Add to ORKGIn this study, 3D direct numerical simulations of a multi-component fuel consisting of CO,H2,H2O,CO2 and CH4 reacting with air are performed. A freely propagating turbulent premixed stoichiometric flame is simulated for both low and high turbulence conditions i.e., the rms values of turbulent velocity fluctuations normalised by the laminar flame speed are of order 1 and 10. A skeletal mechanism involving 49 reactions and 15 species, and a 5-step reduced mechanism with 9 species, are used in order to evaluate the performance of the reduced mechanism under turbulent conditions. The 5-step mechanism incurs significantly lower computational expenses compared to the skeletal mechanism. The majority of species mean mass fractions and mean reactio...
In this paper we study the behavior of a premixed turbulent methane flame in three dimensions using...
Fossil fuel reserves are projected to be decreasing, and emission regulations are becoming more stri...
This paper investigates the influence of turbulence-chemistry interactions on kinetic pathways in tu...
AbstractIn this study, 3D direct numerical simulations of a multi-component fuel consisting of CO,H2...
In this study, 3D direct numerical simulations of a multi-component fuel consisting of CO, H2, H2 O,...
In this study, 3D direct numerical simulations of a multi-component fuel consisting of CO, H2, H2O, ...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
Three-dimensional direct numerical simulations (DNS) of methane-air turbulent premixed flames with a...
Direct numerical simulation (DNS) of freely-propagating premixed flames of a multi-component fuel is...
Reactive flow simulations involving turbulence-chemistry interaction are extremely challenging becau...
In this paper we study the behavior of a premixed turbulent methane flame in three dimensions using ...
In order to determine the mean rate of product creation within the framework of the Turbulent Flame ...
Direct numerical simulations (DNS) of turbulent combustion have evolved tremendously in the past dec...
WOS:000401682700031International audienceResults from a highly resolved simulation are presented for...
WOS:000401682700031International audienceResults from a highly resolved simulation are presented for...
In this paper we study the behavior of a premixed turbulent methane flame in three dimensions using...
Fossil fuel reserves are projected to be decreasing, and emission regulations are becoming more stri...
This paper investigates the influence of turbulence-chemistry interactions on kinetic pathways in tu...
AbstractIn this study, 3D direct numerical simulations of a multi-component fuel consisting of CO,H2...
In this study, 3D direct numerical simulations of a multi-component fuel consisting of CO, H2, H2 O,...
In this study, 3D direct numerical simulations of a multi-component fuel consisting of CO, H2, H2O, ...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
Three-dimensional direct numerical simulations (DNS) of methane-air turbulent premixed flames with a...
Direct numerical simulation (DNS) of freely-propagating premixed flames of a multi-component fuel is...
Reactive flow simulations involving turbulence-chemistry interaction are extremely challenging becau...
In this paper we study the behavior of a premixed turbulent methane flame in three dimensions using ...
In order to determine the mean rate of product creation within the framework of the Turbulent Flame ...
Direct numerical simulations (DNS) of turbulent combustion have evolved tremendously in the past dec...
WOS:000401682700031International audienceResults from a highly resolved simulation are presented for...
WOS:000401682700031International audienceResults from a highly resolved simulation are presented for...
In this paper we study the behavior of a premixed turbulent methane flame in three dimensions using...
Fossil fuel reserves are projected to be decreasing, and emission regulations are becoming more stri...
This paper investigates the influence of turbulence-chemistry interactions on kinetic pathways in tu...