The Parc éolien de Moulins-Pasilly is a significant wind power generation facility located in France, playing an essential role in the country's renewable energy strategy. With a capacity of 20,000 MW, this wind farm contributes to the diversification of France's energy mix, particularly as the nation seeks to reduce its reliance on nuclear power and fossil fuels. Situated at coordinates 47.7167, 4.0615, the site benefits from favourable wind conditions, enabling efficient electricity generation through cutting-edge onshore wind turbine technology. The operational context of the Parc éolien de Moulins-Pasilly is integral to the local grid, providing clean energy that supports both residential and industrial needs. As part of France's commitment to meet European renewable energy targets, this facility highlights the potential of wind energy to contribute to sustainable economic growth while addressing climate change. The plant not only enhances energy security but also fosters local employment opportunities, making it a vital asset to the region. With ongoing developments in wind technology, the Parc éolien de Moulins-Pasilly stands out as a testament to France's proactive approach to increasing its renewable energy capacity.
20.00 GW
7 years old
France, Europe
Location
Zero Direct Emissions
Parc éolien de Moulins-Pasilly is a wind power plant producing approximately 52560 GWh of clean electricity per year with zero direct CO₂ emissions during operation.
Lifecycle emissions: ~11 g CO₂/kWh (manufacturing, transport, decommissioning)
Technical Details
- Primary Fuel Type
- Wind
- Energy Source
- Renewable
- Country
France- Continent
- Europe
- Data Source
- Global Power Station Database
Nearby Power Plants
Wind Power Generation: Harnessing the Energy of the Atmosphere
Wind power generation is a renewable energy source that utilises the kinetic energy of wind to produce electricity. This process typically involves wind turbines, which convert the energy generated by moving air into mechanical energy, and subsequently into electrical energy. The basic mechanism starts with wind blowing over the blades of a turbine, causing them to rotate. This rotational motion turns a shaft connected to a generator, which then converts the mechanical energy into electrical energy. The efficiency of this conversion is influenced by various factors, including wind speed, turbine design, and the height of the turbine tower.
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