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Optimization of the design parameters aiming at the minimization of the depletion of non-renewable resources

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  • Szargut, Jan T.

Abstract

The thermo-ecological cost, expressed by means of the cumulative consumption of non-renewable natural resources of exergy, has been applied as a criterion of the selection of technical solutions. This criterion differs from the classical economical one. The general formulation of the objective function of thermo-ecological economy is presented. A detailed formulation of the objective function is demonstrated my means of the optimization of the parameters of a heat exchanger. It indicates the difficulties appearing when determining the influence of the design parameters on the consumption of exergy in fabrication process. Other concepts of the economical application of exergy have been discussed.

Suggested Citation

  • Szargut, Jan T., 2004. "Optimization of the design parameters aiming at the minimization of the depletion of non-renewable resources," Energy, Elsevier, vol. 29(12), pages 2161-2169.
    • Handle: RePEc:eee:energy:v:29:y:2004:i:12:p:2161-2169
    DOI: 10.1016/j.energy.2004.03.019
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    Citations

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    Cited by:

    1. Stanek, Wojciech & Czarnowska, Lucyna, 2018. "Thermo-ecological cost – Szargut's proposal on exergy and ecology connection," Energy, Elsevier, vol. 165(PB), pages 1050-1059.
    2. Ishaq, H. & Dincer, I. & Naterer, G.F., 2018. "Exergy-based thermal management of a steelmaking process linked with a multi-generation power and desalination system," Energy, Elsevier, vol. 159(C), pages 1206-1217.
    3. Bumann, A.A. & Papadokonstantakis, S. & Sugiyama, H. & Fischer, U. & Hungerbühler, K., 2010. "Evaluation and analysis of a proxy indicator for the estimation of gate-to-gate energy consumption in the early process design phases: The case of organic solvent production," Energy, Elsevier, vol. 35(6), pages 2407-2418.
    4. Ukidwe, Nandan U. & Bakshi, Bhavik R., 2007. "Industrial and ecological cumulative exergy consumption of the United States via the 1997 input–output benchmark model," Energy, Elsevier, vol. 32(9), pages 1560-1592.
    5. Vanesa Rodríguez-Merchan & Claudia Ulloa-Tesser & Yannay Casas-Ledón, 2019. "Evaluation of the Water–Energy–Land Nexus (WELN) Using Exergy-Based Indicators: The Chilean Electricity System Case," Energies, MDPI, vol. 13(1), pages 1-20, December.
    6. Valero, Antonio & Usón, Sergio & Torres, César & Valero, Alicia & Agudelo, Andrés & Costa, Jorge, 2013. "Thermoeconomic tools for the analysis of eco-industrial parks," Energy, Elsevier, vol. 62(C), pages 62-72.
    7. Frangopoulos, Christos A., 2018. "Recent developments and trends in optimization of energy systems," Energy, Elsevier, vol. 164(C), pages 1011-1020.
    8. Ziębik, Andrzej & Gładysz, Paweł, 2018. "Systems approach to energy and exergy analyses," Energy, Elsevier, vol. 165(PA), pages 396-407.
    9. Martínez, Amaya & Uche, Javier, 2010. "Chemical exergy assessment of organic matter in a water flow," Energy, Elsevier, vol. 35(1), pages 77-84.
    10. Meyer, Lutz & Tsatsaronis, George & Buchgeister, Jens & Schebek, Liselotte, 2009. "Exergoenvironmental analysis for evaluation of the environmental impact of energy conversion systems," Energy, Elsevier, vol. 34(1), pages 75-89.
    11. Amaya Martínez & Javier Uche & Antonio Valero & Carlos Rubio, 2011. "Assessment of Environmental Water Cost Through Physical Hydronomics," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 25(12), pages 2931-2949, September.
    12. Chen, G.Q. & Ji, Xi, 2007. "Chemical exergy based evaluation of water quality," Ecological Modelling, Elsevier, vol. 200(1), pages 259-268.
    13. Martínez, A. & Uche, J. & Valero, A. & Valero-Delgado, A., 2010. "Environmental costs of a river watershed within the European water framework directive: Results from physical hydronomics," Energy, Elsevier, vol. 35(2), pages 1008-1016.

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