C U B E G A L A X Y

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CCUS

CCUS

In-situ petrophysical and anisotropic geomechanical modeling.

Stress-dependent petrophysics and geomechanics – properties vs. effective stress for different injection pressures.

Thermal impact in stress modeling.

Geochemistry for geomechanics – dissolving and precipitation as a function on injection in stress redistribution and petrophysical change in 1D and 3D view.

Effect of injection in rock ballooning (weakening) and its influence in rock mechanics and geomechanics.

Identifying the critical stressed zones based on Mohr-coulomb envelopes.

Combining all the above factors to identify the environmentally safe injection limits and pressure estimation for drilling and injection – following all the EPA guidelines.

Capturing seal integrity and formation loss.

Identifying induced seismicity based on stress anisotropy as a function of injection: breakdown vs. fracturing vs. early injection stress reversals.

3D stress dependent geomechanics based on facies approach.

New method to recalculate the geomechanical units (GMUs), pressure, stress and strength as a function of faults and fractures in 1D and 3D.

Stress rate analysis to integrate and validate geomechanical units.