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  • Closed-form formulation of the thermodynamically consistent electrochemical model considering electrochemical co-oxidation of CO and ▫$H_2$▫ for simulating solid oxide fuel cells
    Kravos, Andraž, strojnik ; Katrašnik, Tomaž
    Achieving efficient solid oxide fuel cell operation and simultaneous prevention of degradation effects calls for the development of precise on-line monitoring and control tools based on predictive, ... computationally fast models. The originality of the proposed modelling approach originates from the hypothesis that the innovative derivation procedure enables the development of a thermodynamically consistent multi-species electrochemical model that considers the electrochemical co-oxidation of carbon monoxide and hydrogen in a closed-form. The latter is achieved by coupling the equations for anodic reaction rates with the equation for anodic potential. Furthermore, the newly derived model is capable of accommodating the diffusive transport of gaseous species through the gas diffusion layer, yielding a computationally efficient quasi-one-dimensional model. This resolves a persistent knowledge gap, as the proposed modelling approach enables the modelling of multi-species fuels in a closed form, resulting in very high computational efficiency, and thus enable the model’s real-time capability. Multiple validation steps against polarisation curves with different fuel mixtures confirm the capability of the newly developed model to replicate experimental data. Furthermore, the presented results confirm the capability of the model to accurately simulate outside the calibrated variation space under different operating conditions and reformate mixtures. These functionalities position the proposed model as a beyond state-of-the-art tool for model supported development and control applications.
    Source: Catalysts [Elektronski vir]. - ISSN 2073-4344 (Vol. 12, iss. 1, Jan. 2022, str. 1-24)
    Type of material - e-article
    Publish date - 2022
    Language - english
    COBISS.SI-ID - 92358147

    Link(s):

    https://www.mdpi.com/2073-4344/12/1/56
    Repository of the University of Ljubljana – RUL
    DOI

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