Effect of Arc Length on Fluid Flow and Mixing Phenomena in AC Electric Arc Furnaces
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概要
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Fluid flow and mixing phenomena in an industrial three phase Electric Arc Furnace has been investigated, as a function of arc length. Velocity and temperature fields as well as mixing times were computed, assuming that liquid steel occupies the whole computational domain and buoyancy forces are responsible for convective flow. It is reported a strong effect of arc length on both fluid flow and mixing time, suggesting a metallurgical practice with long arc operation to improve the melting kinetics of the metallic charge. Thermal stratification has also been confirmed, however the volume of hot steel increases when arc length also increases.
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)
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