Kinetic study of dry magnetic separation based on Gauss-Maxwell magnetic stress tensor: A 3D finite element method (FEM)

IF 4.9 2区 工程技术 Q1 ENGINEERING, CHEMICAL
Zhongyun Lei , Jujian Yan , Yinan Xie , Liheng Yang , Qian Wang , Jiangang Ku
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引用次数: 0

Abstract

In this paper, two artificial magnetic particles (1#, 2#) with known magnetic parameters were taken as the objects, a finite element model based on Gauss’s law was established for the calculation of the transient Maxwell magnetic stress tensor on the surfaces of particles and kinetic study, a high-speed camera was used to obtain the motion behaviors of magnetic particles in comparison with the simulation. According to the results of multiple simulation-experiment comparisons, the motion behaviors of magnetic particles in the finite element simulation were consistent with experimental phenomena under the identical conditions, indicated that the accuracy of the model is reliable. In the comparison of two kinds of magnetic force calculations, the magnetic force FM based on the Gaussian formula had a similar tendency to FD based on the kinetic calculations, and since the FM was obtained by converting the surface tension of particles, it more accurately reflected the overall magnetic force and magnetic torque acting on the particles. Kinetic analysis showed that the magnetic force acting on a particle was strictly dependent on its magnetization, dynamic and non-uniform magnetization caused the magnetic particle to be subjected to magnetic force and magnetic torque in the non-uniform magnetic field, resulting in displacements and flips. In addition, compared to the particle release attitude, the influence of the distribution of magnetic substance and the particle’s release position on the displacement was particularly significant. The 3D finite element model established for dry magnetic separation can be further used for the study of dynamic, non-uniform magnetization and the force of magnetic particle or grain groups, which is of certain significance for the kinetic study of magnetic separation and improving research of magnetic separation equipment.
基于高斯-麦克斯韦磁应力张量的干式磁选动力学研究:三维有限元法 (FEM)
本文以两个已知磁性参数的人工磁性粒子(1#、2#)为研究对象,建立了基于高斯定律的有限元模型,用于粒子表面瞬态麦克斯韦磁应力张量的计算和动力学研究,并利用高速摄像仪获得了磁性粒子的运动行为与模拟结果的对比。根据多次模拟与实验对比的结果,有限元模拟中磁粉的运动行为与相同条件下的实验现象一致,表明模型的精度是可靠的。在两种磁力计算的比较中,基于高斯公式的磁力 FM 与基于动力学计算的磁力 FD 有相似的趋势,由于 FM 是通过换算粒子的表面张力得到的,因此更准确地反映了作用在粒子上的整体磁力和磁力矩。动力学分析表明,作用在粒子上的磁力严格依赖于粒子的磁化,动态的非均匀磁化使磁性粒子在非均匀磁场中受到磁力和磁力矩的作用,从而产生位移和翻转。此外,与磁粉的释放姿态相比,磁性物质的分布和磁粉的释放位置对位移的影响尤为显著。建立的干法磁选三维有限元模型可进一步用于动态、非均匀磁化和磁粉或晶粒团受力的研究,对磁选动力学研究和磁选设备的改进研究具有一定意义。
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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来源期刊
Minerals Engineering
Minerals Engineering 工程技术-工程:化工
CiteScore
8.70
自引率
18.80%
发文量
519
审稿时长
81 days
期刊介绍: The purpose of the journal is to provide for the rapid publication of topical papers featuring the latest developments in the allied fields of mineral processing and extractive metallurgy. Its wide ranging coverage of research and practical (operating) topics includes physical separation methods, such as comminution, flotation concentration and dewatering, chemical methods such as bio-, hydro-, and electro-metallurgy, analytical techniques, process control, simulation and instrumentation, and mineralogical aspects of processing. Environmental issues, particularly those pertaining to sustainable development, will also be strongly covered.
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