Mathematical Modeling of the Melting Rate of Metallic Particles in the Electric Arc Furnace
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概要
- 論文の詳細を見る
A computational fluid dynamics model coupled to a lagrangian model of melting/solidifying particles has been developed to describe the melting kinetics of metallic particles in an industrial Electric Arc Furnace (EAF), assuming that liquid steel occupies the entire computational domain. The metallic particles represent Direct Reduced Iron (DRI). The use of two previous models, an arc model and a fluid flow model has made possible to evaluate the melting rate of injected DRI in a three phase-EAF, evaluating the influence of the initial particle size, the initial DRI temperature, feeding position, feeding rate, arc length and some of the metallurgical properties of DRI. The frozen shell formed in the early stage of the melting process has also been evaluated in this model.
- 社団法人 日本鉄鋼協会の論文
- 2010-01-15
著者
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González O.
Graduate Program in Metallurgy, Morelia Technological Institute (ITM)
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Ramírez-Argáez Marco
Department of Metallurgy, Facultad de Química, Universidad Nacional Autónoma de México (UNAM)
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Conejo A.
Graduate Program in Metallurgy, Morelia Technological Institute (ITM)
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Conejo A.
Graduate Program In Metallurgy Morelia Technological Inst. (itm)
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Conejo A.
Graduate Program In Metallurgy Morelia Technological Institute (itm)
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Ramirez-argaez Marco
Department Of Metallurgy Facultad De Quimica Universidad Nacional Autonoma De Mexico (unam)
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Gonzalez O.
Graduate Program In Metallurgy Morelia Technological Institute (itm)
関連論文
- Mathematical Modeling of the Melting Rate of Metallic Particles in the Electric Arc Furnace
- Effect of Arc Length on Fluid Flow and Mixing Phenomena in AC Electric Arc Furnaces
- Mathematical Modeling of the Melting Rate of Metallic Particles in the Electric Arc Furnace
- Effect of Arc Length on Fluid Flow and Mixing Phenomena in AC Electric Arc Furnaces
- Mathematical Modeling of High Intensity Electric Arcs Burning in Different Atmospheres
- Effect of Both Radial Position and Number of Porous Plugs on Chemical and Thermal Mixing in an Industrial Ladle Involving Two Phase Flow