CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION

CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION

Introduction. A rotating magnetic field three-phase inductor designed for the technological processing of various substances is considered. The processing is carried out by ferromagnetic elements in the form of pieces of iron wire moving with a magnetic field. Problem. The control problem of the con...

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Datum:2020
Hauptverfasser: Milykh, V. I., Shilkova, L. V.
Format: Artikel
Sprache:English
Ukrainian
Veröffentlicht: National Technical University "Kharkiv Polytechnic Institute" and Аnatolii Pidhornyi Institute of Power Machines and Systems of NAS of Ukraine 2020
Schlagworte:
magnetic field inductor
working chamber
concentration of ferromagnetic elements
current control
numerical field analysis
electromagnetic parameters
angular characteristics
621.313
621.92
537.8
Online Zugang:http://eie.khpi.edu.ua/article/view/2074-272X.2020.5.02
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Назва журналу:Electrical Engineering & Electromechanics

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Electrical Engineering & Electromechanics
id eiekhpieduua-article-214947
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spelling eiekhpieduua-article-2149472020-10-28T18:22:38Z CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION ТОКОВЫЙ МЕТОД КОНТРОЛЯ КОНЦЕНТРАЦИИ ФЕРРОМАГНИТНЫХ ЭЛЕМЕНТОВ В РАБОЧЕЙ КАМЕРЕ ТЕХНОЛОГИЧЕСКОГО ИНДУКТОРА МАГНИТНОГО ПОЛЯ В ПРОЦЕССЕ ЕГО ЭКСПЛУАТАЦИИ Milykh, V. I. Shilkova, L. V. индуктор магнитного поля рабочая камера концентрации ферромагнитных элементов токовый контроль численно-полевой анализ электромагнитные величины угловые характеристики 621.313 621.92 537.8 magnetic field inductor working chamber concentration of ferromagnetic elements current control numerical field analysis electromagnetic parameters angular characteristics 621.313 621.92 537.8 Introduction. A rotating magnetic field three-phase inductor designed for the technological processing of various substances is considered. The processing is carried out by ferromagnetic elements in the form of pieces of iron wire moving with a magnetic field. Problem. The control problem of the concentration of ferromagnetic elements in the working chamber of the inductor is solved. This is necessary in order to replenish the chamber in time with elements that wear out but without interrupting the processing.Methodology. The proposed control method consists in observing the current of the inductor stator winding, which is carried out during its operation and does not require intervention in the technological process of processing.Results.The theoretical substantiation of the method is given and a practical calculation evaluation of its adequacy is made on the example of a specific inductor. The theory and practice of the method are based on numerical calculations of the magnetic field, electromagnetic parameters and the angular characteristics of the inductor. Practical value.The practical use of the method is to automatically determine the time of reloading the chamber with ferromagnetic elements that are worn out during the inductor operation. This increases the performance of the inductor and eliminates its downtime. Представлен метод определения концентрации ферромагнитных элементов в рабочей камере индуктора вращающегося магнитного поля, предназначенного для технологической обработки различных веществ. Метод заключается в контроле тока обмотки статора индуктора и не требует вмешательства в технологический процесс обработки. Дано теоретическое обоснование метода и проведена практическая расчетная оценка его адекватности на примере конкретного индуктора. Теория и практика метода основаны на численных расчетах магнитного поля, электромагнитных параметров и угловых характеристик индуктора. Практическое использование метода заключается в определении времени дозагрузки камеры ферромагнитными элементами, которые истираются в процессе работы индуктора. National Technical University "Kharkiv Polytechnic Institute" and Аnatolii Pidhornyi Institute of Power Machines and Systems of NAS of Ukraine 2020-10-26 Article Article application/pdf application/pdf http://eie.khpi.edu.ua/article/view/2074-272X.2020.5.02 10.20998/2074-272X.2020.5.02 Electrical Engineering & Electromechanics; No. 5 (2020); 12-17 Электротехника и Электромеханика; № 5 (2020); 12-17 Електротехніка і Електромеханіка; № 5 (2020); 12-17 2309-3404 2074-272X en uk http://eie.khpi.edu.ua/article/view/2074-272X.2020.5.02/215140 http://eie.khpi.edu.ua/article/view/2074-272X.2020.5.02/215141 Copyright (c) 2020 V. I. Milykh, L. V. Shilkova https://creativecommons.org/licenses/by-nc/4.0
institution Electrical Engineering & Electromechanics
baseUrl_str
datestamp_date 2020-10-28T18:22:38Z
collection OJS
language English
Ukrainian
topic magnetic field inductor
working chamber
concentration of ferromagnetic elements
current control
numerical field analysis
electromagnetic parameters
angular characteristics
621.313
621.92
537.8
spellingShingle magnetic field inductor
working chamber
concentration of ferromagnetic elements
current control
numerical field analysis
electromagnetic parameters
angular characteristics
621.313
621.92
537.8
Milykh, V. I.
Shilkova, L. V.
CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION
topic_facet индуктор магнитного поля
рабочая камера
концентрации ферромагнитных элементов
токовый контроль
численно-полевой анализ
электромагнитные величины
угловые характеристики
621.313
621.92
537.8
magnetic field inductor
working chamber
concentration of ferromagnetic elements
current control
numerical field analysis
electromagnetic parameters
angular characteristics
621.313
621.92
537.8
format Article
author Milykh, V. I.
Shilkova, L. V.
author_facet Milykh, V. I.
Shilkova, L. V.
author_sort Milykh, V. I.
title CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION
title_short CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION
title_full CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION
title_fullStr CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION
title_full_unstemmed CONTROL CURRENT METHOD OF THE CONCENTRATION OF FERROMAGNETIC ELEMENTS IN THE WORKING CHAMBER OF THE TECHNOLOGICAL INDUCTOR OF MAGNETIC FIELD DURING ITS OPERATION
title_sort control current method of the concentration of ferromagnetic elements in the working chamber of the technological inductor of magnetic field during its operation
title_alt ТОКОВЫЙ МЕТОД КОНТРОЛЯ КОНЦЕНТРАЦИИ ФЕРРОМАГНИТНЫХ ЭЛЕМЕНТОВ В РАБОЧЕЙ КАМЕРЕ ТЕХНОЛОГИЧЕСКОГО ИНДУКТОРА МАГНИТНОГО ПОЛЯ В ПРОЦЕССЕ ЕГО ЭКСПЛУАТАЦИИ
description Introduction. A rotating magnetic field three-phase inductor designed for the technological processing of various substances is considered. The processing is carried out by ferromagnetic elements in the form of pieces of iron wire moving with a magnetic field. Problem. The control problem of the concentration of ferromagnetic elements in the working chamber of the inductor is solved. This is necessary in order to replenish the chamber in time with elements that wear out but without interrupting the processing.Methodology. The proposed control method consists in observing the current of the inductor stator winding, which is carried out during its operation and does not require intervention in the technological process of processing.Results.The theoretical substantiation of the method is given and a practical calculation evaluation of its adequacy is made on the example of a specific inductor. The theory and practice of the method are based on numerical calculations of the magnetic field, electromagnetic parameters and the angular characteristics of the inductor. Practical value.The practical use of the method is to automatically determine the time of reloading the chamber with ferromagnetic elements that are worn out during the inductor operation. This increases the performance of the inductor and eliminates its downtime.
publisher National Technical University "Kharkiv Polytechnic Institute" and Аnatolii Pidhornyi Institute of Power Machines and Systems of NAS of Ukraine
publishDate 2020
url http://eie.khpi.edu.ua/article/view/2074-272X.2020.5.02
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AT shilkovalv controlcurrentmethodoftheconcentrationofferromagneticelementsintheworkingchamberofthetechnologicalinductorofmagneticfieldduringitsoperation
AT milykhvi tokovyjmetodkontrolâkoncentraciiferromagnitnyhélementovvrabočejkameretehnologičeskogoinduktoramagnitnogopolâvprocesseegoékspluatacii
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first_indexed 2025-07-17T11:48:12Z
last_indexed 2025-07-17T11:48:12Z
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