Flame transfer function shaping for robust thermoacoustic systems: Application to a kinematic flame model

Author:

Reumschüssel Johann Moritz1ORCID,Kroll Paul-Florian2,von Saldern Jakob GR2ORCID,Paschereit Christian Oliver1,Oberleithner Kilian2ORCID,Orchini Alessandro3

Affiliation:

1. Chair of Fluid Dynamics, ISTA, TU Berlin, Germany

2. Laboratory for Flow Instabilities and Dynamics, ISTA, TU Berlin, Germany

3. Chair of Nonlinear Thermo-Fluid Mechanics, ISTA, TU Berlin, Germany

Abstract

This work presents a data-driven optimization technique for the optimization of the flame response within a low-order acoustic network model. The methodology exploits the Nyquist criterion to compute a measure of thermoacoustic robustness at targeted frequencies, which serves as an objective value for the optimized system. The method is demonstrated using a simple Rijke tube model coupled with a [Formula: see text]-equation solver to model flame dynamics. The approach is shown to efficiently increase the stability margin of the system by modifying the flame transfer function. The methodology is applied to two examples, based on which possible scenarios are discussed and the potential and limitations associated with the practical implementation of the method are analyzed.

Funder

Bundesministerium für Wirtschaft und Energie

Publisher

SAGE Publications

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