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Stability analysis of thermo-acoustic nonlinear eigenproblems in annular combustors. Part I. Sensitivity

Accepted version
Peer-reviewed

Type

Article

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Authors

Bauerheim, M 
Juniper, MP 

Abstract

We present an adjoint-based method for the calculation of eigenvalue perturbations in nonlinear, degenerate and non self-adjoint eigenproblems. This method is applied to a thermo-acoustic annular combustor network, the stability of which is governed by a nonlinear eigenproblem. We calculate the first- and second-order sensitivities of the growth rate and frequency to geometric, flow and flame parameters. Three different configurations are analysed. The benchmark sensitivities are obtained by finite difference, which involves solving the nonlinear eigenproblem at least as many times as the number of parameters. By solving only one adjoint eigenproblem, we obtain the sensitivities to any thermo-acoustic parameter, which match the finite-difference solutions at much lower computational cost.

Description

Keywords

Thermo-acoustic stability, Sensitivity analysis, Annular combustors, Adjoint methods

Journal Title

Journal of Computational Physics

Conference Name

Journal ISSN

0021-9991
1090-2716

Volume Title

325

Publisher

Elsevier BV
Sponsorship
European Research Council (259620)
The authors are grateful to the 2014 Center for Turbulence Research Summer Program (Stanford University) where the ideas of this work were born. L.M. and M.P.J acknowledge the European Research Council – Project ALORS 2590620 for financial support. L.M gratefully acknowledges the financial support received from the Royal Academy of Engineering Research Fellowships scheme. The authors thank Prof. Franck Nicoud for fruitful discussions. Fig. 1 was adapted from the article of S.R. Stow and A.P. Dowling, A time-domain network model for nonlinear thermoacoustic oscillations, ASME Turbo Expo, GT2008-50770 [9] with permission of the original publisher ASME.