The Development of an Optimized Impact Pad for a Six-Strand Tundish Using CFD Simulations

The Development of an Optimized Impact Pad for a Six-Strand Tundish Using CFD Simulations

The behavior of molten steel within a tundish plays a crucial role in achieving uniform temperature and chemical composition, enhancing the removal efficiency of non-metallic inclusions, and reducing the wear of refractory linings. These aspects are key for ensuring the production of steel with supe...

Full description

Saved in:
Bibliographic Details
Main Authors: Peter Demeter, Branislav Buľko, Róbert Dzurňák, Ivan Priesol, Slavomír Hubatka, Lukáš Fogaraš, Martina Hrubovčáková, Jaroslav Demeter
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Applied Sciences
Subjects:
steelmaking
tundish
numerical modeling
non-isothermal flows
CFD
impact pad
Online Access:https://www.mdpi.com/2076-3417/15/10/5450
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The behavior of molten steel within a tundish plays a crucial role in achieving uniform temperature and chemical composition, enhancing the removal efficiency of non-metallic inclusions, and reducing the wear of refractory linings. These aspects are key for ensuring the production of steel with superior quality. In multi-strand delta-type tundishes, such as the six-strand configuration, flow dynamics become particularly challenging. Key considerations include strand-specific residence times, the uniform distribution of steel flow, and the mitigation of refractory degradation. This paper presents a detailed numerical analysis aimed at designing an optimally shaped impact pad. The effectiveness of each proposed design was assessed through a tracer-based visualization of flow behavior and the evaluation of residence time distribution (RTD) curves. RTD curves were created in isothermal conditions, while the calculations of the temperature fields of steel in the tundish were made in non-isothermal conditions. The results of the simulations were verified by a real plant trial test and indicate that the use of the “SPHERIC-K4” impact pad can greatly enhance the flow characteristics of liquid steel during the continuous casting process. These improvements include preventing the erosion of the tundish refractory lining, improving the distribution of residence times between individual casting strands, and adjusting the proportions of the mixing zones.
ISSN:2076-3417

Similar Items