University of Illinois Campus Deep Direct-Use Feasibility Study - Porosity and Permeability of Rock Formations
Abstract
Porosity and permeability data from published and unpublished sources for the St. Peter and Mt. Simon Sandstones in the Illinois Basin.
4 Resources
Effects of Burial Diagenesis on Multiscale Porosity in the St. Peter Sandstone
This study found that multiscale pore structure of rocks in sedimentary reservoirs and the mineralogy associated with those pores are critical factors for estimating re... more
Data compiled from unpublished drilling logs and reports for the St. Peter in the Illinois Basin.
The data in columns A to S were imported from the ISGS wells and borin... more
The Subsurface Fluid Mechanics of Geologic CO2 Storage
Models of CO2 injection and the post-injection migration for several reservoirs in the US were developed based on geologic and petrophysical data. Simulations, experime... more
DOE Project Name: Geothermal Heat Recovery Complex: Large-scale, Deep Direct-Use System in a Low-Temperature Sedimentary Basin DOE Project Number: EE0008106 DOE Project Lead: Arlene Anderson
DOI: 10.15121/1458561 Last Updated: over a year ago
Jared T. Freiburg Illinois State Geological Survey
Matthew Wasbrough National Institute of Standards and Technology
David F.R. Mildner National Institute of Standards and Technology
Kenneth C. Littrell Oak Ridge National Laboratory
Vitaliy Pipich Heinz Maier-Leibnitz Zentrum
Jan Ilavsky Argonne National Laboratory
Michael Lawrence Szulczewski Massachusetts Institute of Technology
Keywords
geothermal, energy, DDU, Deep Direct-Use, University of Illinois, Illinois Basin, St. Peter Sandstone, porosity, permeability, Mt. Simon Sandstone, oil and gas well