INVESTIGATING COMPUTATIONALLY THE FORMATION MECHANISM OF METHYLTRIPHENYLPHOSPHONIUM BROMIDE AND ETHYLENE GLYCOL BASED NATURAL DEEP EUTECTIC SOLVENT AND ITS APPLICATIONS IN THE PURIFICATION OF BIOFUEL

Zh. A. Sailau, N.Zh. Almas, K. Toshtai, A. Aldongarov, Y. Aubakirov
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Abstract

Biodiesel is a new replacement for various types of traditional fuels. There are many advantages of biofuel including renewable, less-flammability, and cheaper compared to traditional fuel, reduce greenhouse gas emissions, and others. However, the primary challenge of biofuel production in the large-scale production is related to purification of its unwanted impurities such as glycerol, water, methanol, soap/catalyst, free fatty acids, glycerides and others. Herein, glycerol is an unwanted impurity of biofuel that leads to problems including i) deposition in the bottom of fuel tank, ii) decantation, iii) engine durability problems, iv) setting problems, v) injector fouling, vi) storage problem, and others. Consequently, there are many ways to remove glycerol, and herein, the one alternative is extraction of glycerol from biodiesel via Natural Deep Eutectic Solvents. In this regard, the mixture of a methyltriphenylphosphonium bromide and ethylene glycol, as a Natural Deep Eutectic Solvent ais effective in removing glycerol from biofuel. In this work, we had investigated the formation mechanism of methyltriphenylphosphonium bromide and ethylene glycol, as a Natural Deep Eutectic Solvents, and then extraction of glycerol from biofuel via Natural Deep Eutectic Solvents via implementing Quantum Chemical Calculations using HyperChem software. The results imply that there are strong ionic and covalent interactions between bromine, methyltriphenylphosphonium and ethylene glycol according to optimized structures, bond length, energies, and others. Secondly, the extraction of glycerol from biofuel is mainly achieved via bromine ion of Natural Deep Eutectic Solvent, and the structure of Natural Deep Eutectic Solvent is remaining unchanged after this process, meaning its stability, and can be reused.
计算研究了甲基三苯基溴化磷与乙二醇天然深共晶溶剂的形成机理及其在生物燃料提纯中的应用
生物柴油是多种传统燃料的新替代品。生物燃料有许多优点,包括可再生、不易燃、比传统燃料更便宜、减少温室气体排放等。然而,大规模生产生物燃料的主要挑战是净化不需要的杂质,如甘油、水、甲醇、肥皂/催化剂、游离脂肪酸、甘油酯等。在这里,甘油是生物燃料中不需要的杂质,它会导致以下问题:1)在燃料箱底部沉积,2)泄漏,3)发动机耐久性问题,4)设置问题,5)喷油器污垢,6)储存问题,以及其他问题。因此,有许多方法可以去除甘油,其中一种选择是通过天然深共晶溶剂从生物柴油中提取甘油。在这方面,甲基三苯基溴化磷和乙二醇的混合物,作为一种天然的深度共熔溶剂,可以有效地从生物燃料中去除甘油。在这项工作中,我们研究了甲基三苯基溴化磷和乙二醇作为天然深共晶溶剂的形成机理,然后通过HyperChem软件实现量子化学计算,从生物燃料中通过天然深共晶溶剂提取甘油。结果表明,根据优化的结构、键长、能等,溴、甲基三苯基膦和乙二醇之间存在很强的离子和共价相互作用。其次,从生物燃料中提取甘油主要是通过天然深共晶溶剂的溴离子来实现的,在此过程中天然深共晶溶剂的结构保持不变,具有稳定性,可以重复使用。
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