Reusable beverages packaging: A life cycle assessment of glass bottles for wine packaging

IF 5.3 Q2 ENGINEERING, ENVIRONMENTAL

Cleaner Engineering and Technology Pub Date : 2025-02-12 DOI:10.1016/j.clet.2025.100914

Justus Caspers, Pauline Bade, Matthias Finkbeiner

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Abstract

Bottle production constitutes up to 70% of the greenhouse gas emissions of wine consumption. However, a reuse system comes along with additional environmental burdens, namely via the impact of cleaning processes and increased transport distances for the return of packaging. Hence, the objective of this study is to assess the potential environmental implications associated with both reuse and single-use for wine bottles, by means of life cycle assessment (LCA).

Under the assumption based on wine consumption in Germany, the reusable bottle exhibits a reduced environmental impact in four out of five considered impact categories (climate change, fossil depletion, freshwater consumption, and freshwater ecotoxicity). Sensitivity analysis indicates that even one reuse cycle for wine bottles offers environmental benefit compared over single-use.

It is noteworthy that other studies, which also assess reusable beverage packaging, have reported smaller break-even points for the transport distances. This distinction arises from the study's exclusive focus on glass bottles, which dominate the wine market. In conclusion, a reusable wine bottle system holds the potential would significantly decrease the environmental footprint of wine consumption.

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可重复使用的饮料包装：葡萄酒包装玻璃瓶的生命周期评估

酒瓶生产占葡萄酒消费温室气体排放量的70%。然而，再利用系统伴随着额外的环境负担，即通过清洁过程的影响和包装返回的运输距离的增加。因此，本研究的目的是通过生命周期评估（LCA）来评估与酒瓶重复使用和一次性使用相关的潜在环境影响。在基于德国葡萄酒消费的假设下，可重复使用的瓶子在五个考虑的影响类别（气候变化，化石消耗，淡水消耗和淡水生态毒性）中有四个显示出减少的环境影响。敏感性分析表明，与一次性使用相比，即使是一次重复使用酒瓶也能提供环境效益。值得注意的是，其他研究也评估了可重复使用的饮料包装，报告了运输距离较小的盈亏平衡点。这种区别源于该研究只关注占据葡萄酒市场主导地位的玻璃瓶。总之，一个可重复使用的酒瓶系统拥有的潜力将显著减少葡萄酒消费的环境足迹。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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