Experimental Study of Dike-Break Induced Flow Generated by Instantaneous Opening of the Side Gate

IF 3 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Journal of Flood Risk Management Pub Date : 2025-02-18 DOI:10.1111/jfr3.70017

Dawei Zhang, Zhongxiang Wang, Huiwen Liu, Wuxia Bi

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Abstract

A large-scale experimental model of instantaneous dike-break induced flow was conducted in this work. Water level variations in the river channel and floodplain, breach discharge, and the surface velocity field at the breach were measured during dike failure. The results show that: (i) The water level in the river rapidly decreased to a minimum (15%–22% of the initial water depth), then began to gradually rise, and finally approached stable. The water level in the floodplain gradually increased and ultimately tended towards stability. (ii) The breach discharge initially increased to a peak, then gradually decreased with a decreasing rate. The peak discharge was not only related to the initial river water level before dike-break, but also to the river velocity. Under the same conditions, the higher the river water level or the higher the river velocity, the greater the flood peak at the breach. And (iii) During the process of dike-break, the surface velocity of the breach flow gradually decreased. Other things being equal, a higher river water depth or a higher river velocity led to a larger surface velocity of the breach flow. These findings help better understand the hydrodynamic process and provide data support for models.

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瞬时打开侧门所产生的决堤诱导水流的实验研究

本文建立了大尺度溃堤瞬时渗流实验模型。测定了溃坝过程中河道和漫滩水位变化、溃坝口流量和溃坝口表面流速场。结果表明：(1)河道水位迅速下降至最小值（初始水深的15% ~ 22%），然后开始逐渐上升，最后趋于稳定；河漫滩的水位逐渐上升，最终趋于稳定。（ii）溃决流量先达到峰值后逐渐减小，且速率逐渐减小。洪峰流量不仅与决堤前河面初始水位有关，还与河面流速有关。在相同条件下，江河水位越高或流速越高，决口处洪峰越大。(3)溃坝过程中，溃坝面流速逐渐减小。在其他条件相同的情况下，较高的河流水深或较高的河流流速会导致裂口水流的表面流速较大。这些发现有助于更好地理解水动力过程，并为模型提供数据支持。

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.