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A comparative study of the energy, exergetic and thermo-economic performance of a novelty combined Brayton S-CO2-ORC configurations as bottoming cycles

Javier Alfonso Cárdenas Gutiérrez, Guillermo Valencia Ochoa, Jorge Duarte Forero

2020Heliyon28 citationsDOIOpen Access PDF

Abstract

) on the net power generated, the thermal and exergy efficiency, and some thermo-economic indicators such as the payback period (PBP), the specific investment cost (SIC), and the levelized cost of energy (LCOE), when cyclohexane, acetone and toluene are used as working fluids in the bottoming organic Rankine cycle. The parametric study results show that cyclohexane is the organic fluid that presents the best thermo-economic performance, and the optimization with the PSO method conclude a 2308.91 USD/kWh in the SIC, 0.22 USD/kWh in the LCOE, and 9.89 year in the PBP for the RORC system. Therefore, to obtain technical and economic viability, and increase the industrial applications of these thermal systems, thermo-economic optimizations must be proposed to obtain lower values of the evaluated performance indicators.

Topics & Concepts

Organic Rankine cycleBrayton cycleExergyRankine cycleCost of electricity by sourceProcess engineeringExergy efficiencyWorking fluidEnvironmental scienceDegree RankineThermal efficiencyCogenerationEngineeringWaste managementWaste heatThermodynamicsElectricity generationTurbineMechanical engineeringChemistryHeat exchangerPower (physics)CombustionPhysicsOrganic chemistryThermodynamic and Exergetic Analyses of Power and Cooling SystemsAdvanced Thermodynamics and Statistical MechanicsAdvanced Thermodynamic Systems and Engines
A comparative study of the energy, exergetic and thermo-economic performance of a novelty combined Brayton S-CO2-ORC configurations as bottoming cycles | Litcius