Department of Chemistry, Al. I. Cuza, University of Iasi, Iasi, Romania.
J Hazard Mater. 2011 Dec 15;197:244-53. doi: 10.1016/j.jhazmat.2011.09.082. Epub 2011 Oct 5.
In the present work, we analyze the transport properties of a novel polymer inclusion membrane (PIM) containing a poly-vinyl chloride (PVC) polymer matrix and the organic anion exchanger Aliquat 336 as a specific carrier, without addition of plasticizers. The study was specifically focused on the transport properties of Cr(VI) in conditions simulating industrial wastewaters. We analyzed the impact of several parameters on the Cr(VI) transport process such as: the carrier content of the PIM, the pH, and the phases' composition. We concluded that efficient transport processes occur through a PIM containing 40% Aliquat 336/60% PVC (w/w). The process is very fast and efficient for solutions of initial Cr(VI) concentration smaller than 10(-3)mol/L, in which nearly all of Cr(VI) is removed within 3h. The performed experiments prove that Cr(VI) transport through the membrane is a facilitated counter-transport process. The obtained results sustain that this novel non-plasticized membrane possesses enhanced transport properties towards other liquid membranes and plasticized PIMs previously reported as used for Cr(VI) transport. Additionally, it possesses an excellent reliability and a high selectivity for Cr(VI) from mixtures with other metal ions and anions existing in the real industrial effluents. The PIM characterization highlights the plasticizing role of the carrier Aliquat 336.
在本工作中,我们分析了一种新型聚合物膜(PIM)的传输性能,该膜包含聚氯乙烯(PVC)聚合物基质和有机阴离子交换剂 Aliquat 336 作为特定载体,没有添加增塑剂。研究特别集中在模拟工业废水中 Cr(VI)的传输特性。我们分析了几个参数对 Cr(VI)传输过程的影响,如:PIM 中载体的含量、pH 值和相组成。我们得出结论,通过含有 40% Aliquat 336/60% PVC(w/w)的 PIM 可以实现有效的传输过程。对于初始 Cr(VI)浓度小于 10(-3)mol/L 的溶液,该过程非常快速有效,在 3 小时内几乎可以去除所有的 Cr(VI)。所进行的实验证明,Cr(VI)通过膜的传输是一种促进的反传输过程。得到的结果表明,这种新型非增塑膜具有增强的传输性能,优于其他先前报道的用于 Cr(VI)传输的液体膜和增塑 PIM。此外,它还具有从实际工业废水中存在的其他金属离子和阴离子与 Cr(VI)混合物中进行可靠且高选择性分离的优点。PIM 的特性强调了载体 Aliquat 336 的增塑作用。
