Roman PECZALSKI

Professeur

  • Procédés d'Elaboration du Solide

Génie des procédés, Procédés thermiques du solide (séchage convectif, séchage par contact, congélation, lyophilisation, cuisson), Transferts couplés matière/chaleur


Bureau 1 Université Lyon 1, Laboratoire LAGEP UMR 5007 CNRS/ESCPE/UCBL Domaine de la Doua, Bât. CPE, 3, rue Victor Grignard G218 Villeurbanne 69616 France

Bureau 2 Université Lyon 1 Institut Universitaire de Technologie Dép. Génie Industriel et Maintenance, 17 rue de France Villeurbanne 69627 France

Fax bureau 1: 04 72 43 16 99Téléphone bureau 1: 04 72 43 18 43Téléphone bureau 2: 04 72 65 53 41

Bio

Position: Full professor at the University Lyon 1, France;
Affiliation: Laboratory of Process Control and Engineering, La Doua Campus, CPE Bldg, 69616 Villeurbanne;
Research field: thermal processing of solids, especially drying and freezing (hot air drying of vegetables, vacuum contact drying of pharmaceuticals, micro-wave assisted drying of ceramics, ultrasound assisted freezing of solutions);
Research aim: Process intensification by modeling and simulation with particular emphasis on modeling of heat and mass transfer within the wet product.

Theoretical model of ice nucleation induced by inertial acoustic cavitation. Part 2: Number of ice nuclei generated by a single bubble

date:2016
références bibliographiques:

COGNE, Claudia, Stéphane LABOURET, Roman PECZALSKI, O. Louisnard, F. Baillon, and F. Espitalier. “Theoretical Model of Ice Nucleation Induced by Inertial Acoustic Cavitation. Part 2: Number of Ice Nuclei Generated by a Single Bubble.” 28 (2016): 185–91. https://doi.org/10.1016/j.ultsonch.2015.07.019.
Pages:185-191

Ultrasonics Sonochemistry

 

Theoretical model of ice nucleation induced by acoustic cavitation. Part 1: Pressure and temperature profiles around a single bubble

date:2016
références bibliographiques:

COGNE, Claudia, Stéphane LABOURET, Roman PECZALSKI, O. Louisnard, F. Baillon, and F. Espitalier. “Theoretical Model of Ice Nucleation Induced by Acoustic Cavitation. Part 1: Pressure and Temperature Profiles around a Single Bubble.” 29 (2016): 447–54. https://doi.org/10.1016/j.ultsonch.2015.05.038.
Pages:447-454

Ultrasonics Sonochemistry

 

Theoretical model of ice nucleation induced by acoustic cavitation. Part 1: Pressure and temperature profiles around a single bubble

date:2016
références bibliographiques:

COGNE, Claudia, Stéphane LABOURET, Roman PECZALSKI, O. Louisnard, F. Baillon, and F. Espitalier. “Theoretical Model of Ice Nucleation Induced by Acoustic Cavitation. Part 1: Pressure and Temperature Profiles around a Single Bubble.” 29 (2016): 447–54. https://doi.org/10.1016/j.ultsonch.2015.05.038.
Pages:447-454

Ultrasonics Sonochemistry

 

Theoretical model of ice nucleation induced by inertial acoustic cavitation. Part 2: Number of ice nuclei generated by a single bubble

date:2016
références bibliographiques:

COGNE, Claudia, Stéphane LABOURET, Roman PECZALSKI, O. Louisnard, F. Baillon, and F. Espitalier. “Theoretical Model of Ice Nucleation Induced by Inertial Acoustic Cavitation. Part 2: Number of Ice Nuclei Generated by a Single Bubble.” 28 (2016): 185–91. https://doi.org/10.1016/j.ultsonch.2015.07.019.
Pages:185-191

Ultrasonics Sonochemistry

 

On-line monitoring of vacuum drying of theophylline using NIR spectroscopy: solid-state transitions, water content and semi-empirical modeling

date:2016
références bibliographiques:

Amira, Touil, Roman PECZALSKI, and Zagrouba Fethi. “On-Line Monitoring of Vacuum Drying of Theophylline Using NIR Spectroscopy: Solid-State Transitions, Water Content and Semi-Empirical Modeling.” 42, no. 11 (2016): 1825–32. https://doi.org/10.1080/03639045.2016.1178768.
Pages:1825-1832

Drug Development and Industrial Pharmacy

 

Prediction of the acoustic and bubble fields in insonified freeze-drying vials

date:2015
références bibliographiques:

Louisnard, O., Claudia COGNE, Stéphane LABOURET, W. Montes-Quiroz, Roman PECZALSKI, F. Baillon, and F. Espitalier. “Prediction of the Acoustic and Bubble Fields in Insonified Freeze-Drying Vials.” 26 (2015): 186–92. https://doi.org/10.1016/j.ultsonch.2015.03.008.
Pages:186-192

Ultrasonics Sonochemistry

 

Influence of Operating Conditions on the Freeze-Drying of Frozen Particles in a Fixed Bed and Modeling Data

date:2015
références bibliographiques:

Chitu, T., Séverine CRASTES-VESSOT, Roman PECZALSKI, Julien ANDRIEU, B. Woinet, and A. Francon. “Influence of Operating Conditions on the Freeze-Drying of Frozen Particles in a Fixed Bed and Modeling Data.” 33, no. 15–16 (2015): 1892–98. https://doi.org/10.1080/07373937.2015.1066386.
Pages:1892-1898

Drying Technology

 

Prediction of the acoustic and bubble fields in insonified freeze-drying vials

date:2015
références bibliographiques:

Louisnard, O., Claudia COGNE, Stéphane LABOURET, W. Montes-Quiroz, Roman PECZALSKI, F. Baillon, and F. Espitalier. “Prediction of the Acoustic and Bubble Fields in Insonified Freeze-Drying Vials.” 26 (2015): 186–92. https://doi.org/10.1016/j.ultsonch.2015.03.008.
Pages:186-192

Ultrasonics Sonochemistry

 

Influence of Operating Conditions on the Freeze-Drying of Frozen Particles in a Fixed Bed and Modeling Data

date:2015
références bibliographiques:

Chitu, T., Séverine CRASTES-VESSOT, Roman PECZALSKI, Julien ANDRIEU, B. Woinet, and A. Francon. “Influence of Operating Conditions on the Freeze-Drying of Frozen Particles in a Fixed Bed and Modeling Data.” 33, no. 15–16 (2015): 1892–98. https://doi.org/10.1080/07373937.2015.1066386.
Pages:1892-1898

Drying Technology

 

Drying of granular medium by hot air and microwaves. Modeling and prediction of internal gas pressure and binder distribution

date:2015
références bibliographiques:

Hassini, Lamine, Roman PECZALSKI, and Jean-Louis Gelet. “Drying of Granular Medium by Hot Air and Microwaves. Modeling and Prediction of Internal Gas Pressure and Binder Distribution.” 286 (2015): 636–44. https://doi.org/10.1016/j.powtec.2015.09.009.
Pages:636-644

Powder Technology

 

Cumulative Effect of Pressing and Drying on Stress Generation within a Green Ceramic Compact

date:2014
références bibliographiques:

Vidal-Sallé, E., D. Falgon, Roman Peczalski, and J-C. Boyer. “Cumulative Effect of Pressing and Drying on Stress Generation within a Green Ceramic Compact.” 2014 (2014): 1–9. https://doi.org/10.1155/2014/674782.
Pages:1-9

Journal of Powder Technology

 

Ultrasonically triggered freezing of aqueous solutions: Influence of initial oxygen content on ice crystals׳ size distribution

date:2014
références bibliographiques:

Jabbari-Hichri, Amira, Roman Peczalski, and Pierre Laurent. “Ultrasonically Triggered Freezing of Aqueous Solutions: Influence of Initial Oxygen Content on Ice Crystals׳ Size Distribution.” 402 (2014): 78–82. https://doi.org/10.1016/j.jcrysgro.2014.05.010.
Pages:78-82

Journal of Crystal Growth

 

Cumulative Effect of Pressing and Drying on Stress Generation within a Green Ceramic Compact

date:2014
références bibliographiques:

Vidal-Sallé, E., D. Falgon, Roman Peczalski, and J-C. Boyer. “Cumulative Effect of Pressing and Drying on Stress Generation within a Green Ceramic Compact.” 2014 (2014): 1–9. https://doi.org/10.1155/2014/674782.
Pages:1-9

Journal of Powder Technology

 

Combined Convective and Microwave Drying of Agglomerated Sand: Internal Transfer Modeling with the Gas Pressure Effect

date:2013
références bibliographiques:

Hassini, Lamine, Roman Peczalski, and Jean-Louis Gelet. “Combined Convective and Microwave Drying of Agglomerated Sand: Internal Transfer Modeling with the Gas Pressure Effect.” 31, no. 8 (2013): 898–904. https://doi.org/10.1080/07373937.2012.724489.
Pages:898-904

Drying Technology

 

Influence of Air Temperature and Humidity on Dehydration Equilibria and Kinetics of Theophylline

date:2013
références bibliographiques:

Touil, Amira, Roman Peczalski, Souad Timoumi, and Fethi Zagrouba. “Influence of Air Temperature and Humidity on Dehydration Equilibria and Kinetics of Theophylline.” 2013 (2013): 1–9. https://doi.org/10.1155/2013/892632.
Pages:1-9

Journal of Pharmaceutics

 

Monitoring of theophylline dehydration in a vacuum contact dryer by near-infrared spectroscopy

date:2013
références bibliographiques:

Touil, Amira, Roman Peczalski, and Fethi Zagrouba. “Monitoring of Theophylline Dehydration in a Vacuum Contact Dryer by Near-Infrared Spectroscopy.” 91, no. 6 (2013): 1063–70. https://doi.org/10.1016/j.cherd.2012.11.014.
Pages:1063-1070

Chemical Engineering Research and Design

 

Stability and thermophysical properties of azithromycin dihydrate

date:2010
références bibliographiques:

Timoumi, S., D. Mangin, R. Peczalski, F. Zagrouba, and J. Andrieu. “Stability and Thermophysical Properties of Azithromycin Dihydrate.” , 2010. doi:10.1016/j.arabjc.2010.10.024.

Arabian Journal of Chemistry

 

A theoretical model for ice primary nucleation induced by acoustic cavitation

date:2010
références bibliographiques:

Saclier, Mathieu, Roman Peczalski, and Julien Andrieu. “A Theoretical Model for Ice Primary Nucleation Induced by Acoustic Cavitation.” 17, no. 1 (2010): 98–105. doi:10.1016/j.ultsonch.2009.04.008.
Pages:98-105

Ultrasonics Sonochemistry

 

Effect of ultrasonically induced nucleation on ice crystals’ size and shape during freezing in vials

date:2010
références bibliographiques:

Saclier, Mathieu, Roman Peczalski, and Julien Andrieu. “Effect of Ultrasonically Induced Nucleation on Ice Crystals’ Size and Shape during Freezing in Vials.” 65, no. 10 (2010): 3064–71. doi:10.1016/j.ces.2010.01.035.
Pages:3064-3071

Chemical Engineering Science

 

Hydro-Thermo-Mechanical Model for Highly Deformable Product during Convective Drying

date:2009
références bibliographiques:

Hassini, Lamine, Roman Peczalski, Soufien Azzouz, and Ali Belghith. “Hydro-Thermo-Mechanical Model for Highly Deformable Product during Convective Drying.” 4, no. 1 (January 22, 2009). doi:10.2202/1934-2659.1258.

Chemical Product and Process Modeling