两个串联方形圆柱体过渡尾流的不稳定性和分岔的开始

Kai Dong, A. Sau
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摘要

我们进行了非稳态三维模拟,以阐明隐藏的过渡流动力学和沿一对串联放置的方形圆柱体后方所形成的 von Kármán 街道拓扑核心线的霍普夫分岔。我们的模拟对三维尾流演化和流动物理学提供了重要的新见解。我们解释了在越来越不稳定的尾流中,沿着卡曼涡旋核心线的压力、速度和涡度波动是如何放大的,从而促进了各种模态不稳定模式的增长。现有的关于通过模式 A、B 和 C 不稳定性交织实现唤醒过渡的知识以及相关的线性稳定性分析有助于深入了解唤醒的整体特征。目前的研究解释了过渡扰动如何通过唤醒的自激跨度周期振荡在一对直列和串联气缸后面进行物理扩散,并在气缸之间的间隙和雷诺数不同的情况下产生一系列长度可变的霍普夫分岔及其交换。分岔点频谱频率慢模的增长似乎是引发近过渡流不规则现象的关键。
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The onset of instability and bifurcations in the transitional wake of two tandem square cylinders
Unsteady three-dimensional simulations are performed to elucidate the hidden transitional flow dynamics and Hopf bifurcations along the topological corelines of the created von Kármán streets behind a pair of square cylinders positioned in tandem. Our simulations provide significant new insight into the three-dimensional wake evolution and governing flow physics. We explain how pressure, velocity, and vorticity fluctuation along the Kármán vortex corelines in the increasingly unstable wake amplify, facilitating the growth of various modal instability patterns. The existing knowledge of wake transition through the intertwining of modes A, B, and C instabilities and associated linear stability analysis helped to gain some insight into the overall wake feature. The current study explains how exactly the transitional disturbances physically spread behind a pair of inline and tandem cylinders through the self-excited spanwise-periodic oscillation of the wake and created a sequence of variable length scaled Hopf bifurcations and their swapping for varied gaps between the cylinders and Reynolds number. The growth of a slow mode of the spectral frequency at the bifurcation points seemed crucial in initiating the near-transitional flow irregularity.
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