钛磁铁矿深加工综合解决任务

S. Kornilkov, A. Dmitriev, A. Pelevin
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引用次数: 0

摘要

尽管乌拉尔地区的工厂具有重要的采矿能力,但它们从其他地区购买原材料,因此,减少废物的任务是支持其原材料基础的一个角度。提出了一种提高钛磁铁矿精矿质量的工艺方法,即将矿石分为富、贫两个工艺等级,分别破碎,在不同的矿段进行选矿。由于该工艺方案,矿石在选矿阶段分为易富集和难富集两种等级,而在准备、开发、开采、运输和破碎阶段均不进行分级。新技术的优点是设备现代化相对简单,因为矿石处理的技术方案只在选矿厂进行修改。在实验室条件下,获得了铁含量为67.1%、五氧化钒含量为0.6%的铁钒精矿。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comprehensive solving tasks of deep processing of titanium-magnetite ores
Despite the plants of the Ural region have significant mining capacities, they are buying raw materials from other regions, therefore the task of wastes minimization is a perspective of supporting their raw materials base. A technology was proposed to increase the quality of titanium-magnetite concentrate, comprising dividing of the ore into two technological grades – a rich and a poor ones following separate crushing and concentration of the grades at separate sections. Due to this technological scheme, the ore is divided into easy-concentrated and hard-concentrated grades at the concentration stage, but not at the stages of preparation to development, mining, transporting and crushing. The advantage of the new technology is the relative simplicity of equipment modernization, since the technological scheme of the ore processing is modified only at the concentration plant. Under laboratory conditions, an iron-vanadium concentrate with iron content of 67.1% and vanadium pentoxide of 0.6% was obtained.
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