Prediction of slurry transport in SAG mills using SPH fluid flow in a dynamic DEM based porous media
Contribuinte(s) |
B. A. Wills |
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Data(s) |
01/01/2006
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Resumo |
DEM modelling of the motion of coarse fractions of the charge inside SAG mills has now been well established for more than a decade. In these models the effect of slurry has broadly been ignored due to its complexity. Smoothed particle hydrodynamics (SPH) provides a particle based method for modelling complex free surface fluid flows and is well suited to modelling fluid flow in mills. Previous modelling has demonstrated the powerful ability of SPH to capture dynamic fluid flow effects such as lifters crashing into slurry pools, fluid draining from lifters, flow through grates and pulp lifter discharge. However, all these examples were limited by the ability to model only the slurry in the mill without the charge. In this paper, we represent the charge as a dynamic porous media through which the SPH fluid is then able to flow. The porous media properties (specifically the spatial distribution of porosity and velocity) are predicted by time averaging the mill charge predicted using a large scale DEM model. This allows prediction of transient and steady state slurry distributions in the mill and allows its variation with operating parameters, slurry viscosity and slurry volume, to be explored. (C) 2006 Published by Elsevier Ltd. |
Identificador | |
Idioma(s) |
eng |
Publicador |
Pergamon - Elsevier Sc. Ltd. |
Palavras-Chave | #Engineering, Chemical #Mineralogy #Mining & Mineral Processing #Comminution #Sag Milling #Discrete Element Modelling #Computational Fluid Dynamics #Ball Mills #C1 #290702 Mineral Processing #640300 First Stage Treatment of Ores and Minerals |
Tipo |
Journal Article |