Thanks to their high hydrogen permeability, vanadium based alloys can be a valuable and sustainable alternative to palladium alloys, commonly employed in commercial membranes for hydrogen purification/separation. In this work, the unprecedented deposition of micrometric vanadium-based multilayers and their investigation as hydrogen selective membranes have been reported. In particular, this work describes the use of High Power Impulse Magnetron Sputtering, a technique easily scalable also for complex geometries, for the deposition of dense and crystalline Pd/V93Pd7/Pd multilayers with total thickness <7 ?m onto porous alumina. These membranes showed high hydrogen fluxes in the 300-400 °C range, up to 0.26 mol m-2 s-1 at 300 kPa pressure difference and 375 °C, as well as an unexpected and significant resistance to hydrogen embrittlement and to syngas in operating conditions.
Hydrogen separation by thin vanadium-based multi-layered membranes
Fasolin S;Barison S;Boldrini S;Ferrario A;Romano M;Montagner F;Miorin E;Fabrizio M;Armelao L
2018
Abstract
Thanks to their high hydrogen permeability, vanadium based alloys can be a valuable and sustainable alternative to palladium alloys, commonly employed in commercial membranes for hydrogen purification/separation. In this work, the unprecedented deposition of micrometric vanadium-based multilayers and their investigation as hydrogen selective membranes have been reported. In particular, this work describes the use of High Power Impulse Magnetron Sputtering, a technique easily scalable also for complex geometries, for the deposition of dense and crystalline Pd/V93Pd7/Pd multilayers with total thickness <7 ?m onto porous alumina. These membranes showed high hydrogen fluxes in the 300-400 °C range, up to 0.26 mol m-2 s-1 at 300 kPa pressure difference and 375 °C, as well as an unexpected and significant resistance to hydrogen embrittlement and to syngas in operating conditions.| File | Dimensione | Formato | |
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Descrizione: Hydrogen separation by thin vanadium-based multi-layered membranes
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