Effect of Mold Oscillation on Multiphase Flow and Slag Entrainment in a Slab Continuous Casting Mold

Fu Zheng, Wei Chen, Lifeng Zhang
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Abstract

In the current study, a three-dimensional mathematical model that integrated the large eddy simulation (LES) turbulent model, volume of fluid (VOF) multiphase model, and the dynamic mesh model, was developed to investigate the influence of the mold oscillation on the steel, slag, and air multiphase flow and the slag entrainment in a slab continuous casting mold. The results indicated that the mold oscillation led to an increase of about 0.35 m/s in the speed of molten steel at the impact point of the upper and lower circulation on the narrow surface. However, it reduced about 0.047 m/s in the maximum speed of the meniscus at 1/4 width of the mold. The Fast Fourier Transform (FFT) analysis revealed that the characteristic frequency of the speed fluctuation in the gravity direction of the meniscus near the narrow surface was 1.27 Hz without the consideration of the mold oscillation. Upon the application of the mold oscillation, a new characteristic frequency of 3 Hz, matching the mold oscillation frequency, emerged with twice the intensity of the original 1.27 Hz frequency. Moreover, the mold oscillation had little effect on the characteristic frequency of the speed fluctuation on the meniscus far away from the narrow surface. A user-defined function (UDF) was employed to quantify the number, size, and spatial distribution of entrained slag droplets. The net slag entrainment rate was reduced from 0.0152 to 0.0113 kg/s after the consideration of the mold oscillation, and the number of entrained slag droplets was also decreased. The effect of mold oscillation on the size distribution of entrained slag droplets and the occurrence location of the slag entrainment on the meniscus were not significant.

Abstract Image

模具摆动对板坯连铸模中多相流和熔渣夹带的影响
本研究建立了一个集大涡模拟(LES)湍流模型、流体体积(VOF)多相模型和动态网格模型于一体的三维数学模型,以研究结晶器振荡对板坯连铸结晶器中钢、渣、空气多相流和夹渣的影响。结果表明,结晶器摆动导致狭窄表面上的上下循环冲击点处的钢水速度增加了约 0.35 m/s。但是,在模具 1/4 宽度处,半月板的最大速度降低了约 0.047 m/s。快速傅立叶变换(FFT)分析表明,在不考虑模具振荡的情况下,窄表面附近的半月板重力方向速度波动的特征频率为 1.27 Hz。在加入模具振荡后,出现了与模具振荡频率相匹配的 3 赫兹的新特征频率,其强度是原来 1.27 赫兹频率的两倍。此外,模具振荡对远离狭窄表面的半月板上的速度波动特征频率影响很小。采用用户自定义函数(UDF)来量化夹渣液滴的数量、大小和空间分布。考虑到模具振荡后,净夹渣率从 0.0152 kg/s 降至 0.0113 kg/s,夹渣液滴的数量也有所减少。模具摆动对夹渣液滴的大小分布以及夹渣在半月板上的出现位置的影响并不显著。
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