Optimized Gap Positions for Improved Electromagnetic Forces in Dry-Type Transformer Design

The investigation into electromagnetic forces and stresses in transformers has garnered significant attention recently, as these forces play a pivotal role in the working and stability of the transformer. To optimize the design of a transformer, it is important to properly evaluate the electromagnet...

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Bibliographic Details
Main Authors: Dawood, Kamran, Tursun, Semih, Komurgoz, Guven
Format: Conference Proceeding
Language:English
Subjects:
design optimization
dry-type
Electromagnetic forces
finite element analysis
Geometry
High-voltage techniques
Solid modeling
Stability analysis
Systematics
transformer
Windings
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Summary:The investigation into electromagnetic forces and stresses in transformers has garnered significant attention recently, as these forces play a pivotal role in the working and stability of the transformer. To optimize the design of a transformer, it is important to properly evaluate the electromagnetic forces involved. This paper introduces a method for optimizing the electromagnetic forces in transformers with multiple sections on the high-voltage side. The analysis of the impact of the number of sections on electromagnetic forces in the dry-type transformer was conducted based on three-dimensional finite element models. The findings indicate that increasing the high voltage sections of the dry-type transformer reduces electromagnetic forces, especially axial forces.
ISSN:2832-7675
DOI:10.1109/GPECOM61896.2024.10582721