The motivation of the current paper is to provide a detailed review of crucial topics in micro-
and nanoscale gas flows, ie, velocity slip and temperature jump phenomena and their …

Over the last decades, several types of collision models have been proposed to extend the
validity domain of the lattice Boltzmann method (LBM), each of them being introduced in its …

The intrinsic permeability is a crucial parameter to characterise and quantify fluid flow
through porous media. However, this parameter is typically uncertain, even if the geometry …

Boundary slip phenomenon has been widely studied for microscale gas flow in recent years.
However, researches on this topic for liquid flow are still rare. Boundary slip of liquid flow is …

The lattice kinetic scheme (LKS), a modified version of the classical single relaxation time
(SRT) lattice Boltzmann method, was initially developed as a suitable numerical approach …

A lattice Boltzmann (LB) interfacial gas-solid three-dimensional model is developed for
isothermal multicomponent flows with strongly nonequimolar catalytic reactions, further …

Within microchannels, rarefied gas molecules frequently interact with the channel wall,
resulting in non-zero velocity at the wall. This phenomenon is known as the gas slippage …

Flow characteristics in channels are critical in chemical engineering. Slip velocity has a
great influence on the microchannel flows. The lattice Boltzmann simulations of some typical …

We propose a procedure to implement Dirichlet velocity boundary conditions for complex
shapes that use data from a single node only, in the context of the lattice Boltzmann method …

We perform the viscosity-independent Stokes flow simulations in regular sphere packings
using the two-relaxation-times (TRT) lattice Boltzmann method (LBM) with the simple …