Overview
Pacheco is a 2 MW hydroelectric power plant in Brazil. It is operational and contributes to the country's renewable energy mix.
Pacheco is a hydroelectric power plant located in Brazil, with a capacity of 2 MW. As a small-scale facility, it plays a role in the local energy grid, supporting Brazil's reliance on hydropower, which accounts for a significant portion of the nation's electricity generation. The plant operates under Brazil's regulatory framework for hydropower, which includes environmental licensing and water use permits. While specific technical details are limited, small hydro plants like Pacheco typically use run-of-river technology, minimizing environmental impact compared to large reservoirs. Pacheco contributes to Brazil's renewable energy portfolio, helping to reduce greenhouse gas emissions. Its location in a region with abundant water resources supports consistent power generation, serving local communities and industries.
Environmental context
Hydropower plants like Pacheco have a low carbon footprint but can affect local aquatic ecosystems. The plant's small capacity suggests minimal alteration to river flow, reducing ecological disruption. Brazil's hydropower sector is regulated to balance energy production with environmental protection, including requirements for fish passage and minimum flow rates.
Frequently asked questions
Pacheco is located in Brazil, with coordinates approximately 26.5845° S, 52.1836° W.
Pacheco has a capacity of 2 megawatts (MW), classifying it as a small hydroelectric facility.
Yes, Pacheco is currently operational, contributing to Brazil's electricity grid.
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 environmental impact assessments.
Small hydropower plants like Pacheco produce low greenhouse gas emissions and have a smaller environmental footprint compared to large dams, as they often use run-of-river designs that minimize habitat disruption.