摘要
研究了疏水性离子液体[Bmim]PF6(1-丁基-3-甲基咪唑六氟磷酸盐)、[Hmim]PF6(1-己基-3-甲基咪唑六氟磷酸盐)和[Omim]PF6(1-辛基-3-甲基咪唑六氟磷酸盐)对Co2+和Cd2+的萃取性能.结果表明,未加入螯合剂时,离子液体对Co2+和Cd2+的萃取率都很低.螯合剂的加入大大提高了离子液体对重金属离子的萃取性能,Co2+和Cd2+的萃取率分别由原来的2.06%和1.82%提高到96.37%和93.68%.不同螯合剂对离子液体萃取Co2+和Cd2+有一定的影响.离子液体碳链长度的增加有利于Co2+和Cd2+的萃取.与传统有机溶剂相似,离子液体萃取重金属离子过程中具有很强的pH摆动效应,当pH<2时,Co2+和Cd2+的萃取率几乎为0,而当pH>6时,Co2+和Cd2+的萃取率均大于90%.运用萃取过程中的pH摆动效应对Cd2+进行反萃取,实现了离子液体的回用.
Extraction of CO^2+ and Cd^2+ into hydrophobic ionic liquids of [Bmim]PF6, [Hmim]PF6 and [Omim]PF6 is investigated for examining their removal from wastewater. The results indicate that the extraction rates of both Co^2+ and Cd^2+ are very low without chelator. However, the extraction rates are greatly enhanced from 2.06% to 96.37% for Co^2+ and 1.82% to 93.68% for Cd^2+ after the addition of chelator. The addition of different chelators also has a certain impact on the removal rates of heavy metal ions. The longer carbon bond the ionic liquids have, the better the extraction is. Similar to traditional solvent n-butanol, pH has a great impact on the removal rates of Co^2+ and Cd^2+. When pH〈2, the extraction rates of Co^2+ and Cd^2+ are close to zero. While for pH〉6, the extraction rates are above 90%. The pH swing effect is used to strip the heavy metal ions from ionic liquids, and the reuse of ionic liquids is realized.
出处
《过程工程学报》
EI
CAS
CSCD
北大核心
2007年第4期674-678,共5页
The Chinese Journal of Process Engineering
基金
国家自然科学基金资助项目(编号:20307002)