Nonlinear self-excited thermoacoustic oscillations of a ducted premixed flame: bifurcations and routes to chaosReport as inadecuate


Nonlinear self-excited thermoacoustic oscillations of a ducted premixed flame: bifurcations and routes to chaos


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Publication Date: 2014-11-25

Journal Title: Journal of Fluid Mechanics

Journal of Fluid Mechanics

Publisher: CUP

Volume: 761

Pages: 399-430

Language: English

Type: Article

Metadata: Show full item record

Citation: Kashinath, K., Waugh, I. C., & Juniper, M. P. (2014). Nonlinear self-excited thermoacoustic oscillations of a ducted premixed flame: bifurcations and routes to chaos. Journal of Fluid Mechanics, 761 399-430.

Description: This is the author's accepted manuscript. The final version is available from CUP in the Journal of Fluid Mechanics at http://journals.cambridge.org/action/displayAbstract?fromPage=online&aid=9441088&fulltextType=RA&fileId=S0022112014006016

Abstract: Thermoacoustic systems can oscillate self-excitedly, and often non-periodically, due to coupling between unsteady heat release and acoustic waves. We study a slot-stabilized two-dimensional premixed flame in a duct via numerical simulations of a G-equation flame coupled with duct acoustics. We examine the bifurcations and routes to chaos for three control parameters: i) the flame position in the duct, ii) the length of the duct, and iii) the mean flow velocity. We observe period-1, period-2, quasi-periodic and chaotic oscillations. For certain parameter ranges, more than one stable state exists, so mode switching is possible. At intermediate times, the system is attracted to and repelled from unstable states, which are also identified. Two routes to chaos are established for this system: the period-doubling route and the Ruelle-Takens-Newhouse route. These are corroborated by analyses of the power spectra of the acoustic velocity. Instantaneous flame images reveal that the wrinkles on the flame surface and pinch off of flame pockets are regular for periodic oscillations, while they are irregular and have multiple time and length scales for quasiperiodic and aperiodic oscillations. This study complements recent experiments by providing a reduced order model of a system with approximately 5000 degrees of freedom that captures much of the elaborate nonlinear behaviour of ducted premixed flames observed in the laboratory.

Identifiers:

This record's URL: http://www.repository.cam.ac.uk/handle/1810/246189http://dx.doi.org/10.1017/jfm.2014.601





Author: Kashinath, KarthikWaugh, Iain C.Juniper, Matthew P.

Source: https://www.repository.cam.ac.uk/handle/1810/246189



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