Quantifying wake dynamics subjected to stream vegetation patch elongation: The influence of patch-edge vortices

Yuan-Heng Zhang, Huan-Feng Duan, Xu-Feng Yan, A. Stocchino
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Abstract

Vortices are generated across a wide range of scales due to the interaction between in-stream vegetation and surrounding flows, significantly influencing hydro-geomorphodynamics in earth surface water systems. Recent advance in vegetation patch hydrodynamics has revealed that the elongation of the middle channel patch can generate complex wake flow patterns by adjusting the bleed flow from the patch and triggering the patch-edge Kelvin–Helmholtz (KH) vortices. With a broader range of experimental configurations, this study reveals how the patch wake mixing is apparently strengthened by the presence of KH vortices, indicated by a larger steady wake velocity, a shorter steady wake length, and a damped energy of wake von Karman vortex. Furthermore, we quantify these characteristic metrics of patch wake behavior with and without the influence of KH vortices. Our findings provide insights into the role of vegetation-induced vortex interactions in regulating mixing processes, thereby promoting informed practices in environmental flows.
受溪流植被斑块伸长影响的唤醒动力学量化:斑块边缘涡流的影响
由于溪流中的植被与周围水流之间的相互作用,会在很大范围内产生涡流,从而对地表水系统的水文地质动力学产生重大影响。植被斑块水动力学的最新进展表明,中间河道斑块的伸长可通过调整斑块的渗流并触发斑块边缘的开尔文-赫尔姆霍兹(KH)涡,从而产生复杂的尾流模式。通过更广泛的实验配置,本研究揭示了补片唤醒混合如何因 KH 涡的存在而明显增强,表现为更大的稳定唤醒速度、更短的稳定唤醒长度和唤醒冯-卡曼涡的阻尼能量。此外,我们还量化了受 KH 涡影响和不受 KH 涡影响的补片唤醒行为的这些特征指标。我们的研究结果有助于深入了解植被引起的涡旋相互作用在调节混合过程中的作用,从而促进环境流动中的知情实践。
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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