The general objective of this study is to develop accurate combustion and radiation models for large eddy simulations (LES) of well-controlled laboratory-scale turbulent fires. The combustion model features a library of flamelet solutions corresponding to steady, laminar, strained diffusion flames. The radiation model features a classical description of non-local radiation phenomena through the Radiative Transfer Equation (RTE). Different treatments of coupled combustion and radiation effects at flamelet scale are considered: a treatment in which local radiation phenomena are neglected inside the flamelet solver; and a treatment in which these phenomena are included inside the flamelet solver and also subgrid-scale turbulence-radiation inte...
The present study investigates a model for the large-scale simulation of turbulent non-premixed flam...
The design of aeronautical combustion chambers requires a precise balance between the different phys...
Numerical simulation is one of the most powerful tools to design and optimizeindustrial facilities. ...
International audienceThe general objective of this study is to develop accurate combustion and radi...
In traditional computational fluid dynamics (CFD) descriptions of fires, the combustion and radiatio...
This study reports the development of a LES-based numerical model dedicated to the simulation of wel...
La simulation de la combustion turbulente connait un nouvel essor avec l'introduction de la Simulati...
Radiative transfer plays an important role in turbulent combustion and should be incorporatedin nume...
Large fully turbulent fires, which result as a consequence of an aircraft accident, pose asevere haz...
The simulation of fire scenarios in confined environment requires to model critical processes such a...
The prediction of wall fluxes is a significant aspect in the life cycle of combustors, since it allo...
As a first step for fire simulation, an extension of the incompressible scheme and adapta- tions for...
The present study investigates a model for the large-scale simulation of turbulent non-premixed flam...
The design of aeronautical combustion chambers requires a precise balance between the different phys...
Numerical simulation is one of the most powerful tools to design and optimizeindustrial facilities. ...
International audienceThe general objective of this study is to develop accurate combustion and radi...
In traditional computational fluid dynamics (CFD) descriptions of fires, the combustion and radiatio...
This study reports the development of a LES-based numerical model dedicated to the simulation of wel...
La simulation de la combustion turbulente connait un nouvel essor avec l'introduction de la Simulati...
Radiative transfer plays an important role in turbulent combustion and should be incorporatedin nume...
Large fully turbulent fires, which result as a consequence of an aircraft accident, pose asevere haz...
The simulation of fire scenarios in confined environment requires to model critical processes such a...
The prediction of wall fluxes is a significant aspect in the life cycle of combustors, since it allo...
As a first step for fire simulation, an extension of the incompressible scheme and adapta- tions for...
The present study investigates a model for the large-scale simulation of turbulent non-premixed flam...
The design of aeronautical combustion chambers requires a precise balance between the different phys...
Numerical simulation is one of the most powerful tools to design and optimizeindustrial facilities. ...