Add to ORKGInternational audienceThis paper suggests a macroscopic model describing the thermo-chemo-mechanical behaviour of ceramic dense membrane for oxygen separation application. This work takes in account to oxygen permeation and strain induced by stoichiometry variation with working conditions. This model, developed within the traditional framework of phenomenological approach, is based on the assumption of strain partitions and requires only three state variables: oxygen activity, temperature and total strain. Oxygen bulk diffusion and surface exchanges are described thanks to the thermodynamic approach developed by Onsager. While many works focused on semi-permeation induced strain, the proposed model also includes the temperature effect on ch...
Oxygen separation with dense oxide membranes may be an attractive method for the production of oxyge...
© Springer Science+Business Media, LLC 2012 and Springer International Publishing Switzerland 2017. ...
L’étude de matériaux conducteur mixtes (ionique et électronique) connait un intérêt croissant depuis...
International audienceThis paper suggests a macroscopic model describing the thermo-chemo-mechanical...
International audienceThis study presents the relevant aspects of the approach developed at Institut...
Mixed Conductors (MIECs) are promising membrane materials for oxygen separating from air at high tem...
Perovskite ceramics with high oxygen ionic conductivity are important materials for ion-transport me...
La semi-perméation à haute température dans les matériaux conducteurs mixtes introduit des sollicita...
© 2018 Elsevier B.V. Oxygen demand has continuously increased given its indispensable role as a raw ...
One of the most efficient ways to realize an Oxy-fuel process is the utilization of ceramic oxygen t...
Ceramic membranes based on Mixed-Ionic-and-Electronic-Conducting (MIEC) oxides are capable of separa...
Ceramic membranes made from mixed oxygen-ionic and electronic conducting perovskite oxides can selec...
International audienceMixed Ionic and Electronic Conductors (MIECs) are promising membrane materials...
Strong coupling between the chemical composition and crystal lattice dimensions resulting in the con...
Mixed conducting oxygen ion conductors can be applied as membranes for the separation of oxygen from...
Oxygen separation with dense oxide membranes may be an attractive method for the production of oxyge...
© Springer Science+Business Media, LLC 2012 and Springer International Publishing Switzerland 2017. ...
L’étude de matériaux conducteur mixtes (ionique et électronique) connait un intérêt croissant depuis...
International audienceThis paper suggests a macroscopic model describing the thermo-chemo-mechanical...
International audienceThis study presents the relevant aspects of the approach developed at Institut...
Mixed Conductors (MIECs) are promising membrane materials for oxygen separating from air at high tem...
Perovskite ceramics with high oxygen ionic conductivity are important materials for ion-transport me...
La semi-perméation à haute température dans les matériaux conducteurs mixtes introduit des sollicita...
© 2018 Elsevier B.V. Oxygen demand has continuously increased given its indispensable role as a raw ...
One of the most efficient ways to realize an Oxy-fuel process is the utilization of ceramic oxygen t...
Ceramic membranes based on Mixed-Ionic-and-Electronic-Conducting (MIEC) oxides are capable of separa...
Ceramic membranes made from mixed oxygen-ionic and electronic conducting perovskite oxides can selec...
International audienceMixed Ionic and Electronic Conductors (MIECs) are promising membrane materials...
Strong coupling between the chemical composition and crystal lattice dimensions resulting in the con...
Mixed conducting oxygen ion conductors can be applied as membranes for the separation of oxygen from...
Oxygen separation with dense oxide membranes may be an attractive method for the production of oxyge...
© Springer Science+Business Media, LLC 2012 and Springer International Publishing Switzerland 2017. ...
L’étude de matériaux conducteur mixtes (ionique et électronique) connait un intérêt croissant depuis...