Grand Challenges of Perovskite and Metal Oxide-based Membrane: A Form of Dual-layer Hollow Fibre

Journal of Applied Membrane Science & Technology Pub Date : 2021-11-07 DOI:10.11113/amst.v25n3.217

S. D. Nurherdiana, T. Gunawan, N. Widiastuti, H. Fansuri

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引用次数: 3

Abstract

Perovskite and metal oxides-based dual-layer hollow fibre membrane (DHF) has a high appeal as separator and catalyst for methane conversion application which operated at intermediate and high temperature. The membrane mostly fabricated via the co-extrusion followed by co-sintering method, which is quite challenging, due to the complexity to handle the barrier between layers from delamination, membrane cracking and crystal structure distortion which affects the material performance in a DHF form. This recent review clarifies the challenges in the DHF fabrication process to regulate physical and chemical properties in terms of mechanical strength, tightness, elemental distribution, and crystal structure stability. The based material of the membrane focuses on NiO-YSZ in the inner layer directly interconnected with LSCF-YSZ in the outer layer. The understanding of the challenges in DHF fabrication, will further reduce crucial errors in the fabrication process and accelerate performance improvement for application such as syngas, methanol and long-chain hydrocarbons production, and solid oxide fuel cell.

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钙钛矿和金属氧化物基膜的重大挑战:一种双层中空纤维

钙钛矿和金属氧化物基双层中空纤维膜(DHF)作为中高温甲烷转化的分离器和催化剂具有很高的应用前景。膜主要采用共挤再共烧结的方法制备，由于处理层间屏障的复杂性，膜开裂和晶体结构畸变会影响DHF形式的材料性能，因此具有很大的挑战性。最近的综述阐明了DHF制造过程中在机械强度、密封性、元素分布和晶体结构稳定性方面调节物理和化学性能的挑战。膜的基材主要是内层的NiO-YSZ与外层的LSCF-YSZ直接相连。了解DHF制造中的挑战，将进一步减少制造过程中的关键错误，并加速合成气、甲醇和长链碳氢化合物生产以及固体氧化物燃料电池等应用的性能改进。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Applied Membrane Science & Technology

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