Research on Jiepai Riverbed Evolution Law and its Evolution Trend Forecast in Middle Yangtze River

Cheng Tao Huang

doi:10.4028/www.scientific.net/AMR.926-930.4292

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Papermaking Wastewater Treatment - A Brief Review
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PM 2.5 Concentration Research Based on Multiple Models
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Prediction of Groundwater Contamination with a Coupled Model in Coastal Areas: A Case Study of Benzene Leaching Accident
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Recovery of Silver and Lead through Reprocessing of Lead Tailings from Yunnan
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Research on Jiepai Riverbed Evolution Law and its Evolution Trend Forecast in Middle Yangtze River
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Research on Leakage and Diffusion Impact of Ammonia Leak Accident
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Research on Low Carbonization of Tourism and its Sustainable Development in Qinhuangdao City
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Research on Navigation-Obstruction Characteristics and Waterway Regulation Scheme of Multi-Branched River Reach in the Lower Yangtze River
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Research on Navigation-Obstruction with Complex Boundary and its Counter Measures in Middle Reaches of the Yangtze River
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 926-930Research on Jiepai Riverbed Evolution Law and its...

Research on Jiepai Riverbed Evolution Law and its Evolution Trend Forecast in Middle Yangtze River

Abstract:

After Three Gorges reservoir impoundment, sediment transport and bed evolution characteristic had changed in the lower Yangtze River. Based on the observational data, sediment transport and bed evolution characteristic of Jiepai reach had been analyzed. The results showed that Jiepai reach evolution had a close relationship with income flow and sediment conditions. In recent years, the income flow and sediment conditions were propitious to the development of left slot of heart beach. It also had accelerated the low beach erosion in transition section and siltation in Xindijia. A 2-D mathematic model and river physical model had been used to forecast the river evolution trend. The results showed that the staggered beach would still not stay steady with the reservoir impoundment. The periodic time of evolution could become longer. Xiru bank beach in right bank of upper Jiepai reach would deposit and move downwards. The main stream discharge would centralize and increase. The left channel of heart reach would be eroded and the right one would dwindle gradually by the squeezing of the heart reach. The right branch channel, as the main navigation channel, would deposit and become shallow. The transition reach would move downwards at outlet of left channel. The riffle would present a staggered shape and left branch channel would dwindle gradually. The waterway transportation condition would get worse.