Abstract
The authors have constructed a deterministic dynamic model that makes it possible to predict the carbon content and temperature of steel at the end of the blow in oxygen converter steelmaking. Instrument measurements of different parameters of the heat are used to calculate the deviations of the parameters’ prescribed values from their actual values. Calculations are performed to determine the corrective additions that need to be made to a heat to synchronize the decarbonization and heating of the bath.
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A. M. Bigeev and V. V. Baitman, “Statistical model as a first step in controlling the oxygen-converter process,” Mathematics. Application of Mathematics in Economic, Technical, and Pedagogical Research: Symposium, MGTU, Magnitogorsk (2005).
A. M. Bigeev and V. V. Baitman, “Use of gas analysis in an automated system for controlling the oxygen-converter process,” Quality of Science — Quality of Life: Proceedings from an International Scientific-Technical Conference, Feb. 24–25, 2006, Tambov, Pershina (2006).
A. M. Bigeev and V. V. Baitman, “Making more efficient use of instruments that measure the parameters of heats in the oxygen-conveter process,” Teor. Tekhnol. Metall. Proizvod., No. 4 (2004).
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Translated from Metallurg, No. 9, pp. 47–49, September, 2006.
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Bigeev, A.M., Baitman, V.V. Adapting a mathematical model of the end of the blow of a converter heat to existing conditions in the oxygen-converter shop at the Magnitogorsk Metallurgical Combine. Metallurgist 50, 469–472 (2006). https://doi.org/10.1007/s11015-006-0108-4
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DOI: https://doi.org/10.1007/s11015-006-0108-4