Green H₂ production is the first step in the “ Green H₂ P.S.T.R. ” module. Using water electrolysis to split hydrogen and oxygen by applying energy generated by I.R.E.P.P.
Solid-state H₂ has the advantages of high density, low cost, low risk, and qualitative for longtime storage under a dry ambient- temperature environment.
Magnesium (Mg) - based materials are considered the highest H₂ storage density among metal solid-state H₂ storage materials.
the transport vehicles for solid-state H₂ storage can use H₂ energy as fuel, further achieving environmental protection and accelerating the development of the H₂ energy industry.
It uses solid-state H₂ proton conductors as electrolytes, and electrical energy is generated through reactions between solid-state oxygen electrodes and solid-state H₂ electrodes.
Using a hydrogen fuel cell generator to convert gaseous hydrogen into stable electrical power.