3D Geologic mapping using Electromagnetics
The Technology
How 3DGEm works
3DGEm captures ambient ElectroMagnetic field waves using triaxial magnetic sensors and biaxial or triaxial electric sensors to create 3D high-definition geological and geophysical images
3DGEm's proprietary data capture and processing system employs all EM sensor components
- Lightweight device that detects ambient data sources
- Easy deployment compared to other systems
- Captures triaxial magnetic field readings
- Captures biaxial or triaxial electric field readings
Project deployments
Field sites
Devices used
Datasets generated
Features
What's the edge of 3DGEm
3DGEm lightweight wireless device allows easy and short deployment time compared to other existing surveys
Generates high-resolution 3D results. Simple interpolation and plotting produce self-explaining, high-definition 3D images without the use of modeling!
GPS location and time
Multichannel data recorder
Battery power
Biaxial or triaxial electric sensors
Triaxial magnetometer
Detailed 3D geology at various depths present geological images that can show shallow-dipping wacke, siltstone, and conglomerate
3D image showing geophysical anomalies that shows strong conformance between geology and geophysics!
Advantages
The 3DGEm advantage
Produces high-resolution 3D geological and geophysical images compared to traditional geophysical methods that produce 2D or pixelated 3D models
A simple data plot creates fast data-to-geology imaging of the geologic model
Cases
A use case for geothermal site
... loading a 3DGEm image showing the inside of a geothermal production area
Contact
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