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Fuel property enhancement of biodiesel fuels from common and alternative feedstocks via complementary blending

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  • Moser, Bryan R.

Abstract

Fatty acid methyl esters (biodiesel) prepared from field pennycress and meadowfoam seed oils were blended with methyl esters from camelina, cottonseed, palm, and soybean oils in an effort to ameliorate technical deficiencies inherent to these biodiesel fuels. For instance, camelina, cottonseed, and soybean oil-derived biodiesels exhibited poor oxidative stabilities but satisfactory kinematic viscosities. Field pennycress and meadowfoam seed oil methyl esters yielded excellent cold flow properties but high kinematic viscosities. Thus, field pennycress and meadowfoam-derived biodiesel fuels were blended with the other biodiesels to simultaneously ameliorate cold flow, oxidative stability, and viscosity deficiencies inherent to the individual fuels. Highly linear correlations were noted between blend ratio and cold flow as well as viscosity after least squares statistical regression whereas a non-linear relationship was observed for oxidative stability. Equations generated from statistical regression were highly accurate at predicting KV, reasonably accurate for prediction of cold flow properties, and less accurate at predicting oxidative stability. In summary, complementary blending enhanced fuel properties such as cold flow, kinematic viscosity, and oxidative stability of biodiesel.

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  • Moser, Bryan R., 2016. "Fuel property enhancement of biodiesel fuels from common and alternative feedstocks via complementary blending," Renewable Energy, Elsevier, vol. 85(C), pages 819-825.
    • Handle: RePEc:eee:renene:v:85:y:2016:i:c:p:819-825
    DOI: 10.1016/j.renene.2015.07.040
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    2. Rashed, M.M. & Masjuki, H.H. & Kalam, M.A. & Alabdulkarem, Abdullah & Rahman, M.M. & Imdadul, H.K. & Rashedul, H.K., 2016. "Study of the oxidation stability and exhaust emission analysis of Moringa olifera biodiesel in a multi-cylinder diesel engine with aromatic amine antioxidants," Renewable Energy, Elsevier, vol. 94(C), pages 294-303.
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    4. Roschat, Wuttichai & Siritanon, Theeranun & Yoosuk, Boonyawan & Sudyoadsuk, Taweesak & Promarak, Vinich, 2017. "Rubber seed oil as potential non-edible feedstock for biodiesel production using heterogeneous catalyst in Thailand," Renewable Energy, Elsevier, vol. 101(C), pages 937-944.
    5. Sierra-Cantor, Jonathan Fabián & Guerrero-Fajardo, Carlos Alberto, 2017. "Methods for improving the cold flow properties of biodiesel with high saturated fatty acids content: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 72(C), pages 774-790.
    6. Mariana Abreu & Luís Silva & Belina Ribeiro & Alice Ferreira & Luís Alves & Susana M. Paixão & Luísa Gouveia & Patrícia Moura & Florbela Carvalheiro & Luís C. Duarte & Ana Luisa Fernando & Alberto Rei, 2022. "Low Indirect Land Use Change (ILUC) Energy Crops to Bioenergy and Biofuels—A Review," Energies, MDPI, vol. 15(12), pages 1-68, June.
    7. Bacenetti, Jacopo & Restuccia, Andrea & Schillaci, Gianpaolo & Failla, Sabina, 2017. "Biodiesel production from unconventional oilseed crops (Linum usitatissimum L. and Camelina sativa L.) in Mediterranean conditions: Environmental sustainability assessment," Renewable Energy, Elsevier, vol. 112(C), pages 444-456.
    8. Stevens, Jeremiah H. & Taheripour, Farzad, 2020. "A stochastic techno-economic analysis of aviation biofuel production from pennycress seed oil," 2020 Annual Meeting, July 26-28, Kansas City, Missouri 304524, Agricultural and Applied Economics Association.
    9. Mat Yasin, Mohd Hafizil & Mamat, Rizalman & Najafi, G. & Ali, Obed Majeed & Yusop, Ahmad Fitri & Ali, Mohd Hafiz, 2017. "Potentials of palm oil as new feedstock oil for a global alternative fuel: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 79(C), pages 1034-1049.

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