Geological info and geomechanical data can be visualized and interpreted by G-function, DSI, LOT, typical triaxial tests, mono-log interpretations.A consistent geomechanics data will be analyzed, validated,and extracted into a unique worldwide collected data base.
Seven major applications are included:
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Geological profile and 3D displaying fuctions of various geological, geomechanical and production/reservoir info including well location, production and reservoir data.
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Geomechanical data and some reservior info such as E, V, C, K, Sh, SH, Sv, P, phi can be correlated and calculated.
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Geomechanics Database:
Worldwide published data are stored and can be added in if required.
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Mono and Dipole logging interpretation:
Geological and stress anisotropic info can be interpreted and the maximum and minimum stress ratio can be calculated.
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Geological Mapping via wells:
Geological and logging data can be interpretated between multiple wells including sonic logging, topographic and other geological data
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In-situ stress interpretations via hydraulic fracturing:
G-function is used to evaluate the minimum and maximum in-situ stresses which can be compared to those generated by the DSI processes.
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Triaxial data inpretretations
FEATURES AND APPLICATION :
- Obtain the regional rock mechanics parameters.
- Comparison or extraction data for those areas no well data are available.
- Developing stress fields for numerical simulations purposes.
- Determine the natural direction of fractured system.
- Stress perturbation near fault
- Hydrantic fraction design near fault
- 3D MEM model
- Stress shadow and changes after production
