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CaO在红土镍矿直接还原焙烧中的作用机理 被引量:8

Mechanism of CaO in direct reduction roasting of nickel laterite ore
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摘要 以Ni和Fe质量分数分别为1.46%和26.68%的红土镍矿为研究对象,进行直接还原焙烧-磁选试验研究,并对焙烧矿进行X线衍射(XRD)与扫描电镜(SEM)分析以研究CaO的作用机理。研究结果表明:使用含CaO的组合添加剂能够达到磁选精矿中镍质量分数为8.58%、回收率为88.15%的最佳试验效果。在直接还原焙烧过程中,添加的CaO能够在焙烧过程中与硅酸盐矿物反应生成辉石、提高含镍硅酸盐的反应活性、促进镍的还原并且能够降低还原过程中NiO与SiO2结合的概率,提高镍的回收率。 The direct reduction roasting-magnetic separation experiment was conducted on nickel laterite sample graded 1.46% Ni and 26.68% Fe, and X-ray diffraction(XRD) and scanning electron microscopy(SEM) analyses were conducted to to investigate the mechanism of CaO. The results show that it can achieve the best results with nickel grade of 8.58%, recovery grade of 88.15% by using composite additives containing CaO. In the process of direct reduction roasting, CaO can react with silicate minerals to generate pyroxene, which can increase the reactivity of silicate bearing nickel and promote the reduction of nickel. It can also reduce the probability of NiO combined with SiO2 again in the reduction process and improve the recovery of nickel.
作者 刘志国 孙体昌 蒋曼 高恩霞
机构地区 北京科技大学土木与环境工程学院 山东理工大学资源与环境工程学院
出处 《中南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2015年第10期3566-3572,共7页 Journal of Central South University:Science and Technology
基金 高等学校博士学科点专项科研基金资助项目(20130006110017)~~
关键词 红土镍矿 直接还原 CAO 磁选 硅酸盐 nickel laterite ore direct reduction CaO magnetic separation silicate
分类号 TQ132.32 [化学工程—无机化工] TF046.2 [冶金工程—冶金物理化学]
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参考文献9

  • 1Mingjun Rao,Guanghui Li,Tao Jiang,Jun Luo,Yuanbo Zhang,Xiaohui Fan.Carbothermic Reduction of Nickeliferous Laterite Ores for Nickel Pig Iron Production in China: A Review[J]. JOM . 2013 (11) 被引量:1
  • 2Jie Lu,Shoujun Liu,Ju Shangguan,Wenguang Du,Feng Pan,Song Yang.The effect of sodium sulphate on the hydrogen reduction process of nickel laterite ore[J]. Minerals Engineering . 2013 被引量:1
  • 3Man Jiang,Tichang Sun,Zhiguo Liu,Jue Kou,Na Liu,Shiyuan Zhang.Mechanism of sodium sulfate in promoting selective reduction of nickel laterite ore during reduction roasting process[J]. International Journal of Mineral Processing . 2013 被引量:1
  • 4D.Q. Zhu,Y. Cui,K. Vining,S. Hapugoda,J. Douglas,J. Pan,G.L. Zheng.Upgrading low nickel content laterite ores using selective reduction followed by magnetic separation[J]. International Journal of Mineral Processing . 2012 被引量:1
  • 5Guanghui Li,Tangming Shi,Mingjun Rao,Tao Jiang,Yuanbo Zhang.Beneficiation of nickeliferous laterite by reduction roasting in the presence of sodium sulfate[J]. Minerals Engineering . 2012 被引量:1
  • 6Bo Li,Hua Wang,Yonggang Wei.The reduction of nickel from low-grade nickel laterite ore using a solid-state deoxidisation method[J]. Minerals Engineering . 2011 (14) 被引量:1
  • 7Jungah Kim,Gjergj Dodbiba,Hideaki Tanno,Katsunori Okaya,Seiji Matsuo,Toyohisa Fujita.Calcination of low-grade laterite for concentration of Ni by magnetic separation[J]. Minerals Engineering . 2010 (4) 被引量:1
  • 8M Valix,W.H Cheung.Effect of sulfur on the mineral phases of laterite ores at high temperature reduction[J]. Minerals Engineering . 2002 (7) 被引量:1
  • 9Bunjaku, A.,Kekkonen, M.,Taskinen, P.Effect of mineralogy on reducibility of calcined nickel saprolite ore by hydrogen. Transactions of the Institutions of Mining and Metallurgy, Section C: Mineral Processing and Extractive Metallurgy . 2012 被引量:1

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中南大学学报(自然科学版)
2015年 第10期

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