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Possibilities and Limits of Computational Fluid Dynamics–Discrete Element Method Simulations in Process Engineering: A Review of Recent Advancements and Future Trends

Paul Kieckhefen, Swantje Pietsch‐Braune, Maksym Dosta, Stefan Heinrich

2020Annual Review of Chemical and Biomolecular Engineering136 citationsDOI

Abstract

Fluid-solid systems play a major role in a wide variety of industries, from pharmaceutical and consumer goods to chemical plants and energy generation. Along with this variety of fields comes a diversity in apparatuses and applications, most prominently fluidized and spouted beds, granulators and mixers, pneumatic conveying, drying, agglomeration, coating, and combustion. The most promising approach for modeling the flow in these systems is the CFD-DEM method, coupling computational fluid dynamics (CFD) for the fluid phase and the discrete element method (DEM) for the particles. This article reviews the progress in modeling particle-fluid flows with the CFD-DEM method. A brief overview of the basic method as well as methodical extensions of it are given. Recent applications of this simulation approach to separation and classification units, fluidized beds for both particle formation and energy conversion, comminution units, filtration, and bioreactors are reviewed. Future trends are identified and discussed regarding their viability.

Topics & Concepts

Computational fluid dynamicsDiscrete element methodCFD-DEMComminutionFluid dynamicsProcess engineeringFluidized bedEconomies of agglomerationProcess (computing)Mechanical engineeringComputer scienceMultiphase flowFiltration (mathematics)Particle (ecology)Biochemical engineeringEngineeringMechanicsAerospace engineeringMaterials scienceWaste managementPhysicsMathematicsGeologyChemical engineeringStatisticsOperating systemOceanographyMetallurgyGranular flow and fluidized bedsCyclone Separators and Fluid DynamicsMineral Processing and Grinding
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