Cold performance of various biodiesel fuel blends at low temperature

International Journal of Automotive Technology - Tập 13 Số 2 - Trang 293-300 - 2012
J. K. Kim1, Eui Soon Yim1, Cheol-Hwan Jeon1, Choong-Sub Jung1, B. H. Han2
1Green Technology R & D Center, Korea Institute of Petroleum Management, Chungbuk, Korea
2Department of Chemistry, Chungnam National University, Daejeon, Korea

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Agarwal, A. K. (2007). Biofuels (alcohols and biodiesel) applications as fuels for internal combustion engines. Progr Energy Combust Sci., 33, 233–271.

Bajai, D. and Tyagi, V. K. (2006). Biodiesel: Source, production, composition, properties and its benefits. J. Oleo Sci., 55, 487–502.

Baveleaar, F. J. and Beynen, A. C. (2003). Relationships between dietary fatty acid composition and either melting point or fatty acid profile of adipose tissue in broilers. Meat Science, 64, 133–140.

Dunn, R. and Bagby, M. O. (1995). Low-temperature properties of triglyceride based diesel fuels:transesterified methyl esters and petroleum distillate. JAOCS 72,12, 895–904.

Dunn, R. O., Shockley, M. W. and Bagby, M. O. (1996). Improving the low temperature properties of alternative diesel fuels. JAOCS 73,12, 1719–1729.

Fangrui, M. and Milford, A. H. (1999). Biodiesel production: A Review. Bioresor Technol., 70, 1–15.

González Gómez, M. E., Howard-Hildige, R., Leady, J. J. and Rice, B. (2002). Winterisation of waste cooking oil methyl ester to improve cold temperature fuel properties. Fuel, 81, 33–39.

Gumusa, M. and Kasifoglu, S. (2010). Performance and emission evaluation of a compression ignition engine using a biodiesel (apricot seed kernel oil methyl ester) and its blends with diesel fuel. Biomass and Bioenergy, 34, 134–139.

Karnwal, A., Hasan, M. M., Kumar, N., Siddiquee, A. N. and Khan, Z. H. (2011). Multi-response optimization of diesel engine performance parameters using thumba biodiesel-diesel blends by applying the taguchi method and grey relational analysis. Int. J. Automotive Technology 12,4, 599–610.

Kazancev, K., Makareviciene, V., Paulauskas, V. and Janulis, P. (2006). Cold flow properties of fuel mixtures containing biodiesel derived from animal fatty waste. Eur. J. Lipid Sci. Technol., 108, 753–758.

Kegl, B. (2008). Biodiesel usage at low temperature. Fuel, 87, 1306–1317.

Keith, O. and Trevor, C. (1995). Automotive fuels reference book, in: appendix 11, CEC code of practice cold weather performance test procedure. Society of Automotive Engineers, 833–864.

Knothe, G. (2005). Dependence of biodiesel fuel properties on the structure of fatty acid alkyl esters. Fuel Process Technol., 86, 1059–1070.

Lapuerta, M., Armas, O. and Rodríguez-Fernández, J. (2008). Effect of biodiesel fuels on diesel engine emissions. Progr. Energy. Combust. Sci., 34, 198–223.

Mittelbach, M. and Remschmidt, C. (2004). Biodisel — the Comprehensive Handbook. Boersedruck GmbH. Graz. Austria.

Monyem, A. and Gerpen, J. H. (2001). The effect of biodiesel oxidation on engine performance and emission. Biomass Energy, 20, 317–325.

Park, J. Y., Kim, D. K., Lee, J. P., Park, S. C., Kim, Y. J. and Lee, J. S. (2008). Blending effects of biodiesels on oxidation stability and low temperature flow properties. Bioresor Technol., 99, 1196–1203.

Rushang, M. J. and Michael, J. P. (2007). Flow properties of biodiesel fuel blends at low temperatures. Fuel, 86, 143–151.

Scholl, K. W. and Sorenson, S. C. (1993). Combustion of soybean oil methyl ester in a direct injection diesel engine. SAE Paper No. 930934.

Sun, J., Caton, J. A. and Jaacobs, T. J. (2010). Oxides of nitrogen emission from biodiesel-fulled diesel engine. Prog. Energy Combust. Sci., 36, 677–695.