Mercury injection capillary pressure data in the U.S. Gulf Coast Tuscaloosa Group in Mississippi and Louisiana collected 2015 to 2017
September 25, 2018
This data release contains mercury injection capillary pressure (MICP), pseudo-wetting saturation, and carbon dioxide (CO2) column height data for subsurface Tuscaloosa Group samples from Mississippi and Louisiana.
Citation Information
Publication Year | 2018 |
---|---|
Title | Mercury injection capillary pressure data in the U.S. Gulf Coast Tuscaloosa Group in Mississippi and Louisiana collected 2015 to 2017 |
DOI | 10.5066/F7BC3XTK |
Authors | Paul C Hackley, Celeste D Lohr |
Product Type | Data Release |
Record Source | USGS Digital Object Identifier Catalog |
USGS Organization | Energy Resources Program Headquarters Office |
Rights | This work is marked with CC0 1.0 Universal |
Related Content
Using mercury injection pressure analyses to estimate sealing capacity of the Tuscaloosa marine shale in Mississippi, USA: Implications for carbon dioxide sequestration
This work used mercury injection capillary pressure (MICP) analyses of the Tuscaloosa Group in Mississippi, including the Tuscaloosa marine shale (TMS), to assess their efficacy and sealing capacity for geologic carbon dioxide (CO2) sequestration. Tuscaloosa Group porosity and permeability from MICP were evaluated to calculate CO2 column height retention. TMS and Lower Tuscaloosa shale samples hav
Authors
Celeste D. Lohr, Paul C. Hackley
Paul C. Hackley, Ph.D.
Research Geologist
Research Geologist
Email
Phone
Celeste D. Lohr
Physical Scientist
Physical Scientist
Email
Phone
Related Content
Using mercury injection pressure analyses to estimate sealing capacity of the Tuscaloosa marine shale in Mississippi, USA: Implications for carbon dioxide sequestration
This work used mercury injection capillary pressure (MICP) analyses of the Tuscaloosa Group in Mississippi, including the Tuscaloosa marine shale (TMS), to assess their efficacy and sealing capacity for geologic carbon dioxide (CO2) sequestration. Tuscaloosa Group porosity and permeability from MICP were evaluated to calculate CO2 column height retention. TMS and Lower Tuscaloosa shale samples hav
Authors
Celeste D. Lohr, Paul C. Hackley
Paul C. Hackley, Ph.D.
Research Geologist
Research Geologist
Email
Phone
Celeste D. Lohr
Physical Scientist
Physical Scientist
Email
Phone