Optimal control of the electrical mode of an arc furnace on the basis of the three-dimensional vector of phase currents

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dc.citation.epage76
dc.citation.issue1
dc.citation.spage69
dc.contributor.affiliationНаціональний університет “Львівська політехніка”
dc.contributor.affiliationLviv Polytechnic National University
dc.contributor.authorЛозинський, О.
dc.contributor.authorЛозинський, А.
dc.contributor.authorПаранчук, Я.
dc.contributor.authorБілецький, Ю.
dc.contributor.authorLozynskyi, O.
dc.contributor.authorLozynskyi, A.
dc.contributor.authorParanchuk, Y.
dc.contributor.authorBiletskyi, Y.
dc.coverage.placenameЛьвів
dc.coverage.placenameLviv
dc.date.accessioned2020-02-27T09:45:23Z
dc.date.available2020-02-27T09:45:23Z
dc.date.created2019-02-26
dc.date.issued2019-02-26
dc.description.abstractУ роботі на основі рівняння Фоккера–Планка–Колмогорова та статистичної теорії керування отримано математичну модель оперативного синтезу оптимальних керуючих впливів для стабілізації електричного режиму дугової сталеплавильної печі в двоконтурній структурі з швидкодіючим електричним контуром регулювання струмів дуг.
dc.description.abstractIn the paper, based on the Fokker–Planck–Kolmogorov equation and the statistical control theory, a mathematical model for the operative synthesis of optimal controlling influences for stabilization of the electric mode of an electric arc furnace in a two-contour structure with a high-speed electric circuit for regulating the arc currents is suggested.
dc.format.extent69-76
dc.format.pages8
dc.identifier.citationOptimal control of the electrical mode of an arc furnace on the basis of the three-dimensional vector of phase currents / O. Lozynskyi, A. Lozynskyi, Y. Paranchuk, Y. Biletskyi // Mathematical Modeling and Computing. — Lviv : Lviv Politechnic Publishing House, 2019. — Vol 6. — No 1. — P. 69–76.
dc.identifier.citationenOptimal control of the electrical mode of an arc furnace on the basis of the three-dimensional vector of phase currents / O. Lozynskyi, A. Lozynskyi, Y. Paranchuk, Y. Biletskyi // Mathematical Modeling and Computing. — Lviv : Lviv Politechnic Publishing House, 2019. — Vol 6. — No 1. — P. 69–76.
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/46158
dc.language.isoen
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofMathematical Modeling and Computing, 1 (6), 2019
dc.relation.references1. LozynskyiO., MaruschakYa. Three-dimensional stochastic model of the electric mode regulation of an arc furnace. Automation of production processes in mechanical engineering and instrumentation. 31, 7–11 (1993).
dc.relation.references2. LozynskyiO., ParancukYa., LozynskyiA. Optimization of dynamic regimes of interconnected electromechanical systems. Visnyk of Lviv Polytechnic National University: “Electrical and electromechanical systems”. 421, 98–103 (2001).
dc.relation.references3. NikolaevA., Povelitsa E., KornilovG., AnufrievA. Research and Development of Automatic Control System for Electric Arc Furnace Electrode Positioning. Appl. Mech. Mater. 785, 707–713 (2015).
dc.relation.references4. Ghiormez L., PˇanoiuM. Curent control of a 3-phase electric arc furnace using fuzzy logic. ANNALS of Faculty Engineering Hunedoara. Inter. J. Engineering. XIII (4), 237–242 (2015).
dc.relation.references5. NikolaevA.A., Tulupov P.G. Method of setting optimum asymmetric mode of operation of electric arc furnace. 2016 11th France–Japan & 9th Europe-Asia Congress on Mechatronics (MECATRONICS) 17th International Conference on Research and Education in Mechatronics (REM), Compiegne. 033–037 (2016).
dc.relation.references6. ZhengT., MakramE.B. An Adaptive Arc Furnace Model. IEEE Transaction on power delivery. 15 (3), 931–939 (2000).
dc.relation.references7. Rahmatollah Hooshmand, Mahdi Banejad, Mahdi Torabian Esfahani. A New Time Domain Model for Electric Arc Furnace. Journal of Electrical Engineering. 59 (4), 195–202 (2008).
dc.relation.references8. KrasovskyA.A. Statistical theory of transients in control systems. Moscow, Nauka (1968), (in Russian).
dc.relation.references9. LozynskyiO., ParanchukY., Stakhiv P. The study of dynamics of the two-loop arc furnace electric mode ACS on a Simulink-model. Przeglad Elektrotechniczny. 94 (12), 24–27 (2018).
dc.relation.references10. LozynskyyO., LozynskyyA., ParanchukY., ParanchukR., MarushchakY., MalyarA. Analysis and synthesis of intelligent system for electric mode control in electric arc furnace. Lecture Notes in Electrical Engineering. 452, 111–130 (2018).
dc.relation.references11. LozynskyiO., LozynskyiA., ParanchukY., ParanchukR., Holovach I., TsyapaV. Fuzzy extreme control and electric mode coordinates stabilization of arc steel-melting furnace. 2016 XIth International Scientific and Technical Conference Computer Sciences and Information Technologies (CSIT). 49–54 (2016).
dc.relation.referencesen1. LozynskyiO., MaruschakYa. Three-dimensional stochastic model of the electric mode regulation of an arc furnace. Automation of production processes in mechanical engineering and instrumentation. 31, 7–11 (1993).
dc.relation.referencesen2. LozynskyiO., ParancukYa., LozynskyiA. Optimization of dynamic regimes of interconnected electromechanical systems. Visnyk of Lviv Polytechnic National University: "Electrical and electromechanical systems". 421, 98–103 (2001).
dc.relation.referencesen3. NikolaevA., Povelitsa E., KornilovG., AnufrievA. Research and Development of Automatic Control System for Electric Arc Furnace Electrode Positioning. Appl. Mech. Mater. 785, 707–713 (2015).
dc.relation.referencesen4. Ghiormez L., PˇanoiuM. Curent control of a 3-phase electric arc furnace using fuzzy logic. ANNALS of Faculty Engineering Hunedoara. Inter. J. Engineering. XIII (4), 237–242 (2015).
dc.relation.referencesen5. NikolaevA.A., Tulupov P.G. Method of setting optimum asymmetric mode of operation of electric arc furnace. 2016 11th France–Japan & 9th Europe-Asia Congress on Mechatronics (MECATRONICS) 17th International Conference on Research and Education in Mechatronics (REM), Compiegne. 033–037 (2016).
dc.relation.referencesen6. ZhengT., MakramE.B. An Adaptive Arc Furnace Model. IEEE Transaction on power delivery. 15 (3), 931–939 (2000).
dc.relation.referencesen7. Rahmatollah Hooshmand, Mahdi Banejad, Mahdi Torabian Esfahani. A New Time Domain Model for Electric Arc Furnace. Journal of Electrical Engineering. 59 (4), 195–202 (2008).
dc.relation.referencesen8. KrasovskyA.A. Statistical theory of transients in control systems. Moscow, Nauka (1968), (in Russian).
dc.relation.referencesen9. LozynskyiO., ParanchukY., Stakhiv P. The study of dynamics of the two-loop arc furnace electric mode ACS on a Simulink-model. Przeglad Elektrotechniczny. 94 (12), 24–27 (2018).
dc.relation.referencesen10. LozynskyyO., LozynskyyA., ParanchukY., ParanchukR., MarushchakY., MalyarA. Analysis and synthesis of intelligent system for electric mode control in electric arc furnace. Lecture Notes in Electrical Engineering. 452, 111–130 (2018).
dc.relation.referencesen11. LozynskyiO., LozynskyiA., ParanchukY., ParanchukR., Holovach I., TsyapaV. Fuzzy extreme control and electric mode coordinates stabilization of arc steel-melting furnace. 2016 XIth International Scientific and Technical Conference Computer Sciences and Information Technologies (CSIT). 49–54 (2016).
dc.rights.holderCMM IAPMM NAS
dc.rights.holder© 2019 Lviv Polytechnic National University
dc.subjectдугова сталеплавильна піч
dc.subjectелектричний режим
dc.subjectтрифазний вектор струмів фаз
dc.subjectдельта–функція
dc.subjectдисперсія
dc.subjectоптимізація
dc.subjectадаптація
dc.subjectarc furnace
dc.subjectelectric mode
dc.subjectthree-dimensional vector of phase currents
dc.subjectstochastic control
dc.subjectdelta function
dc.subjectdispersion
dc.subjectoptimization
dc.subjectadaptation
dc.subject.udc681.513
dc.subject.udc621.365
dc.subject.udc62-83-52
dc.titleOptimal control of the electrical mode of an arc furnace on the basis of the three-dimensional vector of phase currents
dc.title.alternativeОптимальне керування електричним режимом дугової печі на основі тривимірного вектора струмів дуг
dc.typeArticle

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Mathematical Modeling And Computing. – 2019. – Vol. 6, No. 1