Overview
Feldkirchen is a 38 MW hydroelectric power plant in Austria, operated by Wien Energie. It generates renewable electricity from hydropower.
Feldkirchen is a hydroelectric power plant located in Austria, with a capacity of 38 megawatts. The facility is owned by Wien Energie, a major utility in the region, and is currently operational. As a hydroelectric plant, it contributes to Austria's renewable energy portfolio, leveraging the country's abundant water resources. The plant operates under Austria's regulatory framework, which aligns with the EU Industrial Emissions Directive and Best Available Techniques for hydropower. Hydroelectric plants like Feldkirchen are typically run-of-river or reservoir-based, with low emissions and high efficiency. The 38 MW capacity places it in the small-to-medium scale for hydropower in Europe. Environmentally, Feldkirchen provides clean electricity without direct CO2, SOx, or NOx emissions, supporting grid stability and reducing fossil fuel dependence. Its location in Austria, a country with strong hydropower tradition, underscores its role in sustainable energy generation and local energy security.
Environmental context
Hydroelectric power generation has a low carbon footprint, with no direct emissions of CO2, SOx, or NOx. However, it can affect local aquatic ecosystems and water flow regimes. Feldkirchen's location in Austria, a country with stringent environmental regulations under the EU Water Framework Directive, ensures that operations minimize ecological impact. The plant's capacity of 38 MW suggests a moderate scale, likely with measures to maintain river connectivity and fish passage.
Frequently asked questions
Feldkirchen is located in Austria, with coordinates 46.863800 N, 13.335500 E.
The Feldkirchen hydroelectric plant has a capacity of 38 megawatts.
The Feldkirchen hydroelectric power plant is owned by Wien Energie, a major Austrian utility.
Hydroelectric plants in Austria must comply with the EU Water Framework Directive and national water laws, which require environmental impact assessments and measures to protect aquatic ecosystems.
Hydroelectric power provides reliable, low-carbon electricity that can be dispatched quickly to meet demand, supporting grid stability and integrating variable renewable sources like wind and solar.