A calculation model for determination of impedance of power high voltage single-core cables with polymer insulation

A calculation model for determination of impedance of power high voltage single-core cables with polymer insulation

Introduction. The wave parameters of power cables with polymer insulation differ significantly from the parameters of overhead lines and power transformers. As a result, there are more and more objects in electrical networks for which the occurrence of complex multi frequency transients, accompanied...

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Bibliographische Detailangaben
Datum:2021
Hauptverfasser: Bezprozvannych, G. V., Kostiukov, I. A.
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 2021
Schlagworte:
power cables
complex resistance
magnetically coupled circuits
system of linear algebraic equations
conductor
screen
coefficient of irregularity of current distribution
Online Zugang:http://eie.khpi.edu.ua/article/view/234481
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Назва журналу:Electrical Engineering & Electromechanics

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Electrical Engineering & Electromechanics
Beschreibung
Zusammenfassung:Introduction. The wave parameters of power cables with polymer insulation differ significantly from the parameters of overhead lines and power transformers. As a result, there are more and more objects in electrical networks for which the occurrence of complex multi frequency transients, accompanied by dangerous overvoltages, should be expected. Purpose. To develop a computational model of the complex impedance of high-voltage single-core power cables of coaxial design required to determine the frequency dependencies of the active resistance and inductance of the conductive core and metal shield, taking into account the surface effect and proximity effect. Methodology. The method is based on solving a system of linear algebraic Kirchhoff equations (SLAE) for magnetically coupled contours. SLAE can be used to calculate conductors taking into account the skin effect and proximity effect. Practical value. The developed model is the basis for determining the characteristic impedance of high-voltage single-core power cables in a wide range of frequencies required to establish adequate criteria for evaluating the parameters of high-frequency effects critical for cross linked polyethylene insulation.

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