The economic viability of combined heat and power generation is usually determined by the demand from heat users. This means that cogeneration (CHP) plants should be able to emit useful heat for at least 5,500 hours a year. CHP plants are designed in accordance with the annual load duration curve (orange line above). With this calculation process, the heat requirements of users are categorised according to frequency across all 8,760 hours in a year. Maximum heat is required during just a few hours in winter. The area under the curve corresponds to the annual heating requirement. CHP plants are based on the base heat load – the lowest part of the curve. Their output must remain completely under the curve if at all possible in order to be economic. For peak loads, conventional boilers must be connected.
Combined heat and power generation
Combined heat and power generationDecisive for the economic efficiency: The annual load duration curve
Projects currently being funded
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
CO2 storage facilities
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