyoto University

Research output: Contribution to journal › Article › peer-review

Abstract

A free-molecular gas contained in a static vessel with a uniform temperature is considered. The approach of the velocity distribution function of the gas molecules from a given initial distribution to the uniform equilibrium state at rest is investigated numerically under the diffuse reflection boundary condition. This relaxation is caused by the interaction of gas molecules with the vessel wall. It is shown that, for a spherical vessel, the velocity distribution function approaches the final uniform equilibrium distribution in such a way that their difference decreases in proportion to an inverse power of time. This is slower than the known result for a rarefied gas with molecular collisions.

Original language	English
Pages (from-to)	518-543
Number of pages	26
Journal	Journal of Statistical Physics
Volume	140
Issue number	3
DOIs	https://doi.org/10.1007/s10955-010-9997-5
Publication status	Published - 1 Jan 2010

Keywords

Approach to equilibrium
Diffuse reflection
Free-molecular gas
Kinetic theory of gases

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10.1007/s10955-010-9997-5

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abstract = "A free-molecular gas contained in a static vessel with a uniform temperature is considered. The approach of the velocity distribution function of the gas molecules from a given initial distribution to the uniform equilibrium state at rest is investigated numerically under the diffuse reflection boundary condition. This relaxation is caused by the interaction of gas molecules with the vessel wall. It is shown that, for a spherical vessel, the velocity distribution function approaches the final uniform equilibrium distribution in such a way that their difference decreases in proportion to an inverse power of time. This is slower than the known result for a rarefied gas with molecular collisions.",

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N2 - A free-molecular gas contained in a static vessel with a uniform temperature is considered. The approach of the velocity distribution function of the gas molecules from a given initial distribution to the uniform equilibrium state at rest is investigated numerically under the diffuse reflection boundary condition. This relaxation is caused by the interaction of gas molecules with the vessel wall. It is shown that, for a spherical vessel, the velocity distribution function approaches the final uniform equilibrium distribution in such a way that their difference decreases in proportion to an inverse power of time. This is slower than the known result for a rarefied gas with molecular collisions.

AB - A free-molecular gas contained in a static vessel with a uniform temperature is considered. The approach of the velocity distribution function of the gas molecules from a given initial distribution to the uniform equilibrium state at rest is investigated numerically under the diffuse reflection boundary condition. This relaxation is caused by the interaction of gas molecules with the vessel wall. It is shown that, for a spherical vessel, the velocity distribution function approaches the final uniform equilibrium distribution in such a way that their difference decreases in proportion to an inverse power of time. This is slower than the known result for a rarefied gas with molecular collisions.

KW - Approach to equilibrium

KW - Diffuse reflection

KW - Free-molecular gas

KW - Kinetic theory of gases

U2 - 10.1007/s10955-010-9997-5

DO - 10.1007/s10955-010-9997-5

M3 - Article

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VL - 140

SP - 518

EP - 543

JO - Journal of Statistical Physics

JF - Journal of Statistical Physics

IS - 3

ER -

Relaxation of a free-molecular gas to equilibrium caused by interaction with vessel wall

Abstract

Keywords

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