溶剂萃取法从低品位高黏土浸出液中提取锂的研究
收稿日期: 2022-12-05
网络出版日期: 2023-10-16
基金资助
中科院西部之光项目(08);青海省“昆仑英才·高端创新创业人才”项目(2020年)
Study on extraction of lithium from low grade high clay leaching solution by solvent extraction
Received date: 2022-12-05
Online published: 2023-10-16
以磷酸三丁酯(TBP)为萃取剂、甲基异丁基酮(MIBK)为稀释剂、FeCl3为共萃剂,采用溶剂萃取法开展从高黏土浸出液中分离提取锂的研究,考察了水相组成、负载有机相金属离子种类、负载有机相AlCl3浓度、有机相TBP浓度、Fe与Li物质的量比、相比等因素对萃取性能的影响。结果表明,当水相组成确定为0.028 8 mol/L LiCl+0.036 5 mol/L FeCl3+2 mol/L AlCl3、负载有机相金属离子为Al3+、负载有机相中AlCl3浓度为2 mol/L、TBP体积分数为50%、Fe与Li物质的量比为1.7、萃取相比(有机相与水相的体积比)为2:1时,萃取效果最佳。为了实现负载有机相的循环使用,3 mol/L HCl和1 mol/L Na2CO3分别被确定为反萃液和再生液。此外,采用三级逆流串级实验进行锂的串级萃取实验,经串级实验后,锂的萃取率达到了99.72%。以上研究结果表明TBP-MIBK-FeCl3体系从低品位高黏土浸出液中分离提取锂资源是十分有效的。
关键词: 高黏土浸出液; 溶剂萃取法; 萃取锂; TBP-MIBK-FeCl3萃取体系
李慧芳 , 王晓 , 白有鹏 , 张世翔 . 溶剂萃取法从低品位高黏土浸出液中提取锂的研究[J]. 无机盐工业, 2023 , 55(10) : 63 -69 . DOI: 10.19964/j.issn.1006-4990.2022-0713
Tributyl phosphate(TBP) was acted as extractant,Methyl isobutyl ketone (MIBK) was used as diluent,FeCl3 played as co-extraction agent,and solvent extraction method was used to separate and extract lithium from high clay leaching solution.The effects of aqueous phase composition,the kinds of metal ion in loaded organic phase,AlCl3 concentration in loaded organic phase,TBP concentration in organic phase,Fe/Li mass ratio,phase ratio and other factors on extraction performance were investigated.The experimental results showed that when the aqueous phase composition was determined as 0.028 8 mol/L LiCl+0.036 5 mol/L FeCl3+2 mol/L AlCl3,the metal ion in loaded organic phase was Al3+,the concentration of AlCl3 in the loaded organic phase was 2 mol/L,the concentration of TBP was 50%,the molar ratio of Fe/Li was 1.7 and the phase ratio of(Volume ratio of organic phase to aqueous phase)2:1 the extraction effect was optimal.In order to realize the recycling of the loaded organic phase,3 mol/L HCl and 1 mol/L Na2CO3 were identified as the stripping and regeneration solution,respectively.In addition,in order to realize the efficient extraction of lithium resources,the three-stage counter-current cascade experiment was used to carry out the lithium cascade extraction experiment.After the cascade experiment,the extraction rate of lithium reached 99.72%.The experimental results indicated that TBP-MIBK-FeCl3 extraction system could effectively separate and extract lithium from low grade and high clay leaching solution.
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