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Relations of POD modes and Lyapunov exponents to the nonlinear dynamic states in flow over oscillating tandem cylinders
Zhang, Meihua Zheng, Zhongquan C.
Zhang, Meihua
Zheng, Zhongquan C.
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Abstract
Nonlinear dynamic states of flow field are analyzed using the Proper Orthogonal Decomposition
(POD) to extract spatial coherent structures, and the temporal development of these spatial structures is
further investigated by looking into the largestLyapunov exponents (LLEs) of the temporal coefficients
of the POD modes. Additionally, the LLE of vorticity history at a specific point in the wake is also
calculated to compare with the LLEs of the modes in the wake region. The flow field used for
the analysis is flow around a two-tandem cylinder system with the downstream cylinder oscillating
transversely. The numerical simulation is based on an immersed-boundary method for flow with the
Reynolds number 100. Three states of typical nonlinear responses of this system are analyzed: lockin,
transitional, and quasiperiodic. The results reveal that the paired POD modes can appear in the
energetic modes, although this pattern fades in the transitional state. All the LLEs of the energetic
modes in the lock-in state are zero, which means that the energetic modes in the lock-in state are
stable. For the transitional state, after a long period of time, the LLEs of the first two energetic modes
are close to zero, while the others are positive, showing that only the first two modes are relatively
stable and that weak chaotic motions exist in the other modes. The LLEs of all the energetic modes
in the quasiperiodic state are no larger than zero after a long period of time, resulting in asymptotical
stableness of the energetic modes.
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Date
2018-12-21
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AIP Publishing
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relations of POD.pdf
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