Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Sign in to save

The effects of polypropylene microplastics on the DBP formation under the chlorination and chloramination processes

Chemosphere 2022 19 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Tianwei Hao, Tianwei Hao, Tianwei Hao, Xuhua Cheng, Min Zhang Yuanyuan Dou, Xuhua Cheng, Min Zhang Yuanyuan Dou, Manhong Miao, Yao Li, Yuanyuan Dou, Yuanyuan Dou, Manhong Miao, Manhong Miao, Xuhua Cheng, Manhong Miao, Xuhua Cheng, Yuanyuan Dou, Xuhua Cheng, Manhong Miao, Min Zhang Min Zhang Min Zhang Min Zhang Xuhua Cheng, Yao Li, Xuhua Cheng, Xuhua Cheng, Min Zhang Manhong Miao, Min Zhang Yuanyuan Dou, Manhong Miao, Manhong Miao, Yuanyuan Dou, Manhong Miao, Min Zhang Xuhua Cheng, Yao Li, Xuhua Cheng, Manhong Miao, Yuanyuan Dou, Xuhua Cheng, Xuhua Cheng, Manhong Miao, Manhong Miao, Tianwei Hao, Min Zhang Manhong Miao, Min Zhang Manhong Miao, Yao Li, Manhong Miao, Min Zhang Yao Li, Min Zhang Manhong Miao, Yuanyuan Dou, Yuanyuan Dou, Min Zhang Tianwei Hao, Min Zhang Min Zhang Xuhua Cheng, Xuhua Cheng, Min Zhang Xuhua Cheng, Xuhua Cheng, Yuanyuan Dou, Yao Li, Yao Li, Manhong Miao, Yuanyuan Dou, Yao Li, Min Zhang Yuanyuan Dou, Yao Li, Yao Li, Min Zhang Min Zhang Yao Li, Yuanyuan Dou, Min Zhang Min Zhang Min Zhang Yao Li, Yao Li, Yao Li, Yao Li, Yao Li, Yao Li, Yao Li, Min Zhang

Summary

Researchers investigated the formation of six disinfection by-products (DBPs) during chlorination and chloramination of water in the presence of polypropylene microplastics (PP MPs) under varying aquatic chemistry conditions. They found that PP MPs acted as DBP precursors under chlorination, but co-presence of Suwannee River Fulvic acid suppressed DBP formation by 56%, with pH and salinity further modulating the balance between PP as a precursor or organic scavenger.

Polymers

Study Type Environmental

With the increased use of microplastics in modern society, tonnes of various microplastics (MPs) end up in natural and engineered water systems if not properly handled. Being a class of organics, the role of MPs during the disinfection of water treatment systems is still unclear at this stage. In the current experimental study, the formation of 6 typical disinfection by-products (DBPs) was investigated using varying concentrations of polypropylene (PP) MPs under various aquatic chemistry conditions and disinfectants. All investigated DBPs were detected, during the chlorination of PP, with an average CHCl concentration of 378 μg/g, and other DBPs, including CHClBr, TCA, DCAN, 1,1-DCP, and TCNM, were present in less than 60 μg/g, on average. When PP coexisted with Suwannee River Fulvic acid (SRFA), a suppression of DBP formation was observed with a 56% net reduction compared with a condition of PP alone. The dynamic balance of being a DBP precursor, or a scavenger, by absorbing the organics of PP is subjected to aquatic chemistry. Increasing the pH decreases the HOCl concentrations, reducing the PP oxidation capacity and DBP formation. As salinity increases, the aggregation of PP can reduce the reaction sites on the surface of PP and enhance the adsorption of SRFA, hence lowering the formation of DBPs.

Read via DOI PubMed

Share this paper

Post Share Share Pin Email