Review on High Phosphorous in Iron Ore: Problem and Way Out

IF 1.5 4区 工程技术 Q3 METALLURGY & METALLURGICAL ENGINEERING
Akhil Singh, Veerendra Singh, Sudipta Patra, Prashant Dixit, Asim Kumar Mukherjee
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Abstract

Phosphorous is an undesired element present in iron ore used in the steel making process. It leads to an increase in overall production cost as well as deteriorated steel quality. The desired phosphorus content in iron ores used in steel making is < 0.1%. Numerous beneficiation studies are mentioned in the literature; however, there is no commercial scale technology established to beneficiate high phosphorous iron. The major phosphorous bearing minerals are apatite (Ca5(PO4)(Cl/F/OH), wavellite (Al3(PO4)2(OH)3·5(H2O)), senegalite (Al2(PO4)(OH)3(H2O), barrandite ((Fe,Al)PO4·2H2O), etc. Ultrafine grinding is required to liberate phosphorous minerals from iron ore minerals and subsequently subject it to flotation, acid leaching, and bioprocessing. The selective flotation of iron ore could successfully reduce the phosphorous content from 0.82% to < 0.20% with the combination of grinding, magnetic separation, and carbothermic reduction. Acid leaching processes are also able to remove ~80% (0.85%→0.16%) of phosphorus; however, these are relatively costly and complex processes. The mechanism of bio-extraction for phosphorous removal is reported as one of the most successful processes. This process is capable of removing more than 80% of the total phosphorous and significantly reducing the phosphorous content from 1.06% to 0.16%. The main disadvantage of this process is that it occurs at a much slower pace. In today’s scenario, ultrafine grinding followed by froth flotation seems to be the most feasible solution for the beneficiation of high phosphorous iron ore in which the concentrate obtained can be utilized for pellet making and ultimately used for steel making processes. Development of additives for leaching, roasting, and bioprocessing can be explored further to make these processes more effective and economically viable.

Abstract Image

关于铁矿石中高磷含量的评论:问题与出路
磷是炼钢过程中铁矿石中的一种有害元素。它会导致总体生产成本的增加和钢材质量的下降。炼钢所用铁矿石中磷的理想含量为 0.1%。文献中提到了许多选矿研究,但还没有建立起商业规模的高磷铁矿选矿技术。主要的含磷矿物有磷灰石(Ca5(PO4)(Cl/F/OH)、硅灰石(Al3(PO4)2(OH)3-5(H2O))、塞内加尔石(Al2(PO4)(OH)3(H2O))、巴氏磷灰石((Fe,Al)PO4-2H2O)等。要从铁矿石矿物中分离出磷矿石,需要进行超细研磨,然后再进行浮选、酸浸出和生物处理。结合磨矿、磁选和碳热还原,铁矿石的选择性浮选可成功地将磷含量从 0.82% 降至 0.20%。酸性浸出工艺也能去除约 80% (0.85%→0.16%)的磷,但这些工艺相对昂贵且复杂。据报道,生物萃取除磷机制是最成功的工艺之一。这种工艺能够去除 80% 以上的总磷,并将磷含量从 1.06% 大幅降至 0.16%。这种工艺的主要缺点是速度较慢。在当今的情况下,超细研磨后进行泡沫浮选似乎是选矿高磷铁矿石最可行的解决方案,其中获得的精矿可用于球团制造,并最终用于炼钢工艺。可以进一步探索开发用于浸出、焙烧和生物处理的添加剂,使这些工艺更加有效和经济可行。
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来源期刊
Mining, Metallurgy & Exploration
Mining, Metallurgy & Exploration Materials Science-Materials Chemistry
CiteScore
3.50
自引率
10.50%
发文量
177
期刊介绍: The aim of this international peer-reviewed journal of the Society for Mining, Metallurgy & Exploration (SME) is to provide a broad-based forum for the exchange of real-world and theoretical knowledge from academia, government and industry that is pertinent to mining, mineral/metallurgical processing, exploration and other fields served by the Society. The journal publishes high-quality original research publications, in-depth special review articles, reviews of state-of-the-art and innovative technologies and industry methodologies, communications of work of topical and emerging interest, and other works that enhance understanding on both the fundamental and practical levels.
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