QUALITY ANALYSIS OF BIODIESEL FROM PALM OIL
DOI:
https://doi.org/10.20956/mca.v17i1.931Abstract
Biodiesel (fatty acid methyl esters or FAME) an alternative fuel to substitute diesel oil or diesel fuel made from oils or fats of vegetable or animal. Oils commonly used for biodiesel fuel, among others palm oil. Biodiesel is produced through the transesterification of oils or esterification of fatty acids. The research objective was to determine the quality of biodiesel from palm oil reflux results through the process of esterification and transesterification. Transesterification reaction is the formation of esters and glycerol from trigliserin (fat/oil) with methanol. Transesterification is a type of equilibrium reaction (reversible, where the addition of NaOH catalyst (chemical catalysts) can accelerate the achievement of a state of equilibrium. The results showed that rendamen biodiesel was obtained by 77% and quality parameters that defined American Society for Testing and Materials (ASTM D6751) has meet the standards in terms of density of 0.8654 g/mL, saponification 5.2979 mg KOH /g of oil, iodine number 18.9184 g I2/100g.Keywords: Quality, biodiesel, palm oilDownloads
References
Azam, M. M., Waris, A. N., dan Nahar,
M. (2005). “Prospects and Potential of
Fatty Acid Methyl Esters of Some Non-
Traditional Seed Oil for Use as Biodiesel
in India”. Biomass and Bioenergy. 29,
-302.
Aziz, Islami. 2007. Oil Transesterification
Reaction Kinetics. Valensia, Vol. 1, No.
Aziz, I., Nurbayati, S., dan Ulum, B.,
, Biodiesel Product Manufacture of
Cooking Oil Alternative Esterification and
Transesterification, Valensia, 2 (3): 443-
Boedoyo. M. S. 2006. Mixing Process
Technology Biodiesel and Diesel Fuel in
indonesia. Prospects for Development of
Biofuel as the Substitution of Fuel Oil.
−61.
Darmawan, F.I., dan Susila, I.W., 2013,
Production Process Biodiesel From Used
Cooking Oil With Washing Method Dry-
Wash System, JTM, 2 (1): 80-87.
Darnoko, D, Cheryan M., 2000. Kinetics
of Palm Oil Transesterification in Batch
Reactor. J. Am. Oil Chem. Soc. 77:1263-
Fessenden, R. J., Fessenden, J. S. 1999,
Organic Chemistry, Volume 1, Third
Edition, Publisher Erlangga, Jakarta
Gunawan, H., 2013, Mandatory biodiesel
can plus 20 percent, www.
Tribunnews.com/bisnis (accessed 29
Januari 2016).
Hendra, Djeni. 2014. Making Biodiesel
From Oil Kemiri Sunan. Forest Products
Research Vol. 32 No. 1, Maret: 37-45.
Knothe, G., 2005, Dependence of
Biodiesel Fuel Properties on The Structur
of Fatty Acid Alkyl Esters, Fuel Proc.
Technol, 86: 1059-1070.
Maulana, Farid. 2011. The use of NaOH
catalyst in the transesterification process
Kemiri Oil into Biodiesel. Journal of
Chemical Engineering and the
Environment Vol. 8, No. 2, page. 73 – 78.
Nirwana, I.H.S., 2012, Effect of Stirring
Speed Process of Making Biodiesel Oil
(Jatropha curcas L) by Using Catalyst
Abu Bunches Palm, Research Institute,
University of Riau, Riau.
Pinto, A.C., Guarieiro, L.L.N., Rezende,
M.J.C., Ribeiro, N.M., Torres, E.A.,
Lopes, W.A., Pereira, P.A.P., and
Andrade, J.B., 2005, Biodiesel: An
Overview. J. Braz. Chem. Soc., 16: 1313–
Prihandana, R., Hendroko, R., dan
Nuramin, M., 2006, Produce Biodiesel
Offers: Overcoming Pollution and Fuel
Scarcity, Agromedia Pustaka: Depok.
Sibuea dan Posman, 2003, Biodiesel Oil
Industry Development, www.kcm.com,
October 2015
Suratno, W., Jumanda, I.K., dan Karlina,
R.R., 2007, Methanol Recovery Process
Oil Biodiesel from Jatropha (Jatropha
curcas oil), National Conference,
University of Padjadjaran, Yogyakarta.
Van Gerpen, Jon. 2004. Biodiesel
Production and Quality. Department of
Biological and Agricultural Engineering.
University of Idaho. Moscow