Overview
SIDEGUA is a 44 MW diesel power plant in Guatemala, operating on oil. It serves the local grid with dispatchable generation capacity.
SIDEGUA is a diesel power plant located in Guatemala, with a capacity of 44 megawatts. The facility operates on oil as its primary fuel and is currently in operational status. It contributes to the country's power generation mix, providing flexible and dispatchable electricity to meet demand fluctuations. As a diesel-fired plant, SIDEGUA operates under Guatemala's national environmental regulations, which set emission limits for sulfur dioxide (SO2), nitrogen oxides (NOx), and particulate matter. Diesel plants typically have higher CO2 emissions per MWh compared to natural gas or renewable sources. The plant's capacity of 44 MW places it in the small-to-medium scale range for power generation in Guatemala. The facility plays a role in supporting grid stability, particularly during peak demand or when renewable sources like hydroelectricity are less available. Its location in Guatemala allows it to serve local communities and industries, contributing to energy access and economic activity in the region.
Environmental context
The plant's use of oil as fuel results in higher CO2, SO2, and NOx emissions compared to natural gas or renewable sources. Its proximity to populated areas may raise local air quality concerns. The 44 MW capacity indicates a moderate environmental footprint, with emissions subject to national regulations. Older diesel engines may have lower efficiency and higher emission rates than modern combined-cycle plants.
Frequently asked questions
SIDEGUA is located in Guatemala, with coordinates approximately 14.24° N, -90.817° W.
SIDEGUA operates on oil (diesel) as its primary fuel.
SIDEGUA has a generation capacity of 44 megawatts (MW).
Diesel power plants in Guatemala must comply with national emission standards for SO2, NOx, and particulate matter, as well as environmental impact assessment requirements.
SIDEGUA provides dispatchable power that helps balance the grid, especially during peak demand or when renewable sources are intermittent.