Overview
Landl is a 25 MW hydroelectric power plant in Austria, operated by Verbund. It contributes to Austria's renewable energy grid with clean hydropower generation.
Landl is a hydroelectric power plant located in Austria, operated by Verbund, a major Austrian utility. With a capacity of 25 MW, it is a small-scale facility within the country's extensive hydropower sector, which supplies a significant portion of Austria's electricity. The plant operates under the EU Industrial Emissions Directive and Best Available Techniques for hydropower, ensuring minimal environmental impact. As a run-of-river or reservoir-type facility, it utilizes Austria's mountainous terrain and abundant water resources for efficient power generation. Landl plays a role in Austria's renewable energy mix, supporting grid stability and reducing reliance on fossil fuels. Its operation aligns with national goals for carbon neutrality and sustainable energy production, benefiting local communities and the broader energy transition.
Environmental context
The plant's hydropower generation produces no direct CO2, SOx, or NOx emissions, contributing to Austria's low-carbon energy profile. Its location in a mountainous region may involve considerations for aquatic ecosystems and water flow management. The facility's small capacity limits its environmental footprint compared to larger thermal plants.
Frequently asked questions
The Landl hydroelectric power plant is located in Austria, with coordinates approximately 47.65° N, 14.72° E.
The Landl hydroelectric plant has a capacity of 25 megawatts (MW).
The Landl hydroelectric power plant is owned and operated by Verbund, a leading Austrian utility company.
Hydroelectric plants in Austria must comply with the EU Industrial Emissions Directive and national water management laws, ensuring minimal impact on aquatic ecosystems and water flow.
As a renewable hydroelectric facility, Landl supports Austria's transition to carbon-neutral electricity generation, reducing reliance on fossil fuels and enhancing grid stability.