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CommerciaL Energy ARray for Widespread Acceleration of Tidal European Resources (CLEARWATER)
Start date: Jan 1, 2014, End date: Dec 31, 2018 PROJECT  FINISHED 

Our project consortium will design, build, install and operate an open ocean 4.5MW tidal energy farm in the Inner Sound in the Pentland Firth, off the Northern coast of Scotland. The project (“Clearwater”) will demonstrate the technical and economic feasibility of a multi-turbine tidal energy array, an essential step to catalyse development of commercial projects in the EU ocean energy industry. Project Clearwater provides a credible, robustly implemented transition from high cost single turbine demonstration deployments of marine turbines to economically viable multi-hundred turbine arrays in oceans and managed water assets across Europe and the wider global market.The consortium consists of, and is funded by:UK - Atlantis Operations (UK) Ltd. (“Atlantis”): open ocean tidal turbine technology (including operating the world’s first 1MW grid connected open ocean tidal turbine at the European Marine Energy Centre in Scotland in 2011); Edinburgh University (“UEDIN”): research institution (with significant focus on all aspects of ocean energy, from resource analysis, through to array modelling and commercialisation research).The Netherlands –Royal Haskoning (“RH”): engineering and environmental consultancy (having secured in excess of 2,000MW of offshore wind consents).Denmark – DHI Water & Environment (“DHI”): world leaders in tidal resource assessment and hydrographical modelling.The project, which will run from 2014-2018, will build on the AR-series open ocean tidal turbine system tested at EMEC to deliver a wide range of new innovations. Most importantly the project will provide a number of step changes that will catalyse the European marine industry:Generating a target of 10,000MWh of clean energy to the European grid; De-risking environmental consenting process through novel monitoring methodologies to provide a holistic approach to monitoring; improvements in future ocean energy farm efficiency; reduction of per MW costs by up to 20% vs. single unit via the application of advanced manufacturing processes.
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