Cyclohexene was synthesized from cyclohexanol using sodium bisulfate as catalyst.
以环己醇为原料,硫酸氢钠为催化剂,合成了环己烯。
The process of hydration of cyclohexene to prepare cyclohexanol was industrialized in Japan in 1990.
1990年日本实现了环已烯水合制环已醇的工业化。
Synthetic of cyclohexene by dehydration of cyclohexanol on the catalyst ofp-Tolenesulfonic acid is studied.
用对甲基苯磺酸为催化剂,对环己醇脱水制备环己烯反应进行了研究。
Cyclohexyl acetate was synthesized from acetic acid and cyclohexanol catalyzed by aluminum chloride hexahydrate.
以乙酸和环己醇为原料,六水合三氯化铝为催化剂催化合成了乙酸环己酯。
Cyclohexyl acetate was synthesized from acetic acid and cyclohexanol with anhydrous aluminum chloride as catalyst.
以无水三氯化铝作催化剂,对环己醇脱水制备环己烯的反应进行研究。
The research on the dehydration of cyclohexanol to prepare cyclohexene using phosphotungstic acid as catalyst is made.
对以磷钨酸为催化剂环己醇脱水制备环己烯的反应进行了研究。
The performances and application status of several cyclohexanol dehydrogenation catalysts in home and abroad are compared.
对几种国内外工业用环己醇脱氢催化剂的性能及使用情况进行了比较。
From campholenic aldehyde , the sandalwood fragrance campholenyl methyl cyclohexanol was prepared, its structure is analyzed and identified.
从龙脑烯醛合成了檀香香料龙脑烯基甲基环己醇,并对其结构进行了分析鉴定。
The cyclohexanone column was used to separate cyclohexanol and cyclohexanone by the difference of their boiling points in production of hexanolactam.
在己内酰胺生产过程中,环己酮蒸馏塔的作用是利用环己酮与环己醇沸点差异,将二者分离。
Cyclohexene was synthesized by dehydration of cyclohexanol using zirconium sulfate or potassium hydro - gen sulfate as catalyst instead of concentrated sulfuric acid.
用硫酸锆、硫酸氢钾分别代替浓硫酸,催化环己醇脱水合成了环己烯,主要考察了催化剂用量、分馏反应时间对产物收率的影响。
The orthogonal design was used in the optimum synthesis of cyclohexyl nitrate with the mixture of nitric acid and acetic anhydride as the nitrating agent of cyclohexanol.
以硝酸-醋酐混合物为环己醇的硝化剂,利用正交试验设计描述了硝酸环己酯的优化合成。
This macromolecular metalloporphyrin was used as the catalyst for the first time for cyclohexane oxidation to cyclohexanol and cyclohexanone with air in the absence of additives or solvents.
在无任何外加溶剂及共还原剂的条件下,应用此高分子金属卟啉作为催化剂,选择性地催化空气氧化环己烷为环己酮和环己醇。
The deactivation of ZSM-5 zeolite catalyst (MH) for cyclohexene hydration to produce cyclohexanol was investigated by gas chromatography, gravimetry analysis and low-temperature nitrogen adsorption.
采用气相色谱、重量法、低温氮吸附等分析方法,对水合催化剂(MH)失活的原因进行了研究。
The deactivation of ZSM-5 zeolite catalyst (MH) for cyclohexene hydration to produce cyclohexanol was investigated by gas chromatography, gravimetry analysis and low-temperature nitrogen adsorption.
采用气相色谱、重量法、低温氮吸附等分析方法,对水合催化剂(MH)失活的原因进行了研究。
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