横流涡旋二次不稳定性的时间分辨PIV研究

Proceeding of Tenth International Symposium on Turbulence and Shear Flow Phenomena Pub Date : 1900-01-01 DOI:10.1615/tsfp10.1250

J. Serpieri, M. Kotsonis

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引用次数: 0

摘要

介绍了横流涡次不稳定模态的时间分辨PIV测量。在低湍流风洞实验装置中，对弦雷诺数217万的45度大尺度后掠机翼进行了测量。使用20 kHz的采集频率，本研究是首次对这些结构进行时空分辨测量的实验演示。统计和光谱分析揭示了一个波动的速度场，它在空间上强烈地受到原始静止的横流涡的制约。通过对瞬时流场的适当正交分解，捕获了与ⅰ型高频不稳定性和ⅲ型高频不稳定性相关的流动结构。对它们的时间演化进行了分析，显示出与以往研究的良好一致性，从而证实POD正确地代表了相关不稳定模态的流动结构。Serpieri &Kotsonis (2016b)首次报道了静止涡旋的低频蜿蜒振荡，并对其进行了观察和表征。

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Time-resolved PIV investigation of the secondary instability of cross-flow vortices

Time-resolved PIV measurements of the secondary instability modes of cross-flow vortices are presented. Measurements are performed on a large scale 45o swept wing at chord Reynolds number of 2.17 million in a low turbulence wind-tunnel facility. Using acquisition frequencies of 20 kHz, the present study is the first experimental demonstration of spatio-temporally resolved measurements of these structures. Statistical and spectral analysis reveals a fluctuating velocity field, strongly conditioned in space by the primary stationary cross-flow vortex. The flow structures related to the type-I high-frequency instability and type-III are captured by Proper Orthogonal Decomposition of the instantaneous flow-fields. Their temporal evolution is analysed showing good agreement with previous studies thus confirming that POD is correctly representing the flow structures of the relevant instability modes. The low frequency meandering oscillation of the stationary vortices, first reported by Serpieri &Kotsonis (2016b), is observed and characterised.

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Proceeding of Tenth International Symposium on Turbulence and Shear Flow Phenomena

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