Modelling NOx adsorption in a thin NaZSM-5 film supported on a cordierite monolith
Journal article, 2007

Transient two dimensional (2-D) and three dimensional (3-D) single channel models (SCMs) describing transport of NOx into a NaZSM-5 film and kinetics for reactions forming nitrate species were developed. The film consisted of a continuous thin layer of inter-grown NaZSM-5 crystals supported on a cordierite monolith support. The 2-D model which included a comprehensive transport model was developed for studying the adsorption kinetics, whereas the more rigorous 3-D model was used to provide a better picture of radial and axial concentration and velocity variations in the monolith channel and the film. The overall adsorption-desorption mechanism, consisting of two competing reaction schemes for nitrate formation, was sufficient to predict the dynamic development of surface nitrate species. The simulation results showed that the adsorption is strongly influenced by transport resistance in the NaZSM-5 film. Also, the effective diffusion of NOx in the NaZSM-5 film is apparently surface nitrate concentration dependent.

NOx adsorption

NaZSM-5 film

monolith

Adsorption modelling

Author

Indra Perdana

Chalmers, Chemical and Biological Engineering, Chemical Reaction Engineering

Derek Creaser

Chalmers, Chemical and Biological Engineering, Chemical Reaction Engineering

I. Made Bendiyasa

Gadjah Mada University

Rochmadi

Gadjah Mada University

Boma Wikan Tyoso

Gadjah Mada University

Chemical Engineering Sciences

0009-2509 (ISSN)

Vol. 62 15 3882-3893

Subject Categories

Chemical Process Engineering

DOI

10.1016/j.ces.2007.04.012

More information

Created

10/6/2017