Overview
Huaneng Tongjiang Jiangsheng is an operational onshore wind farm in China with a capacity of 49 MW, contributing to the country's renewable energy expansion.
Huaneng Tongjiang Jiangsheng is an onshore wind farm located in China, operating in the renewable energy sector. With a capacity of 49 MW, it falls within the medium-scale range for wind farms in the region, supporting China's ambitious renewable energy targets. The facility utilizes wind power as its primary fuel source, a technology that has seen rapid deployment across China due to supportive policies such as feed-in tariffs and renewable portfolio standards. Operationally, the wind farm plays a role in reducing carbon emissions and diversifying the energy mix in the area. Its location in China aligns with the national goal of achieving 1,200 GW of wind and solar capacity by 2030, as outlined in the country's renewable energy development plan.
Environmental context
The wind farm is situated in a region where land use for energy infrastructure must balance with agricultural and ecological considerations. Onshore wind farms can have visual impacts and affect local bird and bat populations, though proper siting and mitigation measures are typically employed. The area's wind resource is favorable for power generation, contributing to clean energy production.
Frequently asked questions
Huaneng Tongjiang Jiangsheng is an onshore wind farm located in China, with coordinates approximately 47.9361 N, 132.8886 E.
The wind farm has a capacity of 49 megawatts (MW), making it a medium-scale facility within China's wind power sector.
The plant is owned by Huaneng, a major Chinese energy company.
China supports wind energy through national renewable energy targets, feed-in tariffs, and renewable portfolio standards. The country aims to reach 1,200 GW of wind and solar capacity by 2030.
Onshore wind farms can have visual impacts on landscapes and may affect bird and bat populations through collisions. Proper siting and mitigation measures are used to minimize these effects.