二甲醚选择性邻烷基化苯酚

Reactions Pub Date : 2022-11-17 DOI:10.3390/reactions3040040
Mane Samruddhi, Akash Bhatkar, M. Prabu, S. Mekala, P. Gogoi, G. Mohapatra, Raja Thirumalaiswamy
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引用次数: 0

摘要

苯甲醚是一种稻草色的芳香化合物,主要用于制造溶剂、调味剂、香水、燃料添加剂和合成工业。苯甲醚,又称甲氧基苯,是用各种甲基化剂由苯氧化钠或苯酚合成的。二甲醚(DME)作为烷基化剂在文献中很少报道。本文采用苯酚与二甲醚的o -烷基化工艺合成苯甲醚,实现了零排放。利用Aspen HYSYS (Hyprotech and Systems)软件模拟了苯酚与二甲醚反应的热力学平衡。用磷钨酸(PTA)在适宜酸度的γ-Al2O3上对苯酚的o -烷基化反应进行了研究。研究了不同比例的活性金属负载,在280℃条件下,转化率为46.57%,选择性为88.22%。用液相色谱法对连续搅拌反应器的液体产物进行了分析,并计算了其转化率和选择性。考察了苯酚在不同温度、反应物配比、停留时间和可回收性条件下的o -烷基化和c -烷基化反应,以及这些因素对苯甲醚收率的影响。采用XRD、BET、HR-TEM、FE-SEM、元素映射、XPS和DRIFT等方法对催化剂进行了表征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Selective O-alkylation of Phenol Using Dimethyl Ether
Anisole is a straw-colored aromatic compound mainly used in making solvents, flavoring agents, perfumes, fuel additives, and in the synthesis industries. Anisole, also known as methoxybenzene, is synthesized from sodium phenoxide or phenol using various methylating agents. The use of dimethyl ether (DME) as an alkylating agent is seldom reported in the literature. Herein, we have synthesized anisole through the O-alkylation process of phenol and DME to obtain zero discharge from this process. The thermodynamic equilibrium for the reaction of phenol and DME is simulated by using Aspen HYSYS (Hyprotech and Systems). The O-alkylation of phenol has been investigated using phosphotungstic acid (PTA) over γ-Al2O3 with appropriate acidity. Active metal loadings of various percentages were studied and the conversion was optimized at 46.57% with a selectivity of 88.22% at a temperature of 280 °C. The liquid products from the continuously stirred reactor were analyzed with liquid G.C. and the conversion and selectivity were calculated. A comparison of the O-alkylation and C-alkylation of phenol at different temperatures, reactant ratios, residence times, and recyclability was explored, as well as the impact of these factors on the yield of the desired anisole. The catalyst was characterized by XRD, BET, HR-TEM, FE-SEM, elemental mapping, XPS, and DRIFT studies.
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CiteScore
2.70
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