The U.S. Department of Energy (DOE) is proposing to provide federal funding to the Pacific Ocean Energy Trust (POET) to administer the Testing and Access for Marine Energy Research (TEAMER) program.
The Grid Optimization (GO) Competition Challenge 3 program will support the research and development of software management solutions focused on the security-constrained optimal power flow (SCOPF) problem, part of a continuing effort of GO Challenges 1 and 2, to successfully discover, develop, and test innovative and disruptive software solutions for critical energy challenges and to overcome existing barriers.
BPA proposes to maintain low growing vegetation communities in specific, localized areas in and adjacent to the Big Eddy-Ostrander No.1, Knight-Ost…
Bonneville Power Administration (BPA) proposes to fund the Confederated Tribes of the Umatilla Indian Reservation (CTUIR) to address non-recurring …
DOE proposes to grant authorizations for export of excess electricity, pursuant to DOE's authorities described in Part II, Section 202(e) of the Federal Power Act (FPA).
The proposed project involves immunodetection of Rubrivivax gelatinosus AcsF (RgAcsF) and Chloracidobacterium thermophilum AcsF (CtAcsF) polypeptides.
Bonneville Power Administration (BPA) proposes to fund Washington Department of Fish and Wildlife (WWDFW) to conduct operation and maintenance acti…
Funding will support the project team's small-scale research and development of a high-temperature sliding sleeve to increase energy recovery in enhanced geothermal systems (EGS) by 200 percent to 500 percent by increasing the contact area between the connected fracture system and the reservoir rock matrix.
CX-270842: The MITRE Corporation - All-Optical Chiplets for Energy-Efficient Artificial Intelligence
Funding will support the project team's small-scale research and development of computer chiplets based on photonic integrated circuits that use light instead of electricity for computation.
Funding will support the project team's small-scale research and development of an electrochemically catalyzed graphitization process using molten salts, operating at much lower temperatures (approx. 850°Celsius) and in shorter timescales (3-6 hours) to produce high-purity synthetic graphite.