Award Data

To eliminate the release of ventilation air methane (VAM) associated with coal production, the core challenge is how to oxidize methane given the low concentrations. Precision Combustion, Inc. (PCI) proposes an innovative modular array combining three key elements: (1) short contact time, low thermal mass reactor design to achieve maximal total conversion in a small volume, (2) catalyst formulati ...

Ocean Renewable Power Company, Inc. (ORPC) is a global leader in marine renewable energy technology and a developer of eco-conscious projects that harness the power of oceans and rivers to create clean, predictable renewable energy. Since 2004, ORPC has made significant progress towards implementing high reliability systems that demonstrate innovative high reliability systems. To achieve the low c ...

Nitricity is developing a technology that produces nitrogen fertilizer using inputs of air, water, and renewable electricity. If successful, this technology has the potential to economically decarbonize fertilizer production from the Haber-Bosch process, which is a $68B global market and gigaton CO2eq/yr mitigation opportunity. Our team has developed a plasma-based process that couples with on-far ...

Herein, Zymochem, Inc., in partnership with the National Renewable Energy Laboratory (NREL), proposes to develop carbon- and energy-efficient biocatalysts capable of co-conversion of C1- and biomass-derived substrates to a high-volume platform fuel and chemical intermediate. We propose to demonstrate a carbon conserving decoupled growth & production (DGP) process to enable improved carbon efficien ...

Michigan Aerospace Corporation proposes to develop an inexpensive system to sense nitrous oxide (N2O) emissions from agricultural fields using laser-based sensors mounted on drones. These sensors include an optical absorption cell, a wind sensor, and a camera for plant health and ground assessment. The measurements from these sensors will be combined and processed with artificial-intelligence-enab ...

PCI’s is proposing an advanced energy storage and power generator design for meeting aggressive specific-power and specific-energy targets required for all-electric propulsion of narrow-body commercial aircraft. Key drivers are an exceptionally power-dense solid oxide fuel cell operating with energy-dense carbon neutral liquid fuels and a hybridized system architecture that maximizes component e ...

Addressing climate change from greenhouse gas emissions to prevent continued global warming will be done with a suite of technologies. Direct air capture (DAC) of carbon dioxide (CO2) is receiving significant attention as a way to reverse these emissions, however, it is a relatively new technology that will require continued technology development for viable cost targets to be realized. DAC is sig ...

Producing green hydrogen using renewable energy can reduce emissions for major domestic industrial sectors which use hydrogen as a feedstock like ammonia fertilizer, refineries, chemicals and steel. Additionally, green hydrogen can be used to reduce dependencies on foreign energy sources as a transportation fuel for heavy-duty vehicles, a long-duration energy storage medium, or as a natural gas re ...

Increasing concentration of CO 2 in the atmosphere poses a threat to the global climate. One promising method for reducing atmospheric CO 2 is a repeated enhanced weathering process. Enhanced weathering is a process where a natural reaction between CO 2 gas and minerals rich in magnesium and/or calcium is accelerated to quickly form a solid carbonate. The cycle can be repeated by separating the CO ...

We are building a technology that produces low cost hydrogen while releasing low or no carbon dioxide emissions. Key to our affordable hydrogen is the co-generation of valuable co-products like: Sulfuric Acid or Cement. Our processes are lower emission, lower energy and lower cost than conventional production method. We validated a proof-of-concept in our lab in May 2019 and our objective is to de ...