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Transition and Chaos in Two-Dimensional Flow past a Square Cylinder

A. SahaDept. of Mech. Engrg., Indian Inst. of Technol. Kanpur, Kanpur 208 016, IndiaK. MuralidharDept. of Mech. Engrg., Indian Inst. of Technol. Kanpur, Kanpur 208 016, IndiaGautam BiswasDept. of Mech. Engrg., Indian Inst. of Technol. Kanpur, Kanpur 208 016, India
2000en
ABI

Аннотация

The unsteady wake of a long square cylinder has been numerically analyzed in the present study. Velocity signals at selected locations in the near-wake and the instantaneous forces on the cylinder have been recorded from the numerical model at various Reynolds numbers. These form the basis of investigating the dynamic behavior of the flow system. Results of the present work show the following. Flow past a square cylinder undergoes a sequence of transitions from a steady pattern up to a Reynolds number of 40 to a chaotic one around a Reynolds number of 600. The transition to chaos is manifested through a quasi-periodic route that includes the frequency-locking phenomenon. The quasi-periodicity is seen to set in with two or more Hopf bifurcations. The transition to chaos in the wake of a bluff object is related to the three-dimensionality of the flow. In a 2D simulation, this appears in the form of new harmonics in the velocity traces. The quasi-periodic route to chaos has been established through different characterization tools, such as the spectra, autocorrelation function, time-delay reconstruction, and the Poincaré section. Chaotic behavior is quantified through the calculation of Lyapunov exponent and fractal dimension.

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