期刊
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
卷 153, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.rser.2021.111716
关键词
Brazilian aviation; Biojet fuels; Sugarcane; Jatropha; Farnesane; Oxygenated fuels
资金
- Coordination for the Improvement of Higher Education Personnel (CAPES - DS)
- ANP [PRH 34.1 FEG/UNESP]
- FINEP [PRH 34.1 FEG/UNESP]
- MCTI [PRH 34.1 FEG/UNESP]
- National Council for Scientific and Technological Development (CNPq) [305741/2019-5]
The Brazilian aviation sector aims to reduce greenhouse gas emissions by up to 37% by 2030 and 43% by 2050 using alternative fuels. Potential feedstocks for biojet fuel production in Brazil were evaluated, showing a significant amount of available land for feedstock cultivation but highlighting challenges in conversion technologies. A self-sustained integrated process focusing on sugarcane as the main feedstock was found to improve biojet fuel production performance and reduce the need for cultivated lands.
The Brazilian aviation sector aiming to reduce its greenhouse emissions up to 37% by 2030 and up to 43% by 2050 (compared to 2005) using alternative fuels. For this reason, the evaluation of potential feedstock was made for the biojet fuel production focused in the Brazilian context. Four biomass types were proposed (Sugarcane, Jatropha, Soybeans and Eucalyptus), considering three factors: feedstock abundance (without negative impact in population foods), advances in conversion technology, and blend limit already approved by the ASTM International for the use of biojet fuels into fossil jet fuel. Based on this study, it is concluded that Brazil has a great number of available lands for the culture of feedstock from which aviation alternative fuel can be produced, with possible substitution of up to 10% vol. Of fossil jet fuel consumed in the country. However, conversion technologies are still a challenge. Only, Synthetic Paraffinic Kerosene (SPK) obtained by both Fischer Tropsch (FT) process and Alcohol to Jet (ATJ) process offer competitive prices compared to petroleum-based jet fuel. Considering sugarcane as the main feedstock, a self-sustained integrated process was evaluated aiming to increase the production performance of biojet fuel. Four biojet fuels were obtained by this process (ATJ - SPK, FT - SPK, Farnesane and Hexanol), allowing the reduction of up to 19.16% in the number of cultivated lands for sugarcane and up to 56.12% for its forest residues. Finally, the payload versus range ratio was described using the Breguet range equation applied to a possible commercial flight, taking into account all biojet fuels produced from the proposed feedstock including their blends.
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