Research Portal

Finite Element Analysis to Assess Fish Mortality from Interactions with Tidal Turbine Blades

February – December 2017

The research project used finite element analysis (FEA) to simulate the impact of a tidal turbine blade on fish, and assess whether mortality of marine life can be expected in such an event.

FORCE Data Management System/User Interface

April – June 2017

This project defined a Data Management System (DMS) and user interface solution for use by FORCE.

Impact of Channel Blockage on the Performance of Axial and Cross-Flow Hydrokinetic Turbines

April 2017

This work investigates the effect of channel blockage on how axial and cross-flow turbines perform. The objective is to fill a gap in the literature on suitable blockage corrections for cross-flow turbines.

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.

Assessing Marine Mammal Presence in and near the FORCE Crown Lease Area during Winter and Early Spring

October 2013 – February 2015

This study closes the winter/spring baseline data gap via deployments of multiple, calibrated C-PODs and an icListenHF hydrophone, for the deepest sites at the FORCE Lease Area.

Geoscience » Source Rock & Depositional Environment

Reservoir Distribution & Characterization: Shelf to Slope Linked Depositional Systems

August 2007 – August 2010

The objectives of this study are 1) to understand the complexities of shelf-to-slope and slope sedimentation patterns, and 2) to understand the controls inherent in mixed siliciclastic and carbonate shelf-edge depositional systems.  New play concepts were developed that identified significant rew

Geoscience » Source Rock & Depositional Environment

River Sources & Sand Transfer to the Deepwater Lower Cretaceous Scotian Basin

August 2007 – August 2010

This project aims to define the distribution systems for sand and help industry explorers refine their exploration targets and better understand the quality of underground petroleum reservoirs.

Geoscience » Source Rock & Depositional Environment

Analysis of Petroleum Systems on the Scotia Shelf using Thermal & Seismic Techniques

August 2007 – July 2010

The objective of this project is to produce new petroleum systems and high resolution seismic velocity models along several transects across the central and NE sectors of the Scotian Slope. Ground-truth from existing wells on the upper slope will be used as benchmarks.