Print Email Facebook Twitter Influence of Concentration on Sedimentation of a Dense Suspension in a Viscous Fluid Title Influence of Concentration on Sedimentation of a Dense Suspension in a Viscous Fluid Author Shajahan, M.T. (TU Delft Multi Phase Systems) Breugem, W.P. (TU Delft Multi Phase Systems) Date 2020 Abstract Macroscopic properties of sedimenting suspensions have been studied extensively and can be characterized using the Galileo number (Ga), solid-to-fluid density ratio (πp) and mean solid volume concentration (ϕ¯). However, the particle–particle and particle–fluid interactions that dictate these macroscopic trends have been challenging to study. We examine the effect of concentration on the structure and dynamics of sedimenting suspensions by performing direct numerical simulation based on an Immersed Boundary Method of monodisperse sedimenting suspensions of spherical particles at fixed Ga= 144 , πp= 1.5 , and concentrations ranging from ϕ¯ = 0.5 to ϕ¯ = 30 %. The corresponding particle terminal Reynolds number for a single settling particle is ReT= 186. Our simulations reproduce the macroscopic trends observed in experiments and are in good agreement with semi-empirical correlations in literature. From our studies, we observe, first, a change in trend in the mean settling velocities, the dispersive time scales and the structural arrangement of particles in the sedimenting suspension at different concentrations, indicating a gradual transition from a dilute regime (ϕ¯ ≲ 2 %) to a dense regime (ϕ¯ ≳ 10 %). Second, we observe the vertical propagation of kinematic waves as fluctuations in the local horizontally-averaged concentration of the sedimenting suspension in the dense regime. Subject Dense suspensionImmersed boundary methodKinematic wavesSedimentation To reference this document use: http://resolver.tudelft.nl/uuid:92ca6822-ebb0-40d6-becc-5d81008f05e5 DOI https://doi.org/10.1007/s10494-020-00172-8 ISSN 1386-6184 Source Flow, Turbulence and Combustion, 105 (2), 537-554 Part of collection Institutional Repository Document type journal article Rights © 2020 M.T. Shajahan, W.P. Breugem Files PDF Shajahan_Breugem2020_Arti ... OnSedi.pdf 4.18 MB Close viewer /islandora/object/uuid:92ca6822-ebb0-40d6-becc-5d81008f05e5/datastream/OBJ/view