The physical mechanism leading to flame local extinction remains a key issue to be further understood. An analysis of large eddy simulation (LES) data with presumed probability density function (PDF) based closure (Chen et al., 2020, Combust. Flame, vol. 212, pp. 415) indicated the presence of localised breaks of the flame front along the stoichiometric line. These observations and their relation to local quenching of burning fluid particles, together with the possible physical mechanisms and conditions allowing their appearance in LES with a simple flamelet model, are investigated in this work using a combined Lagrangian-Eulerian analysis. The Sidney/Sandia piloted jet flames with compositionally inhomogeneous inlet and increasing bulk spe...
Flame extinction is a critical impediment invariably limiting the performance of modern turbulent co...
WOS:000400312700018International audienceLarge-eddy simulation of a supersonic hydrogen-air non-prem...
This paper reports on Large Eddy Simulation (LES) of turbulent premixed methane/air flames approachi...
The physical mechanism leading to flame local extinction remains a key issue to be further understoo...
Multi-regime turbulent combustion modelling remains challenging and is explored with occurrence of l...
Large eddy simulation (LES) results are presented for a premixed methane/air turbulent flame arising...
The Large Eddy Simulation (LES)/three-dimensional Conditional Moment Closure (CMC) model with detail...
Turbulent non-premixed flames with local extinction and re-ignition exhibit multiple combustion mode...
The sensitivity of Large Eddy Simulation with Conditional Moment Closure (LES-CMC) simulations of th...
In many practical combustion devices, rapid mixing of the fuel and oxidizer is often desired to maxi...
A premixed propane–air flame stabilised on a triangular bluff body in a model jet-engine afterburner...
Large eddy simulation (LES) is conducted of a turbulent piloted nonpremixed methane jet flame. This ...
Premixed and partially premixed lean combustion is utilised in modern gas turbine systems, since an ...
An improved understanding of lean turbulent combustion phenomena is critical for the development of ...
This work is focused on the study of flame stabilization and local extinction of a spray flame in an...
Flame extinction is a critical impediment invariably limiting the performance of modern turbulent co...
WOS:000400312700018International audienceLarge-eddy simulation of a supersonic hydrogen-air non-prem...
This paper reports on Large Eddy Simulation (LES) of turbulent premixed methane/air flames approachi...
The physical mechanism leading to flame local extinction remains a key issue to be further understoo...
Multi-regime turbulent combustion modelling remains challenging and is explored with occurrence of l...
Large eddy simulation (LES) results are presented for a premixed methane/air turbulent flame arising...
The Large Eddy Simulation (LES)/three-dimensional Conditional Moment Closure (CMC) model with detail...
Turbulent non-premixed flames with local extinction and re-ignition exhibit multiple combustion mode...
The sensitivity of Large Eddy Simulation with Conditional Moment Closure (LES-CMC) simulations of th...
In many practical combustion devices, rapid mixing of the fuel and oxidizer is often desired to maxi...
A premixed propane–air flame stabilised on a triangular bluff body in a model jet-engine afterburner...
Large eddy simulation (LES) is conducted of a turbulent piloted nonpremixed methane jet flame. This ...
Premixed and partially premixed lean combustion is utilised in modern gas turbine systems, since an ...
An improved understanding of lean turbulent combustion phenomena is critical for the development of ...
This work is focused on the study of flame stabilization and local extinction of a spray flame in an...
Flame extinction is a critical impediment invariably limiting the performance of modern turbulent co...
WOS:000400312700018International audienceLarge-eddy simulation of a supersonic hydrogen-air non-prem...
This paper reports on Large Eddy Simulation (LES) of turbulent premixed methane/air flames approachi...