%0 Generic
%A Naderloo, Milad
%A Barnhoorn, Auke
%A Veltmeijer, Aukje
%A Jansen, Jan Dirk
%A Pluymakers, Anne
%D 2024
%T Data from injection-driven fault reactivation experiments on faulted sandstone
%U 
%R 10.4121/02c46099-0f1e-486b-91b9-b5f0ecb30bc4.v1
%K Injection-induced seismicity
%K Cyclic injection
%K Slow-slip
%K Injection rate
%K Porous reservoir
%K Seismicity mitigation
%X <p>Human activities involving subsurface fluid injection projects, such as geothermal energy recovery and/or gas storage (CO<sub>2</sub>, H<sub>2</sub> or methane), are widely acknowledged to occasionally cause earthquakes. We performed laboratory tests on highly permeable Red Felser sandstone containing a simulated geological fault to investigate effect of injection rate and pattern on fault movement. Triaxial injection-driven fault reactivation tests were performed alongside with passive acoustic measurements. This dataset contains mechanical data along with passive acoustic data from injection-driven fault reactivation experiments on faulted sandstone. Also python script used for analysis is provided. A detail information about the data is described within the readme file. </p>
%I 4TU.ResearchData