Overview
YPE I is a 3.65 MW diesel power plant in Brazil, operating on oil fuel. It supports local grid stability in the Southeast region.
YPE I is a diesel power plant located in Brazil, with coordinates approximately 22.71°S, 46.78°W, likely in the state of São Paulo. With a capacity of 3.65 MW, it is a small-scale facility within the Brazilian power generation sector, which relies on a mix of hydro, thermal, and renewable sources. The plant uses oil as its primary fuel, typical for diesel power plants that serve as peaking or backup units. Brazil's regulatory framework for thermal power plants includes environmental licensing by IBAMA and state agencies, with emission standards aligned to CONAMA resolutions. Diesel plants are subject to limits on SOx, NOx, and particulate matter. As a small operational unit, YPE I contributes to local energy security, particularly in areas where hydroelectric generation may be variable. Its location in a populated region underscores the importance of emission controls and compliance with air quality standards to minimize environmental impact.
Environmental context
The plant's use of oil fuel results in CO2, SOx, and NOx emissions, typical for diesel generation. Its small capacity (3.65 MW) limits overall emissions, but proximity to populated areas requires adherence to local air quality regulations. Brazil's CONAMA standards and state-level environmental agencies oversee emission limits and monitoring to mitigate health and environmental risks.
Frequently asked questions
YPE I is located in Brazil, with approximate coordinates 22.71°S, 46.78°W, likely in the state of São Paulo.
YPE I has a capacity of 3.65 megawatts (MW), classifying it as a small-scale power plant.
YPE I uses oil as its primary fuel, typical for diesel power plants.
Diesel power plants in Brazil must comply with CONAMA resolutions for air emissions, including limits on SOx, NOx, and particulate matter, enforced by IBAMA and state environmental agencies.
Small diesel plants like YPE I often serve as peaking or backup units, providing grid stability during periods of high demand or when hydroelectric generation is low.