Title :
The impact of inrush currents on the mechanical stress of high voltage power transformer coils
Author :
Steurer, Michael ; Fröhlich, Klaus
Author_Institution :
High Voltage Lab, Swiss Fed. Inst. of Technol., Zurich, Switzerland
fDate :
1/1/2002 12:00:00 AM
Abstract :
From failure experience on power transformers, it was very often suspected that inrush currents, occurring when energizing unloaded transformers, were reason for damage. In this paper, it was investigated how mechanical forces within the transformer coils build up under inrush compared to those occurring at short circuit. Two-dimensional and three-dimensional computer modeling for a real 268 MVA, 525/17.75 kV three-legged step up transformer was employed. The results show that inrush current peaks of 70% of the rated short circuit current cause local forces in the same order of magnitude as those at short circuit. The resulting force summed up over the high voltage coil is even three times higher. Although inrush currents normally are smaller, the forces can have similar amplitudes as those at short circuit however with longer exposure time. Therefore, care has to be taken to avoid such high inrush currents. Today controlled switching offers an elegant and practical solution
Keywords :
coils; electromagnetic fields; electromagnetic forces; finite element analysis; power engineering computing; power system transients; power transformers; short-circuit currents; switching; transformer windings; 17.75 kV; 268 MVA; 525 kV; computer modeling; controlled switching; electromagnetic forces; failure experience; finite element method; high-voltage power transformer coils; inrush current peaks; inrush currents impact; mechanical forces; mechanical stress; short circuit current; three-legged step up transformer; Circuit faults; Coils; Conductors; Costs; Electromagnetic forces; Power transformer insulation; Power transformers; Short circuit currents; Stress; Surge protection;
Journal_Title :
Power Delivery, IEEE Transactions on
