The Flame Describing Function (FDF) is a useful and relatively cheap approximation of a flame’s nonlinearity with respect to harmonic velocity fluctuations. When embedded into a linear acoustic network, it is able to predict the amplitude and stability of harmonic thermoacoustic oscillations through the harmonic balance procedure. However, situations exist in which these oscillations are not periodic, but their spectrum contains peaks at several incommensurate frequencies. If one assumes that two frequencies dominate the spectrum, these oscillations are quasiperiodic, and the FDF concept can be extended by forcing the flame with two amplitudes and two frequencies. The nonlinearity is then approximated by a Flame Double Input Describing Func...
International audienceTransfer function concepts that appear in many areas and most notably in contr...
In this paper, we will present a fast prediction tool based on a one-dimensional Green's function ap...
International audienceA recently developed nonlinear Flame Describing Function (FDF) is used to anal...
© 2016 The Combustion InstituteThe Flame Describing Function (FDF) is a useful and relatively cheap ...
In any thermoacoustic analysis, it is important not only to predict linear frequencies and growth ra...
In this thesis, low-order nonlinear models for the prediction of the nonlinear behaviour of thermoac...
Most practical combustion systems such as industrial boilers, furnaces, land-based gas turbine engin...
International audienceThermoacoustic instabilities are analyzed by making use of a nonlinear represe...
This study focuses on the numerical determination of thermo-acoustic instabilities using a combinati...
International audienceLimit cycles of combustion instabilities can be estimated by studying the nonl...
International audienceAnalysis of combustion instabilities relies in most cases on linear analysis b...
Nonlinear analysis of thermoacoustic instability is essential for prediction of frequencies, amplitu...
This thesis was awarded the Leonardo da Vinci prize in 2013 for outstanding doctoral research in flu...
International audienceThis article describes recent progress on premixed flame dynamics interacting ...
International audienceTransfer function concepts that appear in many areas and most notably in contr...
International audienceTransfer function concepts that appear in many areas and most notably in contr...
In this paper, we will present a fast prediction tool based on a one-dimensional Green's function ap...
International audienceA recently developed nonlinear Flame Describing Function (FDF) is used to anal...
© 2016 The Combustion InstituteThe Flame Describing Function (FDF) is a useful and relatively cheap ...
In any thermoacoustic analysis, it is important not only to predict linear frequencies and growth ra...
In this thesis, low-order nonlinear models for the prediction of the nonlinear behaviour of thermoac...
Most practical combustion systems such as industrial boilers, furnaces, land-based gas turbine engin...
International audienceThermoacoustic instabilities are analyzed by making use of a nonlinear represe...
This study focuses on the numerical determination of thermo-acoustic instabilities using a combinati...
International audienceLimit cycles of combustion instabilities can be estimated by studying the nonl...
International audienceAnalysis of combustion instabilities relies in most cases on linear analysis b...
Nonlinear analysis of thermoacoustic instability is essential for prediction of frequencies, amplitu...
This thesis was awarded the Leonardo da Vinci prize in 2013 for outstanding doctoral research in flu...
International audienceThis article describes recent progress on premixed flame dynamics interacting ...
International audienceTransfer function concepts that appear in many areas and most notably in contr...
International audienceTransfer function concepts that appear in many areas and most notably in contr...
In this paper, we will present a fast prediction tool based on a one-dimensional Green's function ap...
International audienceA recently developed nonlinear Flame Describing Function (FDF) is used to anal...