Overview
Termopernambuco is a 533 MW gas-fired power plant in Brazil. It operates as a key generation asset in the country's thermal power fleet.
Termopernambuco is a gas-fired power plant located in Brazil, with a capacity of 532.8 MW. The facility is operational and contributes to the country's thermal power generation mix, providing dispatchable electricity to support grid stability. As a gas-fired plant, Termopernambuco operates under Brazil's national environmental regulations, including CONAMA resolutions for air emissions. The plant uses natural gas, which has lower CO2 emissions compared to coal or oil, aligning with Brazil's efforts to diversify its energy matrix. The capacity places it in the medium-to-large scale for gas plants in the region. The plant plays a significant role in meeting local electricity demand, particularly during periods of low hydroelectric generation. Its location near the coast facilitates fuel supply logistics. The facility's operational status ensures continued contribution to Brazil's energy security.
Environmental context
The plant's gas fuel type results in lower SOx and NOx emissions compared to coal-fired plants, but CO2 emissions remain a concern. Proximity to populated areas may require adherence to strict air quality standards. The facility's age and technology (likely combined cycle) influence its efficiency and environmental footprint. Brazil's regulatory framework under CONAMA sets emission limits for thermal power plants.
Frequently asked questions
Termopernambuco is located in Brazil, near the coast at coordinates 8.3991° S, 34.9569° W.
Termopernambuco has a capacity of 532.8 megawatts (MW), making it a medium-to-large gas power plant in Brazil.
Termopernambuco is a gas-fired power plant, using natural gas as its primary fuel.
Gas power plants in Brazil must comply with CONAMA resolutions, which set emission limits for pollutants such as NOx and SOx. Plants may also need environmental licenses from state agencies.
As a thermal plant, Termopernambuco provides dispatchable power that can be ramped up to meet peak demand or compensate for variability in renewable sources like hydro and wind.