还原-磨选从高镁低品位红土镍矿中回收镍铁  被引量:1

Recovery of Ni and Fe from Low-grade Nickeliferous Laterite Ore with High Magnesium Content by Reduction-Grinding-Magnetic Separation

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作  者:范兴祥[1] 汪云华[1] 董海刚[1] 吴跃东[1] 李柏榆[1] 赵家春[1] 李博捷[1] 

机构地区:[1]昆明贵金属研究所稀贵金属综合利用新技术国家重点实验室,云南昆明650106

出  处:《矿冶工程》2012年第5期47-49,53,共4页Mining and Metallurgical Engineering

摘  要:采用还原-磨选工艺对高镁低品位红土镍矿制备镍铁合金粉进行了研究。考察了还原温度、还原时间、原料粒度区间、还原剂用量、添加剂用量等因素对镍直收率的影响。研究结果表明,合适的还原制度为:原料粒度0.09~0.12 mm、还原剂用量3%、添加剂用量2.5%,还原温度1 300℃,还原时间3.0 h。还原产物经球磨、磁选后,获得镍品位为7.0%以上的镍铁合金粉,镍直收率87%以上,实现了从高镁低品位红土镍矿中回收镍铁的目的。A low-grade nickeliferous laterite ore with high magnesium content, the raw material for Ni-Fe alloy powder production, was beneficiated by a method of reduction-grinding-magnetic separation. The effects of reduction tempera- ture, reduction time, feed size, reductant dosage, additive dosage on the direct recovery of nickel were discussed. The results show that, reasonable conditions were determined as follows: feed size of 0. 09 -0.12 mm, reductant dosage of 3%, additive dosage of 2.5%, reduction temperature of 1 300 ℃ and reduction time of 3.0 h. After a further ball milling and magnetic separation, a Ni-Fe alloy with Ni content and recovery of over 7% and over 87%, respectively, can be obtained, showing that it can be achieved to recover Ni-Fe from low-grade nickeliferous laterite with high magnesium content.

关 键 词:高镁低品位红土镍矿 还原 磁选 镍铁合金粉 

分 类 号:TD95[矿业工程—选矿]

 

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