Abstract
Rain is one of the dominant meteorological factors threatening the outdoor insulation performance of ultra-high voltage (UHV) power stations. Discharge occurring on the polluted surface of post insulators in rain has always been a major concern of power stations. Previous studies have shown that suspended water droplets on the shed edge play an important role in the rain flashover process. In this work, artificial contamination rain flashover tests were carried out in a laboratory on a UHV DC (Ultra-High Voltage Direct Current) large-diameter composite post insulator, which had a rod diameter of 625 mm and alternating sheds (105 mm and 75 mm for larger and smaller shed overhang, respectively). The discharge mechanism was analyzed base on the observation of discharge phenomenon of suspended water-drops on the shed edge. Moreover, simulation models by COMSOL Multiphysics were established to investigate the electric field around sheds and suspended water-drops, as well as the shape change of water droplets on the insulation surface, especially at the edge of the shed. Results show that the shape parameters of water-droplets changed continuously under the combined action of gravity, surface tension, and capillary tension. Suspended water-droplets on the shed edge showed a great influence on the electric field distribution, and the resulting discharge lead to the bridging between sheds. This work paves a new way to revealing the contamination rain flashover mechanism on post insulators and provides critical knowledge for power stations on preventing flashover accidents.
Highlights
The purpose of this paper is to reveal the mechanism of contaminating rain flashovers of a large-diameter post insulator and to provide a new idea for preventing flashover accidents of outdoor insulation equipment in power stations on rainy days
The artificial contamination rain flashover test and simulation analysis were carried out with the same type of large-diameter composite post insulators used in the ultra-high voltage (UHV) converter station
The purpose was to study the characteristics of surface discharge of a large diameter post insulator in rainy weather, the difference between rain flashover and traditional pollution flashover of suspended insulators, and to further investigate the discharge mechanism
Summary
Multiphysics were established to investigate the electric field around sheds and suspended waterdrops, as well as the shape change of water droplets on the insulation surface, especially at the edge of the shed. In order to provide the most stringent data for design and application, the pollution flashover performance of insulators needs to be carried out under the most severe conditions. Based on this consideration, fog becomes one of the main ways to wet the insulator in the artificial pollution test. The aforementioned observation seems to be correct for suspension insulators used in transmission lines It is a different story for post insulators used in power stations.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
