Highly efficient kilogram-scale mechanochemical catalytic depolymerization of PET polyester waste into reusable monomers

Highly efficient kilogram-scale mechanochemical catalytic depolymerization of PET polyester waste into reusable monomers

[Display omitted] •Kilogram-scale PET waste was mechanochemically depolymerized efficiently.•Monomers with ≥97 % yield in a planetary ball mill at 400 rpm for 80 min.•Waste includes plastic bottles and various textiles with different PET content.•This approach paves the way for a sustainable closed-...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 500; p. 157131
Main Authors: Cai, Shuhan, Li, Yizhuo, Wang, Yajie, Guo, Zijian, Liu, Biying, Huang, Liyun, Beiyuan, Jingzi, Liu, Defei, Cha, Ruitao, Yuan, Wenbing
Format: Journal Article
Language:English
Published: Elsevier B.V 15-11-2024
Subjects:
Closed-loop recycling
Kilogram-scale
Mechanochemical depolymerization
PET polyester waste
Planetary ball mill
Closed-loop recycling
Kilogram-scale
PET polyester waste
Planetary ball mill
Mechanochemical depolymerization
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Summary:[Display omitted] •Kilogram-scale PET waste was mechanochemically depolymerized efficiently.•Monomers with ≥97 % yield in a planetary ball mill at 400 rpm for 80 min.•Waste includes plastic bottles and various textiles with different PET content.•This approach paves the way for a sustainable closed-loop PET value chain. Efficient chemical upcycling of polyethylene terephthalate (PET) waste into value-added chemicals has attracted considerable attention in a broad range of environmental and energy fields. The mechanochemical depolymerization of PET waste emerges as a potential approach for large-scale industrial applications, enabling the conversion of PET waste into reusable monomers. Herein, we conducted a pilot-scale test by depolymerization of 1 kg of PET waste in a planetary ball mill. The incremental optimization of the depolymerization process was investigated systematically by adjusting parameters such as the type of ball mill, the ratio of liquid volume to solid mass, the grinding jars, and the milling frequency. Remarkably, monomers with a yield of more than 97 % when converting kilogram-scale PET waste, including used textiles and plastic bottles, were achieved in a planetary ball mill at 400 rpm for 80 min. This notable enhancement will substantially benefit future potential industrial-scale applications.
ISSN:1385-8947
DOI:10.1016/j.cej.2024.157131