The current work focuses on the large eddy simulation (LES) of combustion instability in a laboratory-scale swirl burner. Air and fuel are injected at ambient conditions. Heat conduction from the combustion chamber to the plenums results in a preheating of the air and fuel flows above ambient conditions. The paper compares two computations: In the first computation, the temperature of the injected reactants is 300 K (equivalent to the experiment) and the combustor walls are treated as adiabatic. The frequency of the unstable mode ( 635 Hz) deviates significantly from the measured frequency ( 750 Hz). In the second computation, the preheating effect observed in the experiment and the heat losses at the combustion chamber walls are taken in...
The primary purpose of this study is to evaluate the ability of LES, with a turbulent combustion mod...
Modern pollutant regulation have led to a trend towards lean combustion systems which are prone to t...
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, h...
Large eddy simulations (LES) of combustion instabilities are often performed with simplified thermal...
This paper describes a Large Eddy Simulation (LES) investigation into flow fields in a model gas tur...
AbstractThe flame in a gas turbine model combustor close to blow-off is studied using large eddy sim...
This paper presents an experimental investigation of combustion instabilities for a laminar premixed...
A lean partially premixed swirling combustor was studied by resolving the complete flow path from th...
This paper presents recent progress in the field of thermoacoustic combustion instabilities in propu...
The response of swirl non-premixed flames to air flow oscillations is studied using Large-Eddy Simul...
Large eddy simulations (LES) of turbulent non-premixed swirling flames based on the Sydney swirl bur...
AbstractA lean partially premixed swirling combustor is studied by resolving the complete flow path ...
Combustion instabilities in gas turbine has been a major setback in the quest for efficient and clea...
Large eddy simulation (LES) techniques are often presented today as the ideal tool to address combus...
Large Eddy Simulations (LES) of a lean swirl-stabilized gas turbine burner are used to analyze mecha...
The primary purpose of this study is to evaluate the ability of LES, with a turbulent combustion mod...
Modern pollutant regulation have led to a trend towards lean combustion systems which are prone to t...
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, h...
Large eddy simulations (LES) of combustion instabilities are often performed with simplified thermal...
This paper describes a Large Eddy Simulation (LES) investigation into flow fields in a model gas tur...
AbstractThe flame in a gas turbine model combustor close to blow-off is studied using large eddy sim...
This paper presents an experimental investigation of combustion instabilities for a laminar premixed...
A lean partially premixed swirling combustor was studied by resolving the complete flow path from th...
This paper presents recent progress in the field of thermoacoustic combustion instabilities in propu...
The response of swirl non-premixed flames to air flow oscillations is studied using Large-Eddy Simul...
Large eddy simulations (LES) of turbulent non-premixed swirling flames based on the Sydney swirl bur...
AbstractA lean partially premixed swirling combustor is studied by resolving the complete flow path ...
Combustion instabilities in gas turbine has been a major setback in the quest for efficient and clea...
Large eddy simulation (LES) techniques are often presented today as the ideal tool to address combus...
Large Eddy Simulations (LES) of a lean swirl-stabilized gas turbine burner are used to analyze mecha...
The primary purpose of this study is to evaluate the ability of LES, with a turbulent combustion mod...
Modern pollutant regulation have led to a trend towards lean combustion systems which are prone to t...
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, h...