Litcius/Paper detail

Electric Field Simulation of Permittivity and Conductivity Graded Materials (ε/σ-FGM) for HVDC GIS Spacers

Rachmawati Rachmawati, H. Kojima, Naoki Hayakawa, K. Kato, N. Zebouchi

2021IEEE Transactions on Dielectrics and Electrical Insulation26 citationsDOIOpen Access PDF

Abstract

This paper discusses the application of the novel technology - functionally graded material (FGM), which combines both spatial permittivity (ε) and conductivity (σ) distributions with the aim to control the electric field around DC-GIS spacer. Some distribution types of ε and/or σ in the spacer bulk, such as U-type and graded to higher conductivity (GHC) are investigated through electric field simulation, in comparison to the uniform spacer with constant ε and σ distributions. The electric field relaxation effect of each distribution type of ε/σ-FGM under DC steady state, DC polarity reversal, DC-on, and lightning impulse voltage superimposed on DC steady state condition are obtained. The results show that ε/σ-FGM with U-type permittivity and GHC-type conductivity distribution of which low σ is applied near the high voltage side of the DC-GIS spacer is the most effective in reducing the maximum electric field under all stated conditions.

Topics & Concepts

Electric fieldPermittivityMaterials scienceConductivityVoltageImpulse (physics)DielectricSteady state (chemistry)Relative permittivityDirect currentElectronic engineeringElectrical engineeringOptoelectronicsComposite materialPhysicsEngineeringChemistryQuantum mechanicsPhysical chemistryHigh voltage insulation and dielectric phenomenaThermal Analysis in Power TransmissionElectromagnetic Simulation and Numerical Methods