Mixed debris interaction with obstacle array under extreme flood conditions

IF 3 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Journal of Flood Risk Management Pub Date : 2024-04-18 DOI:10.1111/jfr3.12987

Piyali Chowdhury, Indigo-Jaie Fredericks, Jesus Castaño Alvarez, Matthew Clark, Ravindra Jayaratne, J. J. Wijetunge, Alison Raby, Paul Taylor

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Abstract

This investigation explores the interactions of different shaped debris with an array of obstacles under subcritical flow conditions, representative of a flood associated with a storm surge or tsunami. Panels, blocks and cylinders were used in a flow channel, as analogues for house panels, cars/containers and trees respectively, whilst some tests used a mix of debris. The backwater effect due to the blockage caused by the obstacles was most (least) significant for panels (cylinders). There was some evidence that smaller key log types and higher flow rates led to smaller dams. It was also evident that key logs formed at different depths depending on debris shape; debris shape also determined the vertical shape of the dam. Capture efficiency had a broadly negative (positive) correlation with the Froude number (permeability). Also, from video footage there were examples of the debris moving more quickly through partial dams. Finally, the drag force, deduced from only the water depths and the flow discharge, showed a clear relationship between drag force and Froude number, and a dependency of drag force on debris shape. There are some implications for the layout of building footprints in the inundation zones and the use of large, break-away panels.

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极端洪水条件下混合碎片与障碍物阵列的相互作用

这项研究探讨了不同形状的碎片与一系列障碍物在次临界流动条件下的相互作用，这些障碍物代表了与风暴潮或海啸相关的洪水。在流道中使用了面板、木块和圆柱体，分别模拟房屋面板、汽车/集装箱和树木，有些测试还使用了混合碎片。由于障碍物造成的阻塞，板块（圆柱体）的回流效果最明显（最不明显）。有证据表明，较小的关键原木类型和较高的流速会导致较小的水坝。同样明显的是，关键原木形成的深度取决于碎屑的形状；碎屑的形状也决定了水坝的垂直形状。捕获效率与弗劳德数（渗透率）大致呈负相关（正相关）。此外，从视频录像中还可以看到碎屑在部分坝体中移动较快的例子。最后，仅从水深和流量推断出的阻力表明，阻力与弗劳德数之间存在明显的关系，而且阻力还取决于泥石的形状。这对淹没区的建筑占地布局和使用大型防渗板有一定的启示。

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 Flood Risk Management ENVIRONMENTAL SCIENCES-WATER RESOURCES

CiteScore

8.40

自引率

7.30%

发文量

审稿时长

12 months

期刊介绍： Journal of Flood Risk Management provides an international platform for knowledge sharing in all areas related to flood risk. Its explicit aim is to disseminate ideas across the range of disciplines where flood related research is carried out and it provides content ranging from leading edge academic papers to applied content with the practitioner in mind. Readers and authors come from a wide background and include hydrologists, meteorologists, geographers, geomorphologists, conservationists, civil engineers, social scientists, policy makers, insurers and practitioners. They share an interest in managing the complex interactions between the many skills and disciplines that underpin the management of flood risk across the world.