废旧电池回收过程中硫酸镍溶液低温除铁试验研究
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摘要
研究了采用铁黄晶种在低温下从硫酸镍溶液中除铁,即在低温常压下,将含铁料液滴加到铁黄晶种溶液中,控制pH,使生成铁黄渣进行除铁。考察了溶液pH、加料速度、反应温度、洗渣液pH、洗渣次数、洗渣液固体积质量比对铁去除率及渣中镍损失的影响。结果表明,在温度50℃、溶液pH为3.5、洗渣液pH=7.0、加料速度13.5 mL/min、搅拌速度300r/min、洗渣2次、水洗液固体积质量比为3∶1条件下,铁去除率达99.90%,除铁后液中铁质量浓度降到10mg/L以下,渣中镍质量分数约0.3%。该法沉淀渣量小,易沉降、过滤和洗涤,可连续除铁。
Removal of iron by dripping the liquid containing iron in crystals solution to form iron yellow slag under the conditions of low temperature,normal pressure and controlled pH was researched.The effects of liquid pH,feed rate,reaction temperature,pH of slag washing liquid,washing slag times and ratio of slag washing liquid-to-solid on removal of iron and nickel content in the slag were examined.The results show that under the optimal conditions that the liquid pH is 3.5,feeding speed is 13.5 mL/min,stirring speed is 300 r/min,reaction temperature is 50 ℃,pH of slag washing liquid is7,washing slag times is 2,and ratio of washing liquid-to-solid is 3∶1,the removal rate of iron reaches 99.90%,and nickel content in the slag is about 0.3%.The precipitated slag is very little,and the slag is easy to settle,filter and wash,and the nickel content in the slag is low.The process can be used for continuous removal of iron in industry.
Removal of iron by dripping the liquid containing iron in crystals solution to form iron yellow slag under the conditions of low temperature,normal pressure and controlled pH was researched.The effects of liquid pH,feed rate,reaction temperature,pH of slag washing liquid,washing slag times and ratio of slag washing liquid-to-solid on removal of iron and nickel content in the slag were examined.The results show that under the optimal conditions that the liquid pH is 3.5,feeding speed is 13.5 mL/min,stirring speed is 300 r/min,reaction temperature is 50 ℃,pH of slag washing liquid is7,washing slag times is 2,and ratio of washing liquid-to-solid is 3∶1,the removal rate of iron reaches 99.90%,and nickel content in the slag is about 0.3%.The precipitated slag is very little,and the slag is easy to settle,filter and wash,and the nickel content in the slag is low.The process can be used for continuous removal of iron in industry.
引文
[1]张文山,石朝军,梅光贵.湿法冶金(包括Zn,Mn,Cu,Ni,Co等)除铁的几种主要方法[J].中国锰业,2006,24(2):40-42.
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[13]李凡,朱军,白苗苗,等.用溶剂萃取法从硫酸镍溶液中去除钙、铁[J].湿法冶金,2016,35(2):132-135.
[14]黎红兵,周志辉,陈志飞,等.黄钾铁矾法炼锌的沉矾过程研究[J].湖南有色金属,2010,26(4):27-29.
[15]魏福春.湿法炼锌黄钾铁矾除铁中和剂的研究[J].中国有色冶金,2008(1):21-23.
[16]于淑秋.黄钾铁矾法除铁新发展[J].有色金属(冶炼部分),1987(4):44-46.
[17]NIEKERK Chrisloffel Johannes Van,岑立振.用热沉淀法从硫酸盐溶液中除铁[J].中国有色冶金,1987(6):29-35.
[2]陈家镛,于淑秋,伍志春.湿法冶金中铁的分离与利用[M].北京:冶金工业出版社,1991:84.
[3]吴远桂,谈定生,丁伟中,等.针铁矿法除铁及其在湿法冶金中的应用[J].湿法冶金,2014,33(2):86-89.
[4]雷军鹏,郑军福,闫刚刚.高镍锍加压浸出液磁絮凝除铁试验研究[J].湿法冶金,2017,36(4):342-345.
[5]申勇峰,薛文颖.金川公司硫酸镍净化系统技术改造[J].矿冶,2002,11(1):59-61.
[6]张爱黎,杨春芳,符岩,等.铜厂副产品硫酸镍中除铁的研究[J].有色矿冶,2001(2):23-26.
[7]林才顺.从湿法硫酸镍中去除锰、铁的新工艺研究[J].湿法冶金,2002,21(3):139-142.
[8]孙亚丽,李涛,黄新,等.钴溶液中除铁工艺的研究[J].化学工程师,2008,158(11):4-6.
[9]雷湘.针铁矿法处理铁渣的工艺研究[J].中国有色冶金,2006,6(4):28-31.
[10]耿萌,胡文立,陈梦琴,等.黄钾铁矾法去除溶液中Fe3+的动力学[J].湿法冶金,2016,35(3):201-204.
[11]FORTES M C B,BENEDETTO J S.Technical note:separation of indium and iron by solvent extraction[J].Minerals Engineering,1998,11(5):447-451.
[12]刘铭,周雍茂.用N235-TBP混合体系从硫酸盐溶液中协同萃取除铁[J].中国有色金属学报,2005,10(3):172-178.
[13]李凡,朱军,白苗苗,等.用溶剂萃取法从硫酸镍溶液中去除钙、铁[J].湿法冶金,2016,35(2):132-135.
[14]黎红兵,周志辉,陈志飞,等.黄钾铁矾法炼锌的沉矾过程研究[J].湖南有色金属,2010,26(4):27-29.
[15]魏福春.湿法炼锌黄钾铁矾除铁中和剂的研究[J].中国有色冶金,2008(1):21-23.
[16]于淑秋.黄钾铁矾法除铁新发展[J].有色金属(冶炼部分),1987(4):44-46.
[17]NIEKERK Chrisloffel Johannes Van,岑立振.用热沉淀法从硫酸盐溶液中除铁[J].中国有色冶金,1987(6):29-35.
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