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(2021) Energy Conversion and Management_Biodiesels from non-catalytic transesterification of plant oils and their performances as aviation fuels

(2021) Energy Conversion and Management_Biodiesels from non-catalytic transesterification of plant oils and their performances as aviation fuels

 

Jung S., Jung J.-M., Lee K.H., Kwon E.E.

 

(Elsevier Ltd) Energy Conversion and Management ISSN: 1968904 Vol.244 Issue. Article No.114479 DOI: 10.1016/j.enconman.2021.114479

 

In accordance with the rapid growth of aviation industry, consumption of aviation fuel played a critical role as one of the major contributors of anthropogenic CO2 emission. As such, the use of aviation fuels derived from the renewable resources have gained considerable attention. To this end, this study theoretically examined the performance of aviation fuels derived from lipids in six plant oils (olive, coconut, soybean, canola, avocado, and sesame). Prior to the thermodynamic calculations, biodiesels were produced by thermally induced non-catalytic transesterification of lipids. A non-catalytic conversion platform led to conversion of plant oils into biodiesels with higher than 90% yield at 380 °C in 1 min, while the base-catalyzed reaction with KOH showed same yields after 8 h of reaction at 60 °C. An ideal gas turbine cycle of an aircraft turbojet engine was adopted to calculate the jet fuel performances of biodiesels from non-catalytic transesterification of six plant oils. As references, performances of conventional jet fuels (Jet A and JP-4) through the turbojet engine were estimated with a constant air supply. For complete combustion of fuels, biodiesels required 14 – 18% more fuel consumption rate than conventional jet fuels. The more fuel consumption rate for combustion of biodiesel led to higher engine and specific thrusts of turbojet engine, comparing to conventional jet fuels. As the result, propulsion and thermal efficiencies of biodiesels were similar with those of conventional jet fuels. Given that biodiesel is considered as a carbon neutral fuel, it was offered that jet fuels blended with biodiesel can contribute to the mitigation of CO2 emissions with no fuel performance change. © 2021 Elsevier Ltd

 

This work was supported by National Research Foundation of Korea (NRF) grants funded by the Korean government (MSIT) ( NRF-2020R1A2C1010748 ). This work was supported by Brain Pool Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT ( NRF-2019H1D3A1A01070644 ). 

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