Magnesium-rich gangue dissolution in column bioleaching of chalcopyrite
来源期刊:Rare Metals2015年第5期
论文作者:Xue Liu Jian-Kang Wen Biao Wu Shuang Liu
文章页码:366 - 370
摘 要:This study is to assess the effect of magnesiumrich gangue dissolution on the ore containing chalcopyrite and carrollite from Democratic Republic of the Congo(DRC). The ore contains 11.0 wt% magnesium and 2.4wt% copper. When Mg2concentration is over 20 gáL-1after 2 months in column bioleaching, the redox potential of leachate keeps stable, much less than that when Mg2concentration is below 20 gáL-1. Meanwhile, the extractions of Cu2and Co2from chalcopyrite with carrollite obviously inhibited by Mg2concentration of over20 gáL-1were investigated. The extraction of cobalt depends on chalcopyrite dissolved in column reactor. The growth and oxidation activity of bacteria are affected by high Mg2concentration([20 gáL-1) in leachate of column reactor. As the rate of gangue dissolution depends on the amount of sulfuric acid, the decrease of the particle size relates to the increase of the total particle surface area and acid consumption. Therefore, the operation of pre-leaching for magnesium removal is not the most effective and economical way to solve the problem of magnesium-rich gangue minerals dissolution.
Xue Liu,Jian-Kang Wen,Biao Wu,Shuang Liu
National Engineering Labortory of Biohydrometallurgy, General Research Institute for Nonferrous Metals
摘 要:This study is to assess the effect of magnesiumrich gangue dissolution on the ore containing chalcopyrite and carrollite from Democratic Republic of the Congo(DRC). The ore contains 11.0 wt% magnesium and 2.4wt% copper. When Mg2concentration is over 20 gáL-1after 2 months in column bioleaching, the redox potential of leachate keeps stable, much less than that when Mg2concentration is below 20 gáL-1. Meanwhile, the extractions of Cu2and Co2from chalcopyrite with carrollite obviously inhibited by Mg2concentration of over20 gáL-1were investigated. The extraction of cobalt depends on chalcopyrite dissolved in column reactor. The growth and oxidation activity of bacteria are affected by high Mg2concentration([20 gáL-1) in leachate of column reactor. As the rate of gangue dissolution depends on the amount of sulfuric acid, the decrease of the particle size relates to the increase of the total particle surface area and acid consumption. Therefore, the operation of pre-leaching for magnesium removal is not the most effective and economical way to solve the problem of magnesium-rich gangue minerals dissolution.
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