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Research on Plane 2-D Sediment Model of a Watercourse on Yangtze River

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DOI: 10.4236/jwarp.2009.14032    6,235 Downloads   9,550 Views  
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ABSTRACT

To provide basis for sand excavation of hydraulic fill and land forming in Daohukou region in a watercourse (Wuhan reach) on Yangtze River, a 2-D water-sand mathematic model of this river reach is established. The variation of water levels of this reach and the back silting of watercourse after sand excavation are calculated. The rationality of the results calculated by this model and the measured data are validated and analyzed. The results show that, this model is reasonable and reliable.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Y. FAN, "Research on Plane 2-D Sediment Model of a Watercourse on Yangtze River," Journal of Water Resource and Protection, Vol. 1 No. 4, 2009, pp. 265-270. doi: 10.4236/jwarp.2009.14032.

References

[1] X. L. Liu, L. Xun and Q. Zheng, “Computational fluid dynamics,” Harbin: Harbin Press, 1998.
[2] D. SilvaA, “Turbulent flow in sine generated meandering channel,” Queen’s University, Kingston, Ontario, Canada, March 1995.
[3] A. Vanoni, “Sediment engineering,” Beijing: Water Con-servancy Press, 1981.
[4] T. Y. Li, “Research and preliminary application of sedi-ment mathematic model in fluctuating backwater area of Three Gorges Reservoir [M],” Wuhan: Wuhan Industrial Press, 1993.
[5] Z. L. Wei, “A finite element solution of current and sedi-ment problems in watercourse [J],” Journal of Wuhai Wa-ter Conservancy and Hydroelectric Power, 1990.
[6] J. H. Xie. “River simulation [M],” Beijing: Water Con-versancy & Power Press, 1990.
[7] Y. L. Zhao and X. F. Zhang, “Hydrology [M],” Beijing: China Architecture & Building Press, 2001.
[8] X. Q. Zhou, “Computational Hydraulics [M],” Beijing:Tsinghua University Press, 1995.
[9] Y. C. Chang, “Lateral mixing in meandering channels,” PhD dissertation, The Department of mechanics and Hydraulics, University of Iowa, 200.

  
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