Numerical Study on Metal/Slag Drainage Rate Deviation during Blast Furnace Tapping
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概要
- 論文の詳細を見る
Remarkable deviation of metal fraction in the liquid drained out of blast furnace tap hole has been occasionally observed between the operated tap holes and/or tapping time stages. Introducing the concept of low permeability zone whose wall, due to the difference in two liquid phases viscosity and/or wettabilitiy to coke particle, allows for metal to permeate freely but for slag not to permeate, the liquid drainage behaviors are examined by furnace hearth mathematical model simulations.The deviation of metal fraction between two operated tap holes is materialized under the hypothesis that furnace heath is divided into two sections by planar vertical low permeability wall (VLPW). While, the variation of time series change in liquid metal fraction during tapping operation is reproduced by hypothesizing the formation of cylindrical low permeability wall (CLPW) which concentrically parts the furnace hearth into center and peripheral area.Since the results of calculation for VLPW or CLPW formation indicate the notable raise of liquid level in furnace which could influence on abrupt increase of blowing pressure, the effectiveness of several operational optimization is assessed, resulting in suggestive conclusion that increasing the initial tap hole diameter is the most effective.
- 社団法人 日本鉄鋼協会の論文
- 2009-08-15
著者
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Ogura Kazuhiro
Jfe Refractories Corp.
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Ogura Kazuhiro
Material Development Dept. Kawasaki Refractories Co. Ltd.
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Hakone Tetsui
Jfe Refractories Corp.
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Iida Masakazu
Jfe Refractories Corp.
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Iida Masakazu
Materials Development Dept. Jfe Refractories Corporation
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Iida Masakazu
Shinagawa Refractories Co. Ltd.
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Ogura Kazuhiro
Materials Development Dept. Jfe Refractories Corporation
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Hakone Tetsui
Materials Development Dept. Jfe Refractories Corporation
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Iida Masakazu
Research Center Shinagawa Refractories Co. Ltd.
関連論文
- Variation of the Metal / Slag Drainage Rate During Blast Furnace Tapping
- Effect of SiO_2 Content of Mud on Its Bonding
- Influence of SiO_2 Content on Bonding Characteristics of Mud for Blast Furnace Tap Hole
- Development of a High Density Taphole Mud
- Effect of Temperature on the Dissolution Rate of High SiC Castable in Blast Furnace Slag
- Apparent Thermal Conductivity of Green Taphole Mix and Structure Formation of Taphole Plugging Material
- The Apparent Thermal Conductivity of Green Taphole Mix and Structure Formation in a Taphole Plug
- Effect of Al Addition on the Iron Corrosion Resistance of Tap Hole Mixes
- The Effect of NiO Addition on Metal-Line Castable for the Blast Furnace Main Trough
- Evaluation of Shear Load of Rupture of Green Tap Hole Mix
- Numerical Study on Metal/Slag Drainage Rate Deviation during Blast Furnace Tapping
- Evaluation of the Thermal Shock Resistance of Blast Furnace Main Trough Castables
- Influence of Tap Hole Corrosion Characteristics on the Slag Height in a Blast Furnace
- Analysis of Drainage Rate Variation of Molten Iron and Slag from Blast Furnace during Tapping
- Evaluation of the Rheological Properties of Taphole Materials and Estimation of Injection into a Blast Furnace
- Heat Transfer during Drying of Monolithic Refractories
- Effect of SiC Oxidization on Corrosion Resistance of Castable for Metal Line of Blast Furnace Main Trough
- Analysis of the Drilling Behavior of Blast Furnace Tap Hole Mix
- Analysis of Variation in Metal/Slag Drainage Rate among Tap Holes of Blast Furnace
- Evaluation of Rheological Properties of Tap-Hole Materials and Estimation of Injected Condition in the Blast Furnace
- Microstructure of Tap Hole Mix in Contact with Slag and Pig Iron
- Microstructure of Taphole Mix in Contact with Slag
- Influence of Al-containing Components Addition on the Metal Corrosion Resistance of Tap Hole Mixes
- Dissolution of Al_2O_3-SiC-C Castables in Blast Furnace Slag
- Influence of Slag Flow Speed on Corrosion Rate of a Blast Furnace Main Trough