Numerical Study on Randomization in Late Boundary Layer Transition

arXiv: Chaotic Dynamics Pub Date : 2012-01-09 DOI:10.2514/6.2012-748

P. Lu, M. Thapa, Chaoqun Liu

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引用次数: 13

Abstract

The mechanism of randomization in late boundary layer transition is a key issue of late boundary layer transition and turbulence theory. We studied the mechanism carefully by high order DNS. The randomization was originally considered as a result of large background noise and non-periodic spanwise boundary conditions. It was addressed that the large ring structure is affected by background noises first and then the change of large ring structure affects the small length scale quickly, which directly leads to randomization and formation of turbulence. However, what we observed is that the loss of symmetry starts from the middle level rings while the top and bottom rings are still symmetric. The nonsymmetric structure of second level rings will influence the small length scales at the boundary layer bottom quickly. The symmetry loss at the bottom of the boundary layer is quickly spread to up level through ejections. This will lead to randomization of the whole flow field. Therefore, the internal instability of multiple level ring structure, especially the middle ring cycles, is the main reason for flow randomization, but not the background noise. A hypothesis is given that the loss of symmetry may be caused by the shift from C-type transition to K-type transition or reverses.

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边界层后期过渡随机化的数值研究

后期边界层转捩的随机化机制是后期边界层转捩和湍流理论的一个关键问题。我们通过高阶DNS对其机制进行了细致的研究。随机化最初被认为是由于大背景噪声和非周期跨向边界条件。分析了大环结构首先受到背景噪声的影响，然后大环结构的变化迅速影响小长度尺度，直接导致湍流的随机化和形成。然而，我们观察到的是，对称性的丧失从中层环开始，而上下环仍然是对称的。二级环的非对称结构将迅速影响边界层底部的小长度尺度。边界层底部的对称性损失通过弹射迅速扩散到上层。这将导致整个流场的随机化。因此，多级环结构的内部不稳定，特别是中间环周期的不稳定，是流动随机化的主要原因，而不是背景噪声。假设对称性的丧失可能是由c型跃迁到k型跃迁或相反引起的。

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: Chaotic Dynamics

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