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Material Properties for Brady Hot Springs Nevada USA from PoroTomo Project

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The PoroTomo team has completed inverse modeling of the three data sets (seismology, geodesy, and hydrology) individually, as described previously. The estimated values of the material properties are registered on a three-dimensional grid with a spacing of 25 meters between nodes. The material properties are listed an Excel file. Figures show planar slices in three sets:
horizontal slices in a planes normal to the vertical Z axis (Z normal), vertical slices in planes perpendicular to the dominant strike of the fault system (X normal), and vertical slices in planes parallel to the dominant strike of the fault system (Y normal).

The results agree on the following points. The material is unconsolidated and/or fractured, especially in the shallow layers. The structural trends follow the fault system in strike and dip. The geodetic measurements favor the hypothesis of thermal contraction. Temporal changes in pressure, subsidence rate, and seismic amplitude are associated with changes in pumping rates during the four stages of the deployment in 2016. The modeled hydraulic conductivity is high in fault damage zones. All the observations are consistent with the conceptual model: highly permeable conduits along faults channel fluids from shallow aquifers to the deep geothermal reservoir tapped by the production wells.

Citation Formats

University of Wisconsin. (2019). Material Properties for Brady Hot Springs Nevada USA from PoroTomo Project [data set]. Retrieved from https://dx.doi.org/10.15121/1501544.
Export Citation to RIS
Feigl, Kurt L., PoroTomo Team, . Material Properties for Brady Hot Springs Nevada USA from PoroTomo Project. United States: N.p., 06 Mar, 2019. Web. doi: 10.15121/1501544.
Feigl, Kurt L., PoroTomo Team, . Material Properties for Brady Hot Springs Nevada USA from PoroTomo Project. United States. https://dx.doi.org/10.15121/1501544
Feigl, Kurt L., PoroTomo Team, . 2019. "Material Properties for Brady Hot Springs Nevada USA from PoroTomo Project". United States. https://dx.doi.org/10.15121/1501544. https://gdr.openei.org/submissions/1124.
@div{oedi_3780, title = {Material Properties for Brady Hot Springs Nevada USA from PoroTomo Project}, author = {Feigl, Kurt L., PoroTomo Team, .}, abstractNote = {The PoroTomo team has completed inverse modeling of the three data sets (seismology, geodesy, and hydrology) individually, as described previously. The estimated values of the material properties are registered on a three-dimensional grid with a spacing of 25 meters between nodes. The material properties are listed an Excel file. Figures show planar slices in three sets:
horizontal slices in a planes normal to the vertical Z axis (Z normal), vertical slices in planes perpendicular to the dominant strike of the fault system (X normal), and vertical slices in planes parallel to the dominant strike of the fault system (Y normal).

The results agree on the following points. The material is unconsolidated and/or fractured, especially in the shallow layers. The structural trends follow the fault system in strike and dip. The geodetic measurements favor the hypothesis of thermal contraction. Temporal changes in pressure, subsidence rate, and seismic amplitude are associated with changes in pumping rates during the four stages of the deployment in 2016. The modeled hydraulic conductivity is high in fault damage zones. All the observations are consistent with the conceptual model: highly permeable conduits along faults channel fluids from shallow aquifers to the deep geothermal reservoir tapped by the production wells.
}, doi = {10.15121/1501544}, url = {https://gdr.openei.org/submissions/1124}, journal = {}, number = , volume = , place = {United States}, year = {2019}, month = {03}}
https://dx.doi.org/10.15121/1501544

Details

Data from Mar 6, 2019

Last updated Mar 19, 2019

Submitted Mar 6, 2019

Organization

University of Wisconsin

Contact

Kurt L Feigl

Authors

Kurt L. Feigl

University of Wisconsin

PoroTomo Team

University of Wisconsin

Research Areas

DOE Project Details

Project Name PoroTomo: Poroelastic Tomography by Adjoint Inverse Modeling of Data from Seismology, Geodesy, and Hydrology

Project Lead Elisabet Metcalfe

Project Number EE0006760

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