Crystallization fractionation of palm oil biodiesel as an alternative for improving its cold flow properties

Authors

  • Alirio Yovany Benavides Universidad Nacional de Colombia
  • Pedro Nel Benjumea Universidad Nacional de Colombia
  • Universidad de Antioquia

DOI:

https://doi.org/10.17533/udea.redin.18624

Keywords:

palm oil biodiesel, fractionation, crystallization, cloud point, pour point

Abstract

Palm oil biodiesel (POB) has excellent properties as a fuel for engines. However, due to its highly saturated chemical composition, this biofuel presents a faulty performance at temperatures close to the environmental temperature of several Colombian cities. At 16 ºC, POB begins to form small crystals which grow and form agglomerates as the temperature continues decreasing, in such a way they can completely plug the fuel flow at temperatures between 12 ºC and 9 ºC. In this work, the fractionation technique of POB by crystallization induced by cooling was evaluated for improving its cold flow properties. The cooling or winterization temperature (Tw) and the stabilization time (ts) were the variables taken into account in the fractionation process. According to the values of the cloud point (CP) and pour point (PP) of the POB, the range for Tw tested was very limited (12 ºC-16 ºC). The process allowed the production of a liquid fraction, at Tw, with better cold flow properties than those of the original POB. For the extreme tested conditions (ts=24 hours and Tw=14 ºC), a liquid fraction having a CP of 6 ºC lower than the original POB was obtained. Such a change in the CP corresponded to an increase in the unsaturated methyl esters content of 4,7% and a reduction of the palmitic acid methyl esters content of 5,29%. The induced changes in the chemical composition of liquid fractions did not have significant effects on their fuel basic properties. 

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Author Biographies

Alirio Yovany Benavides, Universidad Nacional de Colombia

Grupo Combustibles Alternativos. Instituto de energía. Facultad de Minas.

Pedro Nel Benjumea, Universidad Nacional de Colombia

Grupo Combustibles Alternativos. Instituto de energía. Facultad de Minas.

, Universidad de Antioquia

Grupo Gimel. Facultad de Ingeniería

References

JAMA, EMA, ACEA. World Wide Fuel Chapter. Tokio. 4th ed. Sept. 2006. pp. 33-52.

L. G. Shumacher, W. Wetherell, J. A. Fisher. “Cold Flow Properties of Biodiesel and its Blends with

Diesel Fuel”. Annual International Meeting ASAE. 1999. Paper No. 99-6133. pp 1-8.

C. Huang, D. Wilson. “Improving the Cold Flow Properties of Biodiesel”. 91st AOCS Annual Meeting. 2000. paper 18071-1. pp 1-10.

J. Soriano. “Ozonized vegetable oil as pour point depressant for neat biodiesel”. Fuel. Vol. 85. 2006. pp. 25-31.

I. Lee, L. A. Johnson, E. G. Hammond. “Use of Branched-Chain Esters to Reduce the C. Huang, D. Wilson Crystallization Temperature of Biodiesel”. JAOCS. Vol. 72. 1995. 1150-1162.

R. O. Dunn, M. Shockley, M. Bagby. “Improving the low temperature properties of alternative diesel fuels:

vegetable oil-derived methyl esters”. JAOCS. Vol. 73. 1996. pp. 1719-1728.

G. Knothe, J. Van Gerpen, J. Krahl. The Biodiesel Handbook. Champaign. 1st. ed. AOCS Press. 2005. pp. 76-122.

I. Lee, L. A. Johnson, E. G. Hammond. “Reducing the crystallization temperature of biodiesel by winterizing

methyl soyate”. JAOCS . Vol. 73. 1996. pp. 631-636.

M. E. Gonzalez. “Winterization of waste cooking oil metil ester to improve cold temperature fuel properties”. Fuel. Vol. 81. 2002. pp. 33-39.

C. Y. May. “Key fuel properties of palm oil alkyl esters”. Fuel. Vol. 84. 2005. pp. 1717-1720.

M. Grabosky, R. McCormick. “Combustion of Fat and Vegetable Oils Derived Fuels in Diesel Engines”. Prog. Energy Combust. Sci. Vol. 24. 1998. pp. 125-164.

P. N. Benjumea, J. R. Agudelo, G. J. Cano. “Estudio experimental de las variables que afectan la reacción de transesterificación del aceite crudo de palma para la producción de biodiesel” Scientia et Technica. Vol. X. 2004. pp. 169-175.

Ministerio de Medio Ambiente y Desarrollo Territorial – Ministerio de Minas y Energía, 2005. Resolución No. 1289 de septiembre 7 de 2005. Bogotá D. C.

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Published

2014-02-25

How to Cite

Benavides, A. Y., Benjumea, P. N., & John Ramiro. (2014). Crystallization fractionation of palm oil biodiesel as an alternative for improving its cold flow properties. Revista Facultad De Ingeniería Universidad De Antioquia, (43), 7–17. https://doi.org/10.17533/udea.redin.18624

Issue

No. 43 (2008): Revista Facultad de Ingeniería (Jan-Mar 2008)

Section

Articles

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