Electrical resistivity tomography (ERT) is one of the important geophysical subsurface-imaging techniques and is widely applied for mineral prospecting and mapping of geological formations. We conduct ERT surveys based on customer's requirements with 48 and 120 electrode systems.

The advance subsurface geophysical investigations are helpful for reducing and optimizing the involvement of traditional direct exploration methods, while aiding in the rapid and economical development of underground construction projects.

Groundwater flow in an underground mine seriously affects its mining planning and engineering geology safety. Our surface geophysical techniques are powerful tools for developing dewatering strategies.

Surface geophysical methods are quick, economical and non-invasive way to determine the characterize subsurface geology which helps to get the information on the subsurface geology such as thickness of the subsurface strata, depth of the bed rock and the presence of the conductive fluids, extent and the depth of water contamination.

Electrical resistivity imaging method technique is extremely useful for investigations of groundwater. ERT can be utilized for multiple applications, including identifying subsurface contaminant plumes, general geologic mapping, locating flow pathways, fractures, and porous zones in subsurface stratigraphy/lithology, geotechnical investigations, sinkhole and karst mapping and aquifer delineation/water quality analyses. The use of resistivity sounding and other techniques is unsuitable in complex geological areas where ERT survey gives excellent results in complex geology.

We offer non-invasive and non-destructive techniques for dam screening or routine monitoring and detection of extreme conditions. Our non-invasive technology provides an excellent solution for identifying water leak paths, internal erosion or fractures, weak zone determination, etc.