1) ST20C2
ST20-C2
2) C~2Σ state
C2∑
3) C2 hydrocarbon
C2烃
1.
The experiments of glow discharge plasma conversion of methane to C2 hydrocarbons were conducted by a novel reactor with rotary electrode at room temperature and atmospheric pressure.
采用新型的旋转电极辉光放电反应器,在常温常压下对辉光等离子体作用下的甲烷转化制C2烃进行了研究。
2.
In this paper the kinetics of methane cracked and converted to C2 hydrocarbons in cold plasma was investigated.
本论文着重探讨冷等离子体裂解甲烷制C2烃反应的动力学过程。
3.
7% with C2 hydrocarbon selectivity of 81.
3%的C2烃选择性,低温活性高,于710℃可得到甲烷转化率11。
4) C_2 hydrocarbons
C2烃
1.
The synergism of BaO/γ-Al_2O_3 catalyst and cold plasma used in the reaction of oxidative coupling of CH_4 with CO_2 to C_2 hydrocarbons was studied.
研究了冷等离子体与BaO/γ-Al2O3催化剂协同作用下CO2氧化CH4制C2烃反应。
2.
At low temperature(300~500 K) and atmospheric pressure,the reaction of methane to C_2 hydrocarbons in the presence of appended gas(carbon dioxide,argon and hydrogen)under direct current plasma was investigated.
在低温(300~500 K)常压下,考察了不同性质的添加气二氧化碳(CO2)、氩气(Ar)和氢气(H2)(添加气摩尔浓度0%~80%)对直流冷等离子体转化甲烷制C2烃反应的影响。
5) C_2 hydrocarbon
C2烃
1.
Thus it is difficult to transform the methane directly into C_2 hydrocarbon.
甲烷是天然气的主要成份,由于其化学性质稳定,因而将甲烷直接转化合成C2烃难度很大。
2.
by different catalytic routes can synthesized various value chemical products, such as methanol, C_2 hydrocarbons, syngas, dimethyl carbonate, and the chemical utilization of CO_2 is also of great benefit to environmental protection.
从CO2与H2、CH4、H2O、CH3OH等反应可以制得甲醇、C2烃、合成气、碳酸二甲酯等许多有价值的化学品,同时二氧化碳的化学利用对环境保护也极为有益。
3.
The reaction mechanism of methane cracking and conversion to C_2 hydrocarbons in cold plasma was investigated.
研究在冷等离子体条件下甲烷裂解并偶联产生C2烃的反应机理。
6) C2 hydrocarbons
C2烃
1.
Methane conversion to C2 hydrocarbons by low temperature plasma was studied in different reactors.
就不同反应器对甲烷常压低温等离子体转化制C2烃的影响进行了研究。
补充资料:16,17-Epoxypregna-5,9(11)-diene-3,20-dione3,20-diethyleneketal
CAS:173350-27-1
分子式:C25H34O5
分子质量:414.54
中文名称:16α,17α-环氧孕甾-5,9(11)-二烯-3,20-二酮3,20-二乙二醇缩酮
16α,17α-环氧孕甾-5,9(11)-二烯-3,20-二酮双(环1,2-乙二基缩酮)
英文名称:16,17-Epoxypregna-5,9(11)-diene-3,20-dione3,20-diethyleneketal
16,17-Epoxypregna-5,9(11)-diene-3,20-dione cyclic bis(1,2-ethanediyl acetal)
性状描述:结晶。熔点160℃。
生产方法:可用16α,17α-环氧孕甾-4-烯-3,11,20-三酮(即16α,17α-环氧-11-酮基黄体酮)经(3-位;20-位酮基与乙二醇)缩酮化、(11-位酮基)还原(成11-位羟基)、(9,11-位脱水)消除[形成9(11)-位双键]制得该品。
用途:倍他米松的中间体。
分子式:C25H34O5
分子质量:414.54
中文名称:16α,17α-环氧孕甾-5,9(11)-二烯-3,20-二酮3,20-二乙二醇缩酮
16α,17α-环氧孕甾-5,9(11)-二烯-3,20-二酮双(环1,2-乙二基缩酮)
英文名称:16,17-Epoxypregna-5,9(11)-diene-3,20-dione3,20-diethyleneketal
16,17-Epoxypregna-5,9(11)-diene-3,20-dione cyclic bis(1,2-ethanediyl acetal)
性状描述:结晶。熔点160℃。
生产方法:可用16α,17α-环氧孕甾-4-烯-3,11,20-三酮(即16α,17α-环氧-11-酮基黄体酮)经(3-位;20-位酮基与乙二醇)缩酮化、(11-位酮基)还原(成11-位羟基)、(9,11-位脱水)消除[形成9(11)-位双键]制得该品。
用途:倍他米松的中间体。
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