CorPower to begin ‘Ironman Tests’ ahead of ocean deployment

CorPower Ocean’s WEC

CorPower Ocean’s first commercial scale Wave Energy Converter (WEC) is set to undergo an intensive ‘Ironman Test’ proving performance and reliable operation ahead of ocean deployment.

The next-generation C4 WEC has been through a rigorous dry-test program since mid-2021 and will experience continuous operation on the world’s largest wave energy test rig in Sweden.

The dry-test program will involves exposure to all sea states including severe storm conditions in order to monitor its durability and unique ‘survival mode’, alongside high thermal stress. It will allow further interrogation of CorPower’s novel Power Take Off (PTO) technology which works in resonance with waves to enhance motion amplitude and energy generation.

CorPower Ocean is a wave energy technology developer utilising forty years of ocean energy research to bring a new class of high efficiency Wave Energy Converters to market, enabling robust and cost-effective harvesting of electricity from ocean waves

After completing tests, the WEC is then set to be transported to northern Portugal taking a central role in CorPower’s flagship HiWave-5 demonstration project.

Wave power converts the periodic up-and-down movement of the oceans waves into electricity by placing equipment on the surface of the oceans that captures the energy produced by the wave movement and converts this mechanical energy into electrical power. (read more)

Antoine Baudoin; CorPower Project Lead

CorPower Project lead Antoine Baudoin said tests planned for the coming months will be the last steps to debug, stabilize and fine-tune the machine.

“We are excited to proceed to the final stage of our comprehensive dry-test campaign,” he said. “As the ‘Ironman’ tag suggests we will put the C4 prototype through its paces with the fully integrated system under continuous operation, in real-life offshore conditions, for a sustained period of time. This will allow us to collect a large volume of data assessing performance and robustness across all sea states, as well as thermal stress on the system, when raised to a ‘steady state’ temperature.

Similar to endurance athletes, effective heat control is crucial to the overall system performance. In particular, we will be monitoring how the air characteristic changes within the innovative pneumatic systems as they elevate in temperature, in order to better manage high thermal stress and maximise performance.”

The 45-tonne test rig, located at CorPower’s Stockholm headquarters, is capable of simulating ocean wave conditions anywhere in the world. Measuring 40m in length and 9m in width, the design, build and accreditation was supported by ABB.

“The testing infrastructure we required simply didn’t exist beforehand, so we built and accredited the world’s largest wave energy test rig to complete the project,” said Mr Baudoin. “The test rig has played an invaluable role delivering a broad range of isolated tests on individual modules and equipment through to these final Ironman Tests for the complete integrated system.”

For the last decade CorPower 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 WEC prototype, which also underwent dry-rig testing prior to sea trials in the Orkney Islands, Scotland, in partnership with utility firm Iberdrola.