1·A dehydrogenation catalyst, process for preparation, and a method of use thereof.
脱氢催化剂,制备方法,及其使用方法。
2·Presents the performances and industrial application of TH-1 dehydrogenation catalyst.
介绍TH - 1型脱氢催化剂的性能及工业应用情况。
3·Effect of calcination condition on the water tolerant stability of ethylbenzene dehydrogenation catalyst was studied.
考察了焙烧条件对乙苯脱氢制苯乙烯催化剂耐水性能的影响。
4·The reasons to cause low activity of dehydrogenation catalyst NDC - 4 were investigated by analyzing physical property and composition of the catalyst.
通过对低活性NDC - 4型脱氢催化剂物性与组分的分析,研究了影响催化剂性能的因素及催化剂低活性的成因。
5·The effect of sulfur on aromatization, dehydrogenation, hydroisomerization and hydrocracking activities of the catalyst has been studied with different hydrocarbon feedstocks.
以不同原料研究了硫对重整催化剂芳构化、脱氢、异构化和加氢裂化活性的影响。
6·The mechanism of dehydrogenation of secondary butanol and the catalyst characteristics and regeneration steps were introduced.
简单地介绍了仲丁醇脱氢反应的机理、催化剂的特点和催化剂的再生步骤。
7·In addition, the reaction mechanism of methanol dehydrogenation is not clear for the various catalysts, which hampering us to optimize the catalyst ulteriorly.
另外,由于用于甲醇直接脱氢反应的催化剂种类繁多,使该反应的机理仍模糊不清,从而阻碍了人们对各种催化剂的进一步优化。
8·The possibility of preparing p-methyl styrene from p-ethyltoluene by dehydrogenation on iron oxide catalyst originally used for dehydrogenation of ethyl benzene was studied.
探讨了乙苯脱氢的氧化铁系催化剂用于对乙基甲苯脱氢制取对甲基乙烯的可能性。
9·By means of pulse microreactor-gas chromatographic method, the catalytic properties of the catalyst for the dehydrogenation of cyclohexane are tested.
并用脉冲微反色谱技术考察了催化剂的环己烷脱氢性能。
10·Hydrogen was a gas catalyst in the reactions, and it was useful for hydrogen to synthesis of C2 hydrocarbons by dehydrogenation coupling reactions of methane.
在该偶联反应中,氢气是一种气体催化剂,它的加入有助于甲烷的脱氢偶联转化制备C2烃。