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Volume 19 Issue 11
Nov.  2012
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Zheng-jian Liu, Xiang-dong Xing, Jian-liang Zhang, Ming-ming Cao, Ke-xin Jiao, and Shan Ren, Reduction mechanisms of pyrite cinder-carbon composite pellets, Int. J. Miner. Metall. Mater., 19(2012), No. 11, pp. 986-991. https://doi.org/10.1007/s12613-012-0659-2
Cite this article as:
Zheng-jian Liu, Xiang-dong Xing, Jian-liang Zhang, Ming-ming Cao, Ke-xin Jiao, and Shan Ren, Reduction mechanisms of pyrite cinder-carbon composite pellets, Int. J. Miner. Metall. Mater., 19(2012), No. 11, pp. 986-991. https://doi.org/10.1007/s12613-012-0659-2
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Reduction mechanisms of pyrite cinder-carbon composite pellets

  • 通讯作者:

    Jian-liang Zhang    E-mail: jl.zhang@ustb.edu.cn

  • The non-isothermal reduction mechanisms of pyrite cinder-carbon composite pellets were studied at laboratory scale under argon (Ar) atmosphere. The composite pellets as well as the specimens of separate layers containing pyrite cinder and coal were tested. The degree of reduction was measured by mass loss. The microstructures of the reduced composite pellets were characterized by scanning electron microscopy (SEM). It is found that the reduction processes of the composite pellets may be divided into four stages:reduction via CO and H2 from volatiles in coal at 673-973 K, reduction via H2 and C produced by cracking of hydrocarbon at 973-1123 K, direct reduction by carbon via gaseous intermediates at 1123-1323 K, and direct reduction by carbon at above 1323 K. Corresponding to the four stages, the apparent activation energies (E) for the reduction of the composite pellets are 86.26, 78.54, 72.01, and 203.65 kJ·mol-1, respectively.
  • Reduction mechanisms of pyrite cinder-carbon composite pellets

    + Author Affiliations
    • The non-isothermal reduction mechanisms of pyrite cinder-carbon composite pellets were studied at laboratory scale under argon (Ar) atmosphere. The composite pellets as well as the specimens of separate layers containing pyrite cinder and coal were tested. The degree of reduction was measured by mass loss. The microstructures of the reduced composite pellets were characterized by scanning electron microscopy (SEM). It is found that the reduction processes of the composite pellets may be divided into four stages:reduction via CO and H2 from volatiles in coal at 673-973 K, reduction via H2 and C produced by cracking of hydrocarbon at 973-1123 K, direct reduction by carbon via gaseous intermediates at 1123-1323 K, and direct reduction by carbon at above 1323 K. Corresponding to the four stages, the apparent activation energies (E) for the reduction of the composite pellets are 86.26, 78.54, 72.01, and 203.65 kJ·mol-1, respectively.
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