Add to ORKGLarge eddy simulation (LES) based turbulence modelling technique may face challenges when employed to predict turbulent reacting flows. The Dynamic Flame Surface Density (DFSD) model for turbulent premixed combustion applied in this research adapts to produce accurate results based on the information obtained from transient flames. A LES – DFSD model has been developed and validated against experimental data for lean-burn premixed hydrogen flames propagating past repeated obstacles and a solid obstruction of varied area blockage ratio (ABR). The rate of pressure rise, peak overpressure magnitude, flame speed and other flame characteristics have been successfully reproduced numerically for flow configurations. It was found that having a comb...
The flame surface density approach to the modeling of premixed turbulent combustion is well establis...
Measurements and large eddy simulations (LES) have been carried out for a turbulent premixed flame p...
While hydrogen is attractive as a clean fuel, it poses a significant risk due to its highreactivity....
Turbulent premixed flames are present in a wide range of applications. The nature of these flames tr...
A Dynamic flame surface density (DFSD) model, developed recently from experimental images for transi...
A Dynamic flame surface density (DFSD) model, developed recently from experimental images for transi...
Simulation of deflagrations requires accurate modelling of transient premixed flames. An initial lam...
Transient premixed flames are significant in areas such as spark-ignition engines and gas explosions...
This paper presents simulations of propagating turbulent premixed deflagrating flames past built-in ...
In the last 10-15 years, large-eddy simulation (LES) has become well established for non-reacting fl...
Accidental explosions are a plausible danger to the chemical process industries. In the event of a g...
Numerical simulations have proven itself as a significant and powerful tool for accurate prediction ...
© 2020 ASME Although hydrogen is a clean and renewable fuel, there is still a need to understand and...
In numerical modelling, Large Eddy Simulations (LES) has evolved itself as a powerful tool for the p...
Extent: 26p.Flame surface density (FSD) models are often used in premixed turbulent combustion model...
The flame surface density approach to the modeling of premixed turbulent combustion is well establis...
Measurements and large eddy simulations (LES) have been carried out for a turbulent premixed flame p...
While hydrogen is attractive as a clean fuel, it poses a significant risk due to its highreactivity....
Turbulent premixed flames are present in a wide range of applications. The nature of these flames tr...
A Dynamic flame surface density (DFSD) model, developed recently from experimental images for transi...
A Dynamic flame surface density (DFSD) model, developed recently from experimental images for transi...
Simulation of deflagrations requires accurate modelling of transient premixed flames. An initial lam...
Transient premixed flames are significant in areas such as spark-ignition engines and gas explosions...
This paper presents simulations of propagating turbulent premixed deflagrating flames past built-in ...
In the last 10-15 years, large-eddy simulation (LES) has become well established for non-reacting fl...
Accidental explosions are a plausible danger to the chemical process industries. In the event of a g...
Numerical simulations have proven itself as a significant and powerful tool for accurate prediction ...
© 2020 ASME Although hydrogen is a clean and renewable fuel, there is still a need to understand and...
In numerical modelling, Large Eddy Simulations (LES) has evolved itself as a powerful tool for the p...
Extent: 26p.Flame surface density (FSD) models are often used in premixed turbulent combustion model...
The flame surface density approach to the modeling of premixed turbulent combustion is well establis...
Measurements and large eddy simulations (LES) have been carried out for a turbulent premixed flame p...
While hydrogen is attractive as a clean fuel, it poses a significant risk due to its highreactivity....