Thermal analysis for multi-conductor bundle in high voltage overhead transmission lines under the effect of strong wind

Abstract

Bundle conductors are widely used in HV transmission lines to suppress the corona discharge and reduce the line reactance. To determine its current ampacity of multi-conductor bundle, the thermal analysis is indispensable. A three-dimensional flow-thermal coupling model of multi-conductor bundle considering the effect of strong wind is developed in our study. Using the finite element method, both the temperature field and the fluid field are computed; the characteristics for the multi-physics fields are discussed; the interaction between the fields as well as the mutual influence between subconductors are elucidated. Moreover, a set of sensitivity analysis have been performed, and the effects of load current, conductor spacing, wind speed on temperature field and fluid field are investigated. Based on the pitch-diameter ratio, a novel method to improve the thermal performance of multi-conductor bundle is proposed. Finally, the optimized structure is obtained, and the current ampacity is expected to be greatly enhanced.