This submission includes input and results data from analysis done as part of the Geothermal Technology Office's Geothermal Vision Study (GeoVision). The submission includes data for both analysis of the electricity sector and the heating and cooling sector. For the electricity sector, the submission includes geothermal resource potential and development cost inputs for the ReEDS model and ReEDS model results of projected installed capacity and generation of geothermal and other technologies under the GeoVision scenarios. It also includes results from environmental and social impacts analysis. For the cooling sector, the submission includes geothermal resource potential and development cost inputs for the dGeo model and dGeo model results of economic, market, and deployment potential.
Direct Use cost and performance assumptions for GeoVision
The U.S. Department of Energy Geothermal Vision (GeoVision) Study is currently looking at the potential to increase geothermal deployment in the U.S. and to understand ...
Distributed Geothermal Market Demand Model dGeo Documentation
Documentionat for the distributed geothermal market demand model (dGeo), used to model geothermal heat pump and direct use potential and deployment under different scen...
GeoVision Direct Use dGeo Model Results.xlsx
Results of dGeo model runs showing geothermal direct use (DU) economic potential under GeoVision scenarios.
GeoVision Electricity Sector Air Quality Impacts.xlsx
Air quality (emissions) resultsl for the BAU, IRT and TI GeoVision scenarios. Results include total electric sector emissions by year for SO2, NOx, and PM2.5 for all Ge...
GeoVision Electricity Sector Water Impacts.xlsx
Water withdrawal and consumption results from ReEDS model for the BAU, IRT and TI GeoVision scenarios. Results include water withdrawal and consumption by year, cooling...
GeoVision GHP dGeo Model Results.xlsx
Results of dGeo model runs showing geothermal heat pump (GHP) economic potential, market potential and deployment projections under GeoVision scenarios.
Landing page for the GeoVision study. Includes links to the full report and supporting documents and websites.
GeoVision ReEDS Geothermal Supply Curve Inputs.xlsx
Supply curve data for GeoVision scenarios used as input for ReEDS model. Also include cost reduction curves describing how costs change in Technology Improvement (TI) s...
GeoVision ReEDS model Electricity Sector Results.xlsx
Capacity deployment and generation results from ReEDS model for the BAU, IRT and TI GeoVision scenarios. Results include capacity and generation data by year and ReEDS ...
GeoVision Scenario Viewer
Website with interactive graphics summarizing the results of the GeoVision study. Includes pages with results for Electricity generation, direct use, and geothermal hea...
Low-Temperature Hydrothermal Resource Potential Estimate
Compilation of data (spreadsheet and shapefiles) for several low-temperature resource types, including isolated springs and wells, delineated area convection systems, s...
ReEDS Model Output Scenario Business-as-Usual.html
Summary output of ReEDS model run results from the GeoVision Business-as-Usual (BAU) scenario. Includes data tables and graphics of capacity, generation, cost, emission...
ReEDS Model Output Scenario Improved Regulatory Timeline.html
Summary output of ReEDS model run results from the GeoVision Improved Regulatory Timeline (IRT) scenario. Includes data tables and graphics of capacity, generation, cos...
ReEDS Model Output Scenario Technology Improvement.html
Summary output of ReEDS model run results from the GeoVision Technology Improvement (TI) scenario. Includes data tables and graphics of capacity, generation, cost, emis...
Regional Energy Deployment System ReEDS Model Home Page
Home page for the Regional Energy Deployment System (ReEDS) model, used to model electricity generation capacity deployment under different scenarios in the GeoVision a...
US Low-Temperature EGS Resource Potential Estimate
Shapefile of shallow, low-temperature EGS resources for the United States, and accompanying paper (submitted to GDR 2016) describing the methodology and analysis. These...
DOE Project Name: Geothermal Vision Study DOE Project Number: FY19 AOP 4683 DOE Project Lead: Eric Hass
DOI: 10.15121/1572361 Last Updated:
a year ago
Data from September, 2019
Submitted Oct 21, 2019
Keywords geothermal, energy, GeoVision, ReEDS model, dGeo model, future scenarios, resource potential, capacity expansion, modeling, Systems Analysis, GHP, ground source heat pump, geothermal conductivity, geographic information system, GIS, GTC, distributed energy resources, DERs, Distributed Geothermal market demand model, NREL, Regional Energy Deployment System, renewable analysis, Water use analysis, Supply Curve inputs, electricity sector, air quality impacts, water impacts