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Analysis Framework for Long-Term and Cumulative Effects Monitoring

October 2018 – September 2020

This project created a framework for testing in-stream tidal turbine effects on specific marine species populations. The framework provides the basis for future assessment of far-field and cumulative environmental effects.

Modeling of Electric Boats as Energy Storage

July 2018 – September 2020

Electric boats have the potential to act as “energy storage wrapped in a boat”.

Advancing Tidal Energy Turbine Operations through High Fidelity Tug Propulsion and Control Simulation Software

November 2016 – March 2017

The project objective was to develop a numerical model of a tug boat and its propulsion system to accurately predict its dynamic behaviour in turbulent tidal flows.

Environmental Effects Monitoring Project

January 2016 – January 2017

FORCE developed an Environmental Effects Monitoring Program (EEMP) to study five major subject areas: fish, marine mammals, lobster, marine noise and seabirds. The EEMP was designed to be adaptive in nature.

Development of High Performance Tidal Turbine Rotors

January 2013 – October 2015

This research investigated and informed novel and cost-effective engineering solutions to extract and deliver energy from tidal flows.

Community Engagement Strategies & Resource Guide To Support Small-Scale Tidal Power in Nova Scotia

March – July 2013

Community engagement strategies and a resource guide for stakeholders involved in marine renewable energy will support the success of marine renewable energy development in Nova Scotia.

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.

Community and Business Toolkit for Tidal Energy Development

November 2011 – March 2013

This toolkit covers the science, technology, business and community aspects of tidal energy development in Nova Scotia, effectively integrating the applied, natural and social sciences. It can serve as a model for future applied interdisciplinary work on tidal energy and marine renewables.