Global Historical Production, Use, In-Use Stocks, and Emissions of Short‑, Medium‑, and Long-Chain Chlorinated Paraffins

The last few decades have seen ubiquitous and increasing contamination of chlorinated paraffins (CPs) worldwide. Here, we develop the first global inventories of production, use, in-use stocks, and emissions of total CPs, including the short-, medium- and long-chain components (SCCPs, MCCPs, and LCC...

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Published inEnvironmental science & technology Vol. 56; no. 12; pp. 7895 - 7904
Main Authors Chen, Chengkang, Chen, Anna, Zhan, Faqiang, Wania, Frank, Zhang, Shaoxuan, Li, Li, Liu, Jianguo
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 21.06.2022
Subjects
Contaminants in Aquatic and Terrestrial Environments
Contamination
Emission analysis
Emissions
Environmental monitoring
Estimates
Homology
Paraffins
Risk reduction
global production
chlorinated paraffins
emission
homologue profiles
in-use stock
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Summary:The last few decades have seen ubiquitous and increasing contamination of chlorinated paraffins (CPs) worldwide. Here, we develop the first global inventories of production, use, in-use stocks, and emissions of total CPs, including the short-, medium- and long-chain components (SCCPs, MCCPs, and LCCPs) during 1930–2020 using a dynamic substance flow analysis model named Chemical in Products Comprehensive Anthroposhpheric Fate Estimation. The model estimates that a total of ∼33 million metric tons of CPs have been produced and used globally, ∼40% of which still resided in in-use products by 2020 and is available for long-term emissions in the next decades. Global cumulative emissions of CPs have increased to ∼5.2 million metric tons by 2020, with SCCPs, MCCPs, and LCCPs accounting for ∼30, 40, and 30%, respectively. While the production, use, and emissions of CPs started declining in regions such as Western Europe, they remain high in China. The model also suggests that homologues with 10, 14, and 22–23 carbons were predominant in the cumulatively produced and emitted SCCPs, MCCPs, and LCCPs, respectively. The emission estimates were evaluated by generating environmental concentrations that are comparable to literature-reported environmental monitoring data. Our estimates provide opportunities to link the environmental fate and occurrence of CPs to emission sources and lay the basis for future risk-reduction strategies of CPs around the world.
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ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.2c00264