CV
du Professeur Nicolas Abatzoglou, Ph.D.
English website: Nicolas Abatzoglou (usherbrooke.ca)
information
personnelle
Adresse
professionnelle :
2500,
boul. de l’Université
Sherbrooke (Québec) J1K 2R1
(819) 821-7904
nicolas.abatzoglou@usherbrooke.ca
Poste
actuel : Professeur, Département de génie chimique et
de génie biotechnologique,
Université
de Sherbrooke
Directeur
du GRTP – Groupe de Recherches sur les Technologies et Procédés
Professeur
adjoint, University of Saskatchewan
Professeur
affilié, Concordia University
Citoyenneté : Canadien
et UE (Grec)
Langues : Anglais,
Français, Grec (trilingue)
Espagnol
(fonctionnel)
Site web facultaire :
https://www.usherbrooke.ca/genie-chimique-biotech/departement/professeurs/nicolas-abatzoglou
1989 - 1990 Post-doctorat, Génie chimique,
Université de Sherbrooke
1985 - 1989 PhD,
School of Chemical Engineering, National Technical University of Athens, Greece
1982 -
1985 MSc,
Génie chimique, Université de Sherbrooke
1977 - 1982 BSc,
Génie chimique, National
Technical University of Athens, Greece
· Génie des procédés thermo-catalytiques et pharmaceutiques
· Catalyse hétérogène : catalyseurs et ingénierie des réactions catalytiques
· Systèmes particulaires dans des environnements réactifs et non réactifs
· Technologies d'analyse de processus et applications dans la production pharmaceutique
·
Mise à l'échelle et transfert de technologie
2000-2001 Conseil régional de
l’environnement de l’Estrie pour sa contribution dans le domaine de la gestion
des déchets.
1999-2020 Prix Bazinet
en reconnaissance de son dévouement à ses fonctions d’enseignant: élu meilleur professeur
de génie chimique 8 fois au cours des derniers 21 ans.
2011 Finaliste en tant
que titulaire de la Chaire Pfizer aux Prix Innovation de l'ADRIQ
2010-2018 MÉLS (Ministère de l’éducation
du Québec) Chantier II Prix de la Chaire : 102 700$/an pendant 8 ans, pour son
excellence en enseignement académique combiné et en R&D. Seulement deux
prix décernés pour l'Université de Sherbrooke.
2015 Membre élu de
l'Académie canadienne du génie
2002 –
2014 4 Prix de l'Innovation
Pédagogique de l’Université de Sherbrooke
Postes académiques
2002/5
- … Professeur, GCH,
Faculté de génie, Université de Sherbrooke, Sherbrooke, QC
2009-2013 Chaire, Département de génie chimique
et de génie biotechnologique, Université de Sherbrooke
1999/5 -
2002/5 Professeur associé, GCH,
Faculté de génie, Université de Sherbrooke
2008/1-2008/3 Professeur invité, Aristoteles
Polytechnic School of Thessaloniki, Greece
2014 Professeur invité, Département
de génie chimique, École Polytechnique de Montreal.
2022 Professeur affilié (sabbatique), Chemical and Materials Engineering Department,
Concordia U
Postes auxiliaires
2009/4 - … Professeur adjoint, Chemical & Biological Engineering Department,
University of Saskatchewan
2017-2020 Professeur adjoint, Département
de génie chimique, Université Laval
Comités de pairs et comités consultatifs
1997 -
2001 Expert canadien en gazéification à
l'Agence internationale de l'énergie (Gasification Task).
2006
- … Évaluateur externe
des subventions à la découverte et RTI du CRSNG
2010
– 2013 Directeur des prix du
conseil d'administration du CSChE, 2013-2015.
2014 - … Évaluateur externe des
subventions MITACS
2012 - … Évaluateur externe des subventions
CRSNG/RDC
2020 - … Évaluateur externe dans le
domaine Chimie/Catalyse – Captage du CO2
2007-2009 Membre du comité des subventions
stratégiques du CRSNG; Systèmes énergétiques stratégiques
2012/11 Membre du comité
d'évaluation externe (2 membres) du Western Engineering Strategic Academic Plan
2001 -
2003 Membre du comité de l'UdeS pour la mise en place du programme de génie
biotechnologique
2007 Évaluateur externe pour
le développement technologique de la République de Croatie.
2007 –
2009 Évaluateur externe pour
le financement de la recherche nationale du Qatar, la Fondation nationale pour
la science, l'enseignement supérieur.
2009 –
2010 : Évaluateur externe pour
la CEA (Commission de l’énergie atomique) – France.
2011 Évaluateur externe pour
le programme d'aide à la recherche "Archimède" et
"Thalis" ; Ministre de l'éducation, responsable de
l'enseignement supérieur, de la recherche et de la technologie, Grèce.
2000-2020 Nombreuses participations en
tant que membre externe à d'autres institutions Renouvellements de chaires,
promotions, pré-docs et évaluations de thèses.
Collaborations et activités industrielles
1999 Co-fondateur de la
spin-off de l’UdeS Enerkem
Technologies Inc.
2008
- … Chaire Pfizer en
Technologies de Procédés et Analytiques / Génie pharmaceutique
2013
- 2017 Leader du thème
Conversion thermique dans le réseau de centres d'excellence BioFuelNet
2008
– 2012 Leader du thème
Prétraitement des combustibles dans le réseau d'excellence SOFC Canada
2017 - … Collaboration avec KWI Polymers et Soleno à l’intérieur d’un
projet de mise à l’échelle co-financé par CRD/PRIMA Québec pour la production de
nanocarbones provenant de flux de plastiques
résiduels (déchets)
2018 - … Collaboration avec Rio
Tinto Fer et Titane à l’intérieur de deux projets consécutifs financés par
FRQNT et PRIMA Québec pour la mise à l’échelle d’un nouveau catalyseur de
reformage en instance de brevet
2010 - … Services d’expert consultant
dans les questions juridiques impliquant des entreprises pétrochimiques
1999/5 -
2002/5 Vice-président, technologie, Enerkem Technologies Inc., Sherbrooke, QC
1995/3 -
1999/5 Directeur technique, Kemestrie Inc., Sherbrooke, QC
1992/2 -
1994/12 Directeur technique, Environmental Protection Engineering Ltd, Piraeus, Greece
1991/6 –
1992/2 Consultant du secteur
institutionnel et privé, Grèce
1990/12 -
1991/6 Service militaire, Infanterie, Grèce
Gestion
d’événements scientifiques
2004: Membre
du comité directeur de la conférence internationale: Science in Thermal and
Chemical Biomass Conversion, Victoria Conference Center and Fairmont Hotel,
Victoria, Vancouver Island, BC, Canada.
2004: Membre
du comité scientifique du 2nd World Biomass Conference and Technology
Exhibition for Energy, Industry and Climate Protection, Rome, Italy.
2006: Trésorier
et membre du comité organisateur de la 56e Conférence canadienne de
génie chimique, Sherbrooke (Québec), Canada, 15-18 Octobre, 2006.
2009 -
2010: Co-organisateur avec Prof. Bernard Bataille des deux colloques Udes-UMontpellier sur les Science et Technologie des
Poudres & Matériaux Frittés, Sherbrooke (QC) et Montpellier (France).
2012: Membre
du comité scientifique du 20th EU Biomass
Conf. & Exhibition, Milan, Italy.
2012:
Membre du comité scientifique des Journées Francophones sur les Réacteurs
Gaz-Liquide et Gaz-Liquide-Solide, GLS-F6, 08-11 May 2012, Marrakech, Morocco.
2015: Co-organisateur
du PacifiChem 2015 Symposium on Advanced Nanocatalysis: Synthesis, Development and Applications for
Environmentally Friendly Fuel and Chemical Production.
2015-2020:
Organisateur des sessions particules du forum annuel de l'IFPAC ; le plus
important au monde dans le domaine de l'analyse et du contrôle des processus en
R&D et dans l'industrie pharmaceutique.
2020:
Président technique du Canadian Catalysis Symposium,
Vancouver, CA (reporté en 2022).
2020:
Co-organisateur du colloque de génie pharmaceutique de l’ACFAS 2020 (reporté en
2021).
2020: Co-organisateur
du PacifiChem 2015 Symposium on Advanced Nanocatalysis: Synthesis, Development and Applications for
Environmentally Friendly Fuel and Chemical Production (reporté
en 2021).
2022:
Président du programme techniquedu 26th
Canadian Catalysis Symposium, Vancouver
2024:
Président élu du 27e Symposium canadien de catalyse, Sherbrooke.
Adhésion à
des associations scientifiques
2013 –
2016: Membre de Conseil
d'administration de l'ISPE ; Comité de l'éducation
2015 - … Membre de l'Académie
canadienne du génie
1999 - … Membre de la Société canadienne
de génie chimique
2010 - … Membre de l’American Institute of
Chemical Engineering
2002 - … Membre de l’Association canadienne
française pour l’avancement des sciences (ACFAS)
1.
Évaluateur régulier des revues scientifiques
suivantes (ordre alphabétique): AIChE Journal; ACS
Omega; Advanced Powder Technology; Applied Catalysis A; Applied Catalysis B:
Environmental; Applied Energy; Biomass & Biofuels; Canadian Journal of
Chemical Engineering; Carbon; ; Catalysts; Catalysis Today; Chemical Engineering Science; Energy Science;
Education for Chemical Engineers; Energy Conversion and Management; Fuel; Fuel
Processing Technology; International Journal of Hydrogen Energy; International
Journal of Pharmaceutics; Materials Letters; Nanomaterials; Pharmaceutics; Powder
technology; Processes; Separations Science & Technology; Surface and
Coatings Technology.
2.
Éditeur pour: Catalysts;
Catalysis Today
2017/1 -
2019/12 Valorisation d’un résidu minier
UGSO en une nouvelle famille de catalyseurs
FRQNT
& Rio-Tinto Fer et Titane
345 000$
2017/1 -
2022/1 Synthèse de nanofilaments de
carbone à partir de polymères recyclés - Scaleup
NSERC/CRD,
PRIMA-Québec, KWI Polymers, Soleno,
UdeS
1 200 000$ in cash; 300 000 in kind;
1 200 000 (new UdeS building)
Nicolas Abatzoglou*
& François Gitzhofer (collaborator)
2018/4 - 2023/3 Study
of particulate systems -powders and granules- in reactive and non-reactive
environments
NSERC/Discovery
240 000$
2018/9 –
2023/9 Compréhension, modélisation et
optimisation de procédés de production pharmaceutique impliquant des solides
divisés
NSERC/CRD and Pfizer Canada
970 666
$
2018/3 – 2021/4 Pfizer
Chair on Processes & Analytical Technologies in Pharmaceutical Engineering
Pfizer
Canada
952 009
$
2020/7 –
2022/7 Valorisation d'un résidu minier
(UGSO) en un nouveau catalyseur (Ni-UGSO) pour une production d'hydrogène à
faible GES
FRQNT
& Rio-Tinto Fer et Titane
430 000$
2021/7 – 2025/7 GOLD - Bridging the gap between phytoremediation solutions on
Growing energy crOps on contaminated LanDs
and
clean biofuel production
HORIZON
2020
600 000$
2021/7– 2025/7 FRFN linked with HORIZON 2020
200 000$
2022/2 – 2024/2 Production d'hydrogène industriel sans GES (PHIG)
AXELYS
with Prof. F. Gitzhofer and I. E. Achouri
1 007 495$
2022/4
– 2024/2 Production d'hydrogène
industriel sans GES (PHIG)
INNOV-2B; related to the AXELYS with Prof. F. Gitzhofer
and I. E. Achouri
360 000$
Nombre
total d’étudiants : 28 au 1er cycle; 13 maîtrises; 23 doctorats (8 en cours)
Nombre
total de boursiers post-doctoraux : 8
Nombre d’étudiants
à la maîtrise et au doctorat comme directeur principal : 4 maîtrises + 16 doctorats
Nombre d’étudiants
à la maîtrise et au doctorat comme co-directeur : 9 maîtrises + 7 doctorats
Karine De
Oliveira Vigier Professeure
et chef du département de chimie, Université de Poitiers, France
Clémence Fauteux-Lefebvre Bourse post-doctorale
Vanier Canada
Professeure
assistante au Département de génie chimique et biologique, Université d’Ottawa.
Inès Esma Achouri Bourse
post-doctorale Vanier Canada
Professeure
assistante au Département de génie chimique et de génie biotechnologique,
Université de Sherbrooke
1.
N. Abatzoglou*
and M. Chamoumi, Process For Producing Catalysts From
Metallurgical Tailings And Catalysts Produced Therefrom, PCT CA 2016 050844,
2016-09-21.
2.
N.
Abatzoglou*, F. Gitzhofer, D. Gravelle, J. Blanchard, K. DeOliveira-Vigier,
H. Oudghiri-Hassani, H. Gauvin, Carbon Sequestration
and Dry Reforming Process Catalysts to produce same, USA Patent No 7,794,690
B2, Sep. 14, 2010.
3.
N. Abatzoglou*
and C. Fauteux-Lefebvre, Metal-Functionalized Carbon Nanofilaments And Process For Removing Sulfur From Gaseous Fuels, Provisional Patent
USPTO, Appl. No 61894033, 2013-10-22.
1. As technical director of Kemestrie Inc., a technology holding company founded in
Sherbrooke in 1995, I have developed a new waste gasification technology which
gave birth to the new spin-off entity, Enerkem Technologies Inc., the precursor
of Enerkem Inc. The latter is a well-established Canadian leader in the field
of renewable liquid fuels production from residual streams.
2. Two of my recent patents
plus one from previous years research activities have attracted the interest of
the companies KWI and Soleno. Their motivation arises
from the possibility of converting zero-value plastic resides into carbon
nanofilaments and use of the latter as a plus-value additive in new
thermoplastic and thermoset polymers. An 1.5MM$
project to make the proof of concept at pilot/demonstration scale is underway
with the participation of NSERC, Prima Québec and the two companies. The UdeS built
a new 1.2MM$ worth, 300 m2, facility. This scale-up project was
triggered by the need to demonstrate the technical feasibility at kg-scale
prior to final investment at an industrial unit.
3. Based on the Ni-based spinels patents and the possibility to use a zero-value
mining residue, the Rio-Tinto Iron and Titane company
has been interested in proving the feasibility of producing this catalytic
formulation and using it as an industrial H2-production catalysts
through NG Steam, Dry or Mixed reforming as well as though partial oxidation.
The scale-up endeavour is being funded by FR-QNT and the company and the pilot
scale 20-atm reformer and catalyst production facility at kg-lab scale is at
the final detailed engineering step and will be built and installed in the UdeS
facility mentioned herein above.
4. The research activities of our Pfizer Industrial Chair team has produced a significant number of successful Process
Analytical Technology tools; these tools are both general and specific to some
industrial processes in the pharmaceutical production chains. Particulate
mixtures blending and gravity flows through feed frames in tablet presses are
examples of such specific applications. Pfizer PASG team integrates these
technologies at various productions sites within Pfizer.
Étudiants en gras et auteurs correspondants avec*
158. A. Ly, I. E. Achouri, R. Gosselin and N. Abatzoglou*, Sequential
Fixed-Fluidized Bed Foam Granulation (SFFBFG) and Drying: Multivariate Model
Development for Water Content Monitoring with Near–Infrared Spectroscopy,
Chemical Engineering Science, in press, July 2022.
157. Y. Zhang and N. Abatzoglou*, Modelling of continuous drying
of heat-sensitive pharmaceutical granules in a horizontal fluidised bed dryer
combined with a screw conveyor at steady state, Chemical Engineering Science,
Vol 255, 2022, 117678.
156. G. Robert, H. Dalvi, F. B. Lavoie, Nicolas Abatzoglou &
R. Gosselin*, Pharmaceutical tablet compression: measuring temporal and radial
concentration profiles to better assess segregation, Pharmaceutical Development
and Technology, DOI:10.1080/10837450.2022.2078348.154.
155. S. Belbessai, A. Azara and N. Abatzoglou*, Recent Advances
in the Decontamination and Upgrading of Waste Plastic Pyrolysis Products: An
Overview, Processes, 2022, 10, 733, doi.org/10.3390/pr10040733.
154. W. Roy, I. E. Achouri*, S. Hudon, J.-S. Simard and N.
Abatzoglou*, A continuous conical-mill operation for dry coating of
pharmaceutical powders: the role of processing time, Processes, 2022, Vol10,
540, doi.org_10.3390_pr10030540.
153. K. Koumbogle, F. Gitzhofer and N. Abatzoglou. (2021).
Moisture transport coefficients determination on a model pharmaceutical tablet.
Processes, 2022, 10, 254, doi.org/.10.3390/pr10020254.
152. A. Azara; S. Belbessai and N. Abatzoglou*, A review of
filamentous carbon nanomaterial synthesis via catalytic conversion of waste
plastic pyrolysis products, Journal of Environmental Chemical Engineering,
https://doi.org/10.1016/j.jece.2021.107049. 10(1): 1-25.
151. I. E. Achouri, J. Chaouki and N. Abatzoglou*, Methods of coating
ceramic supports with carbon and
Ni-based catalytically active formulations, 2022, Canadian Journal of
Chemical Engineering, Vol. 100, 112-120.
150. Y. Zhang, N. Abatzoglou*, S. Hudon, P.-Ph. Lapointe-Garant
and J.-S. Simard, Dynamics of heat-sensitive pharmaceutical granules dried in a
horizontal fluidized bed combined with a screw conveyor, Chemical Engineering
& Processing: Process Intensification 167 (2021) 108516.
149. A. Ly, I. E. Achouri, R. Gosselin and N. Abatzoglou*, Wet
granulation end-point prediction using dimensionless numbers in a mixer torque
rheometer: relationship between capillary and Weber numbers and the optimal wet
mass consistency, International Journal of Pharmaceutics, DOI:10.1016/j.ijpharm.2021.120823.
148. M. Irfan Malik; N. Abatzoglou and I. E. Achouri, Methanol to
formaldehyde: An overview of surface studies and performance of an iron
molybdate catalyst. Catalysts DOI: 10.3390/catal11080893. 11(8): 893 (1-24),
2021.
147. Z. Teimouri, N. Abatzoglou and A. K. Dalai*, Kinetics and
Selectivity Study of Fischer Tropsch Synthesis to C5+
Hydrocarbons: A Review. Catalysts. 11(330), 2021.
146. F. Gitzhofer*, J. Aluha, P.-O. Langlois, F. Barandehfard, T.
Ntho and N. Abatzoglou, Proven anti-wetting properties of molybdenum in
high-temperature corrosion resistance tests with potential application in
aluminium industry, Materials 2021, 14(18), 5355;
https://doi.org/10.3390/ma14185355.
145. M. Chamoumi and N. Abatzoglou*, Towards a new generation of
catalysts based on a negative value mining residue (UGSO) support: Application
of Ni-UGSO in mixed methane reforming, submitted CJCE, Aug. 2020.
144. O. Chaib,
I. E. Achouri, R. Gosselin and N. Abatzoglou*, Gravity mass powder flow through
conical hoppers Part I: A mathematical model predicting the radial velocity
profiles of free-flowing granular systems as a function of cohesion and
adhesion properties, Canadian Journal of Chemical Engineering, First published:
02 February 2021 https://doi.org/10.1002/cjce.24060.
143. O. Chaib,
I. E. Achouri, R. Gosselin and N. Abatzoglou*, Gravity mass powder flow through
conical hoppers Part II: A mathematical model predicting the axial and radial
profiles of normal stresses from flow velocity measurements, Canadian Journal
of Chemical Engineering, First published: 02 February 2021 https://doi.org/10.1002/cjce.24058.
142. A. Azara, El Hadi
Benyoussef, F. Mohellebi, F. Gitzhofer, N. Abatzoglou*, Catalytic dry reforming
and cracking of ethylene for carbon nanofilaments and hydrogen production,
using a catalyst derived from a mining residue, 2020, https://doi.org/10.1016/j.cattod.2020.07.087.
141. A. Ly,
I. E. Achouri, R. Gosselin and N. Abatzoglou*, Rheological behavior of porous
pharmaceutical materials: linking torque profiles during wet massing to water
diffusion coefficients and penetration time, Chemical Engineering and
Processing - Process Intensification, Volume 157, November 2020, https://doi.org/10.1016/j.cep.2020.108152.
140. I. E. Achouri*, A. Rhoden, S. Hudon, R. Gosselin,
J.-S. Simard and N. Abatzoglou, Non-invasive sensing technologies applicable
for pharmaceutical lyophilized products: a review, Talanta,
https://doi.org/10.1016/j.talanta.2020.121885.
139. S.
Belbessai, I. E. Achouri, El
Hadi Benyoussef, F. Gitzhofer and N. Abatzoglou*, Toluene Steam Reforming Using
Nickel Based Catalysts Made from Mining Residues, CATTOD, https://doi.org/10.1016/j.cattod.2020.07.087.
138. Y. Zhang
and N. Abatzoglou*, Review: fundamentals, applications and potentials of
ultrasound-assisted drying, Chem. Eng. Res. & Design, 154, 2020, pp. 21-46.
137. I. A. A. Mezian, N. Bali,
N.-B. Belblidi, N. Abatzoglou, and El-Hadi Benyoussef*, The first-order
model in the simulation of essential oil extraction kinetics, Journal of
Applied Research on Medicinal and Aromatic Plants, 15, 2019, https://doi.org/10.1016/j.jarmap.2019.100226
136. A. Azara,
El-Hadi Benyoussef, F. Mohellebi, M.
Chamoumi, F. Gitzhofer and N. Abatzoglou*, Catalytic Dry Reforming and
Cracking of Ethylene for Carbon Nanofilaments and Hydrogen Production Using a
Catalyst Derived from a Mining Residue, Catalysts 2019, 9,
doi:10.3390/catal9121069.
135. F. B. Dega,
M. Chamoumi, N. Braidy and N. Abatzoglou*, Corrigendum to ‘Autothermal dry
reforming of methane with a nickel spinellized
catalyst prepared from a negative value metallurgical residue’, Renewable
Energy, 147, part 1, 2020, p. 2526.
134. Ch. Gillium, M. Friciu, N. Abatzoglou* and G. Leclair*, Validation of a
stability-indicating HPLC-UV method for the quantification of acetazolamide in
Oral-Mix and Oral-Mix SF, MethodsX, Vol. 7, 2020, https://doi.org/10.1016/j.mex.2020.100844.
133. F. B. Dega and N.
Abatzoglou*, H2S poisoning and regeneration of a nickel spinellized catalyst prepared from waste metallurgical
residues, during dry autothermal methane reforming, Catalysis Letters, Vol.
149, No 6, ISSN 1011-372X, June 2019.
132. F. B. Dega, M. Chamoumi,
N. Braidy and N. Abatzoglou*, Autothermal dry reforming of methane with a
nickel spinellized catalyst prepared from a negative
value metallurgical residue, Renewable Energy, Vol. 138, pp. 1239-1249, 2019.
131. H. Dalvi, A. Langlet,
M.-J. Colbert, A. Cournoyer, J.-M. Guay, N. Abatzoglou* and Ryan Gosselin*,
In-line monitoring of Ibuprofen during and after tablet compression using
Near-Infrared spectroscopy, Talanta, Vol. 195, pp.
87-96, 2019.
130. James
Aluha, Sonia Blais and Nicolas Abatzoglou*, Phase quantification of carbon
support by X-ray Photoelectron Spectroscopy (XPS) in plasma-synthesized
Fischer-Tropsch nanocatalysts,
Catalysis Letters, 148, 2149-2161, 2018, DOI 10.1007/s10562-018-2428-y.
129. E. Vachon-Lachance, N. Abatzoglou*, R.
Gosselin, C. Duchesne and A. Cournoyer, Potassium chloride caking tendency: a
parametric study of cake break energy, Advanced Powder Technology, 29(9):
2140-2152, 2018, DOI: 10.1016/j.apt.2018.05.022.
128. H.
Dalvi, Clémence Fauteux-Lefebvre, J.-M. Guay, N. Abatzoglou* and R.
Gosselin*, Concentration monitoring with near infrared chemical imaging in a
tableting press, Journal of Spectral Imaging, 2018, doi:
10.1255/jsi.2018.a5. 7(a5): 1-18.
127. C. Fauteux-Lefebvre, P. Durão,
J.-M. Guay, J.-S. Simard and N. Abatzoglou, R. Gosselin*, Specificity of
Process Analytical Tools in the monitoring of multicomponent pharmaceutical
powders, Pharmaceutical Development & Technology, Volume 24, Issue 3, pp.
380-389, 2018, DOI: 10.1080/10837450.2018.1492617.
126. A. Bali, J. Blanchard,
M. Chamoumi and N. Abatzoglou*, Bio-Oil Steam Reforming over a Mining Residue
Functionalized with Ni as Catalyst: Ni-UGSO, Catalysts, Vol. 8, No 1, p. 24,
Dec. 2018, DOI:10.3390/catal8010001.
125. A. Ali*, R. Henda, J. Aluha and N. Abatzoglou, Co-Doped ZnO Thin Films Grown by Pulsed Electron Beam Ablation as
Model Nano-Catalysts in Fischer-Tropsch Synthesis, AIChE Journal, Vol. 64, No. 9, pp. 3332-3340, Sept. 2018,
DOI 10.1002/aic.16177.
124. S. Hudon, P.-Ph.
Lapointe-Garant, J.-S. Simard, A. Pichieri, S. Hammond, G. Sienkiewicz, N.
Abatzoglou* and M. Perrier, Evaluation of a dry coating technology as a
substitute for roller compaction for dry agglomeration applications in the
pharmaceutical industry, J. of Pharm. Innovation, 2018,
DOI:10.1007/s12247-018-9353-x.
123. J. Aluha and N.
Abatzoglou*, Activation and Deactivation Scenarios in a Plasma-Synthesized Co/C
Catalyst for Fischer-Tropsch Synthesis, The Can. J.
of Chem. Eng., 2018, DOI: 10.1002/cjce.23259.
122. J. Aluha, F. Gitzhofer
and N. Abatzoglou*, Application of Plasma Technology in Fischer-Tropsch Catalysis for the Production of
Synthetic Fuels, Recent Adv Petrochem Sci 2018, Vol. 5, Issue 2, p. 1-11, DOI:
10.19080/RAPSCI.2018.05.555657.
121. J. Aluha, S. Gutierrez,
F. Gitzhofer and N. Abatzoglou*, Use of Plasma-Synthesized Nano-Catalysts for
CO Hydrogenation in Low-Temperature Fischer–Tropsch
Synthesis: Effect of Catalyst Pre-Treatment, Nanomaterials, Vol. 8, No 822:
1-31, 2018, DOI:10.3390/nano8100822.
120. K. Yekpe, N.
Abatzoglou*, B. Bataille, R. Gosselin, T. Sharkawi, J.-S. Simard, A. Cournoyer,
Developing a Quality by Design Approach to Model Tablet Dissolution Testing: an
Industrial Case Study, Pharmaceutical Development and Technology, 2017,
Available on-line, http://dx.doi.org/10.1080/10837450.2017.1392566.
119. O. Ali Zadeh Sahraei, F. Larachi, N. Abatzoglou* and Maria C.
Iliuta*, Hydrogen production by glycerol steam reforming catalyzed by
Ni-promoted Fe/Mg-bearing metallurgical wastes, Applied Catalysis B:
Environmental 219 (2017) 183–193.
118. V. Vosoughi, S. Badoga,
A. K. Dalai* and N. Abatzoglou, Modification of mesoporous alumina as a support
for cobalt-based catalyst in Fischer-Tropsch
Synthesis, Fuel Proc. Tech, Vol. 162, issue 1-2, pp. 55-65 2017.
117 J. Aluha
and N. Abatzoglou*, Gold-promoted plasma-synthesized Ni-Co-Fe/C
catalyst for Fischer-Tropsch synthesis, Gold
Bulletin, Gold Bulletin, 50(2), 147-162, 2017.
116. M.
Chamoumi, N. Abatzoglou*, J.
Blanchard, M.-C. Iliuta and F. Larachi, Dry reforming of methane with a new
catalyst derived from a negative value mining residue spinellized
with nickel, CATTOD, Vol. 291, 2017, pp. 86-98, DOI:
10.1016/j.cattod.2017.02.018.
115. N. Braidy∗, S.
Bastien, J. Blanchard, C.
Fauteux-Lefebvre, I. E. Achouri,
N. Abatzoglou, Activation mechanism and microstructural evolution of a
YSZ/Ni-alumina catalyst for dry reforming of methane, CATTOD, http://dx.doi.org/10.1016/j.cattod.2017.03.006, February
2017.
114. J. Aluha and N.
Abatzoglou*, Promotional effect of Mo and Ni in plasma-synthesized
Co–Fe/C bimetallic nano-catalysts for Fischer–Tropsch synthesis, J. Ind. Eng. Chem. (2017), dx.doi.org/10.1016/j.jiec.2017.02.018
113. J. Aluha,
Y. Hu and N. Abatzoglou*, Effect of CO Concentration on the α-Value of
Plasma-Synthesized Co/C Catalyst in Fischer-Tropsch
Synthesis, Calalysts, Vol. 7, No 69; 2017,
doi:10.3390/catal7020069.
112. P. Durão, C.
Fauteux-Lefebvre, J.-M. Guay, J.-S. Simard, N. Abatzoglou, and R. Gosselin*,
Using multiple Process Analytical Technology probes to monitor multivitamin
blends in a tableting feed frame, Talanta, Vo. 164,
2017, pp. 7-15.
111. J. Aluha,
K. Béré, N. Abatzoglou, and F. Gitzhofer*,
Application of plasma in production of nano-catalysts
for Fischer-Tropsch synthesis. J. of Plasma Chem. and
Plasma Proc., Vol. 36, 2016, pp. 1325–1348.
110. M.
Chamoumi and N. Abatzoglou∗, NiFe2O4 production
from α-Fe2O3 via an improved solid
state reaction and its use as a dry reforming catalyst, Can. J. of Chem.
Eng., 2016, Vol. 94, Issue 9, pp. 1801–1808.
109. J. Aluha
and N. Abatzoglou∗, Synthetic fuels from 3-φ Fischer-Tropsch synthesis using syngas feed and novel nanometric
catalysts synthesised by plasma, Biomass & Bioenergy, Available online, 19
May 2016, http://dx.doi.org/10.1016/j.biombioe.2016.09.014.
108. J. Aluha,
N. Braidy, A. Dalai and N. Abatzoglou*, Low-temperature Fischer-Tropsch synthesis using plasma-synthesized nanometric Co/C
and Fe/C catalysts, Can. J. of Chem. Eng., Online: 13 May 2016, DOI:
10.1002/cjce.22537.
107. C. Trevisanut, S. M. Jazayeri, S. Bonkane, C. Neagoe, Ali Mohamadalizadeha, D.
C. Boffito, C. L. Bianchi, C. Pirola,
L. Frost, J. Lerou, C. G. Visconti, L. Lietti, N. Abatzoglou, W. Green, G. S. Patience*,
Micro-Syngas Technology options for GtL, Can. J. of
Chem. Eng., Vol. 94, pp. 613-622, April 2016.
Chapitres de livres et
travail éditorial
8. Pharmaceutical Blending and Mixing,
Editors of Book: P. J. Cullen, R. Romañach, N. Abatzoglou* and Ch. D. Rielly, Wiley, ISBN: 978-0-470-71055-5, July 2015. Also N.
Abatzoglou, author of Chapter 15.
7. N. Abatzoglou, C. Fauteux-Lefebvre
& N. Braidy, Biodiesel reforming with a NiAl2O4/Al2O3-YSZ catalyst for the production of renewable SOFC fuel, WIT Transactions
on Ecology and the Environment, Vol. 143, WIT press, 2011, ISSN 1743-3541.
6. J. Jurewicz and N. Abatzoglou, Gasified
residual/waste biomass as SOFC feed for renewable electricity production, Waste
to Energy, WIT Press, Edit. S. Syngellakis, 2015, pp.
171-183, ISBN 978-1-78466-060-4.
5. S. David and N. Abatzoglou, A review of
the bioenergy potential of residual materials in Quebec, Waste to Energy, WIT
Press, Edit. S. Syngellakis, 2015, pp. 193-205, ISBN
978-1-78466-060-4.
Une douzaine d'invités, keynotes et plénières et plus de 250 présentations orales de moi-même et de mes étudiants et collaborateurs.