Ceramic hydrogen separation membrane is a promising technology for obtaining pure hydrogen in a wide range of processes including power generation with pre-combustion CO2 capture, water-gas shift, methane reforming, etc. This work presents for the first time the production of cer-cer asymmetrical composite membranes. BaCe0.65Zr0.20Y0.15O3-? (BCZY) supported BCZY- Gd0.2Ce0.8O2-? (GDC) membranes were produced by tape casting. Three different sintering aid incorporation methods were investigated to enhance the final density of the BCZY-GDC layer. The optimization of the whole process leads to produce planar crack-free asymmetrical proton conductive membranes with Ø = 12 mm, constituted by a porous 350 µm thick BCZY substrate with an open porosity of 48%, and a 20µm thick gas tight BCZY-GDC layer.
Tape-cast asymmetric membranes for hydrogen separation
Mercadelli E;Montaleone D;Gondolini A;Pinasco P;Sanson A
2017
Abstract
Ceramic hydrogen separation membrane is a promising technology for obtaining pure hydrogen in a wide range of processes including power generation with pre-combustion CO2 capture, water-gas shift, methane reforming, etc. This work presents for the first time the production of cer-cer asymmetrical composite membranes. BaCe0.65Zr0.20Y0.15O3-? (BCZY) supported BCZY- Gd0.2Ce0.8O2-? (GDC) membranes were produced by tape casting. Three different sintering aid incorporation methods were investigated to enhance the final density of the BCZY-GDC layer. The optimization of the whole process leads to produce planar crack-free asymmetrical proton conductive membranes with Ø = 12 mm, constituted by a porous 350 µm thick BCZY substrate with an open porosity of 48%, and a 20µm thick gas tight BCZY-GDC layer.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
