Abstract
Finding an appropriate shape for the releasing building is thoroughly relevant given the energy dissipation and safety requirements of a high dam in a sediment-laden river. Thirty-six physical experiments on trajectory energy dissipation were conducted, researching the influence of three overflow shapes (contraction ratios of 0.5, 0.4, and 0.3) with four sediment concentrations (0, 50, 150, and 250 kg/m3) on the discharge, flow regime, and hydrodynamic pressure of a plunge pool slab. The experimental results demonstrated that the flow coefficient gradually decreased as the contraction ratio decreased in a relatively high weir head, regardless of the sediment concentration. The water nappe narrowed and the length of the longitudinal trajectory increased as the outlet shrinkage and sediment concentration decreased. With the increase in sediment concentration, the nappe regime approached stability, and the flow in the plunge pool tended toward small rolling, causing the impact pressure and fluctuating pressure to increase. Changes in overflow shape had little effect on the position of pressure peak, but the value became lower as the ratio diminished. The influence on the hydrodynamic pressure by outlet shrinkage became attenuated while the sediment concentration increased. The fluctuating energy and vortex scale were enhanced due to the increased viscosity with increasing sediment concentrations.
Highlights
Since the mid-20th century, the construction of large-scale dams around the world has increased significantly
The discharge capacity was only related to the upstream water head, regardless of the sediment concentration; this is consistent with the trends of other studies [26,27,28]
The effect of sediment concentration on energy dissipation is an urgent problem for high dams in hyper-concentrated sediment-laden rivers
Summary
Since the mid-20th century, the construction of large-scale dams around the world has increased significantly. Water storage and power generation were increased significantly by increasing reservoir water levels and dam height. The increase in reservoir water level was accompanied by huge energy increases. Energy dissipation is an important issue in the design of a hydraulic structure, especially when dam parameters include a high water head and large discharge. If this energy was not dissipated well, the safety of the side slopes and downstream plunge pools would be threatened. The form of energy dissipation to be used in hydraulic engineering was an urgent design issue. Shape optimization for the overflowing building was important for the safety of the large hydro-junction and the investment of the project [1,2,3]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
