Overview
Gönyűi Erőmű is a 426.6 MW gas-fired power plant located in Gönyű, Hungary. It operates as a key facility in the country's power generation sector.
Gönyűi Erőmű is a gas-fired power plant situated in Gönyű, Hungary, with a capacity of 426.6 MW. This facility plays a significant role in the Hungarian power generation landscape, contributing to the country's energy mix with natural gas as its primary fuel. The plant operates under Hungary's national regulatory framework, which aligns with the European Union's Industrial Emissions Directive (2010/75/EU). As a gas-fired plant, it benefits from lower CO2 emissions compared to coal-fired units, though it still falls under Best Available Techniques (BAT) requirements for emission control. The technology employed is typical for modern gas plants, likely utilizing combined cycle gas turbine (CCGT) configuration for efficiency. Environmentally, the plant's gas fuel source results in a moderate carbon footprint relative to coal, but it still contributes to local air quality considerations. Its location in Gönyű, near the Danube River, may influence cooling water usage and local ecological impacts. The facility supports grid stability and provides dispatchable power to meet demand fluctuations.
Environmental context
As a gas-fired power plant, Gönyűi Erőmű emits CO2, NOx, and SOx, though at lower levels than coal plants. Its proximity to the Danube River may affect local water resources for cooling. The plant's age and technology (likely CCGT) influence its efficiency and emission profile. Regulatory compliance under EU directives ensures adherence to emission limits and environmental monitoring.
Frequently asked questions
Gönyűi Erőmű is located in Gönyű, Hungary, near the Danube River.
The plant has a capacity of 426.6 MW, making it a medium-to-large gas-fired power station.
The plant uses natural gas as its primary fuel, which is typical for modern combined cycle gas turbine (CCGT) facilities.
As an EU facility, it operates under the Industrial Emissions Directive (2010/75/EU) and must comply with Best Available Techniques (BAT) for emission control.
The plant provides dispatchable power to meet demand, supporting grid stability and complementing renewable energy sources.