Broad-Band Equivalent Circuit of Grounding Grids Buried in Horizontally Two-Layered Soils: A FEM-VF Approach
Publish place: Fifth International Conference on Quality Research in Electrical and Mechatronics Electrical Engineering
Publish Year: 1397
Type: Conference paper
Language: English
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Document National Code:
ELEMECHCONF05_115
Index date: 11 June 2019
Broad-Band Equivalent Circuit of Grounding Grids Buried in Horizontally Two-Layered Soils: A FEM-VF Approach abstract
In this paper, we investigate effect of horizontally two-layered soil on the equivalent circuit of grounding grids in comparision with hemogenous soils. In extracting equivalent circuit, vector fitting method is applied to input impedance of the grid computed via the finite element method (FEM). The simulation results show that the input impedance of the grounding grids in horizontally two-layered soils is placed between the individual ones in hemogenous soils with conductivity values of the first and second layers. This fact show that importance of including different layers of soil in extracting equivalent circuit which can be imported to EMTP software for accurate transient analyses of power systems under lightning return strokes.
Broad-Band Equivalent Circuit of Grounding Grids Buried in Horizontally Two-Layered Soils: A FEM-VF Approach Keywords:
Broad-Band Equivalent Circuit of Grounding Grids Buried in Horizontally Two-Layered Soils: A FEM-VF Approach authors
Ali Bagheri
MSC student from Arak University, Engineering Department, Arak, Iran.
Saeed Reza Ostadzadeh
Assistant Professor from Arak University, Engineering Department, Arak, Iran