Elevation Grid for top Columbia River Basalt (CRBG) in the Portland Basin used in DDU Feasibility Study tCRBG_ctrl.xlsx

The Portland Basin is a prime location to assess the feasibility of DDU-TES because natural geologic conditions provide thermal and hydraulic separation from overlying aquifers that would otherwise sweep away stored heat. Under the Portland Basin, the lower Columbia River Basalt Group (CRBG) aquifers contain brackish water (1,000-10,000 mg/L TDS), indicating low groundwater flow rates and poor connection with the overlying regional aquifer. Further, CRBG lavas tend to have comparatively low thermal conductivity, indicating that the 400-1,000 ft thick CRBG may be an effective thermal barrier to the overlying aquifer. A temporally and spatially limited previous study of a Portland Basin CRBG aquifer demonstrated that the injection of waste heat resulted in an increase in temperature by more than a factor of two, indicating a high potential for storing heat.

This data submission includes ASCII grid surfaces for the Portland and Tualatin Basins including a DEM of modern topography, the top of Columbia River Basalt (CRB), the base of CRB, and basement. It also includes three isochore (thickness) maps between these intervals. In addition, there is an ArcGIS attribute table for associated data points, a map of data types used to constrain the top of CRB, and cross-sections, all made using IHS Kingdom Suite, Petrosys PRO, ESRI ArcGIS, and Adobe Illustrator software. Excel spreadsheet of ArcGIS attribute table for associated data points

Data and Resources

Metadata Source

Additional Info

Field Value
Citation Date 2018-12-01T00:00:00-07:00

Harvest Information

Original ID f0000000-58cc-4372-a567-000000001104
Index Date 2019-08-15T10:06:33-06:00
Original Format ISO-USGIN
Original Version 1.2

Author

Name John Bershaw
Position primary contact
Organization Portland State University
Email bershaw@pdx.edu

Geographic Extent

North Bound 45.543064
South Bound 45.523064
East Bound -122.656483
West Bound -122.676483