Hybrid Energy AS, with its daughter company Hystorsys AS, has been awarded the contract for the installation of the world´s largest H2 storage facility based on metal hydride at Vestsiden Junior Highschool in Kongsberg.
According to Yngve Solvang CEO of Hybrid Energy said, “This ground-breaking technology used on such a large scale will be the first of its kind. This is a major milestone in H2 storage in view of replacing oil and gas and will open a large market potential.”
Kongsberg Kommune has ordered a H2 energy container for its Junior Highschool. The excess energy produced by the solar panels during summer will be stored as H2, to be consumed during winter. The process (FIG. 1) includes 3 steps: 1- an electrolyzer generating H2, 2- storage of H2, 3 – fuel cell to re-generate electricity.
FIG. 1 System overview
Storage is the weakest link of the H2 value chain: hydrogen is very voluminous => 1kg needs 11 m3 equivalent to 1 small truck. Therefore, it needs to be either compressed or cool down to very low temperature: both those processes are very energy consuming and complex.
Hystorsys’ H2 storage solution is unique, based on metal hydride which allow a much higher energy density than lithium batteries.
This storage solution is safe as the pressure will not exceed 30 bar (FIG.2). This is the safest method in a school environment.
FIG .2 Hybrid Energy/Hystorsys storage
1 kg of H2, safely stored with metal hydride in a smaller volume(FIG. 2), compared to traditional compressed H2 storage solution (FIG. 3).
FIG. 3 Traditional storage