Pentaerythritol tetraoleate esters synthesized from high oleic palm oil methyl ester (POME) have potential as biolubricant base stock. In the present study, the chemical transesterification of POME and pentaerythritol (PE) using sodium methoxide as a catalyst was conducted under vacuum. The effect of operating variables such as reaction temperature, catalyst concentration, the molar ratio of POME to PE, vacuum pressure, and stirring rate on the yield of PE tetraoleate was examined. The ideal conditions for the reaction were at a temperature of 160 °C, 1.25% (w/w) catalyst concentration, the molar ratio of POME to PE at 4.5:1, vacuum pressure at 10 mbar, and stirring speed at 900 rpm. PE tetraoleate with a yield of 36% (w/w), was successfully synthesized under this condition within 2 h of reaction time.

[1] Fukuda, H., Kondo, A., and Noda, H., 2001, Biodiesel fuel production by transesterification of oils, J. Biosci. Bioeng., 92 (5), 405–416.

[2] Reeves, C.J., Menezes, P.L., Jen, T.C., and Lovell, M.R., 2015, The influence of fatty acids on tribological and thermal properties of natural oils as sustainable biolubricants, Tribol. Int., 90, 123–134.

[3] Arumugam, S., Sriram, G., and Subadhra, L., 2012, Synthesis, chemical modification and tribological evaluation of plant oil as bio-degradable low temperature lubricant, Procedia Eng., 38, 1508–1517.

[4] Erhan, S.Z., Sharma, B.K., Liu, Z., and Adhvaryu, A., 2008, Lubricant base stock potential of chemically modified vegetable oils, J. Agric. Food Chem., 56 (19), 8919–8925.

[5] Aziz, N.A.M., Yunus, R., Rashid, U., and Syam, A.M., 2014, Application of response surface methodology (RSM) for optimizing the palm-based pentaerythritol ester synthesis, Ind. Crops Prod., 62, 305–312.

[6] Ma, F., Clements, L.D., and Hanna, M.A., 1999, The effect of mixing on transesterification of beef tallow, Bioresour. Technol., 69 (3), 289–293.

[7] Yunus, R., Fakhru’l-Razi, A., Lye, O.T., Iyuke, S.E., and Idris, A., 2003, Development of optimum synthesis method for transesterification of palm oil methyl esters and trimethylolpropane to environmentally acceptable palm oil-based lubricant, J. Oil Palm Res., 15 (2), 35–41.

[8] Yunus, R., Lye, O.T., Fakhru’l-Razi, A., and Basri, S., 2002, A simple capillary column GC method for analysis of palm oil-based polyol esters, J. Am. Oil Chem. Soc., 79 (11), 1075–1080.

[9] Koh, M.Y., Mohd. Ghazi, T.I., and Idris, A., 2014, Synthesis of palm based biolubricant in an oscillatory flow reactor (OFR), Ind. Crops Prod., 52, 567–574.

[10] Hamid, H.A., Yunus, R., Rashid, U., Choong, T.S.Y., and Al-Muhtaseb, A.H., 2012, Synthesis of palm oil-based trimethylolpropane ester as potential biolubricant: Chemical kinetics modeling, Chem. Eng. J., 200-202, 532–540.

[11] Saifuddin, N., Samiuddin, A., and Kumaran, P., 2015, A review on processing technology for biodiesel production, Trends Appl. Sci. Res., 10 (1), 1–37.

[12] Hamid, H.A., Yunus, R., Rashid, U., Choong, T.S.Y., Ali, S., and Syam, A.M., 2016, Synthesis of high oleic palm oil-based trimethylolpropane esters in a vacuum operated pulsed loop reactor, Fuel, 166, 560–566.

[13] Sharma, Y.C., Singh, B., and Korstad, J., 2010, High yield and conversion of biodiesel from a nonedible feedstock (Pongamia pinnata), J. Agric. Food Chem., 58 (1), 242–247.

[14] Yunus, R., Fakhru’l-Razi, A., Lye, O.T., Iyuke, S.E., and Idris, A., 2003, Preparation and characterization of trimethylolpropane esters from palm kernel oil methyl esters, J. Oil Palm Res., 15 (2), 42–49.

[15] Nagendramma, P., and Kaul, S., 2012, Development of ecofriendly/biodegradable lubricants: An overview, Renewable Sustainable Energy Rev., 16 (1), 764–774.

[16] Resul, M.F.M.G., Mohd. Ghazi, T.I., and Idris, A., 2012, Kinetic study of jatropha biolubricant from transesterification of Jatropha curcas oil with trimethylolpropane: Effects of temperature, Ind. Crops Prod., 38, 87–92.

[17] Kamil, R.N.M., Yusup, S., and Rashid, U., 2011, Optimization of polyol ester production by transesterification of jatropha-based methyl ester with trimethylolpropane using Taguchi design of experiment, Fuel, 90 (6), 2343–2345.

[18] Ni, X., Mackley, M.R., Harvey, A.P., Stonestreet, P., Baird, M.H.I., and Rao, N.V.R, 2003, Mixing through oscillations and pulsations–A guide to achieving process enhancements in the chemical and process industries, Chem. Eng. Res. Des., 81 (3), 373–383.

[19] Rashid, U., Anwar, F., and Knothe, G., 2009, Evaluation of biodiesel obtained from cottonseed oil, Fuel Process. Technol., 90 (9), 1157–1163.

[20] Daw, G., Regan, A.C., Watt, C.I.F., and Wood, E., 2013, Steric effects and mechanism in the formation of hemi-acetals from aliphatic aldehydes, J. Phys. Org. Chem., 26 (12), 1048–1057.