How to manage biocomposites wastes end of life? A life cycle assessment approach (LCA) focused on polypropylene (PP)/wood flour and polylactic acid (PLA)/flax fibres biocomposites

•A life cycle assessment of the end of life of two biocomposite wastes is proposed.•The recycling option presents the lowest environmental impacts.•Incineration would be the second preferable option for the PP/WF composite.•Industrial composting is the second best choice for PLA/Fl material. Biocomp...

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Bibliographic Details
Published in:Waste management (Elmsford) 2019-01, Vol.83, p.184-193
Main Authors: Beigbeder, Joana, Soccalingame, Lata, Perrin, Didier, Bénézet, Jean-Charles, Bergeret, Anne
Format: Article
Language:English
Subjects:
Biocomposites
End-of-life
Engineering Sciences
Flax
Flour
France
Humans
Incineration
Life cycle assessment
Materials
Polyesters
Polylactic acid
Polypropylene
Polypropylenes
Vegetal fillers
Waste Management
Wood
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Summary:•A life cycle assessment of the end of life of two biocomposite wastes is proposed.•The recycling option presents the lowest environmental impacts.•Incineration would be the second preferable option for the PP/WF composite.•Industrial composting is the second best choice for PLA/Fl material. Biocomposites has gained increasing attention in recent years. The environmental impacts of end-of-life (EoL) treatments of those emerging materials should be evaluated before they are produced and installed commercially, to ensure a minimal impact of these products all along their life cycle. Life cycle assessment (LCA) was carried out to evaluate environmental impacts of the EoL treatments of wood flour (WF) reinforced polypropylene (PP/WF) and flax fibers reinforced polylactic acid (PLA/Fl). The aim was to evaluate which EoL was the most environmental friendly to manage those emerging wastes in France and to help stakeholders of the waste sectors in their decisions. The attributional LCA was realized using the methodological framework of the international standard ISO 14040:2006. The study only focuses on the EoL of the biocomposites with four scenarios: incineration, landfill, composting and recycling. Mid-point indicators were evaluated thanks to the Recipe method. Results were also normalized to the annual mean environmental impact of a European inhabitant. For both biocomposites, recycling EoL scenario presents the lowest environmental impacts except for the freshwater eutrophication impact of the PP/WF EoL. Models should be completed in the future when new data will be available. Results obtained for both biocomposites are in agreement with the European waste hierarchy. If recycling of plastic is difficult to implement, incineration would be the preferable option for the PP/WF composite, while composting would be the other choice for PLA/Fl material.
ISSN:0956-053X
1879-2456
DOI:10.1016/j.wasman.2018.11.012