Recent advancements in sustainable aviation fuels

IF 11.5 1区 工程技术 Q1 ENGINEERING, AEROSPACE Progress in Aerospace Sciences Pub Date : 2023-01-01 DOI:10.1016/j.paerosci.2022.100876
Vamsikrishna Undavalli, Olanrewaju Bilikis Gbadamosi Olatunde, Rahim Boylu, Chuming Wei, Josh Haeker, Jerry Hamilton, Bhupendra Khandelwal
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引用次数: 12

Abstract

Sustainable alternative fuels, or SAFs, are recognized to have lower carbon footprints and emit fewer greenhouse emissions. As a carbon-neutral alternative and intended drop-in fuels, SAFs would be an appropriate path forward for sustainable aviation. Current approved drop-in fuels enable 50% blending of SAFs, which decreases CO2 emissions up to 40%. However, CO2 emissions can be reduced much further by using 100% SAFs or hydrogen. Comprehensive analysis of SAFs in terms of their operational performance, impact on gaseous and particulate emissions, seal swell, engine and fuel systems compatibility, blow-off limits, ignition and relight, vibrations, and noise is essential to move towards 100% SAFs. Furthermore, SAF has been demonstrated to reduce other emissions like NOx, particulate and CO2 emissions subjective to the fuel production pathways. Therefore, engineering novel fuels and innovative production pathways may lower emissions and reduce the costs of aircraft system design and operation, resulting in cheaper air travel. This study thoroughly examined and discussed all the aspects mentioned above. Hydrogen, a potential competitor for SAFs, has also been analyzed in this study in terms of future production capability to meet aviation needs and the impact of hydrogen combustion on design changes, emissions, and fuel systems. Furthermore, to reduce experimental costs related to SAFs, this study explored approaches for modeling and predicting novel fuel performance in the preliminary stages of fuel assessment.

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可持续航空燃料的最新进展
可持续替代燃料(SAF)被认为具有较低的碳足迹和较少的温室气体排放。作为一种碳中和的替代燃料和预期的淘汰燃料,SAF将是可持续航空的适当前进道路。目前批准的燃料减少可以使SAF混合50%,从而将二氧化碳排放量减少40%。然而,使用100%SAF或氢气可以进一步减少二氧化碳排放。全面分析SAF的运行性能、对气体和颗粒物排放的影响、密封膨胀、发动机和燃料系统兼容性、排放限值、点火和重新点火、振动和噪音,对于实现100%SAF至关重要。此外,SAF已被证明可以减少燃料生产途径主观的其他排放,如NOx、颗粒物和CO2排放。因此,设计新型燃料和创新的生产途径可以降低排放,降低飞机系统设计和运营成本,从而降低航空旅行成本。本研究对上述各方面进行了全面的考察和讨论。本研究还从满足航空需求的未来生产能力以及氢气燃烧对设计变更、排放和燃料系统的影响等方面分析了SAF的潜在竞争对手氢气。此外,为了降低与SAF相关的实验成本,本研究探索了在燃料评估的初步阶段对新型燃料性能进行建模和预测的方法。
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来源期刊
Progress in Aerospace Sciences
Progress in Aerospace Sciences 工程技术-工程:宇航
CiteScore
20.20
自引率
3.10%
发文量
41
审稿时长
5 months
期刊介绍: "Progress in Aerospace Sciences" is a prestigious international review journal focusing on research in aerospace sciences and its applications in research organizations, industry, and universities. The journal aims to appeal to a wide range of readers and provide valuable information. The primary content of the journal consists of specially commissioned review articles. These articles serve to collate the latest advancements in the expansive field of aerospace sciences. Unlike other journals, there are no restrictions on the length of papers. Authors are encouraged to furnish specialist readers with a clear and concise summary of recent work, while also providing enough detail for general aerospace readers to stay updated on developments in fields beyond their own expertise.
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