Numerical simulation of cavitation surge and vortical flows in a diffuser with swirling flow |
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| Authors: | Bin Ji Jiong Wang X. Luo K. Miyagawa L. Z. Xiao X. Long Yoshinobu Tsujimoto |
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| Affiliation: | 1.School of Power and Mechanical Engineering,Wuhan University,Hubei,China;2.State Key Laboratory of Hydroscience & Engineering,Tsinghua University,Beijing,China;3.Applied Mechanics and Aerospace Engineering,Waseda University,Tokyo,Japan;4.Graduate School of Engineering Science,Osaka University,Osaka,Japan |
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| Abstract: | The strong swirling flow at the exit of the runner of a Francis turbine at part load causes flow instabilities and cavitation surges in the draft tube, deteriorating the performance of the hydraulic power system. The unsteady cavitating turbulent flow in the draft tube is simplified and modeled by a diffuser with swirling flow using the Scale-adaptive simulation method. Unsteady characteristics of the vortex rope structure and the underlying mechanisms for the interactions between the cavitation and the vortices are both revealed. The generation and evolution of the vortex rope structures are demonstrated with the help of the iso-surfaces of the vapor volume fraction and the Qcriterion. Analysis based on the vorticity transport equation suggests that the vortex dilatation term is much larger along the cavity interface in the diffuser inlet and modifies the vorticity field in regions with high density and pressure gradients. The present work is validated by comparing two types of cavitation surges observed experimentally in the literature with further interpretations based on simulations. |
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