X1 Wind Installs Rotor on its 'Downwind' Floating Wind System

Wednesday, October 13, 2021

Spanish floating wind technology company X1 Wind has completed the rotor assembly for its 'downwind' floating wind system.

"Fitted with a specially adapted V29 Vestas turbine, the unique ‘downwind’ system is able to ‘weathervane’ and orientate passively with the wind to maximize energy yields," X1 Wind said of its tripod-like floating wind system.

X1 Wind's X30 prototype is now fully assembled in Las Palmas, Gran  Canaria, ready for installation. 

“We are thrilled to complete this latest milestone as we move towards deployment,” said X1 Wind CEO  Alex Raventos. “The rotor assembly represents a symbolic moment in this project, fitting the blades which will ultimately harness the wind and demonstrate our downwind design." 

"Strong summer trade winds in Gran Canaria brought minor delays after the initial load-out, but this exciting period brings the assembly process to fruition. In the coming weeks, we will engage in cable and anchor installations before the platform is stationed at a 50m water depth for final commissioning. 

"From the outset, X1 Wind has been committed to finding a more efficient structural approach for floating wind compared to more traditional systems. We believe we have now developed the technology to take full advantage of the marine environment while respecting the future sustainability of the ocean. Our system will drive greater structural  efficiency, reducing loads, especially the bending moments at the base  of the tower, allowing for a lighter design.”
X1 Wind’s further explained that its platform utilizes the best features of a semi-submersible - with a low draft - and the ability to reach deeper waters by a Tension Leg Platform (TLP) mooring system - with a small seabed footprint.

Credit: X1 Wind

Tower strikes

Co-founder Carlos Casanovas said the industry-wide approach for land-based turbines has traditionally focused on upwind rotors to avoid the  so-called ‘tower shadow’ effect. However, upwind configurations require specific measures to prevent tower strikes, with the challenge increasing as turbine blades get longer.

“With 100m plus blades becoming more prevalent in offshore environments, significant measures are needed to avoid tower strikes,” said Mr. Casanovas. “This typically involves increasing the distance between the blades and tower applying a tilt and cone angle, and designing more costly pre-bent and stiffer blades, which also makes them heavier. 

"However, these measures come with increased manufacturing complexity, cost, and potential loss of power generation. Using a downwind configuration reduces the risk of tower strikes, opening up the possibility of using lighter, more flexible, and therefore cheaper large-scale wind turbine designs. These are key characteristics which will enable the development of future  ‘extreme-scale' downwind structures with research already being conducted on 200m blades and 50MW power ratings.”

X1 Wind’s X30 deployment is being delivered in conjunction with the PivotBuoy Project backed by a pan-European consortium including EDP NEW, DNV, INTECSEA, ESM and DEGIMA and research centers WavEC, DTU and PLOCAN.

Supported by €4million  from the European Commission H2020 Program, PivotBuoy aims to reduce the current Levelized Cost Of Electricity (LCOE) of floating wind. Key advantages of the PivotBuoy system include a reduced floater weight, faster and cheaper installation processes, and the ability to reach deeper waters with minimal seabed footprint thanks to the TLP mooring system.

Categories: Industry News Activity Renewable Energy Engineering Energy Europe Offshore Wind

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