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Comprehensive Investigation of Winding Mechanical Properties in Generators under RISC: Impact of Position, Degree, and Eccentricity

This paper provides an in‐depth study of the winding mechanical properties in generators under rotor interturn short circuit (RISC) cases. Unlike previous studies, this research investigates not only the influence of RISC degrees, but also the RISC positions and the eccentricity on the winding mecha...

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Published in:IEEJ transactions on electrical and electronic engineering 2024-11, Vol.19 (11), p.1842-1857
Main Authors: Xu, Ming‐Xing, He, Yu‐Ling, Zhang, Wen, Dai, De‐Rui, Fu, Zi‐Xiang, Zhang, Yu‐Song, Gerada, David
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container_issue 11
container_start_page 1842
container_title IEEJ transactions on electrical and electronic engineering
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creator Xu, Ming‐Xing
He, Yu‐Ling
Zhang, Wen
Dai, De‐Rui
Fu, Zi‐Xiang
Zhang, Yu‐Song
Gerada, David
description This paper provides an in‐depth study of the winding mechanical properties in generators under rotor interturn short circuit (RISC) cases. Unlike previous studies, this research investigates not only the influence of RISC degrees, but also the RISC positions and the eccentricity on the winding mechanical properties. The electromagnetic force (EF) formulas as well as the electromagnetic‐structure coupling model are first proposed to derive the mechanical winding response characteristics, such as the vibration, deformation, the strain, and the stress. Subsequently, both finite element analysis (FEA) and experimental investigations are conducted to validate the theoretical findings. The results reveal that RISC introduces additional harmonics to the EF. Furthermore, as the eccentricity/RISC degree or the distance between the short circuit position and the N‐pole increases, the end winding vibrations become more pronounced. When comparing single eccentricity and RISC faults to cases where both faults occur simultaneously, it is observed that the combined faults have a more detrimental impact on the end winding mechanical properties. © 2024 Institute of Electrical Engineers of Japan and Wiley Periodicals LLC.
doi_str_mv 10.1002/tee.24143
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source Wiley-Blackwell Read & Publish Collection
subjects Eccentricity
Electromagnetic forces
Faults
Finite element method
generators
Mechanical properties
rotor interturn short circuit (RISC)
Short circuits
Strain
Vibration analysis
Winding
winding mechanical properties
title Comprehensive Investigation of Winding Mechanical Properties in Generators under RISC: Impact of Position, Degree, and Eccentricity
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