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Sujets en rapport avec les technologies propres » énergie éolienne
Creating a Workplan for Offshore Wind Pathways to Market Studies
March – September 2023
Offshore wind electricity has the potential to (1) satisfy domestic electricity demand, (2) be exported to neighbouring jurisdictions, and (3) be used for hydrogen production. It is important for policymakers, power system operators, electricity regulators and other stakeholders to understa
Sujets en rapport avec les technologies propres » énergie éolienne
Value mapping Nova Scotia’s Offshore Wind Resources
March – April 2023
Offshore wind is an untapped resource in Nova Scotia, which, if developed, has the potential to enable energy exports, stimulate rural economies, and contribute towards meeting the province’s greenhouse gas emission reduction targets.
Faits marquants sur l’énergie marémotrice » caractérisation et modélisation des ressources en énergie marémotrice
Multi-Scale Turbulence Measurement in the Aquatron Laboratory
July 2018 – July 2019
This project has two primary objectives - to characterize the flow and turbulence in the Aquatron facility pool tank using turbulence sensors calibrated against a traceable standard; and to test technologies for investigating the horizontal variability of turbulence in real-world tidal channels.
Faits marquants sur l’énergie marémotrice » caractérisation et modélisation des ressources en énergie marémotrice
Remote Acoustic Measurements of Turbulence in High-Flow Tidal Channels during High Wave Conditions
April 2018 – April 2019
Many of the high-flow tidal channels targeted for worldwide in-stream hydro-electric development are impacted by surface gravity waves incident from a large exterior basin (e.g. the Bay of Fundy/Gulf of Maine/North Atlantic).
Faits marquants sur l’énergie marémotrice » caractérisation et modélisation des ressources en énergie marémotrice
Turbine Wake Characterization
November 2017 – March 2019
Turbine wake characterization is a key endeavour to the development of in-stream tidal turbine arrays. In a sense, a turbine’s footprint includes its wake, wherein flow speeds are less and turbulence is elevated compared to the ambient surroundings. It is thus desired to not just deli
Faits marquants sur l’énergie marémotrice » aspects socio-économiques et utilisations traditionnelles
Tidal Energy: Strategic Environmental Assessment for the Cape Breton Coastal Region and Bras d’Or Lakes (Phase I) – Community Response Report
January 2014
This report describes and summarizes the outcomes of a stakeholder and community engagement program implemented as the second stage of the Strategic Environmental Assessment (SEA) on Marine Renewable Energy (MRE) for the Cape Breton Coastal Region and the Bras d'Or Lakes. It follows and com
Faits marquants sur l’énergie marémotrice » aspects socio-économiques et utilisations traditionnelles » Strategic Environmental Assessments (SEAs)
Tidal Energy: Strategic Environmental Assessment – Bay of Fundy Update (Phase II)
January 2014
This is an update to the Phase 1 Strategic Environmental Assessment (SEA) of marine renewable energy in the Bay of Fundy, with an emphasis on tidal in‐stream turbines.