Deacidification of Acidic Oil Catalyzed by Sulfonated Mesoporous Silica for Biodiesel Production: Optimization, Kinetic, and Enhancement by Using Calcined Kaolin

Huiqin Chen, Deguang Zhong, Youheng Ma, L. Cui, Zijun Xiao, Wei Lu
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Abstract

Acidified oil is characterized as high acid value. Hence, deacidification is indispensable in biodiesel production from acidic oil. Heterogeneous catalysts have many advantages over homogeneous counterparts in deacidification of acidic oil. Therefore, in the present work, sulfonated mesoporous silica (SMS) was prepared and characterized, followed by the systematical investigation on the effect of reaction variables on the deacidification rate (DR). Furthermore, response surface methodology (RSM) was employed to optimize the reaction parameters. Results showed that the optimal studied reaction variables for the deacidification process were as follows: reaction temperature 65 °C, methanol to oleic acid ratio 35:1, catalyst loading of 2%, in which, deacidification rate of 97.78% could be achieved. DR of 62.52% could still be obtained after catalyst had been used for four consecutive cycles. Finally, significant enhancement of DR could be achieved by using calcined kaolin to assist the deacidification of acidified oil with high water content, indicating that there is great potential in deacidification of acidic oil catalyzed by SMS with the assistance of calcined kaolin for biodiesel production.
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磺化介孔二氧化硅催化酸性油脱酸制备生物柴油:煅烧高岭土的优化、动力学和强化
酸化油的特点是酸值高。因此,在酸性油生产生物柴油的过程中,脱酸是必不可少的。在酸性油的脱酸过程中,非均相催化剂比均相催化剂具有许多优点。因此,本工作制备并表征了磺化介孔二氧化硅(SMS),然后系统研究了反应变量对脱酸速率(DR)的影响。此外,采用响应面法对反应参数进行了优化。结果表明,脱酸工艺的最佳反应条件为:反应温度65°C,甲醇与油酸的比例35:1,催化剂用量2%,脱酸率可达97.78%。在催化剂已经连续使用四个循环之后,仍然可以获得62.52%的DR。最后,使用煅烧高岭土辅助高含水量酸化油的脱酸可以显著提高DR,表明煅烧高岭土辅助SMS催化酸性油脱酸生产生物柴油具有巨大的潜力。
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来源期刊
Journal of Biobased Materials and Bioenergy
Journal of Biobased Materials and Bioenergy 工程技术-材料科学:生物材料
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发文量
60
审稿时长
6 months
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