Overview
Serra dos Cavalinhos II is a 29 MW hydroelectric power plant located in Brazil. It is operational and contributes to the country's renewable energy generation.
Serra dos Cavalinhos II is a hydroelectric power plant in Brazil, with a capacity of 29 MW. The facility is operational and plays a role in the country's renewable energy mix, leveraging water resources for electricity generation. Hydroelectric plants in Brazil operate under national regulations, including environmental licensing and water use permits. The technology typically involves dams and turbines, with efficiency depending on water flow and head. Brazil's hydroelectric sector is well-established, with many plants of varying scales. The plant's capacity of 29 MW places it in the small-to-medium scale for hydroelectric facilities. It contributes to local grid stability and supports regional development by providing clean energy. The environmental impact is generally lower than fossil fuel plants, though it involves water management considerations.
Environmental context
Hydroelectric power generation has a relatively low carbon footprint compared to fossil fuels, but it can affect local aquatic ecosystems and water flow. The Serra dos Cavalinhos II plant, with a capacity of 29 MW, is a small-scale facility that likely has a limited environmental footprint. Its operation is subject to Brazilian environmental regulations, which require assessments and mitigation measures for water use and habitat impacts.
Frequently asked questions
Serra dos Cavalinhos II is a hydroelectric power plant located in Brazil, with coordinates approximately 28.79° S, 50.74° W.
The plant has a capacity of 29 megawatts (MW), making it a small-to-medium scale hydroelectric facility.
It is a hydroelectric power plant, which generates electricity by harnessing the energy of flowing water.
Hydroelectric plants in Brazil must comply with environmental licensing from agencies like IBAMA, water use permits from ANA, and sector-specific regulations from ANEEL.
Hydroelectric plants produce low carbon emissions but can alter water flow, affect aquatic habitats, and require reservoir management. Environmental impact assessments are typically required.