COURSE LENGTH (days): 5
COURSE DESCRIPTION: This is a hands-on class anchored with a 50-piece teaching collection of natural and induced fractures in core that students will work with during class exercises. In addition, and with pre-planning, in-house courses can utilize client core, image logs and CT scan data. The class provides insights into fracture mechanics and the origins of fractures, and uses those concepts in a very applied sense to instill an understanding of natural fractures and their potential effects on conventional and unconventional reservoirs. Discussions and lectures include the use of and caveats for oriented cores, and the interactions between natural fractures, in situ stresses, and stimulation fractures. Course modules include discussions of image logs and their calibration with core, differentiating fractures by type and the effects of different types on reservoir permeability, and fracture types expected in different structural domains and different types of reservoirs. Students will learn to differentiate natural from induced fractures in cores, and will learn to QC a core orientation survey so that they can accurately determine fracture strikes in oriented core. Students should come away from the class with an appreciation of the wide range of structures that fall under the basket term “fracture”, and that they do not all have the same effects on hydrocarbon reservoirs. LEARNING OUTCOMES:
- Shear and extension fractures have significantly different effects on reservoir interconnectivity, drainage anisotropy, and stimulation potential.
- Fracture permeability can be dynamic, changing with changes in the in situ stresses during production. These dynamic effects are more prevalent in unconventional reservoirs.
- Different lithologies (shale, sandstone, and carbonates) have different mechanical properties and are prone to different types of fractures with different permeability effects.
- Fracture effects on a reservoir depend on the ratio between fracture and matrix permeability. Therefore, fractures have a much greater effect on permeability in unconventional reservoirs vs conventional reservoirs.
- Image logs are important tools for fracture characterization that need to be calibrated.
- Induced fractures in a core record the in situ stress conditions, but must not be mistaken for the natural fractures that control permeability.
- Interaction of natural fractures and hydraulic stimulation fractures.