METHANATION OF CO2 WITH H2-REDUCED MAGNETITE

被引：39

作者：

YOSHIDA, T

NISHIZAWA, K

TABATA, M

ABE, H

KODAMA, T

TSUJI, M

TAMAURA, Y

机构：

[1] Department of Chemistry, Research Center for Carbon Recycling and Utilization, Tokyo Institute of Technology, Tokyo 152, Ookayama, Meguro-ku

来源：

JOURNAL OF MATERIALS SCIENCE | 1993年 / 28卷 / 05期

关键词：

D O I：

10.1007/BF01191956

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

The methanation reaction of CO2 was studied with H-2-reduced magnetite. A high conversion ratio of about 0.9 (in 30 min of the reaction time) with a selectivity of nearly 100% was obtained at 300-degrees-C and at 0.1 MPa for H2-reduced magnetite which had been prepared by passing H-2 gas for 1-5 h at 300-degrees-C. From the results of X-ray diffractometry and Mossbauer spectroscopy, and from chemical analysis of the deposited carbon, H-2-reduced magnetite is considered to decompose adsorbed CO2 into carbon, and to incorporate the oxygen of the CO2 into the spinel-type structure of the magnetite, associated with oxidation of the Fe2+ ion into Fe3+ ion in the magnetite. The high conversion ratio in the methanation reaction is considered to come from a higher reactivity of the elementary carbon deposited on the surface of the H-2-reduced magnetite.

引用

页码：1220 / 1226

页数：7

共 10 条

[1] HYDROGENATION OF CARBONACEOUS ADSORBED SPECIES ON AN IRON ALUMINA CATALYST .2. EXPERIMENTS AND INTERPRETATION OF THE TEMPERATURE-PROGRAMMED HYDROGENATION BY A KINETIC-MODEL [J].

BIANCHI, D ;

GASS, JL .

JOURNAL OF CATALYSIS, 1990, 123 (02) :310-318

[2] HYDROGENATION OF CARBONACEOUS ADSORBED SPECIES ON AN IRON ALUMINA CATALYST .1. EXPERIMENTS IN ISOTHERMAL CONDITIONS AND EXPLOITATION BY A KINETIC-MODEL [J].

BIANCHI, D ;

GASS, JL .

JOURNAL OF CATALYSIS, 1990, 123 (02) :298-309

[3] HYDROGENATION OF CO AND CO2 OVER IRON FOILS - CORRELATIONS OF RATE, PRODUCT DISTRIBUTION, AND SURFACE COMPOSITION [J].

DWYER, DJ ;

SOMORJAI, GA .

JOURNAL OF CATALYSIS, 1978, 52 (02) :291-301

[4] FORMATION OF THE OXIDIZED FE3O4-FE2TIO4 SOLID-SOLUTION BY THE AIR OXIDATION OF THE AQUEOUS SUSPENSION [J].

KATSURA, T ;

TAMAURA, Y ;

CHYO, GS .

BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 1979, 52 (01) :96-100

[5] CATALYTIC BEHAVIOR AND PHASE-COMPOSITION CHANGE OF IRON CATALYST IN HYDROGENATION OF CARBON-DIOXIDE [J].

LEE, MD ;

LEE, JF ;

CHANG, CS .

JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 1990, 23 (02) :130-136

[6] HYDROGENATION OF SURFACE CARBON ON ALUMINA-SUPPORTED NICKEL [J].

MCCARTY, JG ;

WISE, H .

JOURNAL OF CATALYSIS, 1979, 57 (03) :406-416

[7] HYDROCONDENSATION OF CARBON-DIOXIDE OVER AN IRON ALUMINA CATALYST - A 3-STEP MODEL [J].

PIJOLAT, M ;

PERRICHON, V ;

PRIMET, M ;

BUSSIERE, P .

JOURNAL OF MOLECULAR CATALYSIS, 1982, 17 (2-3) :367-380

[8] COMPLETE REDUCTION OF CARBON-DIOXIDE TO CARBON USING CATION-EXCESS MAGNETITE [J].

TAMAURA, Y ;

TABATA, M .

NATURE, 1990, 346 (6281) :255-256

[9]

TAMAURA Y, 1980, J INORG NUCL CHEM, V43, P671

[10] HYDROGENATION OF CO2 ON GROUP-VIII METALS .4. SPECIFIC ACTIVITIES AND SELECTIVITIES OF SILICA-SUPPORTED CO, FE, AND RU [J].

WEATHERBEE, GD ;

BARTHOLOMEW, CH .

JOURNAL OF CATALYSIS, 1984, 87 (02) :352-362

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