SCARLET | Superconducting cables for sustainable energy transition

Summary
Superconducting medium-voltage cables, based on HTS and MgB2 materials, have the potential to become the preferred solution for energy transmission from many renewable energy sites to the electricity grid. Onshore HTS cables provide a compact design, which preserves the environment in protected areas and minimizes land use in urban areas where space is limited. Offshore HTS cables compete on cost and – compared to conventional HVDC cables – have the clear benefit of eliminating the need for large and costly converter stations on the offshore platforms. MgB2 cables in combination with safe liquid hydrogen transport directly from renewable energy generation sites to e.g., ports and heavy industries, introduce a new paradigm of two energy vectors used simultaneously in the future.

Both HTS, cooled with liquid nitrogen, and MgB2, cooled with liquid hydrogen, MVDC superconducting cables will be designed, manufactured, and tested, including a six-month test for the MgB2 cable. For grid protection, a high-current superconducting fault current limiter module will be designed and tested. Furthermore, the technology developments will be supported by techno-economic analyses, and a study of elpipes, large cross-section conductors for high-power transfer, will be performed.

The superconductor technology developments will accelerate the energy transition towards a low-carbon society by the direct key impacts of the project:
• 30% LCOE reduction for offshore windfarm export cables
• 15% reduction in total cost of entire offshore windfarms
• Possibility to transfer 0.5 GW in the form of H2 and 1 GW electric energy in one combined system
• Installation of cables for 90 GW transmission capacity by the consortium partners by 2050
• Creation of 5 000 European jobs within the field of sustainable energy
Unfold all
/
Fold all
More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101075602
Start date: 01-09-2022
End date: 28-02-2027
Total budget - Public funding: 19 602 668,75 Euro - 14 999 959,00 Euro
Cordis data

Original description

Superconducting medium-voltage cables, based on HTS and MgB2 materials, have the potential to become the preferred solution for energy transmission from many renewable energy sites to the electricity grid. Onshore HTS cables provide a compact design, which preserves the environment in protected areas and minimizes land use in urban areas where space is limited. Offshore HTS cables compete on cost and – compared to conventional HVDC cables – have the clear benefit of eliminating the need for large and costly converter stations on the offshore platforms. MgB2 cables in combination with safe liquid hydrogen transport directly from renewable energy generation sites to e.g., ports and heavy industries, introduce a new paradigm of two energy vectors used simultaneously in the future.

Both HTS, cooled with liquid nitrogen, and MgB2, cooled with liquid hydrogen, MVDC superconducting cables will be designed, manufactured, and tested, including a six-month test for the MgB2 cable. For grid protection, a high-current superconducting fault current limiter module will be designed and tested. Furthermore, the technology developments will be supported by techno-economic analyses, and a study of elpipes, large cross-section conductors for high-power transfer, will be performed.

The superconductor technology developments will accelerate the energy transition towards a low-carbon society by the direct key impacts of the project:
• 30% LCOE reduction for offshore windfarm export cables
• 15% reduction in total cost of entire offshore windfarms
• Possibility to transfer 0.5 GW in the form of H2 and 1 GW electric energy in one combined system
• Installation of cables for 90 GW transmission capacity by the consortium partners by 2050
• Creation of 5 000 European jobs within the field of sustainable energy

Status

SIGNED

Call topic

HORIZON-CL5-2021-D3-02-09

Update Date

09-02-2023
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all
Horizon Europe
HORIZON.2 Global Challenges and European Industrial Competitiveness
HORIZON.2.5 Climate, Energy and Mobility
HORIZON.2.5.3 Energy Systems and Grids
HORIZON-CL5-2021-D3-02
HORIZON-CL5-2021-D3-02-09 Demonstration of superconducting systems and elpipes