Unidimensional, non-stationary modeling of a high mountain river in southern Ecuador

Maskana Pub Date : 2018-12-20 DOI:10.18537/MSKN.09.02.08

A. Ochoa‐Sánchez, L. Timbe, Angel Vázquez‐Patiño, E. Samaniego

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引用次数: 1

Abstract

Floods represent a severe cause of deaths and economic loss. In order to prevent, mitigate, and reduce flood risks and their consequences, hydraulic models allow analysing and mapping floods. The results of an appropriate model that works under local conditions are a valuable tool for local governments leading to sustainable management of floodplains. Around the world, high-mountain rivers have been poorly modelled; their orography and data scarcity present an extra research difficulty. Considering that all one-dimensional models assume that the river bed slope is small, this study evaluated two widely applied one-dimensional models: Mike11 and HEC-RAS, for modelling a high mountain river. Their best configuration under complex topographical conditions and their potential use was assessed by calibration and validation of the models. We found that the HEC-RAS model was not able to define a stable solution of the hydrodynamic modelling of the river, while Mike11 yielded stable results. Furthermore, the validation of the Mike11 model showed good performance. This study sets a precedent in the 1D modelling of high-mountain rivers with data scarcity.

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厄瓜多尔南部一条高山河流的一维非平稳模型

洪水是造成死亡和经济损失的一个严重原因。为了预防、减轻和减少洪水风险及其后果，水力模型可以分析和绘制洪水地图。一个适用于当地条件的适当模型的结果是地方政府引导对洪泛平原进行可持续管理的宝贵工具。在世界各地，高山河流的模型都很差;它们的地形和数据的稀缺性给研究带来了额外的困难。考虑到所有一维模型都假设河床坡度较小，本研究评估了两种广泛应用的一维模型:Mike11和HEC-RAS，用于模拟高山河流。通过模型的校准和验证，评估了它们在复杂地形条件下的最佳配置及其潜在用途。我们发现HEC-RAS模型不能定义河流水动力模型的稳定解，而Mike11得到了稳定的结果。此外，Mike11模型的验证也显示了良好的性能。本研究为数据稀缺的高山河流一维建模开创了先例。

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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