Title :
Dynamics of metallic particle contaminants in GIS with dielectric-coated electrodes
Author :
Morcos, M.M. ; Zhang, S. ; Srivastava, K.D. ; Guban, S.M.
Author_Institution :
Kansas State Univ., Manhattan, KS, USA
fDate :
4/1/2000 12:00:00 AM
Abstract :
Electrical insulation performance of compressed gas insulated switchgear (GIS) and gas insulated transmission line (GITL) systems is adversely affected by metallic particle contaminants. Dielectric coatings applied to the inside surface of the outer enclosure of a coaxial GIS/GITL system improve the insulation performance in several ways. Coating has the effect of smoothing the electrode surface and reducing the prebreakdown current in the gas gap. Also, the electrostatic charge acquired by a particle is reduced and hence the range of its motion under an applied power frequency field is inhibited. The movement of such particles is complex and dependent on several parameters. In this paper the dynamics of wire particles in a coaxial system under AC voltage is studied when the inside surface of the outer enclosure of a coaxial GIS/GITL system is coated with a high resistance material. Suggestions for reducing the particle excursion in GIS/GITL systems are discussed
Keywords :
electric breakdown; electrodes; gas insulated switchgear; insulation testing; switchgear testing; coaxial GIS/GITL system; compressed gas insulated switchgear; dielectric-coated electrodes; electrode surface smoothing; electrostatic charge; gas insulated transmission line; insulation performance; metallic particle contaminants dynamics; power frequency field; prebreakdown current reduction; Coatings; Coaxial components; Dielectrics and electrical insulation; Gas insulated transmission lines; Gas insulation; Geographic Information Systems; Smoothing methods; Surface contamination; Surface resistance; Switchgear;
Journal_Title :
Power Delivery, IEEE Transactions on
