Wavelet multi-resolution analysis on vortical structures of a dune wake based on large eddy simulation

2013 International Conference on Wavelet Analysis and Pattern Recognition Pub Date : 2013-07-14 DOI:10.1109/ICWAPR.2013.6599334

Yan Zheng, A. Rinoshika

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引用次数: 2

Abstract

The three-dimensional orthogonal wavelet multi-resolution technique was applied to analyze flow structures of various scales behind a dune model The three-dimensional dune wake flow was evaluated by using large eddy simulation (LES) at a Reynolds number of 5530. The instantaneous velocity and vorticity were decomposed into the large-, intermediate- and relatively small-scale components by the wavelet multi-resolution technique. The coherent structure are visualized by Q-criterion. It is found that the rollers and horse-shoe structure in the separation bubble are mainly contributed from large-scale structures, furthermore, some horse-shoe structures can be clearly identified by intermediate-scale structures, the coherent structures are the combined effect of large-scale and intermediate-scale structures. The velocity and vorticity of large-scale structure dominate the dune wake flow and the vorticity concentration makes main contribution, and the intermediate-scale as well as the relatively small-scale ones tends to become more active as the flow flows downstream.

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基于大涡模拟的沙丘尾流涡结构小波多分辨率分析

采用三维正交小波多分辨技术对沙丘模型后不同尺度的流动结构进行了分析，采用雷诺数为5530的大涡模拟(LES)方法对沙丘尾流进行了三维评价。利用小波多分辨技术将瞬时速度和涡量分解为大、中、相对小尺度分量。用q准则将相干结构可视化。研究发现，分离泡内的滚子和马蹄形结构主要来自于大型结构，而一些马蹄形结构可以被中型结构清晰地识别出来，相干结构则是大型和中型结构的共同作用。大尺度结构的速度和涡度主导沙丘尾流，涡度浓度是主要贡献，中尺度和相对小尺度沙丘尾流随着流向下游而变得更加活跃。

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2013 International Conference on Wavelet Analysis and Pattern Recognition

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