Denis MANGIN

Professeur

  • Procédés d'Elaboration du Solide

Cristallisation et précipitation industrielles, polymorphes, co-cristaux, agglomération, intensification et modélisation des procédés de cristallisation


Bureau 1 LAGEP Université Claude Bernard Lyon 1, bât 308G ESCPE-Lyon, 43 bd du 11 Novembre 1918 G227 Villeurbanne 69622 France

Bureau 2 IUT Lyon1, site de la Doua, Département de Génie Chimique Génie des Procédés

Téléphone bureau 2: 04 72 69 21 01Téléphone bureau 1: 04 72 43 18 51

Bio

Denis Mangin est professeur des Universités. Il effectue sa recherche au LAGEP et enseigne au Département Génie Chimique Génie des Procédés de l’IUT Lyon1. Il est diplômé de l’Ecole Nationale Supérieure des Industries Chimiques de Nancy (1984), a préparé la même année un DEA de Génie des Procédés de l’INP de Lorraine (1984) et a obtenu son Doctorat en Génie des Procédés à l’INP Grenoble en 1990 sur des travaux portant sur l’extraction liquide/liquide conduits au CEA. Denis Mangin exerce sa recherche au LAGEP depuis 1991 dans le domaine de la cristallisation industrielle autour de 3 axes principaux : (i) la maîtrise de la taille et des propriétés d’usage des particules (précipitation contrôlée, agglomération en suspension…), (ii) le contrôle de la formation de nouvelles phases cristallines (polymorphes, co-cristaux) et (iii) la cristallisation appliquée au génie de l’environnement (congélation sur paroi froide, intensification de la précipitation des phosphates…).

Removal of iron using an oxidation and ceramic microfiltration

date:2017
références bibliographiques:

Fakhfekh, Rahma, Elodie CHABANON, Denis MANGIN, and Catherine CHARCOSSET. “Removal of Iron Using an Oxidation and Ceramic Microfiltration.” 66 (2017): 210–20.
Pages:210-220

Dessalination and Water Treatment

 

Modeling the Competition between Polymorphic Phases: Highlights on the Effect of Ostwald Ripening

date:2016
références bibliographiques:

Tahri, Yousra, Z. Kozisek, Emilie GAGNIERE, Elodie CHABANON, Tijani Bounahmidi, and Denis MANGIN. “Modeling the Competition between Polymorphic Phases: Highlights on the Effect of Ostwald Ripening.” 16, no. 10 (2016): 5689–97. https://doi.org/10.1021/acs.cgd.6b00640.
Pages:5689-5697

Crystal Growth & Design

 

Determination of the Solid–Liquid Phase Diagram of the Binary System Propionic Acid/Water

date:2016
références bibliographiques:

Htira, Thouaïba, Claudia COGNE, Emilie GAGNIERE, and Denis MANGIN. “Determination of the Solid–Liquid Phase Diagram of the Binary System Propionic Acid/Water.” 61, no. 2 (2016): 806–12. https://doi.org/10.1021/acs.jced.5b00632.
Pages:806-812

Journal of Chemical & Engineering Data

 

Investigation of the l-Glutamic acid polymorphism: Comparison between stirred and stagnant conditions

date:2016
références bibliographiques:

Tahri, Yousra, Emilie GAGNIERE, Elodie CHABANON, Tijani Bounahmidi, and Denis MANGIN. “Investigation of the L-Glutamic Acid Polymorphism: Comparison between Stirred and Stagnant Conditions.” 435 (2016): 98–104. https://doi.org/10.1016/j.jcrysgro.2015.11.019.
Pages:98-104

Journal of Crystal Growth

 

Membranes and crystallization processes: State of the art and prospects

date:2016
références bibliographiques:

CHABANON, Elodie, Denis Mangin, and Catherine Charcosset. “Membranes and Crystallization Processes: State of the Art and Prospects.” 509 (2016): 57–67. https://doi.org/10.1016/j.memsci.2016.02.051.
Pages:57-67

Journal of Membrane Science

 

Lithium bromide crystallization in water applied to an inter-seasonal heat storage process

date:2015
références bibliographiques:

LEFEBVRE, Emeline, L. Fan, Emilie GAGNIERE, S. Bennici, A. Auroux, and Denis MANGIN. “Lithium Bromide Crystallization in Water Applied to an Inter-Seasonal Heat Storage Process.” 133 (2015): 2–8. https://doi.org/10.1016/j.ces.2015.02.039.
Pages:2-8

Chemical Engineering Science

 

Lithium bromide crystallization in water applied to an inter-seasonal heat storage process

date:2015
références bibliographiques:

LEFEBVRE, Emeline, L. Fan, Emilie GAGNIERE, S. Bennici, A. Auroux, and Denis MANGIN. “Lithium Bromide Crystallization in Water Applied to an Inter-Seasonal Heat Storage Process.” 133 (2015): 2–8. https://doi.org/10.1016/j.ces.2015.02.039.
Pages:2-8

Chemical Engineering Science

 

Thermodynamic study of a LiBr–H2O absorption process for solar heat storage with crystallisation of the solution

date:2014
références bibliographiques:

N’Tsoukpoe, Kokouvi Edem, Maxime Perier-Muzet, Nolwenn Le Pierrès, Lingai Luo, and Denis Mangin. “Thermodynamic Study of a LiBr–H2O Absorption Process for Solar Heat Storage with Crystallisation of the Solution.” 104 (2014): 2–15. https://doi.org/10.1016/j.solener.2013.07.024.
Pages:2-15

Solar Energy

 

Precipitation and adsorption during fluoride removal from water by calcite in the presence of acetic acid

date:2013
références bibliographiques:

Ben Nasr, A., K. Walha, F. Puel, D. Mangin, R. Ben Amar, and C. Charcosset. “Precipitation and Adsorption during Fluoride Removal from Water by Calcite in the Presence of Acetic Acid.” , 2013, 1–10. https://doi.org/10.1080/19443994.2013.799441.
Pages:1-10

Desalination and Water Treatment

 

Dessalement de l’eau de mer par congélation

date:2013
références bibliographiques:

Mandri, Youssef, Anouar Rich, Denis Mangin, Alain Rivoire, Christine Bebon, Tijani Bounahmidi, Ahmed Bouhaouss, and Claudia Cogné. “Dessalement de L’eau de Mer Par Congélation.” 1133 (2013): 58–69.
Pages:58-69

Revue Generale du Froid et du Conditionnement d’Air

 

In Situ Monitoring of Cocrystallization Processes – Complementary Use of Sensing Technologies

Two in situ process analytical technologies were used to investigate a cocrystallization process: a focused beam reflectance measurement probe and a video probe. The cocrystallizations were conducted batch-wise in a stirred thermostatted vessel with carbamazepine and nicotinamide. The experiments were started in three domains of the phase solubility diagram. When carbamazepine crystals were also formed, a solution mediated phase transition from carbamazepine crystals towards cocrystals was initiated by the addition of the cocrystallizing agent (nicotinamide crystals). As the carbamazepine crystals and the carbamazepine/nicotinamide cocrystals exhibit prism-like and needle-like habits, respectively, it was possible to discriminate between them with the two sensors. The mechanisms involved in the solution mediated phase transition were investigated.

date:2012
références bibliographiques:

Gagnière, E., F. Puel, D. Mangin, J.-P. Valour, A. Rivoire, J.-M. Galvan, O. Monnier, and J.-P. Klein. “In Situ Monitoring of Cocrystallization Processes – Complementary Use of Sensing Technologies.” 35, no. 6 (2012): 1039–44. https://doi.org/10.1002/ceat.201100711.
Pages:1039-1044

Chemical Engineering & Technology

 

Sea water desalination by dynamic layer melt crystallization: Parametric study of the freezing and sweating steps

date:2012
références bibliographiques:

Rich, Anouar, Youssef Mandri, Denis Mangin, Alain Rivoire, Souad Abderafi, Christine Bebon, Naoual Semlali, et al. “Sea Water Desalination by Dynamic Layer Melt Crystallization: Parametric Study of the Freezing and Sweating Steps.” 342, no. 1 (2012): 110–16. https://doi.org/10.1016/j.jcrysgro.2011.03.061.
Pages:110-116

Journal of Crystal Growth

 

Cocrystal formation in solution: Inducing phase transition by manipulating the amount of cocrystallizing agent

date:2011
références bibliographiques:

Gagnière, Emilie, Denis Mangin, Francois Puel, Jean-Pierre Valour, Jean-Paul Klein, and Olivier Monnier. “Cocrystal Formation in Solution: Inducing Phase Transition by Manipulating the Amount of Cocrystallizing Agent.” 316, no. 1 (2011): 118–25. doi:10.1016/j.jcrysgro.2010.12.027.
Pages:118-125

Journal of Crystal Growth

 

Parametric study of the sweating step in the seawater desalination process by indirect freezing

date:2011
références bibliographiques:

Mandri, Youssef, Anouar Rich, Denis Mangin, Souad Abderafi, Christine Bebon, Naoual Semlali, Jean-Paul Klein, Tijani Bounahmidi, and Ahmed Bouhaouss. “Parametric Study of the Sweating Step in the Seawater Desalination Process by Indirect Freezing.” 269, no. 1–3 (2011): 142–47. doi:10.1016/j.desal.2010.10.053.
Pages:142-147

Desalination

 

Struvite formation from the supernatants of an anaerobic digestion pilot plant

date:2010
références bibliographiques:

Pastor, L., D. Mangin, J. Ferrer, and A. Seco. “Struvite Formation from the Supernatants of an Anaerobic Digestion Pilot Plant.” 101, no. 1 (2010): 118–25. doi:10.1016/j.biortech.2009.08.002.
Pages:118-125

Bioresource Technology

 

Inducing the stable polymorph using heterogeneous primary nucleation

date:2010
références bibliographiques:

Boukerche, M., D. Mangin, J.P. Klein, O. Monnier, and C. Hoff. “Inducing the Stable Polymorph Using Heterogeneous Primary Nucleation.” 88, no. 11 (2010): 1474–78. doi:10.1016/j.cherd.2010.01.027.
Pages:1474-1478

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

 

Coupling between Membrane Processes and Crystallization Operations

date:2010
références bibliographiques:

Charcosset, Catherine, Roland Kieffer, Denis Mangin, and François Puel. “Coupling between Membrane Processes and Crystallization Operations.” 49, no. 12 (June 16, 2010): 5489–95. doi:10.1021/ie901824x.
Pages:5489-5495

Industrial & Engineering Chemistry Research

 

Coupling between Membrane Processes and Crystallization Operations

The ability to couple membrane processes and crystallization operations, in order to develop efficient crystallization technologies, is increasingly reported. The main features of membrane crystallization systems are (1) to control and limit the maximum level of supersaturation due to defined mass transfer across the membrane; (2) to act as a support able to activate heterogeneous nucleation; (3) to control solid features such as size, shape, polymorphic form, and purity; and (4) to reduce energy consumption. To achieve these goals, several membrane techniques are used: reverse osmosis, membrane distillation, membrane contactor, and membrane templates. This review describes briefly the principles, applications, and advantages and drawbacks of each technique for crystallization operations.

date:2010
références bibliographiques:

Charcosset, Catherine, Roland Kieffer, Denis Mangin, and Francois Puel. “Coupling Between Membrane Processes and Crystallization Operations.” 49, no. 12 (16, 2010): 5489–5495. doi:10.1021/ie901824x.
Pages:5489-5495

Industrial & Engineering Chemistry Research

 

Freezing desalination of sea water in a static layer crystallizer

date:2010
références bibliographiques:

Rich, Anouar, Youssef Mandri, Nourimane Bendaoud, Denis Mangin, Souad Abderafi, Christine Bebon, Naoual Semlali, et al. “Freezing Desalination of Sea Water in a Static Layer Crystallizer.” 13, no. 1–3 (2010): 120–27. doi:10.5004/dwt.2010.983.
Pages:120-127

Desalination and Water Treatment

 

Formation of co-crystals: Kinetic and thermodynamic aspects

date:2009
références bibliographiques:

Gagnière, E., D. Mangin, F. Puel, A. Rivoire, O. Monnier, E. Garcia, and J.P. Klein. “Formation of Co-Crystals: Kinetic and Thermodynamic Aspects.” 311, no. 9 (2009): 2689–95. doi:10.1016/j.jcrysgro.2009.02.040.
Pages:2689-2695

Journal of Crystal Growth

 

Cocrystal Formation in solution: In Situ Solute Concentration Monitoring of the Two Components and Kinetic Pathways

date:2009
références bibliographiques:

Gagnière, Emilie, Denis Mangin, Francois Puel, Christine Bebon, Jean-Paul Klein, Olivier Monnier, and Eric Garcia. “Cocrystal Formation in Solution: In Situ Solute Concentration Monitoring of the Two Components and Kinetic Pathways.” 9, no. 8 (2009): 3376–83. doi:10.1021/cg801019d.
Pages:3376-3383

Crystal Growth & Design

 

Precipitation of barium sulphate in a hollow fiber membrane contactor: Part II The influence of process parameters

date:2009
références bibliographiques:

Kieffer, Roland, Denis Mangin, François Puel, and Catherine Charcosset. “Precipitation of Barium Sulphate in a Hollow Fiber Membrane Contactor: Part II The Influence of Process Parameters.” 64, no. 8 (April 2009): 1885–91. doi:10.1016/j.ces.2009.01.013.
Pages:1885-1891

Chemical Engineering Science

 

Polymorphism in Processes of Crystallization in Solution: A Practical Review

Here we review the polymorphism of organic molecules, obtained through batch crystallization in solution carried out in a stirred vessel. Preferential formation of a polymorph, crystal habit, and size depend strongly on the kinetics of the mechanisms involved. First, we recall the concepts of crystallization from solution. Second, phase transitions are introduced, discussed, and illustrated. Third, we focus on the development of batch-crystallization processes to obtain a given polymorph. Prerequisites are recalled, and experimental techniques used for the screening of polymorphs are presented. Recent developments in the determination of the kinetics of solution-mediated phase transition are reviewed, and the advantages and drawbacks of using process analytical technologies to monitor such transitions are discussed. Lastly, we present control strategies.

date:2009
références bibliographiques:

Mangin, Denis, Francois Puel, and Stephane Veesler. “Polymorphism in Processes of Crystallization in Solution: A Practical Review.” 13, no. 6 (2009): 1241–53. doi:10.1021/op900168f.
Pages:1241-1253

Organic Process Research & Development

 

Precipitation of barium sulphate in a hollow fiber membrane contactor, Part I: Investigation of particulate fouling

date:2009
références bibliographiques:

Kieffer, Roland, Denis Mangin, François Puel, and Catherine Charcosset. “Precipitation of Barium Sulphate in a Hollow Fiber Membrane Contactor, Part I: Investigation of Particulate Fouling.” 64, no. 8 (April 2009): 1759–67. doi:10.1016/j.ces.2009.01.011.
Pages:1759-1767

Chemical Engineering Science