Examination of simple analytical method for calculating 60-Hz magnetic field in power substations

Abstract

In the last decade, increasing attention has been paid to ELF (Extremely Low Frequency) electromagnetic environments in work areas as well as in and near homes, regarding their interaction both with electric apparatus such as CRT's and with biological systems. Experimental and theoretical analyses are presented of 60 Hz magnetic field (B-field) characteristics at and near ground level in both 187/66-kV EHV and 66/6.6-kV HV power substations. Experimental results of B-field profiles along horizontal paths as well as harmonic contents in B-field waveforms at several positions are shown and discussed. Furthermore, analytical B-field profiles calculated by using a B-field approximation method based on Biot-Savart law are shown and compared with the measured ones. The comparisons verify that the assumptions employed are applicable to the substation B-field calculation, and that the B-field calculation method employed can estimate B-field in EHV and HV power substation to significant accuracy, except for areas where localized B-field sources, such as power transformers and underground power cables, exist. The analytical profiles of three orthogonal components of B-field are also described in terms of equiflux contour maps, which show 3-D characteristics of B-field in power substations.