An Integrated Geomechanical and Microseismic Study of Multi-Well Hydraulic Fracture Stimulation in the Bakken Formation
نویسندگان
چکیده
We present an integrated study of multi-stage hydraulic fracture stimulation of two parallel horizontal wells in the Bakken formation in the Williston Basin, North Dakota. There are two distinct parts of this study: development of a geomechanical model for the study area, and analysis of the microseismic and hydraulic fracturing data. Despite the limited amount of well log data available, we estimate the current stress state to be characterized by a NF/SS regime, with Pp= 0.66 psi/ft, Sv=1.05 psi/ft, Shmin=0.79-0.85 psi/ft. Published data of drilling-induced tensile fractures observed in the FMI image logs just south of the study area indicate that SHmax is oriented ~N40-50°E. The microseismic events were recorded in six observation wells during hydraulic fracturing of parallel wells X and Z, and three unusual patterns were observed: First, rather than occurring in proximity to the stages being pressurized in X or Z, many of the events occur along the length of well Y (a parallel well located between X and Z that has been in production for about 2.5 years). Second, relatively few fracturing stages are associated with the expected elongate cloud of events trending in the direction of SHmax. Instead, the microseismic events from many stages appear to trend ~30° from the direction of SHmax. Finally, the microseismic events are clustered at two distinct depths, one close to the depth of the well being pressurized and the other about 800 ft above in another formation. We believe all three of these patterns result from the hydraulic stimulation being dominated by flow channeling along pre-existing fractures and faults.
منابع مشابه
The role of preexisting fractures and faults during multistage hydraulic fracturing in the Bakken Formation
We performed an integrated study of multistage hydraulic fracture stimulation of two parallel horizontal wells in the Bakken Formation in the Williston Basin, North Dakota. There are three distinct parts of this study: development of a geomechanical model for the study area, interpretation of multiarray downhole recordings of microseismic events, and interpretation of hydraulic fracturing data ...
متن کامل4D geomechanical simulations for field development planning
3D and 4D geomechanical can be time-consuming to build and calibrate. However, once such a model is built, it is relative straightforward to use this model for various field development and management applications. In so doing, the return on the initial investment of time and effort in the creation of a 4D geomechanical model can be substantial. I present a case study where a 4D geomechanical m...
متن کاملThe Geomechanical Interaction of Multiple Hydraulic Fractures in Horizontal Wells
The technology of multiple hydraulic fracture stimulation in horizontal wells has trans‐ formed the business of oil and gas exploitation from extremely tight, unconventional hydro‐ carbon bearing rock formations. The fracture stimulation process typically involves placing multiple fractures stage-by-stage along the horizontal well using diverse well completion technologies. The effective design...
متن کاملHydraulic Fracturing Length Optimization and its Impact on the Reservoir Performance
Hydraulic fracturing is one of the most common methods of well stimulation for reservoirs with low permeability. Hydraulic fracturing increases the flow capacity, alters flow geometry, bypasses damage and improves recovery factor. The pressure of most of Iranian oil reservoirs is declined and consequently the production is reduced. It is necessary to improve the production by using new stimulat...
متن کاملEstimating geomechanical parameters from microseismic plane focal mechanisms recorded during multistage hydraulic fracturing
We extend a full-waveform modeling method to invert source focal-plane mechanisms for microseismic data recorded with dual-borehole seismic arrays. Combining inverted focal-plane mechanisms with geomechanics knowledge, we map the pore pressure distribution in the reservoir. Determining focal mechanisms for microseismic events is challenging due to poor geometry coverage. We use the P-wave polar...
متن کامل