JOURNAL OF HYDROELECTRIC ENGINEERING ›› 2015, Vol. 34 ›› Issue (7): 64-73.doi: 10.11660/slfdxb.20150708
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Abstract: For a hydropower plant, strong pressure fluctuations, vibrations and water hammer could occur during a transient process, resulting in negative effects on the safety and stability of its operation. To capture the dynamic properties of a turbine at the transient stage, we have adopted the CFD Fluent 14.0 and a dynamic mesh method on the basis of finite volume method, and simulated the three-dimensional transient flows in the guide vane and runner passages of a Francis turbine. This method focuses on simulation of the internal flow changes in the runner caused by large-fluctuation transients and analysis of the corresponding changes in velocity and pressure fields. Thus it is distinguished from the conventional steady-state analysis methods. The calculation results indicate that the dynamic mesh method is effective and successful and it provides a new tool for the study of three-dimensional flow transients.
LI Wenfeng, FENG Jianjun,LUO Xingqi, LU Jinling, WU Guangkuan. Numerical simulation of transient flows in Francis turbine runner based on dynamic mesh method[J].JOURNAL OF HYDROELECTRIC ENGINEERING, 2015, 34(7): 64-73.
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URL: http://www.slfdxb.cn/EN/10.11660/slfdxb.20150708
http://www.slfdxb.cn/EN/Y2015/V34/I7/64
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