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Waste heat recovery of a combined Brayton and inverse Brayton cycle for gas turbine based multi-generation hydrogen and freshwater purposes: 4E comparison with a simple coupled Brayton and inverse Brayton cycle

Mohammad Zoghi, Nasser Hosseinzadeh, Saleh Gharaie, Ali Zare

2024Thermal Science and Engineering Progress17 citationsDOIOpen Access PDF

Abstract

Using gas turbine cycles in power generation layouts can lead to a significant amount of waste energy. The combined Brayton and inverse Brayton cycle (IBC), which are used in such systems, has a considerable amount of waste energy in the heat rejection stage and exhausted gas, which has not been considered in previous studies. In the present research, a simple coupled Brayton and IBC (Configuration 1) is compared with a multi-generation system (Configuration 2) in which a hot water unit, a thermoelectric generator (TEG), and an absorption chiller are added to Configuration 1 for the waste energy utilization of combined Brayton and IBC. Furthermore, the power produced in IBC and TEG is directed to a proton exchange membrane electrolyzer and a reverse osmosis desalination unit for hydrogen and potable water outputs. Results show that although the total investment cost rate of Configuration 2 is higher than that of Configuration 1, the fuel cost rate, environmental cost rate, and exergy destruction cost rate of Configuration 2 are lower. Furthermore, at the best performance point, Configuration 2 has exergy efficiency and unit cost of products equal to 40.77% and 63.19 $/GJ. They are higher than Configuration 1 by 5% and 2%, respectively. Hence, with Configuration 2, a higher exergy efficiency with a lower fuel consumption and environmental cost rate is accessible.

Topics & Concepts

Brayton cycleEnvironmental scienceInverseNuclear engineeringThermodynamicsTurbineProcess engineeringEngineeringMathematicsPhysicsGeometryThermodynamic and Exergetic Analyses of Power and Cooling SystemsAdvanced Thermodynamic Systems and EnginesAdvanced Thermodynamics and Statistical Mechanics