In recent years, lattice Boltzmann methods have been increasingly used to simulate rarefied gas flows in microscale and nanoscale devices. This is partly due to the fact that the method is computationally efficient, particularly when compared to solution techniques such as the direct simulation Monte Carlo approach. However, lattice Boltzmann models developed for rarefied gas flows have difficulty in capturing the nonlinear relationship between the shear stress and strain rate within the Knudsen layer. As a consequence, these models are equivalent to slip-flow solutions of the Navier-Stokes equations. In this paper, we propose an effective mean-free path to address the Knudsen layer effect, so that the capabilities of lattice Boltzmann meth...
The authors benefited from the use of the cluster at the Centre de Calcul Scientifique en R'egion Ce...
A lattice Boltzmann method with moment-based boundary conditions is used to compute flow in the slip...
In this work, we have theoretically analyzed and numerically evaluated the accuracy of high-order la...
In recent years, lattice Boltzmann methods have been increasingly used to simulate rarefied gas flow...
Due to its intrinsically kinetic nature, lattice Boltzmann (LB) approach to simulating non-equilibri...
Due to its computational efficiency, the kinetic-based lattice Boltzmann method has recently been us...
For gas flows in microchannels, slip motion at the solid surface can occur even if the Mach number i...
Lattice Boltzmann models are already able to capture important rarefied flow phenomena, such as velo...
ABSTRACT Lattice Boltzmann (LB) method models have been demonstrated to provide an accurate represen...
Gas flow in microchannels can often encounter tangential slip motion at the solid surface even under...
To understand lattice Boltzmann model capability for capturing nonequilibrium effects, the model wit...
The lattice-Boltzmann method is a possible alternative to standard computational fluid dynamics (CFD...
For gas flows in microchannels, slip motion at the solid surface can occur even if the Mach number i...
Due to its computational efficiency, the kinetic-based lattice Boltzmann method has recently been us...
The authors benefited from the use of the cluster at the Centre de Calcul Scientifique en R'egion Ce...
A lattice Boltzmann method with moment-based boundary conditions is used to compute flow in the slip...
In this work, we have theoretically analyzed and numerically evaluated the accuracy of high-order la...
In recent years, lattice Boltzmann methods have been increasingly used to simulate rarefied gas flow...
Due to its intrinsically kinetic nature, lattice Boltzmann (LB) approach to simulating non-equilibri...
Due to its computational efficiency, the kinetic-based lattice Boltzmann method has recently been us...
For gas flows in microchannels, slip motion at the solid surface can occur even if the Mach number i...
Lattice Boltzmann models are already able to capture important rarefied flow phenomena, such as velo...
ABSTRACT Lattice Boltzmann (LB) method models have been demonstrated to provide an accurate represen...
Gas flow in microchannels can often encounter tangential slip motion at the solid surface even under...
To understand lattice Boltzmann model capability for capturing nonequilibrium effects, the model wit...
The lattice-Boltzmann method is a possible alternative to standard computational fluid dynamics (CFD...
For gas flows in microchannels, slip motion at the solid surface can occur even if the Mach number i...
Due to its computational efficiency, the kinetic-based lattice Boltzmann method has recently been us...
The authors benefited from the use of the cluster at the Centre de Calcul Scientifique en R'egion Ce...
A lattice Boltzmann method with moment-based boundary conditions is used to compute flow in the slip...
In this work, we have theoretically analyzed and numerically evaluated the accuracy of high-order la...