Calculation model simplification study for porcelain insulator string potential and grading ring surface electric field distribution of UHV AC transmission line

Abstract

The finite element model of the Ultra High Voltage (UHV) AC transmission line porcelain insulator string potential distribution and grading ring surface electric field distribution calculation has the characteristics of large size, complicated structure and various mediums. To insure the accuracy, related influencing factors should be considered to simplify the model reasonably for high computational efficiency. A whole and simplified 3D finite element models of UHV AC transmission line porcelain insulator string were built. The influencing factors including tower, phase conductors, hardware fittings, yoke plate and phase interaction were considered in the analysis of the potential and electric field distribution. And finally, the reasonable of the simplified model was validated. The results comparison show that building a simplified model of three-phase bundled conductors within a certain length, simplifying the tower reasonably, omitting the hardware fittings and yoke plate and containing only single-phase insulator string model is feasible. The simplified model could replace the whole model to analyze the potential distribution along the porcelain insulator string and the electric field distribution on the grading ring surface, and it can reduce the calculation scale, improve optimization efficiency of insulators string and grading ring parameters.