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 …

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 …

Accurate understanding of gas micro seepage mechanisms in shale plays is of great
importance for numerical simulation and productivity prediction. Classical seepage theory …

Computational fluid dynamics (CFD) studies the flow motion in a discretized space. Its basic
scale resolved is the mesh size and time step. The CFD algorithm can be constructed …

Microscale single-phase heat transfer is widely used in industrial and scientific applications
and for this reason, many related papers have been published in the last two decades …

Fluid mechanics of natural gas in organic-rich shale involves nanoscale phenomena that
could lead to potential non-Darcy effects during gas production. In general, these are low …

A three-dimensional mixed modal discontinuous Galerkin (DG) method based on tetrahedral
meshes was developed for simulating all flow regimes from subsonic to hypersonic rarefied …

Gas production from shale gas reservoirs is determined by original gas-in-place and gas
transport mechanism in shale. Gas storage in shale consists of three different states: first …

This work is mainly concerned with the extension of hydrodynamics beyond the Navier–
Stokes equations, a regime known as Burnett hydrodynamics. The derivation of the Burnett …

A newly heuristic form of second-order slip/jump boundary conditions (BCs) for the Navier–
Stokes–Fourier (NSF) equations is proposed from the viewpoint of generalized …