Cavity shedding dynamics in a flapper-nozzle pilot stage of an electro-hydraulic servo-valve: Experiments and numerical study

The performance of an electro-hydraulic servo-valve is significantly influenced by the characteristics of the flow field in the flapper–nozzle pilot stage. Cavitation and pressure oscillations frequently occur in the flow field of flapper–nozzle pilot stage and these undesired flow-induced phenomena commonly lead to the appearance of high frequency noises and vibrations of the servo-valve. To obtain in-death understanding about these flow-induced phenomenon, numerical and experimental study of the unsteady cavitation phenomenon in a flapper–nozzle pilot valve is carried out. Large Eddy Simulation (LES) coupling with Schnerr and Sauer mass transfer cavitation model is utilized to simulate the unsteady cavitation shedding around the sharp edge of the flapper. The simulations are conducted using the commercial CFD code ANSYS/FLUENT 14. Meanwhile, the flow field is experimentally observed by using a high speed video camera. The recorded images of the transient cavitation patterns are verified with CFD simulation results. Then, the characteristics of pressure oscillations at the beginning and the end of the shedding path in the flow field are evaluated by CFD approach. The results show that the increment of inlet pressure intensifies cavitation in the flapper–nozzle pilot stage and induces the shedding phenomenon. And both the frequency and magnitude of pressure oscillations in the flapper–nozzle valve are enhanced by increasing the inlet pressure.

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