Epoxidation of cyclohexene with cyclohexyl hydroperoxide

E. A. Kurganova, A. S. Frolov, S. A. Kanaev, G. N. Koshel, A. A. Petukhov, G. V. Rybina, V. V. Plakhtinskii, V. S. Kabanova, A. A. Smurova
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Abstract

Objectives. To investigate the regularities of the process of joint production of epoxycyclohexane, cyclohexanol, and cyclohexanone using the cyclohexene epoxidation reaction with cyclohexyl hydroperoxide in the presence of an ammonium paramolybdate catalyst, representing an alternative to the method of cyclohexanol and cyclohexanone synthesis by alkaline catalytic decomposition of cyclohexyl hydroperoxide.Methods. The qualitative and quantitative analysis of the obtained intermediate and target compounds was determined using modern physicochemical research methods: gas–liquid chromatography using the Chromatec-Crystal 5000.2 hardware and software complex with a flame ionization detector and infrared spectroscopy on an RX-1 infrared Fourier spectrometer. The content of hydroperoxide in the oxidation products was determined using iodometric titration, while the carboxylic acid content was determined by the titrimetric method based on the neutralization reaction.Results. The presented method for obtaining cyclohexanol and cyclohexanone together with epoxycyclohexane by the reaction of cyclohexene epoxidation with cyclohexyl hydroperoxide containing cyclohexane in the products of high-temperature liquid-phase oxidation is experimentally substantiated. The influence of various technological parameters on the process of liquid-phase oxidation of cyclohexane to hydroperoxide is described. The conditions for carrying out this reaction are determined to ensure the achievement of a content of cyclohexyl hydroperoxide of 1.5 wt % in the products of oxidation. The regularities of the epoxidation reaction of the synthesized cyclohexyl hydroperoxide with cyclohexene in the presence of an ammonium paramolybdate catalyst are analyzed.Conclusions. Epoxidation of cyclohexene with cyclohexyl hydroperoxide produced epoxycyclohexane at a yield of 80–90% and a conversion of cyclohexane hydroperoxide of 85%.
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环己烯与环己基过氧化氢的环氧化反应
研究目的研究在顺钼酸铵催化剂存在下,利用环己烯与环己基过氧化氢的环氧化反应联合生产环氧环己烷、环己醇和环己酮过程的规律性,这是通过碱性催化分解环己基过氧化氢合成环己醇和环己酮方法的替代方法。采用现代物理化学研究方法对获得的中间体和目标化合物进行了定性和定量分析:使用带有火焰离子化检测器的 Chromatec-Crystal 5000.2 软硬件组合进行气液相色谱分析,并使用 RX-1 红外傅里叶光谱仪进行红外光谱分析。氧化产物中过氧化氢的含量采用碘量滴定法测定,而羧酸含量则采用基于中和反应的滴定法测定。通过环己烯环氧化与高温液相氧化产物中含有环己烷的环己基过氧化氢反应,获得环己醇、环己酮和环氧环己烷的方法得到了实验证实。描述了各种技术参数对环己烷液相氧化成过氧化氢过程的影响。确定了进行该反应的条件,以确保氧化产物中环己基过氧化氢的含量达到 1.5 wt %。分析了合成环己基过氧化氢与环己烯在顺钼酸铵催化剂存在下发生环氧化反应的规律性。环己烯与环己基过氧化氢的环氧化反应生成了环氧环己烷,产率为 80-90%,环己基过氧化氢的转化率为 85%。
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