Overview
Alto Jatapu is a 5 MW hydroelectric power plant located in Brazil. It is operational and contributes to the country's renewable energy mix.
Alto Jatapu is a hydroelectric power plant located in Brazil, with a capacity of 5 MW. As a small-scale hydro facility, it plays a role in the local energy grid, providing renewable electricity to the surrounding region. The plant is operational and contributes to Brazil's diversified power generation portfolio. Hydroelectric power is a dominant source of electricity in Brazil, accounting for a significant portion of the national grid. The Alto Jatapu plant operates under Brazil's regulatory framework for renewable energy, which includes incentives for small hydro projects. The technology used is typical for small hydro plants, with turbines driven by water flow. The plant's environmental impact is relatively low compared to fossil fuel-based generation, as hydroelectric power produces no direct emissions. However, small hydro projects can affect local aquatic ecosystems. The facility serves a local community, supporting economic activity and energy access in the region.
Environmental context
As a hydroelectric plant, Alto Jatapu has a low carbon footprint, producing no direct CO2, SOx, or NOx emissions. Its small capacity of 5 MW minimizes land use and water flow alterations compared to larger dams. The plant is located in a remote area of the Amazon basin, where environmental sensitivity is high. Operations must comply with Brazilian environmental licensing requirements to mitigate impacts on local biodiversity and water quality.
Frequently asked questions
Alto Jatapu is located in Brazil, near coordinates 0.9° N, 59.33° W, in the Amazon region.
Alto Jatapu has a capacity of 5 MW, classifying it as a small hydroelectric plant.
Alto Jatapu is a hydroelectric power plant, using water flow to generate electricity.
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 biodiversity impact assessments.
Hydroelectric power produces no direct air emissions, reducing greenhouse gas and pollutant output compared to fossil fuel plants, though it can affect aquatic ecosystems.