In the current paper, time resolved high speed optical Particle Image Velocimetry and CH* chemiluminescence measurements were performed, to study self-excited limit cycle combustion instabilities in a swirl stabilized model gas turbine combustor operating at atmospheric pressure with choked propane and air flow supplies. The combustor was operated under a constant Reynolds number (Re=22,000) and four equivalence ratios, namely for operation susceptible to extinction, and ϕ=0.55, ϕ=0.60 and ϕ=0.65 for operation under a thermoacoustically unstable combustion regime, to encounter two limit cycle dynamic states. The period-1 limit cycle was driven by thermoacoustic coupling between the acoustic and the thermal field at a fundamental timescale d...
The coupling between hydrodynamic instability and flame lift-off in premixed swirl combustion was in...
The dynamics of major flow structures were studied in a gas turbine model combustor for perfectly pr...
Sudden changes of flame shape are an undesired, yet poorly understood feature of swirl combustors us...
The paper examines the combined effects of several interacting thermo-acoustic and hydrodynamic inst...
The thermoacoustic coupling caused by dynamic flow/flame interactions was investigated in a gas-turb...
Historically one of the most expensive aspects of a gas turbine engine development enterprise has be...
In the context of this work we attempt to examine the intermittency characteristics of thermoacousti...
International audienceDespite being good candidates for the reduction of pollutant emissions from ga...
The current paper studies the thermoacoustically unstable combustion, under elevated mean pressure, ...
The effects of inert diluents in the fuel mixture of a model swirl stabilized gas turbine com-bustor...
In this study, we apply periodic flow excitation of the precessing vortex core at the centerbody of ...
The effects of inert diluents in the fuel mixture of a model swirl stabilized gas turbine combustor,...
The prevalence of gas turbines operating in primarily lean premixed modes is predicated on the need ...
Open-loop control is known to be an effective strategy for controlling self-excited thermoacoustic o...
Limit-cycle thermo-acoustic velocity coupling mechanisms are studied in a perfectly-premixed swirl-s...
The coupling between hydrodynamic instability and flame lift-off in premixed swirl combustion was in...
The dynamics of major flow structures were studied in a gas turbine model combustor for perfectly pr...
Sudden changes of flame shape are an undesired, yet poorly understood feature of swirl combustors us...
The paper examines the combined effects of several interacting thermo-acoustic and hydrodynamic inst...
The thermoacoustic coupling caused by dynamic flow/flame interactions was investigated in a gas-turb...
Historically one of the most expensive aspects of a gas turbine engine development enterprise has be...
In the context of this work we attempt to examine the intermittency characteristics of thermoacousti...
International audienceDespite being good candidates for the reduction of pollutant emissions from ga...
The current paper studies the thermoacoustically unstable combustion, under elevated mean pressure, ...
The effects of inert diluents in the fuel mixture of a model swirl stabilized gas turbine com-bustor...
In this study, we apply periodic flow excitation of the precessing vortex core at the centerbody of ...
The effects of inert diluents in the fuel mixture of a model swirl stabilized gas turbine combustor,...
The prevalence of gas turbines operating in primarily lean premixed modes is predicated on the need ...
Open-loop control is known to be an effective strategy for controlling self-excited thermoacoustic o...
Limit-cycle thermo-acoustic velocity coupling mechanisms are studied in a perfectly-premixed swirl-s...
The coupling between hydrodynamic instability and flame lift-off in premixed swirl combustion was in...
The dynamics of major flow structures were studied in a gas turbine model combustor for perfectly pr...
Sudden changes of flame shape are an undesired, yet poorly understood feature of swirl combustors us...