Geochemistry of Energy Fuels Task
Geologic and geochemical processes that impact fuel quality, quantity, and availability can be best understood by utilizing a range of approaches, including, but not limited to isotopic signatures, inorganic and organic analyses, and neutron scattering techniques. Current work focuses on using neutron scattering to understand how fluids are stored and flow through tight continuous reservoirs and the use of statistical machine learning techniques to classify waste products from energy utilization. Work in this task is used to inform assessments and land managers.
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Using ground and intact coal Samples to evaluate hydrocarbon fate during supercritical CO2 injection into coal beds: effects of particle size and coal moisture
Divisions of Geologic Time—Major Chronostratigraphic and Geochronologic Units
Geologic and geochemical processes that impact fuel quality, quantity, and availability can be best understood by utilizing a range of approaches, including, but not limited to isotopic signatures, inorganic and organic analyses, and neutron scattering techniques. Current work focuses on using neutron scattering to understand how fluids are stored and flow through tight continuous reservoirs and the use of statistical machine learning techniques to classify waste products from energy utilization. Work in this task is used to inform assessments and land managers.
Below are other science projects associated with this project task.
Below are publications associated with this project task.