The objective of this paper is to present a large eddy simulation model for chemically reacting flows. The large eddy simulation model, founded on a physical model based on modern continuum mechanics, includes a complete treatment of the subgrid stresses and fluxes including both backscatter and diffusion. To investigate the predictive capabilities of the large eddy simulation model, numerical simulations of a configuration corresponding to a rig consisting of a rectilinear channel with a triangular-shaped bluff body have been performed. Both nonreacting and reacting flows have been examined under a variety of operating conditions. This paper focuses on the reacting case, which is characterized as lean and premixed. The simulation results a...
A methodology for solving unsteady premixed turbulent flame propagation problems in high Reynolds nu...
AbstractA method for predicting filtered chemical species concentrations and filtered reaction rates...
In this work, a Large Eddy Simulation (LES) model was used to simulate the transient premixed flame-...
The increasing computational capacity in recent years has spurred the growing use of combustion Larg...
This paper presents results of numerical simulations of cold and reactive flow behind a bluff body, ...
A premixed propane–air flame stabilised on a triangular bluff body in a model jet-engine afterburner...
ABSTRACT: A turbulent reacting flow in a channel with an obstacle was simulated computationally with...
Large Eddy Simulations of an unconfined turbulent lean practical flame stabilised behind a bluff bod...
Large Eddy Simulations of an unconfined turbulent lean premixed flame, which is stabilised behind a ...
This work examines the three main aspects of bluff-body stabilized flames: stationary combustion, le...
Development of accurate combustion models is needed to aid in the design of improved combustors in b...
Present-day demands on combustion equipment are increasing the need for improved understanding and p...
Bluff bodies are used to stabilize flames in high velocity cross flow, and are commonly utilized in ...
Large Eddy Simulation is a powerful tool to simulate the unsteady lean premixedflames and to predict...
As almost all combustion processes of practical interest take place in the presence of turbulence, t...
A methodology for solving unsteady premixed turbulent flame propagation problems in high Reynolds nu...
AbstractA method for predicting filtered chemical species concentrations and filtered reaction rates...
In this work, a Large Eddy Simulation (LES) model was used to simulate the transient premixed flame-...
The increasing computational capacity in recent years has spurred the growing use of combustion Larg...
This paper presents results of numerical simulations of cold and reactive flow behind a bluff body, ...
A premixed propane–air flame stabilised on a triangular bluff body in a model jet-engine afterburner...
ABSTRACT: A turbulent reacting flow in a channel with an obstacle was simulated computationally with...
Large Eddy Simulations of an unconfined turbulent lean practical flame stabilised behind a bluff bod...
Large Eddy Simulations of an unconfined turbulent lean premixed flame, which is stabilised behind a ...
This work examines the three main aspects of bluff-body stabilized flames: stationary combustion, le...
Development of accurate combustion models is needed to aid in the design of improved combustors in b...
Present-day demands on combustion equipment are increasing the need for improved understanding and p...
Bluff bodies are used to stabilize flames in high velocity cross flow, and are commonly utilized in ...
Large Eddy Simulation is a powerful tool to simulate the unsteady lean premixedflames and to predict...
As almost all combustion processes of practical interest take place in the presence of turbulence, t...
A methodology for solving unsteady premixed turbulent flame propagation problems in high Reynolds nu...
AbstractA method for predicting filtered chemical species concentrations and filtered reaction rates...
In this work, a Large Eddy Simulation (LES) model was used to simulate the transient premixed flame-...