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Thin Solid Film Electrolyte and Its Impact on Electrode Polarization in Solid Oxide Fuel Cells Studied by Three-Dimensional Microstructure-Scale Numerical Simulation

Author

Listed:
  • Tomasz A. Prokop

    (Department of Fundamental Research in Energy Engineering, AGH University of Science and Technology, 30-059 Krakow, Poland)

  • Grzegorz Brus

    (Department of Fundamental Research in Energy Engineering, AGH University of Science and Technology, 30-059 Krakow, Poland
    These authors contributed equally to this work.)

  • Shinji Kimijima

    (Department of Machinery and Control Systems, Shibaura Institute of Technology, 135-8548 Tokyo, Japan
    These authors contributed equally to this work.)

  • Janusz S. Szmyd

    (Department of Fundamental Research in Energy Engineering, AGH University of Science and Technology, 30-059 Krakow, Poland
    These authors contributed equally to this work.)

Abstract

In this work, a three-dimensional microstructure-scale model of a Solid Oxide Fuel Cell’s Positive-Electrolyte-Negative assembly is applied for the purpose of investigating the impact of decreasing the electrolyte thickness on the magnitude, and the composition of electrochemical losses generated within the cell. Focused-Ion-Beam Scanning Electron Microscopy reconstructions are used to construct a computational domain, in which charge transport equations are solved. Butler–Volmer model is used to compute local reaction rates, and empirical relationships are used to obtain local conductivities. The results point towards three-dimensional nature of transport phenomena in thin electrolytes, and electrode-electrolyte interfaces.

Suggested Citation

  • Tomasz A. Prokop & Grzegorz Brus & Shinji Kimijima & Janusz S. Szmyd, 2020. "Thin Solid Film Electrolyte and Its Impact on Electrode Polarization in Solid Oxide Fuel Cells Studied by Three-Dimensional Microstructure-Scale Numerical Simulation," Energies, MDPI, vol. 13(19), pages 1-14, October.
  • Handle: RePEc:gam:jeners:v:13:y:2020:i:19:p:5127-:d:422849
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    References listed on IDEAS

    as
    1. Tomasz A. Prokop & Katarzyna Berent & Marcin Mozdzierz & Janusz S. Szmyd & Grzegorz Brus, 2019. "A Three-Dimensional Microstructure-Scale Simulation of a Solid Oxide Fuel Cell Anode—The Analysis of Stack Performance Enhancement After a Long-Term Operation," Energies, MDPI, vol. 12(24), pages 1-16, December.
    2. Marta Gandiglio & Fabrizio De Sario & Andrea Lanzini & Silvia Bobba & Massimo Santarelli & Gian Andrea Blengini, 2019. "Life Cycle Assessment of a Biogas-Fed Solid Oxide Fuel Cell (SOFC) Integrated in a Wastewater Treatment Plant," Energies, MDPI, vol. 12(9), pages 1-31, April.
    3. Xiurong Fang & Jiang Zhu & Zijing Lin, 2018. "Effects of Electrode Composition and Thickness on the Mechanical Performance of a Solid Oxide Fuel Cell," Energies, MDPI, vol. 11(7), pages 1-13, July.
    4. Paulina Pianko-Oprych & S. M. Hosseini, 2017. "Dynamic Analysis of Load Operations of Two-Stage SOFC Stacks Power Generation System," Energies, MDPI, vol. 10(12), pages 1-21, December.
    5. Jee Min Park & Dae Yun Kim & Jong Dae Baek & Yong-Jin Yoon & Pei-Chen Su & Seong Hyuk Lee, 2018. "Effect of Electrolyte Thickness on Electrochemical Reactions and Thermo-Fluidic Characteristics inside a SOFC Unit Cell," Energies, MDPI, vol. 11(3), pages 1-15, February.
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    Cited by:

    1. Maciej Chalusiak & Weronika Nawrot & Szymon Buchaniec & Grzegorz Brus, 2021. "Swarm Intelligence-Based Methodology for Scanning Electron Microscope Image Segmentation of Solid Oxide Fuel Cell Anode," Energies, MDPI, vol. 14(11), pages 1-17, May.
    2. Szymon Buchaniec & Marek Gnatowski & Hiroshi Hasegawa & Grzegorz Brus, 2023. "A Surrogate Model of the Butler-Volmer Equation for the Prediction of Thermodynamic Losses of Solid Oxide Fuel Cell Electrode," Energies, MDPI, vol. 16(15), pages 1-12, July.

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