Wave energy converter developer Bombora Wave Power (Bombora) has completed tank testing of a floating foundation system suitable for the InSPIRE solution, where Bombora's mWave technology is combined with a wind turbine onto a single floating offshore platform.
An adapted version of the semi-submersible INSPIRE platform, developed in partnership with TechnipFMC, underwent tank testing evaluations to confirm the system loads and dynamics at the FloWave test facility at the University of Edinburgh.
Head of Loads and Modelling at Bombora, Peter Arnold, said: “The integrated platform was rigorously tested under a wide range of conditions, including extreme waves. Final analysis is currently underway, where the results of the wave tank test are compared with those predicted using computational modeling.
"This represents another significant milestone for the InSPIRE Project which began back in 2021 when we initially launched a detailed investigation into the opportunity of combining mWave onto floating offshore wind platforms. Two key activities were subsequently identified to progress the project towards the detailed platform design phase. Firstly, the tank test evaluation and secondly, the large-scale performance testing of the mWave technology in our flagship Pembrokeshire Demonstration Project, due for deployment in the next few months. The tank testing assessment will provide essential optimization data leading to a detailed design of the combined InSPIRE mWave and wind wave platform due to commence early in 2023.”
The InSPIRE Project brings together Bombora’s patented multi-megawatt mWave technology which converts wave energy into electricity, with TechnipFMC’s technologies and experience in delivering complex integrated Engineering, Procurement, Construction and Installation (iEPCI) projects offshore.
This tank testing program follows the Pre-FEED phase of the InSPIRE Project completed earlier in 2022 based on the integration of a 4MW mWave solution with a 10MW wind turbine on a single semi-submersible floating foundation system.
Bombora said that major opportunities lie in the rapidly emerging floating offshore wind market, citing the world’s largest wind industry body, The Global Wind Energy Council, which predicted that more than 16GW of floating wind turbines will be in the water by 2030.
Wave + Wind = More Megagawtts Per Square Mile
Bombora’s Chief Operating Officer Dave Rigg said the innovative InSPIRE Platform offers a series of high-level benefits: “By integrating wave and wind we can deliver more megawatts per square mile, providing a higher yield for seabed lease areas. Due to its smooth, consistent and predictable power profile, mWave technology works as a natural partner to wind, helping to counter its intermittency and improve the overall power generation profile, ultimately bringing greater stability to the grid. In addition, this type of integrated design helps optimize project costs and ultimately Levelised Cost of Energy (LCOE).
The mWave and wind turbine share a large amount of the project infrastructure, including the floating platform itself, the mooring solution along with the export cables and grid connection. The InSPIRE platform can also be maintained using the readily available service vessels catering to the existing fixed bottom wind and offshore oil and gas industries.”
In recent weeks Bombora entered the final test and assembly phase of the £20million Pembrokeshire Demonstration Project, as it prepares to validate what it says is the world’s most powerful Wave Energy Converter.
Assembly work will be completed quayside in Pembroke Dock, before loadout to the operational site at East Pickard Bay, where the mWave technology will be validated in the open ocean, advancing it to TRL 7/8 (Technology Readiness Level).
The demonstration project aims to prove the reliability, performance, and competitiveness of Bombora’s mWave technology, while further informing the InSPIRE Project and a series of other global initiatives in Bombora’s pipeline.
Bombora was one of seven technology developers awarded contracts for the first phase of the EuropeWave project, which will ultimately see three prototype technologies tested at the European Marine Energy Centre (EMEC) in Orkney and the Biscay Marine Energy Platform (BiMEP) in Spain.
The EuropeWave project is a five-year collaborative R&D funding programme, run via a partnership between Wave Energy Scotland (WES) and the Basque Energy Agency (EVE). Match-funded by the European Commission via its Horizon2020 programme, this trans-national collaboration channels almost €20 million to procure the most promising wave energy technology solutions from developers across Europe and beyond.