Overview
Datang Changqing Phase 1 Wind is an operational onshore wind farm in China with a capacity of 49 MW, contributing to the country's renewable energy expansion.
Datang Changqing Phase 1 Wind is an onshore wind farm located in China, with coordinates 36.328° N, 116.599° E. The facility is operational and has a capacity of 49 megawatts, placing it in the medium-scale range for wind projects in the region. It is part of China's vast wind energy portfolio, which is the largest globally. The wind farm utilizes onshore wind turbines to generate electricity. China's renewable energy sector is heavily supported by national policies such as the Renewable Energy Law and feed-in tariffs, which have driven rapid capacity additions. The 49 MW capacity indicates a moderate-sized installation typical of provincial-level wind projects. This facility plays a role in reducing carbon emissions and supporting China's goal of carbon neutrality by 2060. Onshore wind farms like Datang Changqing Phase 1 contribute to grid stability and local energy supply, while also facing challenges such as land use and integration into the power grid.
Environmental context
The facility is situated in an area with moderate wind resources suitable for power generation. Onshore wind farms can have visual impacts on landscapes and may affect local bird and bat populations. However, proper siting and mitigation measures can reduce these effects. The project supports China's transition to cleaner energy, reducing reliance on coal-fired power.
Frequently asked questions
Datang Changqing Phase 1 Wind is located in China, with approximate coordinates 36.328° N, 116.599° E.
The wind farm has a capacity of 49 megawatts (MW), making it a medium-scale onshore wind installation.
It is part of China's wind energy sector.
China's wind energy is supported by the Renewable Energy Law, feed-in tariffs, and national targets for carbon neutrality by 2060, driving rapid wind capacity growth.
Onshore wind farms can impact local wildlife, particularly birds and bats, and may alter landscapes. Proper siting and mitigation help minimize these effects.