CorPower Ocean’s C4 Wave Energy Converter completes dry test programme

The dry test campaign was performed on a purpose built test-rig at CorPower Ocean’s headquarters in Stockholm, Sweden.

Using simulated wave loading from the 7.2 MW test rig, the C4 device has been tested in conditions representing several ocean sites around the world, culminating with a final ‘Ironman’ phase involving continuous operation and exposure to full range storm loading.

CorPower Ocean’s Director of Integration & Test, Jean-Michael Chauvet, said the device was placed under significant duress beyond levels expected in the field of operation in order to prove its durability and resistance to loads, vibrations, and thermal stress. All functions were tested, including the C4 WEC’s unique survival mode designed for robust operation in the harshest ocean conditions involving cyclic loads up to 4 MN (400 t).

“The final Ironman test brings to a close a significant chapter in the development of the CorPower C4 – our first commercial scale Wave Energy Converter,” said Mr Chauvet. “This has been an intense one-year process to systematically test our technology. Over this period, we have taken a staged and methodical approach to debug, stabilise, and fine-tune the C4 device to provide full confidence in the technology ahead of ocean deployment.”

The machine was heavily instrumented, allowing CorPower Ocean’s engineers to collect measurements using 500 sensors generating more than one terabyte of data during the test programme. Particular attention was paid to changes in characteristics within mechanical, electrical, and pneumatic systems during sustained operation in order to verify reliable operation in periods of high loading. The function and performance of the novel power take-off (PTO) technology has been well-characterised, with the data confirming conversion efficiency on target, with power export up to 700 kW.

The PTO system is now set to be transported to northern Portugal for final assembly with a composite hull and mooring components at CorPower Ocean’s Portugese base in Viana do Castelo, prior to ocean deployment of the C4 system at the nearby Agucadoura site.

“A series of significant milestones have been recorded in recent weeks, with the completion of the composite hull and on-land testing of the PTO,” said Mr Chauvet. “Site preparation work is well advanced for the deployment of our flagship HiWave-5 demonstration project. This will lay the foundations for one of the world’s first grid connected wave energy arrays, in turn helping demonstrate wave energy’s potential to bring greater stability to the global energy system and provide a future powered entirely by renewables.”

For the last decade, CorPower Ocean has been steadily undergoing a five-stage product development and verification process, which initially started with small scale tests in Portugal and France.

It later progressed to a half scale C3 WEC prototype, which also underwent dry testing prior to sea trials in the Orkney Islands, Scotland, leading up to the design, build, and testing of the first commercial scale C4 system in 2022.

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