Numerical Simulation of Particle Sedimentation in Liquid and Experimental Verification

Fluid and unequally-sized particle (Dp=4μm and 8μm) motions in a sedimentation vessel are numerically simulated. The three-dimensional Navier-Stokes equations and the Lagrangian equations of particle motions were simultaneously solved, where the mutual interaction between fluid and particles due to...

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Veröffentlicht in:	Funtai Kogakkaishi Japan, 2001/03/10, Vol.38(3), pp.140-149
Hauptverfasser:	Umekage, Toshihiko, Yuu, Shinichi, Nakashima, Kenji, Sugimoto, Tadamitsu, Tsubaki, JunIchiro
Format:	Artikel
Sprache:	eng
Schlagworte:	Lagrangian equation Navier-Stokes equation Numerical simulation Particle collision Particle settling
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creator	Umekage, Toshihiko Yuu, Shinichi Nakashima, Kenji Sugimoto, Tadamitsu Tsubaki, JunIchiro
description	Fluid and unequally-sized particle (Dp=4μm and 8μm) motions in a sedimentation vessel are numerically simulated. The three-dimensional Navier-Stokes equations and the Lagrangian equations of particle motions were simultaneously solved, where the mutual interaction between fluid and particles due to drag forces, the collision among particles and the effects of cohesive forces acting on particle contact points were taken into account. The corresponding experiments were also performed. The calculated layer of sedimental particles at the bottom of vessel agreed with the experimental results when the cohesive conditions which corresponded to those of real particles were used. The calculated results of particle settling velocities are also in fairly good agreement with the experimental data. The results of this study show that our numerical simulation model makes it possible to describe the sedimentation of unequally-sized particles in liquid.
doi_str_mv	10.4164/sptj.38.140
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Soc. Powder Technol., Japan</addtitle><description>Fluid and unequally-sized particle (Dp=4μm and 8μm) motions in a sedimentation vessel are numerically simulated. The three-dimensional Navier-Stokes equations and the Lagrangian equations of particle motions were simultaneously solved, where the mutual interaction between fluid and particles due to drag forces, the collision among particles and the effects of cohesive forces acting on particle contact points were taken into account. The corresponding experiments were also performed. The calculated layer of sedimental particles at the bottom of vessel agreed with the experimental results when the cohesive conditions which corresponded to those of real particles were used. The calculated results of particle settling velocities are also in fairly good agreement with the experimental data. 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subjects	Lagrangian equation Navier-Stokes equation Numerical simulation Particle collision Particle settling
title	Numerical Simulation of Particle Sedimentation in Liquid and Experimental Verification
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