Summary
Today, the European Union?s steel sector is a modern industry with its main customer base found within the EU home markets, particularly in high-end segments. However, challenges remain to keep the EU steel sector both competitive at a global level and climate-neutral, in line with the European Green Deal and the CleanSteel Partnership?s vision.
The scrap usage in steelmaking is a common practice to improve the process? sustainability, as it decreases the use of virgin raw materials and boosts the circularity of the sector (decreasing CO2 emissions and electivity consumption). Nevertheless, the current trend in the EU scrap market points at a slight decrease in the pre-consumer scrap and an increase in the short- and long-term of the post-consumer scrap stream, due to an increase in steel consumption. Nowadays, these ?low-quality? scrap streams are not suitable for most applications, thus limiting their use in steelmaking.
In order to increase the steel scrap recycling capacity and energy efficiency, while keeping EU competitive and safe in terms of raw materials imports, energy consumption and climate change impact, innovative technologies to ?clean? the scrap before it reaches the steel furnaces need to be implemented. CAESAR gathers up steelmakers, technology developers and research centers in a joint effort to validate, at full-size industrial scale, integrated scrap upgrading, sorting and characterization technologies, thus enabling to untap volumes of low-quality scrap streams in Europe, while keeping a high-quality product and generating valorization routes for all the non-ferrous fractions obtained, towards a zero waste steel sector.
The scrap usage in steelmaking is a common practice to improve the process? sustainability, as it decreases the use of virgin raw materials and boosts the circularity of the sector (decreasing CO2 emissions and electivity consumption). Nevertheless, the current trend in the EU scrap market points at a slight decrease in the pre-consumer scrap and an increase in the short- and long-term of the post-consumer scrap stream, due to an increase in steel consumption. Nowadays, these ?low-quality? scrap streams are not suitable for most applications, thus limiting their use in steelmaking.
In order to increase the steel scrap recycling capacity and energy efficiency, while keeping EU competitive and safe in terms of raw materials imports, energy consumption and climate change impact, innovative technologies to ?clean? the scrap before it reaches the steel furnaces need to be implemented. CAESAR gathers up steelmakers, technology developers and research centers in a joint effort to validate, at full-size industrial scale, integrated scrap upgrading, sorting and characterization technologies, thus enabling to untap volumes of low-quality scrap streams in Europe, while keeping a high-quality product and generating valorization routes for all the non-ferrous fractions obtained, towards a zero waste steel sector.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101058520 |
| Start date: | 01-06-2022 |
| End date: | 31-05-2026 |
| Total budget - Public funding: | 8 027 047,00 Euro - 5 556 227,00 Euro |
Cordis data
Original description
Today, the European Union?s steel sector is a modern industry with its main customer base found within the EU home markets, particularly in high-end segments. However, challenges remain to keep the EU steel sector both competitive at a global level and climate-neutral, in line with the European Green Deal and the CleanSteel Partnership?s vision.The scrap usage in steelmaking is a common practice to improve the process? sustainability, as it decreases the use of virgin raw materials and boosts the circularity of the sector (decreasing CO2 emissions and electivity consumption). Nevertheless, the current trend in the EU scrap market points at a slight decrease in the pre-consumer scrap and an increase in the short- and long-term of the post-consumer scrap stream, due to an increase in steel consumption. Nowadays, these ?low-quality? scrap streams are not suitable for most applications, thus limiting their use in steelmaking.
In order to increase the steel scrap recycling capacity and energy efficiency, while keeping EU competitive and safe in terms of raw materials imports, energy consumption and climate change impact, innovative technologies to ?clean? the scrap before it reaches the steel furnaces need to be implemented. CAESAR gathers up steelmakers, technology developers and research centers in a joint effort to validate, at full-size industrial scale, integrated scrap upgrading, sorting and characterization technologies, thus enabling to untap volumes of low-quality scrap streams in Europe, while keeping a high-quality product and generating valorization routes for all the non-ferrous fractions obtained, towards a zero waste steel sector.
Status
SIGNEDCall topic
HORIZON-CL4-2021-TWIN-TRANSITION-01-19Update Date
27-10-2022
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Organisations
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| CENTRE DE RECHERCHES METALLURGIQUES ASBL - CRM Group (Coördinator)
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| ARCELORMITTAL BASQUE COUNTRY RESEARCH CENTRE AIE
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| ARCELORMITTAL BELVAL & DIFFERDANGE SA
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| ARCELORMITTAL FRANCE
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| ARCELORMITTAL SESTAO SL
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| ArcelorMittal Belgium
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| ArcelorMittal Maizières Research SA
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| FUNDACION AZTERLAN
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| FUNDACION INNOVACION AMBIENTAL Y TECNOLOGICA
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| KATHOLIEKE UNIVERSITEIT LEUVEN
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| REYDESA RECYCLING SL
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| ROLANFER RECYCLAGE
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| TOMRA SORTING GMBH