Germany – Salzgitter AG and Uniper SE sign pre-contract for the supply and purchase of green hydrogen. This is to be produced in the large-scale electrolysis plant planned by Uniper, which is scheduled to be commissioned in Wilhelmshaven in 2028. The green hydrogen will be required for the SALCOSĀ® – Salzgitter Low CO2 Steelmaking program and will be used in the direct reduction plant being constructed in Salzgitter to produce almost CO2-neutral steel.

The preliminary agreement covers, among other things, the technical and commercial framework conditions for the supply of hydrogen. Depending in particular on the availability of the German H2 core network and a specific pipeline route from Wilhelmshaven to Salzgitter, Uniper could supply up to 20,000 tons of certified green hydrogen to Salzgitter every year starting 2028 at the earliest.

The green hydrogen will be produced using renewable energies in the 200 MW electrolysis plant that Uniper plans to build on the site of the former hard coal-fired power plant in Wilhelmshaven. This is the first step towards an external hydrogen supply for SALCOSĀ®, which will require up to 150,000 tons of hydrogen per year in its first stage. A pipeline connection from Wilhelmshaven to Salzgitter is absolutely essential and must be established as quickly as possible.

Wilhelmshaven is the ideal location for Unipers Green Wilhelmshaven projects due to its easy access to renewable energies, particularly from the offshore wind farms in the North Sea, the early connection to the German hydrogen pipeline system, and the planned hydrogen storage facilities in northern Germany. The plan is to expand electrolysis to a capacity of 1 GW, which will enable hydrogen production of 100,000 tons per year. In addition, Uniper will build a terminal in Wilhelmshaven for the import of green ammonia by ship with an output volume of at least 300,000 tonnes of H2, which can be converted into hydrogen and also fed into the German nuclear grid.

The Salzgitter Group is pursuing a carbon direct avoidance strategy and will significantly reduce its carbon footprint. To achieve this, the SALCOSĀ® program is gradually converting traditional coal-based steel production via the blast furnace route to direct reduction technology (DRI production with downstream EAF), which will initially mainly use natural gas and increasingly green hydrogen as a reducing material. The first step has been prepared by concluding a pre-contract with Uniper.