First, selective oxidative dehydrogenation of ethylbenzene was discussed.
首先探讨了乙苯的选择氧化脱氢反应。
A typical example is the oxidation of ethylbenzene to prepare acetophenone.
其中最有代表性的是乙苯氧化制苯乙酮。
Dehydrogenation of ethylbenzene to styrene using a mixed type catalyst was described.
介绍乙苯脱氢制苯乙烯时使用混合催化剂的情况。
Data also suggests that the liver and kidneys may be a target of toxicity for ethylbenzene.
数据也暗示肝脏和肾脏可能是乙苯毒性攻击目标。
Catalytic dehydrogenation of ethylbenzene is an important method for production of styrene.
脱氢是生产苯乙烯的主要方法。
The corrosion products formed on ethylbenzene reactor have been examined by using EDX and XRD.
用扫描电镜能谱和X射线衍射方法对乙苯反应器腐蚀产物进行了分析。
The effects of temperature change on the performance of a biofilter for treating ethylbenzene.
主要考察温度变化对生物过滤塔净化含乙苯废气效果的影响。
Gulf residents are getting sick: blood tests confirm ethylbenzene, xylene, and high levels of hexane.
墨西哥湾居民患病:血液测试确认含有乙苯,二甲苯以及很高成分的乙烷。
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。
The catalyst for ethylbenzene dehydrogenation had the most effectiveness by adjusting the factors...
在生产中可据此来调控各因素,使乙苯脱氢催化剂得以发挥最大效能。
More and more attention has been paid to the oxidation of the side chain on the ethylbenzene and its derivatives.
乙苯及其衍生物的侧链氧化制备芳酮的方法越来越受到重视。
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。
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。
This standard solution was accurately prepared in super-clean laboratory with pure ethylbenzene and sub-packed in 2ml ampoules.
本标准溶液以高纯乙苯在超净实验室中准确配制并分装于2毫升安瓿中。
The properties and industrial application of GS-06B catalyst for preparing styrene by ethylbenzene dehydrogenation were introduced.
介绍了乙苯脱氢制苯乙烯用GS - 06 B催化剂的特性及工业应用。
Conversion of ethylene was over 96% and selectivity of ethylbenzene was over 94%. Moreover, dimethylbenzene was hardly found in the product.
在此条件下,乙烯转化率大于96%,乙苯选择性大于94%,反应产物中基本上无二甲苯生成。
The method of trace detection of benzene, toluene, ethylbenzene, and xylene(BTEX) was studied in ambient air using laser two-photon ionization.
利用激光双光子电离技术研究了在大气压力下探测痕量苯系物的方法。
Meanwhile, the effect of different catalysts on the conversion of ethylbenzene and CO_2, as well as the selectivity of styrene was investigated.
同时考察了不同组成的催化剂对乙苯及CO_2的转化率,苯乙烯选择性的影响。
The factors which influence the mechanical strength of the catalyst for ethylbenzene dehydrogenation to styrene with low potassium were discussed.
考察了各种因素对低钾乙苯脱氢制苯乙烯催化剂机械强度的影响。
The process producing propylene oxide by epoxidation of propylene with ethylbenzene hydroperoxide is one of the most promising methods in recent years.
用乙苯氢过氧化物氧化丙烯制取环氧丙烷是目前生产环氧丙烷最有前途的工艺路线之一。
Porous catalysts with carbon fiber for ethylbenzene dehydrogenation were prepared under the protection of nitrogen by programmed temperature controlling.
在氮气保护及程序控温条件下,制备了具有一定孔隙的炭纤维掺杂的乙苯脱氢催化剂。
The p-ethylacetophenone was synthesized with acetylated, ethylbenzene and anhydrous aluminium chloride, then was oxidized top-ethylbenzoic acid with iodoform reaction.
以乙酸酐、乙基苯和无水三氯化铝为原料合成对乙基苯乙酮,并利用碘仿反应氧化对乙基苯乙酮制备对乙基苯甲酸。
An one dimensional homogenous adiabatic fixed bed reactor model was adopted to simulate a radial flow reactor for dehydrogenation of ethylbenzene to styrene under vacuum.
采用一维拟均相绝热径向反应器模型模拟乙苯负压脱氢径向反应器。
Benzene as raw materials in order to be more than 250 kinds of synthetic organic chemicals, but the main derivatives for ethylbenzene, cumene, cyclohexane and nitrobenzene.
以苯为原料可合成250种以上的有机化学品,但主要衍生物为乙苯、异丙苯、环己烷和硝基苯。
The strong acid is the active site for creaking para-diethylbenzene and ethylbenzene and it has little effect on p-isomer selectivity of disproportionation and isomerization.
强酸位是对二乙苯和乙苯裂化的活性中心,而对歧化和异构化反应生成对位异构体的选择性影响不大。
The benzene - toluene - ethylbenzene ternary system is used as an example to justify the method, and compared with two common separation sequences. The result is energy saving is remarkable.
用苯-甲苯-乙苯物系为例进行考核计算,与普通塔的两个分离序列进行比较,节能效果十分显著。
But neither separation recycling dry gas, or directly use the ethylene production of ethyl-benzene or dry gas methyl ethylbenzene, all is recycled in FCC dry gas effective method of ethylene.
但是无论是分离回收干气中的乙烯,还是直接利用干气生产乙苯或对甲基乙苯,都是回收利用催化裂化干气中乙烯的有效方法。
But neither separation recycling dry gas, or directly use the ethylene production of ethyl-benzene or dry gas methyl ethylbenzene, all is recycled in FCC dry gas effective method of ethylene.
但是无论是分离回收干气中的乙烯,还是直接利用干气生产乙苯或对甲基乙苯,都是回收利用催化裂化干气中乙烯的有效方法。
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