Funding will support the project team's small-scale research and development of a Quantum Enhanced Photonic Radio Frequency Imaging Technology to map the structural integrity of rock formations, identify fault zones, and detect fluid-filled fractures for more accurate geothermal assessments and production management.
Laboratory material analyses. …
Laboratory analysis in support of characterization of a geologic storage site.…
Funding will support the project team's small-scale research and development of an electrothermochemical technology to convert plastic waste into monomers using inexpensive catalysts.
CX-270829: Stanford University - Scaled Synthesis of Carbon Nanotubes via Autonomous Experimentation
Funding will support the project team's small-scale research and development of a reactor to produce high quality carbon nanotubes (CNT) at high production rates via combustion processes.
The U.S. Department of Energy (DOE) proposes to analyze fission gas from samples of high burnup boiling water reactor spent fuel rods (BWR rods), a…
The U.S. Department of Energy (DOE) proposes to analyze fission gas from samples of high burnup boiling water reactor spent fuel rods (BWR rods), a…
Operation and maintenance of the LECO Carbon/Sulfur. This method determines the concentration of carbon/sulfur in small lab samples.…
Funding will support the project team's small-scale research and development of smart screens that can automatically control fluid flow in enhanced geothermal systems (EGS) based on temperature by overcoming the challenges of premature thermal breakthrough and non-uniform heat extraction by enabling autonomous, temperature-based flow control without complex electronics or chemical treatments.
Funding will support the project team's small-scale research and development of gaseous optical elements technology for the purpose of manipulating high-power lasers for future laser-driven nuclear fusion power plants.