Optimization of alkaline transesterification of soybean oil and castor oil for biodiesel production.

de Oliveira D; Di Luccio M; Faccio C; Dalla Rosa C; Bender JP; Lipke N; Amroginski C; Dariva C; de Oliveira JV

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Optimization of alkaline transesterification of soybean oil and castor oil for biodiesel production.

机译：优化用于生物柴油生产的大豆油和蓖麻油的碱性酯交换反应。

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This article reports experimental data on the production of fatty acid ethyl esters from refined and degummed soybean oil and castor oil using NaOH as catalyst. The variables investigated were temperature (30-70 degrees C), reaction time (1-3 h), catalyst concentration (0.5-1.5 w/wt%), and oil-to-ethanol molar ratio (1:3-1:9). The effects of process variables on the reaction conversion as well as the optimum experimental conditions are presented. The results show that conversions >95% were achieved for all systems investigated. In general, an increase in reaction temperature, reaction time, and in oil-to-ethanol molar ratio led to an enhancement in reaction conversion, whereas an opposite trend was verified with respect to catalyst concentration.

机译：本文报道了使用NaOH作为催化剂由精制和脱胶大豆油和蓖麻油生产脂肪酸乙酯的实验数据。研究的变量是温度（30-70摄氏度），反应时间（1-3小时），催化剂浓度（0.5-1.5 w / wt％）和油与乙醇的摩尔比（1：3-1：9））。提出了工艺变量对反应转化率的影响以及最佳实验条件。结果表明，所有研究的系统均实现了> 95％的转化率。通常，反应温度，反应时间和油/乙醇摩尔比的增加导致反应转化率的提高，而在催化剂浓度方面证实了相反的趋势。

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《Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology》 |2005年第0期|共8页
作者
de Oliveira D; Di Luccio M; Faccio C; Dalla Rosa C; Bender JP; Lipke N; Amroginski C; Dariva C; de Oliveira JV;
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正文语种 eng
中图分类基础医学;
关键词
catalyst; Soybean Oil; Production; Castor Oil; transesterification; 豆油; 蓖麻油;

机译：catalyst;Soybean Oil;Production;Castor Oil;transesterification;豆油;蓖麻油;
入库时间 2022-08-18 10:12:35

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1. Optimization of alkaline transesterification of soybean oil and castor oil for biodiesel production. [J] . de Oliveira D, Di Luccio M, Faccio C, Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology . 2005,第0期

机译：优化用于生物柴油生产的大豆油和蓖麻油的碱性酯交换反应。
2. Optimization of Alkaline Transesterification of Soybean Oil and Castor Oil for Biodiesel Production [J] . DEBORA DE OLIVEIRA, MARCO Di Luccio, CARINA FACCIO, Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology . 2005,第12期

机译：生物柴油生产中豆油和蓖麻油碱性酯交换反应的优化
3. Optimization of alkaline transesterification of soybean oil and castor oil for biodiesel production [J] . de Oliveira D, Di Luccio M, Faccio C, Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology . 2005,第0期

机译：用于生物柴油生产的大豆油和蓖麻油的碱性酯交换反应的优化
4. Optimization of biodiesel production from transesterification of waste cooking oils using alkaline catalysts [C] . M. M. Zamberi, F. N. Ani, S. N. H. Hassan World Virtual Conference on Advanced Research in Materials and Engineering Applications . 2015

机译：利用碱性催化剂从废料烹饪油酯交换中的优化优化生物柴油
5. Effects of the use of ultrasonic waves on biodiesel production in alkaline transesterification of bleached tallow and vegetable oils: Cavitation model. [D] . Alape Benitez, Fabio. 2004

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6. Sonocogreen Decoration of Clinoptilolite by CaO Nanorodsas Ecofriendly Catalysts in the Transesterification of Castor Oilinto Biodiesel; Response Surface Studies [O] . Mostafa R. Abukhadra, *, Mohamed Gameel Basyouny, 2021

机译：Cao Nanorods Clinophogolite的Sonocogreen装饰作为Ecofriendly催化剂在蓖麻油的酯交换中进入生物柴油;响应面研究
7. Biodiesel Production from Castor Oil by Two-Step Catalytic Transesterification: Optimization of the Process and Economic Assessment [O] . Nuria Sánchez, Juan Félix González, Sergio Nogales, 2019

机译：通过两步催化酯改造的蓖麻油生产的生物柴油：优化过程和经济评估

Optimization of alkaline transesterification of soybean oil and castor oil for biodiesel production.

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