Modeling and simulation of porcelain disc insulators using finite element method in OPERA software

Lalitha, M. Padma; Kumar, K. Venkata Pavan; Samala, Venkatesu

doi:10.1109/aicera.2014.6908243

Cited by 4 publications

(1 citation statement)

References 5 publications

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“…Literature studies on space charge not only limited to experimental studies but also simulation studies [10][11][12]. The uneven distribution of voltage and electric field along a sting insulator found in [13] is due to the presence of coupling capacitance amongst discs of the insulator string. The charge distribution on the glass insulator surfaces was investigated using QuickField TM Professional software in [14] shows the polarity of charge swinging occurs at the centre of the suspension string insulator of I-type.…”

Section: Introductionmentioning

confidence: 99%

Comparison on space charge and voltage distribution of high voltage insulator subjected to different contamination levels

Samuri¹,

Othman²,

Piah³

et al. 2019

Bulletin EEI

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This paper presents the study of space charge distribution on high voltage (HV) insulators under different levels of contamination. Two types of HV insulators were used in this work particularly glass and porcelain insulators. A string of 4-unit glass and porcelain insulators with 33 kV of lines voltage was designed and simulated using QuickfieldTM software. Four levels of contamination layer with different thickness have been applied on the surface of insulators to observe the effect of space charge distribution. Simulation results show that different types of insulators used at transmission lines give different effects on charge and voltage distribution. It is also found that the amplitude of charge for a single porcelain insulator is much higher compared to a single glass insulator. Similarly for a string of 4-unit insulators, the voltage distribution along the creepage distance of porcelain insulators is much higher compared to glass insulators under all contamination levels.

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