Numerical Study of Turbulent Flows and Heat Transfer in Coupled Industrial-Scale Tundish of a Continuous Casting Material in Steel Production

Numerical Simulations in Engineering and Science Pub Date : 2018-04-09 DOI:10.5772/INTECHOPEN.75935

J. A. Castro, B. A. Pereira, Roan Sampaio deSouza, E. M. Oliveira, I. Ferreira

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引用次数: 2

Abstract

This chapter describes the numerical simulations of a coupled industrial scale of the tundish and continuous casting process. The governing equations are presented, and the numerical procedure is discussed in a common framework. The coupled solutions are presented for the transient turbulent flows within the tundish, solidifying zone and extracting regions with the coupling phenomena of heat and mass transfer. The tundish region flow and refractory are calculated using the inlet and outlet boundary conditions in order to estimate the filling phenomena. The transitions and cooling zones for the thin slab continuous casting process are designed to account for the control of the solidified skin in order to avoid breakout. We compared the numerical predictions of the temperatures with industrial monitoring data for a reference case in order to verify the consistence of the model predictions. A parallel version of the numerical code is proposed aiming to improve the computation time keeping numerical accuracy.

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钢铁生产中连铸材料工业规模耦合中间包湍流流动与传热数值研究

本章描述了中间包和连铸过程耦合工业规模的数值模拟。给出了控制方程，并在一般框架下讨论了数值计算过程。在传热传质耦合的条件下，给出了中间包内、凝固区和萃取区瞬态湍流的耦合解。利用进口和出口边界条件计算中间包区流量和耐火材料，以估计填充现象。薄板坯连铸过程的过渡区和冷却区是为了控制凝固皮而设计的，以避免漏钢。为了验证模型预测的一致性，我们将数值预测的温度与工业监测数据进行了比较。为了提高计算时间，保持数值精度，提出了一种并行版本的数值代码。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Numerical Simulations in Engineering and Science

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