Numerical Simulation and Experimental Research on a Splash-Proof Water Injector

Zhong Yi Wang; Jia Han; Xu Yang; Tao Sun

doi:10.4028/www.scientific.net/AMR.291-294.2866

Paper Titles

Design of Plasma Cutting Tracking Device for Spiral SAW Pipe
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Design and Implementation of Automatic Drainage in Coal Mine
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Numerical Simulation of Combusting Flow Field in Ram-Compressed Rotor Chamber
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Ratio Control Strategy for an Electromechanical Continuously Variable Transmission Based on Engine Models
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Numerical Simulation and Experimental Research on a Splash-Proof Water Injector
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Research on Indirect Stator-Quantities Sliding Model Control for Induction Motor
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Design and Research of PMSM Control System Based on FPGA
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Analyses of Influencing Factors of Pore Formation during Resistance Spot Welding of Magnesium Alloy
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Modeling Variation Propagation Based on State Space and its Application to Dimensional Variation Prediction in Shipbuilding
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Numerical Simulation and Experimental Research on a Splash-Proof Water Injector

Abstract:

In this thesis, a model of water injector is established, which can prevent water from splashing when high-velocity flow pours into a container. With the periodic boundary, the 1/18 calculation domain model is built. Then two-phase flow numerical simulation research is done on the device with the steady VOF model. The influencing factors of water injector's performance and the variation laws under different working conditions are obtained. The reliability of the results is improved by comparing the results from different calculation methods with that from steady-state VOF method. And through the experimental researches on the splash-proof water injector, the accuracy of the numerical simulation results is validated.