CUED Publications database

Frequency domain and time domain analysis of thermoacoustic oscillations with wave-based acoustics

Orchini, A and Illingworth, SJ and Juniper, MP (2015) Frequency domain and time domain analysis of thermoacoustic oscillations with wave-based acoustics. Journal of Fluid Mechanics, 775. pp. 387-414. ISSN 0022-1120

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Abstract

© The Authors 2015. Many thermoacoustic systems exhibit rich nonlinear behaviour. Recent studies show that this nonlinear dynamics can be well captured by low-order time domain models that couple a level set kinematic model for a laminar flame, the G-equation, with a state-space realization of the linearized acoustic equations. However, so far the G-equation has been coupled only with straight ducts with uniform mean acoustic properties, which is a simplistic configuration. In this study, we incorporate a wave-based model of the acoustic network, containing area and temperature variations and frequency-dependent boundary conditions. We cast the linear acoustics into state-space form using a different approach from that in the existing literature. We then use this state-space form to investigate the stability of the thermoacoustic system, both in the frequency and time domains, using the flame position as a control parameter. We observe frequency-locked, quasiperiodic and chaotic oscillations. We identify the location of Neimark-Sacker bifurcations with Floquet theory. We also find the Ruelle-Takens-Newhouse route to chaos with nonlinear time series analysis techniques. We highlight important differences between the nonlinear response predicted by the frequency domain and the time domain methods. This reveals deficiencies with the frequency domain technique, which is commonly used in academic and industrial studies of thermoacoustic systems. We then demonstrate a more accurate approach based on continuation analysis applied to time domain techniques.

Item Type: Article
Subjects: UNSPECIFIED
Divisions: Div A > Energy
Depositing User: Cron Job
Date Deposited: 17 Jul 2017 19:44
Last Modified: 16 Jan 2020 11:46
DOI: 10.1017/jfm.2015.139