The validity of the premixed flamelet equations and the dependence of the fuel burning rate on the parameters involved in these equations have been investigated using a large series of direct numerical simulations of turbulent premixed flames in the thin reaction zones (TRZ) and the distributed reaction zones (DRZ) regimes. Methane, toluene, n-heptane, and iso-octane fuels were considered over a wide range of unburnt conditions and turbulence characteristics. Flames with unity and non-unity Lewis numbers were investigated separately to isolate turbulence-chemistry interaction from differential diffusion effects. In both cases, the flamelet equations, which rely on the assumption of a thin reaction zone, are locally valid throughout the TRZ ...
New transport equations for chemical reaction rate and its mean value in turbulent flows have been d...
Transport equations for reaction rate W and its Favre-averaged value W̃ are derived from first princ...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...
The validity of the premixed flamelet equations and the dependence of the fuel burning rate on the p...
The scalar mixing time scale, a key quantity in many turbulent combustion models, is investigated fo...
The scalar mixing time scale, a key quantity in many turbulent combustion models, is investigated fo...
One central ingredient in flamelet models for turbulent premixed combustion is the flame surface den...
Current flamelot models based on a description of the flame surface dynamics require the closure of ...
n-heptane/air premixed turbulent flames in the high-Karlovitz portion of the thin reaction zone regi...
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
Apparent inconsistency between (i) experimental and Direct Numerical Simulation (DNS) data that show...
Combustion of premixed reactants in a turbulent flow is a classical but unresolved problem. The key ...
Direct numerical simulations of turbulent premixed flames at high Karlovitz numbers are performed us...
In this study, closure relations for total and turbulent convection fluxes of flame surface density ...
In this paper we study the possibility to account for preferential diffusion effects in lean turbule...
New transport equations for chemical reaction rate and its mean value in turbulent flows have been d...
Transport equations for reaction rate W and its Favre-averaged value W̃ are derived from first princ...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...
The validity of the premixed flamelet equations and the dependence of the fuel burning rate on the p...
The scalar mixing time scale, a key quantity in many turbulent combustion models, is investigated fo...
The scalar mixing time scale, a key quantity in many turbulent combustion models, is investigated fo...
One central ingredient in flamelet models for turbulent premixed combustion is the flame surface den...
Current flamelot models based on a description of the flame surface dynamics require the closure of ...
n-heptane/air premixed turbulent flames in the high-Karlovitz portion of the thin reaction zone regi...
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
Apparent inconsistency between (i) experimental and Direct Numerical Simulation (DNS) data that show...
Combustion of premixed reactants in a turbulent flow is a classical but unresolved problem. The key ...
Direct numerical simulations of turbulent premixed flames at high Karlovitz numbers are performed us...
In this study, closure relations for total and turbulent convection fluxes of flame surface density ...
In this paper we study the possibility to account for preferential diffusion effects in lean turbule...
New transport equations for chemical reaction rate and its mean value in turbulent flows have been d...
Transport equations for reaction rate W and its Favre-averaged value W̃ are derived from first princ...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...