Журналы →  Tsvetnye Metally →  2012 →  №1 →  Назад

EQUIPMENTS, INDUSTRIAL AUTOMATION, MATHEMATICAL SIMULATION
Название Technical diagnosis of the process of free flowing products loading into chemical apparatus by means of controlling the feeding screw electric drive
Автор Kladiev S. N., Terehin V. B.
Информация об авторе

Seversk Technological Institute of National Research Nuclear University “MEPhI”

S. N. Kladiev, Assistant Professor, Head of Department of Electrical Drive and Automation, e-mail: kladiev@ssti.ru

V. B. Terehin, Assistant Professor, Department of Electronics and Physical Facilities Automation

Реферат

The ability to control the process of loading uranium oxides into the flame reactor is investigated. The most available coordinates of a variable frequency drive of the feeding screw for controlling the operating modes of the flame reactor are the stator current and the feeding screw rotation frequency. The proportionality between the current and the momentum is ensured by continuous interlink age of the rotor winding of the driving asynchronous engine. The studies have been made on the simulation model of vector-controlled feeding screw drive with rotor interlink age directed along the x-axis of rotating coordinate system. Operator’s actions algorithm is offered for the case of technological process departure from regulation rates. Variable frequency drive of the feeding screw allows controlling the load on the screw shaft. Having sufficient information about the course of technological process, an operator is able to properly manage the process, predict and prevent emergency situations.

Ключевые слова Technical diagnosis, feeding screw, flow rate control, simulating electric drive systems, automation
Библиографический список

1. Zhiganov A. N., Guzeev V. V., Andreev G. G. Tekhnologiya dioksida urana dlya keramicheskogo yadernogo topliva (Uranium Dioxode Technology for Ceramic Nuclear Fuel). Tomsk, 2002. 328 p.
2. Turaev N. S., Zherin I. I. Khimiya i tekhnologiya urana (Chemistry and Technology of Uranium). Moscow, 2006. 396 p.
3. Skachek M. A. Obrashchenie s otrabotavshim yadernym toplivom i radioaktivnymi otkhodami AES : uchebnoe posobie dlya vuzov (Manipulations with Depleted Nuclear Fuel and Radioactive Residues of Nuclear Power Plants : a textbook for high schools). Moscow, 2007. 448 p.
4. Kopyrin A. A., Karelin A. I., Karelin V. A. Tekhnologiya proizvodstva i radiokhimicheskoy pererabotki yadernogo topliva : uchebnoe posobie dlya vuzov (Technology of Manufacturing and Radiochemical Reprocessing of Nuclear Fuel : a textbook for high schools). Moscow, 2006. 576 p.
5. Brendakov V. N., Dementev Yu. N., Kladiev S. N., Pishchulin V. P. Izvestiya TPU – Proceedings of the Tomsk Politechnic University. 2005. Vol. 308, No. 6. pp. 95–98.
6. Sokolovskiy G. G. Elektroprivody peremennogo toka s chastotnym regulirovaniem : uchebnik dlya vuzov (Alternating Current Electrical Drive with Frequency Control : a textbook for high schools). Moscow, 2006. 272 p.
7. Terekhin V. B. Modelirovanie sistem elektroprivoda v Simulink (Matlab 7.0.1) (Electrical Drive Systems Modeling in Simulink (Matlab 7.0.1)). Tomsk, 2010. 292 p.

8. German-Galkin S. G. Kompyuternoe modelirovanie poluprovodnikovykh sistem v MatLab 6.0 (Modeling of Semiconductor Systems in MatLab 6.0). Saint Petersburg, 2001. 320 p.
9. Pozdeev A. D. Elektromagnitnye i elektromekhanicheskie protsessy v chastotno-reguliruemykh asinkhronnykh elektroprivodakh (Electromagnetic and Electromechanical Processes in the Frequency-controled Asynchronous Drives). Cheboksary, 1998. 172 p.
10. Boyko S. V., Dementev Yu. N., Kladiev S. N. Izv. vuzov. Elektromekhanika — Proceedings of Higher Schools. Electromechanics. 2009. No. 6. pp. 69–73.

Language of full-text русский
Полный текст статьи Получить
Назад