埃塞俄比亚北部提格雷地区桥址冲刷问题的水文和水力评价

Yilma Kidanie, B. Grum, Shishay Yemane
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引用次数: 0

摘要

本研究旨在评估埃塞俄比亚北部提格雷地区三个选定桥址的冲刷问题,即Ilala、upper Geba和Tankwa大桥。智能GIS、ArcGIS、水文工程中心水文建模系统(HEC-HMS)和水文工程中心河流分析系统(HEC-RAS)用于河流形态、水文和水力分析。河岸受到更严重的退化和不稳定问题的影响。估计100年流量分别为272.5、940.4和249.9 Ilala、上Geba和Tankwa大桥分别为m3/s。Ilala、Geba上游和Tankwa桥址的Nash-Sutcliffe效率分别为0.90、0.88和0.87,流量深度校准得到了模型性能。冲刷深度分别为1.3、1.6和0.8 m合同段;3.2、3.0和2.2 m;2.6、3.6和2.2 m;以及1.6、3.0和2.1 Ilala、上Geba和Tankwa大桥的右桥台处分别为m。在桥梁上使用抛石,冲刷深度减少了60-100%。总体而言,水文和水力模型表现良好。
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Hydrologic and hydraulic assessment of scour problems at bridge sites in Tigray region, northern Ethiopia
This study was conducted to assess scour problems at three selected bridge sites in the Tigray region, northern Ethiopia, namely the Ilala, upper Geba, and Tankwa bridges. Smart-GIS, ArcGIS, Hydrologic Engineering Centre Hydrologic Modeling System (HEC-HMS), and Hydrologic Engineering Centre River Analysis System (HEC-RAS) were used for the river morphology, hydrologic, and hydraulic analysis. The riverbanks were subjected to higher degradation and instability problems. The estimated 100-year flows were 272.5, 940.4, and 249.9 m3/s for Ilala, upper Geba, and Tankwa bridges, respectively. Flow depth calibration were resulted in model performance with Nash Sutcliffe Efficiencies of 0.90, 0.88, and 0.87 for Ilala, upper Geba, and Tankwa bridge sites, respectively. Scour depths were 1.3, 1.6, and 0.8 m at contracted sections; 3.2, 3.0, and 2.2 m at the piers; 2.6, 3.6, and 2.2 m at the left abutment; and 1.6, 3.0, and 2.1 m at the right abutment of Ilala, upper Geba, and Tankwa bridges, respectively. The use of riprap at the bridges resulted in the reduction of scour depths by 60–100%. Overall, the hydrologic and hydraulic models performed well.
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CiteScore
2.90
自引率
16.70%
发文量
31
期刊介绍: JAWER’s paradigm-changing (online only) articles provide directly applicable solutions to water engineering problems within the whole hydrosphere (rivers, lakes groundwater, estuaries, coastal and marine waters) covering areas such as: integrated water resources management and catchment hydraulics hydraulic machinery and structures hydraulics applied to water supply, treatment and drainage systems (including outfalls) water quality, security and governance in an engineering context environmental monitoring maritime hydraulics ecohydraulics flood risk modelling and management water related hazards desalination and re-use.
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