Measurement and Model-Based Control of Solidification in Continuous Casting of Steel Billets

• Published in: Applied sciences Vol. 13; no. 2; p. 885
• Main Authors: Schlautmann, Martin, Köster, Marc, Krieger, Waldemar, Groll, Matthias, Schuster, Ralf, Bellmann, Jörg, Frittella, Piero
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.01.2023
• Subjects: Artificial intelligence; Billet casting; Billets; Clustering; Continuous casting; continuous steel casting; Cooling; crater end position; Flow equations; Heat conductivity; Heat flow; Heat transmission; Influence; Information systems; laser vibrometry; Lasers; Measurement techniques; Methods; Partial differential equations; Position measurement; process modelling and control; Radiation; Simulation; Software packages; Solidification; solidification process; Solids; Steel; Temperature; Vibration; Vibration measurement; Vibration meters
• ISSN: 2076-3417; 2076-3417
• DOI: 10.3390/app13020885

A laser vibrometer system in combination with appropriate artificial intelligence methods for clustering of the measured vibration spectra was tested at a continuous steel casting machine to receive information on the solidification status of the strand. Measurements with the laser vibrometer at a fixed strand position of the billet caster of ESF under conditions of incrementally increasing casting speeds revealed a transition in the population of the identified vibration clusters as a footprint of the passed crater end position with a change from a fully solidified strand to a strand with some liquid core at the measurement position. This was in accordance with the results from a three-dimensional dynamic temperature and solidification model which was set up based on a state-of-the-art approach for solution of the heat flow equation with tailored submodels for the different boundary zones of the ESF billet caster (i.e., mould, secondary spray water zones and radiation zones) and installed at the steel plant for online monitoring and control of the casting process. The application of the newly installed measurement and model-based information systems at ESF revealed significant improvements in their billet casting process in terms of halved strand breakout rates and correspondingly increased productivity.