4.5 Article

Numerical Simulation of Motion and Distribution of Powder Particles Injected from a Nozzles-Twisted Oxygen Lance in BOF Steelmaking

期刊

METALS
卷 13, 期 2, 页码 -

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MDPI
DOI: 10.3390/met13020211

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powder blowing; particle motion and distribution; nozzles-twisted lance; BOF

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This study investigated the injection of limestone powder into the basic oxygen furnace process, and simulated the process using a multi-fluid flow model. The results showed that the powder injection had little effect on the depth of the oxygen-powder mixture jets, but decreased the width. Most of the powder particles gathered around hot spots, while the rest were carried out of the furnace or penetrated into the molten bath. The swirling flow of the oxygen lance decreased the amount of powder particles carried by the reflecting stream, resulting in a varied concentration distribution in the molten bath.
The pulverized lime/limestone injection by top oxygen blowing lance during the basic oxygen furnace (BOF) process has gained much interest in recent years due to its advantages in helping slag formation and consequently in promoting refining reactions such as dephosphorization. In this pneumatic process, understanding the motion behavior and distribution of the powder particles in the furnace is of importance for regulating and designing this refining system reliably and efficiently. In this study, limestone powder top blowing through a novel nozzles-twisted oxygen lance during a BOF process is proposed and the process is simulated by establishing a multi-fluid flow model. The coupled fluid flow of gaseous oxygen and liquid steel is predicted by the volume of fluid (VOF) method, and the motion of the limestone particles is tracked by the discrete phase model (DPM). The results show that the powder injection has little effect on cavity depth of the oxygen-powder mixture jets of the nozzles-twisted lance, but decreases cavity width. During the blowing process, most of the powder particles gather around hot spots while the rest are taken out of the furnace by the reflecting oxygen stream or penetrate into the molten bath. The generated swirling flow of the nozzles-twisted oxygen lance enables a decrease in the amount of the powder particles carried by the reflecting stream and going into the molten bath, through changing the motion paths of the powder particles. As a result, the concentration distribution of the powder particles in the molten bath varies. It could be suggested that for the limestone powder injection the preferred nozzle twist angle of the oxygen lance is 10 degrees due to the favorable conditions for dephosphorization.

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