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NUMERICAL SIMULATION OF TURBIDITY CURRENT IN RESERVOIR
引用本文:YU,Wei-Sheng Post-Doctoral Fellow,Hydraulic Research Laboratory,National Taiwan University,Taipei 107,Taiwan,China LEE,Hong-Yuan Professor,Department of Civil Engineering,National Taiwan University,Taipei 107,Taiwan,China. NUMERICAL SIMULATION OF TURBIDITY CURRENT IN RESERVOIR[J]. 国际泥沙研究, 1993, 0(2)
作者姓名:YU  Wei-Sheng Post-Doctoral Fellow  Hydraulic Research Laboratory  National Taiwan University  Taipei 107  Taiwan  China LEE  Hong-Yuan Professor  Department of Civil Engineering  National Taiwan University  Taipei 107  Taiwan  China
作者单位:YU,Wei-Sheng Post-Doctoral Fellow,Hydraulic Research Laboratory,National Taiwan University,Taipei 107,Taiwan,China LEE,Hong-Yuan Professor,Department of Civil Engineering,National Taiwan University,Taipei 107,Taiwan,China
摘    要:
I. INTRODUCTIONWhen a sediment--laden flow reaches the backwater zone of a reservoir, the suddenreduction of flow velocity causes sediment particles to settle toward the river bed. Undercertain circumstsnces, it will plunge and form a layer of sediment--water mixture flowingbeneath the water surface. This flowing layer is called the turbidity current. A turbiditycurrent is relatively stable and has important impacts on reservoir sedimentation.In the case of deep reservoirs, due to temper…


NUMERICAL SIMULATION OF TURBIDITY CURRENT IN RESERVOIR
YU,Wei-Sheng Post-Doctoral Fellow,Hydraulic Research Laboratory,National Taiwan University,Taipei ,Taiwan,China LEE,Hong-Yuan Professor. NUMERICAL SIMULATION OF TURBIDITY CURRENT IN RESERVOIR[J]. International Journal of Sediment Research, 1993, 0(2)
Authors:YU  Wei-Sheng Post-Doctoral Fellow  Hydraulic Research Laboratory  National Taiwan University  Taipei   Taiwan  China LEE  Hong-Yuan Professor
Affiliation:YU,Wei-Sheng Post-Doctoral Fellow,Hydraulic Research Laboratory,National Taiwan University,Taipei 107,Taiwan,China LEE,Hong-Yuan Professor,Department of Civil Engineering,National Taiwan University,Taipei 107,Taiwan,China
Abstract:
Turbidity current is one of the most important phenomena that occurs in a reservoir. It is able to carry tremendous amounts of fine sediment over a long distance and has significant impacts on the spatial distributions of sediment deposition in a reservoir. Layer-inte- integrated equations were applied in this study to simulate the hydraulic characteristics of a gradually varied turbidity current. Small disturbance theory was used to analyze the locations of the boundary conditions, and a series of experiments were conducted to calibrate and verify the model. Sensitivity analyses were also performed to Study the impacts or water entrainment coefficient, total resistance coefficient and transport-capacity concentration of suspended sediment. It was found that supercritical turbidity current occurs when the densimetric Froude number is greater than 0.88, and the boundary conditions have to be as- signed at the upstream end. For the case of the turbidity current without erosion or deposition, variations of the water entrainment coefficient and total resistance coefficient will only change the longitudinal variation rate of the hydraulic characteristics of the turbidity current. For the case of the turbidity current with erosion or deposition, transport-capacity concentration is the only parameter that affects the trend of the turbidity current.
Keywords:Turbidity current  Reservoir  Sedimentation.
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