Kinetika reaksi alkyd resin termodifikasi minyak jagung dengan asam phtalat anhidrat

Abstract

Esterification of phthalic anhydrate with monoglyceride is a condensation reaction to form a linear chain polymer. The present work aimed at investigating reaction kinetics of alkyd resin modified with corn oil in the absence of catalyst. The work consisted of two steps i.e. alcoholysis and esterification. In the alcoholysis step, corn oil and glycerol were brought into reaction with a molar ratio of 1:2 at 250°C. Every 30 minutes during 3 hour reaction, reaction products were sampled to analyse the remaining free glycerol by iodometry method (FBI-AO2-03). In the esterification step, phthalic anhydrate was put in the batch reactor with a glycerol-phthalic anhydrate molar of 3:2. Samples were taken and the hydroxyl ions were analysed by acetate anhydrate method. The variables investigated in the present work were reaction temperatures varied from 230°C to 260°C and equivalent OH/COOH ratio from 1 to 1.25. Experimental results showed that alcoholysis of corn oil and glycerol could be carried out in a temperature range of 230°C to 260°C without the presence of catalyst. The effect of temperature on the reaction rate constant of monoglyceride and phthalic ester formation could be respectively written in the Arrhenius correlations as follows:

k₁ = 1.4647.10⁴ exp (− 8237.7/𝑇 ) g/mgeq.min

k₄ = 2.1398.10⁹ exp (− 14142/𝑇 ) g/mgeq.min

References

1. Altiokka, M. R., dan Citak, A., 2003. Kinetics Study of Esterification of Acetic Acid with Isobutanol in The Presence of Amberlite Catalyst, Applied Catalysis A: General, 239, 141-148.
2. Atimuttigul, V., Damrongsakkul, S., dan Tanthapanichakoon, W., 2006. Effects of Oil Type on The Properties of Short Oil Alkyd Coating Materials, Korean J.Chem.Eng., 23, 672-677.
3. Azam, M., Habib, U., Hamid, M., 2007. Fatty Acid Composition of Tobacco Seed Oil and Synthesis of Alkyd Resin, Chinese Journal of Chemistry, 25, 705-708.
4. Bradshaw, G. B., Meuly, W. C. 1984. Preparation of Detergents, US Patent 2, 360-844.
5. Fisher, L. A., dan Hayward, G.R., 1998. The Basic of Resin Technology,Oil and Colour Chemists’ Association, United Kingdom.
6. Haryanto, Rochmadi, Budiman, A., 2005. Kinetika Reaksi Poliesterifikasi Gliserol-Asam adipat, Teknosains Jilid 18 UGM,Yogyakarta.
7. Ikhuoria, E., U., Maliki, M., Okieimen, F., E., Aigbodion, A., I., Obaze, E. O., Bakare, I., O., 2007. Synthesis and Characteristion of Chlorinated Rubber Seed Oil Alkyd Resin, Progress in Organic Coating, 59, 134-137.
8. Johnstone, R. E. dan Thring, M. W., 1957. Pilot Plants Model and Scale Up Methodes in Chemical Engineering, pp. 63 – 73, McGraw-Hill Book Company Inc., New York.
9. Jones, F., N., Alkyd Rresin, North Dakota University, Fargo, USA.
10. Kastanek, A., Hajek, K., dan Dufka, O., 1986. Analytical and Physical Investigation of Alkyd Resin in the Course of its Preparation Determination of Composition of Reaction Mixture Using Volatile Monocarboxylic Acid for Alkyd Synthesis, Journal of Applied Polymer Science, 31, 723-732.
11. Lundquist, E. G., 1995. Catalyzed Esterification Process, US Patents 5, 426, 199.
12. Nauman, E. B., 2002. Chemical Reactor Design, Optimization, and Scale Up, pp. 154, McGraw – Hill Book Company Inc., New York.
13. Prashantha, M., A., B., Premachandra, J., K., dan Amarasinge A., D., U., S., 2008. Mathematical Model for Predicting Gel Point in The Process of Manufacturing Alkyd Resins, Ind. Eng. Chem. Res, 47, 8555-8560.
14. Purwaningsih, I., S., 1987. Kinetika Alkoholisis Minyak Biji Karet, Tesis diajukan kepada Program Pascasarjana UGM, Yogyakarta.
15. Roni, K. A., Agra, I. B., Sulistyo, H., 1998. Alkoholisis Minyak Biji Kepuh (Sterculia Feotida L.) pada Tekanan Lebih dari Satu atm dengan Katalisator Buangan Proses Perengkahan Minyak Bumi Pertamina Unit II Palembang, Teknosains UGM, 11.
16. Sandler, S. R., 1994. Polymer Syntheses, second ed.,157-187, Academic Press, Inc., California.
17. Swern, D., 1982. Bailey Industrial Oil and Fat Products, 4th ed., John Willey and Sons, New York.