TECH SPOTLIGHT
Marine-i Supports World Class Research Network for Marine Renewable Energy
Credit: Principle Power Inc.
Marine-i Programme Director, Professor Lars Johanning, welcomed delegates to the PRIMaRE conference which took place at the University of Exeter campus at Penryn on 6th and 7th July, 2022. Marine-i was one of the sponsors of this event.
Part-funded by the European Regional Development Fund, Marine-i is designed to help the marine technology sector in Cornwall and the Isles of Scilly grow through harnessing the full potential of research and innovation.
The Partnership for Research in Marine Renewable Energy (PRIMaRE) is a network of world-class research institutions who have been set up to undertake research and development to address challenges facing the marine renewable energy industry at the regional, national and international level. Its remit covers all areas of marine renewable energy, including wave, tidal stream, tidal barrage, and offshore wind, as well as others such as offshore biomass production and ocean thermal energy conversion (OTEC).
Prof Lars Johanning said: “Marine-i is pleased to support PRIMaRE, which will be an important academic research cluster aligned with the Floating Offshore Wind Centre of Excellence and give strong representation of academic research within this forum. It will support Celtic Sea Power and the fast-growing floating offshore wind industry in Cornwall and the South West, aiming to leverage and maximise the utilisation of the assets and resources in our region.”
The PRIMaRE Conference covered a wide range of issues, including innovation in the sector. The Universities of Plymouth, Exeter, Southampton, Bristol, Cardiff and Bath, along with the Marine Biological Association and Plymouth Marine Laboratory, have agreed to work together on research projects across the spectrum of marine renewables. Prof Johanning presented an innovative low carbon-cost choice decision tool to model the performance of Floating Offshore Wind energy farms.
He said: “The UK Government has committed to a substantial future investment in 30GW of generation in the industry, with a target to achieve 60% UK content for projects commissioning from
2023 onwards, including a commitment to increased UK manufacturing. University of Exeter has developed a tool to assess economic values and the environmental impacts of floating offshore wind farms. The assessment is based on life-cycle analyses, including five development stages: pre-development, manufacturing, assembly and installation, operations and maintenance (O&M), and decommissioning.
“The tool is designed to help stakeholders such as wind farm developers and policymakers to facilitate decision-making processes in development projects. The tool provides the flexibility and opportunity to determine what combination of manufacturing, assembly, installation, and servicing locations yields the optimal combination of low cost, low carbon, and highest energy yield. Initial findings indicate that making use of local port infrastructure and local supply chain in the South West to perform maintenance operations is competitive with globally sourced solutions, while simultaneously halving lifetime Green House Gas emissions. This is a very exciting finding for the South West economy.”
July 2022
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