Chemical characterization and source attribution of organic pollutants in industrial wastewaters from a Chinese chemical industrial park

Accelerated urbanization and industrialization have led to an alarming increase in the generation of wastewater with complex chemical contents. Industrial wastewaters are often a primary source of water contamination. The chemical characterization of different industrial wastewater types is an essen...

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Bibliographic Details
Published in:Environmental research 2023-07, Vol.229, p.115980-115980, Article 115980
Main Authors: Huang, Yihua, You, Yinong, Wu, Manman, Han, Min, Zhang, Jin, Gao, Wei, Xie, Danping, Chen, Hongzhan, Ou, Hui, Song, Ninghui, Cheng, Chunlei, Zhuang, Wen, Li, Jiaqi, Lei, Zhipeng, Jin, Biao, Zhou, Zhen, Li, Mei
Format: Article
Language:English
Subjects:
China
Environmental Pollutants - analysis
GC × GC-TOF-MS
Non-target analysis
Plasticizers
PMT
Volatile Organic Compounds
Wastewater
Water Pollutants, Chemical - analysis
Water pollution
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Summary:Accelerated urbanization and industrialization have led to an alarming increase in the generation of wastewater with complex chemical contents. Industrial wastewaters are often a primary source of water contamination. The chemical characterization of different industrial wastewater types is an essential task to interpret the chemical fingerprints of wastewater to identify pollution sources and develop efficient water treatment strategies. In this study, we conduct a non-target chemical analysis for the source characterization of different industrial wastewater samples collected from a chemical industrial park (CIP) located in southeast China. The chemical screening identified volatile and semi-volatile organic compounds that included dibutyl phthalate at a maximum concentration of 13.4 μg/L and phthalic anhydride at 35.9 μg/L. Persistent, mobile, and toxic (PMT) substances among the detected organic compounds were identified and prioritized as high-concern contaminants given their impact on drinking water resources. Moreover, a source analysis of the wastewater collected from the wastewater outlet station indicated that the dye production industry contributed the largest quantities of toxic contaminates (62.6%), and this result was consistent with the ordinary least squares and heatmap results. Thus, our study utilized a combined approach of a non-target chemical analysis, a pollution source identification method, and a PMT assessment of different industrial wastewater samples collected from the CIP. The results of the chemical fingerprints of different industrial wastewater types as well as the results of the PMT assessment benefit risk-based wastewater management and source reduction strategies. •Chemical pollutants are characterized based on non-target and target analyses.•Different industrial wastewaters carry different chemical emission patterns.•PMT substances are identified to assess the negative impact on water resources.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2023.115980