Overview
Levorin is a 4.11 MW gas power plant located in Brazil. It operates as a small-scale facility contributing to the local energy grid.
Levorin is a gas-fired power generation facility located in Brazil, with an operational capacity of 4.11 MW. As a small-scale plant, it plays a role in supporting regional energy needs, particularly in the context of Brazil's diverse energy mix which includes hydro, wind, and thermal sources. The plant operates under Brazil's national environmental and energy regulations, which include standards for emissions and operational efficiency. Gas power plants in Brazil typically use natural gas or biogas, and Levorin's capacity places it in the small-scale category, often used for distributed generation or backup power. Environmentally, gas-fired plants have lower CO2 emissions compared to coal or oil, but still contribute to greenhouse gas emissions. The plant's location near urban areas may influence local air quality considerations. Its operational status indicates ongoing contribution to the grid, supporting energy security in the region.
Environmental context
Gas power plants like Levorin have a moderate environmental footprint, with lower CO2 emissions per MWh compared to coal but higher than renewables. The plant's small capacity suggests limited local air quality impact, though proximity to populated areas could be a factor. Brazil's regulatory framework, including CONAMA resolutions, governs emissions and environmental licensing for such facilities.
Frequently asked questions
Levorin is located in Brazil, with coordinates approximately 23.459° S, 46.5235° W, near the São Paulo region.
Levorin is a gas power plant, primarily using natural gas or biogas for electricity generation.
Levorin has an installed capacity of 4.11 MW, classifying it as a small-scale power generation facility.
Gas power plants in Brazil must comply with CONAMA resolutions for air emissions, as well as state-level environmental licensing requirements.
As a small gas plant, Levorin provides distributed generation, supporting local energy reliability and potentially serving as backup power.