Publication of H2eart for Europe new roadmap
A European underground hydrogen storage roadmap: H2eart for Europe’s recommendations to secure the scale up of Underground Hydrogen storage.
Underground Energy Storage Operators (UESO) Joins Forces with H2eart for Europe to Advance Underground Energy Storage
Recognising the pressing challenge of climate change and the increasing use of intermittently produced
renewable energy sources (RES) by many EU member states, H2eart for Europe emphasizes the need for
clean storage options capable of providing necessary flexibility.
INES Joins “H2eart for Europe” as a Partner Association in Advancing Underground Hydrogen Storage and Addressing Urgent Flexibility Needs
ENGLISH VERSION: The Initiative Energien Speichern e.V. (INES), representing leading operators of German gas and hydrogen storage facilities, and “H2eart for Europe,” a European alliance dedicated to accelerating the adoption of Underground Hydrogen Storage (UHS) technologies, proudly announce their partnership.
INES schließt sich H2eart for Europe an
GERMAN VERSION: Die Initiative Energien Speichern e.V. (INES) und H2eart for Europe geben ihre Partnerschaft
bekannt. Ziel der Partnerschaft ist das Vorantreiben von unterirdischen
Wasserstoffspeicherprojekten und das Decken von dringendem Flexibilitätsbedarf.
Gemeinsam für ein klimaneutrales Europa: EWE ist jüngstes Mitglied der Wasserstoffspeicher-Initiative H2eart for Europe
GERMAN VERSION: EWE und H2eart for Europe geben ihre neue Partnerschaft bekannt und unterstützen gemeinsam die
Entwicklung von Technologien zur unterirdischen Wasserstoffspeicherung in ganz Europa.
Together for a Decarbonised Europe: EWE Is H2eart for Europe’s Newest Member
ENGLISH VERSION: EWE and H2eart for Europe announce their new partnership and join forces to support the development of
Underground Hydrogen Storage (UHS) technologies across Europe.
HyStorage first test phase successful – hydrogen extracted again after injection into porous rock
The first operating phase of HyStorage with a 5% hydrogen blend was successfully completed end of
January 2024. The partner companies presented the first interim results of the research project, which
examines the integrity of porous rock formations for the storage of hydrogen.