Title :
Influence of inductive coupling between leads on resistivity measurements in multilayer soils
Author :
Ma, J. ; Dawalibi, F.P.
Author_Institution :
Safe Eng. Services & Technol. Ltd., Montreal, Que., Canada
fDate :
10/1/1998 12:00:00 AM
Abstract :
A detailed study of the influence of inductive coupling between current and potential leads on soil resistivity measurements has been carried out. Two commonly used measurement arrangements, Wenner and Schlumberger, are modeled and analyzed at different frequencies and for different soil structures. The study quantifies the coupling between current and potential leads for typical separation distances between the leads for uniform and multilayer soils. The results show that high operating frequencies or small separation distances between leads result in high inductive coupling levels, as expected. The study also shows that when the resistivity of a uniform soil or the bottom layer resistivity of a multilayer soil is low, the measurement error caused by the inductive coupling is large. Coupling levels presented in this paper can be used as a reference to estimate possible errors in soil resistivity measurements
Keywords :
earthing; electrical conductivity measurement; electromagnetic induction; geophysical techniques; measurement errors; soil; Schlumberger method; Wenner method; bottom layer resistivity; current leads; grounding systems; high operating frequencies; inductive coupling; measurement error; multilayer soils; potential leads; resistivity measurements; small separation distances; soil structures; uniform soils; Algorithm design and analysis; Conductivity measurement; Conductors; Current measurement; Electromagnetic measurements; Frequency measurement; Grounding; Nonhomogeneous media; Probes; Soil measurements;
Journal_Title :
Power Delivery, IEEE Transactions on
