A Brief Review of Multi-Physics Coupling Research on Hydroelectric Generators

A Brief Review of Multi-Physics Coupling Research on Hydroelectric Generators

Hydropower, with its high degree of flexibility, plays an important role in the transformation of the global energy mix. Generators are the core component of the hydropower units; their performance directly affects the efficiency and reliability of the hydroelectric units. The dynamic characteristic...

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Bibliographic Details
Main Authors: Jiwen Zhang, Xingxing Huang, Zhengwei Wang
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Energies
Subjects:
hydroelectric generator
electromagnetic vibration
ventilation
heat dissipation
thermal stress
control strategy
Online Access:https://www.mdpi.com/1996-1073/18/5/1074
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Summary:Hydropower, with its high degree of flexibility, plays an important role in the transformation of the global energy mix. Generators are the core component of the hydropower units; their performance directly affects the efficiency and reliability of the hydroelectric units. The dynamic characteristics of a generator during operation are usually the result of the coupling and interaction of multiple physical fields. Therefore, the interactions among electromagnetic, thermal, structural, and fluid fields inside hydroelectric generators have become of great concern. This paper briefly reviews the hydroelectric generator multi-physics coupling investigations, which include research conducted through field measurements, theoretical analysis, and numerical simulations. The review covers electromagnetic vibrations of generators under the influence of electromagnetic and structural fields, heat generation of generators under the influence of electromagnetic and thermal fields, ventilation and heat dissipation of generators under the influence of flow and thermal fields, and physical field changes of generators under the influence of electromechanical signals. The review also highlights unresolved issues in the field of hydropower that could benefit from fundamental research using a multi-physics coupling approach.
ISSN:1996-1073

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