Overview
Jiangpinghe Dam is a 500 MW hydroelectric power plant located in China. It is an operational facility contributing to the region's renewable energy generation.
Jiangpinghe Dam is a hydroelectric power plant situated in China, with a capacity of 500 MW. As a renewable energy facility, it plays a significant role in the country's power generation mix, leveraging water resources to produce electricity. The plant operates under China's regulatory framework for hydropower, which includes environmental impact assessments and compliance with national water resource management policies. Hydroelectric plants like Jiangpinghe Dam typically use turbine technology to convert kinetic energy from flowing water into electrical power, with efficiency depending on head height and flow rate. This facility contributes to China's renewable energy targets and helps reduce reliance on fossil fuels. Its operational status ensures a stable supply of clean electricity to the grid, supporting local communities and industrial activities in the region.
Environmental context
As a hydroelectric plant, Jiangpinghe Dam has a low carbon footprint compared to fossil fuel plants, but its environmental impact includes alteration of river ecosystems and potential effects on aquatic life. The facility's location in a mountainous area of China may involve considerations related to land use and biodiversity. Proper management of water flow and sediment is essential to minimize ecological disruption.
Frequently asked questions
Jiangpinghe Dam is located in China, at coordinates 29.7389 N, 110.3396 E.
Jiangpinghe Dam has a capacity of 500 megawatts (MW), making it a medium-to-large hydroelectric facility.
Jiangpinghe Dam is a hydroelectric power plant that generates electricity by harnessing the energy of flowing water.
Hydroelectric plants in China must comply with national environmental impact assessment laws, water resource management regulations, and renewable energy policies.
As a renewable energy source, Jiangpinghe Dam helps China reduce carbon emissions and increase the share of clean energy in its power grid.