Velocity slip and temperature jump coefficients for gaseous mixtures. I. Viscous slip coefficient
From MaRDI portal
Publication:3556514
DOI10.1063/1.1574815zbMath1186.76469OpenAlexW2032191834MaRDI QIDQ3556514
F. M. Sharipov, Denize Kalempa
Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.1574815
Navier-Stokes equationsBoltzmann equationargonkinetic theoryhydrodynamicstemperature distributionslip flowheliumgas mixturesxenonneonknudsen flow
Related Items (37)
Slow motion of a spherical particle in a spherical cavity with slip surfaces ⋮ Lattice Boltzmann Modeling of Miscible Multicomponent Gas Mixtures in the Rarefied Regime ⋮ Thermophoresis of an aerosol spheroid along its axis of revolution ⋮ Accelerated discrete velocity method for axial-symmetric flows of gaseous mixtures as defined by the mccormack kinetic model ⋮ Onsager-Casimir reciprocal relations based on the Boltzmann equation and gas-surface interaction. Gaseous mixtures ⋮ Numerical modeling of rarefied gas flow through a slit into vacuum based on the kinetic equation ⋮ Viscous velocity, diffusion and thermal slip coefficients for ternary gas mixtures ⋮ Multi-Species Compressible Solver for Non-Continuum Flow Through a Micro-Channel ⋮ Axisymmetric creeping motion of a slip spherical particle in a nonconcentric spherical cavity ⋮ A comprehensive review on micro- and nano-scale gas flow effects: slip-jump phenomena, Knudsen paradox, thermally-driven flows, and Knudsen pumps ⋮ Theoretical study of the creeping motion of axially and fore-and-aft symmetric slip particles in an arbitrary direction ⋮ Flows of rarefied gaseous mixtures with a low mole fraction. Separation phenomenon ⋮ Variance-reduced DSMC for binary gas flows as defined by the McCormack kinetic model ⋮ Heat transfer between parallel plates: An approach based on the linearized Boltzmann equation for a binary mixture of rigid-sphere gases ⋮ Thermophoresis of a slightly deformed aerosol sphere ⋮ Gas flow through an elliptical tube over the whole range of the gas rarefaction ⋮ Velocity slip and temperature jump coefficients for gaseous mixtures. II. Thermal slip coefficient ⋮ Numerical analysis of the shear flow of a binary mixture of hard-sphere gases over a plane wall ⋮ The McCormack model for gas mixtures: Heat transfer in a plane channel ⋮ Velocity slip and temperature jump coefficients for gaseous mixtures. III. Diffusion slip coefficient ⋮ The McCormack model for gas mixtures: Plane Couette flow ⋮ Flow of gaseous mixtures through rectangular microchannels driven by pressure, temperature, and concentration gradients ⋮ Viscosity and slip velocity in gas flow in microchannels ⋮ Separation phenomena for gaseous mixture flowing through a long tube into vacuum ⋮ A discontinuous Galerkin fast spectral method for the multi-species Boltzmann equation ⋮ Creeping-flow rotation of a slip spheroid about its axis of revolution ⋮ 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 ⋮ Plane Couette flow of binary gaseous mixture in the whole range of the Knudsen number ⋮ Effect of permeability of Brinkman flow on thermophoresis of a particle in a spherical cavity ⋮ Couette flow of a binary mixture of rigid-sphere gases described by the linearized Boltzmann equation ⋮ The viscous-slip, diffusion-slip, and thermal-creep problems for a binary mixture of rigid spheres described by the linearized Boltzmann equation ⋮ Variations in gas properties in laminar micro-convection with entrance effect ⋮ Effects of inertia on the slow rotation of a slip spherical particle ⋮ Slow rotation of a spherical particle in an eccentric spherical cavity with slip surfaces ⋮ Non-equilibrium phenomena in gas mixture flow through a plane channel in near-continuum regime ⋮ A Legendre expansion and some exact solutions basic to the McCormack model for binary gas mixtures
Cites Work
This page was built for publication: Velocity slip and temperature jump coefficients for gaseous mixtures. I. Viscous slip coefficient
