International audienceThe frequency response of premixed swirled flames is investigated by comparing their Transfer Function (FTF) between velocity and heat release rate fluctuations. The equivalence ratio and flow velocity are kept constant and four different swirling in-jectors are tested with increasing swirl numbers. The first injec-tor features a vanishing low swirl number S = 0.20 and produces a flame anchored by the recirculating flow in the wake of a central bluff body. The three other swirling injectors produce highly swirled flows (S > 0.6) leading to a much larger internal recir-culation region, which size increases with the swirl level. When operating the burner at S = 0.20, the FTF gain curve smoothly increases to reach a maxim...
An investigation into the response of non-premixed swirling flames to acoustic perturbations at vari...
Lean premixed combustion remains one of the simplest and most effective methods of reducing NOx emis...
Flame pulsation has a significant effect on combustion, and understanding its oscillatory behavior i...
International audienceThe frequency response of premixed swirled flames is investigated by comparing...
International audienceThe frequency response of three lean methane/air flames submitted to flowrate ...
This article is focused on the dynamics of swirling premixed confined flames. The swirl number measu...
The purpose of this study is to quantify the interaction between the degree of swirl, the heat relea...
The response of a lean premixed flame subjected to acoustic perturbations is a complex phenomenon th...
This paper investigates flame frequency response relative to changes in swirl intensity and equivale...
An investigation into the response of non-premixed swirling flames to acoustic perturbations at vari...
An investigation into the response of non-premixed swirling flames to acoustic perturbations at vari...
International audienceA methodology is developed where the acoustic response of a swirl stabilized f...
The flame transfer function (FTF) and flame dynamics of a highly swirled, closely confined, premixed...
International audienceThe transfer function (FTF) of premixed laminar conical flames submitted to fl...
The response of swirl non-premixed flames to air flow oscillations is studied using Large-Eddy Simul...
An investigation into the response of non-premixed swirling flames to acoustic perturbations at vari...
Lean premixed combustion remains one of the simplest and most effective methods of reducing NOx emis...
Flame pulsation has a significant effect on combustion, and understanding its oscillatory behavior i...
International audienceThe frequency response of premixed swirled flames is investigated by comparing...
International audienceThe frequency response of three lean methane/air flames submitted to flowrate ...
This article is focused on the dynamics of swirling premixed confined flames. The swirl number measu...
The purpose of this study is to quantify the interaction between the degree of swirl, the heat relea...
The response of a lean premixed flame subjected to acoustic perturbations is a complex phenomenon th...
This paper investigates flame frequency response relative to changes in swirl intensity and equivale...
An investigation into the response of non-premixed swirling flames to acoustic perturbations at vari...
An investigation into the response of non-premixed swirling flames to acoustic perturbations at vari...
International audienceA methodology is developed where the acoustic response of a swirl stabilized f...
The flame transfer function (FTF) and flame dynamics of a highly swirled, closely confined, premixed...
International audienceThe transfer function (FTF) of premixed laminar conical flames submitted to fl...
The response of swirl non-premixed flames to air flow oscillations is studied using Large-Eddy Simul...
An investigation into the response of non-premixed swirling flames to acoustic perturbations at vari...
Lean premixed combustion remains one of the simplest and most effective methods of reducing NOx emis...
Flame pulsation has a significant effect on combustion, and understanding its oscillatory behavior i...