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How will treatment parameters impact the optimization of hydraulic fracturing process in unconventional reservoirs?
- Source :
- SN Applied Sciences. 2
- Publication Year :
- 2020
- Publisher :
- Springer Science and Business Media LLC, 2020.
-
Abstract
- Hydraulic fracturing is a very complex process that has not yet been fully understood. Furthermore, the number of stages, length of fracture clusters in each stage, proppant and fracturing fluid compatibilities, optimum spacing length, proppant transport and placement, proppant and frac-fluid compatibility, and optimum spacing are some of the challenges inhibiting successful application of this technique across the world. In this study, we present the impact of fracture-cluster lengths, proppant types and sizes, proppant densities, frac fluid types, fluid viscosities, and injection rates on hydraulic fracturing process. Firstly, we developed a stress profile to determine initiation location and orientation of the hydraulic fractures, and subsequently created the geological layering in the zone of interest. We grouped our investigations into 5 case studies, followed by developing an efficient hydraulic fracturing design approach, and we determined the optimal treatment to achieve maximum recovery. Our results show that fracture clusters with optimal lengths will provide optimized hydraulic fracture treatment. In addition, high-strength proppants is efficient for shale formations with closure stress exceeding 5000 psi to achieve optimum fracture conductivity and fracture half-length. Furthermore, we observed the high-density proppant produced greater fracture lengths and lower dimensionless fracture conductivity (CFD), while the low-density proppant produced greater effective propped-fracture lengths and higher CFD. In some of the cases investigated, we observed that stress shadowing and interference can hinder fracture growth, eventually led to a collapse of some fractures. Our results provide valuable critical decision-making insight for optimizing hydraulic fracturing process in unconventional reservoirs across the world.
- Subjects :
- Fracture conductivity
Petroleum engineering
business.industry
General Chemical Engineering
Optimal treatment
General Engineering
General Physics and Astronomy
Treatment parameters
Computational fluid dynamics
Hydraulic fracturing
General Earth and Planetary Sciences
Stress profile
General Materials Science
Layering
business
Oil shale
Geology
General Environmental Science
Subjects
Details
- ISSN :
- 25233971 and 25233963
- Volume :
- 2
- Database :
- OpenAIRE
- Journal :
- SN Applied Sciences
- Accession number :
- edsair.doi...........6125bdd6cba0110cbfe4dc4a67121f9a
- Full Text :
- https://doi.org/10.1007/s42452-020-03707-w