Three-phase Fluid Numerical Simulation and Water Modeling Experiment of Supersonic Oxygen Jet Impingement on Molten Bath in EAF 被引量：2

Three-phase Fluid Numerical Simulation and Water Modeling Experiment of Supersonic Oxygen Jet Impingement on Molten Bath in EAF

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摘要 By means of the computational fluid dynamics software Fluent 6.3, a mathematical model of three-dimensional three-phase fluid flow field in the molten bath of electric arc furnace （EAF） with side accessorial oxygen lances was developed to study the transient phenomena of oxygen jet impingement on the molten steel and the molten slag. The water modeling experiment was carried out to verify the simulation results. The impingement of the supersonic oxygen jet caused impact dent on the molten steel surface accordingly. The area of impact dent changed almost in linear relationship to flow rate of oxygen jet, which can be expressed by a deduced mathematical equation. And the relationship between the impact force of oxygen iet and the correspondingly formed apparent static pressure on molten bath was obtained, which was in linear relationship and a direct proportion, and can also be expressed by a deduced mathematical equation. By means of the computational fluid dynamics software Fluent 6.3, a mathematical model of three-dimensional three-phase fluid flow field in the molten bath of electric arc furnace （EAF） with side accessorial oxygen lances was developed to study the transient phenomena of oxygen jet impingement on the molten steel and the molten slag. The water modeling experiment was carried out to verify the simulation results. The impingement of the supersonic oxygen jet caused impact dent on the molten steel surface accordingly. The area of impact dent changed almost in linear relationship to flow rate of oxygen jet, which can be expressed by a deduced mathematical equation. And the relationship between the impact force of oxygen iet and the correspondingly formed apparent static pressure on molten bath was obtained, which was in linear relationship and a direct proportion, and can also be expressed by a deduced mathematical equation.

作者 Shao-chun CHEN Rong ZHU Jing-she LI Chun-lai HE Ming Lü

机构地区 School of Mechanical Engineering and Automation School of Metallurgical and Ecological Engineering

出处《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2014年第6期589-595,共7页

基金 Sponsored by National Key Technology Research and Development Program in 11th Five-year Plan of China(2008AF33B01) Fuzhou University Foundation for Development of Science and Technology of China(0020-600588)

关键词 electric arc furnace oxygen jet three-phase fluid numerical simulation water modeling experiment electric arc furnace oxygen jet three-phase fluid numerical simulation water modeling experiment

分类号 TF748.41 [冶金工程—钢铁冶金]

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参考文献15

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Three-phase Fluid Numerical Simulation and Water Modeling Experiment of Supersonic Oxygen Jet Impingement on Molten Bath in EAF 被引量：2

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