Transient surface charging of tri‐post insulator in SF ₆ ‐filled direct current gas‐insulated transmission lines: Effects of electric conductivity, gas pressure, and voltage amplitude

Abstract: The transient surface charging characteristics of a tri‐post insulator in a ± 500 kV direct current gas‐insulated transmission lines (DC‐GIL) filled with sulfur hexafluoride (SF)6 gas are investigated. An improved method is introduced to calculate the surface charge distribution with satisfactory efficiency and accuracy, which involves applying weak form partial differential equation (PDE), simplifying ion transport equation and geometric model. The influence of volume and surface conductivity, gas pressure, v… Show more

“…Because epoxy resin (EP) has good mechanical properties, electrical properties and chemical stability under cryogenic temperature conditions, it is often used for terminal current lead insulation of superconducting power equipment, and its reliability is the key to the stable operation of equipment [3,4]. However, long-term operation in high voltage and cryogenic temperature environment, the gas-solid insulation interface is easy to accumulate charge [5][6][7], causing surface discharge and even flashover. In addition, the performance of the insulation material is affected by temperature, and the charge accumulation phenomenon of current lead insulation is more obvious when working in the wide temperature range from liquid nitrogen temperature to room temperature [8,9].…”

Study on surface discharge of nonlinear conductive epoxy resin/SrTiO₃ composites in 80–300 K temperature zone

“…Because epoxy resin (EP) has good mechanical properties, electrical properties and chemical stability under cryogenic temperature conditions, it is often used for terminal current lead insulation of superconducting power equipment, and its reliability is the key to the stable operation of equipment [3,4]. However, long-term operation in high voltage and cryogenic temperature environment, the gas-solid insulation interface is easy to accumulate charge [5][6][7], causing surface discharge and even flashover. In addition, the performance of the insulation material is affected by temperature, and the charge accumulation phenomenon of current lead insulation is more obvious when working in the wide temperature range from liquid nitrogen temperature to room temperature [8,9].…”

Study on surface discharge of nonlinear conductive epoxy resin/SrTiO₃ composites in 80–300 K temperature zone