Mass transport, such as movement of phosphorus in soils and solutes in rivers, is a natural phenomenon and its study plays an important role in science and engineering. It is found that there are numerous practical diffusion phenomena that do not obey the classical advection-diffusion equation (ADE). Such diffusion is called abnormal or superdiffusion, and it is well described using a fractional advection-diffusion equation (FADE). The FADE finds a wide range of applications in various areas with great potential for studying complex mass transport in real hydrological systems. However, solution to the FADE is difficult, and the existing numerical methods are complicated and inefficient. In this study, a fresh lattice Boltzmann method is dev...
AbstractOne-dimensional diffusion wave equation is a simplified form of the full Saint Venant equati...
International audienceWe report a Lattice-Boltzmann scheme that accounts for adsorption and desorpti...
Lattice Boltzmann Method (LBM) computationally can be split into two steps process: advection and co...
Mass transport, such as movement of phosphorus in soils and solutes in rivers, is a natural phenomen...
Mass transport, such as movement of phosphorus in soils and solutes in rivers, is a natural phenomen...
Natural soils and aquifers are inherently heterogenous and chemical transport through them is anomal...
Abstract This article addresses the abilities and limitations of the Lattice Boltzmann (LB) method ...
The fractional dispersion advection equations (FDAEs) have recently attracted considerable attention...
YesTraditional Lattice-Boltzmann modelling of advection–diffusion flow is affected by numerical inst...
Solute transport in soils is commonly simulated with the advective–dispersive equation, or ADE. It h...
AbstractIn this paper we describe an extension of a recently developed lattice Boltzmann method for ...
We test a second order central difference scheme and a first order upwind scheme for the advection o...
Traditional Lattice-Boltzmann modelling of advection–diffusion flow is affected by numerical instabi...
The effect of drainage front morphology on gaseous diffusion through partially saturated porous medi...
This paper describes the application of a single relaxation time (SRT) lattice Boltzmann scheme to t...
AbstractOne-dimensional diffusion wave equation is a simplified form of the full Saint Venant equati...
International audienceWe report a Lattice-Boltzmann scheme that accounts for adsorption and desorpti...
Lattice Boltzmann Method (LBM) computationally can be split into two steps process: advection and co...
Mass transport, such as movement of phosphorus in soils and solutes in rivers, is a natural phenomen...
Mass transport, such as movement of phosphorus in soils and solutes in rivers, is a natural phenomen...
Natural soils and aquifers are inherently heterogenous and chemical transport through them is anomal...
Abstract This article addresses the abilities and limitations of the Lattice Boltzmann (LB) method ...
The fractional dispersion advection equations (FDAEs) have recently attracted considerable attention...
YesTraditional Lattice-Boltzmann modelling of advection–diffusion flow is affected by numerical inst...
Solute transport in soils is commonly simulated with the advective–dispersive equation, or ADE. It h...
AbstractIn this paper we describe an extension of a recently developed lattice Boltzmann method for ...
We test a second order central difference scheme and a first order upwind scheme for the advection o...
Traditional Lattice-Boltzmann modelling of advection–diffusion flow is affected by numerical instabi...
The effect of drainage front morphology on gaseous diffusion through partially saturated porous medi...
This paper describes the application of a single relaxation time (SRT) lattice Boltzmann scheme to t...
AbstractOne-dimensional diffusion wave equation is a simplified form of the full Saint Venant equati...
International audienceWe report a Lattice-Boltzmann scheme that accounts for adsorption and desorpti...
Lattice Boltzmann Method (LBM) computationally can be split into two steps process: advection and co...