Identification of Scouring Zones in Ungauged River by Simulation: The Case of Galal Badrah River, Iraq

Association of Arab Universities Journal of Engineering Sciences Pub Date : 2019-08-31 DOI:10.33261/jaaru.2019.26.3.007

Kareem Abd Ali Kareem, H. Al-thamiry

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引用次数: 2

Abstract

Galal Badrah River is one of Iraqi-Iranian border crossing rivers. This river is usually seasonally flooded during any time started from January to May. Its maximum discharge is 2200 m3/s which was recorded during 1985. During floods, banks of this river at many locations need protection against scour problem during floods. A small dam was constructed on this river in 2010 for the purposes of flood control and storage of water. The weir of the dam has a design discharge of 1250 m3/s. Sediments started to accumulate in the reservoir of the dam that reduce its design capacity to 10% during 2017. The flow of Galal Badrah River was simulated by using HEC-RAS 5.0.3 models. were used to simulate by using. Two hydrographs were used at upstream side of the river, one with a maximum discharge of 1250 m3/s and the other is of 2200 m3/s. A normal flow depth is used as a downstream boundary condition. Results of the simulation showed that the velocities to be higher than allowable velocity of scouring. The protection of Galal Badrah river by stack boulders is suggested to be used to avoid the scour at the river bank. The protection will increase Manning’s roughness coefficient from 0.028 to 0.10. The percentage of reduction in velocities after the river protection for the discharges of 1250 and 2200 m3/s were found to be 65.23% and 60.55%, respectively. The reduction in velocity caused increase in the river water levels. As a result, a flood embankment is required to be constructed on the right bank of the river with a height ranges from 2.5 to 5.6 m depending on the water depth at river cross section.

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未测量河流冲刷带的模拟识别——以伊拉克加拉勒巴德拉河为例

加拉勒巴德拉河是伊拉克-伊朗边境的河流之一。这条河通常在1月到5月的任何时候季节性泛滥。1985年记录的最大流量为2200立方米/秒。在洪水期间，这条河的许多地方的河岸需要保护，防止洪水冲刷问题。2010年在这条河上修建了一座小水坝，用于防洪和蓄水。大坝堰的设计流量为1250立方米/秒。2017年，大坝的水库开始积聚沉积物，使其设计容量减少到10%。采用HEC-RAS 5.0.3模型对加拉河的流量进行了模拟。进行模拟。在河流上游使用了两个水文曲线，一个最大流量为1250 m3/s，另一个最大流量为2200 m3/s。用正常流动深度作为下游边界条件。仿真结果表明，冲刷速度要高于冲刷允许速度。为避免河岸冲刷，建议采用叠石保护加拉河。防护装置将使曼宁的粗糙系数从0.028提高到0.10。1250 m3/s和2200 m3/s的流量，经护河后流速降低率分别为65.23%和60.55%。流速的降低引起了河水水位的上升。因此，需要在河流的右岸建造堤防，堤防的高度根据河流横截面的水深从2.5米到5.6米不等。

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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Association of Arab Universities Journal of Engineering Sciences

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