Working Fluid Selection for Organic Rankine Cycle and Other Related Cycles

Working Fluid Selection for Organic Rankine Cycle and Other Related Cycles

The world’s energy demand is still growing, partly due to the rising population, partly to increasing personal needs. This growing demand has to be met without increasing (or preferably, by decreasing) the environmental impact. One of the ways to do so is the use of existing low-temperature heat sou...

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Bibliographic Details
Sonstige:
Imre, Attila R.
Year of Publication:2020
Language:English
Physical Description:1 electronic resource (148 p.)
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520 |a The world’s energy demand is still growing, partly due to the rising population, partly to increasing personal needs. This growing demand has to be met without increasing (or preferably, by decreasing) the environmental impact. One of the ways to do so is the use of existing low-temperature heat sources for producing electricity, such as using power plants based on the organic Rankine cycle (ORC) . In ORC power plants, instead of the traditional steam, the vapor of organic materials (with low boiling points) is used to turn heat to work and subsequently to electricity. These units are usually less efficient than steam-based plants; therefore, they should be optimized to be technically and economically feasible. The selection of working fluid for a given heat source is crucial; a particular working fluid might be suitable to harvest energy from a 90 ℃ geothermal well but would show disappointing performance for well with a 80 ℃ head temperature. The ORC working fluid for a given heat source is usually selected from a handful of existing fluids by trial-and-error methods; in this collection, we demonstrate a more systematic method based on physical and chemical criteria. 
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653 |a temperature–entropy saturation curve 
653 |a saturation properties 
653 |a wet and dry fluids 
653 |a ideal-gas heat capacity 
653 |a Rankine cycle 
653 |a ORC 
653 |a biomass 
653 |a fluid mixtures 
653 |a hydrocarbons 
653 |a working fluid 
653 |a selection method 
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653 |a thermodynamic analysis 
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