论文信息 - Analysis of Transient Electric Field and Charge Density of Converter Transformer Under Polarity Reversal Voltage

Analysis of Transient Electric Field and Charge Density of Converter Transformer Under Polarity Reversal Voltage

A finite element method, which directly uses the node electric scalar potentials and node charge densities as variables, is used to predict the electric field and charge density distributions under polarity reversal (PR) voltage. The penalty method is adopted to impose the Dirichlet boundary values and the Crank-Nicolson (C-N) algorithm is then used to solve the transient equation. The surface node charge densities on the perfectly conducting boundaries are adopted to accurately obtain the normal electric field strengths. The method is tested by a two layer coaxial model and applied to analyze the linear and nonlinear transient electric fields and boundary charge densities of a ±500 kV converter transformer under PR voltage.

[1] Z. Badics. Charge Density-Scalar Potential Formulation for Adaptive Time-Integration of Nonlinear Electroquasistatic Problems , 2010, IEEE Transactions on Magnetics.

[2] L. Gang. A State-space Finite Element Method for the Calculation of Transient Electrical Field in Oil-paper Insulation Construction , 2010 .

[3] Masayuki Hatano,et al. Dielectric strength of transformer insulation at DC polarity reversal , 1997 .

[4] Jian-Ming Jin,et al. The Finite Element Method in Electromagnetics , 1993 .

[5] K. Wen,et al. A calculation method and some features of transient field under polarity reversal voltage in HVDC insulation , 1993 .

[6] W. N. Kennedy,et al. Recommended Dielectric Tests and Test Procedures for Converter Transformers and Smoothing Reactors , 1986, IEEE Transactions on Power Delivery.

[7] J. Ozawa,et al. DC Flashover Voltage Characeteristics and Their Calculation Method for Oil-Immersed Insulation Systems in HVDC Transformers , 1986, IEEE Transactions on Power Delivery.

[8] J. Ozawa,et al. DC Flashover Voltage Characteristics and Their Calculation Method for Oil-Immersed Insulation Systems in HVDC Transformers , 1986, IEEE Power Engineering Review.

[9] M. Honda,et al. HVDC Breakdown of Transformer Oil and the Effect of Space Charge on it , 1983, IEEE Transactions on Power Apparatus and Systems.