中文摘要：

大地电性结构的横向变化会对磁暴时的感应地电流和地面电磁场产生影响.本文假设扰动地磁场变化的源为地面以上一定高度的面电流,以某一典型层状大地电导率结构为基础,构造含有电导率横向突变的地电模型.针对感应电流的方向与横向分界面平行的情形,采用伽辽金有限元法对电导率横向突变处的感应地电场进行了分析,揭示了电导率横向差异产生的趋肤效应和邻近效应的机理,针对与电性结构分界面平行的输电线路,从评估地磁感应电流的角度讨论了影响的严重程度和范围.

英文摘要：

The induced geoelectric fields and telluric currents generated during geomagnetic storms will be distorted by lateral variations of the Earth conductivity.The power system located at the coastal area near the coastline or at the interface of different continental plates is more sensitive to this distortion.So far the＂coast effect＂has been considered as the most important effect for GIC research which explains the geoelectric field enhancement at the inland near the coast.Analytical methods such as plane wave method or complex image method cannot be used to model the conductivity structure with lateral variations or calculate the geoelectric field near the conductivity horizontal interface. Numerical methods are useful tools to analyze complicated electromagnetic field problems.In this paper,a thin sheet current with infinite width located at100 km above the Earth′s surface is assumed to represent the source of geomagnetic variations and is harmonic with the amplitude of 1A/m at different frequencies.Three Earth conductivitystructures are modelled where the basic model is horizontal uniform for results comparisons.The second structure has the same exact thicknesses and conductivity values with the basic one on one side and five times greater values on the other side to represent conductivity varying from low to high.Similar structure representing conductivity from high to low can be obtained by assuming five times lower values on the other side.The Galerkin finite element method is applied to analyze the case where the induced telluric currents are flowing parallel to the conductivity interface and four-node quadrilateral element is chosen to mesh the conductivity regions.The computational results show that the abrupt changes of conductivities have influences on the induced telluric currents,which can be classified as proximity effect and skin effect.The proximity effect shows that the geoelectric field and the induced current density decrease when the conductivity varies from low to high.The minimum of geoe