In this work, a novel model for Large Eddy Simulations (LES) of high Reynolds moderate Damköhler number turbulent flames is proposed. The development is motivated by the need for more accurate and versatile LES combustion models for engineering applications such as jet engines. The model is based on the finite rate chemistry approach in which the filtered species equations of a reduced reaction mechanism are solved prior to closure modeling. The modeling of the filtered reaction rate provides the challenge: as most of the chemical activity, and thus also most of the exothermicity occurs on the subgrid s...
A Large Eddy Simulation (LES) model capable of accurately representing finite-rate chemistry effects...
AbstractThis paper presents models that are suitable for computing steady and unsteady gaseous combu...
Combustion is a complex phenomenon of interest that combines chemical reactions and turbulent flows....
In this work, a novel model for Large Eddy Simulations (LES) of high Reynolds mo...
For their ability to account for finite-rate chemistry, reactor-based models are well suited Turbule...
Present-day demands on combustion equipment are increasing the need for improved understanding and p...
Present-day demands on combustion equipment are increasing the need for improved understanding and p...
Large Eddy Simulation (LES) has potential to address unsteady phenomena in turbulent premixed flames...
In this work, we present a detailed comparison between the conventional Partially Stirred Reactor (P...
International audienceFlame ignition, stabilization and extinction or pollutant predictions are cruc...
Novel combustion technologies ensuring low emissions, high efficiency and fuel flexibility are essen...
In the last 10-15 years, large-eddy simulation (LES) has become well established for non-reacting fl...
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
Turbulent combustion models approximate the interaction between turbulence, molecular transport and ...
A lean premixed propane/air bluff-body stabilized flame (Volvo test rig) is calculated using the Sca...
A Large Eddy Simulation (LES) model capable of accurately representing finite-rate chemistry effects...
AbstractThis paper presents models that are suitable for computing steady and unsteady gaseous combu...
Combustion is a complex phenomenon of interest that combines chemical reactions and turbulent flows....
In this work, a novel model for Large Eddy Simulations (LES) of high Reynolds mo...
For their ability to account for finite-rate chemistry, reactor-based models are well suited Turbule...
Present-day demands on combustion equipment are increasing the need for improved understanding and p...
Present-day demands on combustion equipment are increasing the need for improved understanding and p...
Large Eddy Simulation (LES) has potential to address unsteady phenomena in turbulent premixed flames...
In this work, we present a detailed comparison between the conventional Partially Stirred Reactor (P...
International audienceFlame ignition, stabilization and extinction or pollutant predictions are cruc...
Novel combustion technologies ensuring low emissions, high efficiency and fuel flexibility are essen...
In the last 10-15 years, large-eddy simulation (LES) has become well established for non-reacting fl...
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
Turbulent combustion models approximate the interaction between turbulence, molecular transport and ...
A lean premixed propane/air bluff-body stabilized flame (Volvo test rig) is calculated using the Sca...
A Large Eddy Simulation (LES) model capable of accurately representing finite-rate chemistry effects...
AbstractThis paper presents models that are suitable for computing steady and unsteady gaseous combu...
Combustion is a complex phenomenon of interest that combines chemical reactions and turbulent flows....