Authors: Ude N. Callistus, Amulu F. Ndidi, Onukwuli D. Okechukwu, Amulu E. Patrick

Abstract:

Power law approximation was used in this study to evaluate the reaction orders of calcium oxide, CaO catalyzed transesterification of refined cottonseed oil and methanol. The kinetics study was carried out at temperatures of 45, 55 and 65 ^oC. The kinetic parameters such as reaction order 2.02 and rate constant 2.8 hr^-1g^-1cat, obtained at the temperature of 65 ^oC best fitted the kinetic model. The activation energy, Ea obtained was 127.744 KJ/mol. The results indicate that the transesterification reaction of the refined cottonseed oil using calcium oxide catalyst is approximately second order reaction.

Keywords: Refined cottonseed oil, transesterification, CaO, heterogeneous catalysts, kinetic model.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1124881

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1663

References:

[1] Fan, X., Wang, X., Chen, F., 2011. Biodiesel production from crude cottonseed oil; An optimization process using Response Surface Methology. The Open Feuls and Energy Science Journal, 4, 1-8.
[2] Demirbas, A., 2009. Progress and recent trends in biodiesel fuels. Energy Conversion and Management 50, 14-34.
[3] Kaya, C., Hamamei, C., Baysal, A., Akba, O., Erdogan, S., Sayduct, A., 2009. Methyl ester of peanut (Arachis hypogeal L.) seed oil as potential feedstock for biodiesel production. Renewable Energy 34, 1257-1260.
[4] Ghetsi, G. F., De macedo, J. L., Parente, V. C. I., Dias, J. A., Dias, S. C. L., 2009. Synthesis, characterisation and reactivity of Lewis acid/surfactant cerium trisdodecylsulfate catalyst for transesterification and esterification reaction. Appl. Cat. A; Gen 355, 139-147.
[5] Aderemi, B.O., Hameed, B. H., 2010. Production of biodiesel from palm oil. Nigeria Society of Chemical Engineers Proceedings, 40, 135-143.
[6] Ilgen, O., 2012. Reaction kinetics of dolomite catalyzed transesterification of canola oil and methanol, Fuel Processing Technology 95 62–66.
[7] Kim, H.J., Kang, B.S., Kim, M.J., Park, Y.M., Kim, D.K., Lee, J.S., Lee, K.Y., 2004. Transesterification of vegetable oil to biodiesel using heterogeneous base catalyst, Catalysis. Today 93–95, 315–320.
[8] Benjapornkulaphong, S., Ngamcharussrivichai, C., Bunyakiat, K., 2009. Al2O3-supported alkali and alkali earth metal oxides for transesterification of palm kernel oil and coconut oil, Chemical Engineering Journal 145, 468–474.
[9] Ebiura, T., Echizen, T., Ishikawa, A., Murai, K., Baba, T., 2005. Selective transesterification of triolein with methanol to methyl oleateand glycerol using alumina loaded with alkali metal salt as a solid-base catalyst. Appl. Catal. A, 283, 111-115.
[10] Gryglewicz, S., 1999. Rapeseed oil methyl esters preparation using heterogeneous catalysts. Bioresour. Technol., 700, 249-253.
[11] Tanabe, K., Ho ̈lderich, W.F., 1999. Industrial application of solid acid-base catalysts. Appl. Catal. A, 181, 399-434.
[12] Ude, C.N., Ahmed, E.J., Onyiah, M.I., Anisiji, O.E., Ude, E.N., 2014. Heterogeneous Catalyzed Transesterification of Refined Cottonseed Oil to Biodiesel. The Pacific Journal of Science and Technology, 15(2), 71-77.
[13] Boz, N., Kara, M., 2009. Solid base transesterification of canola oil, Chemical Engineering Communications 196, 80–92.
[14] Liu, X., Piao, X., Wang, Y., Zhu, S., 2008. Calcium ethoxide as a solid base catalyst for the transesterification of soybean oil to biodiesel, Energy & Fuels 22, 1313–1317.
[15] Di Serio, M., Tesser, R., Pengmei, L., Santacesaria, E., 2008. Heterogeneous catalysts for biodiesel production, Energy & Fuels 22, 207–217.
[16] Li, E., Rudolph, V., 2008. Transesterification of vegetable oil to biodiesel over MgO functionalized mesoporous catalysts, Energy & Fuels 22, 145–149.
[17] Yuan, H., Yang, B., Zhang, H., Zhou, X., 2011. Synthesis of biodiesel using castor oil under microwave radiation. International Journal of Chemical Reactor Engineering, 9(1): 1542 – 6580.
[18] Verziu, M., Cojocaru, B., Hu, J., Richards, R., Ciuculescu, C., Filip, P., Parvulescu, V.I., 2008. Sunflower and rapeseed oil transesterification to biodiesel over different nanocrystalline MgO catalysts, Green Chemistry 10, 373–381.
[19] Di Serio, M., Ledda, M., Cozzolino, M., Minutillo, G., Tesser, R., Santacesaria, E., 2006. Transesterification of soybean oil to biodiesel by using heterogeneous basic catalysts, Industrial and Engineering Chemistry Research 45, 3009–3014.
[20] Liu, X.J., He, H.Y., Wang, Y.J., Zhu, S.L., Piao, X.L., 2008. Transesterification of soybean oil to biodiesel using CaO as a solid base catalyst, Fuel 87, 216–221.
[21] Granados, M.L., Poves, M.D.Z., Alonso, D.M., Mariscal, R., Galisteo, F.C., Moreno- Tost, R., Santamaría, J., Fierro, J.L.G., 2007.Biodiesel from sunflower oil by using activated calcium oxide, Applied Catalysis B: Environmental 73, 317–326.
[22] Ilgen, O., 2011. Dolomite as a heterogeneous catalyst for transesterification of canola oil, Fuel Processing Technology 92, 452–455.
[23] Freedman, B., Butterfield, R.O., Pryde, R.O., 1986. Transesterification kinetics of soybean oil, Journal of the American Oil Chemists' Society 63, 1375–1380.
[24] Schmidt, J., Reusch, D., Elgeti, K., Schomacker, R., 1999. Kinetics of transesterification of ethanol and butyl acetate — a model system for reactive rectification, Chemie Ingenieur Technik 71, 704–708.
[25] Noureddini, H., Zhu, D., 1997. Kinetics of transesterification of soybean oil, Journal of the American Oil Chemists' Society 74, 1457–1462.
[26] Darnoko, D., Cheryan, M., 2000. Kinetics of palm oil transesterification in a batch reactor, Journal of the American Oil Chemists' Society 77, 1263–1267.
[27] Narvaez, P.C., Rincon, S.M., Sanchez, F.J., 2007. Kinetics of palm oil methanolysis, Journal of the American Oil Chemists' Society 84, 971–977.
[28] Vicente, G., Martinez, M., Aracil, J., Esteban, A., 2005. Kinetics of sunflower oil methanolysis, Industrial and Engineering Chemistry Research 44, 5447–5454.
[29] Vicente, G., Martinez, M., Aracil, J., 2006. Kinetics of brassica carinata oil methanolysis, Energy & Fuels 20, 1722–1726.
[30] Filippis, P.D., Borgianni, C., Paolucci, M., 2005. Rapeseed oil transesterification catalyzed by sodium phosphates, Energy & Fuels 19, 2225–2228.
[31] Hattori, H., Shima, M., Kabashima, H., 2000. Alcoholysis of ester and epoxide catalysed by solid bases, Studies in Surface Science and Catalysis 130, 3507–3512.
[32] Dossin, T.F., Reyniers, M.F., Marin, G.B., 2006. Kinetics of heterogeneously MgO-catalyzed transesterification, Applied Catalysis B: Environmental 62, 35–45.
[33] Wang, L., Yang, J., 2007. Transesterification of soybean oil with nano-MgO or not in supercritical and subcritical methanol, Fuel 86, 328–333.
[34] Kouzu, M., Kasuno, T., Tajika, M., Sugimoto, Y., Yamanaka, S., Hidaka, J., 2008. Calcium oxide as a solid base catalyst for transesterification of soybean oil and its application to biodiesel production, Fuel 87, 2798–2806.
[35] Singh, A.K, Fernando, S.D., 2007. Reaction kinetics of soybean oil transesterification using heterogeneous metal oxide catalysts, Chemical Engineering and Technology, 30,1716–1720.