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Low-order model for successive bifurcations of the fluidic pinball

Abstract : We propose the first least-order Galerkin model of an incompressible flow undergoing two successive supercritical bifurcations of Hopf and pitchfork type. A key enabler is a mean-field consideration exploiting the symmetry of the mean flow and the asymmetry of the fluctuation. These symmetries generalize mean-field theory, e.g. no assumption of slow growth-rate is needed. The resulting 5-dimensional Galerkin model successfully describes the phenomenogram of the fluidic pinball, a two-dimensional wake flow around a cluster of three equidistantly spaced cylinders. The corresponding transition scenario is shown to undergo two successive supercritical bifurcations, namely a Hopf and a pitchfork bifurcations on the way to chaos. The generalized mean-field Galerkin methodology may be employed to describe other transition scenarios.
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Submitted on : Monday, April 12, 2021 - 12:11:20 AM
Last modification on : Wednesday, January 26, 2022 - 3:14:38 AM
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Deng Nan, Bernd Noack, Marek Morzyński, Luc Pastur. Low-order model for successive bifurcations of the fluidic pinball. Journal of Fluid Mechanics, Cambridge University Press (CUP), 2020, 884, ⟨10.1017/jfm.2019.959⟩. ⟨hal-03195631⟩



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