Kinetic theoretical studies of the half-space problem of evaporation and condensation
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Publication:5890219
DOI10.1080/00411450008205874zbMath1112.82321OpenAlexW1976687269MaRDI QIDQ5890219
Publication date: 4 July 2001
Published in: Transport Theory and Statistical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/00411450008205874
Rarefied gas flows, Boltzmann equation in fluid mechanics (76P05) Kinetic theory of gases in time-dependent statistical mechanics (82C40)
Related Items (17)
CFD boundary conditions at ablative surface in gas flow with arbitrary condensation and accommodation coefficients ⋮ Optimal time decay of the Boltzmann system for gas mixtures ⋮ Twenty-six moment equations for the Enskog–Vlasov equation ⋮ A numerical investigation of the steady evaporation of a polyatomic gas ⋮ A comparison of models for the evaporation of the Lennard-Jones fluid ⋮ Invariant manifolds for steady Boltzmann flows and applications ⋮ Coupling of the Wang Chang--Uhlenbeck equations with the multispecies Euler system. ⋮ Vapor flows with evaporation and condensation in the continuum limit: Effect of a trace of noncondensable gas. ⋮ The evaporation-condensation problem for a binary mixture of rarefied gases ⋮ Center manifolds for a class of degenerate evolution equations and existence of small-amplitude kinetic shocks ⋮ Heat transfer and evaporation/condensation problems based on the linearized Boltzmann equation. ⋮ Thermophoresis of a slightly deformed aerosol sphere ⋮ Regularization of Grad’s 13 moment equations: Derivation and linear analysis ⋮ Theoretical and numerical study of nanoporous evaporation with receded liquid surface: effect of Knudsen number ⋮ Effect of surface gas condensation on the velocity of a reflected shock wave ⋮ Temperature and pressure criteria for half-space discrete velocity models ⋮ The half-space problem for the Boltzmann equation with phase transition at the boundary
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- Inappropriateness of the heat-conduction equation for description of a temperature field of a stationary gas in the continuum limit: Examination by asymptotic analysis and numerical computation of the Boltzmann equation
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- Numerical analysis of a rarefied gas flow past a volatile particle using the Boltzmann equation for hard-sphere molecules
- Numerical analysis of gas flows condensing on its plane condensed phase on the basis of kinetic theory
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