Centrifugal high gradient magnetic separation of fine ilmenite

Q1 Earth and Planetary Sciences

International Journal of Mineral Processing Pub Date : 2017-11-10 DOI:10.1016/j.minpro.2017.09.005

Jianwu Zeng, Luzheng Chen, Ruoyu Yang, Xiong Tong, Peng Ren, Yongming Zheng

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引用次数: 0

Abstract

High gradient magnetic separation (HGMS) has been an effective method for the concentration or removal of fine para-magnetic particles from suspension, but its powerful magnetic capture to magnetic particles results in the mechanical entrainment of non-magnetic particles in magnetic product, and thus reduces the separation selectivity. HGMS in centrifugal field (CHGMS) is proposed to improve the separation selectivity, and in this investigation a cyclic pilot-scale CHGMS separator was used to concentrate fine ilmenites from slurry. The theoretical descriptions on this CHGMS process indicate that the introduction of centrifugal field in the HGMS field has a promoting effect on the magnetic capture of matrix to magnetic particles and significantly improves the HGMS performance, and a minimum critical magnetic field force is required for the capture of magnetic particles in the centrifugal field. These theoretical descriptions were experimentally verified and the dependence of CHGMS performance on the key parameters such as centrifugal acceleration was determined. This CHGMS method has achieved a significantly improved separation selectivity and performance to the fine ilmenite, and thus provided a potential prospect in the development of CHGMS technology.

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细粒钛铁矿的离心高梯度磁选

高梯度磁分离(HGMS)是一种从悬浮液中富集或去除细小的准磁性颗粒的有效方法，但其对磁性颗粒的强磁捕获导致磁性产物中非磁性颗粒的机械夹带，从而降低了分离的选择性。为了提高分离的选择性，提出了在离心场中使用高通量磁谱仪(CHGMS)的方法，并采用循环中试的CHGMS分离机对矿浆中的细粒钛铁矿进行了富集。对该过程的理论描述表明，在HGMS场中引入离心力对基体对磁性颗粒的磁捕获有促进作用，显著提高了HGMS性能，且在离心力中捕获磁性颗粒所需的临界磁场力最小。实验验证了这些理论描述，并确定了离心加速度等关键参数对CHGMS性能的依赖关系。该方法显著提高了对细粒钛铁矿的分离选择性和分离性能，为CHGMS技术的发展提供了潜在的前景。

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来源期刊

International Journal of Mineral Processing 工程技术-工程：化工

CiteScore

3.02

自引率

0.00%

发文量

审稿时长

11.1 months

期刊介绍： International Journal of Mineral Processing has been discontinued as of the end of 2017, due to the merger with Minerals Engineering. The International Journal of Mineral Processing covers aspects of the processing of mineral resources such as: Metallic and non-metallic ores, coals, and secondary resources. Topics dealt with include: Geometallurgy, comminution, sizing, classification (in air and water), gravity concentration, flotation, electric and magnetic separation, thickening, filtering, drying, and (bio)hydrometallurgy (when applied to low-grade raw materials), control and automation, waste treatment and disposal. In addition to research papers, the journal publishes review articles, technical notes, and letters to the editor..