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001022123 037__ $$aFZJ-2024-01244
001022123 1001_ $$0P:(DE-Juel1)174435$$aFischer, Liudmila$$b0$$eCorresponding author$$ufzj
001022123 245__ $$aCeria-based composites for application in Oxygen transport membranes$$f - 2024-05-17
001022123 260__ $$aJülich$$bForschungszentrum Jülich GmbH Zentralbibliothek, Verlag$$c2024
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001022123 4900_ $$aSchriften des Forschungszentrums Jülich Reihe Energie & Umwelt / Energy & Environment$$v621
001022123 502__ $$aDissertation, Univ. Twente, 2024$$bDissertation$$cUniv. Twente$$d2024
001022123 520__ $$aAmong the gas membrane separation technologies, inorganic dense membranes, like oxygen transport membranes (OTMs), are regarded as one of the most potential and promising methods and gain considerable attention over the past decades. OTMs represent an energy-efficient and economical alternative to conventional cryogenic air separation for producing pure oxygen for oxyfuel combustion technologies as they provide high oxygen selectivity in a single-step process. OTMs require high permeability as well as chemical and mechanical stability under harsh ambient conditions, like CO2- or SOx - containing atmospheres. Mixed ionic-electronic conductors (MIEC) are applied mostly as materials for OTMs. Compared to diverse single-phase materials, dual-phase composite materials, i.e., pure ionic-conductor Ce0.8Gd0.2O2-δ (CGO20) and electronic-conductor FeCo2O4 (FCO), may potentially fulfil these requirements completely. The transport properties of the MIEC system are closely related to the composition and conducting properties of the individual phases in the composite, as well as microstructure features, such as density, porosity, grain size, and the presence of defects. Therefore, the objective of this work is to determine the relationship between the composition as well as the morphology of the permeation properties in the fluorite-spinel ceramic composite.
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