Application of allocation methods in open-loop recycling systems: The carbon footprint of injection molded products based on ABS, PA66GF30, PC and POM

IF 5.4 Q1 ENVIRONMENTAL SCIENCES Resources, conservation & recycling advances Pub Date : 2023-08-02 DOI:10.1016/j.rcradv.2023.200176

Jan Tinz , Tim de Ancos , Fabian Völker , Holger Rohn

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Abstract

The consumption of recyclates in open-loop recycling systems raises the question in Life Cycle Assessments of how environmental impacts caused by raw materials and recycling can be allocated to the corresponding products. To solve the multifunctional issue of material flows, this study applies the 50:50 method as well as the cut-off and end-of-life approach using the Circular Footprint Formula across a cascade of three product life cycles. This analysis is based on injection molded products made of virgin and secondary materials, which consist of ABS, PA66GF30, PC and POM from post-industrial waste. The loss of quality due to production and mechanical recycling processes is reflected in the decrease of tensile strength. By quantifying the impact of allocation, this paper highlights the effects on the Product Carbon Footprint according to ISO 14,067 to show that a 50:50 as well as a cut-off allocation is suitable for the assessment of technical plastics.

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分配方法在开环回收系统中的应用：基于ABS、PA66GF30、PC和POM的注塑制品的碳足迹

开环回收系统中可回收物的消耗在生命周期评估中提出了一个问题，即如何将原材料和回收造成的环境影响分配给相应的产品。为了解决物质流动的多功能问题，本研究在三个产品生命周期的级联中应用50:50方法以及使用循环足迹公式的截止和寿命终止方法。该分析基于由原始材料和二次材料制成的注塑产品，这些材料包括来自后工业废物的ABS、PA66GF30、PC和POM。生产和机械回收过程造成的质量损失反映在抗拉强度的降低上。通过量化分配的影响，本文强调了根据ISO 14067对产品碳足迹的影响，以表明50:50以及截止分配适用于技术塑料的评估。

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