Synthesis and evaluation of biological lubricant based on Sesame oil by using trans-esterification method
Subject Areas :Fariba Rangriz 1 , Saeid Khodadoust 2 , Mohsen Emami 3 , Fatemeh Zeraatpisheh 4
1 - M.Sc. Student in Department of Chemistry, Behbahan KhatamAlanbia University of Technology, Behbahan, Iran
2 - Assistant Prof. of Analytical Chemistry, Department of Chemistry, Behbahan KhatamAlanbia University of Technology, Behbahan, Iran
3 - Department of Engineering, Behbahan KhatamAlanbia University of Technology, Behbahan, Iran
4 - Assistant Prof. of Organic Chemistry, Department of Chemistry, Behbahan KhatamAlanbia University of Technology, Behbahan, Iran
Keywords: Trans-esterification, sesame oil, Industrial Lubricants, Trimethylolpropane,
Abstract :
Due to the harmful environmental effects caused by the petroleum based lubricants, their replacement with environmental friendly oils has been considered. The aim of this study is to prepare a biological lubricant from Sesame oil during chemical modification using the trans-esterification reaction and addition of appropriate antioxidant materials. By creating a group of esters on trans position, a product with good lubrication, high viscosity index, high flash point, low pour point, and environmental friendly properties including high degradability and low toxicity were obtained. In the first step, by using an (or of) acetylchloride catalyst, the triglyceride molecules of the Sesame oil were methanolized in a reaction of methanol at 100 °C in a reflux system. In the next step, the obtained methyl ester in presence of lipase enzyme (as catalyst) by reaction of trimethylolpropane (TMP) was taken at 50 °C for 24 hours. Then, different parameters (molar ratio of alcohol to oil, temperature, and enzyme concentration) were evaluated and the best conditions for esterification of Sesame methyl ester with TMP were obtained. Also, some of the physicochemical properties of the lubricants were investigated by using the differential scanning calorimetry (DSC) and viscometry.
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_||_[1] Atabani, A.E.; Silitonga, A.S.; Ong, H.C.; Mahlia, T.M.I.; Masjuki, H.H.; Badruddin, I.A.; Fayaz, H.; Renewable and sustainable energy reviews 18, 211-245., 2013.
[2] Syahir, A.Z.; Zulkifli, N.W.M.; Masjuki, H.H.; Kalam, M.A., Alabdulkarem, A.; Gulzar, M.; Khuong, L.S.; Harith, M.H.; Journal of cleaner production 168, 997-1016, 2017.
[3] Zareh-Desari, B.; Davoodi, B.; Journal of Cleaner Production 135, 1198-1209, 2016.
[4] Wagner, H.; Luther, R.; Mang, T.; Applied Catalysis A: General 221, 429-442, 2001.
[5] Sarno, M.; Iuliano, M,; Cirillo, C.; Chemical Engineering Journal 3771, 120273, 2019.
[6] Aziz, N.A.M.;Yunus, R.; Rashid, U.; Zulkifli, N.W.M.; Tribology International 93, 43-49, 2016.
[7] Jiang, S.; Li, S.;Liu, L.;Wang, L.; Mominou, N.; Tribology International 86, 42-51, 2015.
[8] Quinchia, L.A.; Delgado, M.A.; Reddyhoff, T.; Gallegos, C., Spikes H.A.; Tribology International 69, 110-117, 2014.
[9] Fox, N.J.; Stachowiak, G.W.; Tribology international 40, 1035-1046, 2007.
[10] Hwang, H.S.; Erhan, S.Z.; Journal of the American Oil Chemists' Society 78, 1179-1184, 2001.
[11] Yehye, W.A.; Rahman, N.A.; Ariffin, A.; Hamid, S.B.A.; Alhadi, A.A.; Kadir, F.A.; Yaeghoobi, M.; European Journal of medicinal chemistry 101, 295-312, 2015.
[12] Suarez, A.N.; Grahn, M.; Pasaribu, R.; Larsson, R.; Tribology International 43, 2268-2278, 2010.
[13] Beheshti, A.; Huang, Y.; Ohno, K,; Blakey, I.; Stokes, J.R.; Tribology International 144, 106130, 2020.
[14] Zareh-Desari, B.; Davoodi, B.; Journal of Cleaner Production 1351, 1198-1209, 2016.
[15] Abou-Gharbia, H.A.; Shehata, A.A.Y.; and Shahidi, F.; Food research international 33, 331-340, 2000.
[16] Heikal, E.K.; Elmelawy, M.S.; Khalil, S.A.; and Elbasuny, N.M.; Egyptian Journal of Petroleum 26, 53-59, 2017.
[17] Bhaumik, S.; Mathew, B.R.; Datta, S.; Fuel 2411, 733-743, 2019.
