三乙醇胺作为草催化葵花籽油醇解生产生物柴油的高效助溶剂的优化研究

Dusica Djokic-Stojanovic, Z. Todorović, Dragan Z. Troter, Olivera S. Stamenković, Ljiljana Veselinović, M. Zdujić, D. Manojlović, V. Veljković
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引用次数: 3

摘要

三乙醇胺是一种高效的绿色环保试剂。向日葵油乙醇分解制备生物柴油的助溶剂。采用间歇式搅拌反应器对反应温度(61.6 ~ 78.4℃)、醇油摩尔比(7:1 ~ 17:1)、助溶剂用量(3 ~ 36%)进行优化,采用可旋转中心复合设计(RCCD)结合响应面法(RSM)。最佳反应条件为:乙醇与油的摩尔比为9:1,反应温度为75℃。C、助溶剂用量为油重的30%,在反应20 min内,预测脂肪酸乙酯(FAEE)含量为98.8%,实际脂肪酸乙酯(FAEE)含量为97.9% ?过期葵花籽油、大麻籽油和废猪油的FAEE含量也较高。采用x射线衍射分析(XRD)了解CaO相的变化。CaO催化剂可以不经任何处理连续使用两个循环。由于钙浸出到产品中,在整个过程中必须包括一个额外的净化阶段。
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Triethanolamine as an efficient cosolvent for biodiesel production by CaO-catalyzed sunflower oil ethanolysis: An optimization study
Triethanolamine was applied as an efficient ?green? cosolvent for biodiesel production by CaO-catalyzed ethanolysis of sunflower oil. The reaction was conducted in a batch stirred reactor and optimized with respect to the reaction temperature (61.6-78.4?C), the ethanol-to-oil molar ratio (7:1-17:1) and the cosolvent loading (3-36 % of the oil weight) by using a rotatable central composite design (RCCD) combined with the response surface methodology (RSM). The optimal reaction conditions were found to be: the ethanol-to-oil molar ratio of 9:1, the reaction temperature of 75?C and the cosolvent loading of 30 % to oil weight, which resulted in the predicted and actual fatty acid ethyl ester (FAEE) contents of 98.8 % and 97.9?1.3 %, respectively, achieved within only 20 min of the reaction. Also, high FAEE contents were obtained with expired sunflower oil, hempseed oil and waste lard. X-ray diffraction analysis (XRD) was used to understand the changes in the CaO phase. The CaO catalyst can be used without any treatment in two consecutive cycles. Due to the calcium leaching into the product, an additional purification stage must be included in the overall process.
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