We develop a time domain random walk approach for conservative solute transport in heterogeneous media where medium properties vary over a distribution of length scales. The spatial transition lengths are equal to the heterogeneity length scales, and thus determined by medium geometry. We derive analytical expressions for the associated transition times and probabilities in one spatial dimension. This approach determines the coarse-grained solute concentration at the interfaces between regions; we derive a generalized master equation for the evolution of the coarse-grained concentration and reconstruct the fine-scale concentration using the propagator of the subscale transport mechanism. The performance of this approach is demonstrated for ...
We present a new algorithm for modelling single phase transport of a tracer in porous media which de...
Abstract. Transport processes in heterogeneous media such as ionized plasmas, natural porous media, ...
Suppose C(x,t) is the concentration at position x in Rᵈ and time t > 0 of a solute which is diffusin...
We derive a general formulation of the time domain random walk (TDRW) approach to model the hydrodyn...
International audienceSolute transport in heterogeneous porous media is in generalnon-Fickian, this ...
International audienceIn this study, new multi-dimensional time-domain random walk (TDRW) algorithms...
International audienceWe study diffusion in a heterogeneous medium that is characterized by spatiall...
International audienceMedium and flow heterogeneities lead to global transport patternsthat cannot b...
We study the origins of anomalous dispersion in heterogeneous porous media in terms of the medium a...
International audienceWe study the ensemble statistics of the particle density in a random medium wh...
Random walk (RW) methods are recurring Monte Carlo methods used to model convective and diffusive tr...
We use Lattice Boltzmann models to simulate solute transport in porous media traversed by open fract...
Supported by the Nuclear Regulatory Commission, contract NRC-04-83-174. Supported by the National Sc...
Abstract Random walk methods are suitable to build up convergent solutions for reaction-diffusion pr...
This study formulates and analyzes continuous time random walk (CTRW) models in radial flow geometri...
We present a new algorithm for modelling single phase transport of a tracer in porous media which de...
Abstract. Transport processes in heterogeneous media such as ionized plasmas, natural porous media, ...
Suppose C(x,t) is the concentration at position x in Rᵈ and time t > 0 of a solute which is diffusin...
We derive a general formulation of the time domain random walk (TDRW) approach to model the hydrodyn...
International audienceSolute transport in heterogeneous porous media is in generalnon-Fickian, this ...
International audienceIn this study, new multi-dimensional time-domain random walk (TDRW) algorithms...
International audienceWe study diffusion in a heterogeneous medium that is characterized by spatiall...
International audienceMedium and flow heterogeneities lead to global transport patternsthat cannot b...
We study the origins of anomalous dispersion in heterogeneous porous media in terms of the medium a...
International audienceWe study the ensemble statistics of the particle density in a random medium wh...
Random walk (RW) methods are recurring Monte Carlo methods used to model convective and diffusive tr...
We use Lattice Boltzmann models to simulate solute transport in porous media traversed by open fract...
Supported by the Nuclear Regulatory Commission, contract NRC-04-83-174. Supported by the National Sc...
Abstract Random walk methods are suitable to build up convergent solutions for reaction-diffusion pr...
This study formulates and analyzes continuous time random walk (CTRW) models in radial flow geometri...
We present a new algorithm for modelling single phase transport of a tracer in porous media which de...
Abstract. Transport processes in heterogeneous media such as ionized plasmas, natural porous media, ...
Suppose C(x,t) is the concentration at position x in Rᵈ and time t > 0 of a solute which is diffusin...