Dow Stade, positioned as the 158th largest power generation facility in Germany, is a notable gas-fired power plant with a capacity of 173 MW. This facility contributes a small yet significant 0.11% to Germany's overall capacity of 151,891 MW, which is predominantly coal-based. The plant's strategic location, close to major cities and industrial hubs, allows it to play a vital role in meeting local energy demands. In proximity to Dow Stade, several other larger generation facilities exist, including the Hamburg-Moorburg coal plant, which has a capacity of 1,600 MW, and the Brokdorf Nuclear Power Plant, with an impressive capacity of 1,480 MW. The presence of these substantial plants illustrates the energy landscape's reliance on traditional fuel sources; however, Dow Stade's contribution highlights the ongoing importance of gas in the energy mix. Commissioned in 2014 and operated by Dow Deutschland Anlagengesellschaft mbH, this facility represents a modern approach to gas generation, employing advanced technology to ensure efficient and flexible operation. While Germany's energy policy is heavily influenced by coal, Dow Stade's role in providing gas-fired generation supports grid stability and complements the larger plants in the region. As Germany continues its transition towards renewable energy sources, the significance of gas plants like Dow Stade may grow, serving as a bridge in the shift towards sustainability and lower carbon emissions.
12 years old
Germany, Europe
- Primary Fuel Type
- Gas
- Energy Source
- Non-Renewable
- Country
Germany- Continent
- Europe
- Data Source
- Global Power Plant Database
Gas power generation is a significant component of the global energy landscape, characterized by the use of natural gas to produce electricity. This process typically involves either gas turbines or combined cycle gas plants. In a gas turbine, compressed air is mixed with natural gas and ignited, producing high-temperature exhaust gases that spin a turbine connected to a generator. Combined cycle plants enhance efficiency by utilizing both gas and steam turbines. After the gas turbine generates electricity, the waste heat is used to produce steam, which drives a steam turbine, thereby maximizing energy extraction from the fuel.
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