Title :
Evaluation of K-factor based on insulation characteristics under non-standard lightning impulse waveforms
Author :
Okabe, Shigemitsu ; Tsuboi, Toshihiro ; Takami, Jun
Author_Institution :
High Voltage&Insulation Group, Tokyo Electr. Power Co., Yokohama, Japan
fDate :
8/1/2009 12:00:00 AM
Abstract :
The IEC, which defines the lightning impulse test methods for electric power equipment, is about to introduce the K-factor method for evaluating overshoot of lightning impulse waveforms. There is an urgent need to examine the K-factor method using such parameters as the types and sizes of insulating media and structures. This paper evaluates the K-factor method in the "high-voltage test techniques" using the insulation characteristics of overshoot waveforms in non-standard lightning impulse waveforms. The insulation elements of oil-immersed transformers and gas-insulated switchgear (GIS) used in this study are oil gaps, turn-to-turn insulations, and gas gaps (field utilization factor ¿ = 0.45 and 0.60), all of which showed results close to the proposed K-factor curve.
Keywords :
gas insulated switchgear; high-voltage techniques; impulse testing; lightning; transformer oil; K-factor evaluation; electric power equipment; gas-insulated switchgear; high-voltage test techniques; impulse test methods; insulating media; insulation characteristics; nonstandard lightning impulse waveforms; oil-immersed transformers; overshoot waveforms; Gas insulation; Geographic Information Systems; IEC; Impulse testing; Insulation testing; Lightning; Oil insulation; Petroleum; Power transformer insulation; Switchgear; Lightning impulse test, K-factor, overshoot waveform, IEC 60060-1.;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
DOI :
10.1109/TDEI.2009.5211865
