Modeling of CO Oxidation by Diffusion of Oxygen Atoms in Ceria-Zirconia Particulates in a Three-Way Catalyst Particle Membrane Filter

Authors

  • Phyozin Koko

  • Katsunori Hanamura

DOI:

https://doi.org/10.34257/GJRECVOL23IS1PG33

Keywords:

modeling, diffusion, three-way-catalyst, membrane particulate filter

Abstract

In order to design a microporous membrane filter comprising Three-way Catalyst TWC particles with a size distribution of 1 to 2 microns isothermal CO oxidation experiments and numerical simulations were conducted to investigate the transport of oxygen atoms within primary Ceria-Zirconia CZ particulates These spherical TWC particles were fabricated through the agglomeration of primary CZ and alumina particulates incorporating Pd and Rh catalysts By comparing experimental CO2 emissions with simulation results over time a temperature-dependent diffusion coefficient was determined The simulation results reveal that the effective distance of oxygen atom transport within CZ particulates heterogeneously distributed in the spherical TWC particle is limited to approximately 100 nm from the surface of agglomerated spherical TWC particles within a temperature range of 175 to 225 C

How to Cite

Phyozin Koko, & Katsunori Hanamura. (2023). Modeling of CO Oxidation by Diffusion of Oxygen Atoms in Ceria-Zirconia Particulates in a Three-Way Catalyst Particle Membrane Filter. Global Journals of Research in Engineering, 23(C1), 33–42. https://doi.org/10.34257/GJRECVOL23IS1PG33

Modeling of CO Oxidation by Diffusion of Oxygen Atoms in Ceria-Zirconia Particulates in a Three-Way Catalyst Particle Membrane Filter

Published

2023-11-27