Picoseismic Response of Hectometer-Scale Fracture Systems to Stimulation With Cm-Scale Resolution Under the Swiss Alps, in the Bedretto Underground Laboratory
Description:
We performed a series of hydraulic stimulations at 1.1 km depth in the Bedretto underground laboratory in the Swiss Alps. The goal was to achieve an unprecedented detailed and profound understanding of hydromechanical and seismic processes during hydraulic reservoir development with a dense multi-sensor monitoring network. With our seismic network that includes various sensor types with different sensitivities, we succeeded in characterizing induced seismicity down to the pico-seismicity level (Mw<-4), thus illuminating details of a complex fracture network more than 100 m from the injection locations. Here, we present the experiments and seismic catalogs as well as a comparative analysis of event number per injection, magnitudes, b-values, seismogenic index and reactivation pressures. During a first-order data analysis, we could make the following observations:
-We find that the ultra-high frequency seismic network with custom-made AE sensors, allows us to observe seismicity over 3 orders of magnitude scale. Thanks to collocated accelerometers and acoustic emission sensors, AE sensors could be calibrated in-situ and adjusted moment magnitudes could be implemented into the seismic catalog.
-The volume impacted by the stimulations in different intervals differs significantly with a lateral extent from a few meters to more than 150 m. Most intervals activated multiple fractures. Only during the stimulation of an interval located next to a dominant shear zone, an extended single fracture was activated, which is likely attributed to the dominant shear zone in this area. The seismic clouds typically propagate upwards towards more permeable, shallow depth on parallel dipping planes that are consistent with the stress field and seem to a large extent associated with preexisting open fractures.
-The reactivation pressures hint at hydraulic shearing as the dominant process, since the elastic fracture opening appears to be mostly aseismic.
-The seismicity shows no distinct deviation from “normal” behavior with regard to Gutenberg Richter or McGarr.
Session: Seismic Monitoring, Modelling and Management Needed for Geothermal Energy and Geologic Carbon Storage - II
Type: Oral
Date: 5/2/2024
Presentation Time: 11:00 AM (local time)
Presenting Author: Anne
Student Presenter: No
Invited Presentation:
Authors
Anne Obermann Presenting Author Corresponding Author anne.obermann@sed.ethz.ch ETH Zurich |
Martina Rosskopf martina.rosskopf@erdw.ethz.ch ETH Zurich |
Virginie Durand virginie.durand@geoazur.unice.fr ETH Zurich |
Katrin Plenkers k.plenkers@gmug.eu Gesellschaft für Materialprüfung und Geophysik mbH |
Kai Bröker kai.broeker@erdw.ethz.ch ETH Zurich |
Nima Gholizadeh Doonechaly nima.gholizadeh@erdw.ethz.ch ETH Zurich |
Antonio Pio Rinaldi antoniopio.rinaldi@sed.ethz.ch ETH Zurich |
Xiaodong Ma xiaodongma.rocks@gmail.com ETH Zurich |
Linus Villiger linus.villiger@sed.ethz.ch ETH Zurich |
Marian Hertrich marian.hertrich@erdw.ethz.ch ETH Zurich, Zurich, , Switzerland |
Valentin Gischig gischigv@ethz.ch ETH Zurich, Zurich, , Switzerland |
Alba Zappone alba.zappone@sed.ethz.ch ETH Zurich, Zurich, , Switzerland |
Hansruedi Maurer hansruedi.maurer@erdw.ethz.ch ETH Zurich, Zurich, , Switzerland |
Stefan Wiemer stefan.wiemer@sed.ethz.ch ETH Zurich, Zurich, , Switzerland |
Domenico Giardini domenico.giardini@erdw.ethz.ch ETH Zurich, Zurich, , Switzerland |
Picoseismic Response of Hectometer-Scale Fracture Systems to Stimulation With Cm-Scale Resolution Under the Swiss Alps, in the Bedretto Underground Laboratory
Category
Seismic Monitoring, Modelling and Management Needed for Geothermal Energy and Geologic Carbon Storage