Fabien Dhainaut

Catalyse Hétérogène
Remédiation et matériaux catalytiques (REMCAT)


Maître de Conférences

(Enseignants chercheurs)


Bureau :114 (bâtiment ECL)
Téléphone :03 20 33 54 43
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Adresse :Ecole Centrale de Lille
Cité Scientifique
Bd Paul Langevin
59651 Villeneuve d'Ascq Cedex
France

Fabien Dhainaut est né en 1980. Il obtient son doctorat de Chimie à l'Université des Sciences et Technologies de Lille 1 en 2006 sous la direction des Professeurs Pascal Granger et Stanislas Pietrzyk sur le sujet « Réduction des oxydes d’azote par l’hydrogene sur des métaux nobles». Depuis 2007, il travaille en tant que Maître de Conférences à l’Ecole Nationale Supérieure de Chimie de Lille et à l’Unité de Catalyse et de Chimie de Solide.

 

Activités de Recherche

Fabien Dhainaut est coauteur de plus de 15 articles scientifiques de rang A dans le domaine de la catalyse hétérogène appliquée à l’élimination des oxydes d’azote. Ses activités de recherche se focalisent principalement sur la cinétique expérimentale et sa modélisation numérique.

 

Activités d’Enseignement

Fabien Dhainaut enseigne à l’ENSCL l’extraction liquide-liquide et intervient lors des formations en Génie Chimique en cycle ingénieur de l’école.

Publications

Publications dans la base de données : 12 (depuis 2008)

  • 2016

  • CH4 Dissociation Mechanisms on Aged Three-Way Natural Gas Vehicle Pd/Al2O3 Catalyst.
    Dhainaut F., van Veen A. C., Pietrzyk S., Granger P.
    Topics in Catalysis, vol. 60, pg. 295-299 (2016) DOI
     
  • NO Adsorption and Reaction on Aged Pd–Rh Natural Gas Vehicle Catalysts: A Combined TAP and Steady-State Kinetic Approach.
    Granger Pascal, Renème Y., Dhainaut F., Schuurman Y., Mirodatos C.
    Topics in Catalysis, vol. 60, pg. 289-294 (2016) DOI
     
  • Reaction Pathways Involved in CH4 Conversion on Pd/Al2O3 Catalysts: TAP as a Powerful Tool for the Elucidation of the Effective Role of the Metal/Support Interface.
    Renème Y., Pietrzyk S., Dhainaut F., Chaar M., van Veen A. C., Granger Pascal.
    Frontiers in Chemistry, vol. 4 (2016) DOI
     
  • 2014

  • Comparative surface analysis and TAP measurements to probe the NO adsorptive properties of natural gas vehicle Pd–Rh/Al2O3 catalyst.
    Renème Y., Dhainaut F., Schuurman Y., Mirodatos C., Granger P.
    Applied Catalysis B: Environmental, vol. 160-161, pg. 390-399 (2014) DOI
     
  • 2013

  • TAP Investigation of NO Adsorption on Pd/Al2O3: Effect of Thermal Aging.
    Dhainaut F., Renème Y., Pietrzik S., Schuurman Y., Mirodatos C., Granger P.
    Topics in Catalysis, vol. 56, pg. 279-286 (2013) DOI
     
  • 2012

  • Kinetics of the NO/H2/O2 reactions on natural gas vehicle catalysts—Influence of Rh addition to Pd.
    Renème Y., Dhainaut F., Granger P.
    Applied Catalysis B: Environmental, vol. 111-112, pg. 424-432 (2012) DOI
     
  • TAP investigation on methane conversion on supported Pd and Rh based catalysts – 1. Kinetics of methane adsorption.
    Renème Y., Dhainaut F., Pietrzyk S., Chaar M., van Veen A.C., Granger P.
    Applied Catalysis B: Environmental, vol. 126, pg. 239-248 (2012) DOI
     
  • 2010

  • XPS investigation of surface changes during thermal aging of Natural Gas Vehicle catalysts: Influence of Rh addition to Pd.
    Renème Y., Dhainaut F., Trentesaux M., Ravanbakhsh B., Granger P., Dujardin C., Gengembre L., De Cola P. L.
    Surface and Interface Analysis, vol. 42, pg. 530-535 (2010) DOI
     
  • 2009

  • Impact of Thermal Aging on the Kinetic Parameters of the NO/H2Reaction on Pd/LaCoO3.
    Dhainaut F., Pietrzyk S., Granger P.
    Langmuir, vol. 25, pg. 13673-13679 (2009) DOI
     
  • Study of Ammonia Formation During the Purge of a Lean NO x Trap.
    Kouakou A., Dhainaut F., Granger P., Fresnet F., Louis-Rose I.
    Topics in Catalysis, vol. 52, pg. 1734-1739 (2009) DOI
     
  • Catalytic Post-Treatment of Automotive Exhaust Gas from Natural Gas Combustion Engines: Potential Interest of Perovskite Materials.
    Renème Y., Dhainaut F., Granger P.
    Topics in Catalysis, vol. 52, pg. 2007-2012 (2009) DOI
     
  • 2008

  • Kinetics of the NO/H2 reaction on Pt/LaCoO3: A combined theoretical and experimental study.
    DHAINAUT F, PIETRZYK S, GRANGER P.
    Journal of Catalysis, vol. 258, pg. 296-305 (2008) DOI
     

 

Ouvrages

  • P. Granger, J.P. Dacquin, F. Dhainaut, C.Dujardin. The intermediate formation of N2O during NOx conversion : Fundamental approach and practical developments. dans Past and Present in DeNOx catalysis : From molecular modelling to Chemical Engineering (Ed. P. Granger, V. Parvulescu), dans la série Studies in Surface Science and Catalysis (171), Elsevier N°ISBN : 978-0-444-53058-5 Chapter 10, (2007) p. 291-324 .
  • F. Dhainaut, P. Granger, G. Leclercq. Deactivation induced effect on the kinetic behaviour of bimetallic Pt-Rh three-way catalysts in the simultaneous conversion of NO and N2O. dans Catalysis at the Cutting Edge (Ed. Lawrence P. Bevy), Novascience N°IBSN : 1-59454-512-X Chapter 4, (2005) p. 95-114.

Fabien DHAINAUT was born in 1980. He received his Ph.D. degree in Chemistry from the University of Lille 1 Sciences and Technologies (France) in 2006 under the supervision of Professors Pascal Granger and Stanislas Pietrzyk on the topic             « Reduction of Nitrous oxides by Hydrogen over noble metals ». Since 2007 he has been assistant professor at ENSCL and joined UCCS.

 

Research activities

Fabien Dhainaut has co-authored over 15 peer-reviewed scientific papers on heterogeneous catalysis applied to the elimination of Nitrous oxides. Presently his research is focused on experimental kinetics and its modelling.

 

Teaching activities

Fabien Dhainaut teaches liquid-liquid extraction and intervenes in Chemical Engineering practical and tutorial classes at ENSCL