The Floating Tidal Energy Commercialisation (FloTEC) project, led by Scotrenewables Tidal Power, has been recognised by the EC’s Horizon2020 programme for its ability to demonstrate how floating tidal systems can provide low-cost, high-value energy to the European grid mix.

The project will build on Scotrenewables’ existing two-megawatt floating tidal technology, the SR2000 – the world’s most powerful tidal turbine. The aim is to demonstrate an advanced, full-scale device  in real conditions with high levels of reliability and survivability, while developing a greater understanding of factors such as installation, operation and decommissioning costs.

The SR2-2000- demonstrator will feature a number of innovations, including 50 percent greater energy capture through enlarged rotors with a lower rated speed, full onsite access to all turbine systems through an optimised platform configuration, high performance blades, compatibility with local supply chain and infrastructure and mooring load dampers.


There will also be a strong focus on reducing the levelised cost of energy, through considerable capital and operational cost reductions at every stage of the SR2-2000’s design, build and operation.   SKF’s technologies will play a significant role in cutting the cost of tidal energy through enhanced performance and efficiency.

The project, which is funded through the European Commission’s Horizon2020 programme, brings together Scotrenewables core supply chain and strategic partners to deliver a future-proofed product solution with a much reduced and financable risk profile.

Project partners are ABB UK, Harland and Wolff Heavy Industries, Technology from Ideas, Eirecomposites, University College Cork, DP Energy, EDF Energy, SKF and EMEC.

The project is in the detailed engineering phase, with the SR2-2000 due for installation at the European Marine Energy Centre, Orkney in early 2019.