Slow gas microflow past a sphere: Analytical solution based on moment equations
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Publication:3578640
DOI10.1063/1.3453707zbMath1190.76123OpenAlexW1993563760MaRDI QIDQ3578640
Publication date: 20 July 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.3453707
Related Items (16)
Asymptotic theory of a uniform flow of a rarefied gas past a sphere at low Mach numbers ⋮ Curvature-induced instability of a Stokes-like problem with non-standard boundary conditions ⋮ Hierarchical Boltzmann simulations and model error estimation ⋮ Mathematical model of flow past a sphere with modified boundary slip condition ⋮ Fundamental solutions to moment equations for the simulation of microscale gas flows ⋮ Rarefied gas flow past a liquid droplet: interplay between internal and external flows ⋮ Drag and thermophoresis on a sphere in a rarefied gas based on the Cercignani–Lampis model of gas–surface interaction ⋮ On stable wall boundary conditions for the Hermite discretization of the linearised Boltzmann equation ⋮ Thermophoresis of a spherical particle: modelling through moment-based, macroscopic transport equations ⋮ Finite element methods for the linear regularized 13-moment equations describing slow rarefied gas flows ⋮ A robust numerical method for the R13 equations of rarefied gas dynamics: application to lid driven cavity ⋮ -theorem and boundary conditions for the linear R26 equations: application to flow past an evaporating droplet ⋮ Sphere oscillating in a rarefied gas ⋮ Evaporation-driven vapour microflows: analytical solutions from moment methods ⋮ Fundamental solutions to the regularised 13-moment equations: efficient computation of three-dimensional kinetic effects ⋮ Accelerating the convergence of the moment method for the Boltzmann equation using filters
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