EXPLORATION GEOPHYSICS
Precision Solutions for
Exploration Geophysics
Our company provides effective and reliable solutions using the most suitable Geophysical Electrical (DC Resistivity/IP), Electromagnetic (CSAMT, CSEM, TEM), and Potential Field (Gravity and Magnetic) methods.
Mineral and Coal Exploration
Geothermal Exploration
Using advanced electromagnetic methods (MT, CSAMT/CSEM) and state-of-the-art acquisition systems, we investigate geothermal resources at depth. Through inversion of measured geophysical data, we generate detailed 3D subsurface models that reveal the geometry and characteristics of geothermal reservoirs down to 10 kilometers. These models enable the accurate identification of optimal production and reinjection well locations, reducing exploration risk and improving project success.
Oil and Gas Exploration
Using advanced electromagnetic geophysical methods (MT, CSAMT/CSEM, and TEM), we generate detailed 3D resistivity and conductivity models of subsurface structures at depths exceeding 5 kilometers. These models enable the accurate delineation of oil, water, gas, and CO₂-bearing formations, helping identify prospective targets with confidence. By efficiently screening large areas, we narrow down zones for detailed 3D seismic surveys, significantly reducing exploration costs and project risk.
Reservoir Geophysics
We use advanced geophysical methods and modeling techniques to identify and evaluate potential CO₂ storage sites. Through comprehensive investigations employing Magnetotelluric (MT) and Controlled Source Electromagnetic (CSEM) methods, we assess reservoir integrity, storage capacity, and long-term containment potential. Our studies provide critical insights into caprock sealing properties, reservoir depth, and potential leakage pathways, supporting the safe and effective implementation of carbon capture and storage (CCS) projects.
Hydrogeophysics
We conduct advanced 3D geophysical investigations of groundwater resources in both alluvial and bedrock environments. Our services also support the selection of optimal dam sites, including underground dam projects, through detailed subsurface characterization. In addition, we identify cavities, fracture zones, and karstic features within dam reservoirs and pond areas, helping ensure the safety, stability, and long-term performance of water infrastructure projects.