Titlebook: Biojet Fuel: Current Technology and Future Prospect; Arindam Kuila Book 2024 The Editor(s) (if applicable) and The Author(s), under exclus

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Bio-Aviation Fuel via Catalytic Hydrocracking of Waste Cooking Oil,perior product quality, and versatility in meeting stringent jet fuel specification protocols. The jet fuels produced from waste cooking oils through hydrocracking demonstrate exceptional compatibility with industry standards, ensuring seamless integration into existing aviation infrastructure. This

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Techno-Economic Analysis of Biojet Fuel Production,itivity analysis shows how policy incentives and changing feedstock costs affect the overall techno-economic viability. Additionally, this analysis takes into account broader ramifications, like the potential decrease in greenhouse gas emissions and the diversification of energy sources for the avia

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Sustainability of Biojet Fuel,s of the airline sector, but because of its restricted technological development and higher capital expenditures, more study and optimization are needed before it can be implemented on a large scale. Practically, the “optimum” raw materials and advancements in logistics management are significantly

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Current Technological Status and Future Prospect of Biojet Fuel Production,jet fuel, has emerged as a crucial component in the aviation sector’s approach to mitigating both financial expenses and ecological consequences. A collaborative effort is underway among researchers from many sectors, including the aviation industry, government agencies, biofuel companies, agricultu

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General Background and Introduction of Biojet Fuel,ally to be used in aviation, primarily in jet engines, as a replacement for conventional jet fuel. In order to reduce greenhouse gas emissions and the aviation industry’s reliance on fossil fuels, the idea of biojet fuel was developed. A variety of feedstocks, biomass, and algae are being used to ma