Title :
Efficient ground grid designs in layered soils
Author :
Lee, Hyung-Soo ; Kim, Jung-Hoon ; Dawalibi, Farid P. ; Ma, Jinxi
Author_Institution :
Korea Ind. Safety Corp., Inchon, South Korea
fDate :
7/1/1998 12:00:00 AM
Abstract :
A detailed analysis of the effects of ground grid configuration on grounding performance has been carried out for uniform and horizontally stratified soils with multiple layers. The results of the analysis reveal that the most efficient and cost-effective design is highly dependent on soil structure type and characteristics. In the absence of ground rods, grounding grids with uniform mesh size are quite efficient in soils having a thin (relative to grid size) high resistivity (relative to the lower layers) top soil, while grids with small mesh size at the periphery of the grid provide optimum performance in uniform soils and soils with low resistivity top soils. Ground rods were found to be effective only when a significant portion of their length is in contact with a low resistivity soil, as expected
Keywords :
earth electrodes; electrical conductivity; soil; computerised parameteric analysis; ground grid designs; ground potential rise; grounding performance; horizontally stratified soils; layered soils; multiple layer soil; small mesh size grids; soil structure type; thin high resistivity top soil; touch voltages; uniform mesh size; uniform soils; Conductivity; Conductors; Grid computing; Grounding; Guidelines; Load flow; Load flow analysis; Safety; Shape; Soil;
Journal_Title :
Power Delivery, IEEE Transactions on
