生物柴油:产油、热重及氧化稳定性研究

Brazilian Journal of Petroleum and Gas Pub Date : 2018-07-11 DOI:10.5419/BJPG2018-0011

A. K. Guimarães, A. A. Jesus, H. N. Oliveira, E. Neto, A. D. Gondim, O. Chiavone-Filho

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引用次数: 3

摘要

由于其杏仁中含油量高(54-60%)，oticica是一种具有能源潜力的生物燃料原料。在碱性催化剂的催化下，采用甲基酯交换法制备了生物柴油。在32℃、1.5% KOH、2h反应时间下得到的脂肪酸甲酯(FAME)比NaOH反应时间(85%)高92%。在50℃的温度下，两种催化剂的转化率均达到91%。当NaOH浓度为1%(50℃时为0.40 mg KOH g-1)时，酸指数最佳;当KOH浓度为1.5%(50℃时为9.61 mm2 s-1)时，粘度最佳。煤油和生物柴油由于不饱和化合物的优势而表现出高粘度。与色谱法相比，在分析时间、酯类转化和试剂消耗方面，热重分析法被证明是一种可行的技术。通过压差扫描量热法(PDSC)，所有生物柴油的氧化温度均为90℃。

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BIODIESEL FROM OITICICA OIL (Licania rigida, Benth): PRODUCTION, THERMOGRAVIMETRIC, AND OXIDATIVE STABILITY STUDIES

Oiticica is a feedstock with energetic potential for biofuel due to the presence of high oil content in its almond (54-60%). In this work, biodiesel from oiticica was produced by methyl transesterification using alkaline catalysts. Fatty acid methyl ester (FAME) obtained at 32 °C, with 1.5% of KOH and 2h of reaction time was higher (92%) than that with NaOH (85%). At the temperature of 50 °C, no difference between the catalysts was found, both resulting in a conversion of 91%. The best acid index was obtained with 1% of NaOH (0.40 mg KOH g-1 oil at 50 °C) and the best value of viscosity (9.61 mm2 s-1) with 1.5% of KOH at 50 °C. Oiticica oil and biodiesels exhibited high viscosities due the predominance of unsaturated compounds. Thermogravimetric analysis demonstrated to be a feasible technique, when compared to chromatography, in terms of time of analysis, conversion of the esters, and reagent consumption. All the biodiesels presented an oxidation temperature of 90 °C via Pressure Differential Scanning Calorimetry (PDSC).

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Brazilian Journal of Petroleum and Gas

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