A lattice Boltzmann study of rarefied gaseous flow with convective heat transfer in backward facing micro-step

Abstract: Rarefied pressure-driven gaseous flow with heat transfer in a microchannel with a backward facing micro-step is investigated in this paper using the lattice Boltzmann method (LBM) in slip and transition flow regimes. In a novel approach, a two-relaxation-time LB equation is used to solve the flow velocity and the single-relaxation-time to handle the heat transfer. The asymmetric relaxation time is determined by equating the analytical second-order slip velocity boundary condition and the slip velocity obtained… Show more

“…In another work by Ahangar et al [137], the heat transfer and fluid flow in a microchannel with a micro-step was studied in slip and transition flow regimes using the LB method. Similar to the previous work [136], TRTs in slip and transient flow regimes are applied for solving the fluid velocity; however, single-relaxation-time is carried out for handling of heat transfer.…”

A review of rarefied gas flow in irregular micro/nanochannels

“…In another work by Ahangar et al [137], the heat transfer and fluid flow in a microchannel with a micro-step was studied in slip and transition flow regimes using the LB method. Similar to the previous work [136], TRTs in slip and transient flow regimes are applied for solving the fluid velocity; however, single-relaxation-time is carried out for handling of heat transfer.…”

A review of rarefied gas flow in irregular micro/nanochannels

Modified lattice Boltzmann solution for non-isothermal rarefied gas flow through microchannel utilizing BSR and second-order implicit schemes

Transport Phenomena Study of Low-Prandtl-Number Fluid Flow Using Thermal Lattice Boltzmann Technique