Overview
Santa Cecília is a 1.75 MW hydroelectric power plant located in Brazil. It is operational and contributes to the country's renewable energy generation.
Santa Cecília is a hydroelectric power plant located in Brazil, with a capacity of 1.75 MW. As a small-scale hydro facility, it plays a role in the local energy mix, leveraging Brazil's abundant water resources for clean electricity generation. Brazil's hydroelectric sector is well-established, with many plants operating under national regulations that prioritize environmental licensing and water resource management. The country's reliance on hydropower is significant, and small plants like Santa Cecília complement larger dams by providing distributed generation. The plant's operational status indicates it is actively contributing to the grid. Its small capacity suggests it may serve local communities or industrial users, supporting energy access in its region. Hydroelectric power is a low-carbon source, aligning with Brazil's renewable energy goals.
Environmental context
Hydroelectric power generation has a low carbon footprint but can affect local aquatic ecosystems and water flow. Santa Cecília's small capacity minimizes its environmental impact compared to large dams. The plant's location in Brazil, a country with stringent environmental licensing for hydro projects, suggests it operates under regulations that address ecological concerns.
Frequently asked questions
Santa Cecília is located in Brazil, with coordinates approximately 15.9822° S, 55.3756° W.
Santa Cecília has a capacity of 1.75 MW, making it a small-scale hydroelectric facility.
Santa Cecília is a hydroelectric power plant, generating electricity from flowing water.
Hydroelectric plants in Brazil are regulated by the National Electric Energy Agency (ANEEL) and must comply with environmental licensing from IBAMA, including water use permits and ecological impact assessments.
As a small hydro plant, Santa Cecília adds to Brazil's renewable energy capacity, which is predominantly hydroelectric. It supports grid stability and local energy needs with low-carbon electricity.