Documenting ice in the Bay of Fundy Canada

Sea ice capable of impacting marine operations occurs periodically in the most favourable sites for energy harvest from the tidal currents of the Bay of Fundy in Nova Scotia and New Brunswick. In-stream tidal current harvesting devices deployed at these sites will need to be engineered to tolerate a...

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Main Authors:	Sanders, R., Baddour, R. E.
Format:	Report
Language:	English
Published:	National Research Council of Canada. Institute for Ocean Technology 2006
Subjects:	energy harvest tidal currents sea ice Newfoundland Canada Belle Isle Ungava Bay Strait of Belle Isle Sea ice Alaska Prince Edward Island
Online Access:	https://dx.doi.org/10.4224/8896108 https://nrc-publications.canada.ca/eng/view/object/?id=df7241f8-7378-4715-83ef-8504075d944d

id	ftdatacite:10.4224/8896108
record_format	openpolar
spelling	ftdatacite:10.4224/8896108 2023-05-15T17:22:45+02:00 Documenting ice in the Bay of Fundy Canada Sanders, R. Baddour, R. E. 2006 https://dx.doi.org/10.4224/8896108 https://nrc-publications.canada.ca/eng/view/object/?id=df7241f8-7378-4715-83ef-8504075d944d en eng National Research Council of Canada. Institute for Ocean Technology energy harvest tidal currents sea ice Technical report Text article-journal ScholarlyArticle 2006 ftdatacite https://doi.org/10.4224/8896108 2021-11-05T12:55:41Z Sea ice capable of impacting marine operations occurs periodically in the most favourable sites for energy harvest from the tidal currents of the Bay of Fundy in Nova Scotia and New Brunswick. In-stream tidal current harvesting devices deployed at these sites will need to be engineered to tolerate at least 30% cover of sea ice 15 cm thick in floes of at least 100 metres in length. Propelled by tidal currents and prevailing winds, these floes may achieve velocities in excess of 8 knots in some locations. In very severe winters, in-stream tidal current harvesting devices may be subjected to periods of 70% cover of 15-30 cm rapidly moving or packed sea ice. Additional research is necessary to characterize tidal currents in the presence of ice and to design devices which can tolerate the sea ice conditions in the headwaters of the Bay of Fundy, one of North America's greatest tidal power resources. Once ice-tolerant tidal current harvesting devices are developed, they may be deployable in other jurisdictions with energetic tidal flows which experience more severe conditions of sea ice than the headwaters of the Bay of Fundy. In North America, these locations might include Northumberland Strait (between Prince Edward Island and New Brunswick), the Gulf of St. Lawrence (Quebec), the Strait of Belle Isle (Newfoundland and Labrador), Cook Inlet (Alaska), and Ungava Bay (Quebec). Beyond the North American Continent, a market for ice-tolerant tidal current harvesting technology may exist in other circumpolar jurisdictions with energetic tidal flows. : Contractor Report (National Research Council of Canada. Institute for Ocean Technology), CR-2006-01 Report Newfoundland Sea ice Strait of Belle Isle Ungava Bay Alaska Prince Edward Island DataCite Metadata Store (German National Library of Science and Technology) Newfoundland Canada Belle Isle ENVELOPE(-55.357,-55.357,51.942,51.942) Ungava Bay ENVELOPE(-67.489,-67.489,59.498,59.498) Strait of Belle Isle ENVELOPE(-57.115,-57.115,51.400,51.400)
institution	Open Polar
collection	DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id	ftdatacite
language	English
topic	energy harvest tidal currents sea ice
spellingShingle	energy harvest tidal currents sea ice Sanders, R. Baddour, R. E. Documenting ice in the Bay of Fundy Canada
topic_facet	energy harvest tidal currents sea ice
description	Sea ice capable of impacting marine operations occurs periodically in the most favourable sites for energy harvest from the tidal currents of the Bay of Fundy in Nova Scotia and New Brunswick. In-stream tidal current harvesting devices deployed at these sites will need to be engineered to tolerate at least 30% cover of sea ice 15 cm thick in floes of at least 100 metres in length. Propelled by tidal currents and prevailing winds, these floes may achieve velocities in excess of 8 knots in some locations. In very severe winters, in-stream tidal current harvesting devices may be subjected to periods of 70% cover of 15-30 cm rapidly moving or packed sea ice. Additional research is necessary to characterize tidal currents in the presence of ice and to design devices which can tolerate the sea ice conditions in the headwaters of the Bay of Fundy, one of North America's greatest tidal power resources. Once ice-tolerant tidal current harvesting devices are developed, they may be deployable in other jurisdictions with energetic tidal flows which experience more severe conditions of sea ice than the headwaters of the Bay of Fundy. In North America, these locations might include Northumberland Strait (between Prince Edward Island and New Brunswick), the Gulf of St. Lawrence (Quebec), the Strait of Belle Isle (Newfoundland and Labrador), Cook Inlet (Alaska), and Ungava Bay (Quebec). Beyond the North American Continent, a market for ice-tolerant tidal current harvesting technology may exist in other circumpolar jurisdictions with energetic tidal flows. : Contractor Report (National Research Council of Canada. Institute for Ocean Technology), CR-2006-01
format	Report
author	Sanders, R. Baddour, R. E.
author_facet	Sanders, R. Baddour, R. E.
author_sort	Sanders, R.
title	Documenting ice in the Bay of Fundy Canada
title_short	Documenting ice in the Bay of Fundy Canada
title_full	Documenting ice in the Bay of Fundy Canada
title_fullStr	Documenting ice in the Bay of Fundy Canada
title_full_unstemmed	Documenting ice in the Bay of Fundy Canada
title_sort	documenting ice in the bay of fundy canada
publisher	National Research Council of Canada. Institute for Ocean Technology
publishDate	2006
url	https://dx.doi.org/10.4224/8896108 https://nrc-publications.canada.ca/eng/view/object/?id=df7241f8-7378-4715-83ef-8504075d944d
long_lat	ENVELOPE(-55.357,-55.357,51.942,51.942) ENVELOPE(-67.489,-67.489,59.498,59.498) ENVELOPE(-57.115,-57.115,51.400,51.400)
geographic	Newfoundland Canada Belle Isle Ungava Bay Strait of Belle Isle
geographic_facet	Newfoundland Canada Belle Isle Ungava Bay Strait of Belle Isle
genre	Newfoundland Sea ice Strait of Belle Isle Ungava Bay Alaska Prince Edward Island
genre_facet	Newfoundland Sea ice Strait of Belle Isle Ungava Bay Alaska Prince Edward Island
op_doi	https://doi.org/10.4224/8896108
_version_	1766109582653915136

Documenting ice in the Bay of Fundy Canada

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