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CFD-DEM Simulation for the Distribution and Motion Feature of Solid Particles in Single-Channel Pump

Cheng Tang, Youn-Jea Kim

2020Energies32 citationsDOIOpen Access PDF

Abstract

Since various foreign bodies can cause clogging and wear in single-channel pumps, considerable attention has been focused on the numerical study of solid-liquid flows in the single-channel pump. However, conventional numerical simulation cannot responsibly assess the significant effect of the particle material properties, inter-particle collision, and size on the pump. In consideration of the particle features and behaviors, the Computational Fluid Dynamics (CFD)-Discrete Element Method (DEM) coupling method was applied for the first time to simulate the solid-liquid flows in a single-channel pump. The results showed that the smaller particles possessed a wider velocity distribution range and velocity peak, while the larger particles exerted a greater contact force. Additionally, the pie-shaped particles had the most severe collisions, and spherical particles had the least in total. Furthermore, the hub and shroud wall suffered a minor contact force, but the blade and volute wall both sustained a considerable contact force. This paper could present some supply data for future research on the optimization of a single-channel pump.

Topics & Concepts

ShroudMechanicsDiscrete element methodComputational fluid dynamicsCFD-DEMChannel (broadcasting)VoluteParticle (ecology)Materials scienceCoupling (piping)Contact forceRange (aeronautics)Computer simulationMechanical engineeringEngineeringPhysicsClassical mechanicsGeologyComposite materialImpellerElectrical engineeringOceanographyGranular flow and fluidized bedsParticle Dynamics in Fluid FlowsCyclone Separators and Fluid Dynamics