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Numerical and Experimental Study of Multiphase Transient Core-Annular Flow Patterns in a Spouted Bed

Ling Zhou, Han Chen, Ling Bai, Weidong Shi, Ramesh K. Agarwal

2020Journal of Energy Resources Technology24 citationsDOI

Abstract

Abstract Dense solid–gas bubbling systems with combined fluid-particle motion are among one of the most extensively used fluidization forms used in the chemical industry. Therefore, it is important to have a good understanding of the hydrodynamic behavior of bubbles. In this paper, both the experiment and numerical simulations are used to investigate the flow patterns in a spouted bed. For numerical simulations, the bidirectional coupling simulations using computational fluid dynamics (CFD) with discrete element method (DEM) are conducted. The results show that the simulations can accurately predict the bubbles morphology compared with the experimental results. When the number of particles is 30,000, only a single core-annular flow pattern appears. When the number of particles is increased to 36,500, the single bubble in the spouted bed transitions into two and a double core-annular flow pattern emerges. As the number of particles is increased to 43,000, a complex multicore-annular flow pattern appears. These flow patterns are also observed in the experiments using high-speed imaging camera. This paper analyzes and explains the causes of these flow phenomena from the dynamic characteristics of particle phase and fluid phase. These results have great significance in providing guidance for optimization of dense phase bubbling spouted beds.

Topics & Concepts

FluidizationMechanicsDiscrete element methodFlow (mathematics)Computational fluid dynamicsMultiphase flowBubbleCFD-DEMParticle (ecology)Two-phase flowFluid dynamicsCoupling (piping)Two-fluid modelMaterials scienceComputer simulationPhase (matter)Core (optical fiber)Fluidized bedGeologyPhysicsThermodynamicsComposite materialOceanographyQuantum mechanicsGranular flow and fluidized bedsCyclone Separators and Fluid DynamicsFluid Dynamics and Mixing
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