WFA

The first floating wind farm in continental Europe is now fully operational

Monday 27, July 2020
  • The last platform of WindFloat Atlantic has been connected to the grid and the windfarm has been fully commissioned.
  • The three units are now supplying the Portuguese electrical grid with the energy generated by their 8.4 MW wind turbines, the world's largest turbines ever installed on a floating platform.
  • The commissioning of this floating wind farm is a landmark achievement for the sector as floating wind technology contributes to the diversification of energy sources, provides access to untapped marine areas and represent a major technological leap towards a carbon-free economy.
  • With a total installed capacity of 25 MW, WindFloat Atlantic is the world’s first semi-submersible floating wind farm.

Lisbon, 27 July 2020: WindFloat Atlantic is now fully operational and supplying clean energy to Portugal's electrical grid. Following the connection of the last of the three platforms to the 20 m export cable connecting the wind farm to the substation at Viana do Castelo, Portugal, the construction of the wind farm is now complete. WindFloat Atlantic, which has total installed capacity of 25 MW is the world’s first semi-submersible floating wind farm and will generate enough energy to supply the equivalent of 60,000 users per year, saving almost 1.1 million tons of CO2.

This milestone cements the success of a decade-long project by the Windplus joint venture, ensuring access to the best wind resources in water depths that have previously been inaccessible. Windplus has successfully installed and connected three platforms - measuring 30 metres in height with a 50 metre distance between columns - which are able to accommodate 8.4 MW turbines,  the world's largest ever installed on a floating platform.

This project's success is rooted in its technology. Its mooring technology, for example, allows for installation in waters over 100 m deep, and its design offers stability in adverse weather and sea conditions. Another key advantage was the assembly technology used: dry-dock assembly provided significant logistical and financial savings, and the platforms were towed using standard tug boats. 

These technical advantages, among others, clearly show that Windfloat Atlantic's model is replicable in other areas where adverse seabed conditions or significant water depth mean that traditional bottom-fixed offshore wind technology is not an option.