Overview
Guariba is a 1.45 MW diesel power plant located in Brazil. It operates on oil and is currently operational, serving local energy needs.
Guariba is a diesel power plant situated in Brazil, with a capacity of 1.45 MW. This small-scale facility operates on oil as its primary fuel and is currently in operational status. The plant contributes to the local power generation mix, supporting energy demands in its region. As a diesel-fired plant, Guariba uses internal combustion engine technology typical for smaller, decentralized power generation. In Brazil, such plants often serve remote areas or provide backup power. The facility operates under Brazil's national environmental regulations, which include emission standards for air pollutants and waste management requirements. The plant's relatively small capacity and diesel fuel source result in a moderate environmental footprint compared to larger fossil fuel plants. Its role in the local grid is likely to provide reliability and peak shaving, contributing to energy security in the area.
Environmental context
The plant's diesel fuel combustion produces CO2, SOx, and NOx emissions, though its small capacity limits overall impact. Located in a region with low population density, the facility's emissions are less likely to affect densely populated areas. The use of oil as fuel, while common for small plants, carries higher carbon intensity per MWh compared to natural gas.
Frequently asked questions
Guariba power plant is located in Brazil, with coordinates approximately 9.2585° S, 60.3055° W.
Guariba is a diesel power plant that uses oil as its primary fuel to generate electricity.
Guariba has a capacity of 1.45 megawatts (MW), making it a small-scale power generation facility.
Diesel power plants in Brazil must comply with national emission standards set by CONAMA (National Environment Council), including limits on particulate matter, SOx, and NOx emissions.
As a small diesel plant, Guariba likely provides localized power generation, possibly for remote areas or as backup capacity, supporting grid stability and energy access.