Overview
Renace is a 68.1 MW hydroelectric power plant located in Guatemala. It is operational and contributes to the country's renewable energy capacity.
Renace is a hydroelectric power plant in Guatemala with a capacity of 68.1 MW. It is currently operational and plays a role in the country's energy mix, leveraging Guatemala's abundant water resources for clean electricity generation. Hydroelectric plants like Renace typically operate under Guatemala's national energy regulations, which promote renewable energy development. The plant's capacity places it in the small-to-medium scale range for hydroelectric facilities globally, but it contributes significantly to local grid stability and renewable energy targets. The plant's operation supports Guatemala's efforts to reduce reliance on fossil fuels and lower greenhouse gas emissions. By utilizing hydropower, Renace provides a sustainable energy source that helps meet the electricity demands of surrounding communities while minimizing environmental impact.
Environmental context
Hydroelectric power generation, such as at Renace, has a low carbon footprint compared to fossil fuel plants. However, it can affect local aquatic ecosystems and water flow patterns. The plant's location in Guatemala, a region with high rainfall and mountainous terrain, is well-suited for hydropower. Careful management of water resources is necessary to balance energy production with ecological health.
Frequently asked questions
The Renace hydroelectric plant is located in Guatemala, with coordinates approximately 15.5° N, 90.174° W.
The Renace hydroelectric plant has a capacity of 68.1 megawatts (MW).
Renace is a hydroelectric power plant, meaning it generates electricity by harnessing the energy of flowing water.
Hydroelectric plants in Guatemala are subject to national energy regulations that promote renewable energy development and environmental impact assessments to ensure sustainable operation.
Renace provides a renewable source of electricity, helping to diversify Guatemala's energy mix and reduce dependence on fossil fuels, while supporting grid stability.