Methyl Esters Production from Degummed Soybean Oil Catalyzed by Niobium Phosphate

IF 3 3区工程技术 Q3 ENERGY & FUELS BioEnergy Research Pub Date : 2023-08-11 DOI:10.1007/s12155-023-10653-z

Mariana Albarello, Ana Luiza Barrachini Nunes, Liara Jalime Vernier, Fernanda de Castilhos

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Abstract

The present study aimed a significant investigation of interesterification reaction to produce fatty acid methyl esters (FAME) from degummed soybean oil (DSO) in pressurized methyl acetate (MeA) catalyzed by niobium phosphate (NbOPO₄). It investigated a glycerol-free route for biodiesel production from a low-cost feedstock concerning the problem of high cost and surplus glycerol production. NbOPO₄ was characterized by X-ray diffraction, Fourier transform infrared spectroscopy, and nitrogen adsorption/desorption. Important factors in FAME production including temperature, catalyst content, and DSO:MeA molar ratio (MR) were investigated through an experimental design in two reaction times (60 min and 180 min). Response surface methodology was used to optimize important reaction variables. It was possible to obtain an FAME yield of 87.48% at 345 °C, 8 wt% of catalyst, and an MR of 1:35 in 60 min of reaction. The decomposition phenomenon was evident, achieving 64.14% at 345 °C and 8 wt% of catalyst, mainly due to prolonged exposure to large amounts of catalyst and high temperatures. The catalyst was shown to be active in the experimental conditions investigated. The reuse test pointed out a decrease in activity of up to 34.59%, which may be related to the adsorption of contaminants and mass loss.

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磷酸铌催化脱胶大豆油生产甲酯

本研究旨在对磷酸铌（NbOPO4）催化的脱胶大豆油（DSO）在加压醋酸甲酯（MeA）中产生脂肪酸甲酯（FAME）的酯化反应进行深入研究。该研究探讨了利用低成本原料生产生物柴油的无甘油路线，解决了高成本和甘油生产过剩的问题。通过 X 射线衍射、傅立叶变换红外光谱和氮吸附/解吸对 NbOPO4 进行了表征。通过两种反应时间（60 分钟和 180 分钟）的实验设计，研究了生产 FAME 的重要因素，包括温度、催化剂含量和 DSO:MeA 摩尔比 (MR)。采用响应面方法对重要的反应变量进行了优化。在 345 ℃、催化剂用量为 8 wt%、MR 为 1:35 的条件下，60 分钟的反应可获得 87.48% 的 FAME 收率。分解现象明显，在 345 °C 和 8 wt% 催化剂条件下，分解率为 64.14%，这主要是由于催化剂长时间暴露在大量催化剂和高温下造成的。在所研究的实验条件下，催化剂表现出了活性。重复使用测试表明，活性降低了 34.59%，这可能与污染物的吸附和质量损失有关。

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来源期刊

BioEnergy Research ENERGY & FUELS-ENVIRONMENTAL SCIENCES

CiteScore

6.70

自引率

8.30%

发文量

174

审稿时长

3 months

期刊介绍： BioEnergy Research fills a void in the rapidly growing area of feedstock biology research related to biomass, biofuels, and bioenergy. The journal publishes a wide range of articles, including peer-reviewed scientific research, reviews, perspectives and commentary, industry news, and government policy updates. Its coverage brings together a uniquely broad combination of disciplines with a common focus on feedstock biology and science, related to biomass, biofeedstock, and bioenergy production.