Fast demagnetization method for power transformers combined with residual flux measurement

Fast demagnetization method for power transformers combined with residual flux measurement

When power transformers are re-energized, the inrush current may be generated and damage electrical equipment. In order to suppress the generation of serious inrush current, the residual flux (RF) in the power transformer core needs to be eliminated. However, existing methods require first magnetizi...

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Bibliographic Details
Main Authors: Yuzhan Ren, Chengcheng Liu, Youhua Wang
Format: Article
Language:English
Published: Elsevier 2025-03-01
Series:International Journal of Electrical Power & Energy Systems
Subjects:
Power transformer
Inrush current
Residual flux
Demagnetization
Online Access:http://www.sciencedirect.com/science/article/pii/S0142061524006550
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Summary:When power transformers are re-energized, the inrush current may be generated and damage electrical equipment. In order to suppress the generation of serious inrush current, the residual flux (RF) in the power transformer core needs to be eliminated. However, existing methods require first magnetizing the core to saturation to calibrate the magnetic flux due to the unknown residual flux density (Br), which increases demagnetization power and time. In addition, the lack of effective Br measurement methods makes it impossible to evaluate the demagnetization effect. Therefore, this paper proposes a demagnetization method that considers the amount of Br, which achieves accurate measurement and quantitative elimination of Br in the transformer core. The measurement is first performed by applying DC voltages of different polarities, and then a specific demagnetization DC voltage is applied based on the measurement results. The magnetic flux in the transformer core is reduced directly to zero without calibrating flux throughout the entire process. Experimental studies are performed on core-type transformers and 10 kV, 250 kVA power transformers, and the experiment results show that the Br is reduced to within 1 % of the knee-point flux and the measurement error is within 4 %, which proves the effectiveness of the proposed method. Compared with existing methods, the demagnetization time can be reduced to less than 1 s and the demagnetization power can be reduced by 95 % using the proposed method.
ISSN:0142-0615

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