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Article type: Research Article
Authors: Castañeda Hernandez, Russby Lilianaa | Diaz Florez, Guillermo Andresa; | Perez Gelves, Jhon Jairoa | Mombello, Enrique Estebanb
Affiliations: [a] Electrical Engineering Department, Universidad de la Salle, Bogota, Colombia | [b] CONICET - Universidad Nacional de San Juan, San Juan, Argentina
Correspondence: [*] Corresponding author: Guillermo A. Diaz Florez, Universidad de la Salle, Cra. 2 No 10-70 piso 7 bloque C, Bogota, Cundinamarca, 111711 Colombia. Tel.: +571 3535360, ext.: 2528-2529; E-mail: guandiaz@unisalle.edu.co
Abstract: Wound-core transformers are characterized by their economical and efficient design and are therefore widely used in power distribution systems; for this reason it is of paramount importance to determine their electrical characteristics. One of the most important parameters in these transformers is leakage reactance, since this is what largely determines short-circuit currents and voltage regulation. And yet the authors have found a conspicuous gap in the scientific literature concerning analytical formulations for the calculation of leakage reactance in wound-core transformers. In order to fill this gap, the authors propose a formula in terms of leakage areas and the Rogowski’s height of the windings. A geometric model of the active part of the transformer is proposed which allows for the exact calculation of the leakage areas. The results of the proposed formula are compared with simulations with the finite element method in 3D (FEM3D) and with measurements in eight real case studies. It is concluded that although the FEM3D calculates the closest results to measurements, the proposed formula reported sufficiently accurate results for transformer design purposes.
Keywords: Distribution transformer, leakage reactance, analytic formulation, finite element method
DOI: 10.3233/JAE-190140
Journal: International Journal of Applied Electromagnetics and Mechanics, vol. 65, no. 2, pp. 197-213, 2021
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