无负载催化剂钌回收率可达到93%,负载钌催化剂回收率可达到90%。
The recovery of the supported and unsupported catalysts could be achieved 90% and 93%, respectively.
作为氯制造用催化剂,钌催化剂、特别是含氧化钌的催化剂成为优选的对象。
As the catalyst for chlorine production, a ruthenium catalyst, particularly a catalyst containing ruthenium oxide is suitably activated by this method.
综述了钌催化剂催化的主要几类有机合成反应,包括氢化、氧化、异构化、复分解。
Several kinds of ruthenium - catalyzed organic reactions were reviewed: hydrogenation, oxidation, isomerization, metathesis.
本发明涉及用在铝酸锂载体上的钌催化剂将芳胺催化氢化为其相 应的脂环族化合物的方法。
The present invention relates to processes for the catalytic hydrogenation of aromatic amines to their acyclic counterparts using a ruthenium catalyst on a lithium aluminate support.
活性炭负载钌催化剂能够显著催化甘油加氢反应,产物中高附加值的1,2-丙二醇和乙二醇的选择性超过60%。
The catalyst of activated Carbon-Supported Ruthenium can significantly catalytic hydrogenation of glycerol, and the selectivity of 1,2 - propylene glycol and ethylene glycol could reach to over 60%.
具有高纯度、高比表面、大孔容及合理孔分布的活性炭载体有利于活性组分有效均匀的分散,制备出高活性的氨合成钌催化剂。
The high purity, high surface area, large pore volume and proper pore structure of active carbon as a support for ruthenium catalyst usually lead to high catalytic activity for ammonia synthesis.
本文从载体的制备和改性方法、钌活性组分还原与负载、助剂的机理及其作用等方面简要地介绍了氧化物负载钌催化剂的最新研究进展。
This paper describes the new finding of the oxide-supported ruthenium catalysts for ammonia synthesis such as support preparation, catalyst reduction and the role of promoters.
用钌、镍催化剂做葡萄糖间歇加氢实验,根据实验现象及山梨醇的质量,针对钌、镍催化剂的一些特性作了分析对比。
Some character of Ruthenium catalyst and Nikel catalyst was compared based on experimental phenomena and sorbitol quality in batch hydrogenation experiment.
研究了活性组分钌的浸渍条件对催化剂性能的影响。
Therefore, it is essential to study the preparation conditions of ruthenium-based catalyst for ammonia synthesis.
用氨合成催化剂性能评价装置,研究了反应温度、压力、空速和氢氮比对以活性炭为载体的钌基氨合成催化剂活性的影响。
The influences of temperature, pressure, space velocity and ratio of hydrogen to nitrogen on the activity of ruthenium based ammonia synthesis catalyst were investigated.
钌基氨合成催化剂作为一种负载型催化剂,载体对催化剂活性有直接影响。
As a kind of supported catalyst, the supports of ruthenium-based ammonia synthesis catalysts have a direct effect on the activity of the catalysts.
利用浸渍法制备了钌和锡掺杂镍系催化剂,考察了其耦合甲烷部分氧化与二氧化碳重整的活性和稳定性。
The research status and progress in the coupling methane partial oxidation and carbon dioxide reforming reaction including the catalysts used for the reaction are described and discussed.
结果表明:添加金属钌和锡均降低了催化剂耦合甲烷部分氧化与二氧化碳重整的活性和稳定性。
It was found that doped Ru and Sn both decreased the activity and stability of the catalysts.
介绍了钌系氨合成催化剂的载体、促进剂、钌活性前身物对氨合成催化活性的影响。
Ruthenium catalysts are known to be quite sensitive to the nature of supports, promoters and precursors in ammonia synthesis.
采用本发明方法制备催化剂可以节约钌的用量,降低催化剂成本,并使催化剂的效率得到提高。
The adoption of said invented method for preparing catalyst can save dose of ruthenium, can reduce cost of catalyst, and can raise catalyst efficiency.
通过催化剂在实验中的使用次数和浸泡时间来研究了催化剂的耐久性,证明了三氯化钌浸渍催化剂是一种有效地催化剂。
Through the use of catalyst in the experiment and research of catalyst for soaking time, proved the durability of the AuCL3 dipping catalyst is a kind of effective catalysts.
一种液相进样直接燃料电池的阳极催化剂层,其包含铂-钌黑或铂-钯黑 催化剂和在碳基载体上载有铂-钌或铂-钯的铂-钌或铂-钯载体催化剂。
An anode catalyst layer of a direct liquid feed fuel cell includes a Pt-Ru or Pt-Pd black catalyst; and a supported Pt-Ru or Pt-Pd catalyst having Pt-Ru or Pt-Pd supported on a carbon-based support.
一种液相进样直接燃料电池的阳极催化剂层,其包含铂-钌黑或铂-钯黑 催化剂和在碳基载体上载有铂-钌或铂-钯的铂-钌或铂-钯载体催化剂。
An anode catalyst layer of a direct liquid feed fuel cell includes a Pt-Ru or Pt-Pd black catalyst; and a supported Pt-Ru or Pt-Pd catalyst having Pt-Ru or Pt-Pd supported on a carbon-based support.
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