Insights on perovskite-type proton conductive membranes for hydrogen permeation

journal article in Web of Science

en

Hydrogen has received widespread attention because as its diverse delivery methods and no GHG emissions. The use of membrane separation can effectively replace the costly low-temperature distillation and pressure swing adsorption technology to achieve the purpose of low-cost hydrogen enrichment. As a promising hydrogen separation material, perovskite-type proton conductor hydrogen permeable membrane has been practically applied in hydrogen separation and purification process. In this paper, the principle of hydrogen permeability of perovskite-type proton conductor hydrogen permeable membrane is expounded, and its preparation method and application are summarized, and the development trend of the material is discussed. © 2022 Hydrogen Energy Publications LLC

Hydrogen has received widespread attention because as its diverse delivery methods and no GHG emissions. The use of membrane separation can effectively replace the costly low-temperature distillation and pressure swing adsorption technology to achieve the purpose of low-cost hydrogen enrichment. As a promising hydrogen separation material, perovskite-type proton conductor hydrogen permeable membrane has been practically applied in hydrogen separation and purification process. In this paper, the principle of hydrogen permeability of perovskite-type proton conductor hydrogen permeable membrane is expounded, and its preparation method and application are summarized, and the development trend of the material is discussed. © 2022 Hydrogen Energy Publications LLC

Hollow fiber membrane; Hydrogen separation membrane; Perovskite-type proton conductor

23.09.2022

Elsevier

0360-3199

22

48

10