Emilie GAGNIERE

Maître de Conférences

  • Dynamique et Commande des Procédés

  • Procédés d'Elaboration du Solide

Cristallisation, co-cristallisation, précipitation


Bureau 1 Laboratoire d’Automatique et de Génie des Procédés (LAGEP), Université Claude Bernard Lyon – 1, bât 308 – ESCPE-Lyon, 2ème étage 43 bd du 11 Novembre 1918 G230 Villeurbanne Cedex 69622 France

Téléphone bureau 1: 04 72 43 18 52Fax bureau 1: 04 72 43 16 99

Bio

Emilie Gagnière est diplômée de l’Ecole Nationale Supérieure des Industries Chimiques de Nancy en 2006, et a obtenu la même année un Master Recherche Spécialité Génie des Produits au Laboratoire des Sciences du Génie Chimique de l’Institut National Polytechnique de Lorraine. Elle a reçu le titre de docteur en Génie des Procédés en 2009 suite à ses travaux réalisés au LAGEP sur la co-cristallisation de composés pharmaceutiques. Elle est actuellement Maître de Conférences à l’Université Lyon 1. Ses thématiques de recherche au LAGEP sont la modélisation dynamique en génie des procédés et l’élaboration du solide (cristallisation, co-cristallisation, précipitation).

  • ANR ACLIRSYS
  • ANR PROSSIS

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. doi:10.1016/j.jcrysgro.2015.11.019.
Pages:98-104

Journal of Crystal Growth

 

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. doi: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. doi:10.1021/acs.jced.5b00632.
Pages:806-812

Journal of Chemical & Engineering Data

 

Experimental investigation of the dynamic behavior of a large-scale refrigeration – PCM energy storage system. Validation of a complete model

date:2016
références bibliographiques:

Wu, Jing, Brice Tremeac, Marie-France Terrier, Mehdi Charni, Emilie Gagnière, Françoise Couenne, Boussad Hamroun, and Christian Jallut. “Experimental Investigation of the Dynamic Behavior of a Large-Scale Refrigeration – PCM Energy Storage System. Validation of a Complete Model.” 116 (December 2016): 32–42. doi:10.1016/j.energy.2016.09.098.
Pages:32-42

Energy

 

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. doi: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. doi:10.1016/j.ces.2015.02.039.
Pages:2-8

Chemical Engineering Science

 

A hybrid transient model for simulation of air-cooled refrigeration systems: Description and experimental validation

date:2015
références bibliographiques:

Wu, Jing, Emilie Gagnière, Françoise Couenne, Boussad Hamroun, Thierry Latour, and Christian Jallut. “A Hybrid Transient Model for Simulation of Air-Cooled Refrigeration Systems: Description and Experimental Validation.” 53 (2015): 142–54. doi:10.1016/j.ijrefrig.2014.10.008.
Pages:142–154

International Journal of Refrigeration

 

Population balance modeling for the charging process of a PCM cold energy storage tank

date:2015
références bibliographiques:

Wu, Jing, Emilie Gagnière, Frédéric Jay, and Christian Jallut. “Population Balance Modeling for the Charging Process of a PCM Cold Energy Storage Tank.” 85 (2015): 647–55. doi:10.1016/j.ijheatmasstransfer.2015.02.012.
Pages:647-655

International Journal of Heat and Mass Transfer

 

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. doi:10.1002/ceat.201100711.
Pages:1039-1044

Chemical Engineering & Technology

 

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

 

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