Journal
RESOURCES CONSERVATION AND RECYCLING
Volume 166, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.resconrec.2020.105260
Keywords
Alternative jet fuel; Life cycle assessment; Carbon footprint; Low-carbon policies; Attributional modeling; Consequential modeling
Categories
Funding
- BE-Basic Foundation
- CNPq-Brazil
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The potential of Alternative Jet Fuels (AJF) to reduce greenhouse gases (GHG) emissions has discrepancies due to different accounting methods and Low-Carbon Policies (LCPs). Among food-based pathways, sugarcane-based AJF performs best, while soybean-based may have lower GHG reduction potential due to land use change. Residues-based pathways, particularly Fischer-Tropsch of lignocellulosic residues, show the highest potential for GHG reduction.
Although the potential of Alternative Jet Fuels (AJF) to reduce greenhouse gases (GHG) emissions has been widely reported upon in the literature, there are still discrepancies among the results. These may be due to the different GHG accounting methods, including those used by different Low-Carbon Policies (LCPs). To have a clearer understanding of the life cycle performance of AJF, the carbon footprint of ten pathways was estimated, comprising promising feedstocks - such as soybean, palm, sugarcane, sugarcane residues, forestry residues, used cooking oil, beef tallow, and steel off-gases - and ASTM-approved technologies: Hydroprocessed Fatty Acids, Alcohol-to-Jet, and Fischer-Tropsch. Six methodological approaches were used: the attributional and the consequential life cycle assessment, as well as guidelines for the four LCPs: Renovabio (Brazil), CORSIA (aviation sector), RFS (United States), and RED II (Europe). Soybean-based pathway (24 to 98.7 gCO(2e)/MJ) had the low to no potential for reducing GHG when compared to their fossil counterparts, mainly due to land use change. Of all food-based pathways, AJF produced from sugarcane performed the best (-10.4 to 43.7 gCO(2e)/MJ), especially when power surplus was credited. AJF from palm oil could present significant GHG reduction for palm expansion in degraded pasturelands. By contrast, Fischer-Tropsch of lignocellulosic residues showed the highest potential for reducing GHG (-95% to -130%). Different from food-based pathways, the potential GHG reduction of residues-based pathways converged within a narrower range (-130% to -50%), except when residual feedstocks have to be redirected from their current economic use. It could lead to GHG emissions higher than fossil fuel.
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