Add to ORKGNovel technological applications often involve fluid flows in the Knudsen regime in which the mean free path is comparable to the system size. We use molecular dynamics simulations to study the transition between the dilute gas and the dense fluid regimes as the fluid density is increased
A key parameter for micro-gas-flows, the mean free path, is investigated in this paper. The mean fre...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
We study the phenomenon of slip length using molecular dynamics and direct simulation Monte Carlo si...
We show results of molecular dynamics studies of fluid flows in the Knudsen regime in which the mean...
This work involves a molecular simulation study of the phenomena of wall slip occurring in rarefied ...
We investigate the thermodynamically non-equilibrium gas dynamics by measuring molecular free path d...
The molecular dynamics (MD) technique simulates atomistic or molecular interactions and movements di...
Molecular dynamics simulations of force-driven nano-channel gas flows show two distinct flow regions...
Average distance traveled by gas molecules between intermolecular collisions, known as the mean free...
Three-dimensional molecular dynamics (MD) simulations of nanoscale gas flows are studied to reveal s...
The force-driven Poiseuille flow of dense gases between two parallel plates is investigated through ...
The first steps towards developing a continuum-molecular coupled simulations techniques are presente...
We propose a power-law based effective mean free path (MFP) model so that the Navier-Stokes-Fourier ...
The force-driven Poiseuille flow of dense gases between two parallel plates is investigated through ...
We investigate the gas flows near to solid surfaces in terms of the local spatial variation in the m...
A key parameter for micro-gas-flows, the mean free path, is investigated in this paper. The mean fre...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
We study the phenomenon of slip length using molecular dynamics and direct simulation Monte Carlo si...
We show results of molecular dynamics studies of fluid flows in the Knudsen regime in which the mean...
This work involves a molecular simulation study of the phenomena of wall slip occurring in rarefied ...
We investigate the thermodynamically non-equilibrium gas dynamics by measuring molecular free path d...
The molecular dynamics (MD) technique simulates atomistic or molecular interactions and movements di...
Molecular dynamics simulations of force-driven nano-channel gas flows show two distinct flow regions...
Average distance traveled by gas molecules between intermolecular collisions, known as the mean free...
Three-dimensional molecular dynamics (MD) simulations of nanoscale gas flows are studied to reveal s...
The force-driven Poiseuille flow of dense gases between two parallel plates is investigated through ...
The first steps towards developing a continuum-molecular coupled simulations techniques are presente...
We propose a power-law based effective mean free path (MFP) model so that the Navier-Stokes-Fourier ...
The force-driven Poiseuille flow of dense gases between two parallel plates is investigated through ...
We investigate the gas flows near to solid surfaces in terms of the local spatial variation in the m...
A key parameter for micro-gas-flows, the mean free path, is investigated in this paper. The mean fre...
In hypersonic aerodynamics and microflow device design, the momentum and energy fluxes to solid surf...
We study the phenomenon of slip length using molecular dynamics and direct simulation Monte Carlo si...