Overview
Qinghai Baokuhe III is a 15 MW hydroelectric power plant located in Qinghai, China. It is operational and contributes to the region's renewable energy capacity.
Qinghai Baokuhe III is a hydroelectric power plant situated in Qinghai Province, China, with a capacity of 15 MW. As a small-scale hydro facility, it plays a role in the local energy mix, leveraging the region's water resources for clean electricity generation. The plant operates under China's regulatory framework for renewable energy, which includes national policies promoting hydroelectric development. Hydroelectric plants in China are subject to environmental impact assessments and water resource management regulations to ensure sustainable operation. This facility contributes to Qinghai's renewable energy portfolio, supporting the province's goals for clean energy transition. Its operation helps reduce reliance on fossil fuels and provides low-carbon electricity to the grid, benefiting local communities and the environment.
Environmental context
Hydroelectric power generation has a relatively low carbon footprint compared to fossil fuel plants, but can affect local aquatic ecosystems and water flow. The Qinghai region is characterized by high-altitude terrain and sensitive ecological zones. The plant's operation must balance energy production with water resource management and ecological preservation.
Frequently asked questions
Qinghai Baokuhe III is located in Qinghai Province, China, at coordinates 37.0831 N, 101.5706 E.
Qinghai Baokuhe III has a capacity of 15 megawatts (MW), classifying it as a small-scale hydroelectric plant.
It is a hydroelectric power plant, which generates electricity by harnessing the energy of flowing water.
Hydroelectric plants in China must comply with national renewable energy policies, environmental impact assessments, and water resource management regulations to ensure sustainable operation.
As a renewable energy source, it produces low-carbon electricity, reducing reliance on fossil fuels and supporting China's clean energy transition.