Ceramic membranes modified with catalytic oxide films as ensembles of catalytic nanoreactors View Full Text


Ontology type: schema:ScholarlyArticle     


Article Info

DATE

2006-01

AUTHORS

M. V. Tsodikov, V. V. Teplyakov, M. I. Magsumov, E. I. Shkols’nikov, E. V. Sidorova, V. V. Volkov, F. Kapteijn, L. Gora, L. I. Trusov, V. I. Uvarov

ABSTRACT

Hybrid catalytic membrane systems have been produced by modifying porous ceramic membranes with metal oxide films. A two-layer cermet membrane consisting of a flexible stainless steel layer and an overlying porous TiO2 ceramic layer and a ceramic titanium carbide membrane are examined. The membrane surfaces have been modified by the alkoxide method using colloidal organic solutions of metal complex precursors. Producing a tetragonal single-phase ZrO2/Y2O3 coating on the cermet surface increases the abrasion strength of the ceramic layer. CO oxidation and the oxidative conversion of methane into synthesis gas and light hydrocarbons can be markedly intensified by modifying the membrane channels with Cu0.03Ti0.97O2±δ and La + Ce/MgO catalysts, respectively. A method has been developed for depositing, onto the geometrical surface of a membrane, a film of the new single-phase oxide P0.03Ti0.97O2±δ with an anatase structure and uniform pores of mean diameter 〈d〉 ∼ 2 nm. Blocks of zeolite-like silicalite can be formed on the surface of the phosphorus-titanium oxide film. The resulting hybrid membrane is characterized by an anisotropic permeability depending on the flow direction. This property has an effect on conversion and selectivity in the nonoxidative dehydrogenation of methanol. More... »

PAGES

25-34

Identifiers

URI

http://scigraph.springernature.com/pub.10.1134/s0023158406010058

DOI

http://dx.doi.org/10.1134/s0023158406010058

DIMENSIONS

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