Viscosity Analysis of Empty Fruit Bunch (EFB) Bio-Oil

Z.S. Nazirah; M.J.M. Ridzuan; S.M. Hafis; A.R. Mohamed; K. Azduwin

doi:10.15282/jmes.5.2013.8.0059

Authors

Z.S. Nazirah Mechanical Engineering Programme, School of Mechatronics Engineering, Universiti Malaysia Perlis 02600 Pauh Putra, Perlis, Malaysia
M.J.M. Ridzuan Mechanical Engineering Programme, School of Mechatronics Engineering, Universiti Malaysia Perlis 02600 Pauh Putra, Perlis, Malaysia
S.M. Hafis Mechanical Engineering Programme, School of Mechatronics Engineering, Universiti Malaysia Perlis 02600 Pauh Putra, Perlis, Malaysia
A.R. Mohamed School of Bioprocess Engineering, Universiti Malaysia Perlis 02600 Arau, Perlis, Malaysia
K. Azduwin School of Bioprocess Engineering, Universiti Malaysia Perlis 02600 Arau, Perlis, Malaysia

DOI:

https://doi.org/10.15282/jmes.5.2013.8.0059

Keywords:

Empty fruit bunch; bio-oil; pyrolysis; viscosity

Abstract

Empty fruit bunches (EFB) are one of the solid wastes produced by the palm oil industry, which is increasing rapidly. The aim of this paper is to analyse the viscosity of empty fruit bunch (EFB) bio-oil that can be extracted from all solid waste EFB as a sample, and a few processes were executed. The samples underwent two processes, which were pre-treatment and pyrolysis. The pre-treatment involved three processes, namely, cutting, shredding and sieving, which were necessary in order to prepare EFB into a particle size suitable for the reactor. After that, the samples were fed into the feedback reactor as feedstock for the pyrolysis process to produce bio-oil. Once the biooil was produced, its viscosity was tested using the Brookfield Viscometer in two conditions: before and after the chemical reaction. The bio-oil was treated by adding 10 ml and 20 ml of acetone respectively through the chemical reaction. The viscosity test was carried out at different temperatures, which were 25°C, 30°C, 35°C, 40°C, 45°C and 50°C respectively. The observed viscosity of the EFB bio-oil varied and was higher as the temperature decreased. In addition, the viscosity of the EFB bio-oil was higher when it reacted chemically with the acetone added. Therefore, the results showed that the chemical reaction with acetone has the potential to increase the viscosity of EFB bio-oil.

References

Abdullah, N. (2005). An assessment of pyrolysis for processing empty fruit bunches. Aston University.

Abdullah, N., & Gerhauser, H. (2008). Bio-oil derived from empty fruit bunches. Fuel, 87(12), 2606-2613.

Gawrilow, I. (2003). Palm oil usage in lubricants. Paper presented at the Proceedings of the third global oils and fats business forum. United States of America.

Hassan, O. A., Ishida, M., Shukri, I. M., & Tajuddin, Z. A. (1994). Oil-palm fronds as a roughage feed source for ruminants in malaysia: Malaysian Agriculture Research and Development Institute (MARDI).

Isahak, W. N. R. W., Hisham, M. W., Yarmo, M. A., & Yun Hin, T.-y. (2012). A review on bio-oil production from biomass by using pyrolysis method. Renewable and Sustainable Energy Reviews, 16(8), 5910-5923.

Omar, R., Idris, A., Yunus, R., Khalid, K., & Aida Isma, M. (2011). Characterization of empty fruit bunch for microwave-assisted pyrolysis. Fuel, 90(4), 1536-1544.

Syahrullail, S., Zubil, B., Azwadi, C., & Ridzuan, M. (2011). Experimental evaluation of palm oil as lubricant in cold forward extrusion process. International journal of mechanical sciences, 53(7), 549-555.

Yiin, C. L. (2013). Stabilization of empty fruit bunch (efb) derived bio oil. from http://utpedia.utp.edu.my/8496/.