Funding will support the project team's small-scale research and development of a precision leaching technology that selectively extracts copper from heavily contaminated mining ores and concentrates, helping miners and U.S. processors recover more usable copper from difficult-to-treat domestic resources.
R and D focused on designing, fabricating, testing (lab), optimizing, modeling, and scaling DLE, NF, and DME-FC technologies into an integrated pre…
The goal of this activity is to develop a series of adsorbent beds at differing temperatures to selectively remove impurities from a hydrogen isoto…
The U.S. Department of Energy (DOE) is proposing to provide federal funding to Purdue University to design, develop, fabricate, and test a Wave-Pow…
Funding will support the project team's small-scale research and development of a continuous plasma reactor to synthesize ammonia, ethylene, and other chemicals using methane and nitrogen feedstocks.
Funding will support the project team's small-scale research and development of a seismic monitoring solution that leverages fiber optic sensors and high-performance computing to characterize subsurface fractures and seismic risk for geothermal operations in real time.
Funding will support the project team's small-scale research and development of a spectroscopic system to monitor mineral impurities in gaseous and supercritical carbon dioxide to enhance large scale transport and reduce damage to pipelines from corrosion by impurities.
Operation and maintenance of the LECO Carbon/Sulfur and Oxygen/Nitrogen/Hydrogen determinator. These methods determine the concentration of oxygen/…
The Galvanizing Leaps in Advanced Super INsulating Glass (GLASING) program supports small-scale research and development of high performance Insulated Glass Units (IGU) to improve the energy performance of windows in new and existing buildings.
This Second Amended Determination follows the approval of additional funding, period of performance, and new project milestones to support the project team's small-scale research and development activities to further advance their artificial intelligence and physics-based simulation methods to enable secure immobilization of salt waste from molten salt reactors under the Optimizing Nuclear Waste and Advanced Reactor Disposal Systems (ONWARDS) program.