The work is devoted to cellular-automaton modeling based on a class of cellular automata with Margolus neighborhood. Modeling of the gas sorption process by coal particle was carried out. To organize this kind of evolutionary process, the method of cellular automata modeling was supplemented by the Monte Carlo method to implement the boundary conditions at the solid – gas interface
We present the results of cellular automaton and Monte Carlo simulations for the case of CO oxidatio...
A cellular automaton (CA) model is proposed to simulate the egress of pedestrians while gaseous haza...
Topological constraints play a fundamental role in problems involving the transfer of heat, matter, ...
The method of symbiotic cellular automaton, which combines two approaches to describe the simulate...
Cellular automata and discrete iterations are employed to develop a new simula-tion method for gas-s...
The gasification reaction of coke in a pore was simulated using a cellular automaton method, which w...
Lattice gas cellular automata (LGCA), as a fluid dynamic simulation method, are conceptually simple ...
Cellular automata (CA) and lattice Boltzmann (LB) approaches are computational methods that offer fl...
Components of gas turbines are exposed to different damaging factors during their lifetime. Besides ...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
Abstract: The simplest cellular automata for the basic model of mathematical physics su...
A method for constructing a variety of probabilistic lattice-gas cellular automata for chemically re...
This paper introduces an approach for the simulation of the hydrodynamic behaviour of gas–solid flui...
Cellular automata are frequently used to model chemical reactions and processes. In this paper, a di...
Cellular automata (CA) can be applied for modeling the dynamics of spatially extended physical syste...
We present the results of cellular automaton and Monte Carlo simulations for the case of CO oxidatio...
A cellular automaton (CA) model is proposed to simulate the egress of pedestrians while gaseous haza...
Topological constraints play a fundamental role in problems involving the transfer of heat, matter, ...
The method of symbiotic cellular automaton, which combines two approaches to describe the simulate...
Cellular automata and discrete iterations are employed to develop a new simula-tion method for gas-s...
The gasification reaction of coke in a pore was simulated using a cellular automaton method, which w...
Lattice gas cellular automata (LGCA), as a fluid dynamic simulation method, are conceptually simple ...
Cellular automata (CA) and lattice Boltzmann (LB) approaches are computational methods that offer fl...
Components of gas turbines are exposed to different damaging factors during their lifetime. Besides ...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
Abstract: The simplest cellular automata for the basic model of mathematical physics su...
A method for constructing a variety of probabilistic lattice-gas cellular automata for chemically re...
This paper introduces an approach for the simulation of the hydrodynamic behaviour of gas–solid flui...
Cellular automata are frequently used to model chemical reactions and processes. In this paper, a di...
Cellular automata (CA) can be applied for modeling the dynamics of spatially extended physical syste...
We present the results of cellular automaton and Monte Carlo simulations for the case of CO oxidatio...
A cellular automaton (CA) model is proposed to simulate the egress of pedestrians while gaseous haza...
Topological constraints play a fundamental role in problems involving the transfer of heat, matter, ...