Abstract. A method for predicting filtered chemical species concentrations and filtered reaction rates in Large-Eddy Simulations of non-premixed, non-isothermal, turbulent reacting flows has been demonstrated to be quite accurate for higher Damköhler numbers. This subgrid-scale model is based on flamelet theory and uses presumed forms for both the dissipation rate and subgrid-scale probability density function of a conserved scalar. Inputs to the model are the chemistry rates, the Favre-filtered scalar, and its subgrid-scale variance and filtered dissipation rate. In this paper, models for the filtered dissipation rate and subgrid-scale variance are evaluated by filtering data from 5123-point Direct Numerical Simulations of a single-step, i...
Two models for large eddy simulation of turbulent reacting flow in homogeneous turbulence were studi...
A simple closure for filtered reaction of a reaction progress variable is analysed in this study usi...
Despite significant advances in the understanding and modelling of turbulent combustion, no general ...
AbstractA method for predicting filtered chemical species concentrations and filtered reaction rates...
An algebraic reaction rate closure involving filtered scalar dissipation rate of reaction progress v...
Thesis (Ph. D.)--University of Washington, 1996A computational algorithm is described for Direct Num...
In large eddy simulation (LES), a spatial filtering operation is applied to an instanta-neous field,...
In turbulent combustion simulations, the flow structure at the unresolved scale level needs to be re...
A subgrid-scale model is presented for the scalar dissipation rate in nonpremixed turbulent reacting...
AbstractA simple closure for filtered reaction of a reaction progress variable is analysed in this s...
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
In the foreseeable future, Direct Numerical Simulation (DNS), a technique in which all flow scales a...
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 the last 10-15 years, large-eddy simulation (LES) has become well established for non-reacting fl...
Two models for large eddy simulation of turbulent reacting flow in homogeneous turbulence were studi...
A simple closure for filtered reaction of a reaction progress variable is analysed in this study usi...
Despite significant advances in the understanding and modelling of turbulent combustion, no general ...
AbstractA method for predicting filtered chemical species concentrations and filtered reaction rates...
An algebraic reaction rate closure involving filtered scalar dissipation rate of reaction progress v...
Thesis (Ph. D.)--University of Washington, 1996A computational algorithm is described for Direct Num...
In large eddy simulation (LES), a spatial filtering operation is applied to an instanta-neous field,...
In turbulent combustion simulations, the flow structure at the unresolved scale level needs to be re...
A subgrid-scale model is presented for the scalar dissipation rate in nonpremixed turbulent reacting...
AbstractA simple closure for filtered reaction of a reaction progress variable is analysed in this s...
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
In the foreseeable future, Direct Numerical Simulation (DNS), a technique in which all flow scales a...
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 the last 10-15 years, large-eddy simulation (LES) has become well established for non-reacting fl...
Two models for large eddy simulation of turbulent reacting flow in homogeneous turbulence were studi...
A simple closure for filtered reaction of a reaction progress variable is analysed in this study usi...
Despite significant advances in the understanding and modelling of turbulent combustion, no general ...