Research Portal

The Pathway Program: Validating reliable environmental monitoring for ocean energy projects

April 2019 – October 2021

OERA created The Pathway Program to solve a critical problem impeding the in-stream tidal energy industry: a lack of reliable and validated technologies and methods to monitor and report fish-turbine interactions in high-flow, highly turbulent environments, leading to regulatory uncertainty and i

Environmental Monitoring System Development

November 2019 – April 2021

The Pathway Program - Technology Validation: Echosouders & Passive Acoustic Monitoring Device

Geoscience » Source Rock & Depositional Environment

Sequence stratigraphy, titania diagenesis and relationship to petroleum systems modeling

October 2018 – January 2021

This project examines different forms of titania (TiO2) minerals to confirm the relationship between late diagenetic titania (i.e., titania minerals transformed under the heat and pressure of sedimentary processes) and hydrocarbon migration and thus assess the use of titania polymorphs as “pathfi

Analysis of Tidal Turbine Mooring Systems in Turbulent Flows Applying the (Wind Industry) FAST Simulation Tool and DSA ProteusDS Software

March – September 2018

For floating tidal turbine platforms, the turbine forces and resulting platform motions have a direct impact on the lifetime of its moorings and cables. This means the tidal sector must predict accurate tidal turbine loading on floating platforms to determine mooring life and cable longevity.

Tidal Energy: Strategic Environmental Assessment – Bay of Fundy (Phase I)

April 2018

This Strategic Environmental Assessment (SEA) provides advice on whether, when and under what conditions tidal energy demonstration and commercial projects should be allowed in the Bay of Fundy.

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.