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Optimal configuration of a class of endoreversible heat-engines for maximum power-output with linear phenomenological heat-transfer law

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  • Li, Jun
  • Chen, Lingen
  • Sun, Fengrui

Abstract

The optimal configuration of an endoreversible heat-engine with the linear phenomenological heat-transfer law q[is proportional to][Delta](T-1), has been determined. The optimal cycle that maximizes the power-output of the heat-engine has been obtained using optimal control theory. It is shown that the optimal cycle has six branches including two isothermal ones, four maximum power branches, and is without an adiabatic branch. The interval of each branch, the temperatures of the heat reservoirs and working fluid, the maximum power and the corresponding efficiency of the heat-engine are obtained. The results are compared with those obtained assuming Newton's heat-transfer law applies.

Suggested Citation

  • Li, Jun & Chen, Lingen & Sun, Fengrui, 2007. "Optimal configuration of a class of endoreversible heat-engines for maximum power-output with linear phenomenological heat-transfer law," Applied Energy, Elsevier, vol. 84(9), pages 944-957, September.
    • Handle: RePEc:eee:appene:v:84:y:2007:i:9:p:944-957
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    References listed on IDEAS

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    1. A. M. Tsirlin & Valdimir Kazakov & N. A. Kolinko, 2003. "A Minimal Dissipation Type-Based Classification in Irreversible Thermodynamics and Microeconomics," Research Paper Series 104, Quantitative Finance Research Centre, University of Technology, Sydney.
    2. Salamon, P. & Nulton, J.D. & Siragusa, G. & Andersen, T.R. & Limon, A., 2001. "Principles of control thermodynamics," Energy, Elsevier, vol. 26(3), pages 307-319.
    3. A. Tsirlin & V. Kazakov & N. Kolinko, 2003. "A minimal dissipation type-based classification in irreversible thermodynamics and microeconomics," The European Physical Journal B: Condensed Matter and Complex Systems, Springer;EDP Sciences, vol. 35(4), pages 565-570, October.
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