Over the past 30 years, the lattice Boltzmann (LB) method has been developed into a
versatile and powerful numerical methodology for computational fluid dynamics and heat …

An interface treatment for conjugate heat and mass transfer in the lattice Boltzmann equation
method is proposed based on our previously proposed second-order accurate Dirichlet and …

A comparison study between the two most popular lattice Boltzmann (LB) models–D2Q5
and D2Q9 in two dimensions with five and nine discrete lattice velocities, respectively–for …

Gas slippage occurs when the mean free path of the gas molecules is in the order of the
characteristic pore size of a porous medium. This phenomenon leads to Klinkenberg's effect …

This paper focuses on the development of simple and accurate correlations to predict the
effective thermal conductivity (ETC) of lattice structures, viz. Cube, face diagonal (FD)-Cube …

Phase change materials (PCM) have become a popular choice for building thermal
management due to their low cost, chemical stability and high energy density. Though, their …

The effect of rough surface topography on heat and momentum transfer is studied by direct
numerical simulations of turbulent heat transfer over uniformly heated three-dimensional …

We propose a new phase-field model formulated within the system of lattice Boltzmann (LB)
equation for simulating solidification and dendritic growth with fully coupled melt flow and …

Harnessing concentrated high-flux solar energy to drive thermal processes over 1000° C for
fuel production and material processing has great potential to address environmental issues …

A multiple-relaxation-time (MRT) lattice Boltzmann (LB) model with five discrete velocities in
two dimensions (D2Q5) for simulating the axisymmetric convection–diffusion equation …