Risk: Low Hydroelectric Power Plant Operational

Culuene Hydroelectric Power Plant | Small-Scale Renewable Energy in Brazil

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Overview

Culuene is a small hydroelectric power plant in Brazil with a capacity of 1.794 MW. It contributes to the country's renewable energy mix, supporting local grid stability.

Culuene is a hydroelectric power plant located in Brazil, operating with a capacity of 1.794 MW. As a small-scale facility, it plays a role in the regional energy supply, leveraging the country's abundant water resources for clean electricity generation. The plant operates under Brazil's regulatory framework for hydroelectric power, which includes environmental licensing and water use permits. Small hydro plants like Culuene are typically run-of-river, minimizing reservoir impact and aligning with national policies promoting renewable energy. Culuene's operational status as an active facility underscores its contribution to Brazil's energy matrix, which relies heavily on hydropower. Its modest capacity serves local communities, reducing transmission losses and supporting decentralized energy generation.

Environmental context

Hydroelectric plants like Culuene have a low carbon footprint but can affect local aquatic ecosystems. The facility's small scale likely minimizes habitat disruption compared to large dams. Brazil's regulatory framework requires environmental impact assessments and mitigation measures for such projects.

Frequently asked questions

The Culuene hydroelectric power plant is located in Brazil, with coordinates approximately 14.6333° S, 53.9333° W.

The Culuene hydroelectric plant has a capacity of 1.794 MW, classifying it as a small-scale hydro facility.

Culuene is a hydroelectric power plant, generating electricity from flowing water.

Hydroelectric plants in Brazil must comply with environmental licensing from IBAMA, water use permits from ANA, and regulations under the National Electric Energy Agency (ANEEL).

Small hydro plants like Culuene typically have lower environmental impacts than large dams, as they often use run-of-river designs that minimize reservoir flooding and habitat disruption.
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