International audienceA dual-weighted residual error estimation strategy is applied to the modeling error associated with a class of subgrid scale models widely used in turbulent combustion. The approach is implemented and validated for an idealized test problem consisting of a system of multiscale advection-reaction-diffusion equations. The regime of interest corresponds to the limit of fast reaction. A fully resolved numerical simulation of the resulting very fine reaction scale would be excessively demanding, so typically a subgrid model is used instead to account for its impact at large scales. The class of subgrid models investigated here is based on the asymptotic flamelet approximation, which leads to the so-called flamelet libraries...
This is a copy of the author 's final draft version of an article published in the journal Flow turb...
Large eddy simulation of turbulent premixed combustion behind a bluff-body is performed using unstra...
Large Eddy Simulation (LES) has potential to address unsteady phenomena in turbulent premixed flames...
In this thesis we consider the following aspects of computational modeling of complex flows: (i) sub...
Abstract. A method for predicting filtered chemical species concentrations and filtered reaction rat...
Two combustion models for turbulent premixed combustion in the flamelet regime are developed for uns...
We apply the error-landscape analysis to turbulent non-premixed combustion in a bluff-body flame and...
Large-eddy simulation of combustion problems involves highly nonlinear terms that, when filtered, re...
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
In this paper we revisit the a priori turbulent flame speed tabulation (TFST) technique for a given ...
In this paper we revisit the a priori turbulent flame speed tabulation (TFST) technique for a given ...
Premixed turbulent combustion simulations often use flamelets (1-D laminar flame solutions) and pres...
Large-eddy simulation (LES) of turbulent combustion with premixed flamelets is investigated in this ...
On s’intéresse ici aux erreurs de modélisation liées à l’usage de modèles de flammelette sous-maill...
We present a new approach to the a posteriori error analysis of stable Galerkin approximations of re...
This is a copy of the author 's final draft version of an article published in the journal Flow turb...
Large eddy simulation of turbulent premixed combustion behind a bluff-body is performed using unstra...
Large Eddy Simulation (LES) has potential to address unsteady phenomena in turbulent premixed flames...
In this thesis we consider the following aspects of computational modeling of complex flows: (i) sub...
Abstract. A method for predicting filtered chemical species concentrations and filtered reaction rat...
Two combustion models for turbulent premixed combustion in the flamelet regime are developed for uns...
We apply the error-landscape analysis to turbulent non-premixed combustion in a bluff-body flame and...
Large-eddy simulation of combustion problems involves highly nonlinear terms that, when filtered, re...
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
In this paper we revisit the a priori turbulent flame speed tabulation (TFST) technique for a given ...
In this paper we revisit the a priori turbulent flame speed tabulation (TFST) technique for a given ...
Premixed turbulent combustion simulations often use flamelets (1-D laminar flame solutions) and pres...
Large-eddy simulation (LES) of turbulent combustion with premixed flamelets is investigated in this ...
On s’intéresse ici aux erreurs de modélisation liées à l’usage de modèles de flammelette sous-maill...
We present a new approach to the a posteriori error analysis of stable Galerkin approximations of re...
This is a copy of the author 's final draft version of an article published in the journal Flow turb...
Large eddy simulation of turbulent premixed combustion behind a bluff-body is performed using unstra...
Large Eddy Simulation (LES) has potential to address unsteady phenomena in turbulent premixed flames...