Department of Chemical Engineering, Faculty of Engineering, Prince of Songkla University, Songkhla, 90112, Thailand.
Appl Biochem Biotechnol. 2019 Mar;187(3):1081-1095. doi: 10.1007/s12010-018-2867-3. Epub 2018 Aug 30.
Glycerol, a by-product from transesterification, is well-known as one of the factors inhibiting the reaction. Previous works have mostly shown that the reaction rate slows to a near-steady state and eventually reaches chemical equilibrium. This work aimed to study the inhibiting behavior of glycerol on the transesterification of palm oil. Observation under an LCD digital microscopy showed that glycerol-coated droplets of catalyst-methanol dispersed in the triglyceride phase. This work proposes that glycerol inhibits transesterification by the following mechanism: Droplets of catalyst-methanol disperse into the triglyceride phase; the reaction takes place at an interphase called the reactive zone; methyl ester, the desired product, has low polarity and moves to the triglyceride phase, whereas glycerol, the non-desired product, is more highly polar and accumulates on the droplet surface of catalyst-methanol droplets, inhibiting triglyceride mass transfer and diluting the concentration of the catalyst-methanol. The triglyceride mass transfer coefficient and reaction rate constant were both investigated and expressed as the exponential function.
甘油是酯交换反应的副产物,是众所周知的抑制反应的因素之一。以前的工作大多表明,反应速率会减缓到近稳态,并最终达到化学平衡。这项工作旨在研究甘油对棕榈油酯交换反应的抑制作用。通过液晶数字显微镜观察,发现甘油覆盖的催化剂-甲醇液滴分散在三酰甘油相中。本工作提出甘油通过以下机制抑制酯交换反应:催化剂-甲醇液滴分散到三酰甘油相中;反应发生在称为反应区的相间;甲酯是所需产物,极性低,迁移到三酰甘油相,而甘油是非所需产物,极性更高,积聚在催化剂-甲醇液滴的液滴表面,抑制三酰甘油质量传递并稀释催化剂-甲醇的浓度。考察了三酰甘油传质系数和反应速率常数,并表示为指数函数。