Post-injection normal closure of fractures as a mechanism for induced seismicity
Eren Ucar, Inga Berre, Eirik Keilegavlen

TL;DR
This paper investigates how the normal closure of fractures after hydraulic stimulation influences pressure propagation and post-injection seismicity in geothermal reservoirs, using numerical modeling of complex fracture networks.
Contribution
It introduces a numerical model that couples fracture deformation, pressure diffusion, and stress changes to analyze the impact of normal fracture closure on induced seismicity.
Findings
Normal fracture closure enhances pressure propagation post-injection.
Normal closure significantly increases the potential for post-injection seismicity.
Model comparisons confirm the importance of normal fracture closure in seismicity prediction.
Abstract
Understanding the controlling mechanisms underlying injection-induced seismicity is important for optimizing reservoir productivity and addressing seismicity-related concerns related to hydraulic stimulation in Enhanced Geothermal Systems. Hydraulic stimulation enhances permeability through elevated pressures, which cause normal deformations, and the shear slip of pre-existing fractures. Previous experiments indicate that fracture deformation in the normal direction reverses as the pressure decreases, e.g., at the end of stimulation. We hypothesize that this normal closure of fractures enhances pressure propagation away from the injection region and significantly increases the potential for post-injection seismicity. To test this hypothesis, hydraulic stimulation is modeled by numerically coupling fracture deformation, pressure diffusion and stress alterations for a synthetic geothermal…
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