Simple Chemistry Runs

License(s):

Creative Commons Attribution

Simple Chemistry Runs. 512 runs compressed into 20 folders of 25 runs each. These simulation results were used to develop the geochemistry scaling function for the carbonate aquifer ROM used in the Aquifer Impact Model and the Phase I Integrated Assessment Model.

The data is associated with the following resources:

Bacon, D. H., Z. Dai and L. Zheng (2014). "Geochemical Impacts of Carbon Dioxide, Brine, Trace Metal and Organic Leakage into an Unconfined, Oxidizing Limestone Aquifer." Energy Procedia 63: 4684-4707.

Bacon, D. H.; Keating, E. H.; Dai, Z.; Harp, D. R.; Pawar, R. J. Reduced-Order Model for the Impacts of Carbon Dioxide and Brine Leakage into an Unconfined, Oxidizing Carbonate Aquifer, Third-Generation; NRAP-TRS-III-010-2017; NRAP Technical Report Series; U.S. Department of Energy, National Energy Technology Laboratory: Morgantown, WV, 2017; p 76. DOI: 10.18141/1433153.

Followers: 0

Authors

Citation (Click to Copy)

Bacon, D. H., Z. Dai and L. Zheng,  Simple Chemistry Runs, 2017-06-02, https://edx.netl.doe.gov/dataset/simple-chemistry-runs

Keywords

Spatial Extent

"OpenStreetMap contributors"

Additional Info

Field	Value
Maintainer	Paige Morkner
Last Updated	December 6, 2021, 19:23 (LMT)
Created	June 2, 2017, 17:29 (LMT)
Citation	Bacon, D. H., Z. Dai and L. Zheng, Simple Chemistry Runs, 2017-06-02, https://edx.netl.doe.gov/dataset/simple-chemistry-runs
Netl Product	yes
Poc Email	robert.dilmore@netl.doe.gov
Point Of Contact	Robert Dilmore
Program Or Project	National Risk Assessment Partnership
Spatial	{"type":"MultiPolygon","coordinates":[[[[-96.26220703125,33.358061612778876],[-96.26220703125,30.675715404167743],[-100.61279296875,30.675715404167743],[-100.61279296875,33.358061612778876],[-96.26220703125,33.358061612778876]]]]}