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Real-Time Detection of Marine Mammals in High Flow Environments

May 2019 – September 2021

The project research goal is to design and test an innovative acoustic sensor system that will feature a wireless magneto-inductive (MI) communications link – to alert users in real time of the presence and location of marine mammals in high noise tidal environments.  The research entails a field

Development of Acoustic Doppler Aquatic Animal Monitoring (ADAAM) for application to marine life movement in high-energy tidal channels

March 2018 – February 2021

Acoustic Doppler Current Profilers (ADCPs) are a standard tool used for measuring ocean currents.

Multipurpose X-Band Marine Radar Network for the Minas Passage

January – November 2019

Marine X-band radar locates vessels and features, including coastlines and buoys.  It filters distracting signals (eg.

Geoscience » Play Fairway Analyses Atlases 2010–Present

Shelburne Sub-Basin Play Fairway Analysis Update

November 2018 – June 2019

Shortly after the Scotian Shelf and Slope Play Fairway Analysis (PFA) was released in 2011, Shell Canada acquired six exploration parcels in the Shelburne Subbasin and collected approximately 10,850 square kilometers of wide azimuth 3D seismic data.

Optimized Combinations of Tidal, Wind and Solar Electricity Generation with Energy Storage to Meet Nova Scotia’s Electrical Demand

August 2018 – March 2019

Wind, solar and tidal-generated electricity each have different, but potentially complimentary, cyclic times.

Innovative Solutions for De-risking Species Detections in Tidal Energy Environmental Effects Monitoring Programs

April 2018 – March 2019

With collaboration from Genome Atlantic, this research project is using a new environmental DNA technology to rapidly identify and determine abundance of different fish species in high-flow marine conditions. Experiments were conducted at Dalhousie University’s Aquatron facility. N

STREEM: Sensor Testing Research for Environmental Effects Monitoring

October 2018 – March 2019

The research goal was to enhance understanding on sensor performance and sensor-to-sensor interactions to inform environmental effects monitoring (EEM) protocol for future tidal turbine deployments.

Feasibility Study: Tidal Sector Service Barge/Drydock

April – November 2018

The study investigates the feasibility of developing a generic, shared-use, multi-function turbine transport deployment and retrieval barge/drydock for use by the Nova Scotia tidal energy sector.

Using Radar to Evaluate Seabird Abundance and Habitat Use at the Fundy Ocean Research Center for Energy Site near Parrsboro, Nova Scotia

April – September 2018

Shore-based seabird surveys conducted at the Fundy Ocean Research Center for Energy (FORCE) in Parrsboro, NS, determine abundance, habitat use and potential risk to seabirds at the site.

Using Dry Ports to Support Nova Scotia’s Tidal Industry

March – June 2018

This study investigates two Nova Scotia “dry ports” and their potential in supporting the Bay of Fundy region’s emergent tidal energy industry. The term ‘dry port’ refers to a port where the harbour bottom is mainly exposed at low tide.