Effects of thermal activation on hydrogen permeation properties of thin, self-supported Pd/Ag membranes

The effects of thermal treatments in air and in N 2/Ar atmospheres on H 2 permeation of self-supported 5 and 10 μm Pd/23 wt% Ag membranes prepared by magnetron sputtering are investigated. After hydrogen flux stabilization at 300 °C, the membranes were annealed in air at 300 °C or in N 2/Ar at 300/4...

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Bibliographic Details
Published in:Separation and purification technology 2009-08, Vol.68 (3), p.403-410
Main Authors: Tucho, W.M., Venvik, H.J., Stange, M., Walmsley, J.C., Holmestad, R., Bredesen, R.
Format: Article
Language:English
Subjects:
Activation energy
Diffusion
Heat treatment
Inhibiting effect
Pd-based membrane
Permeation
Segregation
Thermal treatment
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Summary:The effects of thermal treatments in air and in N 2/Ar atmospheres on H 2 permeation of self-supported 5 and 10 μm Pd/23 wt% Ag membranes prepared by magnetron sputtering are investigated. After hydrogen flux stabilization at 300 °C, the membranes were annealed in air at 300 °C or in N 2/Ar at 300/400/450 °C for 4 days and then tested for hydrogen permeation at 300 °C. Air treatment generally induced improved permeation for all thicknesses. For the treatments in N 2/Ar, permeability generally depends on the heat treatment temperatures and on the thickness of the membranes. In particular, hydrogen permeation was improved for treatment temperature of 450 °C, but reduced for 400 °C and below. An average permeability of 2.61 ± 0.4 mol/(m s Pa 0.5) for permeation measurements at 300 °C before heat treatment and an apparent activation energy of ∼7 kJ/mol obtained in the range of 300–450 °C for N 2/Ar treated membranes are comparable to some of the values in the literature. Substantial permeance difference was observed for the measurements in the temperature range, 300–450 °C between the membranes heat treated in air at 300 °C and in N 2/Ar at 450 °C. The measured permeance between 300 and 450 °C for the 10-μm membranes heat treated in air at 300 °C remains practically unchanged, i.e. E a ≈ 0.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2009.06.015