Electromagnetic force calculations on a 3-phase autotransformer under time-varying fault by a 3D non-linear finite element code

Author

Arturi, C.M.

Author_Institution

Dipartimento di Elettrotecnica, Politecnico di Milano, Italy

Volume

29

Issue

2

fYear

1993

fDate

3/1/1993 12:00:00 AM

Firstpage

2010

Lastpage

2013

Abstract

An application of a magnetostatic 3-D nonlinear finite-element code to the computation of the axial forces on the windings of a large-power autotransformer due to short-circuit currents is described. The analyzed five-limb core autotransformer has an internal tertiary delta-connected winding. A comparison between the axial forces due to the peak currents of both a time-varying configuration fault and two conventional faults-two-phase earth fault and three-phase earth fault-has been made. The results obtained show that the time-varying fault yields greater axial forces than the conventional faults, particularly on the internal tertiary delta-connected winding

Keywords

autotransformers; finite element analysis; power engineering computing; short-circuit currents; transformer windings; transients; 3-phase autotransformer; EM force calculation; axial forces; current transients; five-limb core autotransformer; internal tertiary delta-connected winding; large-power autotransformer; magnetostatic 3-D nonlinear finite-element code; peak currents; short-circuit currents; three-phase earth fault; time-varying configuration fault; two-phase earth fault; windings; Circuit faults; Circuit simulation; Current density; Earth; Electromagnetic forces; Fault currents; Iron; Magnetostatics; Solid modeling; Windings;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/20.250804

Filename

250804