• Title of article

    Performance of zinc-doped perovskite-type membranes at intermediate temperatures for long-term oxygen permeation and under a carbon dioxide atmosphere

  • Author/Authors

    Julia Martynczuk and Haihui Wang، نويسنده , , Konstantin Efimov، نويسنده , , Lars Robben، نويسنده , , Armin Feldhoff، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    9
  • From page
    62
  • To page
    70
  • Abstract
    Zinc-doped (BaSr)FeO3−δ perovskite-type membranes were found to exhibit excellent long-term stability at high and intermediate temperatures under an oxygen partial pressure difference of p1/p2 = 21/2.1 × 103 Pa at 950 °C and p1/p2 = 21/0.8 × 103 Pa at 750 °C. After the change to carbon dioxide as the sweep gas, the oxygen permeation diminishes almost completely. By XRD, a phase mixture of hexagonal, tetragonal and cubic perovskite with a (Ba0.4±0.1Sr0.6±0.1)CO3 layer and some zinc oxide was found. TEM showed that the dense perovskite membrane is decomposed into phases with different morphologies accompanied by pore and crack formation in a surface layer with a depth of approximately 5 μm. After switching to helium as the sweep gas, the carbonate layer is decomposed, but a hexagonal and tetragonal perovskite phase in addition to the cubic phase are still present. A short heating to 950 °C regenerates the oxygen permeation flux due to the abatement of hexagonal perovskite for the benefit of the cubic and tetragonal perovskite phase. The appearance of the carbonate structure, even to a small amount of 8%, leads to a breakdown of the oxygen permeation ability, but also the hexagonal perovskite is disadvantageous. In contrast, the cubic and tetragonal perovskite modifications exhibit good oxygen permeation abilities. The effect of the carbon dioxide is totally reversible after a short high temperature treatment.
  • Keywords
    Stability , Carbon dioxide , Oxygen permeation , TEM , Perovskite membrane
  • Journal title
    Journal of Membrane Science
  • Serial Year
    2009
  • Journal title
    Journal of Membrane Science
  • Record number

    1354789