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新型反应介质中脂肪酶催化多种油脂制备生物柴油 被引量:24

Lipase-catalyzed Production of Biodiesel from Several Oils in a Novel Reaction Medium
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摘要 用叔丁醇作为反应介质,利用固定化脂肪酶催化油脂原料甲醇醇解反应制备生物柴油,消除了甲醇和甘油对酶的负面影响,酶的使用寿命显著延长.用菜籽油作原料,叔丁醇和油脂的体积比为1:1,甲醇与油脂的摩尔比为4:1,3%的LipozymeTLIM和1%的Novozym435结合使用,35℃下130r/min反应12h,生物柴油得率可达95%.该工艺在200kg/d的规模下制得的生物柴油产品完全满足美国和德国生物柴油标准,脂肪酶重复使用200批次,酶活性基本没有下降.且在叔丁醇介质体系中大豆油、桐籽油、棉籽油、乌桕油、泔水油、地沟油和酸化油都能被有效转化成生物柴油且脂肪酶保持很好的稳定性. Tert-butanol was adopted as a reaction medium for lipase-catalyzed methanolysis of oils for biodiesel production, in which both the negative effects caused by excessive methanol and by-product glycerol could be eliminated. The optimum conditions of methanolysis of rapeseed oil were as follow: tert-butanol/oil (volumetric ratio) 1:1, methanol/oil (molar ratio) 4:1, 3% Lipozyme TL^1M and 1% Novozym 435 based on oil weight, 35℃, 130 r/min and 12 h. The highest biodiesel yield was 95% and the lipases could be reused 200 cycles without obvious loss of their activity. The technology was further tested in a pilot plant and the product was up to the biodiesel standards of US (ASTM PS121-99) and Germany (DINE51606). Furthermore, soybean oil, rang oil, cottonseed oil, sapium fat and acidified waste oil were also explored for biodiesel production, and lipases also showed good stability in tert-butanol reaction medium.
作者 李俐林 杜伟 刘德华 李泽波 王利
机构地区 清华大学化学工程系
出处 《过程工程学报》 EI CAS CSCD 北大核心 2006年第5期799-803,共5页 The Chinese Journal of Process Engineering
基金 国家高技术研究发展计划(863)基金资助项目(编号:2003AA2146061)
关键词 生物柴油 叔丁醇 脂肪酶 稳定性 biodiesel tert-butanol immobilized lipase stability
分类号 TQ22 [化学工程—有机化工]
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参考文献14

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过程工程学报
2006年 第5期

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