Finite difference method for electric field optimization in high voltage power transformer bushings using engineering simulation and 3D design program

Abstract: The electric field optimization minimizing the field strength on an electrode surface and providing its uniformity is important in designing high voltage power transformer bushings and other apparatus from the viewpoint of efficient utilization of the electric field space. The high voltage power transformer bushing with cylinder electrode system has been designed and tested in this investigation. It was found that the insulation method of the cylinder electrode was the most important factor to lower streamer i… Show more

“…In normal operation, the current between 100 A and 1000 A can flow through the guide rods in the primary coil of the transformer. In this case, the current amount in the secondary coil of the transformer is usually at the level of 5 A [17]. For this reason, the losses on the secondary coil of the medium voltage transformer are neglected.…”

Finite Element Analysis of Thermal Performance Behavior in Medium Voltage Current Transformer

“…In normal operation, the current between 100 A and 1000 A can flow through the guide rods in the primary coil of the transformer. In this case, the current amount in the secondary coil of the transformer is usually at the level of 5 A [17]. For this reason, the losses on the secondary coil of the medium voltage transformer are neglected.…”

Finite Element Analysis of Thermal Performance Behavior in Medium Voltage Current Transformer