Radisson Sous-Station
Canada /
Quebec /
Chisasibi /
Route de Radisson
World
/ Canada
/ Quebec
/ Chisasibi
Monde / Canada / Québec / Nord-du-Québec
site de production, poste électrique
Sous-Station électrique
www.hydroquebec.com/visit/virtual_visit/poste_radisson....
Radisson substation is by far the largest substation on the Hydro-Québec grid. Its surface is large enough to accommodate 100 football fields, and it has a transfer capacity of 6,600 MW. Located 16 km from the Robert-Bourassa hydroelectric development, Radisson substation has three functions.
First of all, it serves as a switchyard, routing electricity to two of the six 735-kV lines in the James Bay transmission system.
It steps the voltage up from 315 kV to 735 kV so that the electricity generated by La Grande-2-A and La Grande-1 can be brought onto the grid. Conversely, it can step the voltage down for supply to the DC converters.
It converts 315-kV AC current to ±450-kV DC current and can send 2,200 MW south over the Radisson–Nicolet–Des–Cantons line (a multiterminal direct-current system).
Electricity is transmitted at extra high voltage (735 kV) mainly because this is the most cost-effective option. After all, it takes two to three 315-kV lines to do the work of a single 735-kV line. Besides, transmission losses are smaller with high-voltage lines. Between James Bay and Montréal (more than 1,000 km apart), transmission losses vary from 4.5% to 8%, depending on operating conditions and temperature.
www.hydroquebec.com/visit/virtual_visit/poste_radisson....
Radisson substation is by far the largest substation on the Hydro-Québec grid. Its surface is large enough to accommodate 100 football fields, and it has a transfer capacity of 6,600 MW. Located 16 km from the Robert-Bourassa hydroelectric development, Radisson substation has three functions.
First of all, it serves as a switchyard, routing electricity to two of the six 735-kV lines in the James Bay transmission system.
It steps the voltage up from 315 kV to 735 kV so that the electricity generated by La Grande-2-A and La Grande-1 can be brought onto the grid. Conversely, it can step the voltage down for supply to the DC converters.
It converts 315-kV AC current to ±450-kV DC current and can send 2,200 MW south over the Radisson–Nicolet–Des–Cantons line (a multiterminal direct-current system).
Electricity is transmitted at extra high voltage (735 kV) mainly because this is the most cost-effective option. After all, it takes two to three 315-kV lines to do the work of a single 735-kV line. Besides, transmission losses are smaller with high-voltage lines. Between James Bay and Montréal (more than 1,000 km apart), transmission losses vary from 4.5% to 8%, depending on operating conditions and temperature.
Villes proches:
Coordonnées : 53°43'34"N 77°44'19"W
- LG-2 (centrale Robert Bourassa) 15 km
- Centrale hydroélectrique de LG-3 112 km
- Barrage Régulateur et Centrale de la Sarcelle 138 km
- Barrage OA-11 183 km
- Centrale hydroélectrique LG4 280 km
- Centrale hydroélectrique La Forge-2 429 km
- Centrale hydroélectrique De Brisay 477 km
- Pâpetière Domtar 525 km
- Centrale hydro des Chute-des-Passes (Québec /Canada) 624 km
- Centrale hydroélectrique Manic-3 768 km
- Lac Duncan 28 km
- Lac Yasinski 52 km
- Réservoir Robert-Bourassa 57 km
- Réservoir Sakami 89 km
- Lac Bonfait 92 km
- Lac McNab 95 km
- Lac Du-Vieux-Comptoir 106 km
- Réservoir Boyd 125 km
- Réservoir Opinaca 162 km
- Réservoir LG- 3 168 km