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Vibration Estimation in Power Transformers Based on Dynamic Magnetostriction Model and Finite-Element Analysis

Yang Li, Yongjian Li, Jianguo Zhu, Lihua Zhu, Chengcheng Liu

2021IEEE Transactions on Applied Superconductivity21 citationsDOI

Abstract

This paper presents a modeling approach for estimating the vibration of power transformers based on a magnetostriction model and maxwell stress calculation. The magnetostriction model, accounting for the dynamic hysteresis behavior, is constructed by combining the Becker-Doring crystal magnetostriction model and J-A dynamic hysteresis model. By incorporating the proposed model into the finite-element method (FEM), both the Maxwell stress and the magnetostriction force in each mesh element can be readily obtained simultaneously. To verify the calculation method, the vibration of a three-phase transformer prototype is measured and compared with simulated results. It demonstrated that the proposed method is accurate enough to predict the vibration of power transformers.

Topics & Concepts

MagnetostrictionFinite element methodTransformerVibrationMaterials scienceComputer scienceMechanicsMagnetic fieldAcousticsStructural engineeringPhysicsVoltageElectrical engineeringEngineeringQuantum mechanicsMagnetic Properties and ApplicationsElectric Motor Design and AnalysisPower Quality and Harmonics
Vibration Estimation in Power Transformers Based on Dynamic Magnetostriction Model and Finite-Element Analysis | Litcius