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Analysis of the vortices in the inner flow of reversible pump turbine with the new omega vortex identification method 被引量:35

Analysis of the vortices in the inner flow of reversible pump turbine with the new omega vortex identification method
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摘要 Reversible pump turbines are widely employed in the pumped hydro energy storage power plants. The frequent shifts among various operational modes for the reversible pump turbines pose various instability problems, e.g., the strong pressure fluctuation, the shaft swing, and the impeller damage. The instability is related to the vortices generated in the channels of the reversible pump turbines in the generating mode. In the present paper, a new omega vortex identification method is applied to the vortex analysis of the reversible pump turbines. The main advantage of the adopted algorithm is that it is physically independent of the selected values for the vortex identification in different working modes. Both weak and strong vortices can be identified by setting the same omega value in the whole passage of the reversible pump turbine. Five typical modes(turbine mode, runaway mode, turbine brake mode, zero-flow-rate mode and reverse pump mode) at several typical guide vane openings are selected for the analysis and comparisons. The differences between various modes and different guide vane openings are compared both qualitatively in terms of the vortex distributions and quantitatively in terms of the areas of the vortices in the reversible pump turbines. Our findings indicate that the new omega method could be successfully applied to the vortex identification in the reversible pump turbines. Reversible pump turbines are widely employed in the pumped hydro energy storage power plants. The frequent shifts among various operational modes for the reversible pump turbines pose various instability problems, e.g., the strong pressure fluctuation, the shaft swing, and the impeller damage. The instability is related to the vortices generated in the channels of the reversible pump turbines in the generating mode. In the present paper, a new omega vortex identification method is applied to the vortex analysis of the reversible pump turbines. The main advantage of the adopted algorithm is that it is physically independent of the selected values for the vortex identification in different working modes. Both weak and strong vortices can be identified by setting the same omega value in the whole passage of the reversible pump turbine. Five typical modes(turbine mode, runaway mode, turbine brake mode, zero-flow-rate mode and reverse pump mode) at several typical guide vane openings are selected for the analysis and comparisons. The differences between various modes and different guide vane openings are compared both qualitatively in terms of the vortex distributions and quantitatively in terms of the areas of the vortices in the reversible pump turbines. Our findings indicate that the new omega method could be successfully applied to the vortex identification in the reversible pump turbines.
作者 Yu-ning Zhang Kai-hua Liu Jin-wei Li Hai-zhen Xian Xiao-ze Du 张宇宁;刘凯华;李金伟;冼海珍;杜小泽(Key Laboratory of Fluid and Power Machinery, Ministry of Education, Xihua University, Chengdu 610039, China;Key Laboratory of Condition Monitoring and Control for Power Plant Equipment (Ministry of Education), North China Electric Power University, Beijing 102206, China;Beijing South-to-North Water Diversion Tuancheng Lake Management Office, Beijing 100195, China;China Institute of Water Resources and Hydropower Research, Beijing 100048, China)
出处 《Journal of Hydrodynamics》 SCIE EI CSCD 2018年第3期463-469,共7页 水动力学研究与进展B辑(英文版)
基金 Project supported by the National Key R&D Program of China(Project No.2018YFB0604304-04) the National Natural Science Foundation of China(Grant No.51506051)
关键词 Reversible pump turbine VORTICITY vortex identification omega method Reversible pump turbine vorticity vortex identification omega method
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