FPL Energy Crystal Lake Wind II LLC, with its 200 MW capacity, holds the noteworthy position of being ranked #1382 out of 10,047 power generation facilities across the United States. This facility, commissioned in 2009, is also the 147th largest wind plant in the nation, reflecting the growing momentum of wind energy despite the overall dominance of natural gas in the country’s energy profile. Located in Iowa, Crystal Lake Wind II is part of a robust network of wind facilities, situated within proximity to other plants like FPL Energy Crystal Lake Wind LLC (150 MW), Hancock County Wind Energy Center (98 MW), and Northern Iowa Windfarm (80 MW). This clustering of wind energy facilities not only enhances the reliability of the local grid but also exemplifies the collaborative effort to harness wind resources effectively. With a minuscule share of 0.01% of the national capacity, which totals 1,386,385 MW, the plant contributes to the broader narrative of renewable energy development in the U.S. The dominance of gas as the primary fuel type highlights the need for diversification in energy sources, and facilities like Crystal Lake Wind II play a pivotal role in this transition. Operated by FPL Energy Crystal Lake Wind II LLC, the plant symbolizes the investment in sustainable energy solutions that are vital for combating climate change. As the U.S. energy landscape evolves, the significance of Crystal Lake Wind II and its nearby counterparts will likely grow, supporting both environmental sustainability and regional economic development.
17 years old
United States of America, North America
- Primary Fuel Type
- Wind
- Energy Source
- Renewable
- Country
United States of America- Continent
- North America
- Data Source
- Global Power Plant Database
United States of America — Energy ProfileWind 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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