Title :
High Efficiency FEM Calculation of the Ionized Field Under HVDC Transmission Lines
Author :
Zhen, Yongzan ; Cui, Xiang ; Lu, Tiebing ; Zhou, Xiangxian ; Luo, Zhaonan
Author_Institution :
Sch. of Electr. & Electron. Eng., North China Electr. Power Univ., Beijing, China
Abstract :
As many high voltage direct current (HVDC) projects are constructed in China, the ionized field problem is of wide concern. The upstream finite element method (Upstream FEM) has good adaptability and is widely used to analyze the ionized field under HVDC lines. Galerkin´s scheme is used to improve the charge density precision. Poisson´s equation solution technique and charge density updating strategy are adopted to accelerate the calculation. The charge density precision and the calculation efficiency is remarkably improved. For the 15 000-nodes-scale ionized field problem of bipolar-6-bundled HVDC lines, the calculation time is less than 5 s. The algorithm also shows good robustness to the charge density initial value in the numerical cases.
Keywords :
Galerkin method; HVDC power transmission; Poisson equation; finite element analysis; power transmission lines; China; FEM calculation; Galerkin scheme; HVDC transmission lines; Poisson equation solution; bipolar-6-bundled HVDC lines; charge density precision; high voltage direct current projects; ionized field problem; upstream finite element method; Conductors; Equations; Finite element methods; HVDC transmission; Mathematical model; Power transmission lines; Space charge; Calculation efficiency; finite element method; high voltage direct current (HVDC); ionized field;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2172195
