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Life cycle assessment of mechanical recycling of low-density polyethylene into film products – towards the need for life cycle thinking in product design

Lukas Zeilerbauer, Joerg Fischer, Karin Fazeni‐Fraisl, Moritz Mager, Johannes Lindorfer, Christian Paulik

2024Resources Conservation and Recycling18 citationsDOIOpen Access PDF

Abstract

In this study, we conducted LCA on the environmental impacts of recycling LDPE films within two system boundaries. System boundary 1 analysed the operations of a recycling company producing recycled LDPE granules. The results were comparable to the literature, yielding 0.44 kg CO2-eq./kg LDPE. Polymer testing revealed that recycled LDPE foil products had a higher mass per product than virgin materials to compensate for inferior material properties. System boundary 2 was modelled to analyse existing film products, incorporating both recycled and virgin LDPE and using data from system boundary 1, to fulfil the same function. Due to the incineration at the products’ end of life, some recycled products showed higher climate change footprint, due to the additional mass. Accordingly, the idea of a threshold called the environmental break-even was introduced, indicating the maximum surplus of low-quality recyclate usable to achieve the same climate change impact than a purely virgin competitor.

Topics & Concepts

Low-density polyethyleneProduct (mathematics)Life-cycle assessmentProduct lifecycleEnvironmental scienceWaste managementPolyethyleneMaterials scienceProcess engineeringEngineeringNew product developmentBusinessComposite materialMathematicsMarketingEconomicsProduction (economics)MacroeconomicsGeometryEnvironmental Impact and SustainabilityRecycling and Waste Management TechniquesMicroplastics and Plastic Pollution
Life cycle assessment of mechanical recycling of low-density polyethylene into film products – towards the need for life cycle thinking in product design | Litcius