Combustion-acoustic stability analysis for premixed gas turbine combustors | Zendy

Douglas Darling | Zendy; Krishnan Radhakrishnan | Zendy; Ayo A. Oyediran | Zendy; E. W. Cowan | Zendy

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Combustion-acoustic stability analysis for premixed gas turbine combustors

Author(s) -

Douglas Darling,

Krishnan Radhakrishnan,

Ayo A. Oyediran,

E. W. Cowan

Publication year - 1995

Publication title -

31st joint propulsion conference and exhibit

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.1995-2470

Subject(s) - gas turbines , combustion , stability (learning theory) , nuclear engineering , materials science , aerospace engineering , environmental science , computer science , automotive engineering , acoustics , mechanical engineering , chemistry , physics , engineering , organic chemistry , machine learning

Lean, prevaporized, premixed combustors are susceptible to combustion-acoustic instabilities. A model was developed to predict eigenvalues of axial modes for combustion-acoustic interactions in a premixed combustor. This work extends previous work by including variable area and detailed chemical kinetics mechanisms, using the code LSENS. Thus the acoustic equations could be integrated through the flame zone. Linear perturbations were made of the continuity, momentum, energy, chemical species, and state equations. The qualitative accuracy of our approach was checked by examining its predictions for various unsteady heat release rate models. Perturbations in fuel flow rate are currently being added to the model.

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