https://orcid.org/0000-0001-7404-4805
References
- Marx S. Glycerol-free biodiesel production through transesterification: a review. Fuel Process Technol. 2016;151:139–147.
- Goembira F, Matsuura K, Saka S. Biodiesel production from rapeseed oil by various supercritical carboxylate esters. Fuel. 2012;97:373–378.
- Maddikeri GL, Pandit AB, Gogate PR. Ultrasound assisted interesterification of waste cooking oil and methyl acetate for biodiesel and triacetin production. Fuel Process Technol. 2013;116:241–249.
- Casas A, Ramos MJ, Pérez Á. Methanol-enhanced chemical interesterification of sunflower oil with methyl acetate. Fuel. 2013;106:869–872.
- Casas A, Ruiz JR, Ramos MJ, et al. Effects of triacetin on biodiesel quality. Energy Fuels. 2010;24(8):4481–4489.
- Laipniece L, Abelniece Z, Kampars V. Analysis of products obtained in chemical interesterification of rapeseed oil with methyl formate. KEM. 2019;800:93–97.
- Atadashi IM, Aroua MK, Abdul Aziz AR, et al. The effects of catalysts in biodiesel production: a review. J Ind Eng Chem. 2013;19(1):14–26.
- Kumar M, Sharma MP. Kinetics of Chlorella protothecoides microalgal oil using base catalyst. Egypt J Pet. 2016;25(3):375–382.
- Casas A, Ramos MJ, Pérez Á. Kinetics of chemical interesterification of sunflower oil with methyl acetate for biodiesel and triacetin production. Chem Eng J. 2011;171(3):1324–1332.
- Sustere Z, Murnieks R, Kampars V. Chemical interesterification of rapeseed oil with methyl, ethyl, propyl and isopropyl acetates and fuel properties of obtained mixtures. Fuel Process Technol. 2016;149:320–325.
- Kara K, Ouanji F, El Mahi M, et al. Biodiesel synthesis from vegetable oil using eggshell waste as a heterogeneous catalyst. Biofuels. 2019;1–7.
- Devaraj K, Veerasamy M, Aathika S, Mani Y, et al. Study on effectiveness of activated calcium oxide in pilot plant biodiesel production. J Clean Prod. 2019;225:18–26.
- Guldhe A, Moura CVR, Singh P, et al. Conversion of microalgal lipids to biodiesel using chromium-aluminum mixed oxide as a heterogeneous solid acid catalyst. Renew Energy. 2017;105:175–182.
- Tian Y, Xiang J, Verni CC, et al. Fatty acid methyl ester production via ferric sulfate catalyzed interesterification. Biomass Bioenergy. 2018;115:82–87.
- Moazeni F, Chen YC, Zhang G. Enzymatic transesterification for biodiesel production from used cooking oil, a review. J Clean Prod. 2019;216:117–128.
- Modi MK, Reddy JRC, Rao BVSK, et al. Lipase-mediated conversion of vegetable oils into biodiesel using ethyl acetate as acyl acceptor. Bioresour Technol. 2007;98(6):1260–1264.
- Xu Y, Du W, Liu D. Study on the kinetics of enzymatic interesterification of triglycerides for biodiesel production with methyl acetate as the acyl acceptor. J Mol Catal B Enzym. 2005;32(5–6):241–245.
- Shirazi HM, Karimi-Sabet J, Ghotbi C. Biodiesel production from Spirulina microalgae feedstock using direct transesterification near supercritical methanol condition. Bioresour Technol. 2017;239:378–386.
- Román-Figueroa C, Olivares-Carrillo P, Paneque M, et al. High-yield production of biodiesel by non-catalytic supercritical methanol transesterification of crude castor oil (Ricinus communis). Energy. 2016;107:165–171.
- Saka S, Isayama Y. A new process for catalyst-free production of biodiesel using supercritical methyl acetate. Fuel. 2009;88(7):1307–1313.
- Tan KT, Lee KT, Mohamed AR. A glycerol-free process to produce biodiesel by supercritical methyl acetate technology: an optimization study via Response Surface Methodology. Bioresour Technol. 2010;101(3):965–969.
- Sustere Z, Kampars V. The influence of acyl and alcohol moieties of carboxylate esters on rapeseed oil chemical interesterification. Mater Methods Technol. 2012;11:1–7. https://www.scientific-publications.net/en/article/1001448/.
- Medeiros AM, Santos ÊR, Azevedo SHG, de Jesus AA, et al. Chemical interesterification of cotton oil with methyl acetate assisted by ultrasound for biodiesel production. Braz J Chem Eng. 2018;35(3):1005–1018.
- Kashyap SS, Gogate PR, Joshi SM. Ultrasound assisted synthesis of biodiesel from karanja oil by interesterification: intensification studies and optimization using RSM. Ultrason Sonochem. 2019;50:36–45.
- Noureddini H, Zhu D. Kinetics of transesterification of soybean oil. J Amer Oil Chem Soc. 1997;74(11):1457–1463.
- Taherkhani M, Sadrameli SM. An improvement and optimization study of biodiesel production from linseed via in-situ transesterification using a co-solvent. Renew Energy. 2018;119:787–794.
- Akhabue CE, Okwundu OS. Monitoring the transesterification reaction of castor oil and methanol by ultraviolet visible spectroscopy. Biofuels. 2019;10(6):729–736.
- Irwin J, Clausen E, Carrier DJ. Kinetics determination of soybean oil transesterification in the design of a continuous biodiesel production process. Thesis. 2008:34; 1–26. http://scholarworks.uark.edu/baeguht/34.
- Vicente A, Martinez G, Aracil M, et al. Kinetics of sunflower oil methanolysis. Ind Eng Chem Res. 2005;44(15):5447–5454.