Geomodeling
✓ Building framework model utilizing structure wells, TCOM, high-tier, cuttings data
✓ Petrophysical property propagation based on machine learning facies model.
✓ Static model validation by performing regional production history matching.
✓ Multi-Domain machine learning facies for drilling, completion and production quality.
✓ Diagenesis and biogenesis – silica/zi ratio in 3D for completion vs, production quality ranking.
✓ 3D geomechanics based on brittleness (facies) ranking methodology.
✓ 3D Geomechanical property slices for the entire lateral + 200 ft above and below the wellbore to understand and predict the fracture height growth between the brittle to ductile zones
Geomechanics
✓ Pre and Post Geomechanical models – P10/P50/P90.
✓ Modified Normal Compaction Trend (NCT) for pore pressure modeling.
✓ Wellbore stability modeling – optimum mud and casing selections for cored and non-cored well programs.
✓ Landing candidate selection – integration approach
✓ Lateral well geomechanics from cuttings for staging and clustering.
✓ Hydraulic fracturing.
✓ Depletion geomechanics for fracture asymmetry and well spacing.
✓ Geology based 3D Geomechanics.
✓ Assigning compaction curves for Reservoir Engineering based on UPVC (Uniaxial Pore Volume Compressibility) method.
Completion
✓ DFITs analysis.
✓ End of Job (EoJ) net pressure history matching to validate geomechanics and petrophysics.
✓ Stress shadow for frac hits.
✓ Single well modeling for quick landing and completion optimizations.
✓ Multi-well modeling (Depletion modeling) to capture fracture asymmetry for spacing.
✓ Completion optimization for stacking and staggering operations.
✓ Basin wide modeling.
✓ Unique analytical tool to predict least expected fracture height growth without performing actual fracture simulations.
