1) oxo-dehydrogenation/V-Mg-O
氧化脱氢/V-Mg-O
2) catalysts/ V-Mg-O
催化剂/V-Mg-O
3) dehydrogenation
[英][di:,haidrədʒə'neiʃən] [美][di,haɪdrədʒə'neʃən]
氧化脱氢
1.
Synthesis and dehydrogenation of 4-nitro benzoyl acylhydrazines;
对硝基苯甲酰芳肼的合成及氧化脱氢研究
2.
Synthesis of adipic-1′,6′-bis(4-halogenphenyl hydrazine) and its dehydrogenation;
己二酰-1′,6′-双(4-卤苯肼)的合成及其氧化脱氢研究
3.
Synthesis of Adipic-1′,6′-Bis(4-Nitrophenyl Hydrazine) and Its Dehydrogenation;
己二酰-1′,6′-双(4-硝基苯肼)的合成及其氧化脱氢研究
4) Oxidative dehydrogenation
氧化脱氢
1.
Catalytic performance of oxidative dehydrogenation of propane to propene over the cobalt oxide/titanium-bearing blast furnace slag catalyst;
氧化钴/高炉渣催化剂的丙烷氧化脱氢性能
2.
Progress in catalytic system of propane oxidative dehydrogenation;
丙烷氧化脱氢反应催化剂体系研究进展
3.
study of oxidative dehydrogenation of C_2H_6 on La_2O_3;
La_2O_3催化剂上乙烷氧化脱氢反应的研究
5) oxydehydrogenation
['ɔksidi,haidrədʒi'neiʃən]
氧化脱氢
1.
Catalysts for ethyl benzene oxydehydrogenation to styrene;
乙苯氧化脱氢制苯乙烯催化剂
2.
Study on Catalysis of Ferrisilicates for Oxydehydrogenation of Ethylbenzene I.Characterization of Catalysts and Effect of Reaction Temperature and EB/O_2 Ratio on Catalytic Activity;
铁硅酸盐分子筛乙苯氧化脱氢催化性能研究Ⅰ.催化剂的表征及反应温度、原料气比例对活性的影响
3.
Activation of Reactive Species on Ultrafine Mg-ferrites and Zn-ferrites in Oxydehydrogenation of Ethylbenzene;
乙苯氧化脱氢反应中铁酸镁、铁酸锌超微粉的催化行为
6) dehydrogenation oxidation
脱氢氧化
1.
, the reaction system of propane dehydrogenation oxidation is introduced in detail.
从化学反应的原理、催化剂、催化原理和反应动力学等方面,详细地介绍了丙烷脱氢氧化的反应体系,分别就丙烷脱氢氧化催化剂及其载体和助剂的特点进行了概述,重点论述了Biloen、KaidongChen、陈光文和CJGasc幃n的催化历程及反应动力学。
2.
The effects of preparation variables including leaching methods,leaching temperature,leaching time,alkali concentration,alloy composition on the structure features and catalytic properties on the dehydrogenation oxidation of diethanolamine of Raney Cu were investigated in detail.
描述了新型RaneyCu催化剂在制备时的抽提工艺、抽提温度、抽提时间、碱液浓度及合金组成等因素对其结构特征和二乙醇胺脱氢氧化催化性能的影响规律 ,得到了较优化的催化剂制备参数 :采用改进的制备途径 ,合金铝铜比为 2 ,抽提温度为 80℃ ,抽提时间 2h ,碱液浓度为 2 0 %NaOH ;所制备的RaneyCu催化剂具有较高的活性和选择性 ,催化剂重复使用 2 6次后 ,亚氨基二乙酸的转化率≥ 95 % 。
3.
Amorphous alloys were used as catalysts for the dehydrogenation oxidation of diethanolamine to produce iminodiacetic acid.
以非晶态合金制备的骨架铜作为催化剂 ,对二乙醇胺脱氢氧化制备亚氨基二乙酸的新工艺进行了研究。
补充资料:氧化脱氢
见脱氢。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条