Snake River Plain Play Fairway Analysis: Phase 1 Report
This presents the results of Phase 1 of the Snake River Plain Play Fairway Analysis project, along with a proposed work for Phase 2. No new data were collected, but we list data sources for our compilation.
The Snake River volcanic province (SRP) overlies a thermal anomaly that extends deep into the mantle; it represents one of the highest heat flow provinces in North America. The Yellowstone hotspot continues to feed a magma system that underlies southern Idaho and has produced basaltic volcanism as young as 2000 years old. It has been estimated to host up to 855 MW of potential geothermal power production, most of which is associated with the Snake River Plain volcanic province.
Our goals for this Phase 1 study were to: (1) adapt the methodology of Play Fairway Analysis for geothermal exploration to create a formal basis for its application to geothermal systems, (2) assemble relevant data for the SRP from publicly available and private sources, and (3) build a geothermal play fairway model for the SRP and identify the most promising plays, using software tools that are standard in the petroleum industry. Our ultimate goals are to lower the risk and cost of geothermal exploration throughout geothermal industry, and to stimulate the development of new geothermal power resources in Idaho.
Citation Formats
Utah State University. (2016). Snake River Plain Play Fairway Analysis: Phase 1 Report [data set]. Retrieved from https://gdr.openei.org/submissions/1231.
Shervais, John, Evans, James, Glen, Jonathan, DeAngelo, Jacob, Dobson, Patrick, Gasperikova, Erika, Sonnenthal, Eric, Siler, Drew, Liberty, Lee, Visser, Charles, Nielson, Dennis, Garg, Sabodh, Athens, Noah, and Burns, Erick. Snake River Plain Play Fairway Analysis: Phase 1 Report. United States: N.p., 25 Jan, 2016. Web. https://gdr.openei.org/submissions/1231.
Shervais, John, Evans, James, Glen, Jonathan, DeAngelo, Jacob, Dobson, Patrick, Gasperikova, Erika, Sonnenthal, Eric, Siler, Drew, Liberty, Lee, Visser, Charles, Nielson, Dennis, Garg, Sabodh, Athens, Noah, & Burns, Erick. Snake River Plain Play Fairway Analysis: Phase 1 Report. United States. https://gdr.openei.org/submissions/1231
Shervais, John, Evans, James, Glen, Jonathan, DeAngelo, Jacob, Dobson, Patrick, Gasperikova, Erika, Sonnenthal, Eric, Siler, Drew, Liberty, Lee, Visser, Charles, Nielson, Dennis, Garg, Sabodh, Athens, Noah, and Burns, Erick. 2016. "Snake River Plain Play Fairway Analysis: Phase 1 Report". United States. https://gdr.openei.org/submissions/1231.
@div{oedi_3869, title = {Snake River Plain Play Fairway Analysis: Phase 1 Report}, author = {Shervais, John, Evans, James, Glen, Jonathan, DeAngelo, Jacob, Dobson, Patrick, Gasperikova, Erika, Sonnenthal, Eric, Siler, Drew, Liberty, Lee, Visser, Charles, Nielson, Dennis, Garg, Sabodh, Athens, Noah, and Burns, Erick.}, abstractNote = {This presents the results of Phase 1 of the Snake River Plain Play Fairway Analysis project, along with a proposed work for Phase 2. No new data were collected, but we list data sources for our compilation.
The Snake River volcanic province (SRP) overlies a thermal anomaly that extends deep into the mantle; it represents one of the highest heat flow provinces in North America. The Yellowstone hotspot continues to feed a magma system that underlies southern Idaho and has produced basaltic volcanism as young as 2000 years old. It has been estimated to host up to 855 MW of potential geothermal power production, most of which is associated with the Snake River Plain volcanic province.
Our goals for this Phase 1 study were to: (1) adapt the methodology of Play Fairway Analysis for geothermal exploration to create a formal basis for its application to geothermal systems, (2) assemble relevant data for the SRP from publicly available and private sources, and (3) build a geothermal play fairway model for the SRP and identify the most promising plays, using software tools that are standard in the petroleum industry. Our ultimate goals are to lower the risk and cost of geothermal exploration throughout geothermal industry, and to stimulate the development of new geothermal power resources in Idaho.}, doi = {}, url = {https://gdr.openei.org/submissions/1231}, journal = {}, number = , volume = , place = {United States}, year = {2016}, month = {01}}
Details
Data from Jan 25, 2016
Last updated Aug 27, 2020
Submitted Aug 19, 2020
Organization
Utah State University
Contact
John Shervais
435.797.1274
Authors
Original Source
https://gdr.openei.org/submissions/1231Research Areas
Keywords
geothermal, energy, Play Fairway Analysis, Snake River Plain, ArcGIS, EGS, GIS, geospatial data, temperature, structure, resource assessment, PFA, modeling, resource, characterization, Mountain Home, Snake River Mountain Home Modeling, Numerical Model, Magnetotellurics, Magnetotelluric, gravity, thermal, SRP, MT, geophysics, blind, IdahoDOE Project Details
Project Name Geothermal Play Fairway Analysis of the Snake River Plain, Idaho
Project Lead Mike Weathers
Project Number EE0006733