Your search keyword '"wake"' showing total 2 results

1. Two-dimensional orthogonal wavelet multi-resolution analysis on multi-scale flow structures behind triangle cylinder.

Author

Zheng, Yan, Rinoshika, Akira, and Fujimoto, Shun

Subjects

*ORTHOGONAL systems, *SHEARING force, *KELVIN'S statement, *KINETIC energy, *RELATIVISTIC energy

Abstract

This study focuses on the multi-scale turbulent structures of triangle cylinder wake flow measured by high-speed particle image velocimetry (PIV). The measured turbulent structures were spatially extracted into large-, intermediate-, relatively small-, and small-scale components using two-dimensional orthogonal wavelet analysis. Then the features of multi-scale turbulent structures were analyzed in terms of two-point auto correlation, power spectra, turbulent kinetic energy and Reynolds shear stress. It is found that the large-scale structure attributed to coherent motions in the wake flow makes largest contribution to the total fluctuating energy and maximum Reynolds shear stress, accounting for 84% and 92% respectively. The intermediate scale structures, which are unidentifiable by PIV measurement, are found to shed into the separated shear layer due to Kelvin-Helmholtz instability, and the central frequency of intermediate scale vortex is approximately twice of Kármán vortex shedding frequency. Besides, two symmetric regions of intensive velocity fluctuations having relatively small-scale are observed near the cylinder surface and the boundary of separation region, and they are not dominant. [ABSTRACT FROM AUTHOR]

Published

2016

2. Three-dimensional wavelet analysis on turbulent structure of dune wake flow.

Author

Zheng, Yan, Rinoshika, Akira, and Fujimoto, Shun

Subjects

*WAVELETS (Mathematics), *TURBULENT flow, *LARGE eddy simulation models, *VORTEX motion, *VISUALIZATION, *STREAMLINES (Fluids)

Abstract

The three-dimensional (3D) turbulent structure was simulated by large eddy simulation (LES), and then the numerical result was validated by PIV experiment. In order to give a detailed description of dune wake flow, the instantaneous velocity, vorticity, and pressure were decomposed into the large-, intermediate- and relatively small-scale components by 3D wavelet multi-resolution technique. To get a further understanding of coherent structure, the decomposed wavelet components were employed to calculate Q-criterion. It was found that the rollers and horse-shoe structures in the separation bubble were mainly contributed from large-scale structures and it made the most significance to the vorticity concentration. The observations of intermediate-scale horse-shoe structures indicated that the coherent structure was the combined effect of large- and intermediate-scale structures. Besides, from the visualization of 3D streamlines and pressure iso-surfaces, the separation bubble and pressure distribution are found to be dominated by large-scale structure. [ABSTRACT FROM AUTHOR]

Published

2015