The Albany M4 project, led by Professor Christophe Gaudin and Dr. Hugh Wolgamot, and coordinated by Dr. Wiebke Eberling of the University of Western Australia, aims to explore the potential of wave energy to support local decarbonisation efforts along Australia’s Great Southern coast. The launch is a quarter-scale demonstration model designed specifically for this application and will absorb 1-10kW in the target sea-states. Sensors on the model will provide real-time data on energy production and performance.
The M4 project is fully open-access with all data collected during the device’s deployment being made available to scientists, developers, and the public. By making the performance data accessible to all, the project aims to drive further innovation in renewable energy.
The M4, or Moored Multi-Mode Multibody, is an innovative surface-riding wave energy converter consisting of multiple floats, connected by beams, in a 1-2-1 float arrangement for the Albany tests. The middle floats each support a hinge, and relative rotation between the bow and stern floats, due to the movement of the waves, creates power in a generator. It uses a single mooring point that allows the M4 to naturally turn and face the waves for better energy capture.
The M4 highlights Manchester’s leading role in renewable energy innovation and has been developed over the past decade with support from the Engineering and Physical Sciences Research Council (EPSRC) and the European Union. British Maritime Technology (BMT) was responsible for the structural and mooring design for Albany, while the power take-off (PTO) design was led by Dr Judith Apsley from The University of Manchester’s Department of Electrical and Electronic Engineering, and further developed with the support of Dr Nuwantha Fernando at RMIT University, Melbourne.
The launch, funded with 4.8 million AUD from the WA state government and the Blue Economy Cooporative Research Centre, with similar in-kind contributions, also showcases the wider benefits of emerging renewable technologies, with six local contractors and manufacturers contributing to the building, assembling, deploying, and decommissioning of the device in Albany.
“The M4 wave energy concept has been in development for over a decade, and these ocean trials represent a significant step towards full-scale Megawatt systems” said Professor Peter Stansby. “This progress has been made possible thanks to the support of many colleagues at The University of Manchester, our partners, and importantly now the University of Western Australia.”
The University of Manchester’s Hydrodynamics Lab played a key role in the development of the M4. Located in the heart of Manchester, this state-of-the-art facility allows researchers to simulate ocean conditions and test renewable energy designs.
“The Hydrodynamics Lab is vital for advancing renewable energy research” added Professor Stansby, highlighting its importance. “While computational modelling provides valuable predictions, experimental validation is essential for understanding and optimising complex systems.”
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