High Temperature Materials and Processes (Aug 2022)

Structure optimization of continuous casting tundish with channel-type induction heating using mathematical modeling

  • Yang Bin,
  • Liu Kun,
  • Lei Hong,
  • Han Peng

DOI
https://doi.org/10.1515/htmp-2022-0041
Journal volume & issue
Vol. 41, no. 1
pp. 460 – 468

Abstract

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There are few studies on the shape and structure of the channel-type induction heating tundish on multi-physics field. Computational fluid dynamics has been used to study the influence of the structure of the tundish on the macroscopic transport behavior of the tundish with channel induction heating. The results show that increasing the depth of the molten pool is conducive to dynamic behavior of multiphase, the deeper the molten pool, the larger the active area, the longer residence time, the more inclusions removal and the higher ratio of plug to dead volume. Meanwhile, the larger the channel diameter, the more inclusions removal in the receiving chamber and channel. The channel induction heating has enough ability to increase the superheat and temperature compensate for the heat loss caused by the excessive residence time of the molten steel in the tundish. The change in the channel structure is crucial to the macroscopic transport behavior of the fluid. The change in channel diameter has the greatest effect on the multi-physics field in the molten pool.

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