The SCF technology actualises the idea of green chemistry in liquefaction of microalgae and epoxidation of propylene reaction.
超临界流体技术在微藻液化和丙烯环氧化反应的应用正是体现绿色化学的思想。
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。
The SCF technology applying in epoxidation of propylene can improve the reaction conversion and selectivity and reduce energy consumption and environmental pollution.
对于丙烯环氧化反应,通过超临界流体技术来提高反应的转化率和选择性,降低能耗和对环境的污染。
The epoxidation of propylene to propylene oxide, using cumene hydroperoxide as oxidant, molybdenum glycol complex as catalyst and ethanol as solvent, has been investigated.
研究了以钼醇配合物为催化剂,过氧化氢异丙苯为环氧化剂,乙醇为溶剂的丙烯一步氧化制环氧丙烷的反应。
The epoxidation of propylene by micellar catalysis, including the study on reaction mechanism, the design of micellar catalysis system and its process development, were mainly introduced.
着重介绍了国外丙烯环氧化的胶团催化技术,包括胶团催化机理、反应体系设计以及工艺开发。
Propylene epoxidation with molecular oxygen as the oxidant is the most desirable reaction and is one of the most challenging topics in catalysis.
利用分子氧为氧化剂进行丙烯的环氧化反应是最理想的反应,同时也是世界催化领域内最具挑战性的课题之一。
Propylene epoxidation with molecular oxygen as the oxidant is the most desirable reaction and is one of the most challenging topics in catalysis.
利用分子氧为氧化剂进行丙烯的环氧化反应是最理想的反应,同时也是世界催化领域内最具挑战性的课题之一。
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