Turbulence-transport-chemistry interaction plays a crucial role on the flame surface geometry, local and global reactionrates, and therefore, on the propagation and extinction characteristics of intensely turbulent, premixed flames encountered in LPP gas-turbine combustors. The aim of the present work is to understand these interaction effects on the flame surface annihilation and extinction of lean premixed flames, interacting with near isotropic turbulence. As an example case, lean premixed H-2-air mixture is considered so as to enable inclusion of detailed chemistry effects in Direct Numerical Simulations (DNS). The work is carried out in two phases namely, statistically planar flames and ignition kernel, both interacting with near isotr...
The behavior of premixed flames has been examined by many authors. In fact the problem of combustion...
Direct numerical simulation is employed to investigate the turbulent flow characteristics and their ...
Transport equations for reaction rate W and its Favre-averaged value W̃ are derived from first princ...
Turbulence-transport-chemistry interaction plays a crucial role on the flame surface geometry, local...
Interactions of turbulence, molecular transport, and energy transport, coupled with chemistry play a...
gIn this study, we assess the veracity of models for density-weighted local flame displacement speed...
An experimental and theoretical investigation of free turbulent premixed flames propagating in isotr...
Flames interacting with turbulence are continuously generated and annihilated by stretching and fold...
Premixed turbulent flames feature strong interactions between chemical reactions and turbulence that...
Abstract:Various experimental and DNS data show that premixed combustion is affected by the differen...
Flame particles are surface points that always remain embedded on, by comoving with a given iso-scal...
An experimental nd theoretical investigation of free turbulent premixed flames propagating in isotro...
We analytically investigated the influence of light hydrocarbons on turbulent premixed H2/air atmosp...
The flame structure corresponding to lean hydrogen-air premixed flames in intense sheared turbulence...
The understanding and prediction of the early development of flame kernels are of high practical imp...
The behavior of premixed flames has been examined by many authors. In fact the problem of combustion...
Direct numerical simulation is employed to investigate the turbulent flow characteristics and their ...
Transport equations for reaction rate W and its Favre-averaged value W̃ are derived from first princ...
Turbulence-transport-chemistry interaction plays a crucial role on the flame surface geometry, local...
Interactions of turbulence, molecular transport, and energy transport, coupled with chemistry play a...
gIn this study, we assess the veracity of models for density-weighted local flame displacement speed...
An experimental and theoretical investigation of free turbulent premixed flames propagating in isotr...
Flames interacting with turbulence are continuously generated and annihilated by stretching and fold...
Premixed turbulent flames feature strong interactions between chemical reactions and turbulence that...
Abstract:Various experimental and DNS data show that premixed combustion is affected by the differen...
Flame particles are surface points that always remain embedded on, by comoving with a given iso-scal...
An experimental nd theoretical investigation of free turbulent premixed flames propagating in isotro...
We analytically investigated the influence of light hydrocarbons on turbulent premixed H2/air atmosp...
The flame structure corresponding to lean hydrogen-air premixed flames in intense sheared turbulence...
The understanding and prediction of the early development of flame kernels are of high practical imp...
The behavior of premixed flames has been examined by many authors. In fact the problem of combustion...
Direct numerical simulation is employed to investigate the turbulent flow characteristics and their ...
Transport equations for reaction rate W and its Favre-averaged value W̃ are derived from first princ...