Title :
A finite-element analysis of bipolar ionized field
Author :
Abdel-Salam, Mazen ; Al-Hamouz, Zakariya
Author_Institution :
Dept. of Electr. Eng., King Fahd Univ. of Pet. & Miner., Dhahran, Saudi Arabia
Abstract :
This paper describes a new iterative method for the analysis of the bipolar ionized field in HVDC transmission lines without resorting to Deutsch´s assumption. The finite-element technique (FET) is used to solve Poisson´s equation where the constancy of the conductors´ surface field at the corona inception value is directly implemented in the finite-element formulation. The proposed method has been tested on laboratory and full-scale models. The calculated V-I characteristics agreed well with those calculated and measured previously. The dependence of the corona current as well as its monopolar and bipolar components on the conductor height is discussed. The simplicity in computer programming in addition to the low number of iterations required to achieve convergence characterize the proposed method of analysis
Keywords :
HVDC power transmission; corona; electric fields; finite element analysis; ionisation; stochastic processes; transmission line theory; HVDC transmission lines; Poisson´s equation; V-I characteristics; bipolar ionized field; conductor height; conductor surface field; convergence; corona current; corona inception value; finite-element analysis; iterative method; Conductors; Corona; FETs; Finite element methods; HVDC transmission; Iterative methods; Laboratories; Poisson equations; Programming; Testing;
Journal_Title :
Industry Applications, IEEE Transactions on
