Overview
Linzhou C is a 4.5 MW solar PV facility located in China. The plant is operational and contributes to the country's expanding renewable energy capacity.
Linzhou C is a solar photovoltaic (PV) power plant with a capacity of 4.5 megawatts, located in China. The facility is operational and represents a small-scale solar installation within the country's vast renewable energy portfolio. The plant operates under China's regulatory framework for renewable energy, which includes national feed-in tariffs and renewable portfolio standards. Solar PV is a key technology in China's strategy to increase non-fossil fuel energy sources, with the country being the world's largest solar market. Linzhou C contributes to local energy generation and helps reduce reliance on coal-fired power. Its output supports grid stability and aligns with China's goals for carbon neutrality by 2060. The facility's location in Henan province benefits from favorable solar irradiation levels.
Environmental context
Solar PV installations like Linzhou C have minimal environmental impact during operation, with no emissions or water use. However, land use for solar farms can affect local ecosystems. In China, solar projects are often sited on marginal or degraded land to minimize conflicts with agriculture. The facility's small scale reduces visual and land-use impacts compared to larger solar parks.
Frequently asked questions
Linzhou C is a solar PV plant located in China, with coordinates approximately 36.239° N, 113.973° E, in Henan province.
Linzhou C has a capacity of 4.5 megawatts (MW), making it a small-scale solar photovoltaic facility.
Yes, Linzhou C is currently operational, according to available data.
China supports solar PV through national feed-in tariffs, renewable portfolio standards, and subsidies under its Renewable Energy Law. The country aims to achieve carbon neutrality by 2060, driving solar deployment.
Linzhou C generates clean electricity, reducing reliance on fossil fuels and supporting China's target of 1,200 GW of wind and solar capacity by 2030.