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Thermodynamic aspects of power production in thermal, chemical and electrochemical systems

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  • Sieniutycz, Stanisław
  • Poświata, Artur

Abstract

We apply optimization methods to study power generation limits for various energy converters, such as thermal, solar, chemical, and electrochemical engines. Methodological similarity is observed when analysing power limits in thermal machines and fuel cells which are electrochemical flow engines. Operative driving forces and voltage are suitable indicators of imperfect phenomena in energy converters. The results obtained generalize our previous findings for power yield limits in purely thermal systems with finite rates. While temperatures Ti of participating media were only necessary variables in purely thermal systems, in the present work both temperatures and chemical potentials μk are essential. This case is associated with engines propelled by fluxes of both energy and substance. In dynamical systems downgrading or upgrading of resources may occur. Energy flux (power) is created in the generator located between the resource fluid (‘upper’ fluid 1) and the environmental fluid (‘lower’ fluid, 2). Fluid properties, transfer mechanisms and conductance values of dissipative layers or conductors influence the rate of power production. Numerical approaches to the dynamical solutions are based on the dynamic programming or maximum principle. Here we focus especially on the latter method, which involves discrete algorithms of Pontryagin’s type. Downgrading or upgrading of resources may also occur in electrochemical systems of fuel cell type. Yet, in this paper we restrict ourselves to the steady-state fuel cells. We present a simple analysis showing that, in linear systems, only at most ¼ of power dissipated in the natural transfer process can be transformed into the noble form of mechanical power.

Suggested Citation

  • Sieniutycz, Stanisław & Poświata, Artur, 2012. "Thermodynamic aspects of power production in thermal, chemical and electrochemical systems," Energy, Elsevier, vol. 45(1), pages 62-70.
  • Handle: RePEc:eee:energy:v:45:y:2012:i:1:p:62-70
    DOI: 10.1016/j.energy.2011.12.040
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    References listed on IDEAS

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    1. Sieniutycz, Stanislaw, 2009. "Dynamic bounds for power and efficiency of non-ideal energy converters under nonlinear transfer laws," Energy, Elsevier, vol. 34(3), pages 334-340.
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    Cited by:

    1. Bing Xu & Dongxu Li & Zheshu Ma & Meng Zheng & Yanju Li, 2021. "Thermodynamic Optimization of a High Temperature Proton Exchange Membrane Fuel Cell for Fuel Cell Vehicle Applications," Mathematics, MDPI, vol. 9(15), pages 1-14, July.
    2. Wu, Liang & He, Yuehui & Lei, Ting & Nan, Bo & Xu, Nanping & Zou, Jin & Huang, Baiyun & Liu, C.T., 2014. "The stability of hydrogen evolution activity and corrosion behavior of porous Ni3Al–Mo electrode in alkaline solution during long-term electrolysis," Energy, Elsevier, vol. 67(C), pages 19-26.
    3. Mahian, Omid & Mahmud, Shohel & Heris, Saeed Zeinali, 2012. "Analysis of entropy generation between co-rotating cylinders using nanofluids," Energy, Elsevier, vol. 44(1), pages 438-446.
    4. Sieniutycz, Stanislaw, 2015. "Synthesizing modeling of power generation and power limits in energy systems," Energy, Elsevier, vol. 84(C), pages 255-266.
    5. Wu, Liang & He, Yuehui & Lei, Ting & Nan, Bo & Xu, Nanping & Zou, Jin & Huang, Baiyun & Liu, C.T., 2013. "Characterization of the porous Ni3Al–Mo electrodes during hydrogen generation from alkaline water electrolysis," Energy, Elsevier, vol. 63(C), pages 216-224.

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