Fault intersection and induced seismicity
the effects on the induced stress field and the dynamic rupture, and their implications
J. Ruan (TU Delft - Applied Geophysics and Petrophysics)
R. Ghose (TU Delft - Applied Geophysics and Petrophysics)
WA Mulder (TU Delft - Applied Geophysics and Petrophysics)
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Abstract
Intersecting faults are often ignored in the geomechanical simulation of induced seismicity. To investigate the effects of fault intersection and the resulting reservoir geometry on induced seismicity, caused, for instance, by gas extraction, we have developed 3D geomechanical models considering two intersecting normal faults and the surrounding horst structure. We simulate the stress field and the dynamic fault reactivation in a uniformly depleted reservoir. We observe that a smaller intersection angle increases the incremental Coulomb stress at the lower reservoir juxtaposition, thus changing the temporal rupture pattern of the seismic event. In our dynamic simulation, the rupture propagates from the main fault to the secondary fault. We conclude that the fault intersection has important effects on the induced seismicity and should be taken into account when evaluating the seismicity risk in a specific region.