Summary
RecHycle's goal is to implement a gas hub, capable of mixing metallurgic gases produced on site with or without external (green) hydrogen sources. This is to be fed ultimately into the Blast Furnace and a future DRI furnace to sustainably produce green steel.
The project will demonstrate a cost-efficient solution to decrease carbon emissions by initiating a new industrial symbiosis between and within the steel industry, chemical industry and renewable energy sources (e.g. wind or solar to obtain green electricity or hydrogen). The project will contribute in the shift towards a circular economy where waste products are valorised to the maximum of their potential. Furthermore, the project is to serve as a stepping stone towards further development of synergies between companies within the North Sea Port industrial area, thus creating new opportunities for innovation and economic activities.
Challenges to be addressed are the dynamic optimization of gas mixtures and flows, minimizing risks of hydrogen on material embrittlement, ceramic feed-inlet (Tuyere?s) within the furnaces, the quality of the produced steel and the (future) material scrap streams of the DRI. Rechycle is to be executed through a consortium of 6 partners from 4 different countries including 2 industrial partners that are world leading in the steel manufacturing industry and 4 research partners specialized in hydrogen-based studies.
The project will demonstrate a cost-efficient solution to decrease carbon emissions by initiating a new industrial symbiosis between and within the steel industry, chemical industry and renewable energy sources (e.g. wind or solar to obtain green electricity or hydrogen). The project will contribute in the shift towards a circular economy where waste products are valorised to the maximum of their potential. Furthermore, the project is to serve as a stepping stone towards further development of synergies between companies within the North Sea Port industrial area, thus creating new opportunities for innovation and economic activities.
Challenges to be addressed are the dynamic optimization of gas mixtures and flows, minimizing risks of hydrogen on material embrittlement, ceramic feed-inlet (Tuyere?s) within the furnaces, the quality of the produced steel and the (future) material scrap streams of the DRI. Rechycle is to be executed through a consortium of 6 partners from 4 different countries including 2 industrial partners that are world leading in the steel manufacturing industry and 4 research partners specialized in hydrogen-based studies.
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| Web resources: | https://cordis.europa.eu/project/id/101058692 |
| Start date: | 01-06-2022 |
| End date: | 31-05-2026 |
| Total budget - Public funding: | 28 419 720,00 Euro - 6 226 743,00 Euro |
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Original description
RecHycle's goal is to implement a gas hub, capable of mixing metallurgic gases produced on site with or without external (green) hydrogen sources. This is to be fed ultimately into the Blast Furnace and a future DRI furnace to sustainably produce green steel.The project will demonstrate a cost-efficient solution to decrease carbon emissions by initiating a new industrial symbiosis between and within the steel industry, chemical industry and renewable energy sources (e.g. wind or solar to obtain green electricity or hydrogen). The project will contribute in the shift towards a circular economy where waste products are valorised to the maximum of their potential. Furthermore, the project is to serve as a stepping stone towards further development of synergies between companies within the North Sea Port industrial area, thus creating new opportunities for innovation and economic activities.
Challenges to be addressed are the dynamic optimization of gas mixtures and flows, minimizing risks of hydrogen on material embrittlement, ceramic feed-inlet (Tuyere?s) within the furnaces, the quality of the produced steel and the (future) material scrap streams of the DRI. Rechycle is to be executed through a consortium of 6 partners from 4 different countries including 2 industrial partners that are world leading in the steel manufacturing industry and 4 research partners specialized in hydrogen-based studies.
Status
SIGNEDCall topic
HORIZON-CL4-2021-TWIN-TRANSITION-01-22Update Date
27-10-2022
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