Hydraulic Model Experimental Research of SUE Hydropower Station

Qin Xiang Wang; Wan Qiang Chu

doi:10.4028/www.scientific.net/AMR.726-731.3554

Paper Titles

The Potential Utilization of Satellite Derived Rainfall in a Data-Scarce Basin
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The Prediction and Evaluation of the Groundwater Quality of Taikang Formation in Tertiary in West of Daqing Oilfield by Using Resistivity Logging Data
p.3538

Validation of Climate Research Unit High Resolution Time-Series Rainfall Data over Three Source Region: Results of 52 Years
p.3542

Water Quality Prediction Based on Improved Wavelet Transformation and Support Vector Machine
p.3547

Hydraulic Model Experimental Research of SUE Hydropower Station
p.3554

Spatiotemporal Differences in Relative Efficiency of Regional Industrial Water Utilization in Xinjiang
p.3559

The Study of Sensitivity Analysis of Parameters of Groundwater Numerical Simulation
p.3564

Green Road Design Concept
p.3573

Hourly Simulation Study of Intermittent Operating Conditions for Ground Heat Exchanger in the Hot Summer and Warm Winter Areas
p.3580

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 726-731Hydraulic Model Experimental Research of SUE...

Hydraulic Model Experimental Research of SUE Hydropower Station

Abstract:

The research of Metamorphosis hydraulic model experiment which is designed on the base of gravity similarity and turbulent resistance similarity into SUE Hydropower Station shows the structure layout and design size of SUE Hydropower Station are reasonable and overflow capacity of sluice can meet the requirements. Upstream circular-arc concrete guide wing wall and the guide wall between downstream stilling basin and power station outlet can play a role of diversion and smoothing the flow pattern. When the flow is more than design flow, the effect of energy dissipation and erosion control of stilling basin is not good. In order to enhance the effect of energy dissipation and erosion control of stilling basin, the basin shall be lengthened and baffle piers shall be set in the stilling basin to assist energy dissipation.

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Periodical:

Advanced Materials Research (Volumes 726-731)

Pages:

3554-3558

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.726-731.3554

Citation:

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Online since:

August 2013

Authors:

Qin Xiang Wang*, Wan Qiang Chu

Keywords:

Energy Dissipation and Erosion Control, Hydraulic Model Experiment, Hydropower Station, Overflow Capacity, Type Design of Structure

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References

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