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A revised coarse-graining approach for simulation of highly poly-disperse granular flows

Suranita Kanjilal, Simon Schneiderbauer

2021Powder Technology17 citationsDOIOpen Access PDF

Abstract

Discrete element method (DEM) is widely used in industrial and environmental applications for numerical modelling of mixing and transport of lumpy materials. However, it is computationally expensive for a large number of particles. To reduce this cost, we have implemented a revision approach for traditional coarse graining as proposed by Bierwisch et al. [J. Mech. Phys. and Solids, 57, 31, 2009]. We introduce the use of variable coarse grain ratio instead of the uniform one to provide faster computation compare to the traditional coarse graining giving more flexibility to reduce the number of particles. To overcome the problem of violation of geometrical similarity derived from this method, we implement a correction parameter to measure overlap distance between parcels containing small and large particles. The results show fairly good agreement between the revision model, reference DEM simulations and the experimental data of W. Sui et al. [Nature Sci. Reports, 7, 8, 2017].

Topics & Concepts

GranularityDiscrete element methodComputationMixing (physics)Granular materialFlexibility (engineering)Similarity (geometry)Measure (data warehouse)Statistical physicsAlgorithmComputer scienceMathematicsMathematical optimizationMechanicsPhysicsData miningStatisticsEngineeringGeotechnical engineeringArtificial intelligenceOperating systemImage (mathematics)Quantum mechanicsGranular flow and fluidized bedsLandslides and related hazardsSoil and Unsaturated Flow
A revised coarse-graining approach for simulation of highly poly-disperse granular flows | Litcius