Overview
Isle-Maligne is a 463.8 MW hydroelectric power plant in Canada, operated by Rio Tinto. It is an operational facility contributing to the region's renewable energy supply.
Isle-Maligne is a hydroelectric power plant located in Canada, with a capacity of 463.8 MW. The facility is owned by Rio Tinto and is currently operational, playing a key role in the company's energy portfolio. The plant operates under Canada's federal and provincial regulatory frameworks, which emphasize clean energy and environmental stewardship. Hydroelectric power is a major component of Canada's energy mix, and facilities like Isle-Maligne benefit from established water management and licensing processes. As a large-scale hydroelectric plant, Isle-Maligne provides reliable, low-carbon electricity to the grid. Its operation supports regional industrial activities and contributes to Canada's renewable energy targets, reducing reliance on fossil fuels.
Environmental context
Hydroelectric power generation has a low carbon footprint but can affect local aquatic ecosystems and water flow regimes. The facility's location in Canada, a country with abundant water resources, allows for sustainable hydropower operations. Proximity to populated areas and sensitive habitats may require careful management of water levels and fish passage.
Frequently asked questions
Isle-Maligne is located in Canada, with coordinates approximately 48.5771° N, -71.6347° W.
The Isle-Maligne hydroelectric plant has a capacity of 463.8 megawatts (MW).
The Isle-Maligne hydroelectric plant is owned by Rio Tinto, a global mining and metals corporation.
Hydroelectric plants in Canada are regulated under federal and provincial laws, including the Canadian Environmental Assessment Act and provincial water management regulations, ensuring sustainable operation and environmental protection.
Hydroelectric power is a low-carbon energy source, but it can alter aquatic ecosystems, affect fish migration, and change water flow patterns. Proper management and mitigation measures are essential to minimize these impacts.