Overview
Casca II is a 3.52 MW hydroelectric power plant located in Brazil. It is operational and contributes to the country's renewable energy generation.
Casca II is a hydroelectric power plant situated in Brazil, with a capacity of 3.52 MW. As a small-scale hydro facility, it plays a role in the local energy mix, supporting Brazil's reliance on renewable hydropower. The plant operates under Brazil's regulatory framework for hydroelectric generation, which includes environmental licensing and water use permits. Brazil's energy sector is heavily dominated by hydropower, and small plants like Casca II contribute to decentralized generation and grid stability. Environmentally, hydroelectric plants have a low carbon footprint but can affect local aquatic ecosystems. Casca II's small capacity likely minimizes its ecological impact. The plant supports regional energy needs and aligns with Brazil's commitment to renewable energy.
Environmental context
Hydroelectric power generation has a low carbon footprint but can alter river ecosystems through flow regulation and habitat changes. Casca II's small capacity (3.52 MW) suggests limited environmental impact compared to large dams. The plant's location in Brazil, a country with extensive hydropower infrastructure, means it operates within established environmental licensing requirements that address water quality and aquatic biodiversity.
Frequently asked questions
Casca II is a hydroelectric power plant located in Brazil, with coordinates approximately 15.3636° S, 55.4453° W.
Casca II has a capacity of 3.52 megawatts (MW), classifying it as a small-scale hydroelectric facility.
Casca II 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 IBAMA and water use permits from ANA. They also follow national energy policies and grid connection standards.
As a small hydro plant, Casca II adds to Brazil's predominantly renewable energy matrix, which relies heavily on hydropower. It supports local grid stability and decentralized generation.