Title :
Electric-field calculation for HV insulators using domain-decomposition method
Author_Institution :
Budapest Univ. of Technol. & Econ.
fDate :
3/1/2002 12:00:00 AM
Abstract :
In this paper, a domain decomposition approach for finite-element method calculation of electric field of insulators applied on high-voltage transmission lines is presented. Using this method, the electric stresses acting around and inside on insulators are determined considering the interactions of the three-dimensional environment. First, a large-scale model is used to determine the potential distribution near the insulator. Next, a local domain including the exact model of the insulator is investigated. Finally, a series of iterative solutions is applied on these overlapping domains to reach the correct field distribution along the insulator. This method gives the possibility to examine the effects of various hardware structures such as line and tower configurations and grading devices and ensures modelling of very complex geometry without extra high computational effort
Keywords :
composite insulators; electric fields; finite element analysis; iterative methods; HV insulators; composite insulators; correct field distribution; domain-decomposition method; electric stresses; electric-field calculation; finite-element method calculation; grading devices; hardware structures; high-voltage transmission lines; iterative solutions; large-scale model; line configurations; overlapping domains; three-dimensional environment; tower configurations; Conductors; Dielectrics and electrical insulation; Finite element methods; Geometry; Large-scale systems; Poles and towers; Power transformer insulation; Power transmission lines; Solid modeling; Stress;
Journal_Title :
Magnetics, IEEE Transactions on
