不同成分水瓶的环保性能:从摇篮到大门的方法

Bruno Silva , Inês Costa , Pedro Santana , Maria E. Zacarias , Bruno Machado , Pedro Silva , Sandra Carvalho , Filipa Faria , Catarina Basto-Silva
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引用次数: 0

摘要

近年来,塑料产量不断增加,包装行业占塑料总产量的 44%。本研究首先旨在比较与生产新型再生 PET(rPET)(即 rPET 片材)相关的环境绩效,然后将其与生产原生 PET(vPET)和 rPET 颗粒进行比较。其次,本研究旨在比较四种不同成分的水瓶对环境的影响,即仅使用 vPET 的方案 A、使用 50% vPET 和 50% rPET 粒子的方案 B、使用 75% rPET 粒子和 25% rPET 片料的方案 C 以及使用 50% vPET、25% rPET 粒子和 25% rPET 片料的方案 D。方案 A 被设计为一次性使用的水瓶,而其余方案(方案 B、C 和 D)被认为是可重复使用的水瓶,因此与方案 A 相比更重、更坚固。Ecoibéria 公司和 Logoplaste 公司提供了所需的大部分数据,并考虑了三个功能单元。第一个是 1 公斤 PET 的生产,第二个是不同水瓶的生产,第三个是不同水瓶 2 升水的消耗。结果显示,首先,与 vPET 相比,生产片状 rPET 平均可减少 79% 的影响,而生产 rPET 颗粒可减少 10% 的影响。其次,在生产不同的水瓶时,方案 A(一次性水瓶)在几乎所有类别中对环境的影响都最小。最后,考虑到可重复使用的因素,使用一次性水瓶在所有类别中对环境的影响都较高,这可能是因为生产更重、更结实的可重复使用水瓶所产生的环境影响被多次使用这些水瓶所稀释。
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Environmental performance of different water bottles with different compositions: A cradle to gate approach

Plastic production has increased over the years and the packaging industry was responsible for 44% of the total plastic production. Polyethylene terephthalate (PET), due to its favorable properties, is one of the most used polymers in this sector.

This study first aimed to compare the environmental performance related to the production of a novel recycled PET (rPET) form, namely, rPET flake, and then compare it with the production of virgin PET (vPET) and rPET pellet. Secondly, this study aimed to compare the environmental impacts of four water bottles with different compositions, namely, option A composed with only vPET, option B made with 50% vPET and 50% rPET pellet, option C made with 75% rPET pellet and 25% rPET flake, and option D made with 50% vPET, 25% rPET pellet and 25% rPET flake. Option A was designed as a single-use water bottle, while the remaining options (Options B, C and D) were thought to be reusable bottles, and for that reason were heavier and more robust compared to Option A. The environmental impact assessment followed the International Standard Rules of Life Cycle Assessment (LCA), and the impact assessment method used was the Environmental Product Declaration. Ecoibéria and Logoplaste provided the majority of the required data, and three functional units were considered. The first one was the production of 1 kg of PET, the second was the production of different water bottles, and finally, the third one was the consumption of 2 l of water with different water bottles. As a result, it was first observed that the production of rPET flake in comparison to vPET reduces, on average, 79% of the impacts, and rPET pellet reduces 10% of the impacts. Secondly, in the production of the different water bottles, Option A, the single-use bottle, presented the lowest environmental impacts in almost all categories. Finally, when taking into account the reusable factor, the use of single-use bottles presented the higher environmental impact in all categories, probably because of the dilution of the environmental impacts associated with the production of heavier and robust reusable bottles by the multiple times of uses of these bottles.

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