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Unconventional Fracture Model for complex fractures
The first of its kind, UFM is the most rigorous hydraulic fracture simulation model on the market. This model is primarily developed for naturally fractured reservoirs. UFM numerically simulates complex fracture networks created by the interaction of hydraulic fractures and natural fractures. The model uses discrete fracture networks and 3D mechanical earth models.
Advances in complex fracture modeling
Schlumberger's latest additions to the Unconventional Fracture Model (UFM) provides unsurpassed fidelity with an advanced stacked height geomechanics model, 3D stress shadow modeling as well as supporting multi-layer discrete fracture networks. A true step change in stacked lateral modeling
Multi-layer discrete fracture network (DFN) modeling
A new addition to the Kinetix Shale toolbox, multi-layer DFN modeling accurately represents the complexity of your reservoir(s). This enables multi-well and stacked lateral developments to be more precisely represented in full stimulation-production-geomechanical modeling studies.
Production evaluation coupled to numerical simulators
Mangrove is integrated with state of the art reservoir simulators that enable full numerical reservoir simulations, production history match analysis and a finite element geomechanics modeling. Unstructured and structured simulation grids can be created by explicitly gridding the complex or planar fracture networks.