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Page personnelle de Nicolas DIETRICH

Nicolas DIETRICH
Maître de Conférences - HDR
Equipe Transfert-Interface-Mélange
+33 (0) [5-61-55-97-81]
INSA de Toulouse
135 avenue de Rangueil
31077 Toulouse cedex 4 - FRANCE
dietrich @ insa-toulouse.fr // www.ndietrich.com

 

CV

 

Depuis 2009 : Maitre de conférences INSA TOULOUSE - Département GPE

2018 : HDR à l'INPT Toulouse
2009 : ATER à l’ENSIC Nancy
2008 : Doctorat de l’Institut National Polytechnique de Lorraine (INPL) en Génie des Procédés et des Produits soutenu publiquement le 13 Novembre 2008 à Nancy. Moniteur du CIES Lorraine.
2005 : Diplôme d’Etude Approfondie (DEA) en Génie des Procédés, INPL-ENSIC, Nancy
2005 : Diplôme d’Ingénieur des Industries Chimiques de l’ENSIC, Nancy.

 

Since 2009, Associate Professor, INSA Toulouse
Accreditation to supervise research (HDR), INP Toulouse , France (2018)
PhD in Chemical engineering INP Lorraine, Nancy France (2008)
MSc degree in Chemical Engineering INP Lorraine, Nancy, France (2005)
Engineer degree in Chemical Engineering ENSIC, Nancy, France (2005)

 

RESEARCH TOPICS

 

Étude du transfert gaz-liquide appliqué aux réacteurs biologiques

 


L’objectif est de mieux maîtriser le transfert gaz-liquide au sein des nouveaux réacteurs biologiques du traitement de l’eau et des gaz. Que ce soit dans les stations de traitement d’eaux résiduaires urbaines où l’apport d’oxygène nécessaire au métabolisme des bactéries constitue un enjeu économique fondamental, ou bien dans les réacteurs biologiques produisant du biogaz valorisable ou enfin pour contribuer à la protection de l’environnement et à la stabilité du climat en capturant des COV (Composés organique volatile), il est nécessaire de connaître de façon précise les paramètres physiques et physico-chimiques qui conditionnent le transfert gaz-liquide de façon à quantifier localement ces derniers pour les considérer dans les nouvelles approches de dimensionnement des réacteurs biologiques. Ce travail contribuera de façon effective au développement et à la modélisation de nouveaux réacteurs biologiques intégrant les contraintes énergétiques actuelles.

 

TEACHING

Matière : Génie des procédés, transfert de quantité de matière et de mouvement, physico-chimie,  travaux personnels d’initiations à la recherche
Niveaux : INSA ICBE  3A, INSA GPE 4A et 5A, et Master of science

Plus d’infos : http://www.ndietrich.com

 

 

PUBLICATIONS

2018

 

[P34] Escape Classroom: The Leblanc Process – An Educational « Escape Game » , Nicolas Dietrich, Journal of Chemical Education

[P33] Local hydrodynamics investigation within a dynamic filtration unit under laminar flow, X Xie, N Dietrich, L Fillaudeau, C Le Men, P Schmitz, A Liné
Chemical Engineering Research and Design 132, 954-965

[P32] Visualisation Of Gas-Liquid Mass Transfer Around A Rising Bubble Using An Oxygen Sensitive Dye, N. Dietrich & G. Hébrard, Heat and Mass Transfer, Revision

2017

[P31] Relative effect of gas sparger orifice sizes and some solid particle characteristics in a bubble column, Kritchart Wongwailikhit, Passaworn Warunyuwong, Nattawin Chawaloesphonsiya, Nicolas Dietrich, Gilles Hébrard and Pisut Painmanakul, Chemical Engineering & Technology, In press

[P30] Deformation of liquid-liquid interfaces by a rotating rod, Physics of Fluids 29, 072108 (2017); doi: http://dx.doi.org/10.1063/1.4995476, C. W. Zhao , C. Gentric , N. Dietrich , Y. Ma , H. Z. Li

[P29] Study of the initial glycerol concentration effects upon bacterial cells adaptation and biodegradation kinetics on a submerged aerated fixed bed reactor using biocell® packing, Journal of Materials and Environmental Sciences, Volume 8, Issue 9, Page 3280-3289, A Kherbeche, S Ngala Nsakou, B Lekhlif, G Hébrard, N Dietrich

[P28]New Insights On The Gas-Liquid Mass Transfer Around Taylor Bubbles Flowing In A Meandering Millimetric Square Channel, Lixia Yang; Karine Loubiere, Dr; Nicolas Dietrich, Dr.; Claude Le Men; Christophe Gourdon, Prof.; Gilles Hébrard, Prof., Chemical Engineering Science

[P27] Experimental characterization of multi-component absorption in complex liquid: new method and apparatus, Benizeri, Dietrich and Hébrard, Chemical Engineering Science

[P26] Local Hydrodynamic Investigation by PIV and CFD within a Dynamic Filtration Unit under Laminar Flow, Xiaomin Xie, Nicolas Dietrich, Philippe Schmitz, Luc Fillaudeau Separation and Purification Technology Journal.

[P25] Fast determination of gas-liquid diffusion coefficient by an innovative double approach, Xu, Dietrich and Hébrard, Chemical Engineering Science

[P24] Absorption of toluene per a vegetable oil-water emulsion in scrubbing tower: experiments and modeling, R. Hariz, j. I. Del Rio Sanz, C. Mercier, R. Valentin, N. Dietrich, Z. Mouloungui, and G. Hebrard, Chemical Engineering Science.

[P23] Optical methods to investigate the enhancement factor of an oxygen-sensitive colorimetric reaction using microreactors, Lixia Yanga,Nicolas Dietrich, Karine Loubière, Christophe Gourdon and Gilles Hébrard, AICHE Journal,

2016

[P22] Process-Oriented Review of Bacterial Quorum Quenching for Membrane Biofouling Mitigation in Membrane Bioreactors (MBRs), N Bouayed, N Dietrich, C Lafforgue, CH Lee, C Guigui, Membranes 6 (4), 52

[P21] Visualization and characterization of gas-liquid mass transfer around a Taylor bubble right after the formation stage in microreactors, Lixia Yanga,Nicolas Dietrich, Karine Loubière, Christophe Gourdon and Gilles Hébrard, Revision to Chemical Engineering Science 2016.

2015

[P20] Physical absorption if volatile organic compounds by spraying elulsion in an innovative spray tower, R. Tatin, L. Mourra, N. Dietrich, S. Baig, G. Hébrard, Chemical Engineering Research and Design,

 

2015

[P19] Fast measurements of gas-liquid diffusion coefficient in the gaussian wake of a spherical bubbleon ,N. DIETRICH, A. COCKX, M. JIMENEZ, J. FRANCOIS, P. GUIRAUD, G. HEBRARD, Chemical Engineering & Technology, Volume 38, Issue 5, pages 941–946, May, 2015, DOI: 10.1002/ceat.201400471

[P18] Influence of initial glycerol concentration upon bacterial cells adaptability and biodegradation kinetics on a submerged aerated fixed bed reactor using Biocell® (PE05) packing, B. Lekhlif, G. Hébrard, N. Dietrich, A. Kherbeche, J. Echabbi, Afr. J. Environ. Sci. Technol., Vol.9(2), pp. 71-79, February 2015, DOI: 10.5897/AJEST2014.1837, ISSN: 1996-0786

2014

[P17] A damping phenomenon in viscoelastic fluids, X. Frank, N. Dietrich and Huai Z. Li, Europhysics Letters, Volume 105, Number 5, doi:10.1209/0295-5075/105/54006

[P16] Oxygen mass transfer and hydrodynamic behaviour in wastewater: determination of local impact of surfactants by visualization techniques, Water Research, Mélanie Jimenez, Nicolas Dietrich, John R. Grace, Gilles Hébrard, 10.1016/j.watres.2014.03.065, Volume 58, Pages 111–121, 1 July 2014

2013

[P15] Bubble formation at an orifice: A multiscale investigation, N. Dietrich, N. Mayoufi, S. Poncin, N. Midoux, Huai Z. Li, Chemical Engineering Science, Volume 92, 5 April 2013, Pages 118–125

[P14] Mass transfer in the wake of non-spherical air bubbles quantified by quenching of fluorescence ; Mélanie Jimenez, Nicolas Dietrich, Gilles Hébrard, Chemical Engineering Science, DOI: 10.1016/j.ces.2013.01.036i, July 2013, Volume 100, Pages 160–171, 30 August 2013

[P13] A New And Direct Technique For Visualization And Measurement Of The Gas-Liquid Mass Transfer Around Bubbles In Millireactor, Nicolas DIETRICH, Karine Loubière, Christophe Gourdon et Gilles Hébrard, Chemical Engineering Science, DOI: 10.1016/j.ces.2013.03.041

[P12] Hydrodynmics and mass transfer invesitigation in a gas-liquid-solid biofilter column, Abderramanne Kerbeche, James Milnes, Nicolas Dietrich, Gilles Hebrard, Brahim Lekhlif, Chemical Engineering Science.

[P11] Bubbles and drops formation at a submerged orifice: experimental studies and PIV visualization, Nicolas Dietrich, Nadia Mayoufi, Souhila Poncin and Huai-Zhi LI, Chemical Papers, DOI 10.2478/s11696-012-0277-5, 2012

[P10] Experimental study of O2 diffusion coefficient measurement at a planar gas-liquid interface by PLIF with inhibition, Mélanie Jimenez, Nicolas Dietrich, Arnaud Cockx, Gilles Hébrard, AICHE Journal, Volume 59, Pages 325–333, Issue 1, January 2013

2012

[P9] A new method for measuring diffusion coefficient of gases in liquids by PLIF, Mélanie Jimenez, Nicolas Dietrich, Gilles Hébrard, Modern Physics Letter B, Volume 26, Issue 06, 1150034, 10 March 2012

2011

[P8] A Novel Methodology To Measure Mass Transfer Around A Bubble, Jessica FRANCOIS, Nicolas DIETRICH, Arnaud COCKX, Modern Physics Letter B, Volume 25, Issue 25, 10 October 2011

[P7] Dynamical deformation of flat liquid-liquid interface, Nicolas Dietrich, Souhila Poncin, Sylvia Pheulpin and Huai-Zhi LI, Experiments in fluids, 2011

[P6] Direct measurement of mass transfer around a single bubble by micro-PLIFI, Jessica Francois, Nicolas Dietrich, Pascal Guiraud, Arnaud Cockx, Chemical Enginerring Science, Volume 66, Issue 14, 15 July 2011, Pages 3328–3338

[P5] Experimental study of the bubble formation in T-Y junction micro-mixers, Nicolas Dietrich, Souhila Poncin, and Huai-Zhi LI, International Journal of Water, avril 2011

 

2010

[P4] Experimental study of oxygen diffusion coefficients in clean water containing Sodium chloride, glucose or surfactant: consequences on the liquid-side mass Transfer coefficients, Marupatch Jamnongwong; Karine Loubiere; Nicolas Dietrich; Hébrard Gilles, Chemical Engineering Journal , accepté, Septembre 2010

2008

[P3] Bubble Formation Dynamics in Various Flow-Focusing Microdevices, Nicolas Dietrich, Souhila Poncin, Noël Midoux and Huai-Zhi Li, Langmuir, 24, 24, 13901, Décembre 2008, (DOI: 10.1021/la802008k).

[P2] Passage of a bubble through a liquid-liquid interface, Nicolas Dietrich, Souhila Poncin, Sylvia Pheulpin and Huai-Zhi Li, AICHE Journal, 54, 34, Mars 2008, 594-600 (DOI: 10.1002/aic.11399).

2007

[P1] Bubble nucleation and growth in fluids , Xavier Frank, Nicolas Dietrich, Jing Wu, Renaud Barraud and Huai-Zhi Li, Chemical Engineering Science , 62, 24, Decembre 2007, 7090-7097 (doi:10.1016/j.ces.2007.08.030).