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Volume 23 Issue 11
Nov.  2016
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Xing-ran Zhang, Zuo-hua Liu, Wen-sheng Li, Ya-ya Cheng, Jun Du,  and Chang-yuan Tao, Alkaline pretreatment for chlorine removal from high-chlorine rhodochrosite, Int. J. Miner. Metall. Mater., 23(2016), No. 11, pp. 1252-1257. https://doi.org/10.1007/s12613-016-1346-5
Cite this article as:
Xing-ran Zhang, Zuo-hua Liu, Wen-sheng Li, Ya-ya Cheng, Jun Du,  and Chang-yuan Tao, Alkaline pretreatment for chlorine removal from high-chlorine rhodochrosite, Int. J. Miner. Metall. Mater., 23(2016), No. 11, pp. 1252-1257. https://doi.org/10.1007/s12613-016-1346-5
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Alkaline pretreatment for chlorine removal from high-chlorine rhodochrosite

  • 通讯作者:

    Zuo-hua Liu    E-mail: liuzuohua@cqu.edu.cn

    Chang-yuan Tao    E-mail: taocy@cqu.edu.cn

  • Chloride in manganese ore adversely affects mineral extraction. The mechanisms and the factors that influence an alkali pretreatment to removal chlorine from manganese ore were explored to eliminate hazards posed by chlorine during the electrolysis of manganese. The results showed that sodium carbonate, when used as an alkaline additive, promoted the dissolution of insoluble chloride, enhanced the migration of chloride ions, and effectively stabilized Mn2+. The optimal conditions were a sodium carbonate concentration of 0.45 mol·L-1, a liquid-solid ratio of 5:1 mL·g-1, a reaction time of 1 h, and a temperature of 25°C. The chlorine removal efficiency was greater than 95%, and the ore grade (Mn) was increased by 2.7%.
  • Alkaline pretreatment for chlorine removal from high-chlorine rhodochrosite

    + Author Affiliations
    • Chloride in manganese ore adversely affects mineral extraction. The mechanisms and the factors that influence an alkali pretreatment to removal chlorine from manganese ore were explored to eliminate hazards posed by chlorine during the electrolysis of manganese. The results showed that sodium carbonate, when used as an alkaline additive, promoted the dissolution of insoluble chloride, enhanced the migration of chloride ions, and effectively stabilized Mn2+. The optimal conditions were a sodium carbonate concentration of 0.45 mol·L-1, a liquid-solid ratio of 5:1 mL·g-1, a reaction time of 1 h, and a temperature of 25°C. The chlorine removal efficiency was greater than 95%, and the ore grade (Mn) was increased by 2.7%.
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