Research Portal
Displaying 1 – 10 of 10 results
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
How Does Sound Travel in High Energy Environments? Effectiveness of Acoustic Monitoring Systems and Turbine Audibility Assessment
April 2017 – December 2020
The researchers are designing and implementing a long-term acoustic monitoring program to support tidal energy development in the Bay of Fundy. Specialized acoustic instrumentation was deployed for a two-month period in Grand Passage to advance understanding how turbulence affects the abilit
Sujets en rapport avec les technologies propres » énergie éolienne
Offshore Wind Stakeholder Engagement Plan for Nova Scotia
September – November 2020
Early stakeholder engagement is an important step in the development of an offshore wind industry in Atlantic Canada. This report reviews and summarizes best practices and lessons learned from offshore wind stakeholder engagement in the US Northeast market.
Sujets en rapport avec l’hydrogène » études de faisabilité
Net-Zero Future: A Feasibility Study of Hydrogen Production, Storage, Distribution and Use in The Maritimes
July – October 2020
This study explores hydrogen’s potential contribution to the Maritimes’ sustainable development goals. It also provides a technical and economic assessment of the role that hydrogen could play in the Maritimes’ energy transition.
Faits marquants sur l’énergie marémotrice » caractérisation et modélisation des ressources en énergie marémotrice
Reducing Costs of Tidal Energy through a Comprehensive Characterization of Turbulence in Minas Passage
October 2017 – March 2020
Turbulence is a significant issue at every site being considered for in-stream tidal energy development.
Faits marquants sur l’énergie marémotrice » caractérisation et modélisation des ressources en énergie marémotrice
Turbulence and Drag in a High Reynolds Number Tidal Passage Targeted for In-Stream Tidal Power
August 2013
Results are presented from an investigation of turbulence and bottom drag carried out in Grand Passage, lower Bay of Fundy.
Faits marquants sur l’énergie marémotrice » caractérisation et modélisation des ressources en énergie marémotrice
Passive Acoustic Monitoring of Cetacean Activity Patterns and Movements Pre- and Post-deployment of TISEC devices in Minas Passage
June 2011 – July 2013
This project aimed to conduct pre- and post- in-stream tidal energy device deployment assessments of marine mammal activity and to assess the potential risk for interaction with turbine infrastructure.
Faits marquants sur l’énergie marémotrice » aspects socio-économiques et utilisations traditionnelles » Strategic Environmental Assessments (SEAs)
Southwest Nova Scotia Tidal Energy Resource Assessment
June 2013
This is an assessment of the in-stream tidal resources in Southwest Nova Scotia consisting of Shelburne, Yarmouth and Digby Counties.
Faits marquants sur l’énergie marémotrice » caractérisation et modélisation des ressources en énergie marémotrice
Cross Coupling between Device Level CFD and Oceanographic Models Applied to Multiple TISECs in Minas Passage
October 2011 – January 2013
This project aimed to develop a link between oceanographic computer models and Computational Fluid Dynamics (CFD) models in order to improve state-of-the-art modelling techniques used for resource assessments and tidal turbine siting for both single and multiple in-stream tidal energy devices.