According to the National Renewable Energy Laboratory, the United States, Germany, Canada, Spain and the United Kingdom have
all built hydrogen storage projects from renewable electricity.
Not exact matches
The LLNL team has
built a strong foundation of coupling spectroscopy experiments with advanced simulations and has recently extended their work to include electrochemical systems [1] and surface / interface electronic structure of
hydrogen storage materials.
The
HydroGEN data infrastructure is
built using standardized, open source tools and enables the capture,
storage, analysis, and visualization of both experimental and computational datasets that are generated in
HydroGEN projects.
Mendoza - Cortes has been conducting clean - energy research for several years and recently theorized a way to
build more efficient
storage for
hydrogen fuel.
• Carbon Dioxide Capture and
Storage (2006) • Energy Sector Methane Recovery and Use Initiative (2007) • IEA Energy Technology Essentials: Biofuel Production, Biomass Power for Power Generation and CHP, CO2 Capture and
Storage, Fuel Cells,
Hydrogen Production and Distribution, Nuclear Power (2007 & 2006) • International CHP / DHC Collaborative (2007) • International Energy Technology Co-operation — Frequently Asked Questions (Chinese, Russian)(2006/7) • Renewables in Global Energy Supply (2007) • Energy Technology Perspectives Fact Sheets:
Buildings and Appliances; Electricity Generation; Industry; Road Transport Technologies and Fuels; and Scenario Analysis (2006)
Hydrogen: being discussed for heat in
buildings, industry, and also, with interim
storage, for electricity production in markets where (subsidized) zero - dispatch - cost renewables make CCS plant load factors uncertain.
You start with CO2 in the ocean, and
hydrogen from solar power (which eliminates the need for inverters, etc.), feed it through bio-reactors filled with tailored methanogens, and feed the methane into the same
storage, distribution, and power generating infrastructure you
built for NG.