The use of probability theory to determine the effects of turbulent fluctuations on reaction rates in turbulent combustion systems is briefly reviewed. Results are presented for the effect of species fluctuations in particular. It is found that turbulent fluctuations of species act to reduce the reaction rates, in contrast with the temperature fluctuations previously determined to increase Arrhenius reaction rate constants. For the temperature fluctuations, a criterion is set forth for determining if, in a given region of a turbulent flow field, the temperature can be expected to exhibit ramp like fluctuations. Using the above results, along with results previously obtained, a model is described for testing the effects of turbulent fluctuat...
The objective of this thesis is to further develop and test a stochastic model of turbulent combusti...
Studies of chemical reactions occurring in turbulent flows are important in the understanding of com...
With the goal of obtaining an accurate model of the turbulent reaction rate for Large Eddy Simulatio...
A principal element to be derived from modeling turbulent reacting flows is an expression for the re...
The joint probability distribution function (pdf), which is a modification of the bivariate Gaussian...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...
A combined Monte Carlo-computational fluid dynamic (CFD) algorithm was developed recently at Lewis R...
Present work concerns the interaction of chemistry and turbulence in a turbulent reacting flow. Both...
The direct numerical simulation (DNS) data of a turbulent, reacting boundary layer is used to study ...
In combustion computations, it is known that the predictions of chemical reaction rates are poor if ...
This dissertation considers, in three parts, problems concerning mixing and chemical reactions in ho...
International audienceA two-scalar probability density function (PDF) is used to evaluate the mean c...
Direct numerical simulations of turbulent reacting flows were performed to study the interaction bet...
An enhanced diffusion-reaction reaction system (DRS) is proposed as a statistical model for the evol...
The modeling of turbulence-chemistry-thermodynamic interaction is addressed through an a priori stud...
The objective of this thesis is to further develop and test a stochastic model of turbulent combusti...
Studies of chemical reactions occurring in turbulent flows are important in the understanding of com...
With the goal of obtaining an accurate model of the turbulent reaction rate for Large Eddy Simulatio...
A principal element to be derived from modeling turbulent reacting flows is an expression for the re...
The joint probability distribution function (pdf), which is a modification of the bivariate Gaussian...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...
A combined Monte Carlo-computational fluid dynamic (CFD) algorithm was developed recently at Lewis R...
Present work concerns the interaction of chemistry and turbulence in a turbulent reacting flow. Both...
The direct numerical simulation (DNS) data of a turbulent, reacting boundary layer is used to study ...
In combustion computations, it is known that the predictions of chemical reaction rates are poor if ...
This dissertation considers, in three parts, problems concerning mixing and chemical reactions in ho...
International audienceA two-scalar probability density function (PDF) is used to evaluate the mean c...
Direct numerical simulations of turbulent reacting flows were performed to study the interaction bet...
An enhanced diffusion-reaction reaction system (DRS) is proposed as a statistical model for the evol...
The modeling of turbulence-chemistry-thermodynamic interaction is addressed through an a priori stud...
The objective of this thesis is to further develop and test a stochastic model of turbulent combusti...
Studies of chemical reactions occurring in turbulent flows are important in the understanding of com...
With the goal of obtaining an accurate model of the turbulent reaction rate for Large Eddy Simulatio...