Journal ArticleDOI
Synchronization of pitch and plunge motions during intermittency route to aeroelastic flutter.
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This study demonstrates with a mathematical model that the onset of flutter instability under randomly fluctuating flows occurs via a mutual phase synchronization between the pitch and the plunge modes, and utilizes phase locking value as a quantitative measure to demarcate different states of synchronization in the aeroelastic response.Abstract:
Interaction of fluid forces with flexible structures is often prone to dynamical instabilities, such as aeroelastic flutter. The onset of this instability is marked by sustained large amplitude oscillations and is detrimental to the structure's integrity. Therefore, investigating the possible physical mechanisms behind the onset of flutter instability has attracted considerable attention within the aeroelastic community. Recent studies have shown that in the presence of oncoming fluctuating flows, the onset of flutter instability is presaged by an intermediate regime of oscillations called intermittency. Further, based on the intensity of flow fluctuations and the relative time scales present in the flow, qualitatively different types of intermittency at different flow regimes have been reported hitherto. However, the coupled interaction between the pitch (torsion) and plunge (bending) modes during the transition to aeroelastic flutter has not been explored. With this, we demonstrate with a mathematical model that the onset of flutter instability under randomly fluctuating flows occurs via a mutual phase synchronization between the pitch and the plunge modes. We show that at very low values of mean flow speeds, the response is by and large noisy and, consequently, a phase asynchrony between the modes is present. Interestingly, during the regime of intermittency, we observe the coexistence of patches of synchronized periodic bursts interspersed amidst a state of desynchrony between the pitch and the plunge modes. On the other hand, at the onset of flutter, we observe a complete phase synchronization between the pitch and plunge modes. This study concludes by utilizing phase locking value as a quantitative measure to demarcate different states of synchronization in the aeroelastic response.read more
Citations
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Complex system approach to investigate and mitigate thermoacoustic instability in turbulent combustors
R. I. Sujith,Vishnu R. Unni +1 more
TL;DR: In this article, the authors discuss various prognosis and mitigation strategies for thermo-acoustic instability based on complex system theory in turbulent combustors, where the authors view the thermoacoustic system in a turbulent combustor as a complex system and the dynamics exhibited by the system is perceived as emergent behaviors of this complex system.
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Synchronization route to weak chimera in four candle-flame oscillators
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TL;DR: An experimental study reveals the synchronization route to weak chimera via quenching, clustering, and chimera states in a single system of four coupled candle-flame oscillators, and reports the discovery of multiphaseweak chimera along with experimental evidence of the theoretically predicted states of in-phase chimera and antiphase chimera.
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Critical transitions and their early warning signals in thermoacoustic systems
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Response analysis of a pitch–plunge airfoil with structural and aerodynamic nonlinearities subjected to randomly fluctuating flows
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Complex nonlinear dynamics and vibration suppression of conceptual airfoil models: A state-of-the-art overview.
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References
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Journal ArticleDOI
Phase synchronization of chaotic oscillators
TL;DR: The new effect of phase synchronization of weakly coupled self-sustained chaotic oscillators is presented, and a relation between the phase synchronization and the properties of the Lyapunov spectrum is studied.
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The synchronization of chaotic systems
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Mean phase coherence as a measure for phase synchronization and its application to the EEG of epilepsy patients
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From Phase to Lag Synchronization in Coupled Chaotic Oscillators
TL;DR: In this paper, the authors study synchronization transitions in a system of two coupled self-sustained chaotic oscillators and demonstrate that with the increase of coupling strength, the system first undergoes the transition to phase synchronization.