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Techno-Economic and Environmental Analysis of a Hybrid Power System Formed From Solid Oxide Fuel Cell, Gas Turbine, and Organic Rankine Cycle

Anil Kumar Yadav, Anil Kumar, Shailendra Sinha

2024Journal of Energy Resources Technology17 citationsDOI

Abstract

Abstract Distributed energy technology is an essential pathway for future advancements in the field of energy technology. In the present study, organic Rankine cycle (ORC) is integrated with solid oxide fuel cell (SOFC)-gas turbine (GT) hybrid power system. The conventional metrics employed for assessing the performance of SOFCs, gas turbines, and organic Rankine cycles, such as voltage and gross real efficiencies, have some limitations as indices of merit. Contemporary second law concepts and economic and environmental analysis have been used to enhance hybrid power system evaluation. R1233zd(E) has been selected as the ORC working fluid. The outcomes reveal that, under certain conditions, the present configuration may reach 55.67% energy efficiency and 53.55% exergy efficiency. Economic and environmental analysis shows that the hybrid system's total cost rate and Emissions of CO2 gas (EMI) under design conditions are 36.09 $/h and 355.8 kg/MWh, respectively. Thermodynamic evaluation of present SOFC-GT-ORC configuration shows 11.72% improvement in exergy efficiency compared to hybrid SOFC-GT cycle. Consequently, the hybrid SOFC-GT-ORC system is far better than the hybrid SOFC-GT system. In the future, other ORC fluids like R123, R601a, and R245fa can be used as ORC fluids.

Topics & Concepts

Organic Rankine cycleDegree RankineGas turbinesSolid oxide fuel cellRankine cycleProcess engineeringWaste managementEnvironmental scienceCombined cycleFuel cellsPower (physics)Electricity generationEngineeringChemistryChemical engineeringMechanical engineeringThermodynamicsPhysicsElectrodePhysical chemistryAnodeThermodynamic and Exergetic Analyses of Power and Cooling SystemsChemical Looping and Thermochemical ProcessesAdvanced Power Generation Technologies
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