Adsorptive pretreatment of waste cooking oil using quicklime for fatty acid methyl esters synthesis

I. Lukić, Zeljka Kesic, M. Zdujić, D. Skala
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Abstract

Synthesis of biodiesel from various plant oils is realized by the transesterification of triglycerides with methanol or by a reaction usually defined as methanolysis. The usage of low-quality oils, such as waste cooking oil (WCO), is followed by undesirable side reactions as a result of the increased content of free fatty acids (FFA), and water. The presence of FFA in WCO usually requires a pretreatment stage before subjecting it to methanolysis. In the present work, heterogeneously catalyzed methanolysis of WCO with and without pretreatment was investigated. Removal of FFA from WCO was conducted by using only quicklime or with the addition of a small amount of methanol (FFA to methanol = 1:3 molar ratio). The obtained results showed that pretreatment of WCO with quicklime at 30?C after 1 h reduces the FFA content by 72 %, while the adsorption capacity was determined to be 910 mg g-1. The adsorptive pretreatment, as a simple operation, using low-cost quicklime under mild conditions, had a positive effect on the transesterification rate with CaO?ZnO as a catalyst, enabling the achievement of over 96 % of biodiesel yield in only 15 min, compared to 1 h without the pretreatment. Furthermore, pretreated WCO allows an increase in repeated catalyst use and overall savings in the necessary amount of catalyst. The present study showed that quicklime is an economic, environmental-friendly, and sustainable material for FFA removal from WCO.
生石灰吸附预处理废食用油合成脂肪酸甲酯
从各种植物油合成生物柴油是通过甘油三酯与甲醇的酯交换反应或通常定义为甲醇分解的反应来实现的。使用劣质油,如废食用油(WCO),由于游离脂肪酸(FFA)和水的含量增加,随之而来的是不良副反应。WCO中FFA的存在通常需要预处理阶段,然后再进行甲醇分解。研究了预处理前后WCO的多相催化甲醇分解反应。通过只使用生石灰或添加少量甲醇(FFA与甲醇的摩尔比为1:3)从WCO中脱除FFA。结果表明,生石灰预处理WCO的温度为30℃。C作用1 h后使游离脂肪酸含量降低72%,吸附量为910 mg g-1。吸附预处理操作简单,在温和条件下使用成本低的生石灰,对CaO?ZnO作为催化剂,使生物柴油的产率在15分钟内达到96%以上,而不进行预处理则需要1小时。此外,预处理后的WCO可以增加催化剂的重复使用,并节省催化剂的总用量。研究表明,生石灰是一种经济、环保、可持续的脱除WCO中游离脂肪酸的材料。
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