Optimization of palm oil biodiesel production using response surface methodology

IF 0.5 Q4 ENVIRONMENTAL SCIENCES
F. C. Silva, J. F. H. Guardiola, L. P. Teixeira, A. Maria, Luan Alves de Souza, A. Belém
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引用次数: 2

Abstract

The purpose of this paper was to analyze palm oil biodiesel production under different conditions and to verify the relationships between production variables in order to optimize biofuel production using response surface methodology (RSM). Biodiesel was produced through transesterification process by methyl route and alkali catalyst (NaOH) 1% (m/m). The analyzed variables were: four molar ratios (3:1, 4:1, 6:1 and 8:1); three temperature reactions (45°, 52° and 60°C); and three time reactions (40, 60 and 80 minutes). For the palm oil biodiesel production, the highest yield was 93%, obtained via a molar rate of 3:1, 52°C and 60 minutes. This result differs from previous studies that found a higher yield with molar ratio increases, implying greater expenses of methanol. Kinetic viscosity and specific mass were also analyzed, and the values are within the Brazilian, American, and European standards. The results showed that the most influent factor in biodiesel production was the molar rate. In relation to the biodiesel characterization, using the RMN H1 technique, it was possible to obtain the transesterification reaction yield of 79.50% for the 3:1 palm oil biodiesel. Through gas chromatography, it can be verified that the predominant fatty acids in the samples were palmitic and oleic acids.
利用响应面法优化棕榈油生物柴油生产
本文的目的是分析不同条件下棕榈油生物柴油的生产,并验证生产变量之间的关系,以便使用响应面法(RSM)优化生物柴油生产。采用甲基路线和1%(m/m)的碱催化剂(NaOH)通过酯交换法生产生物柴油。分析的变量为:四个摩尔比(3:1、4:1、6:1和8:1);三种温度反应(45°、52°和60°C);以及三个时间反应(40、60和80分钟)。对于棕榈油生物柴油的生产,通过3:1、52°C和60分钟的摩尔比获得的最高产率为93%。这一结果与先前的研究不同,先前的研究发现,随着摩尔比的增加,产率更高,这意味着甲醇的费用更高。还分析了动力学粘度和比质量,其值在巴西、美国和欧洲标准范围内。结果表明,影响生物柴油生产的主要因素是摩尔比。关于生物柴油的表征,使用RMN H1技术,对于3:1的棕榈油生物柴油,可以获得79.50%的酯交换反应产率。通过气相色谱法可以验证样品中的主要脂肪酸是棕榈酸和油酸。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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15
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25 weeks
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