Kinetic Analysis of Spherical Wustite Reduction Transported with CH_4 Gas
スポンサーリンク
概要
- 論文の詳細を見る
Rapid in-flight reduction of fine iron ore transported with CO, H2 and/or CH4 gas has been studied for direct use of fine iron ore in iron-making process. In this work, the mechanism and the kinetic of the reduction by CH4 gas were accurately investigated with spherical wüstite fine particles. The spherical wüstite fine particle as fine iron ore was prepared to simplify the reduction rate analysis. Reduction temperature was varied from 1373 to 1573 K. As the result, fractional reduction of spherical wüstite by CH4 gas reached over 80% at 1573 K within 1 s. From the cross section observation of the particle after reduction, it was found that the periphery of the wüstite particle was metallized by reducing reaction and un-reacted wüstite core remained inside. Therefore, it was indicated that the reduction progressed topochemically in this experimental condition. In the reduction rate analysis, it was found out that the reduction rate by CH4 was higher than that by H2 or CO. From the carbon concentration analysis, it was found that the phase of the metallic shell during reduction was not only solid state but also liquid state. From the above-mentioned kinetic analysis, it was concluded that the reduction rate determining-step by CH4 was chemical reaction on Fe–FeO interface and the reduction of wüstite was preceded by the carbon dissolved into metallic shell from CH4 gas.
- 社団法人 日本鉄鋼協会の論文
- 2007-03-15
著者
-
Nishioka Koki
Department of Materials Science and Engineering, Faculty of Engineering, Kyushu University
-
Ohno Ko-ichiro
Department of Materials Science and Engineering, Faculty of Engineering, Kyushu University
-
Maeda Takayuki
Department of Materials Science and Engineering, Faculty of Engineering, Kyushu University
-
Shimizu Masakata
Department of Materials Science and Engineering, Faculty of Engineering, Kyushu University
-
Nishioka K
Department Of Material Science And Engineering Kyushu University
-
Ohno Ko-ichiro
Department Of Material Science And Engineering Kyushu University
-
Maeda Takayuki
Department Of Material Science And Engineering Kyushu University
-
Maeda Takayuki
Department Of Materials Science And Engineering Graduate School Of Engineering Kyushu University
-
Nishioka Koki
Department Of Material Science And Engineering Kyushu University
-
TAKEUCHI Naoyuki
Kyushu University
-
NOMURA Youhei
Kyushu University
-
Shimizu Masakata
Department Of Material Science And Engineering Kyushu University
-
Shimizu Masakata
Department Of Materials Science And Engineering Graduate School Of Engineering Kyushu University
関連論文
- Development of Fe Base Phase Change Materials for High Temperature Using Solid–Solid Transformation
- Wetting and Penetration Behavior of Calcium Ferrite Melts to Sintered Hematite
- Behavior of Ironmaking Slag Permeation to Carbonaceous Material Layer
- Effect of Carbon Structure Crystallinity on Initial Stage of Iron Carburization
- Effect of Adding Moisture and Wettability on Granulation of Iron Ore
- Modeling of Dripping Behavior in Particles Packed Bed Filled with Immiscible Fluid
- Effect of Granulation Condition and Property of Raw Material on Strength of Granulated Particle by Tumbling Granulation
- Reaction Behavior during Heating Waste Plastic Materials and Iron Oxide Composites
- Gasification and Reduction Behavior of Plastics and Iron Ore Mixtures by Microwave Heating
- Kinetic Analysis of Spherical Wustite Reduction Transported with CH_4 Gas
- Application of Square-wave Pulse Heat Method to Thermal Properties Measurement of CaO-SiO_2-Al_2O_3 System Fluxes
- A Three-dimensional Mathematical Modelling of Drainage Behavior in Blast Furnace Hearth
- Formation Rate of Calcium Ferrite Melt Focusing on SiO_2 and Al_2O_3 Component
- Dezincing Behavior from Iron and Steelmaking Dusts by Microwave Heating
- Dezincing Behavior from Iron and Steelmaking Dusts by Microwave Heating
- Development of Fe Base Phase Change Materials for High Temperature Using Solid-Solid Transformation
- Effect of Slag Melting Behavior on Metal-Slag Separation Temperature in Powdery Iron, Slag and Carbon Mixture
- Development of Secondary-fuel Injection Technology for Energy Reduction in the Iron Ore Sintering Process
- Diffusion Behaviors of He and CH4 in Air Flow through Packed Bed
- Effects of Charcoal Carbon Crystallinity and Ash Content on Carbon Dissolution in Molten Iron and Carburization Reaction in Iron-Charcoal Composite
- Effect of CO Gas Concentration on Reduction Rate of Major Mineral Phase in Sintered Iron Ore
- Effect of FeO in Dripping Slag on Drainage Ability of Slag
- Preface to the Special Issue on "Innovative Reduction Technology of Iron Ore for Mitigation of CO2 Emission in Ironmaking"
- Effect of Various In-furnace Conditions on Blast Furnace Hearth Drainage
- Effects of Charcoal Carbon Crystallinity and Ash Content on Carbon Dissolution in Molten Iron and Carburization Reaction in Iron-Charcoal Composite
- Numerical Study on Pulverized Biochar Injection in Blast Furnace