Effect of Breach Parameters and Progression Curves on Dam Failure Hydrograph

Petar Praštalo, Mato Uljarević, R. Vukomanovic
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Abstract

Understanding the failure mechanisms of embankment dams due to overtopping is vital for flood protection, covering planning, design, and flood defence zone management. Typically, dam failure-induced flood wave propagation is modeled in 1D using Saint-Venant's equations. The breach itself is often simplified as a trapezoid defined by its final height, average width, side slopes, and the time required for complete formation. Often overlooked is the dynamic process of breach formation and its correlation with the outflow hydrograph during dam failure. This research scrutinizes the impact of breach parameters and progression curves on the outflow hydrograph. Two approaches were formulated: one crafting new equations for average breach width and formation time using global dam failure data and regression analysis, and the other employing these equations in 2D HEC-RAS dam failure modeling, comparing them with literature recommendations. The derived equations yield results similar to those in the literature. This study introduces a novel aspect by examining the mutual influence of results and floodplain areas on the outflow hydrograph, offering a comprehensive perspective on dam failure dynamics and its hydraulic consequences. Doi: 10.28991/CEJ-2024-010-02-08 Full Text: PDF
溃坝参数和进展曲线对溃坝水文图的影响
了解堤坝因倾覆而溃决的机理对于防洪、规划、设计和洪水防御区管理至关重要。通常情况下,溃坝引起的洪波传播是使用圣-维南方程进行一维建模的。溃坝本身通常被简化为一个梯形,由其最终高度、平均宽度、边坡和完全形成所需的时间来定义。往往被忽视的是溃坝形成的动态过程及其与溃坝时流出水文图的相关性。本研究仔细研究了溃口参数和溃口进展曲线对出流水文图的影响。研究制定了两种方法:一种是利用全球溃坝数据和回归分析,为平均溃口宽度和形成时间制定新的方程;另一种是在二维 HEC-RAS 溃坝模型中采用这些方程,并将其与文献建议进行比较。推导出的方程得出的结果与文献中的结果相似。本研究引入了一个新的方面,即研究结果和洪泛区对出流水文图的相互影响,为大坝溃坝动力学及其水力后果提供了一个全面的视角。Doi: 10.28991/CEJ-2024-010-02-08 全文:PDF
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