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

Stepwise flotation separation of WEEE plastics by polymeric aluminum chloride towards source control of microplastics

Waste Management 2022 26 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 40 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Hongru Jiang, Hongru Jiang, Chongqing Wang Hongru Jiang, Hongru Jiang, Hongru Jiang, Yingshuang Zhang, Chongqing Wang Hongru Jiang, Chongqing Wang Zhiyi Wang, Kai Bian, Chongqing Wang Chongqing Wang Hongru Jiang, Hui Wang, Hui Wang, Hongru Jiang, Hongru Jiang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hongru Jiang, Hongru Jiang, Hongru Jiang, Chongqing Wang Hongru Jiang, Hongru Jiang, Yingshuang Zhang, Yingshuang Zhang, Hongru Jiang, Chongqing Wang Chongqing Wang Chongqing Wang Hongru Jiang, Yingshuang Zhang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Kai Bian, Kai Bian, Kai Bian, Kai Bian, Kai Bian, Kai Bian, Yingshuang Zhang, Hui Wang, Hui Wang, Chongqing Wang Hui Wang, Chongqing Wang Hui Wang, Hui Wang, Chongqing Wang Yingshuang Zhang, Hui Wang, Hui Wang, Hui Wang, Hongru Jiang, Chongqing Wang Hui Wang, Chongqing Wang Hui Wang, Kai Bian, Kai Bian, Hui Wang, Zhiyi Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Chongqing Wang Hui Wang, Zhiyi Wang, Chongqing Wang Chongqing Wang Chongqing Wang Hui Wang, Hui Wang, Hongru Jiang, Hui Wang, Chongqing Wang Chongqing Wang Zhiyi Wang, Zhiyi Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Chongqing Wang Chongqing Wang Hongru Jiang, Chongqing Wang Chongqing Wang Chongqing Wang Chongqing Wang Hongru Jiang, Hongru Jiang, Chongqing Wang Chongqing Wang Hui Wang, Hui Wang, Hui Wang, Hongru Jiang, Chongqing Wang Chongqing Wang Chongqing Wang Hui Wang, Chongqing Wang Hongru Jiang, Chongqing Wang Chongqing Wang

Summary

Researchers developed a stepwise flotation separation process using polymeric aluminum chloride to sort and recover mixed plastics from waste electrical and electronic equipment (WEEE), demonstrating improved separation efficiency and positioning the approach as a strategy to reduce microplastic pollution from e-waste mismanagement.

Polymers

ABS PE PET PS

The mismanagement of waste electrical and electronic equipment (WEEE) resulted in numerous discarded plastics in the natural environment, and these waste plastics might experience aging, breaking, and migration, which becomes a crucial microplastic source. Sustainable management of WEEE plastics presents a considerable opportunity for resource recovery and microplastic pollution prevention. Flotation separation is a significant process of mechanical recycling, while most flotation methods can only deal with binary plastic mixtures. In this work, an advanced, stepwise, and sustainable flotation method was advocated to separate multi-plastics by polymeric aluminum chloride (PAC) modification. The abundant hydrophilic groups and environmental friendliness of PAC prompted us to further investigate the wetting effect. PAC had varied hydrophilization effects on acrylonitrile butadiene styrene (ABS) and polystyrene (PS) surfaces, but polyethylene terephthalate (PET) retained hydrophobicity. Treatment conditions, including PAC dosage, temperature, time, and pH were optimized. 100% of PET could be purified after primary separation, and the purities of ABS and PS could reach 100% and 97.4% after secondary separation, respectively. The strength of the interaction was determined by the different surface potentials and functional groups. In PAC solution, long-chain molecules or ions might interact with plastic surfaces electrostatically, and Al could bridge long-chain molecules and plastic surfaces, thereby strengthening the polymer hydrophilicity. We further improved the PAC treatment process, and the reuse of PAC reduced modifier usage to 84.4 g/ton waste plastics, which was cost-effective in industrial applications. A preliminary evaluation of the energy consumption and environmental impact indicated that PAC treatment was superior to other modification methods. This work is an initial attempt at the stepwise separation of waste plastic and shows promising prospects for recycling plastic waste.

Read via DOI PubMed

Share this paper

Post Share Share Pin Email