The program is a $155-million investment fund that helps natural resource sectors and innovators come together to accelerate the development of clean technologies that reduce the impacts on air, land and water while enhancing competitiveness and creating jobs. The second project was funded through NRCan’s Clean Growth Program, which invests in clean technology research and development projects in Canada’s energy, mining and forest sectors. The first project was funded through Natural Resources Canada’s (NRCan) Energy Innovation Program, which provides support to projects reducing emissions, including GHGs, through research, development and demonstration of clean energy technologies, with the aim of meeting 2050 clean growth targets. The tidal energy risk assessment program involves participation from multiple partners, including Acadia University, Marine Renewables Canada, Mi’kmaw Conservation Group, Ocean Tracking Network at Dalhousie University and Fundy Ocean Research Centre for Energy. $2 million to Fundy Ocean Research Centre for Energy to outline a plan to assess the encounter risk for fish with tidal devices and create a tool to support the regulatory authorization process for tidal energy projects.$2 million to Offshore Energy Research Association of Nova Scotia to research an environmental effects monitoring solution for the instream tidal energy industry in Canada, including fish and marine mammal interactions with tidal devices.$1.58 million to the University of Manitoba, in partnership with SOAR – Sustainable Oceans Applied Research, to advance research on river hydrokinetic and in-stream tidal energy technologies in the Canadian context.$4 million to Nova Innovation to build a tidal turbine array using sub-sea tidal technology in Petit Passage in the Bay of Fundy.The announcement took place following a tour of the Fundy Ocean Research Centre for Energy’s facilities in Parrsboro, Nova Scotia. It has the potential to significantly reduce Canada’s greenhouse gas (GHG) emissions and improve local air quality by displacing electricity generated from fossil fuels. Tidal energy is a renewable energy generated by ocean tides and currents. The Honourable Bernadette Jordan, Minister of Fisheries, Oceans and the Canadian Coast Guard, on behalf of the Honourable Seamus O’Regan, Canada’s Minister of Natural Resources, accompanied by Lenore Zann, Member of Parliament for Cumberland–Colchester, today announced a $9.4-million investment in four tidal energy projects that will bring clean energy technologies to the Atlantic region and help Canada build a cleaner future. This commitment will be more important than ever as we reopen the economy and plan our recovery from the COVID-19 crisis. The Government of Canada is committed to building a clean energy future to strengthen the economy, create good jobs and support the natural resource sectors. U.S.SeptemHalifax, Nova Scotia Natural Resources Canada Energy Information Administration, Electricity explained, 2021ġ2. Tethys Engineering, La Rance Tidal Barrage, 2019ġ1. Ste Wright, Where are the world’s largest tidal ranges?, Tides Today, 2022ġ0. Richard Howell Fleming, Atlantic Ocean, Britannica, 2021ĩ. Rebecca Foster, There is no time to ignore the clockwork reliability of tidal power - Rebecca Foster, The Scotsman, 2022Ĩ. PMI, Making tidal energy more affordable, 2016ħ. N-Sci Technologies, Tidal Energy and How it Works, 2019Ħ. Kyle Browning, Commercial Wind Turbine Cost ($1 Million Cost Breakdown), Climatebiz, 2022ĥ. Kim Rutledge, Tidal Energy, National Geographic, 2022Ĥ. Department for Business, Enterprise and Regulatory Reform, Severn tidal power feasibility study: BERR appoints contractors, 2008ģ. David Thomas, Introducing Oceanography, 2012Ģ. Furthermore, their construction can cause significant ecological damage.ġ.
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