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Influence of Clearance Flow on Dynamic Hydraulic Forces of Pump-Turbine during Runaway Transient Process

Xiaoxia Hou, Yongguang Cheng, Zhiyan Yang, Ke Liu, Xiaoxi Zhang, Demin Liu

2021Energies26 citationsDOIOpen Access PDF

Abstract

The clearance flow around the pump-turbine runner has significant influences on unit vibrations, which may cause accidents in transient processes. The dynamic hydraulic forces and flow patterns in the clearance flow channel (CFC) of a low specific-speed pump-turbine were analyzed based on 3D CFD simulations during the runaway oscillating process. It is shown that the axial force of the runner periodically fluctuates with large amplitudes, and its components in CFC and the main flow channel (MFC) demonstrate a similar significance level. The CFC component was formulated as a function of the clearance inlet pressure and rotational speed, while the MFC component as a function of the momentum changing rate and the runner outlet pressure force. The fluctuation of runner radial force is mainly caused by the flow evolution in MFC, however, the flow in CFC aggravates it. The pressure in CFC shows a few pulsating signals from MFC, and the radial pressure drop in CFC is proportional to the square of both radius and rotational speed. In CFC, strong rotating shear flow containing a velocity core region in the circumferential direction is formed, and rotational speed is the dominant factor.

Topics & Concepts

MechanicsRotational speedFlow (mathematics)TurbineRADIUSPressure dropInletFlow coefficientPhysicsEngineeringClassical mechanicsMechanical engineeringThermodynamicsComputer securityComputer scienceCavitation Phenomena in PumpsHydraulic and Pneumatic SystemsWater Systems and Optimization
Influence of Clearance Flow on Dynamic Hydraulic Forces of Pump-Turbine during Runaway Transient Process | Litcius