Sustainable aviation fuel from ethanol: Techno-economic analysis and life cycle analysis

Uddin, Md Mosleh; Lee, Uisung; Xu, Hui; Li, Yuan; Kwon, Hoyoung; Zhang, Yimin; Smolinski, Sharon; Cai, Hao; Tao, Ling

Sustainable aviation fuel from ethanol: Techno-economic analysis and life cycle analysis

Md Mosleh Uddin, Uisung Lee, Hui Xu, Yuan Li, Hoyoung Kwon, Yimin Zhang, Sharon Smolinski, Hao Cai and Ling Tao

Applied Energy, 2025, vol. 398, issue C, No S0306261925011031

Abstract: Sustainable aviation fuel (SAF) is crucial for improving energy security, enhancing domestic production, and reducing carbon emissions in the aviation sector. Among various SAF production technologies, the ethanol-to-jet (ETJ) pathway is a promising option due to its economic viability and technological maturity. This study integrates a techno-economic analysis (TEA) and a life cycle analysis (LCA) to evaluate emissions reduction strategies for SAF production via the ETJ pathway, considering use of ethanol derived from both corn grain and corn stover. Conventional corn grain-derived ETJ fuel reduces greenhouse gas (GHG) emissions by 22 % compared to fossil jet fuel, with potential reductions of 26 %–96 % when incorporating renewable energy sources, with a 6 %–32 % increase in the minimum fuel selling price (MFSP). Corn stover-derived ETJ achieves a 77 % GHG reduction but with higher MFSPs compared to corn grain ETJ. Carbon capture and storage (CCS without considering the cost for piping and sequestration, only compression) reduces the emissions of corn grain-derived ETJ by up to 32 gCO2e/MJ and enables negative emissions for corn stover-derived ETJ, with MFSP increases ranging from 1 % to 22 %. While carbon capture and utilization (CCU) increase ethanol yield by 47 %, it raises MFSPs by 54 % due to high electricity demand. Sustainable farming practices provide only limited carbon intensity (CI) reductions individually but do offer cumulative benefits when combined. These findings highlight the trade-offs between cost and environmental impact, providing insights to optimize SAF production strategies and support aviation sector goals for emissions reduction.

Keywords: Sustainable aviation fuel (SAF); Ethanol; Emissions reduction; Process simulation; Greenhouse gas emissions; Minimum selling price; TEA; LCA (search for similar items in EconPapers)
Date: 2025
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Persistent link: https://EconPapers.repec.org/RePEc:eee:appene:v:398:y:2025:i:c:s0306261925011031

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DOI: 10.1016/j.apenergy.2025.126373

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