CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING

CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING

Aim. The aim of the paper is to determine a quantitative relationship between measured impedance of the inductor and the electrical characteristics of the separated melt circuit parts for the determination of the place of a liquid metal leakage and for the improvement in such way the diagnostic syst...

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Бібліографічні деталі
Дата:2018
Автори: Podoltsev, A. D., Zolotaryov, V. M., Shcherba, M. A., Belyanin, R. V.
Формат: Стаття
Мова:English
Опубліковано: National Technical University "Kharkiv Polytechnic Institute" and State Institution “Institute of Technical Problems of Magnetism of the National Academy of Sciences of Ukraine” 2018
Теми:
equivalent electric parameters
mathematical modeling
induction channel furnace
defects of lining
diagnostics of the lining state
621.365.5
эквивалентные электрические параметры
математическое моделирование
индукционная канальная печь
дефекты футеровки
диагностика состояния футеровки
Онлайн доступ:http://eie.khpi.edu.ua/article/view/2074-272X.2018.4.05
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Назва журналу:Electrical Engineering & Electromechanics

Репозитарії

Electrical Engineering & Electromechanics
id eiekhpieduua-article-140265
record_format ojs
institution Electrical Engineering & Electromechanics
collection OJS
language English
topic equivalent electric parameters
mathematical modeling
induction channel furnace
defects of lining
diagnostics of the lining state
621.365.5
эквивалентные электрические параметры
математическое моделирование
индукционная канальная печь
дефекты футеровки
диагностика состояния футеровки
621.365.5
spellingShingle equivalent electric parameters
mathematical modeling
induction channel furnace
defects of lining
diagnostics of the lining state
621.365.5
эквивалентные электрические параметры
математическое моделирование
индукционная канальная печь
дефекты футеровки
диагностика состояния футеровки
621.365.5
Podoltsev, A. D.
Zolotaryov, V. M.
Shcherba, M. A.
Belyanin, R. V.
CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING
topic_facet equivalent electric parameters
mathematical modeling
induction channel furnace
defects of lining
diagnostics of the lining state
621.365.5
эквивалентные электрические параметры
математическое моделирование
индукционная канальная печь
дефекты футеровки
диагностика состояния футеровки
621.365.5
format Article
author Podoltsev, A. D.
Zolotaryov, V. M.
Shcherba, M. A.
Belyanin, R. V.
author_facet Podoltsev, A. D.
Zolotaryov, V. M.
Shcherba, M. A.
Belyanin, R. V.
author_sort Podoltsev, A. D.
title CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING
title_short CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING
title_full CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING
title_fullStr CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING
title_full_unstemmed CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING
title_sort calculation of the equivalent electrical parameters of the inductor of induction channel furnace with defects in its lining
title_alt CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING
description Aim. The aim of the paper is to determine a quantitative relationship between measured impedance of the inductor and the electrical characteristics of the separated melt circuit parts for the determination of the place of a liquid metal leakage and for the improvement in such way the diagnostic system of lining state of induction channel furnaces. Technique. The study was performed on the basis of the concepts of theoretical electrical engineering, mathematical physics, and mathematical modeling. Results. Using two equivalent electrical circuits of the inductor the analytical expressions and graphical dependencies, which determine a quantitative relationship between the parameters of the separated parts of a liquid-metal circuit and the impedance of the whole inductor measured in practice, for the presence of different lining defects, were found. The method for calculating the increments of equivalent electrical parameters of the inductor as a function of increments of the parameters of the secondary liquid-metal circuit was proposed. Scientific novelty. It is proved that for small changes (less than 10 %) of the parameters of the liquid-metal circuit, it is expedient to use a linear relationship between its increments and to create the sensitivity matrix, which clearly shows the presence of a strong or weak interrelation between the disturbed values of the parameters of the secondary circuit and the inductor. Practical significance. The use of this technique allows to develop the database for various types of lining defects for a given furnace and on its basis to predict the places of a melt leakage and the state of furnace lining owing to periodical measurements of the inductor parameters.
publisher National Technical University "Kharkiv Polytechnic Institute" and State Institution “Institute of Technical Problems of Magnetism of the National Academy of Sciences of Ukraine”
publishDate 2018
url http://eie.khpi.edu.ua/article/view/2074-272X.2018.4.05
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spelling eiekhpieduua-article-1402652018-08-17T11:28:27Z CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING CALCULATION OF THE EQUIVALENT ELECTRICAL PARAMETERS OF THE INDUCTOR OF INDUCTION CHANNEL FURNACE WITH DEFECTS IN ITS LINING Podoltsev, A. D. Zolotaryov, V. M. Shcherba, M. A. Belyanin, R. V. equivalent electric parameters mathematical modeling induction channel furnace defects of lining diagnostics of the lining state 621.365.5 эквивалентные электрические параметры математическое моделирование индукционная канальная печь дефекты футеровки диагностика состояния футеровки 621.365.5 Aim. The aim of the paper is to determine a quantitative relationship between measured impedance of the inductor and the electrical characteristics of the separated melt circuit parts for the determination of the place of a liquid metal leakage and for the improvement in such way the diagnostic system of lining state of induction channel furnaces. Technique. The study was performed on the basis of the concepts of theoretical electrical engineering, mathematical physics, and mathematical modeling. Results. Using two equivalent electrical circuits of the inductor the analytical expressions and graphical dependencies, which determine a quantitative relationship between the parameters of the separated parts of a liquid-metal circuit and the impedance of the whole inductor measured in practice, for the presence of different lining defects, were found. The method for calculating the increments of equivalent electrical parameters of the inductor as a function of increments of the parameters of the secondary liquid-metal circuit was proposed. Scientific novelty. It is proved that for small changes (less than 10 %) of the parameters of the liquid-metal circuit, it is expedient to use a linear relationship between its increments and to create the sensitivity matrix, which clearly shows the presence of a strong or weak interrelation between the disturbed values of the parameters of the secondary circuit and the inductor. Practical significance. The use of this technique allows to develop the database for various types of lining defects for a given furnace and on its basis to predict the places of a melt leakage and the state of furnace lining owing to periodical measurements of the inductor parameters. Цель. Целью статьи является установление количественной связи между измеряемым импедансом индуктора и электрическими характеристиками отдельных участков контура расплава для установления места протекания жидкого металла и усовершенствования таким образом системы диагностики состояния футеровки индукционных канальных печей. Методика. Для проведения исследований использовались положения теоретической электротехники, математической физики, математического моделирования. Результаты. C использованием двух электрических схем замещения индуктора получены аналитические выражения и графические зависимости, устанавливающие количественную связь между параметрами отдельных участков жидкометаллического контура и измеряемым на практике импедансом всего индуктора при наличии различных дефектов в его футеровке. Предложена методика расчета приращений эквивалентных электрических параметров индуктора в зависимости от приращений параметров вторичного жидкометаллического контура. Научная новизна. Доказано, что при малых изменениях (менее 10%) параметров жидкометаллического контура целесообразно использовать линейную связь между их приращениями с построением матрицы чувствительности, которая наглядно показывает наличие сильной или слабой связи между возмущенными значениями параметров вторичного контура и индуктора. Практическое значение. Использование данной методики позволяет разработать базу данных для различных типов дефектов футеровки для индукционной канальной печи и на ее основе, путем периодического измерения параметров индуктора, прогнозировать места протеканий расплава и состояние футеровки. National Technical University "Kharkiv Polytechnic Institute" and State Institution “Institute of Technical Problems of Magnetism of the National Academy of Sciences of Ukraine” 2018-08-13 Article Article application/pdf http://eie.khpi.edu.ua/article/view/2074-272X.2018.4.05 10.20998/2074-272X.2018.4.05 Electrical Engineering & Electromechanics; No. 4 (2018); 29-34 Электротехника и Электромеханика; № 4 (2018); 29-34 Електротехніка і Електромеханіка; № 4 (2018); 29-34 2309-3404 2074-272X en http://eie.khpi.edu.ua/article/view/2074-272X.2018.4.05/137626 Copyright (c) 2018 A. D. Podoltsev, V. M. Zolotaryov, M. A. Shcherba, R. V. Belyanin https://creativecommons.org/licenses/by-nc/4.0

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