评估极端降雨事件造成的山洪泛滥:案例研究:阿曼阿尔吉兹河

IF 2.1 4区 环境科学与生态学 Q2 ENGINEERING, CIVIL
E. Abushandi, Moza Al Sarihi, O. Ibrahim
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引用次数: 0

摘要

山洪暴发给城市化干旱地区带来了重大风险,评估其淹没模式对有效的灾害管理至关重要。干旱和气候变化导致的极端水文事件正以前所未有的速度影响着许多国家的人类生活和重大活动。本研究旨在利用高分辨率数据评估干旱流域极端风暴事件引发的山洪暴发。本研究对单个风暴事件应用了两种模式,即ihaacres和AHP模式。观察到的流动被用于模型的验证。ihaacres模型确定的平均流量输出约为0.47 m3/s,而AHP模型确定的流量输出为0.45 m3/s。效率表明,IHACRES模型对极端事件的平均评价为0.88,AHP模型的平均评价效率为0.68。尽管如此,两种模式的定量模拟结果对于模拟干旱流域的单次风暴事件可能具有良好的适用性。经过验证的IHACRES和AHP模型为模拟山洪暴发提供了有价值的工具。该研究的结果对洪水管理政策和基础设施规划具有启示意义,从而确保对全球干旱地区的极端洪水事件作出更有弹性的反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing flash flood inundation from extreme rainfall event: case study: Wadi Al Jizzi Oman
Flash floods present a significant risk to urbanized arid regions, and assessing their inundation patterns is crucial for effective disaster management. Extreme hydrologic events due to aridity and climate change are shaping human lives and major activities in numerous countries at an unprecedented pace. This study aims to assess flash floods from extreme storm events in an arid catchment using high-resolution data. The study applied two models on the event of a single storm, namely the IHACRES and AHP models. The observed flow was used for models' validation. The average flow output determined with the IHACRES model was approximately 0.47 m3/s while the flow output resulting from the AHP model was 0.45 m3/s. The efficiency showed that the IHACRES performed better in evaluating extreme events with an average of 0.88 while the AHP model showed an efficiency of 0.68. Nonetheless, the quantitative simulation outputs of both models are likely to have good applicability for simulating single storm events in arid catchments. The validated IHACRES and AHP models offer valuable tools for simulating flash flood. The study's outcomes have implications for flood management policy and infrastructure planning, ensuring a more resilient response to extreme flood events in arid regions globally.
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来源期刊
CiteScore
4.10
自引率
21.10%
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审稿时长
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