The most advanced wave power demonstrations today have showed the feasibility of power generation with single device deployments and MW-scale performance within several testing periods of several years. The next step beyond this is to deploy multiple wave energy converters in MW-scale with improved power generation capability and demonstrate that they are able to survive rough sea conditions over a period of several years. Clean Energy From Ocean Waves (CEFOW) project has an exceptionally good starting point. It has an existing site reservation in a wave power testing centre called Wave Hub, with all the needed infrastructure, including grid connection already in place. In addition, the wave energy converter technology to be deployed in the project has already been tested and proven in real conditions in Scotland. The ultimate purpose of the CEFOW is to increase the speed of wave power development, decrease the levelised cost of ocean energy by improving technical solutions used for multiple device system, and create an efficient supply chain to support larger wave power projects in the future. To reach these targets, the CEFOW consortium will improve the wave energy converter performance by 50% and raise its availability to 70%; develop new types of dynamic mooring and electrical connections suitable for multi-device deployment and deploy 3MW (three 1MW units) wave energy converters in real world offshore conditions in a grid-connected testing environment. In addition, CEFOW will study the feasibility of on-board and on-shore storage solutions and conduct thorough multi-year environmental, health and safety studies. The consortium spans the full value chain from research organisations to wave converter technology developers, marine service providers and a large multinational utility company as the operator.

In this flagship project, the EnFAIT (Enabling Future Arrays in Tidal) Team, a partnership of leading European companies, will demonstrate a grid-connected tidal energy array that: - demonstrates a step change in the lifetime cost of energy for tidal power; - proves that high array reliability & availability can be achieved with best practice maintenance regimes; - captures and disseminates substantial learning on fundamental issues for the ocean energy industry; - builds investor confidence; - takes a huge step towards creating a commercial, bankable tidal energy sector; and - at 6 turbines, will be the largest number of devices ever deployed in an ocean energy array. This project will build upon an existing operational site, minimising development risk and allowing the generation of real-world results from day one. The technology used in the array has 100% EU content. The layout of the turbines will be adjusted within the project, enabling array interactions and optimisation to be studied for the first time at a real tidal energy site.