Projects per year
Abstract
: Continuous casting as the main steel production process has continuously evolved in terms of efficiency and cost-effectiveness. Utilizing magnetic fields to control the liquid steel flow in the mould region is widely used to improve this process. With combined static magnetic fields, the molten steel flow can be controlled independently in the jet region and at the mould top surface. The strength of each field can be set independently, according to the casting speed and the flow condition. In this study, two sets of local electromagnetic fields with the same strength but in the opposite direction are combined to control the surface and jet velocity. The results show a reduction in surface and jet velocity under the impact of this combined field.
| Original language | English |
|---|---|
| Title of host publication | Proceedings of the 12th PAMIR International Conference - Fundamental and Applied MHD |
| Number of pages | 5 |
| Publication status | Published - Jul 2022 |
Fields of science
- 202014 Electromagnetism
- 203 Mechanical Engineering
- 203024 Thermodynamics
- 207111 Environmental engineering
- 102009 Computer simulation
- 103001 Aerodynamics
- 103032 Fluid mechanics
- 211104 Metallurgy
Projects
- 1 Finished
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K1-MET 4.2 WP1 "Magnetohydrodynamic actuators in the continuous casting process"
Barna, M. (Researcher), Gittler, P. (Researcher) & Javurek, M. (PI)
01.07.2019 → 30.06.2023
Project: Funded research › FFG - Austrian Research Promotion Agency