Post-reaction Strength of Catalyst-added Highly Reactive Coke
スポンサーリンク
概要
- 論文の詳細を見る
The development of production and utilization technology for highly reactive coke is significant in order to improve blast furnace reaction efficiency. In this report, the post-reaction strength of catalyst-added highly reactive coke was investigated. The reaction between coke and CO2 was stopped at a weight loss of 20% and the reaction temperature was adjusted so that the reaction lasted for a constant period. In this experimental condition, the reaction temperature of highly reactive coke was lower than that of normal coke, which corresponds to the decrease in the thermal reserve zone temperature in a blast furnace. First, a decrease in reaction temperature made the reaction of the catalyst added coke more homogeneous, which increased the post-reaction strength of the highly reactive coke produced by the post-addition of catalyst to coke method; however, it decreased that of the highly reactive coke produced by the pre-addition of catalyst to coke method. Secondly, the post-reaction strength of catalyst-added highly reactive coke produced by the post-addition of catalyst to coke method became equal to or greater than that of normal coke. The types of catalysts and the catalyst adding method affect the porosity distribution in the coke after reaction and hence the post-reaction strength of coke to a great extent. Suitable selection of catalysts and its addition method to coke leads to highly reactive coke with post-reaction strength greater than that of normal coke. Catalyst-added highly reactive coke is a promising material to improve blast furnace reaction efficiency.
- 社団法人 日本鉄鋼協会の論文
- 2007-06-15
著者
-
Nomura Seiji
Environment & Process Technology Center, Nippon Steel Corporation
-
NAITO Masaaki
Environment & Process Technology Center, Nippon Steel Corporation
-
Naito M
Environment & Process Technology Center Nippon Steel Corporation
-
Nomura Seiji
Environment & Process Technol. Center Nippon Steel Corp.
-
Nomura S
Environment & Process Technology Center Nippon Steel Corporation
-
Nomura Seiji
Environment & Process Technology Center Nippon Steel Corp.
-
YAMAGUCHI Kouichi
Oita Works, Nippon Steel Corporation
-
Yamaguchi Kouichi
Oita Works Nippon Steel Corporation
-
Naito Masaaki
Nippon Steel Corporation Environment & Process Technology Center
-
NOMURA Seiji
Environment & Process Technology Center, Nippon Steel Corp.
関連論文
- Estimation of Bulk Density Distribution in Particle Charging Process Using Discrete Element Method Considering Particle Shape
- Non-spherical Carbon Composite Agglomerates : Lab-scale Manufacture and Quality Assessment
- Optimization of Chemical Composition and Microstructure of Iron Ore Sinter for Low-temperature Drip of Molten Iron with High Permeability
- Blast Furnace Ironmaking System Using Partially Reduced Iron Ore Reduced by an Energy Source with Low Carbon Content
- The Characteristics of Catalyst-coated Highly Reactive Coke
- Improvement in Blast Furnace Reaction Efficiency through the Use of Highly Reactive Calcium Rich Coke
- Effects of Coal Inertinite Size on Coke Strength
- Waste plastics recycling process using coke ovens
- Some Fundamental Aspects of Highly Reactive Iron Coke Production
- Estimation of Bulk Density Distribution in Particle Charging Process Using Discrete Element Method Considering Particle Shape
- Post-reaction Strength of Catalyst-added Highly Reactive Coke
- Reaction behavior of Formed Iron Coke and Its Effect on Decreasing Thermal Reserve Zone Temperature in Blast Furnace
- Enhancement of Low-temperature Gasification and Reduction by Using Iron-coke in Laboratory Scale Tests
- Quantitative Evaluation of Relationship between Coke Strength and Pore Structure
- Quantification of the Existence Ratio of Non-Adhesion Grain Boundaries and Factors Governing the Strength of Coke Containing Low-Quality Coal
- Numerical Analysis of 3-D Microstructure of Coke Using Micro X-ray CT
- Numerical Analysis of 3-D Microstructure of Coke Using Micro X-ray CT