Dam Breach Analysis Using HEC-RAS and HEC-GeoRAS: The Case of Kesem Kebena Dam

现代水文学期刊(英文) Pub Date : 2019-09-11 DOI:10.4236/OJMH.2019.94007

Abimael Leoul, Nebiyou Kassahun

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引用次数: 9

Abstract

Ethiopia has been booming with active construction of dams within the past few decades for different infrastructural needs, but has never experienced demolition or failure of dams in its history; hence little attention is being given to possible breach scenarios of dams and the resulting floodings. This paper makes analysis of the possible breach of kesem dam and the resulting flood inundation. In this study, the dam has been checked for both overtopping and piping failure modes using one dimensional river analysis model called HEC-RAS. Empirical equations were used to predict dam breach parameters of the two failure modes for use in this model. PMF inflow with a peak 9237.77 m3/s is used as an input to the reservoir to check if overtopping failure was possible. The spill way has proven to have adequate capacity for the flood due to the PMF. Therefore, breaching of the embankment was not possible. Piping failure was also simulated in HEC-RAS and the resulting breach due to piping failure, was analyzed and flood hydrograph was obtained at different cross sections along the river. These are flood hydrographs at 20 km, 40 km and 60 km at the downstream. The resulting flood plain was also mapped using HEC-GeoRas to show the extent of flooding.

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基于HEC-RAS和HEC-GeoRAS的溃坝分析——以Kesem Kebena大坝为例

在过去的几十年里，埃塞俄比亚因不同的基础设施需求而积极建设大坝，发展迅速，但在其历史上从未经历过大坝的拆除或失败；因此，人们很少关注大坝可能发生的溃坝情况以及由此引发的洪水。本文对凯塞姆大坝可能发生的溃坝及其引发的洪水淹没进行了分析。在这项研究中，使用名为HEC-RAS的一维河流分析模型检查了大坝的漫顶和管道破坏模式。采用经验方程预测了两种溃坝模式的溃坝参数，用于该模型。峰值为9237.77m3/s的PMF流入被用作水库的输入，以检查是否可能发生漫顶故障。由于PMF，泄漏通道已被证明具有足够的防洪能力。因此，不可能突破路堤。HEC-RAS中还模拟了管道故障，分析了管道故障造成的决口，并获得了沿河不同横截面的洪水过程线。这些是下游20km、40km和60km处的洪水过程线。由此产生的洪泛平原也使用HEC GeoRas绘制了地图，以显示洪水的程度。

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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现代水文学期刊(英文)

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