In numerical modelling, Large Eddy Simulations (LES) has evolved itself as a powerful tool for the prediction of turbulent premixed flames. In LES, sub-grid scale (SGS) modelling plays a pivotal role in accounting for various SGS effects. Chemical reaction rate in LES turbulent premixed flames is a SGS phenomenon and must be accounted accurately. Flame surface density (FSD) models based on laminar flamelet concepts are simple and efficient in accounting the chemical reaction rate, which is the main motive of this research (...continues
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
A large eddy simulation (LES) model has been developed and validated for turbulent non-premixed and ...
The LES study reported in this paper presents the influence of number and position of the obstacles ...
Encouraged by the recent demand for eco-friendly combustion systems, advancements in the predictive ...
A Dynamic flame surface density (DFSD) model, developed recently from experimental images for transi...
Large Eddy Simulation (LES) has become an increasingly useful tool for the prediction of turbulent ...
A Dynamic flame surface density (DFSD) model, developed recently from experimental images for transi...
The importance of turbulent premixed combustion comes from the fact that it is present in many engin...
Transient premixed flames are significant in areas such as spark-ignition engines and gas explosions...
This paper presents an assessment of Large Eddy Simulations in calculating the structure of turbulen...
A parametric study has been carried out on the use of large eddy simulations (LES) technique for the...
This paper presents simulations of propagating turbulent premixed deflagrating flames past built-in ...
A parametric study has been carried out on the use of large eddy simulations (LES) technique for the...
The LES study reported in this paper presents the influence of number and position of the obstacles ...
PhD ThesisIn turbulent premixed flames the modelling of mean or filtered reac tion rate translates t...
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
A large eddy simulation (LES) model has been developed and validated for turbulent non-premixed and ...
The LES study reported in this paper presents the influence of number and position of the obstacles ...
Encouraged by the recent demand for eco-friendly combustion systems, advancements in the predictive ...
A Dynamic flame surface density (DFSD) model, developed recently from experimental images for transi...
Large Eddy Simulation (LES) has become an increasingly useful tool for the prediction of turbulent ...
A Dynamic flame surface density (DFSD) model, developed recently from experimental images for transi...
The importance of turbulent premixed combustion comes from the fact that it is present in many engin...
Transient premixed flames are significant in areas such as spark-ignition engines and gas explosions...
This paper presents an assessment of Large Eddy Simulations in calculating the structure of turbulen...
A parametric study has been carried out on the use of large eddy simulations (LES) technique for the...
This paper presents simulations of propagating turbulent premixed deflagrating flames past built-in ...
A parametric study has been carried out on the use of large eddy simulations (LES) technique for the...
The LES study reported in this paper presents the influence of number and position of the obstacles ...
PhD ThesisIn turbulent premixed flames the modelling of mean or filtered reac tion rate translates t...
Large eddy simulation (LES) is a powerful computational tool for modelling turbulent combustion proc...
A large eddy simulation (LES) model has been developed and validated for turbulent non-premixed and ...
The LES study reported in this paper presents the influence of number and position of the obstacles ...