M. Broglia scite author profile

The present work is focused on the investigation of the performance and long-term stability of two composite palladium membranes under different operating conditions. One membrane (Pd/porous stainless steel (PSS)) is characterized by a ~10 µm-thick palladium layer on a porous stainless steel substrate, which is pretreated by means of surface modification and oxidation; the other membrane (Pd/Al2O3) is constituted by a ~7 µm-thick palladium layer on an asymmetric microporous Al2O3 substrate. The operating temperature and pressure ranges, used for studying the performance of these two kinds of membranes, are 350–450 °C and 200–800 kPa, respectively. The H2 permeances and the H2/N2 selectivities of both membranes were investigated and compared with literature data. At 400 °C and 200 kPa as pressure difference, Pd/PSS and Pd/Al2O3 membranes exhibited an H2/N2 ideal selectivity equal to 11700 and 6200, respectively, showing stability for 600 h. Thereafter, H2/N2 selectivity of both membranes progressively decreased and after around 2000 h, dropped dramatically to 55 and 310 for the Pd/PSS and Pd/Al2O3 membranes, respectively. As evidenced by Scanning Electron Microscope (SEM) analyses, the pinholes appear on the whole surface of the Pd/PSS membrane and this is probably due to release of sulphur from the graphite seal rings.

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Ethanol steam reforming reaction in a porous stainless steel supported palladium membrane reactor

Basile

Pinacci

Iulianelli

et al. 2011

International Journal of Hydrogen Energy

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Sol–gel synthesis of thin alumina layers on porous stainless steel supports for high temperature palladium membranes

Bottino

Broglia

Capannelli

et al. 2014

International Journal of Hydrogen Energy

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Synthesis and characterization of Pd membranes on alumina-modified porous stainless steel supports

Broglia¹,

Pinacci²,

Radaelli³

et al. 2009

Desalination

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M. Broglia

Evaluation of the water gas shift reaction in a palladium membrane reactor

Performance and Long-Term Stability of Pd/PSS and Pd/Al2O3 Membranes for Hydrogen Separation

Ethanol steam reforming reaction in a porous stainless steel supported palladium membrane reactor

Sol–gel synthesis of thin alumina layers on porous stainless steel supports for high temperature palladium membranes

Synthesis and characterization of Pd membranes on alumina-modified porous stainless steel supports

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