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Aseismic deformations perturb the stress state and trigger induced seismicity during injection experiments
Auteur(s)
Duboeuf, L.
De Barros, L.
Guglielmi, Y.
Cappa, F.
Date de parution
2021-10
In
Geophysical Journal International
Vol.
224
No
221
De la page
1464
A la page
1475
Revu par les pairs
1
Résumé
Fluid injections can trigger seismicity even on faults that are not optimally oriented for reactivation, suggesting either sufficiently large fluid pressure or local stress perturbations. Understanding how stress field may be perturbed during fluid injections is crucial in assessing
the risk of induced seismicity and the efficiency of deep fluid stimulation projects. Here, we focus on a series of in situ decametric experiments of fluid-induced seismicity, performed at 280 m depth in an underground gallery, while synchronously monitoring the fluid pressure and the activated fractures movements. During the injections, seismicity occurred on existing natural fractures and bedding planes that aremisoriented to slip relative to the background stress state,whichwas determined from the joint inversion of downhole fluid pressure and mechanical displacements measured at the injection.We then compare this background stress with the one
estimated from the inversion of earthquake focal mechanisms. We find significant différences in the orientation of the stress tensor components, thus highlighting local perturbations. After discussing the influence of the gallery, the pore pressure variation and the geology, we show that the significant stress perturbations induced by the aseismic deformation (which represents more than 96 per cent of the total deformation) trigger the seismic reactivation of fractures with different orientations.
the risk of induced seismicity and the efficiency of deep fluid stimulation projects. Here, we focus on a series of in situ decametric experiments of fluid-induced seismicity, performed at 280 m depth in an underground gallery, while synchronously monitoring the fluid pressure and the activated fractures movements. During the injections, seismicity occurred on existing natural fractures and bedding planes that aremisoriented to slip relative to the background stress state,whichwas determined from the joint inversion of downhole fluid pressure and mechanical displacements measured at the injection.We then compare this background stress with the one
estimated from the inversion of earthquake focal mechanisms. We find significant différences in the orientation of the stress tensor components, thus highlighting local perturbations. After discussing the influence of the gallery, the pore pressure variation and the geology, we show that the significant stress perturbations induced by the aseismic deformation (which represents more than 96 per cent of the total deformation) trigger the seismic reactivation of fractures with different orientations.
Identifiants
Type de publication
journal article
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