Overview
Qilinsi is a 111 MW hydroelectric power plant located in China. It is operational and contributes to the country's renewable energy capacity.
Qilinsi is a hydroelectric power plant located in China, with a capacity of 111 megawatts. The facility is operational and plays a role in the region's power generation mix, leveraging the local water resources for clean energy production. Hydroelectric plants like Qilinsi operate under China's national energy regulations, which promote renewable energy development. The plant's capacity places it in the small-to-medium scale for hydroelectric facilities in China, where large projects often exceed 1,000 MW. The technology typically involves dams and turbines to convert water flow into electricity. The plant's operational status and capacity contribute to China's renewable energy targets, supporting grid stability and reducing reliance on fossil fuels. Its location in a mountainous area suggests it may be part of a cascade development, optimizing water use for power generation.
Environmental context
As a hydroelectric plant, Qilinsi has a low carbon footprint compared to fossil fuel plants, but its environmental impact includes potential alterations to local aquatic ecosystems and river flow. The facility's location in a mountainous region may involve reservoir creation, which can affect local biodiversity and land use. However, hydroelectric power is a key component of China's strategy to reduce greenhouse gas emissions.
Frequently asked questions
Qilinsi hydroelectric power plant is located in China, at coordinates 32.76° N, 105.33° E.
Qilinsi has a capacity of 111 megawatts, making it a small-to-medium scale hydroelectric facility.
Qilinsi is a hydroelectric power plant, which generates electricity by harnessing the energy of flowing water.
Hydroelectric plants in China are subject to national renewable energy laws, environmental impact assessments, and water resource management regulations.
Qilinsi contributes to China's renewable energy capacity, helping to reduce carbon emissions and support the country's transition to cleaner power sources.