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Current Projects

  • Advanced Carbon Mineralization Initiative (ACMI)

    To meet 1.5-2 degrees Celsius warming targets, society must develop carbon management technologies for the irreversible removal and storage of gigatons of CO2 from point sources and the atmosphere. The conversion of carbon dioxide into carbonate minerals, “CO2 mineralization,” can play a fundamental role in carbon management technologies, as it is thermodynamically favorable and scalable. […] read more…

  • CO2 Migration along Faults in CCS Projects: Field Validation and Stochastic Modeling of Fault Properties

    A proper assessment of CO2 migration along and across faults is a key requirement for site selection, injection management, and design of a monitoring, mitigation, and verification (MMV) program. As part of this project, we have developed numerical capabilities aimed at addressing this technical challenge. The capabilities include (i) a novel algorithm to determine fault […] read more…

  • Coupled flow-geomechanical models applied to assess earthquake triggering in tectonically active regions – The Los Angeles basin, CA

    Earthquakes caused by human activities are a growing societal concern affecting hydrocarbon and geothermal energy production, gas storage, and subsurface carbon sequestration efforts in the Unites States and throughout the world. Distinguishing between tectonic and induced earthquakes in tectonically active regions is extremely challenging. Moreover, induced seismicity in these regions pose greater risks, as human […] read more…

  • Critical Minerals of the Laramide Porphyry Belt, Southwest USA

    The U.S.–Mexico borderlands, spanning Arizona, New Mexico, Texas, Sonora, Chihuahua, and Sinaloa, make up one of the world’s most important copper regions. Alongside copper, these porphyry systems also contain a wide range of critical minerals such as gallium, indium, cobalt, tellurium, tungsten, and platinum-group elements—materials essential for clean energy, electronics, and advanced technologies. Despite their […] read more…

  • Developing Adaptive Traffic Light Systems For Enhanced Geothermal Systems

    Induced seismicity is both a valuable reservoir management tool and a significant challenge, particularly for enhanced geothermal system (EGS) projects. While carefully managed seismic activity can help create and maintain fluid pathways, large earthquakes—such as those that occurred at the Basel and Pohang EGS sites—have raised public concern and highlighted the risks of large-scale deployment. Beyond […] read more…

  • Electric Stimulation Model Development

    Conventional geothermal energy needs pre-existing fracture networks to conduct heat from rock to water and thence convect heat to surface turbines or other uses. Very few locations, less than 10% of Earth’s land area provide this. Enhanced geothermal systems (“hot dry rock”) can be created anywhere, but require new networks to be fractured. Hydrofracturing uses […] read more…

  • Modeling Supershear Earthquakes to Forecast Induced Seismicity Hazard

    While the potential for subsurface fluid injection and extraction to trigger earthquakes has long been recognized, the sharp increase in the extent and vigor of injection-induced seismicity calls for much deeper understanding than is currently available. One of the features of some highly destructive earthquakes is their supershear rupture propagation, with velocities faster than the […] read more…

  • Seismic Imaging, Inversion and Uncertainty Quantification

    The algorithmic workhorse for creating a map of the subsurface from seismic surveys is full waveform inversion. Many fundamental questions remain wide open about it, including how to deal with the lack of convexity in optimization, how to make use of AI to speed it up or supersede it, and how to quantify the uncertainty […] read more…

  • The Origin and Timing of Silver Enrichment at the world-class Filo Del Sol Cu-Au-Ag deposit

    As the world transitions to renewable energy, the demand for metals like silver is soaring. Silver is essential for technologies like solar panels and batteries, securing its place among critical minerals. High-sulfidation epithermal deposits are key sources of silver, gold, and copper, but understanding where and how silver-rich zones form remains a scientific challenge. At […] read more…

  • Through-Casing Permeability Estimation: Feasibility in Simulations, Field Data and Lab Experiments

    There are hundreds of thousands of inactive oil & gas wells in the USA, millions in the world that all need to be plugged and abandoned. In that process, environmental regulators require operators to certify that no well will emit methane gas or other harmful fluids. Key emission-risk factors include the Darcy permeability of rock-formation […] read more…

  • Understanding the geological conditions for hydrogen production during seafloor serpentinization in a fossil hyperextended margin

    This project focuses on understanding the geological conditions for the generation of hydrogen gas during mineral transformations in ultramafic rocks situated in hyperextended passive continental margins. We sample the fossil Ocean-Continent Transition Zone of the Jurassic Tethys Ocean exposed in Italy and Switzerland, to study the role of geological structures, especially oceanic detachment faults, and […] read more…