Environmental Impact and Cost of Bio-based Hydrophobic Multifunctional Coatings
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The circular bioeconomy supports climate action and biodiversity preservation by promoting the use of renewable materials in sustainable production. In this study bio-based betulin, lignin and suberin were used as raw materials for producing the multifunctional hydrophobic coatings. Life cycle assessment (LCA) was used to study the environmental impact of these protective coatings from cradle to gate. The foreground data were collected from laboratory experiments and literature, while background data were sourced from the ecoinvent 3.10 database. The functional unit (FU) used was coating production and application on 1 m 2 of fabric. The environmental impacts and cost were evaluated using Recipe (H) 2016 midpoint method in SimaPro 9.6. The results indicated that per FU, the global warming potential (GWP) was 2.92 kg CO 2 eq. for suberin coating, 2.39 kg CO 2 eq. for betulin coating, and 2.01 kg CO 2 eq. for lignin coating. The sensitivity analysis indicated that replacing ethanol with bioethanol reduced the burden on GWP and fossil resource scarcity (FRS) but increased the burden on the land use (LU), terrestrial ecotoxicity (TE) and human non-carcinogenic toxicity (HNCT). Additionally, the source of energy in the process particularly participation of nuclear and bio-based electricity, was found to influence the results on GWP, IR and LU impact categories. The recycling rate of solvents and the production process of feed stocks (suberin, betulin and lignin) also significantly impacted the results.