Overview
Edenderry is a 117.6 MW diesel power plant in Ireland, operating on oil. It contributes to the country's power generation capacity.
Edenderry is a diesel power plant located in Ireland, with a capacity of 117.6 MW. The facility is operational and owned by Edenderry. It uses oil as its primary fuel, positioning it within the country's thermal power generation sector. The plant operates under Irish and EU environmental regulations, including the Industrial Emissions Directive (2010/75/EU) and Best Available Techniques (BAT) conclusions for large combustion plants. Diesel and oil-fired plants typically have higher CO2 and pollutant emissions compared to natural gas, and are subject to emission limits for SOx, NOx, and particulates. As a medium-scale diesel plant, Edenderry plays a role in Ireland's energy mix, providing dispatchable power to support grid stability. Its location and operational status contribute to the local energy supply, though the fuel type implies a higher carbon footprint relative to renewable sources.
Environmental context
The plant uses oil as fuel, which results in significant CO2, SOx, and NOx emissions per MWh compared to natural gas or renewables. Its capacity of 117.6 MW places it in the medium-scale range for diesel plants. Proximity to populated areas may raise local air quality concerns, and the plant's age and technology (likely older diesel engine technology) could affect efficiency and emission levels. Regulatory compliance with EU emission standards is required.
Frequently asked questions
Edenderry power plant is located in Ireland, at coordinates 53.2902 N, -7.0845 W.
Edenderry power plant has a capacity of 117.6 megawatts (MW).
Edenderry power plant uses oil as its primary fuel.
Diesel power plants in Ireland must comply with the EU Industrial Emissions Directive (2010/75/EU) and Best Available Techniques (BAT) conclusions for large combustion plants, which set emission limits for SOx, NOx, and particulates.
Edenderry provides dispatchable power to Ireland's grid, helping to balance supply and demand, especially during periods of low renewable generation.