Add to ORKGInternational audienceThe thermodynamic formulation and the traditional formulation of multicomponent transport fluxes in high pressure fluids are discussed. The impact of high pressure transport models on mixing layers, premixed plane flames and strained diffusion flames is then investigated. Multicomponent fluxes in diffuse-interface transcritical diffusion flames are further addressed
This study addresses the effects of preferential diffusion on flame structure and propagation of hig...
The diffusion models for multicomponent mixtures are investigated in planar premixed flames, counter...
These notes are devoted to the analysis of reacting flows in systems where the reactants are initial...
International audienceThe thermodynamic formulation and the traditional formulation of multicomponen...
Gas-phase chemical reactions coupled with multidimensional fluid flow and heat and mass transport ar...
In this dissertation, we develop new mathematical theories of flame propagation that are valid at el...
The effects of Soret and Dufour diffusion on the behavior of high pressure laminar diffusion flames ...
Implementing multicomponent diffusion models in numerical combustion studies is computationally expe...
Rocket engines and high-power new generations of gas-turbine jet engines and diesel engines oftentim...
Energy transport by conduction and diffusion is considered in chemically-reacting, gaseous mixtures ...
This work presents a study of non-premixed flames at supercritical-pressure conditions. Emphasis is ...
Recent theoretical and experimental results demonstrating the interaction between force fields and d...
Implementing multicomponent diffusion models in numerical combustion stud- ies is computationally ex...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
This paper presents three-dimensional direct numerical simulations of lean premixed turbulent H2/air...
This study addresses the effects of preferential diffusion on flame structure and propagation of hig...
The diffusion models for multicomponent mixtures are investigated in planar premixed flames, counter...
These notes are devoted to the analysis of reacting flows in systems where the reactants are initial...
International audienceThe thermodynamic formulation and the traditional formulation of multicomponen...
Gas-phase chemical reactions coupled with multidimensional fluid flow and heat and mass transport ar...
In this dissertation, we develop new mathematical theories of flame propagation that are valid at el...
The effects of Soret and Dufour diffusion on the behavior of high pressure laminar diffusion flames ...
Implementing multicomponent diffusion models in numerical combustion studies is computationally expe...
Rocket engines and high-power new generations of gas-turbine jet engines and diesel engines oftentim...
Energy transport by conduction and diffusion is considered in chemically-reacting, gaseous mixtures ...
This work presents a study of non-premixed flames at supercritical-pressure conditions. Emphasis is ...
Recent theoretical and experimental results demonstrating the interaction between force fields and d...
Implementing multicomponent diffusion models in numerical combustion stud- ies is computationally ex...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
This paper presents three-dimensional direct numerical simulations of lean premixed turbulent H2/air...
This study addresses the effects of preferential diffusion on flame structure and propagation of hig...
The diffusion models for multicomponent mixtures are investigated in planar premixed flames, counter...
These notes are devoted to the analysis of reacting flows in systems where the reactants are initial...