Title :
Zinc oxide-praseodymium oxide elements for surge arrestors
Author :
Mukae, K. ; Tsuda, Kazuhiko ; Shiga, Satoru
Author_Institution :
Fuji Electr. Corp. Res & Dev. Ltd., Yokosuka, Japan
fDate :
4/1/1988 12:00:00 AM
Abstract :
Zinc oxide elements have been developed which contain praseodymium oxide rather than bismuth oxide as a principal additive component. These elements have been used to produce gapless surge arresters with rated voltage up to 360 kV. The two-phase microstructure of these elements increases the active area of grain boundaries, which is the origin of nonlinearity in the V-I relation. This increases the effective area of the electrodes, resulting in a higher apparent dielectric constant by a factor of 1.5 and a higher capability for short-wave front-discharge withstand. The absorption capability for long-duration discharge was improved by obtaining higher resistance at the peripheral of the element than at the inner area
Keywords :
praseodymium compounds; surge protection; zinc compounds; 360 kV; Pr6O11; ZnO; absorption capability; dielectric constant; electrodes; gapless surge arresters; grain boundaries; rated voltage; short-wave front-discharge withstand; surge protection; two-phase microstructure; Additives; Arresters; Bismuth; Electrodes; Grain boundaries; High-K gate dielectrics; Microstructure; Surges; Voltage; Zinc oxide;
Journal_Title :
Power Delivery, IEEE Transactions on
