Borehole geology, geomechanics, and 3D reservoir modeling
Determine net pay
The FMI fullbore formation micromager gives you microresistivity formation images in water-base mud. This is the preferred approach for determining net pay in laminated sediments of fluvial and turbidite depositional environments.
Visualize sedimentary features to understand structure
Sedimentary features features define important reservoir geometries and petrophysical reservoir parameters. The interpretation of image-derived sedimentary dip data helps you understand sedimentary structures.
Interpret seismic sections
Well-to-well correlation is difficult in deviated wells with sections of steep and varying structural dip. Greatly improve your structural interpretation of seismic sections with high-quality bedding dips to compute accurate logs of true stratigraphic thickness.
Get more data
Geological information from FMI borehole images helps with stochastic modeling of the sand-shale distribution. FMI images define channel heights superbly in amalgamated units. Other variables, such as the channel width and channel sinuosity, can be estimated using geological analogs, based on detailed sedimentological analysis of FMI image data.
Improve well construction plans
Borehole images improve your mechanical earth models, which in turn helps you optimize well plans. Better understanding of borehole stability can save you millions of dollars during field development.
Benefits
- Obtain accurate pay estimates
- Interpret formations accurately
- Improve reservoir descriptions
- Make decisions on site
- Get data in difficult environments, including deviated and horizontal wells
- Save time and money with complete interpretations in one image pass
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