Overview
BIGFER MATRIZ is a 1.48 MW diesel power plant located in Brazil. It operates on oil and is currently operational.
BIGFER MATRIZ is a small-scale diesel power plant located in Brazil, with a capacity of 1.48 MW. The plant is operational and contributes to the local power generation mix, primarily serving as a backup or peaking facility due to its size and fuel type. In Brazil, diesel power plants are typically used for emergency or peak load support, as the country's grid is dominated by hydroelectric and renewable sources. The plant operates under Brazilian environmental regulations, which include emission standards for particulate matter, NOx, and SOx, though specific permits for this facility are not detailed. The plant's small capacity suggests it may serve a local industrial or community need, providing grid stability in the region. Its location in southern Brazil places it in an area with moderate industrial activity, where diesel generation can supplement the grid during high demand periods.
Environmental context
Diesel power plants like BIGFER MATRIZ emit CO2, NOx, SOx, and particulate matter, contributing to local air quality concerns. The plant's small capacity limits its overall environmental footprint, but its proximity to populated areas may require adherence to emission control measures. Brazil's regulatory framework for stationary sources includes CONAMA resolutions that set emission limits for new and existing plants.
Frequently asked questions
BIGFER MATRIZ is located in Brazil, with coordinates approximately 29.2271° S, 51.3486° W.
BIGFER MATRIZ has a capacity of 1.48 MW, making it a small-scale diesel power plant.
BIGFER MATRIZ operates on oil (diesel), which is typical for peaking or backup power plants.
Diesel power plants in Brazil must comply with CONAMA resolutions, which set emission limits for pollutants such as NOx, SOx, and particulate matter. Facilities may also need environmental licenses from state or federal agencies.
As a small diesel plant, BIGFER MATRIZ likely provides backup or peak load support, helping to stabilize the grid during periods of high demand or when renewable sources are insufficient.