Design Improvement of Four-Strand Continuous-Casting Tundish Using Physical and Numerical Simulation

The flow pattern is vital for the metallurgical performance of continuous casting tundishes. The purpose of this study was to design and optimize the flow characteristics inside a four-strand tundish. Numerical simulations and water model experiments were validated and utilized to investigate the fl...

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Bibliographic Details
Published in:Materials 2023-01, Vol.16 (2), p.849
Main Authors: Li, Quanhui, Qin, Bangming, Zhang, Jiangshan, Dong, Hongbiao, Li, Ming, Tao, Biao, Mao, Xinping, Liu, Qing
Format: Article
Language:English
Subjects:
Accuracy
Consistency
Continuous casting
Design
Design improvements
Design optimization
Experiments
Flow characteristics
Flow control
Flow distribution
Flow velocity
Fluid dynamics
Ladle metallurgy
Ladles
Liquid metals
Mathematical models
Metallurgical analysis
Metallurgy
Physical simulation
Response time
Retaining walls
Simulation
Steel making
Steel production
Tundishes
Turbulence models
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Summary:The flow pattern is vital for the metallurgical performance of continuous casting tundishes. The purpose of this study was to design and optimize the flow characteristics inside a four-strand tundish. Numerical simulations and water model experiments were validated and utilized to investigate the flow behavior. The effect of different flow rates in the original tundish was evaluated; two modified retaining walls and a new ladle shroud were designed for optimization. The molten steel inside the original tundish tends to be more active as the flow rate increases from 3.8 L/min to 6.2 L/min, which results in a reduction in dead volume from 36.47% to 17.59% and better consistency between different outlets. The dead volume and outlet consistency inside the tundish are improved significantly when the modified walls are applied. The proper design of the diversion hole further enhances the plug volume from 6.39% to 13.44% of the tundish by forming an upstream circular flow in the casting zone. In addition, the new trumpet ladle shroud demonstrates an advantage in increasing the response time from 152.5 s to 167.5 s and alleviating the turbulence in the pouring zone, which is beneficial for clean steel production.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma16020849