Flow turbulence presented by different vegetation spacing sizes within a submerged vegetation patch

IF 2.5 3区工程技术

Journal of Hydrodynamics Pub Date : 2024-02-01 DOI:10.1007/s42241-024-0083-x

Chukwuemeka Kingsley John, Jaan H. Pu, Yakun Guo, Prashanth R. Hanmaiahgari, Manish Pandey

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引用次数: 0

Abstract

This study presents results from a vegetation-induced flow experimental study which investigates 3-D turbulence structure profiles, including Reynolds stress, turbulence intensity and bursting analysis of open channel flow. Different vegetation densities have been built between the adjacent vegetations, and the flow measurements are taken using acoustic Doppler velocimeter (ADV) at the locations within and downstream of the vegetation panel. Three different tests are conducted, where the first test has compact vegetations, while the second and the third tests have open spaces created by one and two empty vegetation slots within the vegetated field. Observation reveals that over 10% of eddies size is generated within the vegetated zone of compact vegetations as compared with the fewer vegetations. Significant turbulence structures variation is also observed at the points in the non-vegetated row. The findings from burst-cycle analysis show that the sweep and outward interaction events are dominant, where they further increase away from the bed. The effect of vegetation on the turbulent burst cycle is mostly obvious up to approximately two-third of vegetation height where this phenomenon is also observed for most other turbulent structure.

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水下植被斑块内不同植被间距大小产生的水流湍流

本研究介绍了植被诱导流实验研究的结果，该实验研究了三维湍流结构剖面，包括明渠流的雷诺应力、湍流强度和迸流分析。在相邻植被之间建立了不同密度的植被，并在植被板内部和下游位置使用声学多普勒测速仪（ADV）测量水流。进行了三次不同的测试，第一次测试植被紧凑，第二次和第三次测试在植被区内分别设置了一个和两个植被空槽，形成空旷空间。观察结果表明，与植被较少的区域相比，植被紧凑的区域内产生的漩涡超过 10%。在无植被行中的各点也观察到了显著的湍流结构变化。突发周期分析结果表明，横扫和向外的相互作用事件占主导地位，它们在远离河床的地方进一步增加。植被对湍流爆发周期的影响主要体现在植被高度约为三分之二的区域，这一现象在大多数其他湍流结构中也能观察到。

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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来源期刊

Journal of Hydrodynamics MECHANICS-

自引率

12.00%

发文量

2374

审稿时长

4.6 months

期刊介绍： Journal of Hydrodynamics is devoted to the publication of original theoretical, computational and experimental contributions to the all aspects of hydrodynamics. It covers advances in the naval architecture and ocean engineering, marine and ocean engineering, environmental engineering, water conservancy and hydropower engineering, energy exploration, chemical engineering, biological and biomedical engineering etc.