2024
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Microseismic catalogue with seismic moment and moment magnitude from Drif et al.(2024) at Soultz-sous-Forets 2003 (Circulation). For more details, see the article Induced Seismicity Controlled by Injected Hydraulic Energy: the Case Study of the EGS Soultz-sous-Forets Site by Drif,K., Lengline, O., Kinscher, J., Schmitbuhl, J. (2024) (http://dx.doi.org/10.1029/2023JB028190) This catalog is based on the Microseismic catalogue of the surface network with magnitude by M. Calo and C. Dorbath- Soultz-sous-Forets 2003 Stimulation (https://cdgp.u-strasbg.fr/geonetwork/srv/fre/catalog.search#/metadata/SSFS2003-Catalogue). Columns 1,2,3,4,5 come from the catalog Microseismic catalogue of the surface network with magnitude by M. Calo and C. Dorbath- Soultz-sous-Forets 2003 Stimulation The data parameters are the following: Column 1: Date (UTC) Column 2: Time (UTC) Column 3: Latitude (°) Column 4: Longitude (°) Column 5: Depth from GPK1 wellhead (m) Column 6: Moment magnitude Column 7: Seismic moment Column 8: Moment magnitude Last update of data: 07/05/2024
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Microseismic catalogue with seismic moment and moment magnitude from Drif et al.(2024) at Soultz-sous-Forets 2003. For more details, see the article Induced Seismicity Controlled by Injected Hydraulic Energy: the Case Study of the EGS Soultz-sous-Forets Site by Drif,K., Lengline, O., Kinscher, J., Schmitbuhl, J. (2024) (http://dx.doi.org/10.1029/2023JB028190) This catalog is based on the Microseismic catalogue of the surface network with magnitude by M. Calo and C. Dorbath- Soultz-sous-Forets 2003 Stimulation (https://cdgp.u-strasbg.fr/geonetwork/srv/fre/catalog.search#/metadata/SSFS2003-Catalogue). Columns 1,2,3,4,5 come from the catalog Microseismic catalogue of the surface network with magnitude by M. Calo and C. Dorbath- Soultz-sous-Forets 2003 Stimulation The data parameters are the following: Column 1: Date (UTC) Column 2: Time (UTC) Column 3: Latitude (°) Column 4: Longitude (°) Column 5: Depth from GPK1 wellhead (m) Column 6: Moment magnitude Column 7: Seismic moment Column 8: Moment magnitude Last update of data: 07/05/2024
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Microseismic catalogue with seismic moment and moment magnitude from Drif et al.(2024) at Soultz-sous-Forets 1995. For more details, see the article Induced Seismicity Controlled by Injected Hydraulic Energy: the Case Study of the EGS Soultz-sous-Forets Site by Drif,K., Lengline, O., Kinscher, J., Schmitbuhl, J. (2024) (http://dx.doi.org/10.1029/2023JB028190) This catalog is based on the Microseismic catalogue with moment magnitude of the downhole network from CSMA - Soultz-sous-Forets 1995 Stimulation and Hydraulic Tests (https://cdgp.u-strasbg.fr/geonetwork/srv/fre/catalog.search#/metadata/SSFS1995-Catalogue). Columns 1,2,3,4,5,6 come from the catalog Microseismic catalogue with moment magnitude of the downhole network from CSMA - Soultz-sous-Forets 1995 Stimulation and Hydraulic Tests The data parameters are the following: Column 1: Date (UTC) Column 2: Time (UTC) Column 3: Latitude (°) Column 4: Longitude (°) Column 5: Depth from GPK1 wellhead (m) Column 6: Moment magnitude CSMA Column 7: Seismic moment Column 8: Moment magnitude Last update of data: 07/05/2024
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Catalogue with hydraulic data from the article of Drif et al.(2024) at Soultz-sous-Forets 2003. For more detailed calculations, see the article Induced Seismicity Controlled by Injected Hydraulic Energy: the Case Study of the EGS Soultz-sous-Forets Site by Drif,K., Lengline, O., Kinscher, J., Schmitbuhl, J. (2024) (http://dx.doi.org/10.1029/2023JB028190) The data parameters are the following: Column 1: Time from start: 24/6/2003 13:00:00 Column 2: Time_from_start_injection: time elapsed since start of fluid injection [hours] Column 3: Mean of the depth events (whose magnitude > Mc) occurred during each hour [m] Column 4: Cumulative injected volume in [m3] Column 5: Cumulative hydraulic energy in [J] Column 6: Cumulative seismic moment (events whose magnitude > Mc) in [N.m] Column 7: The seismic moment associated to the largest event (whose magnitude > Mc) occurred to date in [N.m] Column 8: Cumulative radiated seismic energy (events whose magnitude > Mc) in [J] Column 9: Seismic Injection Efficiency defined as the ratio between Er_cum and W_hyd_cum Column 10: Cumulative seismic faulting energy (events whose magnitude > Mc) in [J] Column 11: Seismic faulting efficiency definied as the ratio between W_fault_cum and W_hyd_cum Last update of data: 07/05/2024
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Catalogue with hydraulic data from the article of Drif et al.(2024) at Soultz-sous-Forets 2000. For more detailed calculations, see the article Induced Seismicity Controlled by Injected Hydraulic Energy: the Case Study of the EGS Soultz-sous-Forets Site by Drif,K., Lengline, O., Kinscher, J., Schmitbuhl, J. (2024) ( http://dx.doi.org/10.1029/2023JB028190) The data parameters are the following: Column 1: Time from start: 30/6/2000 17:00:00 Column 2: Time_from_start_injection: time elapsed since start of fluid injection [hours] Column 3: Mean of the depth events (whose magnitude > Mc) occurred during each hour [m] Column 4: Mean of flowrate during each hour [l/s] Column 5: Cumulative injected volume in [m3] Column 6: Cumulative hydraulic energy in [J] Column 7: Cumulative seismic moment (events whose magnitude > Mc) in [N.m] Column 8: The seismic moment associated to the largest event (whose magnitude > Mc) occurred to date in [N.m] Column 9: Cumulative radiated seismic energy (events whose magnitude > Mc) in [J] Column 10: Seismic Injection Efficiency defined as the ratio between Er_cum and W_hyd_cum Column 11: Cumulative seismic faulting energy (events whose magnitude > Mc) in [J] Column 12: Seismic faulting efficiency definied as the ratio between W_fault_cum and W_hyd_cum Last update of data: 07/05/2024
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Catalogue with hydraulic data from the article of Drif et al.(2024) at Soultz-sous-Forets 2010. For more detailed calculations, see the article Induced Seismicity Controlled by Injected Hydraulic Energy: the Case Study of the EGS Soultz-sous-Forets Site by Drif,K., Lengline, O., Kinscher, J., Schmitbuhl, J. (2024) (http://dx.doi.org/10.1029/2023JB028190) The data parameters are the following: Column 1:Time from start: 30/11/2009 23:00:00 Column 2: Time_from_start_injection: time elapsed since start of fluid injection [hours] Column 3: Mean of the depth events (whose magnitude > Mc) occurred during each hour [m] Column 4: Cumulative injected volume in [m3] Column 5: Cumulative hydraulic energy in [J] Column 6: Cumulative seismic moment (events whose magnitude > Mc) in [N.m] Column 7: The seismic moment associated to the largest event (whose magnitude > Mc) occurred to date in [N.m] Column 8: Cumulative radiated seismic energy (events whose magnitude > Mc) in [J] Column 9: Seismic Injection Efficiency defined as the ratio between Er_cum and W_hyd_cum Column 10: Cumulative seismic faulting energy (events whose magnitude > Mc) in [J] Column 11: Seismic faulting efficiency definied as the ratio between W_fault_cum and W_hyd_cum Last update of data: 07/05/2024
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Catalogue with hydraulic data from the article of Drif et al.(2024) at Soultz-sous-Forets 2005. For more detailed calculations, see the article Induced Seismicity Controlled by Injected Hydraulic Energy: the Case Study of the EGS Soultz-sous-Forets Site by Drif,K., Lengline, O., Kinscher, J., Schmitbuhl, J. (2024) ( http://dx.doi.org/10.1029/2023JB028190) The data parameters are the following: Column 1: Time from start: 07/02/2005 18:00:00 Column 2: Time_from_start_injection: time elapsed since start of fluid injection [hours] Column 3: Mean of the depth events (whose magnitude > Mc) occurred during each hour [m] Column 4: Mean of flowrate during each hour [l/s] Column 5: Cumulative injected volume in [m3] Column 6: Cumulative hydraulic energy in [J] Column 7: Cumulative seismic moment (events whose magnitude > Mc) in [N.m] Column 8: The seismic moment associated to the largest event (whose magnitude > Mc) occurred to date in [N.m] Column 9: Cumulative radiated seismic energy (events whose magnitude > Mc) in [J] Column 10: Seismic Injection Efficiency defined as the ratio between Er_cum and W_hyd_cum Column 11: Cumulative seismic faulting energy (events whose magnitude > Mc) in [J] Column 12: Seismic faulting efficiency definied as the ratio between W_fault_cum and W_hyd_cum Last update of data: 07/05/2024
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Microseismic catalogue with seismic moment and moment magnitude from Drif et al.(2024) at Soultz-sous-Forets 2000. For more details, see the article Induced Seismicity Controlled by Injected Hydraulic Energy: the Case Study of the EGS Soultz-sous-Forets Site by Drif,K., Lengline, O., Kinscher, J., Schmitbuhl, J. (2024) (http://dx.doi.org/10.1029/2023JB028190) This catalog is based on the Microseismic catalogue with moment magnitude and focal mechanisms by N. Cuenot - Soultz-sous-Forets 2000 Stimulation (https://cdgp.u-strasbg.fr/geonetwork/srv/fre/catalog.search#/metadata/SSFS2000-Catalogue_Cuenot_2). Columns 1,2,3,4,5,6 come from the catalog Microseismic catalogue with moment magnitude and focal mechanisms by N. Cuenot - Soultz-sous-Forets 2000 Stimulation The data parameters are the following: Column 1: Date (UTC) Column 2: Time (UTC) Column 3: Latitude (°) Column 4: Longitude (°) Column 5: Depth from GPK1 wellhead (m) Column 6: Moment magnitude Column 7: Seismic moment Column 8: Moment magnitude Last update of data: 07/05/2024
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Data on the petrophysical properties of samples from geothermal wells at the Soultz-sous-Forêts site. These data have been collected by Professor Michael J. Heap from numerous articles. The data parameters are the following: Column 1: Lithostratigraphic unit Column 2: Formation Column 3: True vertical depth (m) Column 4: Box number Column 5: Direction (perp if not given) Column 6: Natural fracture Column 7: Connected porosity Column 8: Dry P-wave velocity (km/s) Column 9: Wet P-wave velocity (km/s) Column 10: Permeability (m2) Column 11: Sample condition for UCS Column 12: Young’s modulus (GPa) Column 13: Uniaxial compressive strength (MPa) Column 14: Reference
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The aim of the GeORG project (Geopotentials of the deep Upper Rhine Graben, https://www.geopotenziale.org/home/index_html) was to create a 3D model of the geological structure of the Upper Rhine Graben down to a depth of several kilometers. The project began in October 2008 and ended in December 2012. GeORG offers a complete geoscientific information base. Maps showing the deep structure and spatial distribution of geological layers and temperatures have been extracted. Geological cross-sections can be generated over the entire study area and in all directions. These show the stratigraphic position and stacking of layers in space. GeORG has created an information access platform for companies, public and private project developers and research organizations. The results are accessible to all at https://maps.geopotenziale.eu. Several products from the GeORG mapviewer around Vendenheim geothermal site are extracted.