Open Physics (Dec 2017)

Lamination effects on a 3D model of the magnetic core of power transformers

  • Poveda-Lerma Antonio,
  • Serrano-Callergues Guillermo,
  • Riera-Guasp Martin,
  • Pineda-Sanchez Manuel,
  • Puche-Panadero Ruben,
  • Perez-Cruz Juan

DOI
https://doi.org/10.1515/phys-2017-0124
Journal volume & issue
Vol. 15, no. 1
pp. 997 – 1003

Abstract

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In this paper the lamination effect on the model of a power transformer’s core with stacked E-I structure is analyzed. The distribution of the magnetic flux in the laminations depends on the stacking method. In this work it is shown, using a 3D FEM model and an experimental prototype, that the non-uniform distribution of the flux in a laminated E-I core with alternate-lap joint stack increases substantially the average value of the magnetic flux density in the core, compared with a butt joint stack. Both the simulated model and the experimental tests show that the presence of constructive air-gaps in the E-I junctions gives rise to a zig-zag flux in the depth direction. This inter-lamination flux reduces the magnetic flux density in the I-pieces and increases substantially the magnetic flux density in the E-pieces, with highly saturated points that traditional 2D analysis cannot reproduce. The relation between the number of laminations included in the model, and the computational resourses needed to build it, is also evaluated in this work.

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