Overview
H.C. Ørsted is a 98 MW gas power plant located in Copenhagen, Denmark. It operates as a key facility in the Danish power generation sector.
H.C. Ørsted is a gas-fired power plant situated in Copenhagen, Denmark, with a capacity of 98 MW. This facility plays a role in Denmark's energy mix, which increasingly emphasizes renewable sources but retains gas plants for grid stability and peak demand. The plant operates under the European Union's Industrial Emissions Directive (2010/75/EU), which sets strict emission limits for SOx, NOx, and other pollutants. As a gas-fired plant, it has a lower carbon footprint compared to coal or oil plants, but still contributes to CO2 emissions. The technology is likely combined cycle gas turbine (CCGT) or open cycle, typical for plants of this scale. Located in the capital city, H.C. Ørsted supports Copenhagen's electricity needs and district heating systems. Its proximity to urban areas underscores the importance of stringent emission controls to minimize local air quality impacts. The plant's operational status indicates ongoing contribution to Denmark's energy security.
Environmental context
As a gas-fired power plant, H.C. Ørsted emits CO2, NOx, and SOx, though at lower levels than coal plants. Its location in Copenhagen means emissions affect a densely populated area, necessitating compliance with EU air quality standards. The plant's 98 MW capacity places it in the small-to-medium scale for gas plants, with potential for efficient CCGT technology. Denmark's strong renewable energy push may limit its operational hours, but it remains important for grid balancing.
Frequently asked questions
H.C. Ørsted is located in Copenhagen, Denmark, at coordinates 55.6761° N, 12.5683° E.
The plant has a capacity of 98 megawatts (MW), making it a small-to-medium scale gas power plant.
H.C. Ørsted is a gas power plant, primarily fueled by natural gas.
As a Danish facility, it operates under the EU Industrial Emissions Directive (2010/75/EU), which mandates best available techniques (BAT) for emission control.
The plant provides electricity and potentially district heating to Copenhagen, supporting grid stability and peak demand, especially as Denmark transitions to renewable energy.