Mechanical Engineering Letters
Online ISSN : 2189-5236
ISSN-L : 2189-5236
Surface reaction controlling hydrogen permeation through lanthanum-doped ceria membrane with asymmetric structure
Masaru KANIEWarit UA-AMNUEYCHAIMerika CHANTHANUMATAPORNKeiji ASADATsuyoshi NAGASAWAKatsunori HANAMURA
Author information
Keywords: Hydrogen separation, Surface reaction control, Protonic and electronic conductor, Lanthanum-doped ceria, Asymmetric membrane, Hydrogen permeation flux
JOURNAL FREE ACCESS

2015 Volume 1 Pages 15-00359

Details
Download PDF (1737K)
Download citation RIS

(compatible with EndNote, Reference Manager, ProCite, RefWorks)

BIB TEX

(compatible with BibDesk, LaTeX)

Text
How to download citation
Contact us
Abstract

A thin membrane (thickness = ~10 µm) made of a lanthanum highly-doped cerium oxide (La0.5Ce0.5O2-δ, LDC) was fabricated on a mixed porous layer consisting of Ni and the LDC. Comparing the results of permeation experiments for hydrogen and helium gases confirmed that the asymmetric membrane acted as a mixed protonic and electronic conducting hydrogen separation membrane and that the thin LDC membrane was an almost dense layer. The most striking result of the permeation experiments was that the hydrogen permeation flux increased with increase in the crystal grain boundary length per unit area of the surface and increased in proportion to the square root of hydrogen partial pressure, showing that the flux is controlled by a surface reaction between the adsorbed hydrogen and proton at the crystal grain boundary.

Content from these authors
© 2015 The Japan Society of Mechanical Engineers
Previous article Next article
Favorites & Alerts

Recently viewed articles
Related journals
Mechanical Engineering Reviews
Mechanical Engineering Journal
Journal of Thermal Science and Technology
Journal of Biomechanical Science and Engineering
Journal of Advanced Mechanical Design, Systems and Manufacturing
Transactions of JSME (in Japanese)
Share this page
feedback
 Top