The hydrogen electrolyser is intended to be about 50MW and would potentially produce 25,000 kilograms of hydrogen each day.
A 50 MW energy to
hydrogen electrolyser is also proposed.
Not exact matches
It will focus on catalyst development for four applications: proton exchange membrane fuel cells to convert stored energy in non-fossil fuels into electricity;
electrolysers for splitting water into oxygen and
hydrogen — a potential clean fuel cell source; syngas, a mixture of CO and H2, which is generated from coal, gas and biomass, and widely used as a key intermediate in the chemical industry; and lithium - air batteries.
The condensed water is passed into an
electrolyser where an electric current splits the water into
hydrogen and oxygen.
Does it help to finance a solar plant combining it with
electrolysers for
hydrogen production?
Then again it might make more sense to set up a full
hydrogen economy with excess power from PV and other renewables, large and small, feeding into large efficient high - temperature
electrolysers, and
hydrogen then being stored centrally and distributed via the gas grid.
Excess wind energy powers an
electrolyser which separates
hydrogen and oxygen molecules that make water (hence H2O).
In my claim that
hydrogen cars will be the new gas guzzlers I rely on figures from Martin Eberhard and he uses 70 % for
electrolysers and 40 % for fuel cells.
Peaking renewable electricity, particularly from marine technologies, would primarily be stored as heat at electricity «regenerator» sites comprising a mix of technologies like molten salt stores and 10 GWe or more of steam turbines,
electrolysers and
hydrogen fuel cells and compressed air.