Overview
Fuga Couros - Camargo is a 1.016 MW diesel power plant located in Brazil. It operates on oil and is currently operational.
Fuga Couros - Camargo is a small-scale diesel power plant located in Brazil, with a capacity of 1.016 MW. The plant is operational and contributes to the local power generation mix, primarily serving industrial or remote area needs. As a diesel-fired facility, it operates using oil as its primary fuel. In Brazil, diesel power plants are often used for backup or peak load due to their flexibility, though they typically have higher emissions per MWh compared to natural gas or renewable sources. The plant's small capacity suggests it may serve a localized demand or provide emergency power. Environmental considerations for this plant include its fuel type and proximity to populated areas. Diesel combustion produces CO2, SOx, and NOx, which can impact local air quality. However, given its small size, the overall environmental footprint is limited. The plant's role in the grid is likely supplementary, providing reliability in a region with diverse energy sources.
Environmental context
The plant's use of oil as fuel results in emissions of CO2, SOx, and NOx, which can affect local air quality. Its small capacity (1.016 MW) limits the overall environmental impact, but proximity to populated areas may increase local exposure. Brazil's regulatory framework, including CONAMA resolutions, sets emission standards for such facilities.
Frequently asked questions
Fuga Couros - Camargo is located in Brazil, with coordinates approximately 28.6124° S, 52.2118° W.
It is a diesel power plant that uses oil as its primary fuel, with a capacity of 1.016 MW.
The plant has a capacity of 1.016 megawatts (MW), making it a small-scale power generation facility.
Diesel power plants in Brazil are subject to CONAMA resolutions, which set emission limits for pollutants such as SOx, NOx, and particulate matter. Facilities must also comply with state-level environmental licensing requirements.
As a small diesel plant, it likely provides backup or peak-load power, supporting grid stability in areas where renewable sources may be intermittent.