A Numerical Model for Oil/water Separation from an Accelerating Oil-coated Solid Particle

A Numerical Model for Oil/water Separation from an Accelerating Oil-coated Solid Particle

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A computational fluid dynamics model has been developed to examine the separation of an oil film from a spherical oil-coated particle falling through quiescent water due to gravity. Using this model, the separation process was studied as a function of the viscosity ratio of oil to water, R, and the...

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Bibliographic Details
Main Author: Abbas-Pour, Nima
Other Authors: Bussmann, Markus
Language:en_ca
Published: 2013
Subjects:
Multi-phase flow
Non-inertial coordinate system
Computational fluid dynamics
Flotation
Oil sands
Spherical coordinate system
Liquid/liquid separation
0548
Online Access:http://hdl.handle.net/1807/42657
Description
Summary:A computational fluid dynamics model has been developed to examine the separation of an oil film from a spherical oil-coated particle falling through quiescent water due to gravity. Using this model, the separation process was studied as a function of the viscosity ratio of oil to water, R, and the ratio of viscous forces to surface tension, represented by the Capillary number Ca. The governing equations of this flow-induced motion are derived in a non-inertial spherical coordinate system, and discretized using a finite volume approach. The Volume-of-Fluid method is used to capture the oil/water interface. The model predicts two mechanisms for oil separation: at R less than 1, the shear difference between the particle/oil interface and the oil/water interface is not significant and Ca determines whether separation occurs or not; at R larger than 1, the shear difference is considerable, and the Ca effect becomes less dominant.

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