There are some new short to medium term storage options emerging, which can buffer variable outputs from wind etc, for example various types of flow battery, liquid air storage and even conversion to hydrogen gas
via electrolysis, but the problems with storage is that it's inefficient and expensive.
A much smaller proportion of hydrogen is produced
via electrolysis of water, which can be a far more sustainable method if the electricity is produced from renewable sources.
AkzoNobel Specialty Chemicals and Gasunie New Energy are partnering to investigate the possible large scale conversion of sustainable electricity into green hydrogen
via the electrolysis of water.
The National Renewable Energy Laboratory has a functioning wind - powered hydrogen filling station in Boulder, Colorado that uses wind power to create hydrogen
via electrolysis.
In 2006, a study for the IEEE showed that for hydrogen produced
via electrolysis of water: «Only about 25 % of the power generated from wind, water, or sun is converted to practical use.»
Peter Maier (# 16), since low - carbon footprint hydrogen will probably be made
via electrolysis, the «hydrogen economy» makes little sense.
The silver ions (Ag +) are generated
via electrolysis.
The best way to describe a good colloidal silver
via the electrolysis method is the term «isolated silver».
There are three possible «states of silver» that are created purposefully
via the electrolysis method: Ionic silver (Ag +), charged silver particles, which are clusters of negatively charged silver atoms (AG --RRB-, and metallic silver particles (charged silver particles can agglomerate and drop out of the colloidal suspension).
The Russians also did some work developing electrolyzers that can convert water,
via electrolysis, into gaseous hydrogen and oxygen.
Not exact matches
The target hydrogen pathways in this study are H2
via natural gas steam reforming (NG SR), H2
via naphtha steam reforming (Naphtha SR), H2
via liquefied petroleum gas steam reforming (LPG SR), and H2
via water
electrolysis (WE).
Carrying a portable power inverter and copper pipes to Michael Heizer's Double Negative (1969), Robert Smithson's Spiral Jetty (1970) and Nancy Holt's Sun Tunnels (1976), an ion exchange with each site was produced
via a process of copper
electrolysis (a reaction of copper, salt and water in the presence of electricity).