Global Kinetic Model of a Three-Way-Catalyst-Coated Gasoline Particulate Filter: Catalytic Effects of Soot Accumulation
Journal article, 2021
In the present study, a global kinetic model of three-way-catalyst-coated gasoline particulate filters was developed to understand the relevant kinetic mechanisms taking place both in clean and real soot-loaded filters. The model involves reaction rate expressions for CO, C2H4, and C7H8 conversion over a model Pd/CeZr/Al2O3 catalyst, hydrothermally treated at 650 °C. Particularly, a new rate expression was proposed for ethylene based on the distinctive experimental trends observed for this hydrocarbon. The model predicted satisfactorily the conversion of all three reductants under different experimental conditions. The soot inhibition effect was also modeled by the reduction of the number of active sites. Interestingly, ethylene was less affected compared to other reductants by the presence of soot due to the formation of less stable and more reactive species on the catalyst surface.
Soot
Ethylene
Cerium compounds
Gasoline
Kinetic theory
Catalysts
Dust
Kinetic parameters
Zirconium compounds
Palladium compounds
Author
Jesus De Abreu Goes
Chalmers, Chemistry and Chemical Engineering, Chemical Technology
Volvo
Louise Olsson
Chalmers, Chemistry and Chemical Engineering, Chemical Technology
Timothy C. Watling
Johnson Matthey
Industrial & Engineering Chemistry Research
0888-5885 (ISSN) 1520-5045 (eISSN)
Vol. 60 47 16899-16910Kemisk åldring och regenerering av NOxfällor för mager drift
Swedish Foundation for Strategic Research (SSF) (ID15-0030), 2016-01-01 -- 2020-12-31.
Subject Categories
Pharmaceutical Sciences
Other Chemical Engineering
Biophysics
DOI
10.1021/acs.iecr.1c02742