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Delva, Laurens
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Publications (6/6 displayed)
- 2022Quality evaluation and economic assessment of an improved mechanical recycling process for post-consumer flexible plasticscitations
- 2022Quality evaluation and economic assessment of an improved mechanical recycling process for post-consumer flexible plasticscitations
- 2022Quality evaluation and economic assessment of an improved mechanical recycling process for post-consumer flexible plasticscitations
- 2020MFC concept as a possible solution for closed-loop recycling of food packaging trayscitations
- 2015The upcycling of post-industrial PP/PET waste streams through in-situ microfibrillar preparationcitations
- 2013Polystyrene-coated alumina powder via dispersion polymerization for indirect selective laser sintering applicationscitations
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article
Quality evaluation and economic assessment of an improved mechanical recycling process for post-consumer flexible plastics
Abstract
Packaging represents the largest fraction of plastic waste in Europe. Currently, mechanical recycling schemes are mainly focused on the recovery of rigid packaging (like bottles), while for flexible packaging, also called films, recycling rates remain very low. Existing mechanical recycling technologies for these films are quite basic, especially in the case of complicated post-consumer flexible plastics (PCFP) waste, leading to regranulate qualities that are often subpar for renewed use in demanding film applications. In this study, the technical and economic value of an improved mechanical recycling process (additional sorting, hot washing, and improved extrusion) of PCFPs is investigated. The quality of the four types of resulting regranulates is evaluated for film and injection molding applications. The obtained Polyethylene-rich regranulates in blown films offer more flexibility (45-60%), higher ductility (27-55%), and enhanced tensile strength (5-51%), compared to the conventional mechanical recycling process. Likewise, for injection molded samples, they exhibit more flexibility (19-49%), enhanced ductility (7 to 20 times), and higher impact strength (1.8 to 3.8 times). An economic assessment is made between the obtained increased market value and the capital investment required. It is shown that the economic value can be increased by 5-38% through this improved recycling process. Overall, the study shows that it is possible to increase the mechanical recycling quality of PCFP in an economically viable way, thus opening the way for new application routes and overall increased recycling rates.