Participants of this course will be able to determine the major data requirements and modeling issues associated with various types of fractured and unconventional reservoirs as well as how to set up rational exploration and development programs for these reservoirs
This course provides a unique opportunity to learn all the aspects related to the understanding and modeling of fractured and unconventional reservoirs. Participants will gain knowledge of how fractured reservoirs differ from conventional reservoirs, and how to approach their fractured reservoir projects in a systematic manner. The workshop covers all the aspects of modeling fractured reservoirs. Using actual data from Teapot Dome, (WY, USA), the geoscientist will be able to construct fracture models that integrate geology, geophysics and reservoir engineering. Emphasis will be given to the critical use of seismic attributes derived from inversion, volumetric curvature and spectral imaging. Using actual Teapot Dome field data from the Tensleep and Niobrara Shale formations and a hands-on approach, the workshop allows the geoscientist to identify fractures and to construct predictive 3D fracture models that can be used to identify productive zones, plan wells and to create fracture porosity and permeability models for reservoir simulation. A multidisciplinary approach to the study of these reservoirs will be stressed. Participants will learn what controls the performance of fractured reservoirs and the type of data which are required to manage them.
Participants attending the course will:
This course is suitable to a wide range of professionals but will greatly benefit:
Professionals who deal with fractured reservoirs and who need to develop them using all types of available data. Further, the course will be very useful to all Geoscientists involved in clastics, carbonates and shale plays where fractures play a major role.
The course will include presentations with exercises using the course notes and Excel. A software will be provided to the Delegates to work on actual and very complex fractured reservoirs. Using the Teapot Dome, WY, USA actual data, delegates will be divided in teams to predict the fracture density at different blind wells. The resulting good and poor predictions at blind wells will be explained to demystify the popular believe that fractured reservoirs are too complex to be predictable.