A BGK-type procedure is applied to multi-component gases undergoing chemical reactions of bimolecular type. The relaxation process towards local Maxwellians, depending on mass and numerical densities of each species as well as common velocity and temperature, is investigated in two different cases with respect to chemical regimes. These cases are related to the strong reaction regime characterized by slow reactions, and to the kinetic chemical equilibrium regime where fast reactions take place. The consistency properties of both models are stated in detail. The trend to equilibrium is numerically tested and comparisons for the two regimes are performed within the hydrogen–air and carbon–oxygen reaction mechanism. In the spatial homogeneous ...
We consider a non reactive multi component gas mixture.We pro- pose a class of models, which can be ...
In the framework of recently introduced consistent Bhatnagar-Gross-Krook (BGK) approximations of the...
The dispersion relation and shock structure of a gas mixture undergoing a bimolecular chemical react...
Abstract. A BGK-type model for a reactive multicomponent gas undergoing chemical bimolecular reactio...
Two BGK-type models for reactive gas mixtures, derived in a previous paper, are here considered. The...
In this paper we derive a new relaxation model for reacting gas mixtures. We prove that this model s...
A recently proposed consistent BGK--type approach for reversible bimolecular chemical reactions, wel...
A reactive BGK-type model is proposed for a binary mixture of rarefied gases, by resorting to a simp...
The relaxation process towards mechanical and chemical equilibrium of a reacting gas mixture is mode...
In this paper we propose a BGK-type procedure which is applied to the full Boltzmann equation extend...
This paper concerns the extension of the multicomponent gas-kinetic BGK-type scheme to multidimensio...
A consistent BGK-type approach to reacting gas mixtures, according to Boltzmann-like kinetics for a ...
Versão dos autores para esta publicação.In this paper we derive a BGK relaxation model for a mixture...
We propose a kinetic model of BGK type for a gas mixture of an arbitrary number of species with arbi...
In this present paper, a quaternary gaseous reactive mixture, for which the chemical reaction is clo...
We consider a non reactive multi component gas mixture.We pro- pose a class of models, which can be ...
In the framework of recently introduced consistent Bhatnagar-Gross-Krook (BGK) approximations of the...
The dispersion relation and shock structure of a gas mixture undergoing a bimolecular chemical react...
Abstract. A BGK-type model for a reactive multicomponent gas undergoing chemical bimolecular reactio...
Two BGK-type models for reactive gas mixtures, derived in a previous paper, are here considered. The...
In this paper we derive a new relaxation model for reacting gas mixtures. We prove that this model s...
A recently proposed consistent BGK--type approach for reversible bimolecular chemical reactions, wel...
A reactive BGK-type model is proposed for a binary mixture of rarefied gases, by resorting to a simp...
The relaxation process towards mechanical and chemical equilibrium of a reacting gas mixture is mode...
In this paper we propose a BGK-type procedure which is applied to the full Boltzmann equation extend...
This paper concerns the extension of the multicomponent gas-kinetic BGK-type scheme to multidimensio...
A consistent BGK-type approach to reacting gas mixtures, according to Boltzmann-like kinetics for a ...
Versão dos autores para esta publicação.In this paper we derive a BGK relaxation model for a mixture...
We propose a kinetic model of BGK type for a gas mixture of an arbitrary number of species with arbi...
In this present paper, a quaternary gaseous reactive mixture, for which the chemical reaction is clo...
We consider a non reactive multi component gas mixture.We pro- pose a class of models, which can be ...
In the framework of recently introduced consistent Bhatnagar-Gross-Krook (BGK) approximations of the...
The dispersion relation and shock structure of a gas mixture undergoing a bimolecular chemical react...