NUMERICAL SIMULATION OF ELECTRIC CURRENTS, MAGNETIC FIELD AND ELECTRODYNAMIC FORCES IN POWER TRANSFORMER AT EMERGENCY OPERATION USING MATLAB/SIMULINK AND COMSOL
No. 6 (2011), Theoretical Electrical Engineering and Electrophysics
No. 6 (2011)
Theoretical Electrical Engineering and Electrophysics

NUMERICAL SIMULATION OF ELECTRIC CURRENTS, MAGNETIC FIELD AND ELECTRODYNAMIC FORCES IN POWER TRANSFORMER AT EMERGENCY OPERATION USING MATLAB/SIMULINK AND COMSOL

Published 2011-11-07
A.D. Podoltsev
Institute of Electrodynamics National Academy of Sciences of Ukraine, pr. Peremohy, 56, Kyiv, 03057, Ukraine
L.N. Kontorovych
Public Corporation «Zaporozhtransformator», Dnepropetrovskoe shosse, 3, Zaporozhe, 69600, Ukraine
ARTICLE_1_PDF (Українська)

Keywords

power transformer
inrush current
short-circuit current
magnetic field
Matlab/Simulink
Comsol силовой трансформатор
токи включения
токи короткого замыкания
магнитное пoле
MATLAB/SIMULINK
Comsol

How to Cite

[1]
Podoltsev, A. and Kontorovych, L. 2011. NUMERICAL SIMULATION OF ELECTRIC CURRENTS, MAGNETIC FIELD AND ELECTRODYNAMIC FORCES IN POWER TRANSFORMER AT EMERGENCY OPERATION USING MATLAB/SIMULINK AND COMSOL. Tekhnichna Elektrodynamika. 6 (Nov. 2011), 003.
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Abstract

The approach to modeling of electromagnetic processes in power transformer at emergency operation is proposed. It consists of computation of instantaneous currents in transformer windings using Matlab/Simulink, computation of magnetic field in active zone of transformer and determination of distribution of electromagnetic forces in windings by means of code Comsol. Three types of emergency operation of the transformer as applied to specific power system (namely, connection of transformer with saturated core at no-load, single-phase and three-phase short-circuit in a load are considered. As shown, maximum value of forces in the windings are realized under condition of three-phase shortcircuit, and minimum - at single-phase short-circuit. References 8, table 1, figures 9.

ARTICLE_1_PDF (Українська)

References

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