用沙枣皮活性炭纯化废食用油制备生物柴油

L. Buchori, Dinda Labibah Ubay, K. Syahidah
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引用次数: 4

摘要

生物柴油是利用植物油和动物脂肪等可再生资源制成的柴油替代燃料之一。废食用油是一种可用于生产生物柴油的天然原料。以WCO为原料,用CaO催化剂进行酯交换反应制备生物柴油。WCO中游离脂肪酸(FFA)的含量需要通过活性炭吸附来降低。本研究旨在确定以salak皮为原料制备的活性炭的最佳吸附时间,并确定酯交换温度对生物柴油收率的影响。结果表明,当吸附时间为80 min,活性炭用量为10 g时,WCO的FFA含量由6.16%降至0.224%。提高酯交换温度可提高生物柴油产量。适宜温度为50℃,产率86.40%,密度887.2 kg/m3,运动粘度5.174 mm2/s,酸数0.421 mg KOH/g样品。烷基酯的组成为65.54%,FAAE收率为56.63%。
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Biodiesel Production from Waste Cooking Oil Purified with Activated Charcoal of Salak Peel
Biodiesel is one of diesel fuel alternative made from renewable resources such as vegetable oils and animal fats. One of the natural ingredients that can be used as a material in the production of biodiesel is waste cooking oil (WCO). Biodiesel from WCO can be made through a transesterification reaction using a CaO catalyst. Free fatty acid (FFA) content in WCO needs to be reduced by activated charcoal adsorption. This research aims to determine the optimum time of adsorption by activated charcoal that made from salak peel and to determine the effect of transesterification temperature on biodiesel yield. The results showed that the FFA content of WCO decrease from 6.16% to 0.224% with adsorption time is 80 minutes and 10 gram of activated charcoal. Biodiesel yield increase by increasing transesterification temperature. The appropriate temperature is 50oC with 86.40% of yield, 887.2 kg/m3of density, 5.174 mm2/s of kinematic viscosity and acid number 0.421 mg KOH/gram sample. The composition of alkyl ester was obtained 65.54% with a FAAE yield of 56.63%.
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15
审稿时长
2 weeks
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