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Collaborating Authors
Results
To evaluate a layered, tight gas reservoir and design the well completion, the operator must use both a reservoir model and a hydraulic fracture propagation model. The data required to run both models are similar[1] and can be divided into two groups. One group consists of data that can be "controlled." The second group reflects data that must be measured or estimated but cannot be controlled. The data required to run a reservoir model depends on the type of model one chooses to use.
calculation, clastic rock, coal seam, completion, complex reservoir, complexity, Engineer, estimation, ga reservoir, geological subdiscipline, geologist, geology, hydraulic fracturing, knowledge management, permeability, porosity, reservoir, reservoir geomechanics, rock type, sedimentary rock, source, table 1, Thickness, tight gas, Upstream Oil & Gas
Geology:
- Geology > Geological Subdiscipline > Geomechanics (0.79)
- Geology > Rock Type > Sedimentary Rock > Clastic Rock (0.49)
SPE Disciplines:
- Well Completion > Hydraulic Fracturing (1.00)
- Reservoir Description and Dynamics > Unconventional and Complex Reservoirs > Tight gas (1.00)
Technology:
- Information Technology > Knowledge Management (0.41)
- Information Technology > Communications > Collaboration (0.41)