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沙市枯水位下降对引江济汉工程取水影响研究
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作者 华永 余红枚 +2 位作者 周帅 施薇 章晓梦 《水资源研究》 2024年第5期565-572,共8页
三峡工程蓄水以来,沙市河段水沙过程发生明显变化,沿程水位特别是枯水位呈累积性下降趋势,引江济汉工程取水口位于沙市河段,沙市枯水位下降影响渠道引水条件,导致工程枯季取水需求难以保障。通过水文泥沙分析方法,分析了沙市站近50年水... 三峡工程蓄水以来,沙市河段水沙过程发生明显变化,沿程水位特别是枯水位呈累积性下降趋势,引江济汉工程取水口位于沙市河段,沙市枯水位下降影响渠道引水条件,导致工程枯季取水需求难以保障。通过水文泥沙分析方法,分析了沙市站近50年水沙系列变化、同流量级下枯水位下降趋势,结合引江济汉工程自运行以来的引水调度情况,分析了沙市站枯水位下降对工程引水的影响及对策,可为工程运行管理单位进行工程运行、维护和改造提供技术支撑。Since the impoundment of the Three Gorges Reservoir (TGR), the water and sediment conditions of Shashi Reach have changed significantly, and the water levels, especially the low water levels have decreased obviously. The intake of the Yangtze River to Han River Project is located in the Shashi Reach, and the Shashi low water levels affect the project channel inlet flow condition, which makes the water intake demand barely guaranteed during the dry season. Hydrological analysis methods are adopted to analyze the changing rule of water and sediment processes and the decline trend of low water level in the Shashi Reach in the past 50 years. The influence and strategies of Shashi low water level decreasing on the Yangtze River to Han River Project are studied according to the channel diversion volume of the project, which can provide technical support for engineering operation, maintenance, and renovation for the project management. 展开更多
关键词 引江济汉工程 沙市河段 枯水位下降
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引江济汉工程渠首泥沙淤积及预测研究
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作者 华永 付泾泽 +1 位作者 周帅 胡琼方 《水资源研究》 2024年第4期433-442,共10页
引江济汉工程渠首为典型“盲肠河段”,口门环流导致泥沙落淤,抬高引水口底板高程,影响渠道引水条件,因此需定期进行渠道进口清淤维护。为研究工程运行后渠首渠道输水输沙规律,采用河演分析及建立平面二维水沙数学模型方法研究表明:工程... 引江济汉工程渠首为典型“盲肠河段”,口门环流导致泥沙落淤,抬高引水口底板高程,影响渠道引水条件,因此需定期进行渠道进口清淤维护。为研究工程运行后渠首渠道输水输沙规律,采用河演分析及建立平面二维水沙数学模型方法研究表明:工程自运行以来,口门存在逆时针回流,渠首呈累积性淤积态势,渠首未来10年泥沙淤积量约43.89万m³,研究结果可为工程管理单位进行工程运行、维护和改造提供技术支撑。The headwork of the Yangtze River to Han River Project is a typical “cecal reach”, and a circulating flow at the channel mouth causes sediment deposition and elevates the inlet, affecting the inlet flow condition. Therefore, regular dredging is necessary for the safety of the headwork. A two-dimensional flow sediment transport bed morphology mathematical model and the analysis method of fluvial process are adopted to analyze the law of water-sediment transport. Analysis shows that the headwork kept silting along with a counterclockwise backflow at the entrance. There will be 438,900 cubic meters sediment siltation in the next 10 years. The research can provide technical support for engineering operation, maintenance, and renovation for the project management. 展开更多
关键词 引江济汉工程 泥沙淤积 数学模型
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