以氧化钙和牛骨为催化剂以大豆油为原料制备生物柴油

A. Ayoola, Igho E. Blessing, R. Babalola, M. Ojewumi, A. Ogunbiyi, O. Abatan, O. Fayomi
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引用次数: 6

摘要

生物柴油是用氧化钙和牛骨(一种动物废骨,含有羟基磷灰石,一种磷酸钙矿物)作为多相催化剂,通过大豆油的酯交换反应生产出来的。采用气相色谱-质谱联用仪(GCMS)对所用大豆油进行了表征,并用x射线衍射仪(XRD)和x射线荧光光谱仪(XRF)对制备的牛骨催化剂进行了表征。考察了甲醇/油摩尔比(9 ~ 15)、催化剂浓度(10 ~ 20 wt/wt%)和反应温度(55 ~ 65℃)对大豆油与甲醇酯交换制备生物柴油收率的影响。反应时间为3小时,搅拌速度为500转/分。结果表明,牛骨催化剂在800℃下煅烧,促进了其向磷灰石[Ca5(PO4)3OH]的转化,提高了生物柴油的收率。结果表明,甲醇/油摩尔比为9,催化剂浓度为15 wt/wt%,反应温度为55℃时,生物柴油的最佳产率。结果表明,两种催化剂的性能变化趋势相似。当两种多相催化剂分别使用时,生物柴油的最高产率(氧化钙和煅烧牛骨催化剂的产率分别为94.8%和92.2%)接近,这表明使用成本低、易得的煅烧牛骨催化剂是一种很有希望的替代CaO催化剂的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Production of Biodiesel from Soybean Oil Using Calcium Oxide and Cow Bone as Catalysts
Biodiesel was produced from the transesterification of soybean oil using calcium oxide and cow bone (an animal waste bone that contains hydroxyapatite, a calcium phosphate mineral) as heterogeneous catalysts. The soybean oil used was characterized using gas chromatography mass spectrometer (GCMS) and the cow bone catalyst produced was characterized using X-ray diffractometer (XRD) and X-ray fluorescence (XRF) spectrometer. The effects of the variation of methanol/oil mole ratio (9–15), catalyst concentration (10–20 wt/wt%) and reaction temperature (55–65 °C) on biodiesel yield during the transesterification of soybean oil with methanol was investigated. Reaction time of 3 hours and stirring rate of 500 rpm were kept constant. It was observed that the calcination of cow bone catalyst (at 800 °C) enhanced its conversion to apatite [Ca5(PO4)3OH] and increased the yield of biodiesel obtained. Biodiesel yield results revealed an optimum condition of methanol/oil mole ratio of 9, catalyst concentration of 15 wt/wt% and reaction temperature of 55 °C. Also, the results obtained showed that the performance trends of the two catalysts used were similar. And the close values of highest biodiesel yields obtained when the two heterogenous catalysts were used separately (yields of 94.8 and 92.2% using calcium oxide and calcined cow bone catalysts respectively) implies that the use of low-cost and readily available calcined cow bone catalyst is a promising alternative to CaO catalyst.
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