UDK 65.011.56
“VIRTUAL CC&RP” – A MATHEMATICAL MODEL FOR THE CONTROL OF THE UNIT CC&RP AND ITS VISUALIZATION WITH THE HELP OF SOFTWARE PRODUCTS WinCC 7.0 AND Step 7
T. V. Piskazhova [1], S. B. Sidelnikov [1], V. M. Belolipetskii [2], P. N. Yakivyuk [1]*, A. S. Sidelnikov [1]
[1] Siberian Federal University, Institute of Nonferrous Metals and Materials Science 95, Krasnoyarsky Rabochy Av., Krasnoyarsk, 660025, Russian Federation [2] Institute of Computational Modeling, Siberian Branch of Russian Academy of Sciences 55/44, Akademgorodok, Krasnoyarsk, 660036, Russian Federation *E-mail: PavelYakivyuk@yandex.ru
The Combined Casting and Rolled-Pressing Process (CC&RP) is used for electrotechnical-purposed aluminum rod production, which serves as half-stuff for manufacturing of different-sized aluminum wire, rivets, electrical and welding wire for electrical and radioelectronic industries. Depending on its properties, aluminum rod is widely used in the various industries, including space engineering. CC&RP method is a promising way of metal treatment, which is not yet widely implemented due to insufficiency of the automation algorithms. Automated control should provide specified values of metal consumption, temperature at the rolling mill, temperature mode of pressing node, rod temperature at the matrix end, intake device rotational speed in respect to metal consumption. For this purpose, mathematical model development, as well as its programming realization and visualization are needed. This paper provides statement of modeling task and simplified mathematical model of CC&RP method using the machine for aluminum lengthy products manufacturing. For each node of the machine ODEs is considered, that describes changes of process variables depending of time or coordinates. Initial conditions for each node input are determined from technological constants or previous node outputs. Further, the CC&RP mathematical model is realized with WinCC 7.0 and Step 7 applications using FBD and SCL languages. The process mimic panel is developed and connected with the model. The description of the program structure in Step 7 and the version of machine stationary mode calculation are provided.
mathematical model, visualization, programming, CC&RP.
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Piskazhova Tatiana Valerievna – Dr. Sc., Head of the Department “Automation of the production processes and heat transfer engineering in metallurgy”, Institute of Nonferrous Metals and Materials, Siberian Federal University. E-mail: piskazhova@ya.ru
Sidelnikov Sergei Borisovich – Dr. Sc., professor, Head of Metal Forming Department, Institute of Nonferrous Metals and Materials, Siberian Federal University. E-mail: sbs270359@yandex.ru
Belolipetskii Viktor Mikhailovich – Dr. Sc., Professor, Head of Computational hydrodynamics Department, Institute of Computational Modeling, SB RAS. E-mail: belolip@icm.krasn.ru
Yakivyuk Pavel Nikolaevich – postgraduate student of Department of automation of technological processes and heating in metallurgy, Institute of Nonferrous Metals and Materials, Siberian Federal University. E-mail: PavelYakivyuk@yandex.ru
Sidelnikov Andrei Sergeevich – assistant of Foundry engineering Department, Institute of Nonferrous Metals and Materials, Siberian Federal University. E-mail: andsidelnikov@yandex.ru
