Magnetic Separation of Impurities from Hydrometallurgy Solutions and Waste Water Using Magnetic Iron Ore Seeding

Iron Ores [Working Title] Pub Date : 2020-09-30 DOI:10.5772/intechopen.93728

Han Haisheng, Sun Wenjuan, Sun Wei, Hu Yuehua

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引用次数: 1

Abstract

The removal of iron ion from leaching solution is critical for the recovery of value metals, with the method of choice commonly being crystallization (precipitation). This paper summarized the new improvements in iron removal by precipitation methods in recent years and proposed a novel process, magnetic seeding and separation. The new process can promote iron precipitate aggregation and growth on the surface of the magnetic iron ore seeds. A core-shell structure was formed of iron precipitate and magnetic iron ore seeds, which can be magnetized and coalesced in magnetic field, accelerating the solid-liquid separation. The efficient magnetic flocculation and separation offset the poor settleability and filterability of the residues, contributing to the development of the hydrometallurgy process. Moreover, magnetic seeding and separation was also used for the removal of organic and inorganic contaminants from wastewater, significantly improving the purification efficiency. Therefore, iron ore not only played an important role in mining and steel manufac-ture, but also can be used to solve some problems in crossing fields.

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磁选铁矿种子法对湿法冶金液及废水中杂质的磁分离

从浸出液中去除铁离子是回收贵重金属的关键，通常选择的方法是结晶(沉淀)。本文总结了近年来沉淀法除铁的新进展，提出了一种新工艺——磁播分离。新工艺能促进铁沉淀在磁性铁矿种子表面的聚集和生长。铁沉淀与磁性铁矿粒形成核壳结构，在磁场作用下磁化凝聚，加速固液分离。高效的磁絮凝和磁分离弥补了矿渣沉降性和过滤性差的缺点，促进了湿法冶金工艺的发展。此外，还采用磁播分离法去除废水中的有机和无机污染物，显著提高了净化效率。因此，铁矿石不仅在采矿和钢铁制造中发挥着重要作用，而且可以用来解决一些跨领域的问题。

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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Iron Ores [Working Title]

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