Overview
Tianshengqiao 1 is a 1,200 MW hydroelectric power plant in China. It is an operational facility contributing to the country's renewable energy capacity.
Tianshengqiao 1 is a hydroelectric power plant located in China, with a capacity of 1,200 MW. As a large-scale hydropower facility, it plays a significant role in the region's electricity generation, leveraging the country's abundant water resources. The plant operates under China's regulatory framework for hydropower, which includes environmental impact assessments and water resource management standards. Hydroelectric plants like Tianshengqiao 1 typically use turbine technology to convert water flow into electricity, with efficiency influenced by head height and flow rate. This facility contributes to China's renewable energy goals, reducing reliance on fossil fuels and lowering greenhouse gas emissions. Its operational status ensures a stable power supply to the grid, supporting industrial and residential needs in the surrounding area.
Environmental context
As a hydroelectric plant, Tianshengqiao 1 has a low carbon footprint compared to fossil fuel plants, but its environmental impact includes alterations to river ecosystems and potential effects on local aquatic life. The facility's location in China involves compliance with national water management and environmental protection regulations.
Frequently asked questions
Tianshengqiao 1 is a hydroelectric power plant located in China, with coordinates approximately 24.9410° N, 105.1033° E.
Tianshengqiao 1 has a capacity of 1,200 megawatts (MW), making it a large-scale hydroelectric facility.
Tianshengqiao 1 is a hydroelectric power plant, which generates electricity by harnessing the energy of flowing water.
Hydroelectric plants in China must comply with national environmental impact assessments, water resource management laws, and renewable energy policies to ensure sustainable operation.
As a 1,200 MW hydroelectric plant, Tianshengqiao 1 supports China's renewable energy targets by providing clean electricity and reducing dependence on coal-fired power.