Sealants and Other Management Strategies for PFAS-Contaminated Concrete and Asphalt

IF 6.4 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Current Pollution Reports Pub Date : 2023-08-05 DOI:10.1007/s40726-023-00276-5
Grant B. Douglas, Joanne L. Vanderzalm, Jason K. Kirby, Mike Williams, Trevor P. Bastow, Mark Bauer, Karl C. Bowles, Darren Skuse, Rai S. Kookana, Greg B. Davis
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Abstract

Purpose of Review

The unique properties of per- and polyfluoroalkyl substances (PFASs) have seen their widespread adoption, subsequent accumulation in the environment and concern regarding potential environmental effects. Globally, airfields and paved firefighting training surfaces are hotspots for accumulation of PFAS due to extensive use of aqueous film-forming foams (AFFF). Evidence from contaminated concrete and asphalt airfield and training pavements suggests they may serve as an enduring PFAS source. This review investigates sealants as remediation technologies to minimise PFAS mobilisation from pavements drawing on current knowledge of remediation options for soils, sediments, surface and groundwaters.

Recent Findings

The review did not identify any published sealant information specific to PFAS. Our analysis showed that surface and penetrative sealants may offer an immediate solution via encapsulation of PFAS residues in concrete and asphalt. The most promising surface sealants likely to minimise water ingress and PFAS leaching are selected polymers and (modified) bitumen, owing to the relatively low cost, good adhesion, trafficability and chemical, heat and UV resistance. Potential also exists to enhance PFAS immobilisation using additives to absorb or otherwise chemically bind PFAS. Prospective penetrative sealants include silicates or siloxanes that bind to internal mineral surfaces and/or fill pores to restrict PFAS mobility. It is likely that combinations of surface and penetrative sealants will be required to meet functional, operational and management requirements with respect to new or existing contamination in concrete or asphalt pavements.

Summary

At present, few if any sealants have been evaluated for their ability to bind or mitigate PFAS mobility. This review serves as a starting point for further studies to evaluate their short or long-term effectiveness in immobilisation of PFAS residues in in situ or ex situ concrete and asphalt. Several knowledge gaps along with suggestions for future research have been made.

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PFAS污染混凝土和沥青的密封剂和其他管理策略
综述目的 全氟烷基和多氟烷基物质(PFAS)的独特性质使其被广泛采用,随后在环境中积累,并引起人们对其潜在环境影响的关注。在全球范围内,由于广泛使用水成膜泡沫 (AFFF),机场和铺设好的消防训练表面是 PFAS 积累的热点。受污染的混凝土和沥青机场和训练路面的证据表明,它们可能是持久的 PFAS 来源。本综述借鉴当前有关土壤、沉积物、地表水和地下水修复方案的知识,对密封剂作为修复技术进行了调查,以尽量减少路面中 PFAS 的迁移。我们的分析表明,表面密封剂和渗透性密封剂可以通过封装混凝土和沥青中的全氟辛烷磺酸残留物提供直接的解决方案。最有可能最大程度减少进水和全氟辛烷磺酸浸出的表面密封剂是精选聚合物和(改性)沥青,因为它们成本相对较低,具有良好的粘附性、流动性以及耐化学、耐热和耐紫外线性能。此外,使用添加剂吸收或化学结合全氟辛烷磺酸也有可能提高全氟辛烷磺酸的固定性。有前景的渗透性密封剂包括硅酸盐或硅氧烷,它们可与内部矿物表面结合和/或填充孔隙,以限制全氟辛烷磺酸的流动性。很可能需要将表面密封剂和渗透性密封剂结合起来,以满足对混凝土或沥青路面中新的或现有的污染的功能、操作和管理要求。本综述可作为进一步研究的起点,以评估密封剂在固定原位或非原位混凝土和沥青中的全氟辛烷磺酸残留物方面的短期或长期有效性。文中还提出了一些知识空白点以及未来研究的建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Current Pollution Reports
Current Pollution Reports Environmental Science-Water Science and Technology
CiteScore
12.10
自引率
1.40%
发文量
31
期刊介绍: Current Pollution Reports provides in-depth review articles contributed by international experts on the most significant developments in the field of environmental pollution.By presenting clear, insightful, balanced reviews that emphasize recently published papers of major importance, the journal elucidates current and emerging approaches to identification, characterization, treatment, management of pollutants and much more.
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