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Drag, lift, and buoyancy forces on a single large particle in dense granular flows

Arjun V. Yennemadi, D. V. Khakhar

2023Physical Review Fluids12 citationsDOI

Abstract

Large particles migrate upward in gravity-driven granular shear flows, which results in size segregation, a phenomenon of considerable practical importance. In this study, we show using extensive discrete element method (DEM) computations that this effect is not caused by a granular lift force or Archimedean buoyancy, rather it stems from a buoyancy force that exceeds the weight of the large particle, which is a result of patches of high-stress concentration on the surface of the large particle caused by strong flow-induced layering.

Topics & Concepts

BuoyancyDragMechanicsLift (data mining)Discrete element methodParticle (ecology)Neutral buoyancyGranular materialBody forceLift-to-drag ratioShear flowClassical mechanicsMaterials sciencePhysicsGeologyGeotechnical engineeringComputer scienceData miningOceanographyGranular flow and fluidized bedsParticle Dynamics in Fluid FlowsLandslides and related hazards
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