Segregation forces in dense granular flows: closing the gap between single intruders and mixtures
Yifei Duan, Lü Jing, Paul B. Umbanhowar, Julio M. Ottino, Richard M. Lueptow
Abstract
Using simulations and a virtual-spring-based approach, we measure the segregation force, $F_{seg},$ in size-bidisperse sphere mixtures over a range of concentrations, particle-size ratios and shear rates to develop a semiempirical model for $F_{seg}$ that extends its applicability from the well-studied non-interacting intruders regime to finite-concentration mixtures where cooperative phenomena occur. The model predicts the concentration below which the single-intruder assumption applies and provides an accurate description of the pressure partitioning between species.
Topics & Concepts
Closing (real estate)MechanicsMaterials sciencePhysicsBusinessFinanceGranular flow and fluidized bedsLandslides and related hazardsParticle Dynamics in Fluid Flows