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Thermodynamic analysis of simple and modified organic Rankine cycle and vapor compression refrigeration (<scp>ORC–VCR</scp>) systems

Ashwni, Ahmad Faizan Sherwani, Deepak Tiwari

2020Environmental Progress & Sustainable Energy23 citationsDOI

Abstract

Abstract This paper compares the thermodynamic performance of two ORC–VCR systems using the zeotropic mixture (Hexane/R245fa); one is a simple ORC–VCR system whereas the second one is a modified ORC–VCR system. Both ORC–VCR systems are different in terms of VCR sub‐cycle. The modified ORC–VCR system contains an additional flash tank, expansion valve, and compressor compared to the simple ORC–VCR system in the VCR sub‐cycle. The thermodynamic performance of the systems have been evaluated in terms of Cooling capacity ( Q evap ), Coefficient of performance of the system (COP s ), exergetic efficiency ( η ex ), and cost function (UA tot ) . Modified ORC–VCR system exhibits 23.4, 23.4, 29.00, and 41% enhancement in cooling capacity ( Q evap ), COP s , exergetic efficiency ( η ex ), and cost function (UA tot ), respectively, compared to the simple system. Moreover, there is 4, 5, and 84.73% enhancement in Q evap at the mass fraction of 0.9 , COP s at the mass fraction of 0.6, and η ex at the mass fraction of 0.5 for the modified ORC–VCR system with the use of the zeotropic mixture.

Topics & Concepts

Zeotropic mixtureOrganic Rankine cycleGas compressorMass fractionCooling capacityRefrigerationProcess engineeringCoefficient of performanceDegree RankineChemistryThermodynamicsFraction (chemistry)RefrigerantEngineeringHeat exchangerWaste heatPhysicsOrganic chemistryThermodynamic and Exergetic Analyses of Power and Cooling SystemsRefrigeration and Air Conditioning TechnologiesAdvanced Thermodynamic Systems and Engines
Thermodynamic analysis of simple and modified organic Rankine cycle and vapor compression refrigeration (<scp>ORC–VCR</scp>) systems | Litcius