Title :
Transformer leakage flux models for electromagnetic transients: Critical review and validation of a new model
Author :
Lambert, Mathieu ; Martinez, Manuel ; Mahseredjian, J. ; de Leon, Francisco ; Sirois, Frederic
Abstract :
This paper presents experimental validation of the coupled leakage inductance transformer model. It is shown that the coupled approach yields the same results as the indefinite admittance matrix method of BCTRAN. A topologically correct three-phase shell-type transformer model is proposed. The connection points between the leakage and magnetizing inductances are properly identified, which makes the new model superior to BCTRAN and the hybrid models, by providing physical consistency. Additionally, experimental verification of a method to calculate the short-circuit inductances is presented. New explanations on the division of leakage flux and on the mathematical equivalence between the T- and ↑-equivalent models are also given.
Keywords :
EMTP; electric admittance; impedance matrix; inductance; magnetic leakage; magnetisation; power transformers; short-circuit currents; ↑-equivalent model; BCTRAN; T-equivalent model; coupled leakage inductance transformer model; electromagnetic transients; hybrid model; indefinite admittance matrix method; magnetizing inductance; mathematical equivalence; short-circuit inductance calculation; three phase shell type transformer model; transformer leakage flux model; Admittance; Inductance; Magnetic flux; Mathematical model; Object recognition;
Conference_Titel :
PES General Meeting | Conference & Exposition, 2014 IEEE
Conference_Location :
National Harbor, MD
DOI :
10.1109/PESGM.2014.6939321
