Add to ORKGIn hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surfaces are often of critical importance. However, these depend on the characteristics of the Knudsen layer - the region of local non-equilibrium existing up to one or two molecular mean free paths from the wall in any gas flow near a surface. While the Knudsen layer has been investigated extensively using kinetic theory, the ability to capture it within a continuum-fluid formulation (in conjunction with slip boundary conditions) suitable for current computational fluid dynamics toolboxes would offer distinct and practical computational advantages
Knudsen layer phenomenon in high-speed rarefied and micro-scale gas flows have been investigated. Ef...
The effect of the Knudsen layer in the thermal micro-scale gas flows has been investigated. The eff...
Due to its intrinsically kinetic nature, lattice Boltzmann (LB) approach to simulating non-equilibri...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
The Knudsen layer is an important rarefaction phenomenon in gas flows in and around microdevices. It...
We propose a power-law based effective mean free path (MFP) model so that the Navier-Stokes-Fourier ...
We propose a power-law based effective mean free path (MFP) model so that the Navier-Stokes-Fourier ...
We propose a power-law based effective mean free path (MFP) model so that the Navier-Stokes-Fourier ...
Effect of the Knudsen layer (KL) on surface and bulk flow properties is investigated for the hyperso...
Methods for simulating the critical near-wall region in hydrodynamic models of gas micro-flows are d...
Methods for simulating the critical near-wall region in hydrodynamic models of gas micro-flows are d...
In order to capture critical near-wall phenomena in gas micro- and nanoflows within conventional CFD...
Knudsen layer phenomenon in high-speed rarefied and micro-scale gas flows have been investigated. Ef...
The effect of the Knudsen layer in the thermal micro-scale gas flows has been investigated. The eff...
Due to its intrinsically kinetic nature, lattice Boltzmann (LB) approach to simulating non-equilibri...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
The Knudsen layer is an important rarefaction phenomenon in gas flows in and around microdevices. It...
We propose a power-law based effective mean free path (MFP) model so that the Navier-Stokes-Fourier ...
We propose a power-law based effective mean free path (MFP) model so that the Navier-Stokes-Fourier ...
We propose a power-law based effective mean free path (MFP) model so that the Navier-Stokes-Fourier ...
Effect of the Knudsen layer (KL) on surface and bulk flow properties is investigated for the hyperso...
Methods for simulating the critical near-wall region in hydrodynamic models of gas micro-flows are d...
Methods for simulating the critical near-wall region in hydrodynamic models of gas micro-flows are d...
In order to capture critical near-wall phenomena in gas micro- and nanoflows within conventional CFD...
Knudsen layer phenomenon in high-speed rarefied and micro-scale gas flows have been investigated. Ef...
The effect of the Knudsen layer in the thermal micro-scale gas flows has been investigated. The eff...
Due to its intrinsically kinetic nature, lattice Boltzmann (LB) approach to simulating non-equilibri...