Not exact matches
The HydroGEN program encompasses
advanced electrolytic,
photoelectrochemical, and solar thermochemical hydrogen production processes.
The LLNL AMPE code is optimized for high scalability on the leadership - class LLNL supercomputers and includes many recent
advanced developments that will enable higher - fidelity simulations of
photoelectrochemical and corrosion processes than would be achieved with more conventional codes and hardware.
The technologies include
advanced high - and low - temperature electrolysis as well as
photoelectrochemical (PEC) and solar thermochemical (STCH) water splitting.
Multiple technologies will be explored within the HydroGEN program including
advanced electrolysis,
photoelectrochemical processes, and solar thermochemical hydrogen production.
Researchers at the Energy Department's National Renewable Energy Laboratory (NREL) have made
advances toward affordable
photoelectrochemical (PEC) production of hydrogen.
Experienced research and development professional motivated to strategically solve difficult technical problems to
advance electrochemical and
photoelectrochemical energy conversion and storage technologies (fuel cells, supercapacitors, redox flow batteries, metal - air batteries, and
photoelectrochemical cells) and deliver meaningful results for the betterment of our society.