从消费品到室内外环境--从生产到报废--氟代醇的化学转化、暴露评估和政策影响

IF 3.5 Q3 ENGINEERING, ENVIRONMENTAL
Ivan A. Titaley
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引用次数: 0

摘要

氟代酯(FT)醇(FTOHs)属于全氟和多氟烷基物质(PFAS)的一个子类,被用作氟代酯侧链含氟聚合物(SCFPs)的结构单元,这些聚合物被应用于消费品中,以提供疏水和疏油特性。消费品中经常检测到 FTOHs,这表明 FTOHs 是 FT 类 SCFP 的主要降解产物。有关 FTOHs 的文献表明,人们对 FTOHs 在消费品的生产过程、整个生命周期以及报废时的释放情况知之甚少。本视角将消费品中的 FTOHs 信息与有关 FTOH 挥发性、气相分配以及转化为全氟羧酸盐 (PFCAs) 的充分知识结合起来,以了解 FTOH 释放到环境中的程度。在室内环境中,纺织厂在生产消费品的过程中会向空气中释放 FTOH,这表明工人有潜在的吸入风险。同时,根据对 8:2 FTOH 的研究,估计住宅区室内空气中的 FTOH 水平对人体造成的吸入风险较低,因为已知 8:2 FTOH 会经过人体新陈代谢生成全氟辛酸(PFOA)。已知在产品的整个生命周期内,基于 FT 的 SCFP 应用消费品会向室内环境释放 FTOH,并通过洗涤、风化或干燥向室外环境释放。在消费品报废时,FTOHs 会从垃圾填埋场释放到空气中,并可在生物固体中检测到。未来的政策不仅需要考虑消费品中 FTOH 的存在,还需要考虑已知的 FTOH 挥发性、向气相的分配以及向全氟辛烷磺酸的转化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Chemical transformation, exposure assessment, and policy implications of fluorotelomer alcohol partitioning from consumer products to the indoor and outdoor environment—from production to end-of-life

Chemical transformation, exposure assessment, and policy implications of fluorotelomer alcohol partitioning from consumer products to the indoor and outdoor environment—from production to end-of-life

Chemical transformation, exposure assessment, and policy implications of fluorotelomer alcohol partitioning from consumer products to the indoor and outdoor environment—from production to end-of-life

Fluorotelomer (FT) alcohols (FTOHs) belong to the subclass of per- and polyfluoroalkyl substances (PFAS) and are used as building blocks of FT-based side chain fluorinated polymers (SCFPs), which are applied to consumer products to provide hydro- and oleophobic characteristics. FTOHs are consistently detected in consumer products, indicating FTOHs as major degradation products of FT-based SCFPs. Literature on FTOHs indicates that much is known about the release of FTOHs during the production, throughout the lifetime, and at the end-of-life of consumer products. This Perspective combines information from FTOHs in consumer products with sufficient knowledge on FTOH volatility, partitioning to the gas phase, and transformation to perfluorocarboxylates (PFCAs) to understand the extent of FTOH release to the environment. In the indoor environment, FTOHs are released in textile factories to the air during the production of consumer products, indicating a potential inhalation risk for the workers. Meanwhile, indoor air FTOH levels at residential sites are estimated to pose low inhalation risk to humans based on studies of 8:2 FTOH, which is known to undergo human metabolism to perfluorooctanoate (PFOA). Release of FTOHs from FT-based SCFP-applied consumer products to the indoor environment throughout the lifetime of the products is known, as well as release to the outdoor environment through washing, weathering, or drying. At the end-of-life of consumer products, FTOHs are released to air from landfills and can be detected in biosolids. Future policies need to not only account for FTOH presence in consumer products, but also the known FTOH volatility, partitioning to the gas phase, and transformation to PFCAs.

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