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• Centrale Hydroélectrique (MW)
• Centrale nucléaire (MW)
• Centrale solaire (MW)
• Centrale marémotrice (MW)
• Parc éolien (MW)
Name: Production d’énergie propre

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Layer: Centrale alimentée à la biomasse (MW) (1)

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Description: Cette couche cartographique montre l’emplacement des centrales alimentées à la biomasse au Canada. Ces centrales ont été classées selon leur capacité de production d’énergie. Le seuil pour cette couche est de 0,25 MW (mégawatts). Ce seuil a été fixé en fonction des différences entre les systèmes de bioénergie, éoliens, hydroélectriques et solaires quant au taux d’utilisation, au facteur de disponibilité, au rendement de conversion et au facteur de capacité. La bioénergie est une ressource d’énergie renouvelable produite au moyen de biomasse et de biocombustibles. Le terme «biomasse» englobe toute matière organique d’origine biologique, qui peut provenir de diverses activités, y compris l’exploitation forestière et l’arboriculture; l’agriculture et l’horticulture; et l’aquaculture.

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Copyright Text: Ressources naturelles Canada. 2016.Centrales d’énergie propre (compilation d’information des secteurs fédéral, provincial et privé). Ottawa.

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Layer: Centrale Hydroélectrique (MW) (2)

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Description: Cette couche cartographique montre l’emplacement des centrales hydroélectriques à réservoir ou au fil de l’eau au Canada. Ces centrales ont été classées selon leur capacité de production d’énergie. Le seuil pour cette couche est de 0,80 MW. Les centrales hydroélectriques ont été construites là où les conditions géographiques et hydrographiques étaient favorables. Les provinces qui produisent d’importantes quantités d’hydroélectricité sont le Québec, la Colombie-Britannique, Terre-Neuve-et-Labrador, le Manitoba et l’Ontario.

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Copyright Text: Ressources naturelles Canada. 2016. Centrales d’énergie propre (compilation d’information des secteurs fédéral, provincial et privé). Ottawa.

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Description: Cette couche cartographique montre l’emplacement des centrales nucléaires au Canada. Ces centrales ont été classées selon leur capacité de production d’énergie. Toutes les centrales nucléaires au Canada dépassent le seuil des 500 MW. Le Canada a conçu un réacteur nucléaire unique appelé CANDU (acronyme de CANada Deuterium Uranium). Toutes les centrales nucléaires au pays exploitent des réacteurs CANDU. Les 19 réacteurs opérationnels au pays (18 en Ontario et un au Nouveau-Brunswick) sont alimentés par de l’uranium naturel provenant de gisements à teneur élevée situés en Saskatchewan.

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Copyright Text: NCANDU Owners Group. Membres du GOC, puissance installée totale des réacteurs CANDU.

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Layer: Centrale solaire (MW) (4)

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Description: Cette couche cartographique montre l’emplacement des centrales solaires au Canada. Ces centrales ont été classées selon leur capacité de production d’énergie. Le seuil pour cette couche est de 0,80 MW. À l’heure actuelle, la production d’énergie électrique solaire raccordée au réseau au Canada s’effectue principalement en Ontario. La technologie d’énergie solaire comprend les technologies héliothermiques et photovoltaïques. La technologie photovoltaïque solaire convertit les rayons du soleil en électricité. Les technologies photovoltaïques concentrées utilisent des éléments optiques comme des lentilles ou des miroirs incurvés afin de concentrer une grande quantité de lumière du soleil sur une petite surface de cellules photovoltaïques ou de capteurs thermiques afin de générer de l’électricité.

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Layer: Centrale marémotrice (MW) (5)

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Description: Cette couche cartographique montre l’emplacement des centrales marémotrices au Canada. Ces centrales ont été classées selon leur capacité de production d’énergie. Le seuil pour cette couche est de 0,80 MW. À l’heure actuelle, il y a deux centrales marémotrices avec barrage en Amérique du Nord, toutes deux situées en Nouvelle-Écosse : l’une à Annapolis Royal, avec une capacité de production de 20 MW d’électricité, et l’autre au cap Sharp, avec une capacité de production de 2 MW. D’autres projets de production d’énergie marémotrice à grande échelle peuvent être envisagés au Canada. La baie de Fundy est le site des plus fortes marées au monde. Des activités de recherche et développement sont en cours pour tirer profit du potentiel d’énergie marémotrice non exploité au pays.

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Description: Cette couche cartographique montre l’emplacement des centrales marémotrices au Canada. Ces centrales ont été classées selon leur capacité de production d’énergie. Le seuil pour cette couche est de 0,80 MW. À l’heure actuelle, il y a deux centrales marémotrices avec barrage en Amérique du Nord, toutes deux situées en Nouvelle-Écosse : l’une à Annapolis Royal, avec une capacité de production de 20 MW d’électricité, et l’autre au cap Sharp, avec une capacité de production de 2 MW. D’autres projets de production d’énergie marémotrice à grande échelle peuvent être envisagés au Canada. La baie de Fundy est le site des plus fortes marées au monde. Des activités de recherche et développement sont en cours pour tirer profit du potentiel d’énergie marémotrice non exploité au pays.

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Layer: Grands projets d’énergie propre (prévus ou en voie de construction) (7)

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• Projets nucléaires
• Projets hydroélectriques au fil de l’eau
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Copyright Text: Ressources naturelles Canada. Répertoire des grands projets (août 2016). Ottawa : Secteur de la politique stratégique et des résultats.

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Layer: Projets nucléaires (13)

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Layer: Projets hydroélectriques au fil de l’eau (14)

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Layer: Projets relies à l’énergie des vagues (16)

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Layer: Projets éoliens (17)

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Layer: Productio à petiteéchelle et distribuée (kW) (18)

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Description: Cette couche cartographique représente des statistiques agrégées sur les projets de production à petite échelle (moins de 0,80 MW pour l’énergie solaire, éolienne ou hydroélectrique, et moins de 0,25 MW pour la biomasse) et les projets de production distribuée d’énergie renouvelable dans chaque province et territoire. Plusieurs projets d’énergie renouvelable à petite échelle reliés au réseau ou hors réseau sont en cours d’élaboration au Canada, notamment dans des régions qui dépendent de la production d’énergie à base de combustibles fossiles traditionnels ou qui n’ont pas accès à l’électricité à l’heure actuelle.

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Copyright Text: Ressources naturelles Canada. Production à petite échelle et distribuée (compilation d’information des secteurs fédéral, provincial et privé), 2016. Ottawa.

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Layer: Installations de production de biochaleur (19)

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Copyright Text: Natural Resources Canada. Bioheat Installations. Ottawa: Bioenergy Systems; Canadian Forest Service, 2015.

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Layer: Installations de captage et de stockage du carbone (CSC) (20)

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Copyright Text: Conseil national de recherches Canada. Énergie hydrocinétique de sections de cours d’eau (MW). Ottawa : Infrastructure marine, énergie et ressources hydriques, 2015.

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Description: This map is an illustration of Canada’s tidal energy resource potential. About 190 tidal power sites have been identified off Canada’s coasts with a total estimated capacity of 42,000MW—more than 63 percent of the country’s annual total electricity consumption. Nunavut has the country’s greatest abundance of tidal resources; British Columbia has the most potential sites. Tidal energy is produced by the rise and fall of tides from the gravitational influence of the sun and moon. Tidal energy can take two forms: tidal current and tidal range. Canada is pursuing tidal current energy generation.

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Copyright Text: National Research Council Canada. Tidal Current Mean Potential Power (MW) Estimates. Ottawa: Marine Infrastructure, Energy & Water Resources, 2015.

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Description: Cette couche cartographique montre l’emplacement des centrales hydroélectriques à réservoir au Canada. Toutes les régions du Canada disposent de ressources hydroélectriques à exploiter. Le Québec possède le plus grand potentiel hydroélectrique, suivi de près par la Colombie-Britannique. Les centrales hydroélectriques à réservoir peuvent favoriser l’intégration d’autres sources d’énergie renouvelable, par exemple les sources de nature intermittente comme l’énergie éolienne ou l’énergie solaire.

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Copyright Text: Global Forest Watch Canada. Grands barrages et réservoirs du Canada (ensemble de données). Edmonton, Alberta : Global Forest Watch Canada, 2010.

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Description: Cette couche cartographique illustre le potentiel des ressources d’énergie solaire au Canada. Elle présente deux éléments : l’insolation globale quotidienne moyenne et l’éclairement énergétique horizontal global au Canada. Le Canada dispose de ressources d’énergie solaire abondantes, les plus importantes étant situées le long de la frontière méridionale du pays. Le potentiel est plus faible dans les territoires, car ils sont situés à des latitudes où le temps d’ensoleillement est plus court en hiver.

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Copyright Text: McKenney, D. W., Pelland, S., Poissant, Y., Morris, R., Hutchinson, M., Papadopol, P., Lawrence, K. and Campbell, K. (2008). Spatial insolation models for photovoltaic energy in Canada. Solar Energy, 82(11), 1049-1061. Data accessed: February, 2016. Ottawa: Natural Resources Canada.

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Layer: Éclairement énergétique horizontal global – montant annuel moyen (kWh/m²/y) (37)

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Description: This map is an illustration of Canada’s solar energy resource potential. It includes two views, the mean daily global insolation and the global horizontal irradiance (GHI) in Canada.

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Copyright Text: Natural Resources Canada. Annual Average Direct Normal Irradiance 1988-2014. Ottawa: Office of Energy Research and Development, 2015.

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Layer: Densité de puissance moyenne annuelle des vagues (kW/m) (38)

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Description: Cette couche cartographique illustre le potentiel des ressources liées à l’énergie des vagues au Canada. Elle présente deux éléments : la densité de puissance moyenne annuelle des vagues au Canada et l’énergie annuelle des vagues pour la côte ouest de l’île de Vancouver. L’énergie des vagues est créée par le vent soufflant à la surface de l’océan. Les eaux qui se trouvent au large des côtes canadiennes de l’Atlantique et du Pacifique sont riches en ressources liées à l’énergie des vagues. Les niveaux annuels moyens d’énergie des vagues dans les eaux profondes, un peu au large de la plate-forme continentale, sont d’environ 80 kW/m (kilowatts par mètre) pour le front des vagues de la côte de l’Atlantique et d’environ 100 kW/m pour celui de la côte du Pacifique.

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Copyright Text: Conseil national de recherches du Canada. Densité de puissance moyenne des vagues (kW/m). Ottawa : Infrastructure marine, énergie et ressources hydriques, 2015.

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