Effect of Swirl Angle on Interaction between Swirl Oxygen Lance Jet and Melt Pool

Archives of Foundry Engineering Pub Date : 2024-03-18 DOI:10.24425/afe.2024.149251

Haoran Ma, Guangqiang Liu, Chengcheng Xu, Kun Liu, P. Han

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Abstract

In order to clarify the action law of the swirl oxygen lance jet on the melt pool of the converter and to determine the optimal swirl angle of the swirl oxygen lance for the 120t converter, this study establishes the gas-liquid two-phase flow model of the oxygen lance with different swirl angles based on the realizable k-ε model and the VOF multiphase flow model. The gas-liquid interface behavior during the interaction between the jet and the molten pool was analyzed, and the flow pattern of molten steel in the molten pool was mainly investigated. The results show that compared with traditional oxygen lance, the rotating oxygen lance jet enhances the stirring of the melt pool and intensifies the fluctuation of the melt pool liquid level. The depth of the impact cavity decreases with the increase of the swirl angle, but the diameter of the impact cavity increases with the increase of the swirl angle. When the jet with a swirl angle of 10 ° impacts the surface of the melt pool, the turbulence energy obtained by the molten steel is the highest, the average flow velocity inside the melt pool is the highest, and the molten steel is stirred more thoroughly, achieving better melting effects.

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漩涡角度对漩涡氧枪射流和熔池之间相互作用的影响

为了阐明漩涡氧枪射流对转炉熔池的作用规律，确定120t转炉漩涡氧枪的最佳漩涡角，本研究基于可实现的k-ε模型和VOF多相流模型，建立了不同漩涡角氧枪的气液两相流模型。分析了射流与熔池相互作用过程中的气液界面行为，主要研究了熔池中钢水的流动规律。结果表明，与传统氧枪相比，旋转氧枪射流增强了对熔池的搅拌，加剧了熔池液面的波动。冲击腔深度随漩涡角的增大而减小，但冲击腔直径随漩涡角的增大而增大。当漩涡角为 10° 的射流撞击熔池表面时，钢水获得的湍流能最大，熔池内的平均流速最高，钢水被搅拌得更充分，熔化效果更好。

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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Archives of Foundry Engineering

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