环境修复
环境科学
环境化学
环境保护
氯化石蜡
环境工程
废物管理
氯化溶剂
污染物
水污染
地下水修复
人体净化
污染
危险废物
环境影响评价
污染
作者
Yuyuan Ma,Qianqian Li,Guijin Su,Huangnan Duan,Tieyu Wang,Jong Seong Khim,Seongjin Hong,Bohua Sun,Jing Meng,Bin Shi
标识
DOI:10.1080/10643389.2025.2566941
摘要
Chlorinated paraffins (CPs), especially short-chain (SCCPs) and medium-chain (MCCPs) homologues, have become a global concern due to their highly toxic and persistent. However, there remains a limited and fragmented understanding of their distribution and hotspots across diverse environmental matrices worldwide, and research on effective control measures is even more deficient. This study investigated the global occurrence of CPs in multiple environmental matrices and reviewed existing degradation technologies. Emissions from industrial activities, product usage and environmental matrices exchanges have led to widespread CPs contamination mainly encompassing SCCPs and MCCPs, with average concentrations of 10−3–103 ng/m3 in atmosphere, 10–103 ng/L in water and 1–105 ng/g dw in sediment, as well as 1–106 ng/g dw in soil. In contrast, data on long-chain CPs (LCCPs) remain extremely limited. The available long-term atmospheric monitoring demonstrated both the effectiveness of regulatory controls and the delayed environmental response due to long-range atmospheric transport. The environmental migration of CPs is strongly influenced by carbon chain length and degree of chlorination. Current degradation technologies primarily focus on pyrolysis, photolysis, photocatalysis, microbial degradation, and phytoremediation. Mechanisms and efficiency analyses revealed that major challenges include by-products and the limited scalability of technologies beyond laboratory settings. By systematically linking contaminations profiles to suitable treatment options, we proposed a targeted CPs pollution remediation strategy. These insights aim to advance global CPs government and support the implementation of the Stockholm Convention.
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