Overview
Pingwu Renjiaba Smallchina is a 12 MW hydroelectric power plant located in China. It operates as a renewable energy facility contributing to the local grid.
Pingwu Renjiaba Smallchina is a hydroelectric power plant located in China, with a capacity of 12 MW. As a small-scale hydro facility, it generates electricity using the flow of water, a renewable energy source. The plant is operational and plays a role in the regional power supply. Hydroelectric power plants in China often operate under national regulations that promote renewable energy development. The country has a significant number of small hydro plants, which are supported by policies aimed at increasing clean energy capacity. The technology typically involves turbines driven by water flow, with minimal emissions compared to fossil fuel plants. The plant's environmental significance lies in its use of renewable hydropower, which produces no direct CO2, SOx, or NOx emissions. Its small capacity suggests a localized impact, likely serving nearby communities. The facility contributes to China's renewable energy goals and reduces reliance on coal-fired generation.
Environmental context
The plant uses hydropower, a renewable energy source with no direct emissions of CO2, SOx, or NOx. Its small capacity of 12 MW indicates a localized environmental footprint. The facility is situated in a region with water resources suitable for hydroelectric generation, and its operation supports China's transition to cleaner energy.
Frequently asked questions
Pingwu Renjiaba Smallchina is a hydroelectric power plant located in China, with coordinates approximately 32.2433 N, 104.3309 E.
The plant has a capacity of 12 megawatts (MW), classifying it as a small-scale hydroelectric facility.
It 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 policies and environmental regulations, including the Renewable Energy Law and water resource management standards.
As a hydroelectric plant, it produces no direct air emissions, but may have local ecological effects related to water flow and aquatic habitats. Its small scale minimizes regional impact.