1) Light hydrocarbon
低碳烃
1.
The selectivity,reproducibility and separation power of the column in light hydrocarbon analyses were examined and compared with other brands of alumina PLOT columns.
采用液相沉渍法制备出高效Al2 O3/SPLOT毛细管色谱柱 ,并采用Al2 O3/SPLOT柱对C1 ~C4 低碳烃和聚合级丙烯试样进行了分析。
2) lower alkanes
低碳烃
1.
The progress of the catalytic conversion of lower alkanes to aromatics by inorganic membrane;
无机膜催化低碳烃脱氢芳构化制芳烃研究进展
2.
Developments in Conversion of lower alkanes into aromatic hydrocarbons have been reviewed in details.
本文着重介绍了低碳烃芳构化制芳烃的研究进展,并阐述了催化剂的不同制备方法与芳构化性能的关系及芳构化反应机理。
3) light hydrocarbons
低碳烃
1.
A new method in which carbon monoxide and methane are directly converted to light hydrocarbons by microwave plasma (2.
45GHz)一氧化碳和甲烷直接转化成低碳烃的一种新方法。
4) light olefins
低碳烯烃
1.
Advances in process research on coal or natural gas to light olefins via methanol;
煤或天然气经甲醇制低碳烯烃工艺研究新进展
2.
Single-tube scaleup tests on direct conversion of syngas to light olefinsⅡ. Studies of catalyst properties;
合成气直接制取低碳烯烃单管扩大试验——Ⅱ.催化剂性的研究
3.
Single tube scaleup tests on direct conversion of syngas to light olefins Ⅲ. studies of regenerated catalyst properties;
合成气直接制取低碳烯烃的单管扩大试验Ⅲ.催化剂再生性能研究
5) light olefin
低碳烯烃
1.
Conversion of fluid catalytic cracking gasoline to light olefins and high octane number gasoline;
利用流化催化裂化汽油生产低碳烯烃联产高辛烷值汽油
2.
The results indicated that coal and heavy oil co-gasification can produce light olefins and synthesis gas,the content of light olefins(C2H4+ C3H6)is more than 15%,the content of synthesis gas(H2 + CO)is no less than 60%,and the content of carbon d.
结果表明,煤与重质油共气化技术可以制备低碳烯烃并联产合成气,低碳烯烃(C2H4+C3H6)含量大于15%,合成气(H2+CO)含量大于60%,CO2含量小于1。
3.
The demonstration showed that GOR-Ⅲcatalyst produced the highest hydrocarbon and light olefins yields.
实验表明,烃和低碳烯烃产率在GOR-Ⅲ上最高。
6) light alkenes
低碳烯烃
1.
The study of the effect of coupling reaction on light alkenes synthesis from CO_2 hydrogenation
CO_2加氢制低碳烯烃反应中引入耦合反应的影响研究
2.
Effects of different MgO supports on FeMn based catalysts for light alkenes synthesis
不同MgO载体对合成低碳烯烃用铁锰基催化剂的影响
3.
The effect of iron content on Fe-Mn/MgO catalysts for light alkenes synsthesis by CO hydrogenation was investigated and characterized by BET,XRD and H2-TPR techniques.
采用共浸渍法制备了不同Fe含量的FeMn/MgO催化剂,以CO加氢合成低碳烯烃为模型反应对催化剂的反应性能进行了考察,并借助X射线物相分析、N2物理吸附、程序升温还原等测试手段对催化剂进行了表征。
补充资料:低分子烃
分子式:
CAS号:
性质: 通常指常温、常压下呈气体状态的烃。甲烷、乙烷、丙烷、丁烷等为低分子烷烃,主要从天然气、油田伴生气中分出,是优良的工业、民用燃料和裂解制烯烃、炔烃和其他化工产品的原料。乙烯、丙烯、丁烯、丁二烯和乙炔等为低分子不饱和烃,主要由烃原料裂解制得,是最基本的有机原料。
CAS号:
性质: 通常指常温、常压下呈气体状态的烃。甲烷、乙烷、丙烷、丁烷等为低分子烷烃,主要从天然气、油田伴生气中分出,是优良的工业、民用燃料和裂解制烯烃、炔烃和其他化工产品的原料。乙烯、丙烯、丁烯、丁二烯和乙炔等为低分子不饱和烃,主要由烃原料裂解制得,是最基本的有机原料。
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