Title :
Transient electric field calculation of UHV GIS spacer under lightning impulse
Author :
Haoran Wang ; Zongren Peng ; Naiyi Li ; Shiling Zhang ; Zihao Guo ; Siyu Zhang
Author_Institution :
State Key Lab. of Electr. Insulation & Power Equip., Xi´an Jiaotong Univ., Xi´an, China
Abstract :
Transient process takes place when a rapidly changing excitation is imposed on a insulation system, like lightening impulse voltage, polarity reversal voltage, et al. In previous studies transient electric field is calculated considering the relative permittivity as a constant. However, a fast changing excitation contains many high frequency harmonic components under which the permittivity may become quite different. In this paper, a frequency division calculation (FDC) method for transient electric field is proposed. For a fast changing excitation applied to a system, its waveform in frequency domain contains many different frequency harmonic components and its response is the sum of the response of each harmonic component. Different frequency component is calculated with corresponding permittivity, therefore the variation of permittivity with frequency is taken into consideration. FDC method is applied to compute the transient electric field (TEF) distribution of a whole ultra-high voltage (UHV) 1100kV GIS spacer under lightning impulse voltage with finite element software ANSYS. Material parameters for calculation are acquired from experiments. Influences of the frequency properties of dielectric medium on FDC method results are also investigated.
Keywords :
dielectric materials; electric fields; finite element analysis; gas insulated switchgear; lightning; permittivity; ANSYS; FDC method; TEF distribution; UHV GIS spacer; dielectric medium; finite element software; frequency division calculation method; frequency harmonic components; frequency properties; gas insulated switchgear; insulation system; lightning impulse voltage; polarity reversal voltage; relative permittivity; transient electric field calculation; transient electric field distribution; transient process; ultra-high voltage GIS spacer; voltage 1100 kV; Electric fields; Gas insulation; Harmonic analysis; Lightning; Permittivity; Transient analysis; fast changing excitation; frequency division calculation (FDC) method; lightening impulse voltage; transient electric field; ultra high voltage (UHV) GIS spacer; variable relative permittivity;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena (CEIDP), 2014 IEEE Conference on
Conference_Location :
Des Moines, IA
DOI :
10.1109/CEIDP.2014.6995731
