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Application of Circular Thermoeconomics to the Diagnosis of Energy Systems

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Listed:
  • Antonio Valero

    (CIRCE Institute, University of Zaragoza, 50018 Zaragoza, Spain)

  • César Torres

    (CIRCE Institute, University of Zaragoza, 50018 Zaragoza, Spain)

Abstract

This paper reviews the fundamentals of the thermoeconomic diagnosis theory. Thermoeconomic diagnosis is one of the main applications of the exergy cost theory used to identify the causes of additional resource consumption of a system due to inefficiencies in its components, published in the late 1990s. Thermoeconomic diagnosis has usually been applied to diagnose power plants with high consumption of fossil fuels and fixed production. However, it does not consider the final production and waste generation variation. In this paper, Circular Thermoeconomics is applied to analyze in depth the effect of malfunctions on additional waste generation and changes in the final output of the system. This new formulation can be applied to polygeneration systems, where there is a simultaneous variation of final products, and to process integration and industrial symbiosis, where a part of the waste generated by a plant could be reused in other processes or plants.

Suggested Citation

  • Antonio Valero & César Torres, 2023. "Application of Circular Thermoeconomics to the Diagnosis of Energy Systems," Energies, MDPI, vol. 16(18), pages 1-23, September.
  • Handle: RePEc:gam:jeners:v:16:y:2023:i:18:p:6751-:d:1245030
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    References listed on IDEAS

    as
    1. Picallo-Perez, Ana & Sala-Lizarraga, José M. & Portillo-Valdes, Luis, 2022. "Development of a tool based on thermoeconomics for control and diagnosis building thermal facilities," Energy, Elsevier, vol. 239(PD).
    2. César Torres & Antonio Valero, 2021. "The Exergy Cost Theory Revisited," Energies, MDPI, vol. 14(6), pages 1-42, March.
    3. Valero, Antonio & Correas, Luis & Zaleta, Alejandro & Lazzaretto, Andrea & Verda, Vittorio & Reini, Mauro & Rangel, Victor, 2004. "On the thermoeconomic approach to the diagnosis of energy system malfunctions," Energy, Elsevier, vol. 29(12), pages 1875-1887.
    4. Liao, Wenjie & Heijungs, Reinout & Huppes, Gjalt, 2012. "Thermodynamic analysis of human–environment systems: A review focused on industrial ecology," Ecological Modelling, Elsevier, vol. 228(C), pages 76-88.
    5. Sergio Castro-Hernández & Teresa López-Arenas & Edgar Vicente Torres-González & Helen Lugo-Méndez & Raúl Lugo-Leyte, 2022. "Thermoeconomic Diagnosis of the Sequential Combustion Gas Turbine ABB/Alstom GT24," Energies, MDPI, vol. 15(2), pages 1-18, January.
    6. Torres, C. & Valero, A. & Rangel, V. & Zaleta, A., 2008. "On the cost formation process of the residues," Energy, Elsevier, vol. 33(2), pages 144-152.
    7. Orozco, Dimas José Rúa & Venturini, Osvaldo José & Escobar Palacio, José Carlos & del Olmo, Oscar Almazán, 2017. "A new methodology of thermodynamic diagnosis, using the thermoeconomic method together with an artificial neural network (ANN): A case study of an externally fired gas turbine (EFGT)," Energy, Elsevier, vol. 123(C), pages 20-35.
    8. Valero, Antonio & Correas, Luis & Zaleta, Alejandro & Lazzaretto, Andrea & Verda, Vittorio & Reini, Mauro & Rangel, Victor, 2004. "On the thermoeconomic approach to the diagnosis of energy system malfunctions," Energy, Elsevier, vol. 29(12), pages 1889-1907.
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