Accurate modeling of gas microflow is crucial for the microfluidic devices in MEMS. Gas
microflows through these devices are often in the slip and transition flow regimes …

The lattice Boltzmann method (LBM) has experienced tremendous advances and been well
accepted as a popular method for simulating various fluid flow problems in porous media …

Coal and shale contain enormous natural gas resources. The reservoir structures are
complex, with an extensive distribution of micropores and nanopores, leading to intricate …

A novel lattice Boltzmann scheme is proposed for phonon transport based on the phonon
Boltzmann equation. Through the Chapman–Enskog expansion, the phonon lattice …

Shale matrix consists of numerous interconnected nanoscale slit pores with size ranging
from 4 nm to 200 nm, naturally resulting in variable cross-section scenarios for shale gas …

Purpose The purpose of this paper is to improve the lattice Boltzmann method's ability to
simulate a microflow under constant heat flux. Design/methodology/approach Develop the …

The gas flow in the organic matter with multiple flow regimes is critical to the shale gas
production from shale gas reservoirs, but simultaneously simulating the full flow regimes of …

In the present study, a three-dimensional lattice Boltzmann model based on the quasi-
random nanostructural model is proposed to evaluate the mass transport properties and …

This paper reports the behavior of solid particles in a three-dimensional lid-driven cavity.
The prediction of solid particle dynamics through a fluid has been an important research …

Abstract Lattice Boltzmann Method (LBM) is a statistical approach for simulating fluid flow in
porous media. LBM is a method based on the kinetic theory of gases and thus is a very …