Konsentrasi Katalis dan Suhu Optimum pada Reaksi Esterifikasi menggunakan Katalis Zeolit Alam Aktif (ZAH) dalam Pembuatan Biodiesel dari Minyak Jelantah
Abstract
Transesterification of waste cooking oil into biodiesel using KOH catalyst with and without esterification process usingactivated natural zeolite (ZAH) catalyst has been carried out. Activation of the zeolite was done by refluxing with HCl 6Mfor 30 min, followed calcining and oxydized at 500oC for 2 hours, consecutively. The transesterification without esterificationprocess were done using KOH catalyst 1% (w/w) from oil and methanol weight and oil/methanol molar ratio 1:6 at 60oC. Theesterification reaction was also done using ZAH catalyst then continued by transesterification using KOH catalyst inmethanol media. In order to study the effect of ZAH catalyst concentration at constant temperature, the catalysts werevaried, i.e. 0, 1, 2, and 3% (w/w). To investigate the effect of temperature, the experiments were done at various temperaturefrom 30, 45, 60, and 70oC at constant catalyst concentration. The conversion of biodiesel was determined by 1H-NMRspectrometer and physical properties of biodiesel were determined using ASTM standard methods. The results showedthat the transesterification using KOH catalyst without esterification produced biodiesel conversion of 53.29%. The optimumcondition of biodiesel synthesis via esterification process were reached at 60oC and concentration of ZAH catalyst of2% (w/w), that could give biodiesel conversion = 100.00%. The physical properties were conformed with biodiesel ASTM2003b and Directorate General of Oil and Gas 2006 specification.
Keywords
Full Text:
PDFReferences
ASTM. 2003a. Annual Book of ASTM Standards, 5, 05.01 West Conshohocken: ASTM International.
ASTM. 2003b. Annual Book of ASTM Standards, 5, 05.04. West Conshohocken: ASTM International.
ASTM. 2006b. Annual Book of ASTM Standards, 5, 05.04, West Conshohocken: ASTM International.
BPStatistical Review of World Energy. 2010. Energy in 2009 from recession to recovery. bp.com/statisticalreview (20 Mei 2010).
Carmo Jr. A.C., De Souza, L.K.C., Da Costa, C.E.F., Longo, E., Zamian, J.R & Da Rocha Filho, G.N. 2009. Production of biodiesel by esterification of palmitic acido over mesoporous aluminosilicate Al-MCM-41. Fuel 88(3): 461-468.
Chhetri, A.B., Watts, K.C & Islam, M.R. 2008. Waste cooking oil as an alternate feedstock for biodiesel production. Energies 1: 3-18.
Chung K.H & Park B.G. 2009. Esterification of oleic acid in soybean oil on zeolite catalysts with different acidity. J Ind Eng Chem 15: 388-392.
Dirjen Migas. 2006. Spesifikasi Bahan Bakar Minyak Jenis Solar 48, Nomor: 3675 K/24/DJM/2006. Jakarta: 17
Maret 2006.
Gerpen, J.V. 2005. Biodiesel processing and production. Fuel Process Technol 86: 1097–1107.
Heraldy, E., Hisyam, S.W & Sulistyono. 2003. Karakterisasi dan aktivasi zeolit alam Ponorogo. Indo J Chem 3(2): 91-97.
Kac, A. 2000. The Two-Stage Adaptation of Mike Pelly’s Biodiesel Recipe (For Advanced Biofuelers). http:// journeytoforever.org/ (14 November 2005).
Kartika, D. 2008. Hidrogenasi katalitik metil palmitat menjadi setil alkohol dengan katalis Ni/NZSiA. Tesis Pasca Sarjana. Yogyakarta: UGM.
Khairinal & Trisunaryanti, W. 2000. Dealuminasi zeolit alam wonosari dengan perlakuan asam dan proses hidrotermal. Prosiding Seminar Nasional Kimia VIII. Universitas Gajah Mada,Yogyakarta. Yogyakarta: FMIPA-UGM.
Khan, A.K. 2002. Research into Biodiesel, Kinetics & Catalyst Development. Brisbane: Department of Chemical Engineering Queensland University.
Kiss, A.A., Dimian A.C & Rothenberg, G. 2006. Solid acid catalysts for biodiesel production–towards sustainable energy. Adv Synth Catal 348: 75–81.
Knothe, G. 2000. Monitoring a progressing transesterification reaction by fiber-optic near infrared spectroscopy with correlation to 1H Nuclear magnetic resonance spectroscopy. J Am Oil Chem Soc 77(9483): 489–493.
Knothe, G., Dunn, R.O & Bagby, M.O. 1997. Biodiesel: The use of vegetable oils and their derivatives as alternative diesel fuels, fuels and chemicals from biomass. ACS Symposium Series, V, 666.
Lee, D.W., Park Y.M & Lee, K.Y. 2009. Heterogeneous base catalysts for transesterification in biodiesel synthesis. Catal Surv Asia 13: 63–77.
Lou W.Y, Zong M.H & Duan Z.Q. 2008. Efûcient production of biodiesel from high free fatty acid-containing waste oils using various carbohydrate-derived solid acid catalysts. Bioresource Technol 99: 8752–8758.
Pachenkov, G.M & Lebedev, V.P. 1976. Chemical Kinetic and catalysis,2 ed Ed. Moscow: Mir Publishers.
Pinto, A.C., Guarieiro, L.L.N., Rezende, M.J.C., Ribeiro, N.M., Torres, E.A., Lopes, W.A., de P Pereira, P.A & de Andrade, J.B. 2005. Biodiesel: An overview. Braz Chem Soc 16(6B): 1313-1330.
DOI: http://dx.doi.org/10.31258/jni.14.3.%25p
Refbacks
- There are currently no refbacks.
Copyright (c) 2013 Dwi Kartika, Senny Widyaningsih
This work is licensed under a Creative Commons Attribution 4.0 International License.