Additionally, high temperatures enables
efficient hydrogen production with what would otherwise be waste power and heat in low load periods.
In addition, they revealed that the excited electrons move to the lanthamum titanate, leading to
efficient hydrogen production from water by proton reduction.
Idaho National Laboratory (INL) has a well - established capability for performance testing of solid - oxide cells and stacks, operating in the electrolysis mode for
efficient hydrogen production from steam.
«
Efficient hydrogen production and storage represents the future for efficient and safe aircraft inflight energy needs.»
Chen noted, however, that researchers still have a long way to go to achieve cheap and
efficient hydrogen production.
Not exact matches
VHTR plants could even produce
hydrogen for fuel using high - temperature steam electrolysis, which breaks apart the bonds of water molecules; this process is 50 percent more energy -
efficient than existing
hydrogen production methods.
University researchers from two continents have engineered an
efficient and environmentally friendly catalyst for the
production of molecular
hydrogen (H2), a compound used extensively in modern industry to manufacture fertilizer and refine crude oil into gasoline.
Hydrogen production using this material is enhanced not only by the broader spectrum of light absorption, but by the more
efficient electron conduction, caused by the unique interface between two dimensional materials of BP and LTO.
Such initiatives include research focused on more
efficient production of gaseous
hydrogen fuel by using solar energy to break water down into its components of
hydrogen and oxygen.
The DemoSNG pilot plant constructed by the KIT will be used in Sweden for the reliable and
efficient production of methane from biomass - based carbon dioxide and variable amounts of
hydrogen from green power.
In California, Onsite Power Systems, Inc. has begun commercial
production of an anaerobicdigester system that uses a special design to create the optimal environmentfor bacteria and ultimately more
efficient and cost - effective conversion offood waste to biogases (
hydrogen and methane).
«Single - step
hydrogen peroxide
production could be cleaner, more
efficient.»
Electrochemical tests of the separate ingredients showed that molybdenum carbide is effective for converting H2O to H2, but not stable in acidic solution, while molybdenum nitride is corrosion - resistant but not
efficient for
hydrogen production.
Lee, M. H. et al. p - Type InP Nanopillar Photocathodes for
Efficient Solar - Driven
Hydrogen Production.
The goal is to expedite the discovery and development of
efficient, durable, and low - cost AWS materials capable of meeting the long term
hydrogen production cost goal of < $ 2 / kg
hydrogen through the establishment and implementation of best practices.
Al plasmonic structures fabricated using nanoimprint lithography combine scalability, manufacturability and low cost materials to enable
efficient photoelectrochemical
hydrogen productions.
The discovery can lead to the development of
efficient electrocatalysts for large scale
production of synthesis gas — a mixture of carbon monoxide and
hydrogen.
While less
efficient, off peak or remote solar and wind offer clean
hydrogen production with electrolysis.
In addition, Sundrop Fuels is able to maximize its synthesis gas
production by integrating natural gas with biomass feedstock, facilitating the most
efficient utilization of
hydrogen from both the biomass and natural gas to produce higher yields than any other biomass process, it says.
Solid oxide electrolysis cell (SOEC) has the potential to be cost - effective, environmentally friendly, and highly
efficient for the
production of
hydrogen from water.
Directs the Secretary to conduct programs in partnership with the private sector that address: (1)
hydrogen production from diverse energy sources; (2) use of
hydrogen for commercial, industrial, and residential electric power generation; (3) safe delivery of
hydrogen or
hydrogen - carrier fuels, (4) advanced vehicle technologies; (5) storage of
hydrogen or
hydrogen - carrier fuels; (6) development of safe, durable, affordable, and
efficient fuel cells; and (7) the ability of domestic automobile manufacturers to manufacture commercially available competitive hybrid vehicle technologies in the United States.
New guidelines laid down by Nebraska and Chinese researchers could steer the design of less costly, more
efficient catalysts geared toward revving up the
production of
hydrogen as a renewable fuel.
The research is part of the nano - tera SHINE — project to develop an
efficient and cost - effective
hydrogen production system using sunlight and water.
With alternatives to explosive
hydrogen possible to keep these afloat, if a zeppelin can offer a zero - carbon, energy -
efficient and safe flight, what's holding up
production?
Many new technologies could change the whole picture such as massive energy storage,
efficient electro - catalytic
hydrogen production, ambient temperature superconductors etc. but with the current technology investing in wind / solar over nuclear will aggravate our GHG emission problems not improve them.