Flood Risk Analysis: The Case of Tigris River (Tikrit /Iraq)

Q3 Environmental Science

Tikrit Journal of Engineering Sciences Pub Date : 2023-03-31 DOI:10.25130/tjes.30.1.11

Wesam Mohammed-Ali, R. S. Khairallah

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引用次数: 2

Abstract

The study of flood risks has a fundamental role in ensuring the safety of cities near rivers and drawing up plans to protect them during future floods. This study aims to manage potential flood risks, and Tikrit city was used as a case study. The daily discharge of the Tigris River in the study area was provided by the Iraqi Ministry of Water Resources from 2019 to 2022. The HEC-RAS software was utilized to build a 2-D flood model to simulate potential flood scenarios. First, the model was calibrated by adjusting the value of Manning's coefficient (n), and it was found that n = 0.031 reflects the nature of the region because the Nash-Sutcliff Error (NSE) was 0.93. Then, the efficiency of the 2-D flood model was verified by comparing the model’s results with the study area’s satellite images, and the results showed a great match. Following that, the 2-D model was used under different flooding scenarios. The results showed that the size of areas exposed to flooding increased with the discharges passing through the Tigris River. For instance, increasing the discharge to 800m3/s increased the flooded areas by 13.7%, while increasing the discharge to 1500 m3/s increased the flooded areas by 90.7 % compared to the river’s normal flow. Also, the results showed that the eastern regions of the riverbanks are more vulnerable to flooding than the western side because the ground levels are low on the eastern side compared to the western part of the riverbanks.

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洪水风险分析:以底格里斯河(提克里特/伊拉克)为例

洪水风险的研究对于确保河流附近城市的安全以及制定在未来洪水期间保护它们的计划具有根本作用。本研究旨在管理潜在的洪水风险，并以提克里特市为例进行了研究。从2019年到2022年，研究区域的底格里斯河每天的流量由伊拉克水利部提供。利用HEC-RAS软件建立二维洪水模型，模拟潜在洪水情景。首先，通过调整Manning系数(n)的值对模型进行校准，发现由于Nash-Sutcliff误差(NSE)为0.93，因此n = 0.031反映了该地区的性质。然后，将二维洪水模型的结果与研究区域的卫星图像进行对比，验证了模型的有效性，结果显示出较好的匹配性。然后，在不同的洪水情景下使用二维模型。结果表明，随着底格里斯河流量的增加，暴露在洪涝灾害中的面积逐渐增大。例如，将流量增加到800m3/s时，淹没面积增加了13.7%，而将流量增加到1500m3 /s时，淹没面积比河流正常流量增加了90.7%。结果还表明，由于东岸的地面水平比西岸低，东岸比西岸更容易发生洪水。

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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