Journal
JOURNAL OF CLEANER PRODUCTION
Volume 404, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jclepro.2023.136934
Keywords
Sustainable aviation fuel; Supply chain configuration; Environmental services; Policies and programs; System dynamics; Monte-carlo simulation
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Aviation contributes to global warming through CO2 emissions, non-CO2 compound emissions, and aviation induced cloudiness. Developing and deploying sustainable aviation fuel (SAF) is the most important measure to decarbonize the aviation sector. This study analyzes the impact of policies on the financial aspects, time required for positive net present value, investment risk, and regional supply development of SAF production using financial analysis and a system dynamics approach.
Aviation contributes to global warming through CO2, non-CO2 compound emissions, and aviation induced cloudiness. A suite of measures is needed to decarbonize the aviation sector, the most important being devel-oping and deploying sustainable aviation fuel (SAF). Considerable interest exists in the impact of policies that incentivize the environmental services provided by SAF, and their influence on the return on investment to secure capital investment for production facilities. This paper uses financial analysis and a system dynamics approach to analyze the effect of various policies on 1) the time required for a project to reach a positive net present value (NPV), 2) the magnitude of the NPV at the end of plant life, 3) investment risk and 4) potential regional supply development. Production of SAF from municipal solid waste through gasification Fisher-Tro center dot psch in the U.S. is used as a case study, and the U.S. Northwest for regional development. The results indicate that a successful industry deployment entails strong support during the first three years of production to reach a positive NPV metric, after which it might be competitive with market-based initiatives or by leveraging econ-omies of scale. Initiatives that target CO2e reductions, through criteria or purpose, generate a major impact. Alignment of strategies to increase fuel yield and emission reduction maximize profits. Stacking policies and programs, when maximizing SAF production, reduces the probability of financial loss under 13% for the three plant sizes assessed. This study demonstrates the importance of the valuation and inclusion of environmental services for project success.
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