超临界流体萃取法修复多氯联苯污染土壤/沉积物

P. Chen, W. Zhou, L. Tavlarides
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引用次数: 27

摘要

在实验室规模的超临界流体萃取(SFE)装置上对土壤中多氯联苯(PCB)的解吸进行了研究,为土壤修复提供信息。结果表明,SFE是一种很有前途的净化多氯联苯污染土壤/沉积物的技术。在40°C和100 atm下提取30分钟后,实际哈德逊河沉积物中超过86%的多氯联苯和圣劳伦斯河沉积物中92%的多氯联苯被去除。从加标样品中提取多氯联苯的效率更高。研究了温度、压力、共溶剂、样品含水量和土壤/沉积物类型等对PCB解吸的影响。样品含水量和共溶剂的存在是影响多氯联苯解吸的最重要因素。结果表明,实际样品中的多氯联苯比加标样品中的多氯联苯结合更紧密。研究了不同样品中PCB同系物的解吸行为。结果表明,在整个提取过程中,最具环境威胁的PCB同源物没有相对积累。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Remediation of polychlorinated biphenyl contaminated soils/sediments by supercritical fluid extraction
Studies of polychlorinated biphenyl (PCB) desorption from soils have been conducted in a laboratory scale supercritical fluid extraction (SFE) unit to provide information for soil remediation. The results demonstrate the effectiveness of SFE as a promising technology for the clean up of PCB contaminated soils/sediments. After 30 minutes of extraction at 40°C and 100 atm, more than 86% ofPCBs in real world Hudson River sediment and 92% in St. Lawrence River sediment were removed. The extraction of PCBs from spiked samples showed even higher efficiencies. Various effects such as temperature, pressure, cosolvent, sample water content, and soil/sediment type on PCB desorption have been investigated. The sample water content and the presence of co-solvent were shown to be the most important factors affecting desorption of PCBs. The results show that PCBs in real world samples are more tightly bound than in spiked samples. The desorption behavior of individual PCB congeners in various samples has been investigated. The results demonstrate no relative accumulation of the most environmentally threatening PCB congeners throughout the extraction process.
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