UNSTEADY PISTON-GENERATED FLOWS IN GASKINETICS,

Abstract

An analysis of piston-generated motion in a rarefied gas is treated as an initial value problem or an initial and boundary value problem of the collisionless Boltzmann equation. The solution for a plane piston accelerated impulsively serves as a basis for studying arbitrary finite acceleration problems. Special attention is placed on the small amplitude sinusoidal oscillation of a plane piston since it can be regarded as the highly rarefied limit of the generation and propagation of sound in a gas where the Knudsen number based on the distance from the piston is large. The work seeks to clarify and extend previous theoretical investigations with emphasis on the role played by gas-surface interaction. The resulting propagation properties such as dispersion and attenuation rate are in qualitative agreement with experimental values and previous theoretical predictions. However, the dependence of these properties on the molecule-surface interaction is found to be much more involved than suggested by earlier investigators, consequently leading to substantial quantitative disagreement between the present results on the propagation properties and those predicted previously. (Author)

Document Details

Document Type

Technical Report

Publication Date

Feb 01, 1967

Accession Number

AD0648233

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