In natural gas-based direct reduction plants, pre-reduced iron ore pellets undergo reduction in a MIDREX shaft prior to being fed as hot DRI directly into an electric arc furnace. The material is melted in the electric arc furnace, producing liquid steel. No intermediate step is required and, depending on the MIDREX technology used, only a small amount of carburisation is needed to reduce the nitrogen content of the steel.
The carbon content of low-carbon to carbon-free DRI from hydrogen reduction can be changed in the lower cone of the shaft furnace, also known as the cooling zone. Scrap can also be charged into the electric arc furnace. The required degree of purity of the scrap is only determined by the quality requirements of downstream processing stages. For greenfield initiatives, this approach is a compelling solution.
One example of the application of this process is the H2 Green Steel project in Boden in northern Sweden. The world's first virtually carbon-neutral steelworks is being built there. The plant is set to produce green steel from 2025 and demonstrate the feasibility of producing high-quality DRI using 100% hydrogen.
"tkH2Steel": thyssenkrupp sets course for green steel
In August of this year, Vice Chancellor and Federal Minister for Economic Affairs and Climate Protection Robert Habeck confirmed the funding commitment for the "tkH2Steel" decarbonisation project amounting to around two billion euros. The state of North Rhine-Westphalia is contributing up to 700 million euros to the total funding. thyssenkrupp's own investment amounts to just under one billion euros. This marks the start of one of the world's largest decarbonisation projects.
Ambitious hydrogen ramp-up
The key to the transformation project is the ambitious ramp-up of the use of hydrogen, which will quickly save large amounts of CO2. It is the first plant combination of its kind in the world. The core of the concept is the integration of a technologically new plant combination into Europe's largest steelworks. The coal-based blast furnaces will be replaced by a 100% hydrogen-capable direct reduction plant with two smelters and a production capacity of 2.5 million tonnes of directly reduced iron per year. The iron produced there will be liquefied into pig iron in specially developed downstream melting units. All subsequent production steps can take place in the existing plant structure, including the steelworks.
The plant for the direct reduction of iron ore is scheduled for completion in 2026, but will initially run on natural gas. Annual savings of up to 3.5 million tonnes of CO2 are expected - that is already just under five percent of the Ruhr region's emissions. Hydrogen is expected to be available from 2029 so that the plant can then be operated with around 143,000 tonnes of hydrogen per year – the electricity required to produce this amount corresponds to the generation of around 500 wind turbines. The necessary prerequisites for achieving this ambitious goal are therefore a massive expansion of renewable energies and the rapid ramp-up of a functioning hydrogen market.