Utah FORGE: Slide-Hold-Slide Experiments on Gneiss at Increased Temperature
Included are data from triaxial, single-inclined-fracture friction experiments. The experiments were performed with slide-hold-slide protocol on Utah FORGE gneiss at increased temperature. With a ~10 MPa normal stress, temperatures vary between experiments from room temperature up to 163 Celsius. Hold times vary during experiment from ~10^1 to ~10^5 seconds. Measured are the frictional response upon reactivation after a hold period, active acoustic data (P-wave velocity and amplitude) and passive acoustic data (acoustic emission occurrence and amplitude).
There are two types of datafiles: (1) Datafiles containing the friction data, including the temperature and the active acoustic data measured during the experiment (AEXX_Gneiss_Vp_mixref4). The underscore _Vp means that it includes the Vp or P-wave velocity data, with _mixref meaning that we use a mixed reference point for calculating the P-wave velocity. And (2) the datafiles containing the passive acoustics data, a catalog of the acoustic emissions (AE's) measured during the experiment (AEcatalog_AEXX_runX), where AEXX matches the experiment number and runX denotes which part of the experiment the data was collected, matching the times where active acoustic data was collected. AE catalogs are split in two parts when the file size exceeds 1 GB to aid download/opening times.
Citation Formats
Pennsylvania State University. (2023). Utah FORGE: Slide-Hold-Slide Experiments on Gneiss at Increased Temperature [data set]. Retrieved from https://dx.doi.org/10.15121/2008949.
Eijsink, Agathe, Elsworth, Derek. Utah FORGE: Slide-Hold-Slide Experiments on Gneiss at Increased Temperature. United States: N.p., 25 Jul, 2023. Web. doi: 10.15121/2008949.
Eijsink, Agathe, Elsworth, Derek. Utah FORGE: Slide-Hold-Slide Experiments on Gneiss at Increased Temperature. United States. https://dx.doi.org/10.15121/2008949
Eijsink, Agathe, Elsworth, Derek. 2023. "Utah FORGE: Slide-Hold-Slide Experiments on Gneiss at Increased Temperature". United States. https://dx.doi.org/10.15121/2008949. https://gdr.openei.org/submissions/1522.
@div{oedi_1522, title = {Utah FORGE: Slide-Hold-Slide Experiments on Gneiss at Increased Temperature}, author = {Eijsink, Agathe, Elsworth, Derek.}, abstractNote = {Included are data from triaxial, single-inclined-fracture friction experiments. The experiments were performed with slide-hold-slide protocol on Utah FORGE gneiss at increased temperature. With a ~10 MPa normal stress, temperatures vary between experiments from room temperature up to 163 Celsius. Hold times vary during experiment from ~10^1 to ~10^5 seconds. Measured are the frictional response upon reactivation after a hold period, active acoustic data (P-wave velocity and amplitude) and passive acoustic data (acoustic emission occurrence and amplitude).
There are two types of datafiles: (1) Datafiles containing the friction data, including the temperature and the active acoustic data measured during the experiment (AEXX_Gneiss_Vp_mixref4). The underscore _Vp means that it includes the Vp or P-wave velocity data, with _mixref meaning that we use a mixed reference point for calculating the P-wave velocity. And (2) the datafiles containing the passive acoustics data, a catalog of the acoustic emissions (AE's) measured during the experiment (AEcatalog_AEXX_runX), where AEXX matches the experiment number and runX denotes which part of the experiment the data was collected, matching the times where active acoustic data was collected. AE catalogs are split in two parts when the file size exceeds 1 GB to aid download/opening times. }, doi = {10.15121/2008949}, url = {https://gdr.openei.org/submissions/1522}, journal = {}, number = , volume = , place = {United States}, year = {2023}, month = {07}}
https://dx.doi.org/10.15121/2008949
Details
Data from Jul 25, 2023
Last updated Jul 9, 2024
Submitted Aug 8, 2023
Organization
Pennsylvania State University
Contact
Agathe Eijsink
Authors
Keywords
geothermal, energy, friction, single inclined fracture, slide-hold-slide, acoustic data, acoustic emission, passive acoustic, geophysics, fracture, reactivation, gneiss, Utah FORGE, EGS, friction data, active acoustic, velocity dataDOE Project Details
Project Name UtahFORGE 5-2419 - Seismicity-Permeability Relationships Probed via Nonlinear Acoustic Imaging
Project Lead Lauren Boyd
Project Number EE0007080