期刊
JOURNAL OF HAZARDOUS MATERIALS
卷 401, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jhazmat.2020.123892
关键词
PFAS; Aqueous firefighting foam; Soil remediation; Biosolids; Mobilization and immobilization
资金
- Federal State North Rhine-Westphalia, Germany
- European Fond for Regional Development (EFRE) 2014-2020 Investitionen in Wachstum und Beschaftigung [EFRE-0801149, EU-2-1-016B]
- EPA
Poly- and perfluoroalkyl substances (PFASs) are synthetic chemicals introduced to the environment through anthropogenic activities, with major sources being firefighting foam, wastewater effluent, landfill leachate, and biosolids. Remediation of PFAS contaminated soils is challenging due to their stability and mixture complexity. Mobilizing amendments increase PFAS mobility and bioavailability, while immobilizing amendments decrease transfer to food chain and leaching to water sources. Future research should focus on quantifying potential leaching of mobilized PFAS and monitoring long-term stability of immobilized PFAS.
Poly- and perfluoroalkyl substances (PFASs) are synthetic chemicals, which are introduced to the environment through anthropogenic activities. Aqueous film forming foam used in firefighting, wastewater effluent, landfill leachate, and biosolids are major sources of PFAS input to soil and groundwater. Remediation of PFAS contaminated solid and aqueous media is challenging, which is attributed to the chemical and thermal stability of PFAS and the complexity of PFAS mixtures. In this review, remediation of PFAS contaminated soils through manipulation of their bioavailability and destruction is presented. While the mobilizing amendments (e.g., surfactants) enhance the mobility and bioavailability of PFAS, the immobilizing amendments (e.g., activated carbon) decrease their bioavailability and mobility. Mobilizing amendments can be applied to facilitate the removal of PFAS though soil washing, phytoremediation, and complete destruction through thermal and chemical redox reactions. Immobilizing amendments are likely to reduce the transfer of PFAS to food chain through plant and biota (e.g., earthworm) uptake, and leaching to potable water sources. Future studies should focus on quantifying the potential leaching of the mobilized PFAS in the absence of removal by plant and biota uptake or soil washing, and regular monitoring of the long-term stability of the immobilized PFAS.
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