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 …

Experimental observations of liquid microchannel flows are reviewed and results of
computer experiments concerning channel entrance, wall slip, non-Newtonian fluid, surface …

Understanding the effect of surface roughness on gas flow in microchannels is highly
desirable in microfluidic devices. Non-equilibrium molecular dynamics simulation is applied …

Fluid flow in microchannels or microtubes may differ in terms of wall frictional effects, and
hence flow rates, when compared to macrochannels. Focusing on steady laminar fully …

A flow and heat transfer numerical simulation was performed for a 2D compressible gas flow
through a microchannel in the slip regime to investigate the effects of wall roughness. The …

In today's complex micro–electro–mechanical systems (MEMS), investigation of flow through
irregular micro/nanochannels, such as bended channels, variable cross-sectional area …

The entropy generation due to steady laminar forced convection fluid flow through parallel
plates microchannel is investigated numerically. The effect of Knudsen, Reynolds, Prandtl …

The developing hydrodynamic and thermal behaviors of free convection gas flow in a
vertical open-ended parallel-plate microchannel filled with porous media are investigated …

Problems in engineering, computational science, and the physical and biological sciences
are using increasingly sophisticated mathematical techniques. Thus, the bridge between the …

In the present work we investigate the effect of wall protrusions on flows in microchannels
using Dissipative Particle Dynamics (DPD). Protrusions are introduced by periodically …