Thermal power plants convert chemically bound fossil fuels into electricity and heat. Burning chemical fuels such as coal and gas generates thermal energy that is converted into rotational energy in spinning turbines. This rotation therefore enables electrical energy, i.e. electricity, to be produced in the generators – like a dynamo on a bike.
This principle is also used when burning biomass in power plants or when utilising the heat from the sun in solar thermal power plants.
Basic concepts
Basic conceptsTriple energy conversion: Energy sources – Heat – Rotation – Electricity
Projects currently being funded
CO2 storage facilities
CO2 capture in oxyfuel coal-fired power plants
Higher pressure and lower flow losses in turbines
Capturing CO2 using coal gasification
CO2 scrubbing (post-combustion capture)
Hydrogen gas turbines
Higher temperatures in turbines
CO2 capture using lime or metal (looping)
Separating gases using membranes
Lignite drying
More flexibility for low-emission coal-fired power plants
International cooperation
More efficient generators thanks to nanoparticles
Micro gas turbines
Turbine combustion that produces lower amounts of harmful substances
CO2 compressors
Comparison of power plant systems
Efficiency of over 60% for the Irsching gas and steam power plant
Materials of construction for steam temperatures of over 700 °C
Storing electricity using compressed air
High-temperature heat storage systems for flexible CCGT power plants