An environmentally friendly approach for the extraction and recovery of Mn from pyrolusite by ammonium sulfate roasting‐water leaching and ammonium carbonate precipitation

With the growth of the new energy industry, the requirements for manganese have increased significantly. In this paper, the method of manganese extraction from pyrolusite using ammonium sulfate roasting and water leaching was presented. At the optimal process parameters: mass ratio of (NH4)2SO4 to p...

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Bibliographic Details
Published in:Asia-Pacific journal of chemical engineering 2024-01, Vol.19 (1), p.n/a
Main Authors: Ma, Ruiyu, Feng, Yali, Li, Haoran, Ju, Jinrong, Jiang, Shiwei, Wang, Haoyu, Li, Yunhao, Xu, Chenglong, Xue, Zhonghua
Format: Article
Language:English
Subjects:
ammonium sulfate roasting
manganese carbonate
manganese extraction
pyrolusite
water leaching
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Summary:With the growth of the new energy industry, the requirements for manganese have increased significantly. In this paper, the method of manganese extraction from pyrolusite using ammonium sulfate roasting and water leaching was presented. At the optimal process parameters: mass ratio of (NH4)2SO4 to pyrolusite of 2:1, the roasting temperature of 420°,C and duration of 120 min, the leaching efficiency of Mn and Fe was 94.55% and 54.38%, respectively. The mechanism analysis shows that MnO2 and Fe2O3 in pyrolusite were converted to (NH4)2Mn2(SO4)3, (NH4)3Fe(SO4)3, and NH4Fe(SO4)2 by roasting with ammonium sulfate. Iron was removed from the leaching solution with the addition of ammonia. Afterward, manganese carbonate products were prepared from iron‐free manganese sulfate solution by adding ammonium carbonate at a stirring duration of 60 min, a reaction temperature of 40°C, a pH of 7, and a molar ratio of ammonium carbonate to the manganese of 1.1:1, the precipitation efficiency of manganese could reach 99.8%, and the obtained manganese carbonate products were compliant with the industry standards. The ammonia released during the roasting process could be absorbed to regenerate (NH4)2SO4 and the final filtrate after evaporation and crystallization could be used to recycle (NH4)2SO4, both of which were used again into roasting process to reduce the consumption of raw material. In this process, the roasting temperature was only 420°C, which was significantly lower than the pyrometallurgical process suggested in earlier studies.
ISSN:1932-2135
1932-2143
DOI:10.1002/apj.2999