2023
DOI: 10.3390/en16052460
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Thermodynamic Performance of a Cogeneration Plant Driven by Waste Heat from Cement Kilns Exhaust Gases

Abstract: The dwindling and scarcity of fossil energy sources is the basis of the energy transition, where renewable resources are increasingly valued. The purpose of the cogeneration system studied in this article is to recover the residual heat from the gases coming out of the chimneys of the cement kilns, to produce at the same time the electricity and the heat required for offices and residential houses of cement workers. Cement kilns are reputed to be energy-intensive, generating excessive heat losses. These heat l… Show more

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Cited by 4 publications
(2 citation statements)
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“…Our previous work [40] provides details on validating electricity production. The comparison parameters are thermal efficiency, operating temperature, exergy efficiency, and electrical power.…”
Section: Kalina Cycle System Results Validationmentioning
confidence: 99%
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“…Our previous work [40] provides details on validating electricity production. The comparison parameters are thermal efficiency, operating temperature, exergy efficiency, and electrical power.…”
Section: Kalina Cycle System Results Validationmentioning
confidence: 99%
“…The isentropic or energy efficiencies, the energy and exergy balance, and the irreversibility of each component play a significant role in the modeling process of the present multigeneration system (especially Kalina and DAR). Given that the concentration of ammonia in the mixture greatly influences the cycle's performance, this article will use the information in the work of Mungyeko Bisulandu et al [40], which states that the enthalpy at each cycle point is the weighted sum of the enthalpies of each species in the refrigerant mixture.…”
Section: Thermodynamic Modeling Of Refrigerant Mixingmentioning
confidence: 99%