Add to ORKGThe interacting lattice gas model is used to simulate fluid flow through an open percolating porous medium with the fluid entering at the source-end and leaving from the opposite end. The shape of the steady-state concentration profile and therefore the gradient field depends on the porosity (p). The root mean square (rms) displacements of fluid and its constituents (tracers) show a drift power-law behavior, R∝t in the asymptotic regime (t→∞). The flux current density (j) is found to scale with the porosity according to, j∝(Δp)β with Δp=p−pc and β≃1.7
In this work, single-component single-phase, and single-component multi-phase Lattice-Boltzmann mode...
A Monte Carlo study is presented for the transport of particles interacting with a nearest-neighbour...
For a broad range of applications, the most important transport property of porous media is permeabi...
The interacting lattice gas model is used to simulate fluid flow through an open percolating porous ...
The flow of immiscible particles (A, B) through a porous medium with a vertical slit is studied by a...
Tracer diffusion and fluid transport are studied in a model for a geomarine system in which fluid co...
A computer simulation model is used to study the permeability of fluid flow through porous media gen...
The effect of drainage front morphology on gaseous diffusion through partially saturated porous medi...
Analyzing the fluid behavior in complex porous media like gas diffusion layers (GDLs) in polymer ele...
A computer-simulation model is introduced to study the transport properties of interacting particles...
Abstract. Because fluid flow in porous media is opaque to most observational techniques simulations ...
In this dissertation, random inhomogeneous porous channels were generated statistically, and single-...
A computer simulation model is used to study the flow of gas from a source through open porous media...
A two-dimensional lattice is considered with a linear charge-density gradient produced by a charge s...
2003-2004 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
In this work, single-component single-phase, and single-component multi-phase Lattice-Boltzmann mode...
A Monte Carlo study is presented for the transport of particles interacting with a nearest-neighbour...
For a broad range of applications, the most important transport property of porous media is permeabi...
The interacting lattice gas model is used to simulate fluid flow through an open percolating porous ...
The flow of immiscible particles (A, B) through a porous medium with a vertical slit is studied by a...
Tracer diffusion and fluid transport are studied in a model for a geomarine system in which fluid co...
A computer simulation model is used to study the permeability of fluid flow through porous media gen...
The effect of drainage front morphology on gaseous diffusion through partially saturated porous medi...
Analyzing the fluid behavior in complex porous media like gas diffusion layers (GDLs) in polymer ele...
A computer-simulation model is introduced to study the transport properties of interacting particles...
Abstract. Because fluid flow in porous media is opaque to most observational techniques simulations ...
In this dissertation, random inhomogeneous porous channels were generated statistically, and single-...
A computer simulation model is used to study the flow of gas from a source through open porous media...
A two-dimensional lattice is considered with a linear charge-density gradient produced by a charge s...
2003-2004 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
In this work, single-component single-phase, and single-component multi-phase Lattice-Boltzmann mode...
A Monte Carlo study is presented for the transport of particles interacting with a nearest-neighbour...
For a broad range of applications, the most important transport property of porous media is permeabi...