Abstract. We explore possible applications of the Lattice-Boltzmann Method for the simulation of geophysical flows. This fluid solver, while successful in other fields, is still rarely used for geotechnical applications. We show how the standard method can be modified to represent free-surface realization of mudflows, debris flows, and in general any plastic flow, through the implementation of a Bingham constitutive model. The chapter is completed by an example of a full-scale simulation of a plastic fluid flowing down an inclined channel and depositing on a flat surface. An application is given, where the fluid interacts with a vertical obstacle in the channel
The Lattice Boltzmann (LB) method is an established prominent model for simulating water flow at por...
A two-dimensional coupled bonded particle and lattice Boltzmann method (BPLBM) is developed in this ...
Lattice Boltzmann method (LBM) has recently been receiving considerable attention as a possible alte...
After a short introduction to the basic ideas of lattice Boltzmann methods and a brief description o...
Simulating water behaviour in coastal areas is an important tool when predicting sedimentary process...
We apply a lattice Boltzmann method (LBM) for the simulation of depth-averaged models in flow hydrau...
International audienceIn this article, we present a numerical method to deal with fluid-solid intera...
The lattice Boltzmann method has been successfully applied for the simulation of flow through porous...
The problem of flows in porous media is very important in many engineering fields such as geophysics...
In this paper, a simulation of the steady flow in a pipe of square cross-section has been performed ...
Lattice Boltzmann models have a remarkable ability to simulate single- and multi-phase fluids and tr...
We apply a lattice Boltzmann method (LBM) for the simulation of depth-averaged models in flow hydrau...
The lattice Boltzmann method has been successfully applied for the simulation of ow through porous m...
We proposed a direct numerical simulation model of granular soils and seepage flow by combining the ...
A numerical method for particle-laden fluids interacting with a deformable solid domain and mobile r...
The Lattice Boltzmann (LB) method is an established prominent model for simulating water flow at por...
A two-dimensional coupled bonded particle and lattice Boltzmann method (BPLBM) is developed in this ...
Lattice Boltzmann method (LBM) has recently been receiving considerable attention as a possible alte...
After a short introduction to the basic ideas of lattice Boltzmann methods and a brief description o...
Simulating water behaviour in coastal areas is an important tool when predicting sedimentary process...
We apply a lattice Boltzmann method (LBM) for the simulation of depth-averaged models in flow hydrau...
International audienceIn this article, we present a numerical method to deal with fluid-solid intera...
The lattice Boltzmann method has been successfully applied for the simulation of flow through porous...
The problem of flows in porous media is very important in many engineering fields such as geophysics...
In this paper, a simulation of the steady flow in a pipe of square cross-section has been performed ...
Lattice Boltzmann models have a remarkable ability to simulate single- and multi-phase fluids and tr...
We apply a lattice Boltzmann method (LBM) for the simulation of depth-averaged models in flow hydrau...
The lattice Boltzmann method has been successfully applied for the simulation of ow through porous m...
We proposed a direct numerical simulation model of granular soils and seepage flow by combining the ...
A numerical method for particle-laden fluids interacting with a deformable solid domain and mobile r...
The Lattice Boltzmann (LB) method is an established prominent model for simulating water flow at por...
A two-dimensional coupled bonded particle and lattice Boltzmann method (BPLBM) is developed in this ...
Lattice Boltzmann method (LBM) has recently been receiving considerable attention as a possible alte...