Download This PaperEngineering Robust Porous/Dense Composite Hollow Fiber Membranes for Highly Efficient Hydrogen Separation
31 Pages Posted: 1 Mar 2024
Abstract
BaZr0.7Ce0.2Y0.1O3-δ (BZCY), a perovskite-type mixed protonic and electronic conducting membrane, demonstrates promise for H2 separation and purification. The introduction of a porous modification layer as an exchange-active component offers a potential solution to enhance H2 permeability. However, achieving the desired porous/dense structure presents a notable challenge for practical implementation. In this study, various methods were developed to address sintering kinetics, encompassing both chemical aspects (e.g., interlayer reactions) and physical factors (e.g., thermal expansion), for fabricating a porous BZCY modification layer on a four-channel BZCY hollow fiber membrane. The optimal composite hollow fiber membrane, resulting from a combination of readily sintered hollow fiber and powders for constructing the porous layers, exhibited an exceptional H2 permeation flux of 0.48 mL min-1 cm-2 at 900 °C using 50% H2/N2 as the feed gas. The permeation flux of H2 exceeds 3 times that of the bare BZCY membrane. These findings enabled us to identify the most effective approach, unlocking the full potential of surface-modified hollow fiber membranes and advancing their capabilities in H2 permeation applications.
Keywords: Hydrogen permeable membrane, Surface modification, Sintering kinetics, Hydrogen separation, Hollow fiber membrane
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