Soil washing for removal of per‐ and polyfluoroalkyl substances from investigation‐derived waste

Justin Miceli, Juby R. Varghese, Thomas M. Holsen, Michelle Crimi
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Abstract

Abstract The accumulation of significant amounts of investigation‐derived waste (IDW) from investigations of per‐ and polyfluoroalkyl substances (PFAS) contamination at active and former military installations has generated the need for viable disposal methods, which are currently limited to incineration or landfilling. Soil washing has been proposed as a more environmentally friendly alternative method to remove PFAS sorbed to IDW media, potentially allowing more cost‐effective disposal of the media as nonhazardous waste. This systematic investigation of IDW washing explored the effect of water‐, methanol‐, and salt‐based solutions, which are typically used for ion exchange (IX) resin regeneration. These solutions were tested for PFAS removal using four different field IDW solids with different pHs, total organic carbon content, and anion exchange capacity. In long washes extending to a week, distilled water was found to be effective in the removal of short‐chain PFASs (perfluorcarboxylic acids with fewer than seven fluorinated carbon atoms and perfluorosulfonic acids with fewer than six fluorinated carbon atoms) and some long‐chain PFASs including perfluorooctanoic acid, but not perfluorooctane sulfonic acid (PFOS). PFOS was only removed using water:methanol solutions with salt. Optimized 30‐min washes containing water:methanol and salt effectively removed precursors, and short‐ and long‐chain PFAS. Kinetic, soil extraction, and leaching experiments revealed that PFAS can be removed within a matter of minutes, with greater than 70% PFAS removal on the first wash; however, longer‐chain PFASs required up to three washes to be removed. Important IDW wash solution relationships influencing PFAS desorption are discussed and PFOS is proposed as an indicator species for IDW washing effectiveness. Results demonstrate that adapting components of IX regeneration solutions to IDW wash solutions facilitates an alternative means to separate PFAS contaminants from IDW, advancing PFAS remediation efforts.
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从调查产生的废物中去除全氟烷基和多氟烷基物质的土壤洗涤
在现役和退役军事设施中,由于对全氟烷基和多氟烷基物质(PFAS)污染的调查而产生的大量调查衍生废物(IDW)的积累,产生了对可行处理方法的需求,目前仅限于焚烧或填埋。土壤洗涤被认为是一种更环保的替代方法,可以去除吸附在IDW介质上的PFAS,可能使介质作为无害废物的处理更具成本效益。对IDW洗涤的系统研究探讨了水、甲醇和盐基溶液的影响,这些溶液通常用于离子交换(IX)树脂再生。使用四种不同ph值、总有机碳含量和阴离子交换容量的IDW固体来测试这些溶液对PFAS的去除效果。在长达一周的长时间洗涤中,蒸馏水被发现可以有效去除短链全氟辛烷磺酸(含少于7个氟化碳原子的全氟羧酸和含少于6个氟化碳原子的全氟磺酸)和一些长链全氟辛烷磺酸,包括全氟辛酸,但不包括全氟辛烷磺酸(PFOS)。全氟辛烷磺酸只能用水:含盐的甲醇溶液去除。优化30分钟洗涤含水:甲醇和盐有效去除前体,短链和长链PFAS。动力学、土壤萃取和浸出实验表明,PFAS可以在几分钟内被去除,第一次洗涤时PFAS去除率大于70%;然而,长链PFASs需要三次洗涤才能去除。讨论了影响PFAS解吸的重要IDW洗涤溶液关系,并提出PFOS作为IDW洗涤效果的指示物种。结果表明,将IX再生溶液的成分与IDW洗涤溶液相适应,有助于从IDW中分离PFAS污染物,从而推进PFAS修复工作。
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来源期刊
CiteScore
3.50
自引率
21.10%
发文量
37
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