George Dadd, HydroWing lead turbine engineer, at hydrodynamic testing labInyanga Marine Energy Group has successfully completed hydrodynamic testing of the revolutionary Passive Pitch Unit for its patented
HydroWing technology which was recently awarded the largest tidal energy project in the UK in Allocation Round 6 of the UK Government’s Contracts for Difference (CfD) scheme and the company is now on course for deploying a 20MW tidal energy project at Morlais in Wales, in addition to other projects around the world. The hydrodynamic testing was conducted at the Kelvin Hydrodynamics Laboratory at the
University of Strathclyde in Scotland.
Unlocking new possibilitiesRichard Parkinson,
Inyanga Marine Energy Group CEO, said: “These exciting test results mark a major milestone in our mission to deliver low-cost, efficient and reliable tidal energy arrays. Our engineering team have excelled in delivering a game-changing turbine and blade solution which doubles annual energy production, making our Morlais 20MW project highly investable.”
The test results confirm that the cutting-edge blade rotor on HydroWing’s tidal energy device can automatically regulate its own pitch using its innovative, self-adjusting system. This breakthrough validates the HydroWing technology and it is the culmination of two years of intensive development by HydroWing’s R&D team.
Richard Parkinson explained: “With this new pitch regulation system, the blade rotors can now scale to twice the swept area, while ensuring safety and efficiency, even in the harshest ocean conditions. This technology advance unlocks new possibilities for harnessing marine energy on a larger scale and paves the way for future innovations in predictable sustainable power generation.
“The passive pitch mechanism not only regulates the output of the device but protects the device from adverse conditions such as wave loadings, grid loss and storm surges. Passive pitch has major benefits over active pitch in terms of reliability, cost and load damping, while also achieving increased energy yield.”
The project has been supported by the IDCORE Programme through which HydroWing have engaged two engineers as part of their EngD (Engineering Doctorate) thesis. George Dadd, lead turbine engineer at HydroWing, said: “The tests on the passive pitch technology have behaved exactly as calculated, validating the ‘proof of concept’. We will now continue the validation process with a full-scale test rig.”