Solid - Liquid Separation Process in Hydrocyclone by CFD

Diffusion Foundations Pub Date : 2019-09-01 DOI:10.4028/www.scientific.net/DF.24.76

B. Lopes, V. D. de Miranda, J.M. Freitas de Oliveira, A. G. Barbosa de Lima, S. J. dos Santos Filho, F. Farias

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引用次数: 1

Abstract

Mining is a relevant economic activity in many countries. In the treatment of ores, water is an indispensable input. For classification of minerals, the mineral industry uses the hydrocyclone process, where water is used as the medium for transporting dispersed ore particles, that are separated from the liquid by centrifugal force inside anequipmentnamed hydrocyclone.The constant advance of computers processing power, the evolution in the techniques and numerical methods, allow to simulate with great precision complex physical problems of fluid dynamics such as flow in hydrocyclones.In this sense, this work aims to analyze the performance of a concentrating hydrocyclone in the separation of ore and water by CFD. In the fluid dynamics simulation, the Eulerian-Lagrangian approach and the Ansys Fluent software were used. Results of pressure, velocity, and volumetric fraction fields of theinvolved phases are presented and evaluated. From the analysis of the results, it was observed that increasing the flow mixture velocity at the entrance of the equipment tends to increase the separation performance of the hydrocyclone.

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基于CFD的水力旋流器固液分离过程

在许多国家，采矿是一项相关的经济活动。在矿石的处理中，水是不可缺少的投入。对于矿物的分类，矿物工业使用水力旋流器过程，其中水被用作介质来运输分散的矿石颗粒，这些颗粒在称为水力旋流器的设备内通过离心力从液体中分离出来。计算机处理能力的不断提高，技术和数值方法的不断发展，使得对复杂的流体动力学物理问题(如旋流器内的流动)进行高精度的模拟成为可能。在这个意义上，本工作旨在通过CFD分析浓缩水力旋流器在矿石和水分离中的性能。在流体动力学仿真中，采用欧拉-拉格朗日方法和Ansys Fluent软件。给出并评价了所涉及相的压力场、速度场和体积分数场的结果。从结果分析可知，增大设备入口混合气流速有利于水力旋流器分离性能的提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Diffusion Foundations

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