Research Portal
Displaying 1 – 7 of 7 results
Geoscience » Source Rock & Depositional Environment
Identifying and Constraining favourable paleoenvironments for the deposition of an Upper Jr SR using geochemical proxies (part of the PAGEO research program)
January 2021 – June 2023
This work will determine the paleoenvironmental conditions under which potential Upper Jurassic source rock intervals were deposited in offshore Nova Scotia.
Geoscience » Source Rock & Depositional Environment
Application of a source-to-sink sediment model to a petroleum systems analysis from field studies and numerical modeling (part of the PAGEO research program)
January 2021 – March 2023
This project will test the application of a source to sink analysis to the prediction of petroleum system elements in the Scotia Basin.
Geoscience » Source Rock & Depositional Environment
Central Atlantic Paleo-Oceans and Climates (CAPOC) (part of the PAGEO research program)
December 2020 – December 2022
CAPOC aims to develop the first integrated and high resolution biostratigraphic and isotopic proxy correlation for key intervals of the Jurassic/Cretaceous across the Central Atlantic conjugate margin.
Geoscience » Source Rock & Depositional Environment
Palaeobathymetry and Tectonic Evolution of Lower Jurassic Source Rocks of the Conjugate Nova Scotia-Moroccan Margins (part of the PAGEO research program)
December 2020 – July 2022
This project will address key questions related to the formation processes, structure and subsidence history of the Nova Scotia rifted margin, which are relevant to constrain the Upper Triassic to Jurassic palaeogeography and petroleum systems offshore Nova Scotia.
Geoscience » Source Rock & Depositional Environment
A Spatiotemporal Analysis of Paleobiogeographic Data to Constrain the Timing of Oceanic Connections between the Atlantic, Tethyan, and Pacific domains (part of the PAGEO research program)
November 2020 – May 2022
This project is based on a large-scale collection of previously generated Jurassic and Early Cretaceous nannofossil biostratigraphic data and aims to apply both traditional micropaleontological methods and modern data science methodologies to the in-depth analysis of that large dataset.
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.