Experimental and numerical modelling of mass transfer in a refining ladle

IF 0.9 4区 材料科学 Q3 METALLURGY & METALLURGICAL ENGINEERING
Nelson Joubert, P. Gardin, S. Popinet, S. Zaleski
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引用次数: 2

Abstract

Mass transfer between liquid steel and slag is an important physical phenomenon during secondary metallurgy for prediction of the chemical reaction rate and adjustment of liquid steel composition. We study this phenomenon at ambient temperature with a water experiment and perform Direct Numerical Simulations, aiming to reproduce an argon-gas bottom-blown ladle. First, we measure the evolution of the time-averaged open-eye area as a function of the air flow rate. Both simulation and experiment agree relatively well and are close to other water experiments in the literature. Secondly, the mass transfer of thymol between water and oil is investigated. The experimental results show that two mass transfer regimes can be observed. The regime change coincides with atomization of the oil layer resulting in the continuous formation of oil droplets in the water whenever the air flow rate rises above a critical value. The numerical results for the mass-transfer rate or Sherwood number are obtained at small Schmidt numbers and are then extrapolated to the experimental Schmidt number of 1480. A good agreement with experiment is observed although with large error bars. The Sherwood numbers at the two largest simulated flow rates show a steep increase.
精炼钢包内传质的实验与数值模拟
钢液与炉渣之间的传质是二次冶金过程中预测化学反应速率和调整钢液成分的重要物理现象。我们通过水实验研究了这一现象,并进行了直接数值模拟,旨在重现氩气底吹钢包。首先,我们测量了时间平均睁眼面积随空气流速的变化。模拟和实验结果吻合较好,与文献中其他水实验结果接近。其次,研究了百里香酚在水和油之间的传质过程。实验结果表明,可以观察到两种传质机制。当空气流速超过某一临界值时,油层的雾化作用导致油滴在水中持续形成。在小施密特数下得到传质率或舍伍德数的数值结果,然后外推到实验施密特数1480。虽然误差较大,但与实验结果吻合较好。在两个最大的模拟流量下,舍伍德数急剧增加。
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来源期刊
Metallurgical Research & Technology
Metallurgical Research & Technology METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
1.70
自引率
9.10%
发文量
65
审稿时长
4.4 months
期刊介绍: Metallurgical Research and Technology (MRT) is a peer-reviewed bi-monthly journal publishing original high-quality research papers in areas ranging from process metallurgy to metal product properties and applications of ferrous and non-ferrous metals and alloys, including light-metals. It covers also the materials involved in the metal processing as ores, refractories and slags. The journal is listed in the citation index Web of Science and has an Impact Factor. It is highly concerned by the technological innovation as a support of the metallurgical industry at a time when it has to tackle severe challenges like energy, raw materials, sustainability, environment... Strengthening and enhancing the dialogue between science and industry is at the heart of the scope of MRT. This is why it welcomes manuscripts focusing on industrial practice, as well as basic metallurgical knowledge or review articles.
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