![]() ![]() The outcome of the auction, announced today, saw support awarded to 93 renewable energy projects across various technologies totalling almost 11 GW. Nova Scotia Power, “NS Power and OpenHydro provide tidal project update”, 2010ĬBC News, “Bay of Fundy tidal turbine deployment 2 years away: Tidal power from the Bay of Fundy remains elusive”, CBC News, February 27, 2013.Four tidal stream projects totalling 40.82 MW were successful in securing contracts in the fourth allocation round of the UK government’s contracts for difference (CfD) scheme in a boost for the fledgling sector. OpenHydro, “OpenHydro successfully deploys 1 MW commercial tidal turbine in the bay of Fundy”, 2009 OpenHydro, Nova Scotia Power, “Nova Scotia Power and OpenHydro unveil in-stream tidal turbine: Final preparations underway for deployment in Bay of Fundy”, 2009ĭiab Group, “OpenHydro Tidal Turbine – clean, green, renewable energy”. OpenHydro, “Nova Scotia Power and OpenHydro reach next project milestone”, 2010 Parrott, 233 x 149 (width x height pixels) 1 % (zoom) Shaded seafloor relief, Bay of Fundy, sheet 16, offshore Nova Scotia - New Brunswick, “A” Series Map, 2189A, Geological Survey of Canada. International Water Power & Dam Construction, “Barriers against tidal power”, 2003įundy Ocean Research Center for Energy, Annual Report 2011ī. Izon, “At Annapolis Nova Scotia the highest tides in the world are harnessed to generate enough power for 4,500 homes”, 2009. Whiticar, “Tidal”, University of Victoria, 2012. Tarbell, “North Ameica Tidal In-Stream Energy Conversion Technology Feasibility Study”, EPRI TP-008-NA, 2006 Bedard, “Nova Scotia Tidal In-Stream Energy Conversion (TISEC): Survey and Characterization of Potential Project Sites”, EPRI-TP-003 NS Rev 2, 2006 Kanes, “The Unfulfilled Dream of Tidal Power.”. In the case of the tidal turbine, the first turbine deployed did not withstand the Minas Passage flows.Ĭ. The tidal barrage has impacted marine life, as well as local erosion. Challenges are identified for both technologies. In addition, various companies have begun testing in-stream turbines at the FORCE test site. ![]() A tidal barrage, (the Annapolis tidal generating station), has been operating for several years. The history of tidal energy activities in the Bay of Fundy is presented and the different in-stream technologies are described in this case study. FORCE (Fundy Ocean Research Centre for Energy), a not-for-profit partnership, has been conducting the research in the Minas Passage area, along with Natural Resources Canada’s CanmetENERGY and other collaborators. This area has straight flowing currents and a sediment-free bedrock sea floor, suitable features for in-stream tidal turbines. Specifically, the Minas Passage area of the Bay of Fundy has been selected for tidal energy research, where tidal energy may be harnessed without a great environmental impact. The Bay of Fundy, Nova Scotia, has the world’s highest tides, with a range of over 16 m vertically and 5 km horizontally. The predictable and reliable nature of tides makes tidal energy an interesting option for electricity generation. With increasing global energy demand, clean and renewable tidal energy is an appealing alternative energy source. 8751 Coastal Engineering, Case Study, Civil, Tidal Energy, Bay of Fundy, Minas Passage, In-Strem turbine, barrage plant Abstract ![]()
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