Overview
Salto Curuá is a 30 MW hydroelectric power plant located in Brazil. It is operational and contributes to the country's renewable energy generation.
Salto Curuá is a hydroelectric power plant located in Brazil, with a capacity of 30 MW. As a hydroelectric facility, it harnesses the energy of flowing water to generate electricity, providing a renewable source of power to the region. The plant operates under Brazil's regulatory framework for hydroelectric generation, which includes environmental licensing and water use permits. Hydroelectric power is a significant component of Brazil's energy mix, accounting for a large share of the country's electricity generation. The 30 MW capacity places Salto Curuá in the small-scale category for hydroelectric plants in Brazil. Salto Curuá plays a role in supporting Brazil's grid stability and reducing reliance on fossil fuels. Its operation contributes to the country's goals for renewable energy expansion and carbon emission reduction. The plant's location in the Amazon region highlights the importance of balancing energy development with environmental conservation.
Environmental context
Hydroelectric plants like Salto Curuá have a low carbon footprint compared to fossil fuel plants, but they can impact local aquatic ecosystems and water flow regimes. The plant's location in the Brazilian Amazon raises considerations for biodiversity and indigenous communities. Proper environmental management and monitoring are essential to mitigate these impacts.
Frequently asked questions
Salto Curuá is located in Brazil, with coordinates approximately 8.7735° S, 54.9572° W.
Salto Curuá has a capacity of 30 megawatts (MW).
Salto Curuá is a hydroelectric power plant, generating electricity from flowing water.
Hydroelectric plants in Brazil are regulated by federal agencies such as ANEEL (National Electric Energy Agency) and require environmental licenses from IBAMA or state environmental agencies. They must comply with water use permits and environmental impact assessments.
Hydroelectric plants produce low greenhouse gas emissions but can alter river ecosystems, affect fish migration, and displace communities. Proper siting and mitigation measures are required to minimize these impacts.