In any thermoacoustic analysis, it is important not only to predict linear frequencies and growth rates, but also the amplitude and frequencies of any limit cycles. The Flame Describing Function (FDF) approach is a quasi-linear analysis which allows the prediction of both the linear and nonlinear behaviour of a thermoacoustic system. This means that one can predict linear growth rates and frequencies, and also the amplitudes and frequencies of any limit cycles. The FDF achieves this by assuming that the acoustics are linear and that the flame, which is the only nonlinear element in the thermoacoustic system, can be adequately described by considering only its response at the frequency at which it is forced. Therefore any harmonics generated...
This paper considers a fundamental thermoacoustic test rig developed by Noiray (“Linear and nonlinea...
International audienceLimit cycles of combustion instabilities can be estimated by studying the nonl...
This paper considers a simple, nonlinear model of a ductedlaminar flame. Ducted flames are susceptib...
The Flame Describing Function (FDF) is a useful and relatively cheap approximation of a flame’s nonl...
In this thesis, low-order nonlinear models for the prediction of the nonlinear behaviour of thermoac...
Nonlinear analysis of thermoacoustic instability is essential for prediction of frequencies, amplitu...
Most practical combustion systems such as industrial boilers, furnaces, land-based gas turbine engin...
One of the key elements in the prediction of thermoacoustic oscillations is the determination of the...
When a premixed flame is placed within a duct, acoustic waves induce velocity perturbations at the f...
Numerical simulations aid combustor design to avoid and reduce thermoacoustic oscillations. Non-line...
This theoretical paper concerns the influence of the phase of the heat release response on thermoaco...
International audienceThis article describes recent progress on premixed flame dynamics interacting ...
Thermo-acoustic analysis is crucial for a successful development of new gas turbine combustion syste...
Identification of thermoacoustic systems usually requires low-order modeling, often obtained by mean...
Many thermoacoustic systems exhibit rich nonlinear behaviour. Recent studies show that this nonlinea...
This paper considers a fundamental thermoacoustic test rig developed by Noiray (“Linear and nonlinea...
International audienceLimit cycles of combustion instabilities can be estimated by studying the nonl...
This paper considers a simple, nonlinear model of a ductedlaminar flame. Ducted flames are susceptib...
The Flame Describing Function (FDF) is a useful and relatively cheap approximation of a flame’s nonl...
In this thesis, low-order nonlinear models for the prediction of the nonlinear behaviour of thermoac...
Nonlinear analysis of thermoacoustic instability is essential for prediction of frequencies, amplitu...
Most practical combustion systems such as industrial boilers, furnaces, land-based gas turbine engin...
One of the key elements in the prediction of thermoacoustic oscillations is the determination of the...
When a premixed flame is placed within a duct, acoustic waves induce velocity perturbations at the f...
Numerical simulations aid combustor design to avoid and reduce thermoacoustic oscillations. Non-line...
This theoretical paper concerns the influence of the phase of the heat release response on thermoaco...
International audienceThis article describes recent progress on premixed flame dynamics interacting ...
Thermo-acoustic analysis is crucial for a successful development of new gas turbine combustion syste...
Identification of thermoacoustic systems usually requires low-order modeling, often obtained by mean...
Many thermoacoustic systems exhibit rich nonlinear behaviour. Recent studies show that this nonlinea...
This paper considers a fundamental thermoacoustic test rig developed by Noiray (“Linear and nonlinea...
International audienceLimit cycles of combustion instabilities can be estimated by studying the nonl...
This paper considers a simple, nonlinear model of a ductedlaminar flame. Ducted flames are susceptib...