New transport equations for chemical reaction rate and its mean value in turbulent flows have been derived and analyzed. Local perturbations of the reaction zone by turbulent eddies are shown to play a pivotal role even for weakly turbulent flows. The mean-reaction-rate transport equation is shown to involve two unclosed dominant terms and a joint closure relation for the sum of these two terms is developed. Obtained analytical results and, in particular, the closure relation are supported by processing two widely recognized sets of data obtained from earlier direct numerical simulations of statistically planar 1D premixed flames associated with both weak large-scale and intense small-scale turbulence
Virtually all of the energy derived from the consumption of combustibles occurs in systems which uti...
Combustion of premixed reactants in a turbulent flow is a classical but unresolved problem. The key ...
In this study, closure relations for total and turbulent convection fluxes of flame surface density ...
International audienceNew transport equations for chemical reaction rate and its mean value in turbu...
\ua9 2017 The Author(s) The present work aims at modeling the entire convection flux (Formula presen...
Transport equations for reaction rate W and its Favre-averaged value W̃ are derived from first princ...
International audienceTransport equations for (i) the rate of product creation and (ii) its Favre-av...
The scalar mixing time scale, a key quantity in many turbulent combustion models, is investigated fo...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...
Although the different regimes of premixed combustion are not well defined, most of the recent devel...
Current flamelot models based on a description of the flame surface dynamics require the closure of ...
The validity of the premixed flamelet equations and the dependence of the fuel burning rate on the p...
Recently, a transport equation for the mean rate of product creation in a premixed turbulent flame w...
The scalar mixing time scale, a key quantity in many turbulent combustion models, is investigated fo...
Recently, Sabelnikov et al. (2019) developed a phenomenological theory of propagation of an infinite...
Virtually all of the energy derived from the consumption of combustibles occurs in systems which uti...
Combustion of premixed reactants in a turbulent flow is a classical but unresolved problem. The key ...
In this study, closure relations for total and turbulent convection fluxes of flame surface density ...
International audienceNew transport equations for chemical reaction rate and its mean value in turbu...
\ua9 2017 The Author(s) The present work aims at modeling the entire convection flux (Formula presen...
Transport equations for reaction rate W and its Favre-averaged value W̃ are derived from first princ...
International audienceTransport equations for (i) the rate of product creation and (ii) its Favre-av...
The scalar mixing time scale, a key quantity in many turbulent combustion models, is investigated fo...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...
Although the different regimes of premixed combustion are not well defined, most of the recent devel...
Current flamelot models based on a description of the flame surface dynamics require the closure of ...
The validity of the premixed flamelet equations and the dependence of the fuel burning rate on the p...
Recently, a transport equation for the mean rate of product creation in a premixed turbulent flame w...
The scalar mixing time scale, a key quantity in many turbulent combustion models, is investigated fo...
Recently, Sabelnikov et al. (2019) developed a phenomenological theory of propagation of an infinite...
Virtually all of the energy derived from the consumption of combustibles occurs in systems which uti...
Combustion of premixed reactants in a turbulent flow is a classical but unresolved problem. The key ...
In this study, closure relations for total and turbulent convection fluxes of flame surface density ...