Washington Play Fairway Analysis Geothermal Heat and Permeability Potential Geodatabases
This file contains file geodatabases of the Mount St. Helens seismic zone (MSHSZ), Wind River valley (WRV) and Mount Baker (MB) geothermal play-fairway sites in the Washington Cascades. The geodatabases include input data (feature classes) and output rasters (generated from modeling and interpolation) from the geothermal play-fairway in Washington State, USA. These data were gathered and modeled to provide an estimate of the heat and permeability potential within the play-fairways based on: mapped volcanic vents, hot springs and fumaroles, geothermometry, intrusive rocks, temperature-gradient wells, slip tendency, dilation tendency, displacement, displacement gradient, max coulomb shear stress, sigma 3, maximum shear strain rate, and dilational strain rate at 200m and 3 km depth. In addition this file contains layer files for each of the output rasters. For details on the areas of interest please see the 'Phase 1 Technical Report' in the download package.
This submission also includes a file with the geothermal favorability of the Washington Cascade Range based off of an earlier statewide assessment. Additionally, within this file there are the maximum shear and dilational strain rate rasters for all of Washington State.
Citation Formats
TY - DATA
AB - This file contains file geodatabases of the Mount St. Helens seismic zone (MSHSZ), Wind River valley (WRV) and Mount Baker (MB) geothermal play-fairway sites in the Washington Cascades. The geodatabases include input data (feature classes) and output rasters (generated from modeling and interpolation) from the geothermal play-fairway in Washington State, USA. These data were gathered and modeled to provide an estimate of the heat and permeability potential within the play-fairways based on: mapped volcanic vents, hot springs and fumaroles, geothermometry, intrusive rocks, temperature-gradient wells, slip tendency, dilation tendency, displacement, displacement gradient, max coulomb shear stress, sigma 3, maximum shear strain rate, and dilational strain rate at 200m and 3 km depth. In addition this file contains layer files for each of the output rasters. For details on the areas of interest please see the 'Phase 1 Technical Report' in the download package.
This submission also includes a file with the geothermal favorability of the Washington Cascade Range based off of an earlier statewide assessment. Additionally, within this file there are the maximum shear and dilational strain rate rasters for all of Washington State.
AU - Norman, David K.
A2 - Forson, Corina
A3 - Czajkowski, Jessica L.
A4 - Swyer, Michael W.
A5 - Cladouhos, Trenton T.
A6 - Shemalzle, Gima M.
A7 - Divatzes, Nicholas
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Renewable Energy Laboratory
DO - 10.15121/1261949
KW - geothermal
KW - Mount St. Helens seismic zone
KW - Wind River valley
KW - Mount Baker
KW - permeability
KW - heat
KW - favorability
KW - uncertainty
KW - risk
KW - sensitivity
KW - play-fairway
KW - Washington
KW - Cascade Range
KW - Slip tendency
KW - dilation tendency
KW - sigma 3
KW - maximum Coulomb shear stress
KW - displacement
KW - displacement gradient
KW - maximum shear strain rate
KW - dilational strain rate
KW - fault
KW - volcanic vent
KW - intrusive rock
KW - temeprature gradient
KW - geothermometry
KW - hot spring
KW - fumarole
KW - Geothermal favorability
KW - Strain rate
KW - GIS
KW - ArcGIS
KW - geospatial data
KW - geodatabase
KW - gdb
KW - washington state
KW - pfa
LA - English
DA - 2015/12/15
PY - 2015
PB - Washington Division of Geology and Earth Resources
T1 - Washington Play Fairway Analysis Geothermal Heat and Permeability Potential Geodatabases
UR - https://doi.org/10.15121/1261949
ER -
Norman, David K., et al. Washington Play Fairway Analysis Geothermal Heat and Permeability Potential Geodatabases. Washington Division of Geology and Earth Resources, 15 December, 2015, GDR. https://doi.org/10.15121/1261949.
Norman, D., Forson, C., Czajkowski, J., Swyer, M., Cladouhos, T., Shemalzle, G., & Divatzes, N. (2015). Washington Play Fairway Analysis Geothermal Heat and Permeability Potential Geodatabases. [Data set]. GDR. Washington Division of Geology and Earth Resources. https://doi.org/10.15121/1261949
Norman, David K., Corina Forson, Jessica L. Czajkowski, Michael W. Swyer, Trenton T. Cladouhos, Gima M. Shemalzle, and Nicholas Divatzes. Washington Play Fairway Analysis Geothermal Heat and Permeability Potential Geodatabases. Washington Division of Geology and Earth Resources, December, 15, 2015. Distributed by GDR. https://doi.org/10.15121/1261949
@misc{OEDI_Dataset_6877,
title = {Washington Play Fairway Analysis Geothermal Heat and Permeability Potential Geodatabases},
author = {Norman, David K. and Forson, Corina and Czajkowski, Jessica L. and Swyer, Michael W. and Cladouhos, Trenton T. and Shemalzle, Gima M. and Divatzes, Nicholas},
abstractNote = {This file contains file geodatabases of the Mount St. Helens seismic zone (MSHSZ), Wind River valley (WRV) and Mount Baker (MB) geothermal play-fairway sites in the Washington Cascades. The geodatabases include input data (feature classes) and output rasters (generated from modeling and interpolation) from the geothermal play-fairway in Washington State, USA. These data were gathered and modeled to provide an estimate of the heat and permeability potential within the play-fairways based on: mapped volcanic vents, hot springs and fumaroles, geothermometry, intrusive rocks, temperature-gradient wells, slip tendency, dilation tendency, displacement, displacement gradient, max coulomb shear stress, sigma 3, maximum shear strain rate, and dilational strain rate at 200m and 3 km depth. In addition this file contains layer files for each of the output rasters. For details on the areas of interest please see the 'Phase 1 Technical Report' in the download package.
This submission also includes a file with the geothermal favorability of the Washington Cascade Range based off of an earlier statewide assessment. Additionally, within this file there are the maximum shear and dilational strain rate rasters for all of Washington State.
},
url = {https://gdr.openei.org/submissions/640},
year = {2015},
howpublished = {GDR, Washington Division of Geology and Earth Resources, https://doi.org/10.15121/1261949},
note = {Accessed: 2025-04-24},
doi = {10.15121/1261949}
}
https://dx.doi.org/10.15121/1261949
Details
Data from Dec 15, 2015
Last updated May 13, 2020
Submitted Nov 6, 2015
Organization
Washington Division of Geology and Earth Resources
Contact
Corina Forson
360.902.1455
Authors
Original Source
https://gdr.openei.org/submissions/640Research Areas
Keywords
geothermal, Mount St. Helens seismic zone, Wind River valley, Mount Baker, permeability, heat, favorability, uncertainty, risk, sensitivity, play-fairway, Washington, Cascade Range, Slip tendency, dilation tendency, sigma 3, maximum Coulomb shear stress, displacement, displacement gradient, maximum shear strain rate, dilational strain rate, fault, volcanic vent, intrusive rock, temeprature gradient, geothermometry, hot spring, fumarole, Geothermal favorability, Strain rate, GIS, ArcGIS, geospatial data, geodatabase, gdb, washington state, pfaDOE Project Details
Project Name Geothermal Play-Fairway Analysis of Washington State Prospects
Project Lead Eric Hass
Project Number EE0006728
