Steam turbines rotate in the currents caused by the hot water vapour. They form part of a closed water cycle in which water condenses and is then heated until it evaporates again. Steam turbines therefore do not come into contact with the fuel deployed and work at temperatures between 500 and 650 °C. Several steam turbines are often arranged in a row so that – configured for high, medium and low pressure – they are able to optimally convert the respective steam pressure into rotational movement.
Gas turbines on the other hand rotate directly in the hot combustion gases. With temperatures up to 1500 °C, these gases are much hotter than those in steam turbines. For this reason the blades are cooled with air that flows out of small openings and creates a “protective film” between the exhaust gases and the blades. Without cooling, the blade material would quickly wear out.
Basic concepts
Basic conceptsThe difference between steam and gas turbines
Projects currently being funded
Materials of construction for steam temperatures of over 700 °C
Lignite drying
CO2 scrubbing (post-combustion capture)
CO2 storage facilities
CO2 capture in oxyfuel coal-fired power plants
Hydrogen gas turbines
Capturing CO2 using coal gasification
Micro gas turbines
Higher temperatures in turbines
Turbine combustion that produces lower amounts of harmful substances
Higher pressure and lower flow losses in turbines
CO2 compressors
International cooperation
Comparison of power plant systems
More efficient generators thanks to nanoparticles
Storing electricity using compressed air
High-temperature heat storage systems for flexible CCGT power plants
More flexibility for low-emission coal-fired power plants