Overview
Yunnan Luliang Yangmeishan Zijia Wind is an operational onshore wind farm in China with a capacity of 49 MW, contributing to the country's renewable energy expansion.
Yunnan Luliang Yangmeishan Zijia Wind is an operational onshore wind farm located in Yunnan Province, China. 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 technology, typical for onshore wind farms in China. It operates under China's national renewable energy framework, which includes feed-in tariffs and renewable portfolio standards aimed at increasing the share of non-fossil energy. The 49 MW capacity indicates a significant contribution to local grid supply. Environmentally, the wind farm helps reduce carbon emissions by displacing coal-fired power, which is prevalent in Yunnan's energy mix. It also supports China's goal of achieving peak carbon emissions by 2030 and carbon neutrality by 2060. The facility's operational status ensures ongoing clean energy generation for the region.
Environmental context
Yunnan Province features mountainous terrain and diverse ecosystems, making wind farm siting crucial to minimize land-use impact. Onshore wind farms like this one can affect local bird and bat populations, though proper siting and mitigation measures are typically employed. The region's high wind resources make it suitable for wind energy, contributing to China's renewable energy goals.
Frequently asked questions
The wind farm is located in Yunnan Province, China, at coordinates approximately 25.0772 N, 103.8089 E.
The facility has a capacity of 49 MW, making it a medium-scale onshore wind farm.
It generates electricity from wind power using onshore wind turbines.
China supports wind energy through national renewable energy laws, feed-in tariffs, and renewable portfolio standards, aiming for 1,200 GW of wind and solar capacity by 2030.
Onshore wind farms can affect local wildlife, particularly birds and bats, and require careful siting to minimize land-use conflicts. However, they provide significant carbon emission reductions.