Title
3D numerical modeling of shale gas stimulation and seisimicity
Author
Shahid, A.S.
Wassing, B.B.T.
Verga, F.
Fokker, P.A.
Publication year
2013
Abstract
The economic production from shale gas reservoir depends on the success of hydraulic stimulation, which is aimed at the creation of a permeable complex fracture network. This is achieved by the reactivation of a natural fracture network; however, the reactivation may be accompanied by unwanted seismicity. Coupled modelling is required to completely describe the physical processes involved. We developed a model using FLAC3D, by implementing in it gas-flow, dynamic permeability changes and the development of seismic events during fracture reactivation. The geomechanical and the flow behaviour of the fracture were implemented using effective continuum parameters. For the activation of a fracture zone, we used the ubiquitous joint model available in FLAC3D. Fracture deformations are the result of both reversible tensile and irreversible shear deformations. Models with different numbers of fracture sets, parallel or intersecting, were developed and simulated. With our approach we can simulate and visualize fracture reactivation, permeability enhancement and the location and size of induced seismic events.
Subject
Earth / Environmental
PG - Petroleum Geosciences
EELS - Earth, Environmental and Life Sciences
Geological Survey Netherlands
Geosciences
Energy / Geological Survey Netherlands
Complex networks
Computer simulation
Geomechanics
Seismology
Shale
3-D numerical modeling
Dynamic permeability
Economic production
Fracture reactivation
Hydraulic stimulations
Permeability enhancement
Shale gas reservoirs
Ubiquitous-joint models
Fracture
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http://resolver.tudelft.nl/uuid:5e21f5ac-eb78-48e3-b99f-1bb1b2b1e8e3
TNO identifier
493087
Publisher
European Association of Geoscientists and Engineers, EAGE
Source
International Workshop on Geomechanics and Energy: The Ground as Energy Source and Storage, 26 November 2013 through 28 November 2013, Lausanne
Article number
Th 01 09
Bibliographical note
Sponsors: Ikon Science; Shell; Sinopec; Wuxi Research Institute of Petroleum Geology
Document type
conference paper