The Smola wind power generation facility, positioned as the 71st largest among Norway's 440 plants, represents a significant player in the nation's renewable energy landscape. With a capacity of 160 MW, it contributes 0.40% to the total national capacity of 39,683 MW, where hydropower remains the dominant fuel source. Smola ranks as the 7th largest wind plant in Norway, showcasing the country's commitment to diversifying its energy portfolio. This facility harnesses the power of wind through advanced turbine technology, positioning it to capitalize on Norway's favorable wind conditions. Notably, Smola has a nearby counterpart, the Smøla Wind Farm, which contributes an additional 150.4 MW, creating a robust wind energy cluster in the region. Together, these facilities play a crucial role in supporting the local grid and enhancing the energy supply in a country that has made significant investments in renewable sources. Norway's energy profile is heavily tilted towards hydropower, yet the presence of wind facilities like Smola indicates a progressive shift towards incorporating diverse renewable technologies. As the global energy landscape evolves, Smola's contribution as a wind facility underscores the potential for further developments in the wind sector, aligning with Norway's environmental goals and commitment to sustainability. The operator of Smola continues to explore opportunities for expanding wind energy production, ensuring that this facility remains at the forefront of Norway's transition to a greener energy future.
11 years old
Norway, Europe
- Primary Fuel Type
- Wind
- Energy Source
- Renewable
- Country
Norway- Continent
- Europe
- Data Source
- Global Power Plant Database
Wind power generation harnesses the kinetic energy of wind to produce electricity, making it one of the fastest-growing renewable energy sources globally. This process begins with wind turbines, which consist of large blades mounted on a tower. As the wind blows, it causes the blades to rotate, transforming the wind's kinetic energy into mechanical energy. This mechanical energy is then converted into electrical energy through a generator connected to the turbine. The efficiency of wind turbines has significantly improved over the past decades, with modern designs capable of generating power even at low wind speeds.
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