层析PIV数据的三维正交小波变换

2019 International Conference on Wavelet Analysis and Pattern Recognition (ICWAPR) Pub Date : 2019-07-01 DOI:10.1109/ICWAPR48189.2019.8946463

Hiroka Rinoshika, A. Rinoshika

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引用次数: 1

摘要

利用高分辨率层析粒子成像测速仪(TPIV)在水洞中实时测量了长径比为1的壁挂式短圆柱体周围的三维流动结构。这里圆柱体的直径D和高度H都是70毫米。为了阐明三维多尺度尾流结构，提出了三维正交小波多分辨率技术对高分辨率层析PIV的瞬时三维速度场进行分析。在短圆柱后发现了一个三维w型拱涡，它是由上冲流和下冲流相互作用形成的。拱涡结构的头部形状不仅与柱体的长径比有关，而且与柱体直径有关。利用三维正交小波多分辨率分析，在小波1级提取了瞬时w型拱涡和流向涡。研究还发现，中尺度上冲涡在形成w型拱涡头中起着至关重要的作用。

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Three-Dimensional Orthogonal Wavelet Transform of Tomographic PIV Data

Three-dimensional (3D) flow structures around a wall-mounted short cylinder of an aspect ratio 1 were instantaneously measured by a high-resolution Tomographic particle image velocimetry (TPIV) in a water tunnel. Here both of the diameter D and height H of the cylinder is 70 mm. The 3D orthogonal wavelet multi-resolution technique is developed to analyze instantaneous 3D velocity fields of a high-resolution Tomographic PIV in order to clarify 3D multi-scale wake flow structures. This paper found a 3D W-type arch vortex behind the short cylinder, which is originated by the interaction between upwash and downwash flows. The head shape of arch vortex structure does not only depend on the aspect ratio of the cylinder, but also is associated with the cylinder diameter. By using the 3D orthogonal wavelet multi-resolution analysis, the instantaneous W-type arch vortex and streamwise vortices are extracted at the wavelet level 1. It also found that the intermediate-scale upwash vortices play an essential role in producing W-type head of arch vortex.

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2019 International Conference on Wavelet Analysis and Pattern Recognition (ICWAPR)

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