Title :
Computation of electric field of 100kV FGM spacer for gas insulated bus duct applications
Author :
Gopichand, Naik M. ; Amarnath, J. ; Kamakshiah, S. ; Varaprasadarao, A.
Author_Institution :
Dept. of Electr. Eng., Andhra Univ., Visakhapatnam, India
Abstract :
In this paper application of functionally gradient material (FGM) for optimized design of single phase gas insulated bus duct. Modeling of cone spacer in SF6 gas insulated substation (GIS) bus duct and extensive electrostatic field stress distribution analyses using Finite Element Method (FEM) is illustrated in this paper. A unique feature of this design is the simulation of electric field distribution on cone insulator with varying relative permittivity εr for supporting high voltage bus duct. The electric field distribution over homogeneous insulator and FGM insulator with optimized relative permittivity distribution is explored with analyses results.
Keywords :
electric fields; finite element analysis; gas insulated substations; insulators; permittivity; FEM; FGM insulator; FGM spacer; SF6 gas insulated substation; cone insulator; cone spacer modelling; electric field distribution; extensive electrostatic field stress distribution analyses; finite element method; functionally gradient material; high voltage bus duct; homogeneous insulator; optimized relative permittivity distribution; single phase gas insulated bus duct; voltage 100 kV; Educational institutions; Electric fields; Gas insulation; Insulators; Materials; Permittivity; Electric Field distribution; FEM; FGM; GIS; cone spacer;
Conference_Titel :
Power and Energy Systems (ICPS), 2011 International Conference on
Conference_Location :
Chennai
Print_ISBN :
INAVLID ISBN
DOI :
10.1109/ICPES.2011.6156642
