A Novel Approach for Sunflower Oil Based Polyol Production by Ring Opening of Epoxidized Linoleic Acid

Journal of Elastomers & Plastics Pub Date : 2023-03-17 DOI:10.1177/00952443231165415

I. S. Azmi, Mohd Zulkipli Ab Kadir, Noor Atiqah Sharif, Danial Nuruddin Azlan Raofuddin, M. Jalil

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Abstract

In numerous chemical industrial sectors, the utilization of epoxidized vegetable oil has emerged as a prospective growing market for polymer development. The experiment was to discover the effectiveness of formic acid to sunflower oil molar ratio and catalysts type toward epoxidation reaction for polyols formation. Hydrolysis of an epoxide involved the reaction of an epoxide with water, resulting in the formation of a diol. Sunflower-based epoxide was carried out by in situ using performic acid mechanism with the temperature of 80°C. The optimum relative conversion to oxirane was obtained within 50 min which is 41.37% from 1:1 molar ratio of formic acid to sunflower oil and natural zeolite as a catalyst. The genetic algorithm was used to find the optimal set of parameters in the mathematical model, and MATLAB is used to implement the numerical integration and the optimization process. The kinetic rate, k parameters obtained k11 = 0.169, k12 = 33.072, k2 = 5.244 for epoxidation palm oil, and k3 = 3.89 × 10−5 in degradation process.

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环氧化亚油酸开环生产葵花籽油多元醇的新方法

在许多化学工业领域，利用环氧化植物油已成为聚合物开发的一个有前景的增长市场。研究了甲酸与葵花籽油的摩尔比和催化剂类型对环氧化反应生成多元醇的影响。环氧化物的水解包括环氧化物与水的反应，产生二醇。以向日葵基环氧化物为原料，在80℃的温度下，采用高性能酸机理原位制备环氧化物。以天然沸石为催化剂，甲酸与葵花籽油的摩尔比为1:1，在50 min内相对转化率为41.37%。利用遗传算法在数学模型中寻找最优参数集，并利用MATLAB实现数值积分和优化过程。动力学速率、k参数分别为:棕榈油环氧化过程k11 = 0.169, k12 = 33.072, k2 = 5.244，降解过程k3 = 3.89 × 10−5。

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Journal of Elastomers & Plastics

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