Velocity Slip Coefficient and the Diffusion Slip Velocity for a Multicomponent Gas Mixture
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Publication:5660728
DOI10.1063/1.1693380zbMath0247.76070OpenAlexW2038079235MaRDI QIDQ5660728
Publication date: 1971
Published in: The Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.1693380
Related Items (28)
A lattice Boltzmann model for diffusion of binary gas mixtures that includes diffusion slip ⋮ On the behavior of a slightly rarefied gas mixture over plane boundaries ⋮ Chapman-Enskog solutions to arbitrary order in Sonine polynomials. II: Viscosity in a binary, rigid-sphere, gas mixture ⋮ Chapman-Enskog solutions to arbitrary order in Sonine polynomials. III: Diffusion, thermal diffusion, and thermal conductivity in a binary, rigid-sphere, gas mixture ⋮ Slow flows of a vapor-gas mixture with large density and temperature variations in the near-continuum regime ⋮ Derivation of slip boundary conditions for the Navier-Stokes system from the Boltzmann equation ⋮ Properties of integral transport operators ⋮ Gaseous mixture slit flow at intermediate Knudsen numbers ⋮ An approximate method in transport theory. II ⋮ Measurements of thermal creep in binary gas mixtures ⋮ Role of the Knudsen layer in determining surface reaction rates based on sticking coefficients ⋮ Numerical analysis of thermal-slip and diffusion-slip flows of a binary mixture of hard-sphere molecular gases ⋮ Numerical analysis of the shear flow of a binary mixture of hard-sphere gases over a plane wall ⋮ Velocity slip and temperature jump coefficients for gaseous mixtures. III. Diffusion slip coefficient ⋮ Kinetic theory based nonlinear treatment for motions of a binary gas mixture involving slightly strong evaporation and condensation processes - A system of macroscopic equations, the boundary conditions and the Knudsen-layer corrections ⋮ Concise and accurate solutions to half-space binary-gas flow problems defined by the McCormack model and specular-diffuse wall conditions ⋮ The McCormack model: Channel flow of a binary gas mixture driven by temperature, pressure and density gradients ⋮ THE GHOST EFFECT IN THE CONTINUUM LIMIT FOR A VAPOR–GAS MIXTURE AROUND CONDENSED PHASES: ASYMPTOTIC ANALYSIS OF THE BOLTZMANN EQUATION ⋮ On the diffusion slip of a binary gas mixture ⋮ Chapman-Enskog solutions to arbitrary order in Sonine polynomials. V: Summational expressions for the viscosity-related bracket integrals ⋮ Direct simulation of concentration creep in a binary gas-filled enclosure ⋮ On isothermal gas flow between parallel planes with arbitrary tangential momentum accommodation ⋮ The viscous-slip, diffusion-slip, and thermal-creep problems for a binary mixture of rigid spheres described by the linearized Boltzmann equation ⋮ Non-equilibrium phenomena in gas mixture flow through a plane channel in near-continuum regime ⋮ Chapman-Enskog solutions to arbitrary order in Sonine polynomials. IV: Summational expressions for the diffusion- and thermal conductivity-related bracket integrals ⋮ A new scattering kernel in kinetic theory of gases ⋮ Nonisothermic flow of gas mixture in a channel at intermediate Knudsen numbers ⋮ Analysis of slip and temperature jump coefficients in a binary gas mixture
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