1) styrene
乙苯脱氢-氢选择氧化
1.
The development of the catalyst for cata1ytic dehydrogenation of ethylbenzene to styrene was briefly re-viewed.
本文简要评述了乙苯催化脱氢制苯乙烯催化剂的发展概况,着重介绍了氧化脱氢特别是乙苯脱氢-氢选择氧化新工艺的特点和催化剂的性能,并与传统的催化脱氢工艺进行了对比。
2) ethylbenzene
乙苯
1.
Study on alkylation of ethylbenzene to p-diethylbenzene on HZSM-5 shape-selecting catalyst;
HZSM-5择形催化剂上乙苯烷基化反应生产对二乙苯的研究
2.
High-temperature sensible heat recovery technology for effluent from ethylbenzene dehydrogenation unit;
乙苯脱氢制苯乙烯反应出料高温显热回收技术
3.
Organocatalytic Aerobic Oxidation of Ethylbenzene Using 3, 4, 5, 6-Tetrachloro-N-hydroxyphthalimide and 1, 4-Diamino-2, 3-dichloro-anthraquinone;
有机物3,4,5,6-四氯-N-羟基邻苯二甲酰亚胺和1,4-二氨基-2,3-二氯蒽醌催化乙苯的分子氧氧化(英文)
3) phenylethane
乙苯
1.
Direct oxidation of phenylethane with air catalyzed by manganese porphyrin;
TPPMnCl催化空气直接氧化乙苯的研究
2.
Regioselective Oxidation of Phenylethane with Air Catalyzed by μ-oxo-bis-manganese Porphyrins;
μ-氧代双锰卟啉催化下空气高选择氧化乙苯
3.
Study on catalytic properties of hydroxamic acid transition metal complexes in phenylethane oxidation;
异羟肟酸过渡金属络合物在乙苯氧化中的催化性能研究
4) ethyl benzene
乙苯
1.
Study on vapor-liquid equilibrium of ethyl benzene or xylene+isopropyl alcohol;
乙苯或二甲苯和异丙醇二元体系等压汽液相平衡
2.
Vapor liquid equilibrium data of n-propyl alcohol and ethyl benzene,n-propyl alcohol and o-xylene,n-propyl alcohol and m-xylene,n-propyl alcohol and p-xylene were determined respectively by a self-made kettle at 99.
用自制的汽液平衡釜测定了正丙醇+乙苯或o-二甲苯、m-二甲苯、p-二甲苯4个二元液系在压力为99。
3.
With zinc chloride as catalyst,ethyl benzene,formaldehyde and hydrogen chloride were reacted for 2.
通过正交实验,摸索出了乙基氯苄小试的最佳合成反应条件,即在催化剂氯化锌的作用下,用乙苯、甲醛及氯化氢反应,在80℃下反应2。
5) p-diethylbenzene
对二乙苯
1.
Study on alkylation of ethylbenzene to p-diethylbenzene on HZSM-5 shape-selecting catalyst;
HZSM-5择形催化剂上乙苯烷基化反应生产对二乙苯的研究
2.
The adsorption of p-diethylbenzene on ZSM-5 molecular sieve was studied by dynamic method on a 11 mm×780 mm column.
用11mm× 780mm吸附柱作动态实验 ,对二乙苯的单程收率为 6 0 %,纯度大于 95 %。
3.
he adsorption of p-diethylbenzene on ZSM-5 zeolite has been studied by dynamic method.
本文用动态法就对二乙苯在ZSM—5分子筛上的吸附进行了研究,考察了温度、脉冲进料量、解吸剂的流速、解吸剂的性质等对分离效果的影响,确定了最佳操作条件:温度为200℃~230℃,常压,以甲苯为解吸剂,解吸剂流量250~350Kg/m2·h,对二乙苯的单程收率为60%,纯度>95%。
6) ethylbenzene dehydrogenation
乙苯脱氢
1.
Effect of K_2O on forming of KFe_(11)O_(17) in catalyst for ethylbenzene dehydrogenation;
钾含量对乙苯脱氢催化剂中KFe_(11)O_(17)物相形成的影响
2.
Reclaimation of ethylbenzene dehydrogenation tail gas;
乙苯脱氢尾气的回收利用
3.
Effect of calcination condition on the water-tolerant stability of ethylbenzene dehydrogenation catalyst;
焙烧条件对乙苯脱氢催化剂耐水性能影响的研究
参考词条
补充资料:钴钼氢氧化物氧化物磷酸盐
CAS:68130-37-0
中文名称:钴钼氢氧化物氧化物磷酸盐
英文名称:Cobalt molybdenum hydroxide oxide phosphate; Molybdenum cobalt acid phosphate complex; Molybdenumcobaltacid phosphate complex
中文名称:钴钼氢氧化物氧化物磷酸盐
英文名称:Cobalt molybdenum hydroxide oxide phosphate; Molybdenum cobalt acid phosphate complex; Molybdenumcobaltacid phosphate complex
说明:补充资料仅用于学习参考,请勿用于其它任何用途。