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Volume 37 Issue 10
Jul.  2021
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Article Navigation >  Chinese Journal of Engineering  > 2015  >  37(10): 1268-1275
JU Hui-xia, HU Wen-tao, LIU Xin-wei, HUANG Xiao-yan, YANG Hai-bo, SUN Ti-chang. Reengineering and selective recovery of iron-bearing silicate minerals[J]. Chinese Journal of Engineering, 2015, 37(10): 1268-1275. doi: 10.13374/j.issn2095-9389.2015.10.003
Citation: JU Hui-xia, HU Wen-tao, LIU Xin-wei, HUANG Xiao-yan, YANG Hai-bo, SUN Ti-chang. Reengineering and selective recovery of iron-bearing silicate minerals[J]. Chinese Journal of Engineering, 2015, 37(10): 1268-1275. doi: 10.13374/j.issn2095-9389.2015.10.003
shu

Reengineering and selective recovery of iron-bearing silicate minerals

doi: 10.13374/j.issn2095-9389.2015.10.003

  • 1. State Key Laboratory of High-Efficient Mining and Safety of Metal Mines(Ministry of Education), University of Science and Technology Beijing, Beijing 100083, China;

  • 2. Laiwu Iron and Steel Group, Lunan Mining Co., LTD, Linyi 276400, China;

  • 3. State Key Laboratory of Multiphase Complex Systems State, Institute of Process Engineering, Chinese Academy of Sciences (IPE-CAS), Beijing 100190, China

  • Received Date: 2015-06-04
    Abstract
  • The recovery of iron-bearing silicate minerals is a key on the re-separation middlings of Anshan type lean magnetite,but this recovery process should be conducted selectively. The iron grade of stage 1 tailing is only 3.92%,so there is no need to recover it. However,the iron grade of stage 2 tailing is 34.51%,thus this tailing can be returned to the mixing process before direct reduction and its iron is indirectly recovered. Under the condition of the direct reduction temperature of 1150℃,the direct reduction time of 45 min,the limestone dosage of 16% and the coal dosage of 12%,the optimum TFe and εFe obtained from closed-circuit experiment is 92.69% and 91.17%. Iron and silicon in the iron-bearing silicate are reduced to elemental iron and reengineered to aedelforsite,respectively.

     

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