Add to ORKGAppropriate algorithmic tools are employed for the analysis of the explosive modes developing during the autoignition of homogeneous mixtures. The ability of these tools to provide significant physical understanding is demonstrated in the case of the homogeneous ignition of a stoichiometric H2/air mixture, modelled by two different chemical kinetics mechanisms. It is shown that the ignition process evolves in two stages. The first stage is characterised by the development of two explosive timescales (one fast and one slow), that lead the system away from equilibrium. As the end of the first stage is approached, the two explosive timescales converge, they merge and then they disappear. In the second stage only dissipative timescales develop,...
Proceedings of: 13th International Conference on Numerical Combustion, 27-29 April, 2011, Corfu (Gre...
In this paper, we compare the autoignition characteristics of laminar, nitrogen-diluted hydrogen jet...
This paper addresses ignition histories of diffusion flames in unstrained hydrogen-air mixing layers...
This paper examines the influence of wall reactions on the generation of the explosive time scale th...
When the fast dissipative time scales become exhausted, the evolution of reacting processes is chara...
Using algorithmic tools derived from the methodology of Computational Singular Perturbation various ...
The dynamics of a homogeneous adiabatic autoignition of an ammonia/air mixture at constant volume wa...
The autoignition kinetics of DME/air and EtOH/air stoichiometric mixtures are compared with the use ...
Reactions contributing to the generation of the explosive time scale that characterise autoignition ...
International audienceA better understanding of chemical kinetics under volumetric expansion is impo...
The objective of this work is to investigate theoretically two different problems of interest in Com...
Auto-ignition processes of hydrogen, diluted with nitrogen, in heated air are numerically investigat...
Proceedings of: 13th International Conference on Numerical Combustion, 27-29 April, 2011, Corfu (Gre...
In this paper, we compare the autoignition characteristics of laminar, nitrogen-diluted hydrogen jet...
This paper addresses ignition histories of diffusion flames in unstrained hydrogen-air mixing layers...
This paper examines the influence of wall reactions on the generation of the explosive time scale th...
When the fast dissipative time scales become exhausted, the evolution of reacting processes is chara...
Using algorithmic tools derived from the methodology of Computational Singular Perturbation various ...
The dynamics of a homogeneous adiabatic autoignition of an ammonia/air mixture at constant volume wa...
The autoignition kinetics of DME/air and EtOH/air stoichiometric mixtures are compared with the use ...
Reactions contributing to the generation of the explosive time scale that characterise autoignition ...
International audienceA better understanding of chemical kinetics under volumetric expansion is impo...
The objective of this work is to investigate theoretically two different problems of interest in Com...
Auto-ignition processes of hydrogen, diluted with nitrogen, in heated air are numerically investigat...
Proceedings of: 13th International Conference on Numerical Combustion, 27-29 April, 2011, Corfu (Gre...
In this paper, we compare the autoignition characteristics of laminar, nitrogen-diluted hydrogen jet...
This paper addresses ignition histories of diffusion flames in unstrained hydrogen-air mixing layers...