Organic Rankine Cycles Including Fluid Selection

Abstract

Abstract An organic Rankine cycle ( ORC ) is similar to a steam Rankine cycle, except that the working fluid is not water but an organic compound, such as a refrigerant or a hydrocarbon, characterized by a lower boiling temperature (at the same pressure) than that of water. Hence, lower temperature heat sources can be exploited such as solar energy, geothermal energy, and waste heat from many different processes. During the design phase of an ORC system, the selection of the working fluid must be conducted in parallel with the selection and the sizing of the components (mainly the expansion machine, the pump, and the heat exchangers) and with the definition of the cycle architecture. This approach allows taking into consideration all technical constraints. Relevant properties of working fluids that should be considered during their selection are listed. Major characteristics of available displacement and turbo‐expander technologies are described. The impact of the pump performance on the overall performance is discussed and strategies to increase the available net positive suction head are proposed. Finally, improved cycle architectures are introduced. Major applications of ORC systems are described: geothermal power plants, biomass combined heat and power plants, WHR in industry, and WHR on internal combustion engines and solar power plants. All these applications differ by the nature of the heat source and heat sink, the integration of the ORC with these sources and sinks, and the range of installed capacities. These differences yield specific designs, which are described. Performance achieved by systems in operation or prototypes are presented.