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Study of free‐surface and solids suspension in top‐sealed tanks stirred by pitched blade turbine impellers through DEM‐VOF method

Bao Li, Qianqian Kang, Zechen Wang, Jingtao Wang

2022Asia-Pacific Journal of Chemical Engineering13 citationsDOI

Abstract

Abstract A coupled method of discrete element method (DEM) and volume of fluid (VOF) is applied to study the particle suspension in top‐sealed solid–liquid tanks with a free‐surface. VOF is used to track the gas–liquid free‐surface, and DEM is used to calculate the movement and interaction of particles. As the air between the cover and free‐surface in a sealed tank is very limited, the free‐surface evolution process that a big vortex is generated quickly and then shrinks to a smaller one in sealed stirred tanks is reported first in this paper. In addition, the effects of pitched blade turbine (PBT) with different blade pitched angles (including 30°, 45°, 60°, 75°, and 90°) on solid suspension, free‐surface, and power number are investigated. Finally, the relationships between particle motion and fluid flow during the stirring are studied carefully. Fluid flow plays a dominant role during the start‐up of the stirring; and then, due to the contact of particles, some particles could obtain the larger velocity than the fluid. The results obtained here are helpful to design the sealed stirred tanks with PBT.

Topics & Concepts

Volume of fluid methodFree surfaceSuspension (topology)ImpellerMechanicsRushton turbineDiscrete element methodParticle (ecology)Materials scienceVortexVolume (thermodynamics)Flow (mathematics)Mechanical engineeringEngineeringPhysicsGeologyThermodynamicsMathematicsOceanographyPure mathematicsHomotopyGranular flow and fluidized bedsCyclone Separators and Fluid DynamicsFluid Dynamics and Mixing
Study of free‐surface and solids suspension in top‐sealed tanks stirred by pitched blade turbine impellers through DEM‐VOF method | Litcius