2014
DOI: 10.2355/isijinternational.54.328
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Real-time Heat Transfer Model Based on Variable Non-uniform Grid for Dynamic Control of Continuous Casting Billets

Abstract: A real-time heat transfer model has been developed for dynamic control of continuous casting billets. In order to fulfill the real-time requirements for efficiency and accuracy, finite volume method (FVM) and alternating direction implicit algorithm (ADI) have been selected as the efficient numerical solution algorithm. And most important of all, variable non-uniform grid and variable time step have been adopted in the algorithm, accelerating the calculation of heat transfer model by 20-40 times. Further, the … Show more

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Cited by 25 publications
(26 citation statements)
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References 25 publications
(24 reference statements)
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“…When accurate pyrometer measurements are available, an inverse model can be applied to match the predicted surface temperature profile with the peaks of those measurements, to overcome dips caused by intermittent scale . Finally, the shell thickness predictions near final solidification of several models have been successfully validated with nail shooting measurements …”
Section: Heat Transfer and Solidificationmentioning
confidence: 99%
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“…When accurate pyrometer measurements are available, an inverse model can be applied to match the predicted surface temperature profile with the peaks of those measurements, to overcome dips caused by intermittent scale . Finally, the shell thickness predictions near final solidification of several models have been successfully validated with nail shooting measurements …”
Section: Heat Transfer and Solidificationmentioning
confidence: 99%
“…[12] Finally, the shell thickness predictions near final solidification of several models have been successfully validated with nail shooting measurements. [12,[25][26][27][28] Once validated, simple heat transfer solidification models have a wide range of powerful practical applications, which have had great impact on improving the process in commercial practice. For example, post-mortem analysis of the location and cause of internal hot-tear cracks can be inferred from model predictions of the location of the critical temperature range near the solidification front.…”
Section: Heat Transfer and Solidificationmentioning
confidence: 99%
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“…Although the offline heat transfer model could predict solidification ends with different casting conditions, it is difficult to real‐time predict the solidification end of strand in industry production process due to the huge calculation cost, especially under conditions of the unsteady continuous casting. Therefore, many real‐time heat transfer models were developed to calculate the solidification end efficiently . Voest‐Alpine Industieanlaenbau(VAI) developed a real‐time cooling control and heat transfer calculation model, named Dynacs @ (Dynamic Strand Cooling Management System), which could determine the solidification end with the specific condition of steel grade, casting speed, and casting temperature.…”
Section: Introductionmentioning
confidence: 99%
“…Nowadays, real-time heat transfer models are gradually applied as fundamental part for studying the solidification process and even for online applications in continuous casting process of steel, such as secondary cooling, soft reduction and electromagnetic stirring, with the purpose to improve the quality of products. [1][2][3][4][5][6][7] In these heat transfer models, accurate thermophysical properties are essential for their reliability. However, it is not always possible to find data for a certain steel grade, although thermophysical data of a great number of steels has been measured.…”
Section: Introductionmentioning
confidence: 99%