Hydrogen permeation of Pd-coated V₉₀Al₁₀ alloy membranes at different pressures in the presence and absence of carbon dioxide

The hydrogen permeation characteristics of alloy membranes based on Pd-coated V₉₀Al₁₀ alloy membrane have been investigated in the pressure range 1-3 atm under pure hydrogen and hydrogen-carbon dioxide gas mixture at 450 °C. Hydrogen permeation experiments have been confirmed that hydrogen flux was 21.1 ml/min/cm² for a Pd-coated V ₉₀Al₁₀ alloy membrane (thickness: 0.5 mm) using pure hydrogen as the feed gas. It has been found that Pd-coated V₉₀Al ₁₀ alloy membranes exhibit good resistance to hydrogen embrittlement in pure hydrogen atmosphere. After different hydrogen permeation flux tests under different pressure condition in presence of hydrogen-carbon dioxide gas mixture, the characteristics of the Pd-coated V₉₀Al₁₀ alloy membranes were examined by ex-situ analysis techniques. The loss of cell performance observed in the presence of hydrogen-carbon dioxide gas mixture is mainly attributed to both physical and chemical degradations of membrane, which led to structural changes in the Pd-coated V₉₀Al₁₀ alloy membrane.