Integrated Studies
Subsurface Dynamics has developed an advanced solution to address one of today’s most critical challenges in unconventional reservoir development. By integrating static modelling, geomechanics, fracture modelling and advanced reservoir engineering we solve:
- Shut-in/Reactivation Damage
- Detrimental Frac Hits
- Underperforming Child Wells
- Pressure Depletion Impacts
- Damaged Parent Wells
- Overstimulated Reservoirs and CAPEX overruns
Integrated & Iterative
Fully integrate and iterative process incorporating Static modelling, Geomechanics, Hydraulic Fracture modelling and Reservoir Simulation
Geomechanical Modelling
Fully implicit geomechanical modeling of fracture propagation and frac geometry variation due to stress changes
Hydraulic Fracture Modelling
Hydraulic fracture treatment modelling for horizontal multilateral wells, HF optimization including fluid type, cluster spacing, pumping schedule and proppant distribution
Reservoir Simulation
Dynamic reservoir modelling: history match, production prediction and hydraulic fracture modeling of parent wells
Optimization
Iterative process to optimize child Well placement, completions design optimization and operating conditions.
Pressure Depletion
Modeling of effect of parent well depletion and associated stress changes within the reservoir
Integrated Studies
To help us achieve full integration in our studies we developed proprietary tools and employ software solutions from the leaders on the market: