Numerical Study on Cubic Particle Solid–Liquid Two-Phase Flow in Multistage Pump

T o investigate the movement characteristics of cubic particle s in a pump, a deep sea mining lift model pump with a specific speed of 94 is used as the research object in this study T he discrete element method is coupled with the computational fluid dynamic s method to simulate the solid liquid two phas e flow of cubic particles with different densities in the pump while the effect of particle shape on the solid liquid two phase flow in the pump is considered. R esults show that the cubic particle movement rules for the same flow component are the same. The cubic particle density imposes a more significant effect on the number of particle s in the low velocity zone than in other zones T he number of particles in the low velocity zone increase s with the increase of density. The cubic particle velocity gradient in the impeller decreases as the particle density increases, and the particles exhibit unsatisfactory following performance in the fluid . As the density increases , the collision exhibited by the cubic particle s is primarily part icle to particle collisions i.e., more than 37% and the collision rate between the cubic particle s and first stage guide vane decreases significantly Compared with cubic particles, spherical particles are likely to obstruct the flow channel in the guide vane. The collision exhibited by the spherical particle s in the pump is primarily particle to guide vane collision, and t he collision rate between the spherical particle s de crease s by 15.92%