Bloom Energy's breakthrough solid
oxide fuel cell technology generates clean, highly - efficient energy onsite from alternative energy sources.
The main hardware in the existing research infrastructure at IFE Hynor is found in a process room for testing and development of high temperature hydrogen production and solid
oxide fuel cell technology (SOFC), including a Dual Bubbling Fluidized Bed reactor prototype (DBFB) for continuous hydrogen production by sorption - enhanced reforming (SER) of methane with an integrated process for CO2 - capture.
Not exact matches
PULLMAN, Wash. — Washington State University researchers have determined a key step in improving solid
oxide fuel cells (SOFCs), a promising clean energy
technology that has struggled to gain wide acceptance in the marketplace.
O'Brien, J. E., Stoots, C. M., Herring, J. S., Lessing, P. A., Hartvigsen, J. J., and Elangovan, S., «Performance Measurements of Solid -
Oxide Electrolysis
Cells for Hydrogen Production from Nuclear Energy,» Journal of
Fuel Cell Science and
Technology, Vol.
The DOE contract continues the development of the solid
oxide fuel cell (SOFC)
technology for hydrogen production using electrolysis through a solid
oxide electrolyzer
cell (SOEC).
The US Department of Energy's (DOE's) Office of Fossil Energy (FE) has selected 16 projects to receive $ 10.2 million in funding to advance solid
oxide fuel cell (SOFC)
technology.
The new projects were selected under funding opportunity announcement DE-FOA-000 1735, Solid
Oxide Fuel Cell Prototype System Testing and Core
Technology... Read more →
The biggest areas of focus for this funding were hydrogen production and solid
oxide fuel cell (SOFC)
technology.