Demystifying Underlying Fluid Mechanics of Gas Stirred Ladle Systems with Top Slag Layer Using Physical Modeling and Mathematical Modeling

Rodolfo D. MORALES; Fabian Andres CALDERON-HURTADO; Kinnor CHATTOPADHYAY

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Demystifying Underlying Fluid Mechanics of Gas Stirred Ladle Systems with Top Slag Layer Using Physical Modeling and Mathematical Modeling

机译：使用物理建模和数学建模，用顶部渣层搅拌气体潜水系统的底层流体力学

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Effects of slag layer thickness on the fluid dynamics of liquid steel in gas-stirred ladles by bottom injection of argon was studied through water modeling experiments and numerical simulations. Mixing times increase considerably with thicker slag layers and decrease of gas flow rates. The physical properties of the system have a smaller influence on mixing time. Slag Eye Opening (SEO) area is increased under thin slag layers, increase of gas flow rates, and denser and less viscous slags. The planes close to the metal-slag interface, under the presence of thick slag layers for a given gas flow rate, are split in subregions of small velocities with different orientations making the lower fluid to come close to a stagnant condition. The presence of, either, thick or thin slag layers does not influence the axial velocity along the plume height for a fixed flow rate of gas. The SEO area follows a linear relationship with the square root of the densiometric Froude number based on the slag layer thickness.

机译：通过水建模实验和数值模拟研究了渣油层厚度对气搅拌钢包液中液钢流体动力学的影响。混合时间随着钢渣层较厚的和气流速率的降低而增加。系统的物理性质对混合时间的影响较小。在薄渣层下增加炉渣眼开口（SEO）区域，增加气体流速，以及更密集和更少的粘性炉渣。靠近金属渣接口的平面在给定气体流速的厚炉渣层的存在下，在小型速度的子区域中分开，其具有不同取向的，使下流体接近停滞状态。存在厚或薄的炉渣层的存在不会影响沿着羽流高度的轴向速度，以用于固定的气体。 SEO区域根据渣层厚度与密度计弗劳德数量的平方根进行线性关系。

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来源
《ISIJ international》 |2019年第7期|1224-1233|共10页
作者
Rodolfo D. MORALES; Fabian Andres CALDERON-HURTADO; Kinnor CHATTOPADHYAY;
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作者单位

Department of Metallurgy and Materials Engineering K&E Technologies Processes Instituto Politecnico Nacional -ESIQIE Ed. 7 UPALM Zacatenco Mexico City 07369 Mexico Department of Materials Science and Engineering University of Toronto 184 College Street Suite 140 Toronto Ontario M5S 3E4 Canada K&E Technologies Manizales 88 San Pedro Zacatenco Mexico City 07369 Mexico;

Department of Metallurgy and Materials Engineering K&E Technologies Processes Instituto Politecnico Nacional -ESIQIE Ed. 7 UPALM Zacatenco Mexico City 07369 Mexico Department of Materials Science and Engineering University of Toronto 184 College Street Suite 140 Toronto Ontario M5S 3E4 Canada K&E Technologies Manizales 88 San Pedro Zacatenco Mexico City 07369 Mexico;

Department of Metallurgy and Materials Engineering K&E Technologies Processes Instituto Politecnico Nacional -ESIQIE Ed. 7 UPALM Zacatenco Mexico City 07369 Mexico Department of Materials Science and Engineering University of Toronto 184 College Street Suite 140 Toronto Ontario M5S 3E4 Canada K&E Technologies Manizales 88 San Pedro Zacatenco Mexico City 07369 Mexico;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
ladle refining; mixing time; slag opening; physical modelling; mathematical modelling;

机译：钢包精炼;混合时间;渣开口;物理建模;数学建模;
入库时间 2022-08-18 21:15:47

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1. Demystifying Underlying Fluid Mechanics of Gas Stirred Ladle Systems with Top Slag Layer Using Physical Modeling and Mathematical Modeling [J] . Rodolfo D. MORALES, Fabian Andres CALDERON-HURTADO, Kinnor CHATTOPADHYAY ISIJ international . 2019,第7期

机译：使用物理建模和数学建模解开具有顶部炉渣层的气体搅拌钢包系统的基础流体力学
2. Demystifying Underlying Fluid Mechanics of Gas Stirred Ladle Systems with Top Slag Layer Using Physical Modeling and Mathematical Modeling [J] . Rodolfo D. Morales, Fabian Andres Calderon-Hurtado, Kinnor Chattopadhyay ISIJ international . 2019,第7期

机译：使用物理建模和数学建模解开具有顶部炉渣层的气体搅拌钢包系统的基础流体力学
3. Effect of Slag Properties on Mixing Phenomena in Gas-stirred Ladles by Physical Modeling [J] . Adrian Manuel AMARO-VILLEDA, Marco Aurelio RAMIREZ-ARGAEZ, A. N. CONEJO ISIJ international . 2014,第1期

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4. MATHEMATICAL MODELING OF BOTTOM GAS INJECTION IN INDUSTRIAL METALLURGICAL LADLES IN THE PRESENCE OF A TOP LAYER OF SLAG [C] . D. A. Nunez, M.A. Ramirez-Argaez, A.N. Conejo Pacific Rim International Congress on Advanced Materials and Processing . 2013

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5. Model studies of fluid mechanic interactions between steel and slag in gas -stirred ladles [D] . Krishnapisharody, Krishnakumar 2007

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6. Toward Better Control of Inclusion Cleanliness in a Gas Stirred Ladle Using Multiscale Numerical Modeling [O] . Jean-Pierre Bellot, Jean-Sebastien Kroll-Rabotin, Matthieu Gisselbrecht, 2018

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7. The Physical and Mathematical Modelling of Gas Stirred Ladle SYstems [O] . Dipak Mazumdar, Roderick L. L. Guthrie 2014

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8. Proceedings of the International Conference. Analysis and Numerical Computationof Solutions of Nonlinear Systems Modeling Physical Phenomena, Especially: Nonlinear Optics, Inverse Problems, Mathematical Material Sciences and Theoretical Fluid Mechanics [R] . 1997

机译：国际会议记录。非线性系统物理现象建模解的分析与数值计算，特别是：非线性光学，反问题，数学材料科学和理论流体力学

Demystifying Underlying Fluid Mechanics of Gas Stirred Ladle Systems with Top Slag Layer Using Physical Modeling and Mathematical Modeling

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