Oxygen transport in La2NiO4+delta: Assessment of surface limitations and multilayer membrane architectures

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abstract

The steady-state oxygen permeation through dense La2NiO4 + delta ceramics, limited by both surface exchange and bulk ambipolar conduction, can be increased by deposition of porous layers onto the membrane surfaces. This makes it possible, in particular, to analyze the interfacial exchange kinetics by numerical modelling using experimental data on the oxygen fluxes and equilibrium relationships between the oxygen chemical potential, nonstoichiometry and total conductivity. The simulations showed that the role of exchange limitations increases on reducing oxygen pressure, and becomes critical at relatively large chemical potential gradients important for practical applications. The calculated oxygen diffusion coefficients in La2NiO4 + delta are in a good agreement with literature. In order to enhance membrane performance, the multilayer ceramics with different architecture combining dense and porous components were prepared via tape-casting and tested. The maximum oxygen fluxes were observed in the case when one dense layer, similar to 60 mu m in thickness, is sandwiched between relatively thin (< 150 mu m) porous layers. Whilst the permeability of such membranes is still affected by surface-exchange kinetics, increasing thickness of the porous supporting components leads to gas diffusion limitations. (C) 2009 Elsevier B.V. All rights reserved.

keywords

NONSTOICHIOMETRY; CONDUCTIVITY; EXPANSION; EXCHANGE; METHANE; OXIDES; CO

subject category

Chemistry; Physics

authors

Shaula, AL; Naumovich, EN; Viskup, AP; Pankov, VV; Kovalevsky, AV; Kharton, VV

our authors

foto Andrei Kavaleuski

Andrei Kavaleuski

Principal Researcher
foto Vladislav Kharton

Vladislav Kharton

Invited Principal Researcher

Groups

3 - Carbon Materials, Composites and Functional Coatings

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Publication Details

type
Journal Article
year
2009
journal
SOLID STATE IONICS
volume
180
publisher
ELSEVIER SCIENCE BV
issn
0167-2738
issue
11-13
digital object identifier
10.1016/j.ssi.2009.01.005
web of science article identifier
WOS:000267673800010

Journal Metrics (JCR 2019)

Journal Impact Factor
3.107
Journal Impact Factor (5 yrs)
2.904
category normalized journal percentile
58.409

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