Unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae
Concerns have been raised about the effects of fossil fuel combustion on global warming and climate change. Fuel consumer behavior is also heavily influenced by factors such as fluctuating fuel prices and the need for a consistent and reliable fuel supply. Microalgae fuel is gaining popularity in th...
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my.uniten.dspace-342492024-10-14T11:18:38Z Unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae Rony Z.I. Mofijur M. Hasan M.M. Ahmed S.F. Almomani F. Rasul M.G. Jahirul M.I. Loke Show P. Kalam M.A. Mahlia T.M.I. 57354117400 57204492012 56039302300 56608467100 57200320566 6603918185 16175713400 47861451300 55103352400 56997615100 Aviation fuel production Climate change Greenhouse gas emission Lipid extraction Microalgae Biofuels Carbon footprint Commerce Consumer behavior Food supply Fossil fuels Global warming Greenhouse gases Microorganisms Oils and fats Aviation fuel Aviation fuel production Aviation industry Decarbonising Fossil fuel combustion Fuel production Global warming and climate changes Greenhouse gas emissions Lipid extraction Micro-algae Microalgae Concerns have been raised about the effects of fossil fuel combustion on global warming and climate change. Fuel consumer behavior is also heavily influenced by factors such as fluctuating fuel prices and the need for a consistent and reliable fuel supply. Microalgae fuel is gaining popularity in the aviation industry as a potential source of energy diversification. Microalgae can grow in saltwater or wastewater, capture CO2 from the atmosphere and produce lipids without requiring a large amount of land. As a result, the production of oil from microalgae poses no threat to food availability. The low carbon footprint of microalgae-derived fuels has the potential to mitigate the impact of traditional aviation fuels derived from petroleum on climate change and global warming. Therefore, aviation fuels derived from microalgae have the potential to be a more environmentally friendly and sustainable alternative to conventional fuels. Gathering microalgal species with a high lipid content, drying them, and turning them into aviation fuel is an expensive process. The use of biofuels derived from microalgae in the aviation industry is still in its infancy, but there is room for growth. This study analyses the potential routes already researched, their drawbacks in implementation, and the many different conceptual approaches that can be used to produce sustainable aviation fuel from microalgal lipids. Microalgae species with fast-growing rates require less space and generate lipids that can be converted into biofuel without imperiling food security. The key challenges in algal-based aviation biofuel include decreased lipid content, harvesting expenses, and drying procedure that should be enhanced and optimized to increase process viability. � 2022 Elsevier Ltd Final 2024-10-14T03:18:38Z 2024-10-14T03:18:38Z 2023 Article 10.1016/j.fuel.2022.126553 2-s2.0-85141488985 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85141488985&doi=10.1016%2fj.fuel.2022.126553&partnerID=40&md5=6fe7f36929e07c58e41455f2a9a8351f https://irepository.uniten.edu.my/handle/123456789/34249 334 126553 Elsevier Ltd Scopus |
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Aviation fuel production Climate change Greenhouse gas emission Lipid extraction Microalgae Biofuels Carbon footprint Commerce Consumer behavior Food supply Fossil fuels Global warming Greenhouse gases Microorganisms Oils and fats Aviation fuel Aviation fuel production Aviation industry Decarbonising Fossil fuel combustion Fuel production Global warming and climate changes Greenhouse gas emissions Lipid extraction Micro-algae Microalgae |
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Aviation fuel production Climate change Greenhouse gas emission Lipid extraction Microalgae Biofuels Carbon footprint Commerce Consumer behavior Food supply Fossil fuels Global warming Greenhouse gases Microorganisms Oils and fats Aviation fuel Aviation fuel production Aviation industry Decarbonising Fossil fuel combustion Fuel production Global warming and climate changes Greenhouse gas emissions Lipid extraction Micro-algae Microalgae Rony Z.I. Mofijur M. Hasan M.M. Ahmed S.F. Almomani F. Rasul M.G. Jahirul M.I. Loke Show P. Kalam M.A. Mahlia T.M.I. Unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae |
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Concerns have been raised about the effects of fossil fuel combustion on global warming and climate change. Fuel consumer behavior is also heavily influenced by factors such as fluctuating fuel prices and the need for a consistent and reliable fuel supply. Microalgae fuel is gaining popularity in the aviation industry as a potential source of energy diversification. Microalgae can grow in saltwater or wastewater, capture CO2 from the atmosphere and produce lipids without requiring a large amount of land. As a result, the production of oil from microalgae poses no threat to food availability. The low carbon footprint of microalgae-derived fuels has the potential to mitigate the impact of traditional aviation fuels derived from petroleum on climate change and global warming. Therefore, aviation fuels derived from microalgae have the potential to be a more environmentally friendly and sustainable alternative to conventional fuels. Gathering microalgal species with a high lipid content, drying them, and turning them into aviation fuel is an expensive process. The use of biofuels derived from microalgae in the aviation industry is still in its infancy, but there is room for growth. This study analyses the potential routes already researched, their drawbacks in implementation, and the many different conceptual approaches that can be used to produce sustainable aviation fuel from microalgal lipids. Microalgae species with fast-growing rates require less space and generate lipids that can be converted into biofuel without imperiling food security. The key challenges in algal-based aviation biofuel include decreased lipid content, harvesting expenses, and drying procedure that should be enhanced and optimized to increase process viability. � 2022 Elsevier Ltd |
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57354117400 |
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57354117400 Rony Z.I. Mofijur M. Hasan M.M. Ahmed S.F. Almomani F. Rasul M.G. Jahirul M.I. Loke Show P. Kalam M.A. Mahlia T.M.I. |
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Article |
author |
Rony Z.I. Mofijur M. Hasan M.M. Ahmed S.F. Almomani F. Rasul M.G. Jahirul M.I. Loke Show P. Kalam M.A. Mahlia T.M.I. |
author_sort |
Rony Z.I. |
title |
Unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae |
title_short |
Unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae |
title_full |
Unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae |
title_fullStr |
Unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae |
title_full_unstemmed |
Unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae |
title_sort |
unanswered issues on decarbonizing the aviation industry through the development of sustainable aviation fuel from microalgae |
publisher |
Elsevier Ltd |
publishDate |
2024 |
_version_ |
1814061111323918336 |