The procedure of dehydrogenation and cracking of dipentene was discussed.
最后讨论了双戊烯脱氢和裂解反应过程。
First, selective oxidative dehydrogenation of ethylbenzene was discussed.
首先探讨了乙苯的选择氧化脱氢反应。
Ethane dehydrogenation to ethene is an effective method for using ethane.
乙烷脱氢制乙烯是乙烷利用的有效途径。
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。
The activation of oxygen is beneficial for the oxidative dehydrogenation of propane.
氧的活化是催化剂在丙烷氧化脱氢中具有良好活性的原因。
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。
Therefore, it is necessary to extend the resource of isobutene by dehydrogenation of butanes.
因此,通过异丁烷脱氢扩大异丁烯的来源是必要的。
The catalytic dehydrogenation of ethylbenzene to styrene in zeolite membrane reactors was studies.
采用管式沸石膜反应器,研究了乙苯脱氢反应生成苯乙烯的性能。
Recovery process of aromatic hydrocarbons from dehydrogenation vent gas of styrene units was studied.
研究了苯乙烯装置脱氢尾气中芳烃回收工艺。
The function of carbon dioxide is to remove coke and react with hydrogen to accelerate dehydrogenation of ethane.
二氧化碳的作用是消除积炭以及与氢反应以提高乙烷的脱氢反应转化率。
METHODS Using the bromine, the lithium bromide and the promoter pyridine carried out the oxidized dehydrogenation.
方法利用溴、溴化锂和助催化剂吡啶方法同时进行氧化脱氢。
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。
Development and industrial application of GS-08M catalyst for ethyl benzene dehydrogenation to styrene were described.
介绍了G S - 08 m乙苯脱氢制苯乙烯催化剂的研制及工业应用。
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。
In this paper, a module-separated ethylbenzene dehydrogenation reactor is set up, which can produce 25 tons styrene per year.
本论文建立了膜组件分立的沸石膜乙苯脱氢模试装置,年产量25吨。
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。
A new catalytic distillation process for the endothermic reaction of the dehydrogenation of isopropanol is developed in this work.
研究开发了一种新的吸热反应的催化蒸馏过程,即异丙醇脱氢的催化蒸馏过程。
The oxidative dehydrogenation of ethane to ethylene was studied over alkaline earth oxides promoted with alkaline metal chlorides.
报道了乙烷在以碱金属氯化物作为助剂的碱土金属氧化物催化剂上的氧化脱氢。
The effect of membrane separation on the chemical equilibrium shift of dehydrogenation is discussed on the basis of thermodynamics.
从热力学上讨论了膜分离对脱氢反应平衡移动的作用。
The kinetics of cyclohexane dehydrogenation on platinum reforming catalyst was studied in a flow-circulating system at ordinary pressure.
在流动循环装置中常压下进行了环已烷在铂重整催化剂上的脱氢反应动力学研究。
The principle of hydrogen transfer in catalysis-separation dehydrogenation membrane reactor designed by the authors is analyzed in detail.
分析了作者设计的新型催化-分离脱氢膜反应器的氢传递过程原理。
Aromatics formation are formed not only via the hydrogen transfer reaction between the molecules but also by dehydrogenation and aromatization.
芳烃不仅通过分子间氢转移反应生成,而且通过直接脱氢芳构化反应生成。
Nano size nickel oxide prepared by sol-gel method has better ethane oxidative dehydrogenation activity at lower temperature than by other methods.
用溶胶-凝胶法制备的纳米氧化镍具有较好的乙烷氧化脱氢低温反应活性。
Carbon deposits on two Pt-Sn commercial catalysts for the dehydrogenation of paraffins have been studied by temperature programmed oxidation (TPO).
利用程序升温氧化、差热分析、热重等方法考察了两种长链烷烃脱氢工业铂锡催化剂表面的积炭特征。
The oxidative dehydrogenation of propane (ODP) to propene is one important subject in natural gas, oil field gas and refinery gas application area.
丙烷氧化脱氢制丙烯是利用天然气、油田气和炼厂气的一个重要课题。
The effect of cooling rate and undercooling temperature on the rate and amount of dehydrogenation was studied by magnetic balance simulation method.
用磁秤模拟方法研究了冷却速度和过冷温度对镍铬钢排氢速度和排氢量的影响。
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。
Among all the possible routes of preparing OPP, the condensation and dehydrogenation process from cyclohexanone has the most extensive applied prospect.
在所有制备opp的可行路线中,又以环己酮缩合、脱氢工艺最具有应用前景。
Among all the possible routes of preparing OPP, the condensation and dehydrogenation process from cyclohexanone has the most extensive applied prospect.
在所有制备opp的可行路线中,又以环己酮缩合、脱氢工艺最具有应用前景。
应用推荐