|
|
Resistivity surveys measure variations in the electrical resistivity of the ground, by applying small electric currents across arrays of ground electrodes. The survey data is processed to produce graphic depth sections of the thickness and resistivity of subsurface electrical layers. The resistivity sections are correlated with ground interfaces such as soil and fill layers or soil-bedrock interfaces, to provide engineers with detailed information on subsurface ground conditions.
Resistivity Imaging is particularly useful in clayey ground where methods such as Ground Penetrating Radar (GPR) are less effective, and helps to define transitional boundaries which can be difficult to detect using other geophysical methods.
Traditional resistivity surveys use four equi-spaced electrodes in a standard configuration. A low frequency current is applied across the outer electrodes and the voltage measured across the inner electrodes. The voltage is converted into a resistivity value representing average ground resistivity between the electrodes.
Depth probes provide models of vertical variations in ground resistivity using an expanding electrode array offset from a central reference point. Depth penetration increases with wider electrode separation, providing a one dimensional layered resistivity model. Composite sections are produced by interpolating between depth probes taken at regular intervals along a survey line.
Resistivity Imaging is an advanced development of the method. Enhanced data quality and resolution provide continuous two-dimensional resistivity models. Fifty or more electrodes are set-out in a regularly spaced array, connected to a computer-controlled resistivity meter via multicore cables.
|
Advanced data processing using specialist inversion software removes distortions caused by the effects of electrode geometry, to produce a high resolution image of the variations in ground resistivity with depth. The model is contoured using a colour scale to produce a two-dimensional cross-sectional model of ground resistivity. Our geophysicists use the final resistivity imaging section to provide clients with a detailed interpretation of the ground conditions on site