In gas turbines, thermoacoustic oscillations grow if moments of high fluctuating heat release rate coincide with moments of high acoustic pressure. The phase between the heat release rate and the acoustic pressure depends strongly on the flame behaviour (specifically the time delay) and on the acoustic period. This makes the growth rate of thermoacoustic oscillations exceedingly sensitive to small changes in the acoustic boundary conditions, geometry changes, and the flame time delay. In this paper, adjoint-based sensitivity analysis is applied to a thermoacoustic network model of an annular combustor. This reveals how each eigenvalue is affected by every parameter of the system. This information is combined with an optimization algorithm i...
Nine decades of rocket engine and gas turbine development have shown that thermoacoustic oscillation...
This paper first characterizes the acoustic field of two annular combustors by means of data from ac...
In annular combustion systems, thermoacoustic eigenmodes can manifest as standing waves, traveling w...
In a thermoacoustic system, such as a flame in a combustor, heat release oscillations couple with ac...
Lean combustion technologies in gas turbines reduce the generation of NOx but increase the susceptib...
We construct a low-order thermoacoustic network model that contains the most influential physical me...
Strict pollutant emission regulations are pushing gas turbine manufacturers to develop devices that ...
Gas turbines and rocket engines sometimes suffer from violent oscillations caused by feedback betwee...
We present an adjoint-based method for the calculation of eigenvalue perturbations in nonlinear, deg...
In this paper, we de ne a mathematically consistent set of thermo-acoustic equations via asymptotic ...
Thermoacoustic instabilities, which arise due to the interaction between flames and acoustics, are s...
Rotationally symmetric annular combustors are of practical importance because they generically resem...
© 2018 by ASME. Thermoacoustic instabilities are a major threat for modern gas turbines. Frequency-d...
We propose a method that allows the computation of the continuous adjoint network system based on th...
The adoption of lean premixed prevaporised combustion systems can reduce NOx emissions from gas turb...
Nine decades of rocket engine and gas turbine development have shown that thermoacoustic oscillation...
This paper first characterizes the acoustic field of two annular combustors by means of data from ac...
In annular combustion systems, thermoacoustic eigenmodes can manifest as standing waves, traveling w...
In a thermoacoustic system, such as a flame in a combustor, heat release oscillations couple with ac...
Lean combustion technologies in gas turbines reduce the generation of NOx but increase the susceptib...
We construct a low-order thermoacoustic network model that contains the most influential physical me...
Strict pollutant emission regulations are pushing gas turbine manufacturers to develop devices that ...
Gas turbines and rocket engines sometimes suffer from violent oscillations caused by feedback betwee...
We present an adjoint-based method for the calculation of eigenvalue perturbations in nonlinear, deg...
In this paper, we de ne a mathematically consistent set of thermo-acoustic equations via asymptotic ...
Thermoacoustic instabilities, which arise due to the interaction between flames and acoustics, are s...
Rotationally symmetric annular combustors are of practical importance because they generically resem...
© 2018 by ASME. Thermoacoustic instabilities are a major threat for modern gas turbines. Frequency-d...
We propose a method that allows the computation of the continuous adjoint network system based on th...
The adoption of lean premixed prevaporised combustion systems can reduce NOx emissions from gas turb...
Nine decades of rocket engine and gas turbine development have shown that thermoacoustic oscillation...
This paper first characterizes the acoustic field of two annular combustors by means of data from ac...
In annular combustion systems, thermoacoustic eigenmodes can manifest as standing waves, traveling w...