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Heat Transfer Optimization of NEXA Ballard Low-Temperature PEMFC

Author

Listed:
  • Artem Chesalkin

    (ENET Centre—Research Centre of Energy Units for Utilization of Non Traditional Energy Sources, VŠB-TUO, 17. Listopadu 2172/15, 708 00 Ostrava-Poruba, Czech Republic)

  • Petr Kacor

    (Department of Electrical Power Engineering, VŠB-TUO, 17. Listopadu 2172/15, 708 00 Ostrava-Poruba, Czech Republic)

  • Petr Moldrik

    (Department of Electrical Power Engineering, VŠB-TUO, 17. Listopadu 2172/15, 708 00 Ostrava-Poruba, Czech Republic)

Abstract

Hydrogen is one of the modern energy carriers, but its storage and practical use of the newest hydrogen technologies in real operation conditions still is a task of future investigations. This work describes the experimental hydrogen hybrid energy system (HHS). HHS is part of a laboratory off-grid system that stores electricity gained from photovoltaic panels (PVs). This system includes hydrogen production and storage units and NEXA Ballard low-temperature proton-exchange membrane fuel cell (PEMFC). Fuel cell (FC) loses a significant part of heat during converting chemical energy into electricity. The main purpose of the study was to explore the heat distribution phenomena across the FC NEXA Ballard stack during load with the next heat transfer optimization. The operation of the FC with insufficient cooling can lead to its overheating or even cell destruction. The cause of this undesirable state is studied with the help of infrared thermography and computational fluid dynamics (CFD) modeling with heat transfer simulation across the stack. The distribution of heat in the stack under various loads was studied, and local points of overheating were determined. Based on the obtained data of the cooling air streamlines and velocity profiles, few ways of the heat distribution optimization along the stack were proposed. This optimization was achieved by changing the original shape of the FC cooling duct. The stable condition of the FC stack at constant load was determined.

Suggested Citation

  • Artem Chesalkin & Petr Kacor & Petr Moldrik, 2021. "Heat Transfer Optimization of NEXA Ballard Low-Temperature PEMFC," Energies, MDPI, vol. 14(8), pages 1-17, April.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:8:p:2182-:d:535877
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    References listed on IDEAS

    as
    1. Julian Jepsen & Chiara Milanese & Julián Puszkiel & Alessandro Girella & Benedetto Schiavo & Gustavo A. Lozano & Giovanni Capurso & José M. Bellosta von Colbe & Amedeo Marini & Stephan Kabelac & Marti, 2018. "Fundamental Material Properties of the 2LiBH 4 -MgH 2 Reactive Hydride Composite for Hydrogen Storage: (II) Kinetic Properties," Energies, MDPI, vol. 11(5), pages 1-15, May.
    2. Julian Jepsen & Chiara Milanese & Julián Puszkiel & Alessandro Girella & Benedetto Schiavo & Gustavo A. Lozano & Giovanni Capurso & José M. Bellosta von Colbe & Amedeo Marini & Stephan Kabelac & Marti, 2018. "Fundamental Material Properties of the 2LiBH 4 -MgH 2 Reactive Hydride Composite for Hydrogen Storage: (I) Thermodynamic and Heat Transfer Properties," Energies, MDPI, vol. 11(5), pages 1-23, April.
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    Cited by:

    1. Cabello González, G.M. & Toharias, Baltasar & Iranzo, Alfredo & Suárez, Christian & Rosa, Felipe, 2023. "Voltage distribution analysis and non-uniformity assessment in a 100 cm2 PEM fuel cell stack," Energy, Elsevier, vol. 282(C).
    2. Suárez, Christian & Toharias, Baltasar & Salva Aguirre, María & Chesalkin, Artem & Rosa, Felipe & Iranzo, Alfredo, 2023. "Experimental dynamic load cycling and current density measurements of different inlet/outlet configurations of a parallel-serpentine PEMFC," Energy, Elsevier, vol. 283(C).
    3. Siwen Gu & Jiaan Wang & Xinmin You & Yu Zhuang, 2023. "Investigating the Parameter-Driven Cathode Gas Diffusion of PEMFCs with a Piecewise Linearization Model," Energies, MDPI, vol. 16(9), pages 1-12, April.

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