Simulation of propagation characteristics in three-phase-type GIS

Based on the Helmholtz equation, the wave functionsof three-phase-common-type tank GIS are solved. It is shown that, due to the existence of the structural misalignment, any single normal mode of a perfectcoaxial structure no longer simultaneously satisfies both the outer and inner boundary conditio...

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Hauptverfasser:	Haifeng Ye, Yong Qian, Gehao Sheng, Yue Hu, Xiuchen Jiang, Jing Chen, WanJian Bai
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Electric fields Equations Fasteners finite element analysis Gas insulation Mathematical model Partial discharge (PD) Partial discharges Resonant frequency three-phase-type ultra high frequency (UHF)
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creator	Haifeng Ye Yong Qian Gehao Sheng Yue Hu Xiuchen Jiang Jing Chen WanJian Bai
description	Based on the Helmholtz equation, the wave functionsof three-phase-common-type tank GIS are solved. It is shown that, due to the existence of the structural misalignment, any single normal mode of a perfectcoaxial structure no longer simultaneously satisfies both the outer and inner boundary conditions;Through the finite element analysis (FFA), the electric field distribution of the partial discharge(PD) electromagnetic wave(EM-wave) leak from insulating spacer and the effect of the metal bolts on the leaking EM-wave are analyzed, the simulation shows that when the PD occurs between the high voltage conductor and the tank, theelectric field distribution of PD EM-wave leaking from the insulating spacer adjacent to the PD source is non-uniform, which is different from the situation of PD occurs between the high voltage conductors. Thestructure formed by bolts and flanges has shielding effectiveness to the leaking EM-wave. Theshielding effectiveness to the leaking EM-wave's low frequency componentis higher than that to the high frequency component. Also the structure forms a slot antenna and has a resonant frequency, at which the output of externally leaking EM-wave is higher and enables more sensitive measurement.
doi_str_mv	10.1109/CMD.2012.6416329
format	Conference Proceeding
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It is shown that, due to the existence of the structural misalignment, any single normal mode of a perfectcoaxial structure no longer simultaneously satisfies both the outer and inner boundary conditions;Through the finite element analysis (FFA), the electric field distribution of the partial discharge(PD) electromagnetic wave(EM-wave) leak from insulating spacer and the effect of the metal bolts on the leaking EM-wave are analyzed, the simulation shows that when the PD occurs between the high voltage conductor and the tank, theelectric field distribution of PD EM-wave leaking from the insulating spacer adjacent to the PD source is non-uniform, which is different from the situation of PD occurs between the high voltage conductors. Thestructure formed by bolts and flanges has shielding effectiveness to the leaking EM-wave. Theshielding effectiveness to the leaking EM-wave's low frequency componentis higher than that to the high frequency component. Also the structure forms a slot antenna and has a resonant frequency, at which the output of externally leaking EM-wave is higher and enables more sensitive measurement.</abstract><pub>IEEE</pub><doi>10.1109/CMD.2012.6416329</doi><tpages>6</tpages></addata></record>
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subjects	Electric fields Equations Fasteners finite element analysis Gas insulation Mathematical model Partial discharge (PD) Partial discharges Resonant frequency three-phase-type ultra high frequency (UHF)
title	Simulation of propagation characteristics in three-phase-type GIS
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