Integrating circularity into Life Cycle Assessment: Circularity with a life cycle perspective

IF 6.1 Q2 ENGINEERING, ENVIRONMENTAL Cleaner Environmental Systems Pub Date : 2024-02-22 DOI:10.1016/j.cesys.2024.100175
Julia Cilleruelo Palomero , Louis Freboeuf , Andreas Ciroth , Guido Sonnemann
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Abstract

With the current efforts on striving towards sustainable development both Life Cycle Assessment (LCA) and circularity have become extremely popular, worldwide. Both are addressing sustainability aspects, yet typically applied separately. LCA counts with dedicated tools and databases, while circularity is commonly calculated with simple tools or even just formulas in excel, ignoring the supply chain. This paper presents a combination of LCA and circularity. The Material Circularity Indicator (MCI) and the Circularity Index (CI) are incorporated into openLCA, and the LCA database Ecoinvent is adapted to trace circularity throughout. This allows to track circularity variables across supply chains and apply circularity indicators in LCA models. Results show that the LCA database mostly presents linear systems, with most datasets having a circularity values close to full linearity. Furthermore, investigations over the cradle-to-grave datasets of a Lithium-ion battery show that the amount of virgin material extracted from earth is actually 43 times bigger than the weight of the battery, and that the overall waste produced is 92 times the weight of the battery. Such high values are overlooked in common circularity indicator calculations. This comprehensive framework aims to contribute to the ongoing dialogue surrounding sustainable practices and circular economy integration within LCA.

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将循环性纳入生命周期评估:从生命周期角度看循环性
随着当前为实现可持续发展所做的努力,生命周期评估(LCA)和循环性在全球范围内都变得极为流行。两者都涉及可持续发展的各个方面,但通常是分开应用的。生命周期评估使用专门的工具和数据库,而循环性通常使用简单的工具,甚至只是使用 excel 中的公式进行计算,忽略了供应链。本文介绍了生命周期评估和循环性的结合。材料循环性指标(MCI)和循环性指数(CI)被纳入 openLCA,而 LCA 数据库 Ecoinvent 经过调整后可全程跟踪循环性。这样就可以跟踪整个供应链中的循环性变量,并在生命周期分析模型中应用循环性指标。结果表明,生命周期评估数据库大多呈现线性系统,大多数数据集的循环性值接近完全线性。此外,对锂离子电池 "从摇篮到坟墓 "数据集的调查显示,从地球上提取的原始材料的数量实际上是电池重量的 43 倍,而产生的总体废物是电池重量的 92 倍。这样高的数值在常见的循环性指标计算中被忽略了。本综合框架旨在为当前围绕可持续实践和循环经济融入生命周期评估的对话做出贡献。
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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来源期刊
Cleaner Environmental Systems
Cleaner Environmental Systems Environmental Science-Environmental Science (miscellaneous)
CiteScore
7.80
自引率
0.00%
发文量
32
审稿时长
52 days
期刊最新文献
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