289 / 2021-11-09 09:17:22
Analysis of Transformers Windings Deformation Based on Axial Vibration
Transformer windings deformation,axial vibration signal,fault diagnosis
Final Paper
Chi Xiao / State Grid Weihai Power Supply Company
Wenjian Yu / State Grid Weihai Power Supply Company
Weidong Zhang / State Grid Weihai Power Supply Company
Jun Hou / State Grid Weihai Power Supply Company
Longqi Cong / State Grid Weihai Power Supply Company
Chenlei Liu / Shandong University
The stability of the mechanical structure of transformers plays an important role in the safe operation of entire power grid. As one of the common faults of transformers, minor winding deformation cannot be easily detected and its effects are cumulative. This paper focuses on vibration characteristics of transformer windings under deformation conditions to provide a basis for transformer fault diagnosis. We have developed a finite element model of a three-phase transformer to simulate and to calculate the distribution of winding electromotive force, based on which the winding deformation trend is predicted. We designed three types of deformation. The winding axial vibration signal characteristics were studied in detail under different degrees of deformation. The simulation results show that the maximum force is applied to both ends of the winding, meanwhile the high and low voltage windings are subjected to outward expansion force and inward compression force respectively. When the winding is deformed, the frequency distribution and amplitude of the vibration signal will be changed.
Important Date
  • Conference Date

    Jul 11

    2023

    to

    Aug 18

    2023

  • Nov 10 2021

    Draft paper submission deadline

  • Dec 10 2021

    Registration deadline

  • Dec 11 2021

    Contribution Submission Deadline

Sponsored By
IEEE IAS
Organized By
IEEE IAS Student Chapter of Southwest Jiaotong University (SWJTU)
IEEE IAS Student Chapter of Huazhong University of Science and Technology (HUST)
IEEE PELS (Power Electronics Society) Student Chapter of HUST