Diesel Oxidation Catalyst Combined to Non-Thermal Plasma: Effect on Activation Catalyst Temperature and by-products formation

Alexis Leray; Ahmed Khacef; Maxime Makarov; Jean Marie Cormier

HAL : hal-00680790, version 2

Diesel Oxidation Catalyst Combined to Non-Thermal Plasma: Effect on Activation Catalyst Temperature and by-products formation
Leray A., Khacef A., Makarov M., Cormier J. M.
in Proceedings of the 20th Internatinal Symposium on Plasma Chemistry - 20th Internatinal Symposium on Plasma Chemistry, Philadelphia : United States (2011) - http://hal.archives-ouvertes.fr/hal-00680790

Versions disponibles :

v1 (29-03-2012)

v2 (13-04-2012)

Type de publication :

Communications avec actes

Domaine :

Physique/Physique/Physique des plasmas

Titre :

Diesel Oxidation Catalyst Combined to Non-Thermal Plasma: Effect on Activation Catalyst Temperature and by-products formation

Auteur(s) :

Alexis Leray (

) ^1, 2, Ahmed Khacef (

) ¹, Maxime Makarov ², Jean Marie Cormier ¹

Laboratoire :

1 :	Groupe de recherches sur l'énergétique des milieux ionisés (GREMI)

	http://www.univ-orleans.fr/Polytech/GREMI/

	CNRS : UMR6606 – Université d'Orléans

	14 Rue d'Issoudun - BP 6744 45067 ORLEANS CEDEX 2

	France

2 :	RENAULT SAS

	http://www.renault.fr/

	RENAULT

	Technocentre Guyancourt - 1, avenue du Golf - 78288 Guyancourt - France

	France

Résumé :

The aim of this work is to study the pollutants removal efficiency together with the catalyst activation temperature when a Diesel Oxidation Catalyst (DOC) is placed downstream to a multi-plans Dielectric Barrier Discharge (DBD) reactor. In order to simulate Diesel engine exhaust, synthetic gas mixtures containing N2, O2, H2O, CO2, CO, NO, and hydrocarbons (HCs) at controlled concentrations could be heated at temperature up to 300°C. Catalytic material based on Pd and Pt supported on Al2O3 was used at a gas hourly space velocities (GHSV) of about 55 000 h-1. The major gaseous components as NOx, CO, CO2, and HCs were systematically investigated online and quantified using an electrochemical analyzer and a Fourier Transform Infrared Absorption Spectroscopy (FTIR). Results show the advantageous plasma catalyst coupling effect on the lowering of the catalyst activation temperature. Improvement of about 20°C was obtained. As it is well known, the gas-phase chemistry in the plasma includes NO to NO2 conversion as well as HCs partial oxidation to CxHyOz. These species play an important role in the catalytic mechanisms. By-products such as aldehydes (CH2O) and alcohols (CH3OH) compounds were also detected together with a small amount of nitrous acid (HONO) when water was added into the gas mixture.

Langue du texte
intégral :

Anglais

Titre de l'ouvrage :

Proceedings of the 20th Internatinal Symposium on Plasma Chemistry

Audience :

internationale

Date de publication :

24/07/2011

Page, identifiant, ... :

1-4

Titre de la conférence :

20th Internatinal Symposium on Plasma Chemistry

Date de la conférence :

24/07/2011

Date de la conférence (fin) :

29/07/2011

Ville :

Philadelphia

Pays :

États-Unis

Mots Clés :

DBD – catalyst – exhaust gas – post-treatment – Diesel

Liste des fichiers attachés à ce document :

PDF

Khacef_ISPC20.pdf

(565.6 KB)


hal-00680790, version 2
http://hal.archives-ouvertes.fr/hal-00680790
oai:hal.archives-ouvertes.fr:hal-00680790
Contributeur : Ahmed Khacef <>
Soumis le : Jeudi 12 Avril 2012, 17:17:28
Dernière modification le : Vendredi 13 Avril 2012, 15:18:22