Overview
Via Brasil Shopping is a 3.024 MW diesel power plant in Brazil, providing backup or peak power for the shopping center. It operates on oil fuel.
Via Brasil Shopping is a diesel power plant located in Brazil, with a capacity of 3.024 MW. It serves as a dedicated power source for the shopping center, likely providing backup or peak load support. The plant is operational and uses oil as its primary fuel. As a small-scale diesel facility, it operates under Brazil's national environmental regulations, which include emission standards for stationary sources. Diesel plants typically have higher CO2 and particulate emissions per MWh compared to natural gas or renewable sources. The plant's technology is likely reciprocating engines, common for such capacity. The plant's location near a commercial area means it may contribute to local air quality concerns, though its small capacity limits overall impact. It plays a role in ensuring reliable power supply for the shopping center, especially during grid outages or peak demand periods.
Environmental context
The plant's diesel fuel use results in higher CO2, SOx, and NOx emissions per unit of electricity compared to natural gas or renewables. Its location in an urban area may affect local air quality, though the small capacity (3 MW) limits the overall environmental footprint. Brazil's regulatory framework includes emission limits for such facilities, but older diesel engines may have less stringent controls.
Frequently asked questions
Via Brasil Shopping power plant is located in Brazil, with coordinates approximately 22.8193° S, 43.3103° W.
The plant has a capacity of 3.024 megawatts (MW), making it a small-scale diesel power facility.
The plant uses oil (diesel) as its primary fuel, which is typical for backup or peaking power plants.
Diesel power plants in Brazil must comply with national emission standards set by CONAMA (National Environment Council), including limits for particulate matter, NOx, and SOx. Plants may also need environmental licenses.
A 3 MW diesel plant is very small compared to utility-scale plants (often hundreds of MW). It is typically used for emergency backup, peak shaving, or isolated loads, and has a higher carbon intensity per MWh than larger combined-cycle gas plants.