Summary
The FlexRICAN project brings together three landmark ESFRI infrastructures that have, or will have, when in operation different usages of energy: the European Spallation Source ERIC (ESS) in Sweden, the Extreme Light Infrastructure ERIC (ELI), with two running facilities (Czech Republic and Hungary) and the European Magnetic Field Laboratory AISBL (EMFL), with facilities in Grenoble and Nijmegen for DC fields and Dresden and Toulouse for pulsed fields (CNRS, SRU, HZDR). The RI’s and partners involved in FlexRICAN will unite their strength to optimize their ongoing (and/or future) energy projects. They will demonstrate that the RIs, as electro-intensive actors, are at the good scale to develop a global energetic approach delivering services to the European electrical grid through optimized energy flexibility and to local heating networks by developing Waste Heat Recovery projects.
Developing renewable energy capacity production and managing these developments in an integrated way thanks to energy oriented modelization integrating RIs user communities and the new stakeholders appears like a promising solution.
Through the development of a multi-energy approach integrating academic knowledge and two key actors of the energy sector, Alfa Laval (AL) and Energy Pool (EP), FlexRICAN will propose new technologies and solutions to increase resource use efficiency and reduce environmental impacts of European Research Infrastructures (RIs). The project will focus on assessing and validating the implementation of new solutions and technologies at the three ESFRI infrastructures involved. Prototypes and solutions will be developed and tested to identify solutions at the real scale of the infrastructures. It will contribute to quantify energy services and carbon print gain the RIs can performed throughout their full life cycle in order to increase the long-term sustainability of European Research Infrastructures and to contribute to the resilience of the energetical European system.
Developing renewable energy capacity production and managing these developments in an integrated way thanks to energy oriented modelization integrating RIs user communities and the new stakeholders appears like a promising solution.
Through the development of a multi-energy approach integrating academic knowledge and two key actors of the energy sector, Alfa Laval (AL) and Energy Pool (EP), FlexRICAN will propose new technologies and solutions to increase resource use efficiency and reduce environmental impacts of European Research Infrastructures (RIs). The project will focus on assessing and validating the implementation of new solutions and technologies at the three ESFRI infrastructures involved. Prototypes and solutions will be developed and tested to identify solutions at the real scale of the infrastructures. It will contribute to quantify energy services and carbon print gain the RIs can performed throughout their full life cycle in order to increase the long-term sustainability of European Research Infrastructures and to contribute to the resilience of the energetical European system.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101131516 |
| Start date: | 01-03-2024 |
| End date: | 28-02-2027 |
| Total budget - Public funding: | - 4 991 962,00 Euro |
Cordis data
Original description
The FlexRICAN project brings together three landmark ESFRI infrastructures that have, or will have, when in operation different usages of energy: the European Spallation Source ERIC (ESS) in Sweden, the Extreme Light Infrastructure ERIC (ELI), with two running facilities (Czech Republic and Hungary) and the European Magnetic Field Laboratory AISBL (EMFL), with facilities in Grenoble and Nijmegen for DC fields and Dresden and Toulouse for pulsed fields (CNRS, SRU, HZDR). The RI’s and partners involved in FlexRICAN will unite their strength to optimize their ongoing (and/or future) energy projects. They will demonstrate that the RIs, as electro-intensive actors, are at the good scale to develop a global energetic approach delivering services to the European electrical grid through optimized energy flexibility and to local heating networks by developing Waste Heat Recovery projects.Developing renewable energy capacity production and managing these developments in an integrated way thanks to energy oriented modelization integrating RIs user communities and the new stakeholders appears like a promising solution.
Through the development of a multi-energy approach integrating academic knowledge and two key actors of the energy sector, Alfa Laval (AL) and Energy Pool (EP), FlexRICAN will propose new technologies and solutions to increase resource use efficiency and reduce environmental impacts of European Research Infrastructures (RIs). The project will focus on assessing and validating the implementation of new solutions and technologies at the three ESFRI infrastructures involved. Prototypes and solutions will be developed and tested to identify solutions at the real scale of the infrastructures. It will contribute to quantify energy services and carbon print gain the RIs can performed throughout their full life cycle in order to increase the long-term sustainability of European Research Infrastructures and to contribute to the resilience of the energetical European system.
Status
SIGNEDCall topic
HORIZON-INFRA-2023-TECH-01-01Update Date
12-03-2024
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Organisations
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| EUROPEAN SPALLATION SOURCE ERIC (Coördinator)
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| ALFA LAVAL TECHNOLOGIES AB
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| CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)
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| ENERGY POOL DEVELOPPEMENT SAS
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| EUROPEAN MAGNETIC FIELD LABORATORY
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| EXTREME LIGHT INFRASTRUCTURE ERIC
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| HELMHOLTZ-ZENTRUM DRESDEN-ROSSENDORF EV
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| STICHTING KATHOLIEKE UNIVERSITEIT (SKU/RU)