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Study on the particle dynamic characteristics in a centrifugal pump based on an improved computational fluid dynamics-discrete element model

Wei Pu, Leilei Ji, Wei Li, Weidong Shi, Fei Tian, Cui Xiao, Qiaoyue Yang, Yang Yang, Ramesh K. Agarwal

2024Physics of Fluids11 citationsDOI

Abstract

To accurately investigate the solid–liquid flow mechanisms within the pump, this study employs an improved Computational Fluid Dynamics-Discrete Element Method (CFD-DEM) approach to examine the solid–liquid interactions in a centrifugal pump. First, the improved CFD-DEM is introduced, focusing on turbulence dissipation near the wall and velocity reconstruction. Then, a comparison is made between the CFD-DEM's performance before and after the enhancements. Finally, an analysis is conducted on how the dynamic characteristics of particles within the pump vary under different solid phase concentration conditions. The study revealed that the particle distribution from the corrected CFD-DEM aligns more closely with the experimental results. At a 2% concentration under the design conditions, the head error was reduced by 0.476%, while the efficiency error decreased by 0.076%. Additionally, as the solid phase concentration increased, there was a corresponding rise in the impact power loss of the particles, dissipative power loss, collision frequency, peak values of particle collisions, and the degree of overlap during these collisions. The comparison revealed that the pressure gradient force has the most significant impact on particle motion. As the pressure gradient force increases, the shear power dissipation of the particles also rises. For solid phase concentrations ranging from 1% to 4%, the average shear power variation during the computation period is between 4.28 × 10−6 W and 5.68 × 10−6 W. As the solid phase concentration increases, the volume fraction of the solid phase distribution on the component wall also gradually rises. These findings provide valuable insights for enhancing the accuracy of research on solid–liquid flow in centrifugal pumps.

Topics & Concepts

MechanicsComputational fluid dynamicsDiscrete element methodPhysicsTurbulenceDissipationCFD-DEMDissipative particle dynamicsParticle (ecology)ThermodynamicsNuclear magnetic resonanceOceanographyGeologyPolymerCavitation Phenomena in PumpsParticle Dynamics in Fluid FlowsCyclone Separators and Fluid Dynamics
Study on the particle dynamic characteristics in a centrifugal pump based on an improved computational fluid dynamics-discrete element model | Litcius