开发和实施新一代旋流器设备,提高铁矿选矿效率和选矿过程中的集尘效率

T. A. Oleinik, V. I. Mulyavko, V. Lyashenko
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摘要

工业矿石中的平均铁含量逐年下降。为了在团聚和造球过程中使用它们,必须进行富集,并伴随着大量粉尘的排放。现有的磁富集技术在尾矿中损失了大量的铁。因此,开发和实施新一代旋流器设备以提高铁矿选矿和选矿过程中的除尘效率是一项紧迫的科学、实用和社会任务。介绍了在乌克兰克里夫巴斯矿山和加工厂采用新一代旋风装置进行铁矿浓缩和选矿除尘的结果。通过对细碎矿石进行干式磁选,可以分离出含铁量为64 ~ 65%的磁性产品。两阶段方案的收率可达45%,铁在磁性产物中的提取率为73-75%。新一代旋风装置的集尘程度是指数依赖于清洗流的速度,同轴壳的数量和大小,以及粉尘颗粒的直径),是1.23倍,比以前使用的相同大小和容量的旋风。推荐的旋风中的移动磁场允许以高达95%的效率捕获磁性粉尘,同时将粉尘分为磁性组分(含铁量高达65%)和非磁性组分(含铁量高达12%),初始总铁含量高达33%。
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Development and implementation of new generation cyclone facilities to improve efficiency of iron ore beneficiation and dust collection during its processing
Average iron content in industrial ores decreases from year to year. To use them in the processes of agglomeration and pelletizing, enrichment is necessary, accompanied by abundant emission of dust. A significant amount of iron is lost in tailings at existing magnetic enrichment technologies. Therefore, the development and implementation of new generation cyclone facilities to increase the efficiency of iron ore beneficiation and dust collection during its processing is an urgent scientific, practical and social task. The results of the of new generation cyclone facilities implementation for enrichment of iron ore and dust collection during its processing at the mining and processing factories of Kryvbas (Ukraine) are presented. It has been established that dry magnetic separation of finely crushed ore makes it possible to isolate a magnetic product with an iron content of 64-65%. The yield is up to 45%, the extraction of iron into the magnetic product is 73-75% in two-stage schemes. The degree of dust collection by the new generation cyclone facility is exponentially dependent on the speed of the cleaned flow, number and size of coaxial shells, as well as the diameter of dust particles) and is 1.23 times higher comparing with the previously used cyclone of the same size and capacity. The mobile magnetic field in the recommended cyclone allows to capture magnetic dust with an efficiency of up to 95%, and at the same time the dust is separated into a magnetic component (with an iron content of up to 65%) and a non-magnetic component (up to 12% of Fe) with an initial total iron content of up to 33%.
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