The project will test a CO2 elective membrane on a slip stream of flue gas from a coal-fired plant.…
To demonstrate the commercial feasibility of a low-cost, highly efficient H-rSOC system based on proton conductors for hydrogen and electricity gen…
This Amended Determination follows the approval of a new team member and additional funds to support the project team's information gathering and a…
To advance high efficiency and low cost Reversible Solid Oxide Fuel Cell (RSOFC) system technology for hybrid operation of water electolysis for hy…
Mid-Atlantic Electrification Partnership…
The project would scale-up, manufacture, and field test solid-amine CO2 adsorption-desorption contactor technology for direct air capture.…
The University at Buffalo will conduct laboratory scale research to prepare and characterize membrane adsorbents for direct air capture of carbon d…
To develop and demonstrate a reversible solid oxide cell (RSOC) based on a compact and low-cost stack architecture that incorporates high performan…
The objective is to integrate metal-organic framework (MOF) sorbents and sorbent-binder composite coatings in a system to capture atmospheric carbo…
Operate an Advanced Sensors Development Laboratory at the NETL Pittsburgh site in B-83, R-315/221....…