Overview
Videplast is a 2 MW diesel power plant in Brazil, using oil as its primary fuel. It is currently operational and contributes to local power generation.
Videplast is a diesel power plant located in Brazil, with coordinates approximately 27.004°S, 51.1425°W. With a capacity of 2 MW, it is a small-scale facility within the Brazilian power generation sector, which relies on a mix of hydroelectric, thermal, and renewable sources. The plant operates on oil as its primary fuel, typical for diesel power plants that provide flexible and dispatchable electricity. In Brazil, such thermal plants often serve as backup or peaking capacity, complementing the dominant hydroelectric generation. As a small diesel plant, Videplast likely plays a role in local grid stability or isolated power supply. Its environmental impact is relatively modest due to its size, but diesel combustion emits CO2, SOx, and NOx. The plant operates under Brazil's national environmental regulations, which include emission standards and licensing requirements for thermal power generation.
Environmental context
The plant's use of oil as fuel results in emissions of carbon dioxide, sulfur oxides, and nitrogen oxides, contributing to local air quality concerns. Its small capacity (2 MW) limits overall emissions, but proximity to populated areas could amplify health impacts. Brazil's regulatory framework, including CONAMA resolutions, sets emission limits for thermal power plants, though enforcement varies.
Frequently asked questions
Videplast is located in Brazil, with approximate coordinates 27.004°S, 51.1425°W.
Videplast uses oil as its primary fuel, typical for diesel power plants.
Videplast has a capacity of 2 megawatts (MW), classifying it as a small-scale power generation facility.
Diesel power plants in Brazil must comply with CONAMA resolutions, which set emission limits for pollutants like SOx, NOx, and particulate matter. Licensing through environmental agencies is also required.
As a small diesel plant, Videplast likely provides backup or peaking power, supporting grid stability especially in regions where hydroelectric generation may be variable.