Abstract
This work presents the numerical and physical simulation results of the liquid steel flow in the one-strand tundish. The results obtained during the numerical simulations and the water modeling results were compared to each other. Six types of turbulence models were tested. Among tested turbulence models the BSL k-ω was turned out the best correlating with the results from the laboratory experiments. Besides, the ladle shroud modification was proposed by the authors and the influence of the modified ladle shroud immersion depth in the liquid steel on the hydrodynamic structure in the tundish was checked. The ladle shroud modification depended on the expansion, narrowing, and re-expansion of the liquid steel feed stream. The four tundish variants with the four different ladle shroud immersion depths (at 0.1, 0.2, 0.3 and 0.4 m) in the liquid steel were tested. The liquid steel flow volumes were calculated and according to the generated active flow volume, the most beneficial research case was indicated. The tundish variant with the ladle shroud immersion depth of 0.3 m in the liquid steel was characterized by the lowest stagnant flow volume. The numerical simulations were performed by using the Ansys-Fluent computer program.
Highlights
A stand of continuous steel casting (CSC) consists of a steel ladle, tundish, mold and secondary cooling zone
The liquid steel stream between ladle and tundish is protected by a ladle shroud
Used a conventional ladle shroud is characterized by a simple construction and insignificant influence on the liquid steel flow hydrodynamic structure in the tundish
Summary
A stand of continuous steel casting (CSC) consists of a steel ladle, tundish, mold and secondary cooling zone. This proposal is based on the directing of the liquid steel streams towards the vacuum chamber, which in effect, inhibits the flow of the liquid steel in the area of the ladle shroud. This solution reduces the slag eye phenomenon to practically zero. The numerical and physical simulations of the liquid steel flow in the one-strand tundish designed for the continuous slab casting process were performed. In work [11], the research of the hydrodynamic structure of the liquid steel flow in the considered tundish with a conventional ladle shroud immersed at a depth of 0.1 m in liquid steel was carried out. It should be known in mind that the results were obtained using slightly different thermal conditions and the entire length of the ladle shroud was not taken into account, which has a slight effect on the results of the calculations [12]
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