Deactivation of a Pd/Pt Bimetallic Oxidation Catalyst Used in a Biogas-Powered Euro VI Heavy-Duty Engine Installation
Journal article, 2019
The reduction of anthropogenic greenhouse gas emissions is crucial to avoid further warming of the planet. We investigated how effluent gases from a biogas powered Euro VI heavy-duty engine impact the performance of a bimetallic (palladium and platinum) oxidation catalyst. Using synthetic gas mixtures, the oxidation of NO, CO, and CH4 before and after exposure to biogas exhaust for 900 h was studied. The catalyst lost most of its activity for methane oxidation, and the activity loss was most severe for the inlet part of the aged catalyst. Here, a clear sintering of Pt and Pd was observed, and higher concentrations of catalyst poisons such as sulfur and phosphorus were detected. The sintering and poisoning resulted in less available active sites and hence lower activity for methane oxidation.
oxidation catalyst
engine bench
catalyst deactivation
biogas
emission control
methane
Author
Johanna Englund
Chalmers, Chemistry and Chemical Engineering, Applied Chemistry
Kunpeng Xie
Volvo Group
Sandra Dahlin
Royal Institute of Technology (KTH)
Andreas Schaefer
Chalmers, Chemistry and Chemical Engineering, Applied Chemistry
Dazheng Jing
Volvo Group
Soran Shwan
Volvo Group
Lennart Andersson
Volvo Group
Per-Anders Carlsson
Chalmers, Chemistry and Chemical Engineering, Applied Chemistry
Lars J Pettersson
Royal Institute of Technology (KTH)
Magnus Skoglundh
Chalmers, Chemistry and Chemical Engineering, Applied Chemistry
Catalysts
20734344 (eISSN)
Vol. 9 12 1014Subject Categories
Chemical Engineering
Materials Chemistry
DOI
10.3390/catal9121014