Multiscale analysis of wall-bounded turbulent premixed flames is performed using three-dimensional direct numerical simulation data of flame-wall interaction (FWI). The chosen configuration represents head-on quenching of a turbulent statistically planar stoichiometric methane-air flame by an isothermal inert wall. Different turbulence intensities and chemical mechanisms have been analyzed. A bandpass filtering technique is utilised to analyze the influence of turbulent eddies of varying size and the statistics of vorticity and strain rate fields associated with them. It is found that the presence of the flame does not alter the mechanism of vortex stretching in turbulent flows when the flame is away from the wall, but in the case of FWI, t...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76041/1/AIAA-2008-4572-355.pd
Turbulent burning velocity plays an important role in turbulent premixed combustion. After many year...
In recent years the automobile and aviation industries, as well as other energy intensive branches, ...
Multiscale analysis of wall-bounded turbulent premixed flames is performed using three-dimensional d...
Multiscale analysis of turbulence-flame interaction is performed using direct numerical simulation (...
Multi-scale analysis of turbulence–flame interaction is performed using experimental data sets from ...
The use of turbulent premixed combustion in engines has been garnering renewed interest due to its p...
The transport of vorticity and enstrophy in the near-wall region for head-on quenching of turbulent ...
Combustion will play a major part in fulfilling the world’s energy demand in the next 20 years...
Flame quenching by fine mesh is one of the oldest known methods for mitigating flame propagation. Si...
The distribution of flow topologies within the flame, and their evolution with flame quenching have ...
AbstractMultiscale analysis of turbulence–flame interaction is performed using direct numerical simu...
The interaction between turbulent premixed flames and channel walls is studied. Combustion is repres...
International audienceAn experimental study of flame-wall interaction is presented. The flame is a l...
The flame-vortex interaction problem is a natural configuration in which several issues relevant to ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76041/1/AIAA-2008-4572-355.pd
Turbulent burning velocity plays an important role in turbulent premixed combustion. After many year...
In recent years the automobile and aviation industries, as well as other energy intensive branches, ...
Multiscale analysis of wall-bounded turbulent premixed flames is performed using three-dimensional d...
Multiscale analysis of turbulence-flame interaction is performed using direct numerical simulation (...
Multi-scale analysis of turbulence–flame interaction is performed using experimental data sets from ...
The use of turbulent premixed combustion in engines has been garnering renewed interest due to its p...
The transport of vorticity and enstrophy in the near-wall region for head-on quenching of turbulent ...
Combustion will play a major part in fulfilling the world’s energy demand in the next 20 years...
Flame quenching by fine mesh is one of the oldest known methods for mitigating flame propagation. Si...
The distribution of flow topologies within the flame, and their evolution with flame quenching have ...
AbstractMultiscale analysis of turbulence–flame interaction is performed using direct numerical simu...
The interaction between turbulent premixed flames and channel walls is studied. Combustion is repres...
International audienceAn experimental study of flame-wall interaction is presented. The flame is a l...
The flame-vortex interaction problem is a natural configuration in which several issues relevant to ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76041/1/AIAA-2008-4572-355.pd
Turbulent burning velocity plays an important role in turbulent premixed combustion. After many year...
In recent years the automobile and aviation industries, as well as other energy intensive branches, ...