Life cycle assessment of plastic waste in Suzhou, China: Management strategies toward sustainable express delivery

The explosive growth of China's express delivery industry has greatly increased plastic waste, with low-value plastics not effectively utilized, such as PE packaging bags, which are often not recycled and end up in landfills or incinerators, causing significant resource waste and severe plastic...

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Veröffentlicht in:Journal of environmental management 2024-06, Vol.360, p.121201-121201, Article 121201
Hauptverfasser: Xu, Tingting, Yang, Jie, Shao, Zhijuan, Shen, Chunqi, Yao, Fenggen, Xia, Jinyu, Zheng, Jiaxing, Wu, Yulian, Kan, Shiye
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Sprache:eng
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Zusammenfassung:The explosive growth of China's express delivery industry has greatly increased plastic waste, with low-value plastics not effectively utilized, such as PE packaging bags, which are often not recycled and end up in landfills or incinerators, causing significant resource waste and severe plastic pollution. A gate -to- grave life cycle assessment was adopted to assess the impacts of express delivery plastic waste (EDPW) management models (S1, landfill; S2, incineration; S3, mechanical pelletization), with Suzhou, China as a case. Results showed that mechanical pelletization, was the most environmentally advantageous, exhibiting a comprehensive environmental impact potential of −215.54 Pt, significantly lower than that of landfill (S1, 78.45 Pt) and incineration (S2, -121.77 Pt). The analysis identified that the end-of-life disposal and sorting stages were the principal contributors to environmental impacts in all three models, with transportation and transfer stages of residual waste having minimal effects. In terms of all environmental impact categories, human carcinogenic toxicity (HTc) emerged as the most significant contributor in all three scenarios. Specifically, S1 exhibited the most detrimental effect on human health, while S2 and S3 showed positive environmental impacts. Based on these findings, it is recommended that the application and innovation in mechanical recycling technologies be enhanced, the promotion of the eco-friendly transformation of packaging materials be pursued, and a sustainable express delivery packaging recycling management system be established. These strategies are essential for achieving more eco-friendly management of EDPW, reducing its environmental pollution, and moving towards more sustainable express delivery management practices. •Three express delivery plastic waste (EDPW) management models are evaluated with LCA.•Mechanical pelletization is determined as the most sustainable EDPW management models.•End-of-life disposal as a hotspot in EDPW management's environmental impact.•Several strategies for sustainable express delivery management are recommended.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2024.121201