Open Access
Subscription Access
Movement of Metallic Particle Contamination in a Gas Insulated Busduct under Dielectric Coated Enclosure with Electromagnetic Field Effect
The purpose of coating the inside surface of gas insulated busduct (GIB) enclosure with a dielectric material reduces the deleterious effect of electrode surface roughness, impedes the development of metallic particle initiated micro discharges, increases the field required to lift particles, and reduces the charge acquired by particles. The performance of particle contaminated compressed gas systems with dielectric coated electrodes are analyzed in this paper. The equations governing the motion of the particle due to its electromagnetic field effect has been formulated to obtain the particle trajectories. Hence simulation has been carried out to study the effect of fields on the motion of the particle with and without electromagnetic field effect under dielectric coated enclosure. Particle trajectories obtained for various voltages of aluminum, copper, and silver particles of size 12 mm in length and 0.2mm as radius present on the enclosure. The simulation results have been presented and analyzed.
Keywords
Metallic Particles, Electric Field, Electromagnetic, Gas Insulated Busduct
User
Information
- Anis H and Srivastava KD (1989) Breakdown characteristics of dielectric coated electrodes in sulphur hexafluoride gas with particle contamination. 6th Int. Symp. High Voltage Engg., 32.06, New Orleans, LA, USA.
- Anis H and Srivastava KD (1995) Free conducting particles in compressed gas insulation. IEEE Trans. on Electrical Insulation. EI-16, 327- 338.
- Kumar GVN, Amaranath J, Singh BP and Srivastava KD (2007) Electric field effect on metallic particle contamination in a common enclosure gas insulated busduct. IEEE Trans. on Dielectrics & Electrical Insulation. 14(2), 334-340.
- Laghari JR and Qureshi AH (1981) A review of particle contaminated gas breakdown. IEEE Trans. Electrical Insulation. EI-16(5), 388-398.
- Morcos MM, Zhang S, Srivastava KD and Gubanski SM (2000) Dynamics of metallic particle contamination in GIS with dielectric coating electrodes. IEEE Trans. Power Delivery. 15, 455-460.
- Prakash KS, Srivastava KD and Morcos MM (1997) Movement of particles in compressed SF6 GIS with dielectric coated enclosure. IEEE Trans. on Dielectrics & Electrical Insulation. 4(3), 344-347.
- Srivastava KD and Van Heeswi RJ (1985) Dielectric coatings, effect of break down and particle movement in GITL systems. IEEE Trans. on Power Apparatus & Systems. PAS-104, 1, 22-31.
Abstract Views: 510
PDF Views: 135