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作 者:Guo-tao ZHOU Yi-lin WANG Tian-gui QI Qiu-sheng ZHOU Gui-hua LIU Zhi-hong PENG Xiao-bin LI 周国涛;王一霖;齐天贵;周秋生;刘桂华;彭志宏;李小斌(中南大学冶金与环境学院,长沙410083)
机构地区:[1]School of Metallurgy and Environment,Central South University,Changsha 410083,China
出 处:《Transactions of Nonferrous Metals Society of China》2022年第9期3077-3087,共11页中国有色金属学报(英文版)
基 金:support provided by the National Natural Science Foundation of China(No.52104353)。
摘 要:The conversion mechanism of Al-goethite under the action of different additives(lime or reductant for typical or reductive Bayer digestion)was investigated by thermodynamic calculation,XRD,and SEM-EDS.The results show that the formation of Fe-substituted hydrocalumite is crucial to converting Al-goethite to hematite during Bayer digestion by adding lime.However,the conversion proceeds more easily under the action of reductant due to the rapid formation of magnetite.Additionally,Bayer liquor composition significantly affects the product composition and also the conversion rate of Al-goethite.Compared to typical Bayer digestion with Al-goethite containing gibbsitic bauxite as raw material,the red mud yield of reductive Bayer digestion decreases from 39.02%to 31.19%,and the grade of TFe in red mud increases from 41.66%to 53.80%.通过热力学计算、XRD与SEM-EDS研究不同添加剂(石灰/还原剂分别对应典型/还原拜耳法溶出)作用下铝针铁矿的转化机理。结果表明,形成含铁水铝钙石相是石灰促进这一转化的主要机制;而在还原剂作用下,由于磁铁矿的生成,铝针铁矿的转化更易发生。此外,拜耳溶液成分显著影响针铁矿转化过程产物组成和转化速率。与以含铝针铁矿的三水铝石为原料的典型拜耳法溶出相比,还原拜耳溶出赤泥的产出率由39.02%降低至31.19%,总铁含量(TFe)由41.66%提高至53.80%。
关 键 词:Al-goethite conversion mechanism Fe-substituted hydrocalumite magnetite Bayer process
分 类 号:TF821[冶金工程—有色金属冶金]
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