An adaptation of lattice-gas cellular automata to the simulation of solid-fluid suspensions is described. The method incorporates both dissipative hydrodynamic forces and thermal fluctuations. At low solid densities, theoretical results for the drag force on a single disk and the viscosity of a suspension of disks are reproduced. The zero–shear-rate viscosity has been obtained over a range of packing fractions and results indicate that simulations of three-dimensional suspensions are feasible
The lattice-Boltzmann model [1,2] has become a popular method for modeling fluid-dynamical behavior,...
We investigate the space and time behavior of spontaneous thermohydrodynamic fluctuations in a simpl...
We define a lattice Boltzmann model of solid, deformable suspensions immersed in a fluid itself desc...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
This paper introduces an approach for the simulation of the hydrodynamic behaviour of gas–solid flui...
Abstract. A new cellular-automaton model for fluid dynamics is introduced in this paper, that focus ...
Cellular automata constitutes a unique approach to the modeling of complex systems. The major phase ...
Lattice-gas cellular automata (LGCA) and lattice Boltzmann models (LBM) are relatively new and promi...
The motion of microorganisms presents interesting and diffcult problems ranging from mechanisms of p...
A review of cellular automaton fluids, which are the class of cellular automata used in describing f...
An ever newer development in the CA is the lattice Boltmann (LB) technique [13]. The standard LB tec...
In this study, the Lattice Boltzmann (LB) method is applied for computer simulation of suspension fl...
The lattice gas automata (LGA) technique as an alternative to the partial differential equation (PDE...
Conventional lattice gas automata consist of particles moving discretely on a fixed lattice. While s...
AbstractModelling the hydrodynamics of gas/solid flow is important for the design and scale-up of fl...
The lattice-Boltzmann model [1,2] has become a popular method for modeling fluid-dynamical behavior,...
We investigate the space and time behavior of spontaneous thermohydrodynamic fluctuations in a simpl...
We define a lattice Boltzmann model of solid, deformable suspensions immersed in a fluid itself desc...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
This paper introduces an approach for the simulation of the hydrodynamic behaviour of gas–solid flui...
Abstract. A new cellular-automaton model for fluid dynamics is introduced in this paper, that focus ...
Cellular automata constitutes a unique approach to the modeling of complex systems. The major phase ...
Lattice-gas cellular automata (LGCA) and lattice Boltzmann models (LBM) are relatively new and promi...
The motion of microorganisms presents interesting and diffcult problems ranging from mechanisms of p...
A review of cellular automaton fluids, which are the class of cellular automata used in describing f...
An ever newer development in the CA is the lattice Boltmann (LB) technique [13]. The standard LB tec...
In this study, the Lattice Boltzmann (LB) method is applied for computer simulation of suspension fl...
The lattice gas automata (LGA) technique as an alternative to the partial differential equation (PDE...
Conventional lattice gas automata consist of particles moving discretely on a fixed lattice. While s...
AbstractModelling the hydrodynamics of gas/solid flow is important for the design and scale-up of fl...
The lattice-Boltzmann model [1,2] has become a popular method for modeling fluid-dynamical behavior,...
We investigate the space and time behavior of spontaneous thermohydrodynamic fluctuations in a simpl...
We define a lattice Boltzmann model of solid, deformable suspensions immersed in a fluid itself desc...