Effect of Carbonisation Conditions on Mineral Matter in Coke
スポンサーリンク
概要
- 論文の詳細を見る
The mineral phases present in coke contribute to coke degradation in the blast furnace. The mineral phases in coke are developed during coal carbonization process. Four Australian bituminous coals have been selected. Sub-samples from each coal were carbonized in three ovens of different capacity, and the carbonization parameters were also different. The mineral phases in cokes were identified in the low temperature ashed samples using X-ray diffraction technique. Amorphous alumino-silicate was the dominant phase in all cokes but the composition of the crystalline mineral phases varied to a great extent between cokes prepared from the same parent coal but in different ovens.
- 社団法人 日本鉄鋼協会の論文
- 2007-01-15
著者
-
Sakurovs Richard
CSIRO Energy Technology
-
French David
CSIRO Energy Technology
-
Sakurovs Richard
Csiro
-
Sahajwalla Veena
Centre For Sustainable Materials Research And Technology School Of Materials Science And Engineering
-
Sahajwalla Veena
School Of Materials Science And Engineering The University Of New South Wales
-
GRIGORE Mihaela
School of Materials Science and Engineering, The University of New South Wales
-
Grigore Mihaela
School Of Materials Science And Engineering The University Of New South Wales
関連論文
- Influence of Mineral Matter on Carbon Dissolution from Metallurgical Coke into Molten Iron: Interfacial Phenomena
- 高温NMRによる軟化溶融石炭の擬似成分ランピング解析(論文賞,平成17年度 日本エネルギー学会)
- 軟化溶融石炭の擬似成分ランピング解析
- 高温NMRによる軟化溶融石炭の擬似成分ランピング解析
- コバルト担持スメクタイトならびにコバルトモリブデン担持アルミナ系触媒共存下での石油由来アスファルテンの^1H-NMR熱分析
- コバルト担持スメクタイトならびにコバルトモリブデン担持アルミナ系触媒共存下での石油由来アスファルテンの^1H-NMR熱分析
- In-situ 1H-NMR Thermal Analysis Study for Reaction of Bituminous Coal with Sulfur
- In-situ Proton Magnetic Resonance Thermal Analysis for Mesophase Formation of Pitches
- Investigation of the wetting characteristics of liquid iron on mullite by sessile drop technique
- リン酸水素カルシウムを捕集剤とするクロムの濃縮/誘導結合プラズマ発光分析法による水試料中のクロム(III)及びクロム(VI)の分別定量
- 8.石炭の高温NMR測定と軟化溶融状態
- Chemical Structure of Chars Prepared under Conditions Prevailing in the Blast Furnace PCI Operation
- Influence of Mineral Matter on Carbon Dissolution from Metallurgical Coke into Molten Iron : Interfacial Phenomena
- Characterisation and Corrosion of Laboratory Scale Briquettes of Reduced Iron
- Carbon/Slag Interactions between Coke/Rubber Blends and EAF Slag at 1550℃
- Numerical Analysis of Reactions in a Cupola Melting Furnace
- Influence of Temperature on Carbon Dissolution of Cokes in Molten Iron
- Factors Influencing Carbon Dissolution from Cokes into Liquid Iron
- Influence of Sulfur Content and Temperature on the Carbon Boil and CO Generation in Fe-C-S Drops
- Kinetics of Gas Oxidation of Liquid Fe-C-S Alloys and Carbon Boil Phenomenon
- High-temperature Interactions of Alumina-Carbon Refractories with Molten Iron
- Degradation Characteristics of Iron Ore Fines of a Wide Size Distribution in Fluidized-bed Reduction
- Role of Ash Impurities in the Depletion of Carbon from Alumina-Graphite Mixtures in to Liquid Iron
- Kinetic Study of Factors Affecting in Situ Reduction of Silica in Carbon-Silica Mixtures for Refractories
- Investigation of in-situ Chemical Reactions of Al_2O_3-SiC-SiO_2-C Refractory and Its Interactions with Slag
- A Kinetic Study of Pyrolysis of a Brown Coal using High Temperature ^1H-NMR
- Carbon Dissolution Occurring during Graphite-Ferrosilicon Interactions at 1550℃
- Derivation of Shrinking Core Model for Finite Cylinder
- Degradation Behaviour of a High CSR Coke in an Experimental Blast Furnace : Effect of Carbon Structure and Alkali Reactions
- Dynamic Wetting of Graphite and SiC by Ferrosilicon Alloys and Silicon at 1550℃
- Effect of Carbonisation Conditions on Mineral Matter in Coke
- Influence of Mineral Matter on Coke Reactivity with Carbon Dioxide
- Kinetic Model for the Uniform Conversion of Self Reducing Iron Oxide and Carbon Briquettes
- Coal-char/Slag Interactions during Pulverised Coal Injection in a Blast Furnace : Reaction Kinetics and Wetting Investigations
- Combustion of Agricultural Waste and Coke Blends during High Temperature Processes : Effect of Physical, Chemical and Surface Properties
- Reduction of FeO in EAF Steelmaking Slag by Metallurgical Coke and Waste Plastics Blends
- Structural Transformation of Agricultural Waste/Coke Blends and Their Implications during High Temperature Processes
- Recycling Waste Polymers in EAF Steelmaking : Influence of Polymer Composition on Carbon/Slag Interactions