Analysis of Vortex Stability During the BOF Tapping Process

Kakara Sripushpa, Usha Yenni, Syed Furqan Bukhari, Ashok Kamaraj
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Abstract

The present work discusses the numerical simulation of the tapping process to validate the earlier postulates related to the influence of BOF vessel shape on vortex formation. Numerical experiments were conducted by varying the initial filling flow rates (FR 40 and 20 lpm), dwell times (DT 90 and 30 seconds), nozzle diameters (ND 2.14 and 1.04 cm), and initial liquid height (LH 14 and 11 cm). It was earlier reported that the vortex formation is mainly dependent on the nozzle diameter and the stability of the vortex relay on the residual motion in the draining liquids. The present numerical study provides insight into the vortex stability and elucidates the role of residual motion in the draining liquids under different process conditions. The delay in vortex formation for the case of higher residual motion is due to a delay in acceleration and alignment of angular momentum at the nozzle axis vicinity. Further, it is also observed from the numerical experiments that the vertical velocity component’s magnitude exceeds the curl velocity’s horizontal velocity component to establish the stable vortex. The findings of simulated results are in good agreement with the experimental results reported earlier. It also supports the theory of controlling the vortex formation in BOF vessels (by tilting front/back) without using an external device, such as a dart, a device to arrest the slag entering the ladle at the tapping end.

Abstract Image

挤压成型攻丝过程中的涡流稳定性分析
本研究讨论了出料过程的数值模拟,以验证之前提出的有关 BOF 容器形状对涡流形成影响的假设。通过改变初始填充流速(FR 40 和 20 lpm)、停留时间(DT 90 和 30 秒)、喷嘴直径(ND 2.14 和 1.04 厘米)以及初始液体高度(LH 14 和 11 厘米)进行了数值实验。早先有报告指出,漩涡的形成主要取决于喷嘴直径,而漩涡的稳定性则取决于排出液体中的残余运动。本数值研究深入探讨了漩涡的稳定性,并阐明了不同工艺条件下排水液体中残余运动的作用。在残余运动较大的情况下,涡旋形成的延迟是由于喷嘴轴附近角动量的加速和排列延迟所致。此外,数值实验还观察到,垂直速度分量的大小超过了卷曲速度的水平速度分量,从而形成了稳定的漩涡。模拟结果与之前报告的实验结果非常吻合。这也支持了在不使用外部设备(如飞镖)的情况下(通过前后倾斜)控制钢包液容器中漩涡形成的理论,飞镖是一种在出渣端阻止熔渣进入钢包的设备。
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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