Studies on kinetics of ammonia synthesis over ruthenium catalyst supported on active carbon

被引：75

作者：

Kowalczyk, Z

Jodzis, S

Sentek, J

机构：

[1] Department of Chemistry, Warsaw University of Technology, PL-00-664 Warsaw

来源：

APPLIED CATALYSIS A-GENERAL | 1996年 / 138卷 / 01期

关键词：

ammonia synthesis; ruthenium catalyst; carbon support; fused iron catalyst; kinetics;

D O I：

10.1016/0926-860X(95)00251-0

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

The rate of ammonia synthesis was measured for ruthenium and iron catalysts under high (100 bar) and under atmospheric pressures. The effect of ammonia concentration in the gas phase on reaction rate was measured at 400, 430, and 470 degrees C for p = 100 bar at 370 and 400 degrees C for p = 1 bar. It was found that ruthenium is less sensitive than iron to the increase of ammonia pressure in the gas phase. It is also much less sensitive to changes in the total pressure (for p(H2):p(N2) = const.). At relatively high conversion degrees the ruthenium catalyst used was several times more active than the fused iron catalyst at 100 bar and 25-40 times more active under atmospheric pressure.

引用

收藏

页码：83 / 91

页数：9

相关论文

共 23 条

[1] PROMOTER EFFECT OF ALKALI-METAL OXIDES AND ALKALI EARTH METAL-OXIDES ON ACTIVE CARBON-SUPPORTED RUTHENIUM CATALYST FOR AMMONIA-SYNTHESIS [J].

AIKA, K ;

KAWAHARA, T ;

MURATA, S ;

ONISHI, T .

BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 1990, 63 (04) :1221-1225

[2] ACTIVATION OF NITROGEN BY ALKALI-METAL PROMOTED TRANSITION-METAL .1. AMMONIA SYNTHESIS OVER RUTHENIUM PROMOTED BY ALKALI-METAL [J].

AIKA, K ;

OZAKI, A ;

HORI, H .

JOURNAL OF CATALYSIS, 1972, 27 (03) :424-&

[3] PREPARATION AND CHARACTERIZATION OF CHLORINE-FREE RUTHENIUM CATALYSTS AND THE PROMOTER EFFECT IN AMMONIA-SYNTHESIS .3. A MAGNESIA-SUPPORTED RUTHENIUM CATALYST [J].

AIKA, K ;

TAKANO, T ;

MURATA, S .

JOURNAL OF CATALYSIS, 1992, 136 (01) :126-140

[4] SUPPORT AND PROMOTER EFFECT OF RUTHENIUM CATALYST .1. CHARACTERIZATION OF ALKALI-PROMOTED RUTHENIUM ALUMINA CATALYSTS FOR AMMONIA-SYNTHESIS [J].

AIKA, K ;

SHIMAZAKI, K ;

HATTORI, Y ;

OHYA, A ;

OHSHIMA, S ;

SHIROTA, K ;

OZAKI, A .

JOURNAL OF CATALYSIS, 1985, 92 (02) :296-304

[5] SUPPORT AND PROMOTER EFFECT OF RUTHENIUM CATALYST .2. RUTHENIUM ALKALINE-EARTH CATALYST FOR ACTIVATION OF DINITROGEN [J].

AIKA, K ;

OHYA, A ;

OZAKI, A ;

INOUE, Y ;

YASUMORI, I .

JOURNAL OF CATALYSIS, 1985, 92 (02) :305-311

[6] SUPPORT AND PROMOTER EFFECT OF RUTHENIUM CATALYST .3. KINETICS OF AMMONIA-SYNTHESIS OVER VARIOUS RU CATALYSTS [J].

AIKA, K ;

KUMASAKA, M ;

OMA, T ;

KATO, O ;

MATSUDA, H ;

WATANABE, N ;

YAMAZAKI, K ;

OZAKI, A ;

ONISHI, T .

APPLIED CATALYSIS, 1986, 28 (1-2) :57-68

[7] AMMONIA-SYNTHESIS OVER ALUMINA AND MAGNESIA SUPPORTED RUTHENIUM - COMPARATIVE KINETIC-STUDY OF THE PROMOTIVE ACTION OF METALLIC AND IONIC POTASSIUM [J].

BARIS, H ;

GLINSKI, M ;

KIJENSKI, J ;

WOKAUN, A ;

BAIKER, A .

APPLIED CATALYSIS, 1986, 28 (1-2) :295-301

[8]

Benner G. S., 1986, US Patent, Patent No. 4568532

[9]

Foster A. I., 1979, US Patent, Patent No. 4163775

[10] INFLUENCE OF ALUMINUM AND POTASSIUM ON ACTIVITY AND TEXTURE OF FUSED IRON CATALYSTS FOR AMMONIA-SYNTHESIS [J].

KOWALCZYK, Z ;

JODZIS, S ;

SRODA, J ;

DIDUSZKO, R ;

KOWALCZYK, E .

APPLIED CATALYSIS A-GENERAL, 1992, 87 (01) :1-14