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Impedance of a tubular electrochemical cell with BZCY electrolyte and Ni-BZCY cermet electrodes for proton ceramic membrane reactors

Yuste-Tirados, Irene ; Liu, Xin ; Kjølseth, Christian ; Norby, Truls

International journal of hydrogen energy, 2023-09, Vol.48 (77), p.30027-30038 [Periódico revisado por pares]

Elsevier Ltd

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  • Título:
    Impedance of a tubular electrochemical cell with BZCY electrolyte and Ni-BZCY cermet electrodes for proton ceramic membrane reactors
  • Autor: Yuste-Tirados, Irene ; Liu, Xin ; Kjølseth, Christian ; Norby, Truls
  • Assuntos: Electrode reaction mechanism ; Hydrogen separation ; Impedance spectroscopy ; Proton ceramic electrochemical cell
  • É parte de: International journal of hydrogen energy, 2023-09, Vol.48 (77), p.30027-30038
  • Notas: NFR/296548
  • Descrição: In this work, impedance spectroscopy has been employed to explore the electrochemical behaviour of a 15 cm2 complete tubular cell with BaZr0.8Ce0.1Y0.1O3-δ (BZCY) electrolyte and two asymmetric Ni-BCZY cermet electrodes for hydrogen separation. Analyses of impedance spectra at different temperatures and gas compositions reveal that the thick inner electrode contributes most to the total polarisation resistance (Rp). For Rp there are four contributions with well-separated time constants of which gas phase hydrogen diffusion within the porous Ni-BZCY anode is predominant. The other three can be ascribed to proton migration through the space charge layer of the BZCY electrolyte adjacent to the Ni electrode, hydrogen redox charge transfer reactions, and hydrogen diffusion within Ni bulk. The present study guides the way to parameterise and, on this basis, optimise electrodes for scalable proton ceramic electrochemical cells. •Impedance spectroscopy on a complete proton ceramic tubular cell with asymmetric Ni-BCZY cermet electrodes.•Differentiates electrode contributions and identifies polarisation mechanisms.•Hydrogen gas diffusion limitation in the thick cermet dominates total polarisation under applied conditions.
  • Editor: Elsevier Ltd
  • Idioma: Inglês;Norueguês
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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