棕榈油与助溶剂甲酯相酯交换制生物柴油:助溶剂的加入对动能和偶极矩的影响

Reaktor Pub Date : 2022-06-27 DOI:10.14710/reaktor.22.1.7-13
E. Daryono, L. Mustiadi
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引用次数: 0

摘要

在酯交换过程中,存在的问题是油在甲醇中的溶解度低,因此反应进行缓慢。解决这个问题的方法是加入助溶剂以增加溶解度,从而形成单相反应。助溶剂甲酯是正确的选择,因为它是反应本身的产物,所以不需要分离过程。研究的操作条件为棕榈油质量250 g, NaOH催化剂质量0.8%wt,搅拌速度100 rpm,反应温度60℃,油与甲醇的摩尔比= 1:6,反应时间(5、10、15、20、25、30分钟),助溶剂质量(0、5、10、15%wt)。研究的第一阶段是制备助溶剂,然后根据研究操作条件进行加入助溶剂的酯交换反应。最佳工艺条件为反应时间30 min,助溶剂添加量5%,收率为97.4171%。FAME浓度0.88 g/mL, 99.963%,符合SNI 7185-2015标准。ChemDraw对甘油三酯+甲醇+NaOH+共溶剂的模拟结果得到了动能3479.0264 kJ/mol和偶极矩43279.8007 debyes。
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One-phase Transesterification of Palm Oil in to Biodiesel with Co-solvent Methyl Esters: The Effect of Adding Co-solvent to Kinetic Energy and Dipole Moment
In the transesterification process, the problem is the low solubility of oil in methanol, so the reaction will run slowly. The solution to this problem is to add a co-solvent to increase the solubility so that a one-phase reaction will be formed. The co-solvent methyl ester is the right choice because it is a product of the reaction itself so that it does not require a separation process. The operating conditions of the study were mass of palm oil 250 g, mass of NaOH catalyst 0.8%wt, stirring speed 100 rpm, reaction temperature 60oC, the molar ratio of oil:methanol = 1:6, reaction time (5,10,15,20,25,30 minutes), and the mass of co-solvent (0,5,10,15%wt). The first stage of the research was to make co-solvent, then proceed with the transesterification reaction by adding  co-solvent which was carried out according to the research operating conditions. The optimum condition of the study was obtained at reaction time 30 minutes and the addition of co-solvent 5%, with yield 97.4171%. The density of FAME 0.88 g/mL and the concentration of FAME 99.963% which complied with SNI 7185-2015. The simulation results of ChemDraw for components of triglyceride+methanol+NaOH+co-solvent obtained kinetic energy 3479.0264 kJ/mol and dipole moment 43279.8007 debyes.
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