AbstractModelling the hydrodynamics of gas/solid flow is important for the design and scale-up of fluidized bed reactors. A novel gas/solid dual-scale model based on lattice gas cellular automata (LGCA) is proposed to describe the macroscopic behaviour through microscopic gas–solid interactions. Solid particles and gas pseudo-particles are aligned in lattices with different scales for solid and gas. In addition to basic LGCA rules, additional rules for collision and propagation are specifically designed for gas–solid systems. The solid’s evolution is then motivated by the temporal and spatial average momentum gained through solid–solid and gas–solid interactions. A statistical method, based on the similarity principle, is derived for the co...
In this work, we focus on fluid modeling and animation through Lattice Gas Cellular Automata (LGCA) ...
AbstractTo describe the hydrodynamic phenomena prevailing in large industrial scale fluidized beds c...
Lattice gas cellular automata (LGCA), as a fluid dynamic simulation method, are conceptually simple ...
AbstractModelling the hydrodynamics of gas/solid flow is important for the design and scale-up of fl...
This paper introduces an approach for the simulation of the hydrodynamic behaviour of gas–solid flui...
An ever newer development in the CA is the lattice Boltmann (LB) technique [13]. The standard LB tec...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
Numerical models of gas-fluidized beds have become an important tool in the design and scale up of g...
Dense gas-particle flows are encountered in a variety of industrially important processes for large ...
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...
Note:The Lattice Gas Cellular Automata method is a useful approximation for modeling fluids. It deal...
Conventional lattice gas automata consist of particles moving discretely on a fixed lattice. While s...
Lattice-gas cellular automaton (LGCA) and lattice Boltzmann (LB) models are promising models for stu...
In this work, we focus on fluid modeling and animation through Lattice Gas Cellular Automata (LGCA) ...
AbstractTo describe the hydrodynamic phenomena prevailing in large industrial scale fluidized beds c...
Lattice gas cellular automata (LGCA), as a fluid dynamic simulation method, are conceptually simple ...
AbstractModelling the hydrodynamics of gas/solid flow is important for the design and scale-up of fl...
This paper introduces an approach for the simulation of the hydrodynamic behaviour of gas–solid flui...
An ever newer development in the CA is the lattice Boltmann (LB) technique [13]. The standard LB tec...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
Numerical models of gas-fluidized beds have become an important tool in the design and scale up of g...
Dense gas-particle flows are encountered in a variety of industrially important processes for large ...
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...
Note:The Lattice Gas Cellular Automata method is a useful approximation for modeling fluids. It deal...
Conventional lattice gas automata consist of particles moving discretely on a fixed lattice. While s...
Lattice-gas cellular automaton (LGCA) and lattice Boltzmann (LB) models are promising models for stu...
In this work, we focus on fluid modeling and animation through Lattice Gas Cellular Automata (LGCA) ...
AbstractTo describe the hydrodynamic phenomena prevailing in large industrial scale fluidized beds c...
Lattice gas cellular automata (LGCA), as a fluid dynamic simulation method, are conceptually simple ...