Moreld Ocean Wind is introducing a modular approach to floating offshore wind turbine foundations. The result will be quicker production, lower costs and a smaller carbon footprint. “Our solution will help to industrialise floating offshore wind energy, making it more viable in the global energy mix,” says Asbjørn Wathne, Business Development Manager at Moreld Ocean Wind.
Floating offshore wind opens up the potential for new power production far out at sea, where winds are stronger and more consistent. The industry is taking its first steps towards commercialisation, but it faces two main challenges: cost and confidence.
“Floating offshore wind is a maturing industry. It needs to prove itself and catch up with bottom-fixed wind and other forms of renewable energy,” says Wathne
Moreld Ocean Wind employs the OCG-Wind design, developed by Moreld’s technology partner Ocergy Inc., which improves energy yield and promotes industrialisation. The assembly and installation will be done by Moreld as an EPCI contract.
Moreld Ocean Wind uses a modular approach to design, prefabricate, assemble and install floating offshore wind turbine foundations. “Our solution consists of prefabricated components bolted together mechanically at an assembly port,” says Trond Grytten, the company’s CTO and VP Engineering.
“The components can be manufactured in parallel and in different locations. Some will be produced locally, while others could be made in low-cost countries in large volume and shipped to a suitable port near the wind farm site where they will be assembled and lifted into the water.”
Highly efficient packing will simplify transport. “The components come in batches, ready for assembly on conventional cargo vessels which can transport many more units at one time compared to fully assembled units,” says Grytten.
Thanks to the modular design, the floaters can be installed quickly and efficiently. It is estimated that the solution can deliver one floating offshore unit per week, faster than any other method.
“A 500–750 MW wind farm with 20–25 MW generators could then be installed in just one installation season, allowing an early start-up of the wind farm,” says Wathne.
In addition, the solution will reduce overall costs, which is essential for industry growth. Several factors play a role in this: optimised transport, assembly and installation, lighter weight and use of existing infrastructure.
The OCG-Wind design also uses 30 to 40 per cent less steel than competing foundation designs. Not only does this make them less costly, but it also reduces their environmental impact.
“The market for floating offshore wind foundations is enormous,” says Wathne. He points to the accelerating transition to green energy and the need for energy independence due to geopolitical developments in Europe. DNV predicts that power generation from floating offshore wind will grow worldwide to more than 264 GW in 2050.
Moreld Ocean Wind has completed a number of wind farm studies for energy companies in the Baltics, France, Ireland, Norway, Scotland, the UK and the US. The OCG-Wind floater technology has received an Approval in Principle (AIP) from DNV, and pilot and pre-commercial floaters will likely be in the water by 2024 and 2026, respectively.
“The future of floating offshore wind looks very bright,” concludes Grytten.
Modular floating offshore wind turbine foundations
Full EPCI delivery, including mooring system
Efficient floater assembly using mechanical connection instead of welding