TY - JOUR
T1 - Can we improve the environmental benefits of biobased PET production through local biomass value chains? – A life cycle assessment perspective
AU - García-Velásquez, Carlos A.
AU - Van der Meer, Yvonne
PY - 2022/12/20
Y1 - 2022/12/20
N2 - The transition to a bioeconomy is one of the ambitions of the European Union for 2030. Biobased industries play an essential role in this transition. However, there has been an on-going discussion about the actual benefit of using biomass to produce biobased products, specifically the use of agricultural materials (e.g., corn and sug-arcane). This paper presents the environmental impact assessment of 30% and 100% biobased polyethylene terephthalate production using European biomass supply chains (e.g., sugar beet, wheat, and miscanthus). An integral assessment between the life cycle assessment methodology and the global sensitivity assessment is presented as an early-stage support tool to propose and select supply chains that improve the environmental performance of biobased polyethylene terephthalate production. From the results, miscanthus is the best option for the production of biobased polyethylene terephthalate: promoting European local supply chains, reducing greenhouse gas emissions (process and land-use change), and generating lower impacts in midpoint categories related to resource depletion, ecosystem quality, and human health. This tool can help improving the environ-mental performance of processes that could boost the shift to a bioeconomy.
AB - The transition to a bioeconomy is one of the ambitions of the European Union for 2030. Biobased industries play an essential role in this transition. However, there has been an on-going discussion about the actual benefit of using biomass to produce biobased products, specifically the use of agricultural materials (e.g., corn and sug-arcane). This paper presents the environmental impact assessment of 30% and 100% biobased polyethylene terephthalate production using European biomass supply chains (e.g., sugar beet, wheat, and miscanthus). An integral assessment between the life cycle assessment methodology and the global sensitivity assessment is presented as an early-stage support tool to propose and select supply chains that improve the environmental performance of biobased polyethylene terephthalate production. From the results, miscanthus is the best option for the production of biobased polyethylene terephthalate: promoting European local supply chains, reducing greenhouse gas emissions (process and land-use change), and generating lower impacts in midpoint categories related to resource depletion, ecosystem quality, and human health. This tool can help improving the environ-mental performance of processes that could boost the shift to a bioeconomy.
U2 - 10.1016/j.jclepro.2022.135039
DO - 10.1016/j.jclepro.2022.135039
M3 - Article
SN - 0959-6526
VL - 380
SP - 135039
JO - Journal of Cleaner Production
JF - Journal of Cleaner Production
M1 - 135039
ER -