NextFloat project launches with the aim to pave the way for competitive and industrial deployment of floating wind
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- The initiative is being led by a consortium of twelve partners from eight countries including Technip Energies, X1Wind, Naturgy, 2B Energy, Hellenic Cables, Technical University of Denmark, Hydro, Ecole Centrale de Nantes, Schwartz Hautmont, Ocas, Tersan Shipyard and Ocean Ecostructures.
- The project was officially launched on November 18th in Paris, and will lead to the deployment of a 6MW floating wind prototype in the French Mediterranean Sea to demonstrate at a relevant scale an innovative integrated downwind floating platform design.
A pan-European project officially launched on November 18th in Paris to accelerate the roll out of the next generation of floating wind technology for a competitive, more scalable, and industrial deployment of floating wind.
This ambitious initiative is being led by a consortium of twelve partners from eight countries including Technip Energies as project coordinator, X1Wind, Naturgy, 2B Energy, Hellenic Cables, Technical University of Denmark, Hydro, Ecole Centrale de Nantes, Schwartz Hautmont, Ocas, Tersan Shipyard and Ocean Ecostructures.
Backed by the European Commission under the Horizon Europe program with public funding of €16m, plus private funding from partners and shareholders, the project is anticipated to run until 2027.
The project will lead to the deployment of a 6MW floating wind prototype at the Mistral test site in the French Mediterranean Sea, to demonstrate at a relevant scale an innovative integrated downwind floating platform design, while advancing on the industrialization and scaling-up of the integrated solution for up to 20MW+ scale, in preparation of commercial floating wind farms under development in Europe.
This project builds upon previous European projects such as the PivotBuoy which recently led to the installation of a part-scale prototype in the Canary Islands to validate the technology. Design work for the initial 6MW system is currently underway and scheduled to be finalized in 2023. Construction is due in 2023 and 2024, ahead of installation in 2025.
Laure Mandrou, SVP Carbon-Free Energy solutions of Technip Energies, said: “While the COP 27 just ended, we can only note that there is an urgent requirement for greater climate action and a swift transition to renewables energy. Floating wind is one of the lowest carbon electricity generation systems to meet the energy demand in a sustainable way while inducing better competitiveness, less noise and visual pollution, and less interaction with the users of the maritime domain. The NextFloat Project represents a unique opportunity to test a novel and disruptive version of this technology at full scale, driving cost curve reductions in order to deliver industrial-scale projects at the earliest possible stage.”
Alex Raventos, CEO and co-founder of X1 Wind said: “After the successful deployment and validation of our innovative low-cost solution in the Canary Islands (PivotBuoy project), the goal now is to scale-up and industrialize the technology in advance of large commercial floating wind projects which will come online at the end of the decade across European, Asian and US waters. This will allow us time to drive substantial improvements in the competitiveness of floating wind as we prepare for long-term mass deployment.”
Jesús Chapado, Head of Innovation of Naturgy, said: “The major transformation that we are facing in the energy sector forces Innovation to be collaborative and open. We need to be capable of generating symbiosis among large corporations like Naturgy, and start-ups, scale-ups, research centres and universities. The NextFloat project is composed of all these agents and will allow us to learn from the challenges we will face within the project, establish new partnerships and get know-how for the future deployment of commercial floating offshore wind farms in Europe”.