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泰勒-库埃特流中近双临界螺旋或泰勒涡旋的完全非线性模态竞争

Fully nonlinear mode competitions of nearly bicritical spiral or Taylor vortices in Taylor-Couette flow.

作者信息

Deguchi K, Altmeyer S

机构信息

Department of Aeronautics and Astronautics, Graduate School of Engineering, Kyoto University, Yoshida-Honmachi, Kyoto 606-8501, Japan.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2013 Apr;87(4):043017. doi: 10.1103/PhysRevE.87.043017. Epub 2013 Apr 30.

Abstract

Interactions between nearly bicritical modes in Taylor-Couette flow, which have been concerned with the framework of weakly nonlinear theory, are extended to fully nonlinear Navier-Stokes computation. For this purpose, a standard Newton solver for axially periodic flows is generalized to compute any mixed solutions having up to two phases, which typically arise from interactions of two spiral or Taylor vortex modes. Also, a simple theory is developed in order to classify the mixed solutions. With these methods, we elucidate pattern formation phenomena, which have been observed in a Taylor-Couette flow experiment. Focusing on the counter-rotating parameter range, all possible classes of interaction of various solutions with different azimuthal and axial wave numbers are considered within our computational restriction, and we observe numerous connection branches, e.g., footbridge solutions. Some of the mixed solutions result in a three-dimensional wavy spiral solution with axial relative periodicity or an axially doubly periodic toroidally closed vortex solution. The possible connection of the former solution family to spiral turbulence, which has been observed in highly counter-rotating Taylor-Couette flow, is discussed.

摘要

泰勒-库埃特流中近双临界模态之间的相互作用,此前一直与弱非线性理论框架相关,现在扩展到完全非线性的纳维-斯托克斯计算。为此,将用于轴向周期流的标准牛顿求解器进行推广,以计算具有多达两个相的任何混合解,这通常源于两个螺旋或泰勒涡模态的相互作用。此外,还发展了一种简单理论来对混合解进行分类。利用这些方法,我们阐明了在泰勒-库埃特流实验中观察到的模式形成现象。聚焦于反向旋转参数范围,在我们的计算限制内考虑了不同方位角和轴向波数的各种解之间所有可能的相互作用类别,并且我们观察到了许多连接分支,例如人行桥解。一些混合解会产生具有轴向相对周期性的三维波浪螺旋解或轴向双周期环形封闭涡解。讨论了前一种解族与在高度反向旋转的泰勒-库埃特流中观察到的螺旋湍流的可能联系。

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