Experimental investigation of the return flow instability in magnetized spherical Couette flows

arXiv: Fluid Dynamics Pub Date : 2020-09-15 DOI:10.1063/5.0029570

J. Ogbonna, Ferran Garcia, T. Gundrum, M. Seilmayer, Frank Stefani

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引用次数: 9

Abstract

We conduct magnetic spherical Couette (MSC) flow experiments in the return flow instability regime with GaInSn as the working fluid, and the ratio of the inner to the outer sphere radii $r_{\rm i}/r_{\rm o} = 0.5$, the Reynolds number ${\rm Re} = 1000$, and the Hartmann number ${\rm Ha} \in [27.5,40]$. Rotating waves with different azimuthal wavenumbers $m \in \{2, 3, 4\}$ manifest in certain ranges of ${\rm Ha}$ in the experiments, depending on whether the values of ${\rm Ha}$ were fixed or varied from different initial values. These observations demonstrate the multistability of rotating waves, which we attribute to the dynamical system representing the state of the MSC flow tending to move along the same solution branch of the bifurcation diagram when ${\rm Ha}$ is varied. In experiments with both fixed and varying ${\rm Ha}$, the rotation frequencies of the rotating waves are consistent with the results of nonlinear stability analysis. A brief numerical investigation shows that differences in the azimuthal wavenumbers of the rotating waves that develop in the flow also depend on the azimuthal modes that are initially excited.

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磁化球形库埃特流回流不稳定性的实验研究

我们以GaInSn为工作流体，在回流不稳定区进行了磁球Couette (MSC)流动实验，内外球半径比$r_{\rm i}/r_{\rm o} = 0.5$，雷诺数${\rm Re} = 1000$，哈特曼数${\rm Ha} \in[27.5,40]$。不同方位角波数$m \ \{2,3,4 \}$ $的旋转波在实验中出现在${\rm Ha}$的一定范围内，这取决于${\rm Ha}$的值是固定的还是从不同的初始值变化。这些观测结果证明了旋转波的多重稳定性，我们将其归因于代表MSC流动状态的动力系统，当${\rm Ha}$变化时，它们倾向于沿着分岔图的同一解分支移动。在固定和变化${\rm Ha}$的实验中，旋转波的旋转频率与非线性稳定性分析的结果一致。一个简单的数值研究表明，在流动中发展的旋转波的方位角波数的差异也取决于初始激发的方位角模态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Fluid Dynamics

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