Motion of a spherical particle in a rarefied gas. Part 2. Drag and thermal polarization
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Publication:3491244
DOI10.1017/S0022112090003007zbMath0708.76114MaRDI QIDQ3491244
V. G. Chernyak, G. A. Fomyagin, S. A. Beresnev
Publication date: 1990
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Kinetic theorylinearized kinetic equationintegral-moment method of solutionlow-speed flow of a rarefied gasthermal polarization
Multiphase and multicomponent flows (76T99) Rarefied gas flows, Boltzmann equation in fluid mechanics (76P05) Statistical mechanics of gases (82D05)
Related Items (14)
On the theory of thermal polarization of bodies in a rarefied gas flow ⋮ Photophoresis of a spherical particle in a rarefied gas ⋮ Asymptotic theory of a uniform flow of a rarefied gas past a sphere at low Mach numbers ⋮ Note on the relation between thermophoresis and slow uniform flow problems for a rarefied gas ⋮ Numerical analysis of a rarefied gas flow past a volatile particle using the Boltzmann equation for hard-sphere molecules ⋮ Mathematical model of flow past a sphere with modified boundary slip condition ⋮ Drag and thermophoresis on a sphere in a rarefied gas based on the Cercignani–Lampis model of gas–surface interaction ⋮ Hydrodynamic interactions between two equal spheres in a highly rarefied gas ⋮ A rarefied gas flow around a rotating sphere: diverging profiles of gradients of macroscopic quantities ⋮ Chebyshev expansions for Abramowitz functions ⋮ Thermophoresis of a spherical particle in a rarefied gas: Numerical analysis based on the model kinetic equations ⋮ Fundamental solutions to the regularised 13-moment equations: efficient computation of three-dimensional kinetic effects ⋮ Numerical analysis of a uniform flow of a rarefied gas past a sphere on the basis of the Boltzmann equation for hard-sphere molecules ⋮ Inversion of the transverse force on a spinning sphere moving in a rarefied gas
Cites Work
- Motion of a spherical particle in a rarefied gas. Part 1. A liquid particle in its saturated vapour
- Motion of a sphere in a rarefied gas. II. Role of temperature variation in the Knudsen layer
- Motion of a sphere in a rarefied gas
- Flow of a Rarefied Gas past an Axisymmetric Body. I. General Remarks
- Flow of a Rarefied Gas past an Axisymmetric Body. II. Case of a Sphere
- A Model for Collision Processes in Gases. I. Small Amplitude Processes in Charged and Neutral One-Component Systems
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