Understanding the impact of poison distribution on the performance of Diesel oxidation catalysts

Detailed understanding of the poisoning mechanism in Diesel oxidation catalysts (DOCs) is the key to prevent long term catalyst deterioration in vehicles. The present work studies artificial phosphorus (P) poisoning methods applied to a commercial DOC. Cores of the DOC monolith were exposed to incre...

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Published in:Applied catalysis. B, Environmental Environmental, 2021-12, Vol.299, p.120684, Article 120684
Main Authors: Agote-Arán, Miren, Elsener, Martin, Schütze, Frank W., Schilling, Christian M., Sridhar, Manasa, Katsaounis, Evangelos, Kröcher, Oliver, Ferri, Davide
Format: Article
Language:English
Subjects:
Artificial aging
Catalysts
Deactivation
Diesel
Diesel engines
Diesel oxidation catalyst
Exposure
Heat treatment
Impregnation
NO oxidation
Oxidation
P poisoning
Phosphorus
Poisoning
Spraying
Sulfur
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cited_by cdi_FETCH-LOGICAL-c380t-9bd22f10222da3c1806b7d5241564460a2c53de27e64aea86c16161a17bf70243
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container_end_page
container_issue
container_start_page 120684
container_title Applied catalysis. B, Environmental
container_volume 299
creator Agote-Arán, Miren
Elsener, Martin
Schütze, Frank W.
Schilling, Christian M.
Sridhar, Manasa
Katsaounis, Evangelos
Kröcher, Oliver
Ferri, Davide
description Detailed understanding of the poisoning mechanism in Diesel oxidation catalysts (DOCs) is the key to prevent long term catalyst deterioration in vehicles. The present work studies artificial phosphorus (P) poisoning methods applied to a commercial DOC. Cores of the DOC monolith were exposed to increasing amounts of P precursor by impregnation and by spraying. While impregnation leads to a homogeneous poison distribution in the catalytic layers, elemental analysis revealed that the spraying results in radial and axial P gradients that mimic the distribution of this poison previously observed in vehicle aged DOCs. The activity tests under simulated Diesel exhaust evidenced that P deposition by spraying was more detrimental than by impregnation and caused a more severe decrease in NO oxidation performance. Sequential treatments comprising exposure to P, thermal treatment and exposure to sulphur (S) interleaved by activity tests were performed to gain deeper insight into the catalyst deactivation mechanism. [Display omitted] •Artificial P poisoning of DOC is performed by impregnation and spraying methods.•Unlike impregnation, spraying results in P gradients similar to real aged.•Spraying results in more severe decrease of NO conversion.•Combination of P, thermal and S treatments is also studied.
doi_str_mv 10.1016/j.apcatb.2021.120684
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1873-3883
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subjects Artificial aging
Catalysts
Deactivation
Diesel
Diesel engines
Diesel oxidation catalyst
Exposure
Heat treatment
Impregnation
NO oxidation
Oxidation
P poisoning
Phosphorus
Poisoning
Spraying
Sulfur
title Understanding the impact of poison distribution on the performance of Diesel oxidation catalysts
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