The permeability of hydrogen selective Pd-based membraneswas tested in different experimental conditions. The membranes were obtained by depositing palladium–silver films onto ceramic porous supports, with film composition of about 20 wt% of silver and thicknesses of about 2.5 micrometers. Their permeance was measured at 400 ◦C at total trans-membrane pressures between 0.2 and 6 bar, using pure feeds of H2 and N2, as well as H2/N2 and H2/CO mixtures; the temperature dependence of permeability was investigated using pureH2 feeds at 300, 400and500◦C. The membranes exhibit a very attractive behavior, maintaining a virtually infinite selectivity throughout the testing, with permeance values among the highest values reported in literature for similar membranes. Permeation of pure hydrogen accurately follows Sieverts’ law and confirms the presence of a chemisorption–dissociation–diffusion mechanism, characterised by the transport of atomic hydrogen through the Pd–Ag layer as the limiting step. In the case of H2/N2 mixtures, the high membrane permeance originates also significant concentration polarization phenomena resulting in apparent deviations fromSieverts’ behavior; the presence of CO in the feed may reduce hydrogen permeability even by 75%, although this effect is shown to be fully reversible after a subsequent air treatment at 400 ◦C. The temperature dependence of the membrane permeability is of Arrhenius type, with an activation energy of about 17 kJ/mol, that is, close to what is reported for Pd–Ag membranes following Sieverts’ behavior.
Diego Pizzi, Ryan Worth, Marco Giacinti Baschetti, Giulio C. Sarti, Ken-ichi Noda (2008). Hydrogen permeability of 2.5 micrometer palladium–silver membranes deposited on ceramic supports. JOURNAL OF MEMBRANE SCIENCE, 325, 446-453 [10.1016/j.memsci.2008.08.020].
Hydrogen permeability of 2.5 micrometer palladium–silver membranes deposited on ceramic supports
PIZZI, DIEGO;GIACINTI BASCHETTI, MARCO;SARTI, GIULIO CESARE;
2008
Abstract
The permeability of hydrogen selective Pd-based membraneswas tested in different experimental conditions. The membranes were obtained by depositing palladium–silver films onto ceramic porous supports, with film composition of about 20 wt% of silver and thicknesses of about 2.5 micrometers. Their permeance was measured at 400 ◦C at total trans-membrane pressures between 0.2 and 6 bar, using pure feeds of H2 and N2, as well as H2/N2 and H2/CO mixtures; the temperature dependence of permeability was investigated using pureH2 feeds at 300, 400and500◦C. The membranes exhibit a very attractive behavior, maintaining a virtually infinite selectivity throughout the testing, with permeance values among the highest values reported in literature for similar membranes. Permeation of pure hydrogen accurately follows Sieverts’ law and confirms the presence of a chemisorption–dissociation–diffusion mechanism, characterised by the transport of atomic hydrogen through the Pd–Ag layer as the limiting step. In the case of H2/N2 mixtures, the high membrane permeance originates also significant concentration polarization phenomena resulting in apparent deviations fromSieverts’ behavior; the presence of CO in the feed may reduce hydrogen permeability even by 75%, although this effect is shown to be fully reversible after a subsequent air treatment at 400 ◦C. The temperature dependence of the membrane permeability is of Arrhenius type, with an activation energy of about 17 kJ/mol, that is, close to what is reported for Pd–Ag membranes following Sieverts’ behavior.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.