Overview
St. Pantaleon is a 52 MW hydroelectric power plant in Austria, operated by Verbund. It contributes to Austria's renewable energy grid with clean hydropower generation.
St. Pantaleon is a hydroelectric power plant located in Austria, operated by Verbund, a leading European utility. With a capacity of 52 MW, it is a medium-scale facility within Austria's extensive hydropower sector, which provides a significant portion of the country's electricity. The plant utilizes run-of-river technology typical of Austrian hydroelectric projects, capitalizing on the region's abundant water resources. Austria's regulatory framework for hydropower emphasizes environmental sustainability, including compliance with the EU Water Framework Directive and national renewable energy targets. As a renewable energy source, St. Pantaleon plays a key role in reducing carbon emissions and supporting Austria's transition to a low-carbon economy. Its operation aligns with the country's goal of achieving 100% renewable electricity by 2030, contributing to grid stability and clean energy supply.
Environmental context
Hydropower plants like St. Pantaleon have a low carbon footprint but can affect local aquatic ecosystems. The facility's location on a river may influence fish migration and sediment transport. Austrian regulations require environmental impact assessments and mitigation measures, such as fish ladders, to minimize ecological disruption.
Frequently asked questions
St. Pantaleon is located in Austria, near the border with Germany, on the Salzach river.
The St. Pantaleon hydroelectric plant has a capacity of 52 megawatts (MW).
The plant is operated by Verbund, Austria's largest electricity provider and a major European hydropower operator.
Austrian hydroelectric plants must comply with the EU Water Framework Directive and national laws on water use, fish protection, and ecological flow, ensuring minimal environmental impact.
As a renewable hydropower plant, St. Pantaleon supports Austria's target of 100% renewable electricity by 2030, providing clean, reliable power to the grid.