Finite element analysis of electrical stresses in the insulation system of rotating machines fed by static converters

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

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  • K.N. Toosi University of Technology
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OriginalspracheEnglisch
Titel des Sammelwerks22nd International Symposium on High Voltage Engineering (ISH 2021)
Seiten54-59
Seitenumfang6
ISBN (elektronisch)978-1-83953-605-2
PublikationsstatusVeröffentlicht - 2021
Veranstaltung22nd International Symposium on High Voltage Engineering, ISH 2021 - Xi'an, Virtual, China
Dauer: 21 Nov. 202126 Nov. 2021

Abstract

Nowadays, thanks to the recent advances in semiconductor technology, variable frequency drives (VFD) can be implemented in high voltage rotating machines. However, such applications require new considerations both in design as well as manufacturing processes of insulation systems, in particular as to the stator winding. In practice, due to practical problems in electric field sensors, the addressed new electrical stresses can only be measured as for the tangential electric field component over a surface of the insulation system. Finite element methods (FEM) entitle manufacturer to have an accurate estimation of electric fields at arbitrary regions of a defined geometry. In this contribution, three dimensional models of stator winding including both roebel bar and multi-turn coil are developed to highlight the major differences of electric field distribution between two cases of a conventional power frequency supply and a converter-fed supply on the insulation system.

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Finite element analysis of electrical stresses in the insulation system of rotating machines fed by static converters. / Sargazi, Reza; Werle, Peter; Akbari, Asghar.
22nd International Symposium on High Voltage Engineering (ISH 2021). 2021. S. 54-59.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Sargazi, R, Werle, P & Akbari, A 2021, Finite element analysis of electrical stresses in the insulation system of rotating machines fed by static converters. in 22nd International Symposium on High Voltage Engineering (ISH 2021). S. 54-59, 22nd International Symposium on High Voltage Engineering, ISH 2021, Xi'an, Virtual, China, 21 Nov. 2021. https://doi.org/10.1049/icp.2022.0477
Sargazi, R., Werle, P., & Akbari, A. (2021). Finite element analysis of electrical stresses in the insulation system of rotating machines fed by static converters. In 22nd International Symposium on High Voltage Engineering (ISH 2021) (S. 54-59) https://doi.org/10.1049/icp.2022.0477
Sargazi R, Werle P, Akbari A. Finite element analysis of electrical stresses in the insulation system of rotating machines fed by static converters. in 22nd International Symposium on High Voltage Engineering (ISH 2021). 2021. S. 54-59 doi: 10.1049/icp.2022.0477
Sargazi, Reza ; Werle, Peter ; Akbari, Asghar. / Finite element analysis of electrical stresses in the insulation system of rotating machines fed by static converters. 22nd International Symposium on High Voltage Engineering (ISH 2021). 2021. S. 54-59
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abstract = "Nowadays, thanks to the recent advances in semiconductor technology, variable frequency drives (VFD) can be implemented in high voltage rotating machines. However, such applications require new considerations both in design as well as manufacturing processes of insulation systems, in particular as to the stator winding. In practice, due to practical problems in electric field sensors, the addressed new electrical stresses can only be measured as for the tangential electric field component over a surface of the insulation system. Finite element methods (FEM) entitle manufacturer to have an accurate estimation of electric fields at arbitrary regions of a defined geometry. In this contribution, three dimensional models of stator winding including both roebel bar and multi-turn coil are developed to highlight the major differences of electric field distribution between two cases of a conventional power frequency supply and a converter-fed supply on the insulation system.",
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AU - Akbari, Asghar

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BT - 22nd International Symposium on High Voltage Engineering (ISH 2021)

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