环氧丙烷是一种重要的有机化工原料。
Propylene oxide is important material of organic chemistry industry.
采用反应精馏新工艺由环氧丙烷水合制丙二醇。
A new process of Hydration of propylene oxide to glycols was introduced.
反应温度和空速对环氧丙烷的转化率影响不大。
The influence of reaction temperature and WHSV on conversion of propylene oxide is not appreciable.
石灰乳是生产化工产品环氧丙烷的主要原料之一。
The lime cream is one of main materials to produce the chemical product epoxypropane.
总结了电石渣生产环氧丙烷工艺中的设计与应用。
Design and application of carbide slag in propylene oxide production were summarized.
在碱性条件下用环氧丙烷对壳聚糖进行了改性研究。
Chitosan was modified with propylene oxide in the presence of sodium hydroxide.
在碱性条件下用环氧丙烷对甲壳质进行了改性研究。
Chitin modified with propylene oxide under alkaline conditions was described.
这是环境友好、无联产品、经济合理的制环氧丙烷的新方法。
This is a novel, environmentally friendly and economical method for making propylene oxide without co-product.
氯醇化法和有机过氧化物法曾经是主要的环氧丙烷生产工艺。
Chlorohydrination and the organic peroxide process are the main traditional methods for producing epoxy propane.
通过批式反应考察了丙烯甲烷共氧化过程合成环氧丙烷的可能性。
Batch experiments were performed to explore the possibility of producing epoxypropane by a cooxidation process.
介绍了从环氧丙烷生产废液中回收1,2 -二氯丙烷的新方法。
A new method for recovering 1, 2-dichloropropane from waste liquor in propylene oxide production was developed.
叙述了环氧丙烷与低级脂肪醇在la2型固体酸催化剂上的反应。
The etherification reaction of propylene oxide with lower aliphatic alcohol over LA2 solid acid catalyst was studied.
碳酸钾使环氧丙烷选择性降低,三甲胺引起TS-1催化剂失活。
Trimethylamine catalyzes the reaction of propylene oxide to polyethers, and causes the deactivation of TS-1.
对于从丙烯和过氧化氢制备环氧丙烷的反应而言本催化剂是很有价值的。
The catalysts are valuable for making propylene oxide from propylene and hydrogen peroxide.
在此基础上,又考查了环氧丙烷结构单元的引入对染色助剂应用性能的影响。
On the basis of which, the influence of the induction of propylene epoxide structural unit to the application properties of DA dyeing assistants was reviewed.
研究了甲醇与环氧丙烷在碱性催化剂TA存在下均相合成丙二醇甲醚的过程。
A process of reacting propylene oxide with methanol using basic catalyst ta is investigated.
为了深入了解环氧丙烷聚合工艺并为国内生产厂家提供生产操作的理论依据。
In order to deeply understand the technics of Polymerization of Propylene oxide and to provide theoretical operation basis for home manufactory.
目的探讨芳氧基环氧丙烷与胺发生开环、胺解时生成的低极性化合物的结构。
Aim To separate and determine the less polar compound in the epoxide-opening reaction with the amine.
介绍了环氧丙烷的三种主要生产技术,并进行了技术经济比较和市场需求分析。
To make comparison of technical economics and market demand analysis for propylene oxide.
我们是化学品及其衍生品,包括乙烯、苯乙烯、丙烯和环氧丙烷的领先制造商。
We are a leading manufacturer of chemicals and derivatives, including ethylene, styrene, propylene and propylene oxide.
本文对高含盐量环氧丙烷皂化废水生化处理适用的流程及最佳运行条件进行了研究。
Biological treatment process applicable to epoxy propane saponification wastewater with high salt content and optimum operation condition are studied in this paper.
采用微反-色谱联合装置对环氧丙烷开环异构化反应中催化剂的初活性进行了评选。
The initial activity of catalyst in isomerization reaction of propylene oxide have been evaluated with microreactorchromatograph.
以魔芋淀粉和环氧丙烷为原料,以乙醇为溶剂,对羟丙基魔芋淀粉合成工艺进行了研究。
The synthesis of hydroxypropyl amophophallus starch by using amophophallus starch and epoxypropane as raw materials, sodium hydroxide as catalyst and ethanol as solvent, was studied in this paper.
评述了环氧丙烷的各种合成方法,介绍了钛硅沸石催化丙烯环氧化反应研究的近期进展。
The recent progress using titanium silicalite to catalyze propylene into Propylene Oxide was introduced.
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。
The process producing propylene oxide by epoxidation of propylene with ethylbenzene hydroperoxide is one of the most promising methods in recent years.
经计算得到的模拟结果对过氧化氢氧化丙烯制备环氧丙烷工艺的工业化有一定的参考价值。
The result of simulation is valuable for industrialization of propylene oxide producing process by hydrogen peroxide.
采用金属钙、脱水液氨、载体纳米二氧化硅及改性剂乙腈与环氧丙烷制备出氨钙体系催化剂。
Calcium ammine catalyst was prepared with metal calcium, dehydrated liquid ammonia as raw materials, nano-silica as a carrier and acetonitrile and propylene epoxide as modifiers.
结合环氧丙烷项目工艺技术开发的实践,对模拟放大和物流余热利用两项技术做了系统介绍。
Combining the practice from technology development of a propylene oxide project, systematic introduction is given to two technologies of simulation enlargement and stream heat recuperation.
结合环氧丙烷项目工艺技术开发的实践,对模拟放大和物流余热利用两项技术做了系统介绍。
Combining the practice from technology development of a propylene oxide project, systematic introduction is given to two technologies of simulation enlargement and stream heat recuperation.
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