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05
'23
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Fraunhofer News
Fraunhofer Converting a steel mill to climate-neutral steel production
Steel production causes significant emissions of carbon dioxide. To decarbonize steel production and its high carbon dioxide emissions, Fraunhofer researchers, TS ELINO GmbH and Salzgitter AG are working on converting an existing steel mill to climate-neutral production methods.
Steel has many useful qualities and is found in virtually all products where strength, malleability and stability are key properties. Whether in buildings, vehicles, machines or household appliances, steel is an indispensable component — but according to the Competence Centre on Climate Change Mitigation in Energy-Intensive Industries (KEI), around 55 million tons of CO2 are emitted every year from steel production in Germany alone. The steel industry is therefore responsible for around 28 percent of the total CO2 emissions generated by German industry. This is primarily due to the use of coke, which is required in blast furnaces to remove oxygen from the iron ore and to extract the pig iron.
Work has been underway to develop new technologies to decarbonize production for years. The Fraunhofer Institute for Ceramic Technologies and Systems IKTS, the partner institutes Fraunhofer Institute for Systems and Innovation Research ISI and Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT as well as Salzgitter AG are focusing on hydrogen-based direct reduction. During direct reduction in a reactor, the iron ore reacts with hydrogen at a high temperature. This hydrogen acts as a reducing agent and removes the iron oxide from the iron ore. What remains is the raw pig iron. “By using electricity from renewable energy sources, the production of hydrogen is completely free of CO2 emissions. This means that by implementing green hydrogen in crude steel production, we can save up to 97 percent of harmful carbon dioxide,” explains Dr. Matthias Jahn, head of department for Energy and Process Engineering at Fraunhofer IKTS.
Green hydrogen from high-temperature electrolysis
In principle, green hydrogen is produced using electrolysis, where an electrical voltage is applied to split steam into hydrogen and oxygen. In particular, high-temperature electrolysis based on solid oxide electrolysis cells (SOEC) has had a long history at Fraunhofer IKTS. Given that the waste heat from high-temperature processes can be used to increase the electrical efficiency, this offers considerable advantages compared to other electrolysis processes — especially in steel production. Fraunhofer IKTS researchers have developed in-house electrolysis cells and stacks and used their own operating data for the techno-economic assessment of the process concept. Furthermore, the consortium has demonstrated the feasibility of the new process in both the MACOR study and BeWiSe follow-up project.
Demonstration plant on the company premises
Having launched their new BeWiSe project, which is funded by the German Federal Ministry of Education and Research (BMBF), the researchers and their industrial partners are now further optimizing the entire process chain in terms of resource and energy efficiency. For this purpose, a direct reduction demonstration plant measuring approx. 30 meters in height on the Salzgitter AG premises is also used. For example, the project is investigating how biogenic materials can be used as a substitute for coal and natural gas to adjust the carbon content required in steel. Considering that large quantities of water are required, among other things, for electrolysis during the production of green steel, the project is also focusing on how to optimize the use of water. As a result, the water formed during iron ore reduction with hydrogen is to be processed as far as possible for reuse.
The researchers are contributing all of their expertise, which ranges from high-temperature electrolysis, membrane processes for gas separation and water treatment to process simulation and plant modeling using digital twins. “We are not satisfied with simply providing selective solutions and laboratory plants. We aim to offer Salzgitter AG comprehensive technological support for all process steps,” enthuses Gregor Herz, group manager for Modeling and Simulation at Fraunhofer IKTS.
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