Selective Epoxidation of Crude Oleic Acid-Palm Oil with in situ Generated Performic Acid

  • Authors

    • Mohd Jumain Jalil
    • Aliff Farhan Mohd Yamin
    • Siu Hua Chang
    • Intan Suhada Azmi
    • Norhashimah Morad
    • Abdul Hadi
    2018-12-16
    https://doi.org/10.14419/ijet.v7i4.40.24423
  • Epoxidation, oleic acid, vegetable oils, palm oil, oxirane content
  • Abstract

    The potential utility of epoxidized vegetables oil has begun to be realized in industrial application with increasing the concern of research to develop value added products from the available vegetables oil. Epoxidized oleic acid is often regarded as a high value oleochemical due to wide range of industrial applications including cosmetic, lubricants, painting and as chemical precursor. For safety reason epoxidation of oleic acid using peracid formed in situ by reacting a carboxylic acid with concentrated hydrogen peroxide (H2O2) was selected. The aim of this study is to optimize the epoxidation of oleic acid of palm oil. The method was evaluated on different parameters such as oxygen carrier, concentration of catalyst as well as different type of vegetables oil. The optimum relative conversion to oxirane (86%) was achieved for 20 minutes of reaction time. From the findings formic acid is a good oxygen carrier for in situ epoxidation. Epoxidation results were based on complete conversion oxirane, rate of epoxidation and stability of the oxirane. This study shown oleic acid was succeffuly transformed into epoxide and oleic acid derived from palm oil potential raw material for production of sustainable and friendly epoxide.

     

     

  • References

    1. [1] A. Kushairi, M. Palm, O. Board, B. Nambiappan, M. Palm, and O. Board, “Malaysia’s Palm Oil Supply and Demand for 2017 and Outlook for 2018,†no. April, 2018.

      [2] V. Russo, T. Kilpiö, J. H. Carucci, M. Di Serio, and T. O. Salmi, “Modeling of microreactors for ethylene epoxidation and total oxidation,†vol. 134, pp. 563–571, 2015.

      [3] M. J. Jalil, S. K. Jamaludin, and I. S. Azmi, “Characterisation of Epoxidation of Palm Kernel Oil based on Crude Oleic Acid,†no. 201606, 2017.

      [4] M. Jumain et al., “Epoxidation of Palm Kernel Oil-based Crude Oleic Acid,†vol. 906, no. 1, pp. 125–130, 2014.

      [5] V. V Goud, A. V Patwardhan, S. Dinda, and N. C. Pradhan, “Kinetics of epoxidation of jatropha oil with peroxyacetic and peroxyformic acid catalysed by acidic ion exchange resin,†vol. 62, pp. 4065–4076, 2007.

      [6] S. Ranganathan, J. Tebbe, L. O. Wiemann, and V. Sieber, “Optimization of the lipase mediated epoxidation of monoterpenes using the design of experiments-Taguchi method,†Process Biochem., vol. 51, no. 10, pp. 1479–1485, 2016.

      [7] “Epoxidation of Jatropha ( Jatropha curcas ) oil by peroxyacids,†no. May 2009, pp. 346–354, 2010.

      [8] M. J. Jalil et al., “An Overview of Epoxidation of Vegetable Oils with Peracid- Reaction Mechanism,†Recent Innov. Chem. Eng., vol. 10, pp. 1–8, 2017.

      [9] A. Campanella, C. Fontanini, and M. A. Baltanás, “High yield epoxidation of fatty acid methyl esters with performic acid generated in situ,†vol. 144, pp. 466–475, 2008.

      [10] M. J. Jalil, S. K. Jamaludin, A. Rafizan, and M. Daud, “DEGRADATION OXIRANE RING KINETICS OF EPOXIDIZED PALM KERNEL OIL- BASED CRUDE OLEIC ACID,†vol. 12, no. 3, pp. 296–299, 2018.

      [11] P. K. Gamage, M. O. Brien, and L. Karunanayake, “Epoxidation of some vegetable oils and their hydrolysed products with peroxyformic acid - optimised to industrial scale,†vol. 37, no. 4, pp. 229–240, 2009.

      [12] D. Darfizzi, “Experimental Design using Response Surface Methods for Palm Olein-Based Hydroxy-Ether Systhesis,†sains Malaysiana, vol. 45, no. 7, pp. 1149–1154, 2016.

      [13] A. Rafizan, M. Daud, N. Mohamed, J. Jalil, and S. K. Jamaludin, “Formation of Dihydroxystearic Acid from Hydrolysis of Palm Kernel Oil Based Epoxidized Oleic Acid,†J. Appl. Sci. Agric. J. Appl. Sci. Agric, vol. 9, no. 911, pp. 86–92, 2014.

      [14] G. Koay, “Crystallization of dihydroxystearic acid ( DHSA ) produced from commercial grade palm oil based crude oleic acid ...,†no. January 2006, 2014.

  • Downloads

  • How to Cite

    Jumain Jalil, M., Farhan Mohd Yamin, A., Hua Chang, S., Suhada Azmi, I., Morad, N., & Hadi, A. (2018). Selective Epoxidation of Crude Oleic Acid-Palm Oil with in situ Generated Performic Acid. International Journal of Engineering & Technology, 7(4.40), 152-155. https://doi.org/10.14419/ijet.v7i4.40.24423

    Received date: 2018-12-19

    Accepted date: 2018-12-19

    Published date: 2018-12-16