| 柿竹园磁铁矿粗精矿提质选矿实验 |
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| 引用本文: | 龙冰,谢加文,黄伟生,徐涛,许道刚,吴江岳恩.柿竹园磁铁矿粗精矿提质选矿实验[J].矿产综合利用,2022,43(4):41-47. |
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| 作者姓名: | 龙冰 谢加文 黄伟生 徐涛 许道刚 吴江岳恩 |
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| 作者单位: | 湖南柿竹园有色金属有限责任公司,湖南 郴州 423037 |
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| 摘 要: | 柿竹园钨钼铋萤石多金属矿伴生有少量的磁铁矿,其全铁品位为7.15%,磁铁矿中铁品位为1.68%,占全铁的23.50%。该钨钼铋萤石多金属矿整个选矿工艺流程采用“柿竹园法”,其中,在回收钨、钼、铋、萤石等有用矿物前,采用中磁磁选将磁铁矿优先脱出,以避免磁铁矿对后续选别作业造成干扰,产出磁铁矿粗精矿。由于近年来铁矿石价格上涨态势明显,为进一步提高矿产资源的综合利用率和挖掘企业新经济增长点,决定对该磁铁矿粗精矿进行提质选矿实验研究。通过对该磁铁矿粗精矿矿石性质进行研究,发现该磁铁矿粗精矿存在嵌布粒度细、含磁硫高的特点。为提高磁铁矿精矿品质,必须提高磁铁矿精矿中铁的品位,同时还要降低磁铁矿精矿中硫的含量。提高磁铁矿精矿铁品位采用细磨的方法,使磁铁矿充分单体解离,然后通过弱磁选可将铁精矿品位提高;而要降低磁铁矿精矿中硫含量的方法,一般来说采用反浮选脱硫,需要通过实验找到跟该矿石性质相适应的反浮选脱硫工艺流程与参数,确保磁铁矿中磁硫的高效脱除。在经过系统的选矿实验研究后,确定了采用先脱磁再反浮选脱硫,再通过阶段磨矿阶段选别的选矿工艺流程,可以大幅度提高最终磁铁矿精矿品质。在磁铁矿粗精矿品位TFe 38.19%、含S 4.51%时,可以获得最终磁铁矿精矿品位TFe 60.85%、含S 0.99%,铁作业回收率72.13%的良好实验指标。该工艺在现场得到应用,通过优化现场流程结构配置,取得良好效果,为企业新增经济效益显著。
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| 关 键 词: | 磁铁矿 粒度细 磁硫高 脱磁 反浮选 磨矿 |
| 收稿时间: | 2020-06-06 |
Experimental Study on Beneficiation of Coarse Concentrate from Shizhuyuan Magnetite Mine |
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| Affiliation: | Hunan Shizhuyuan Nonferrous Metals Co., Ltd., Chenzhou, Hunan, China |
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| Abstract: | A small amount of magnetite is associated with the Shizhuyuan Tungsten Molybdenum Bismuth Fluorite polymetallic ore, the total iron grade is 7.15%, the iron grade in the magnetite is 1.68%, which is 23.50% of the total iron. “Shizhuyuan method” is used in the whole beneficiation process of the tungsten-molybdenum-bismuth-fluorite polymetallic ore, in which the magnetite is preferentially removed by medium magnetic separation before recovering tungsten, molybdenum, bismuth, fluorite and other useful minerals, in order to avoid the interference of magnetite to the subsequent separation operation, the coarse magnetite concentrate is produced. In order to further improve the comprehensive utilization rate of mineral resources and excavate the new economic growth point of the mining enterprises, it is decided to carry out the experimental study on beneficiation of coarse concentrate of magnetite ore. Through the study on the properties of the magnetite coarse concentrate, it is found that the magnetite coarse concentrate has fine particle size distribution and high magnetic sulfur content. In order to improve the quality of magnetite concentrate, the grade of iron in magnetite concentrate must be raised, and the sulfur content in magnetite concentrate must be reduced. To raise the iron grade of magnetite concentrate, fine grinding method is used to separate magnetite from its monomer, and then the iron grade of magnetite concentrate can be raised by weak magnetic separation, while to reduce the sulfur content of magnetite concentrate, reverse flotation is generally used to remove sulfur, it is necessary to find out the process flow and parameters of reverse flotation desulfurization suitable to the property of the ore in order to ensure the efficient removal of magnetic sulfur from magnetite ore. After the systematic experimental study on beneficiation, it is determined that the final magnetite concentrate quality can be greatly improved by first demagnetizing, then by reverse flotation, and then by stage grinding. When the magnetite rough concentrate grade TFe 38.19% and S 4.51% , the final magnetite concentrate grade TFe 60.85% , S 0.99% and iron recovery 72.13% can be obtained. The process has been applied in the field, and good results have been achieved by optimizing the configuration of the field flow structure. |
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