Pirapora I is a key player in Brazil's rapidly evolving energy sector, holding the position of #219 out of 2,402 power generation facilities in the country. With a capacity of 150 MW, it ranks as the 4th largest solar plant among 24 such facilities in Brazil. This positioning is particularly significant as Brazil’s energy landscape is dominated by hydroelectric power, which accounts for a substantial portion of the country's 250,382 MW total capacity. Pirapora I contributes a modest 0.06% to the national energy supply, emphasizing the growing role of solar energy in a country traditionally reliant on hydro. In proximity, the Pirapora Solar Complex features additional solar facilities, including Pirapora II and Pirapora III, which have capacities of 115 MW and 72 MW respectively. This regional cluster of solar plants illustrates a shift towards diversification in energy sources, enhancing grid reliability and sustainability. The solar technology employed at Pirapora I utilizes photovoltaic systems to convert sunlight into electricity, promoting clean energy generation and reducing reliance on fossil fuels. As the Brazilian government prioritizes renewable energy, the significance of Pirapora I is amplified by its contribution to this broader strategy. Operated by a consortium of local investors, Pirapora I represents a forward-looking approach to energy production in Brazil, aligning with global trends towards sustainability. The plant's role is not just limited to energy generation; it also has a positive economic impact on the surrounding community, creating jobs and fostering local investment in renewable energy initiatives. With the push for further development in solar energy, Pirapora I is well-positioned to play a crucial role in Brazil's transition to a more sustainable energy future.
9 years old
Brazil, South America
- Primary Fuel Type
- Solar
- Energy Source
- Renewable
- Country
Brazil- Continent
- South America
- Data Source
- Global Power Plant Database
Solar power generation harnesses the sun's energy using photovoltaic (PV) cells or solar thermal systems to produce electricity. The basic principle of solar power generation involves converting sunlight into usable energy. When sunlight hits a PV cell, it excites electrons in the semiconductor material, generating an electric current. This process is known as the photovoltaic effect. Solar thermal systems, on the other hand, use sunlight to heat a fluid that, in turn, produces steam to drive a turbine and generate electricity. Both methods provide a clean and renewable energy source that is gaining significant traction worldwide.
Help us improve our database by reporting any corrections or updates. Your contribution helps keep our global power plant data accurate and up-to-date.