Françoise COUENNE

Chargée de Recherches

  • Dynamique et Commande des Procédés

Modélisation dynamique, Système Hamiltonien à port dissipatif, Commande des systèmes non linéaires


Bureau 1 Laboratoire d’Automatique et de Génie des Procédés (LAGEP), Université Claude Bernard Lyon 1, bât 308G (bureau 113) ESCPE-Lyon, 1er étage 43 bd du 11 Novembre 1918 G304 Villeurbanne Cedex 69622 France

Téléphone bureau 1: 04 72 43 18 62Fax bureau 1: 04 72 43 16 99

Bio

  • ANR HAMECMOPSYS
  • ANR ACLIRSYS
  • Thèses : Weijun Zhou

Distributed parameter bi-zone model with moving interface of an extrusion process and experimental validation

date:2017
références bibliographiques:

Lotero, F., F. Couenne, B. Maschke, and D. Sbarbaro. “Distributed Parameter Bi-Zone Model with Moving Interface of an Extrusion Process and Experimental Validation.” , 2017, 1–19. https://doi.org/10.1080/13873954.2016.1278393.
Pages:1-19

Mathematical and Computer Modelling of Dynamical Systems

 

Distributed port-Hamiltonian modelling for irreversible processes

date:2017
références bibliographiques:

Zhou, W., B. Hamroun, F. Couenne, and Y. Le Gorrec. “Distributed Port-Hamiltonian Modelling for Irreversible Processes.” 23, no. 1 (2017): 3–22. https://doi.org/10.1080/13873954.2016.1237970.
Pages:3-22

Mathematical and Computer Modelling of Dynamical Systems

 

Dissipative pseudo-Hamiltonian realization of chemical systems using irreversible thermodynamics

date:2017
références bibliographiques:

Hoang, N. Ha, Denis Dochain, Françoise Couenne, and Yann Le Gorrec. “Dissipative Pseudo-Hamiltonian Realization of Chemical Systems Using Irreversible Thermodynamics.” 23, no. 2 (2017): 135–55. https://doi.org/10.1080/13873954.2016.1237973.
Pages:135-155

Mathematical and Computer Modelling of Dynamical Systems

 

Detailed kinetic modelling of vacuum gas oil hydrocracking using bifunctional catalyst: A distribution approach

date:2016
références bibliographiques:

Browning, Barbara, P. Afanasiev, Isabelle Pitault, Françoise Couenne, and Melaz Tayakout-Fayolle. “Detailed Kinetic Modelling of Vacuum Gas Oil Hydrocracking Using Bifunctional Catalyst: A Distribution Approach.” 284, no. 15 January 2016 (2016): 270–84. https://doi.org/http://doi.org/10.1016/j.cej.2015.08.126.
Pages:270-284

Chemical Engineering Journal

 

Detailed kinetic modelling of vacuum gas oil hydrocracking using bifunctional catalyst: A distribution approach

date:2016
références bibliographiques:

Browning, Barbara, P. Afanasiev, Isabelle Pitault, Françoise Couenne, and Melaz Tayakout-Fayolle. “Detailed Kinetic Modelling of Vacuum Gas Oil Hydrocracking Using Bifunctional Catalyst: A Distribution Approach.” 284, no. 15 January 2016 (2016): 270–84. https://doi.org/http://doi.org/10.1016/j.cej.2015.08.126.
Pages:270-284

Chemical Engineering Journal

 

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. https://doi.org/10.1016/j.energy.2016.09.098.
Pages:32-42

Energy

 

On the passivity based control of irreversible processes: A port-Hamiltonian approach

Irreversible port-Hamiltonian systems (IPHS) have recently been proposed for the modelling of irreversible thermodynamic systems. On the other hand, a classical result on the use of the second law of thermodynamics for the stabilization of irreversible processes is the celebrated thermodynamic availability function. These frameworks are combined to propose a class of Passivity Based Controller (PBC) for irreversible processes. An alternative formulation of the availability function in terms of internal energy is proposed. Using IPHS a matching-condition, which is interpreted in terms of energy-shaping, is derived and a specific solution that permits to assign a desired closed-loop structure and entropy rate is proposed. The approach can be compared with Interconnection and Damping Assignment-PBC, this method however leads in general to thermodynamically non-coherent closed-loop systems. In this paper a system theoretic approach is employed to derive a constructive method for the control design. The closed-loop system is in IPHS form, hence it can be identified with a thermodynamic system and the control parameters related with thermodynamic variables, such as the reaction rates in the case of chemical reactions. A generic non-linear non-isothermal continuous stirred tank reactor is used to illustrate the approach.

date:2016
références bibliographiques:

Ramírez, Héctor, Yann Le Gorrec, Bernhard Maschke, and Françoise Couenne. “On the Passivity Based Control of Irreversible Processes: A Port-Hamiltonian Approach.” 64, no. February 2016 (2016): 105–11. https://doi.org/10.1016/j.automatica.2015.07.002.
Pages:105-111

Automatica

 

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. https://doi.org/10.1016/j.ijrefrig.2014.10.008.
Pages:142–154

International Journal of Refrigeration

 

Thermodynamics-Based Nonlinear Control of a Three-Phase Slurry Catalytic Fed-Batch Reactor

date:2013
références bibliographiques:

Bahroun, S., F. Couenne, C. Jallut, and C. Valentin. “Thermodynamics-Based Nonlinear Control of a Three-Phase Slurry Catalytic Fed-Batch Reactor.” 21, no. 2 (March 2013): 360–71. https://doi.org/10.1109/TCST.2011.2181173.
Pages:360-371

IEEE Transactions on Control Systems Technology

 

Thermodynamics based stability analysis and its use for nonlinear stabilization of the CSTR

date:2013
références bibliographiques:

Hoang, N.H., F. Couenne, C. Jallut, and Y. Le Gorrec. “Thermodynamics Based Stability Analysis and Its Use for Nonlinear Stabilization of the CSTR.” 58 (2013): 156–77. https://doi.org/10.1016/j.compchemeng.2013.06.016.
Pages:156-177

Computers & Chemical Engineering

 

Passivity-based nonlinear control of CSTR via asymptotic observers

date:2013
références bibliographiques:

Ha Hoang, N., F. Couenne, Y. Le Gorrec, C.L. Chen, and B. Erik Ydstie. “Passivity-Based Nonlinear Control of CSTR via Asymptotic Observers.” 37, no. 2 (December 2013): 278–88. https://doi.org/10.1016/j.arcontrol.2013.09.007.
Pages:278-288

Annual Reviews in Control

 

Electrokinetic properties of poly-ε-caprolactone-based nanoparticles prepared by nanoprecipitation and emulsification-diffusion methods: a comparative study

date:2012
références bibliographiques:

Mora-Huertas, C. E., F. Couenne, H. Fessi, and A. Elaissari. “Electrokinetic Properties of Poly-ε-caprolactone-based Nanoparticles Prepared by Nanoprecipitation and Emulsification-diffusion Methods: a Comparative Study.” 14, no. 6 (June 4, 2012). doi:10.1007/s11051-012-0876-7.

Journal of Nanoparticle Research

 

Lyapunov-based control of non isothermal continuous stirred tank reactors using irreversible thermodynamics

date:2012
références bibliographiques:

Hoang, H., F. Couenne, C. Jallut, and Y. Le Gorrec. “Lyapunov-Based Control of Non Isothermal Continuous Stirred Tank Reactors Using Irreversible Thermodynamics.” 22, no. 2 (February 2012): 412–22. https://doi.org/10.1016/j.jprocont.2011.12.007.
Pages:412-422

Journal of Process Control

 

Electrokinetic properties of poly-ε-caprolactone-based nanoparticles prepared by nanoprecipitation and emulsification-diffusion methods: a comparative study

date:2012
références bibliographiques:

Mora-Huertas, C. E., F. Couenne, H. Fessi, and A. Elaissari. “Electrokinetic Properties of Poly-Ε-Caprolactone-Based Nanoparticles Prepared by Nanoprecipitation and Emulsification-Diffusion Methods: A Comparative Study.” 14, no. 6 (June 4, 2012). doi:10.1007/s11051-012-0876-7.

Journal of Nanoparticle Research

 

Methodology for the Study of Vacuum Gas Oil Hydrocracking Catalysts in a Batch Reactor – Coupling of GC-2D Data with Vapour-Liquid Equilibrium

date:2012
références bibliographiques:

Henry, Reynald, Melaz Tayakout-Fayolle, Pavel Afanasiev, Françoise Couenne, Gregory Lapisardi, Laurent J. Simon, and Vincent Souchon. “Methodology for the Study of Vacuum Gas Oil Hydrocracking Catalysts in a Batch Reactor – Coupling of GC-2D Data with Vapour-Liquid Equilibrium.” 560–61 (August 2012): 207–13. https://doi.org/10.4028/www.scientific.net/AMR.560-561.207.
Pages:207-213

Advanced Materials Research

 

Dynamic modeling of the reactive twin-screw co-rotating extrusion process: experimental validation by using inlet glass fibers injection response and application to polymers degassing

In this Article is described an original dynamic model of a reactive corotating twin-screw extrusion (TSE) process operated by the Rhodia Co. for the Nylon-66 degassing finishing step. To validate the model, dynamic experiments have been performed on a small-scale pilot plant. These experiments consist of a temporary injection of glass fibers at the inlet of the extruder after it has reached a given operating point. The outlet glass fibers mass fraction time variation is then measured. This experiment does not lead to the RTD measurement. As a matter of fact, due to the high quantity of glass fibers that is introduced, the behavior of the flow through the extruder is perturbed so that the glass fibers cannot be considered as an inert tracer. The dynamic model that we have published elsewhere (Choulak et al. Ind. Eng. Chem. Res.2004, 43, 7373–7382) is adapted to take into account this nonlinear behavior of the extruder with respect to the glass fibers injection and is favorably compared to experimental results. The description of the degassing operation is also included in the model. The model allows simulations of the complete dynamic behavior of the process. When the steady state is reached, the good position of the degassing vent with respect to the partially and fully filled zones positions can also be checked, thus illustrating the way the model can be used for design purposes.

date:2012
références bibliographiques:

Goma Bilongo, Tchicaya, Françoise Couenne, Christian Jallut, Yann Le Gorrec, and Audrey Di Martino. “Dynamic Modeling of the Reactive Twin-Screw Co-Rotating Extrusion Process: Experimental Validation by Using Inlet Glass Fibers Injection Response and Application to Polymers Degassing.” 51, no. 35 (July 30, 2012): 11381–88. doi:10.1021/ie300698k.
Pages:11381–11388

Industrial & Engineering Chemistry Research

 

Stabilization of non-isothermal chemical reactors using two thermodynamic Lyapunov functions

date:2011
références bibliographiques:

Hoang, H., T. P Mai, M. N. Hoang, D. T. Phan, F. Couenne, and Y. Le Gorrec. “Stabilization of Non-Isothermal Chemical Reactors Using Two Thermodynamic Lyapunov Functions.” 49, no. 2 (2011).

Journal of Science and Technology, Vietnam Academy of Science and Technology

 

The port Hamiltonian approach to modeling and control of Continuous Stirred Tank Reactors

date:2011
références bibliographiques:

Hoang, H., F. Couenne, C. Jallut, and Y. Le Gorrec. “The Port Hamiltonian Approach to Modeling and Control of Continuous Stirred Tank Reactors.” 21, no. 10 (December 2011): 1449–58. doi:10.1016/j.jprocont.2011.06.014.
Pages:1449-1458

Journal of Process Control

 

Modélisation d’un procédé d’extrusion par deux systèmes d’équations d’évolution couplés par une interface mobile

date:2011
références bibliographiques:

Diagne, Mamadou, Valérie Dos Santos Martins, Françoise Couenne, Bernhard Maschke, and Christian Jallut. “Modélisation D’un Procédé D’extrusion Par Deux Systèmes D’équations D’évolution Couplés Par Une Interface Mobile.” 45, no. 7–10 (December 30, 2011): 665–91. doi:10.3166/jesa.45.665-691.
Pages:665-691

Journal Européen des Systèmes Automatisés

 

Systèmes hamiltoniens à ports de dimension infinie. Réduction et propriétés spectrales

date:2011
références bibliographiques:

Le Gorrec, Yann, Hui Peng, Laurent Lefèvre, Boussad Hamroun, and Françoise Couenne. “Systèmes Hamiltoniens À Ports de Dimension Infinie. Réduction et Propriétés Spectrales.” 45, no. 7–10 (December 30, 2011): 645–64. doi:10.3166/jesa.45.645-664.
Pages:645-664

Journal Européen des Systèmes Automatisés

 

Modeling and simulation of polymeric nanocapsule formation by emulsion diffusion method

date:2009
références bibliographiques:

Hassou, M., F. Couenne, Y. le Gorrec, and M. Tayakout. “Modeling and Simulation of Polymeric Nanocapsule Formation by Emulsion Diffusion Method.” 55, no. 8 (August 2009): 2094–2105. doi:10.1002/aic.11809.
Pages:2094-2105

AIChE Journal

 

Port-based modelling of mass transport phenomena

date:2009
références bibliographiques:

Baaiu, A., F. Couenne, D. Eberard, C. Jallut, L. Lefevre, Y. Legorrec, and B. Maschke. “Port-Based Modelling of Mass Transport Phenomena.” 15, no. 3 (June 2009): 233–54. doi:10.1080/13873950902808578.
Pages:233-254

Mathematical and Computer Modelling of Dynamical Systems

 

Structure-preserving infinite dimensional model reduction: Application to adsorption processes

date:2009
références bibliographiques:

Baaiu, A., F. Couenne, L. Lefevre, Y. Le Gorrec, and M. Tayakout. “Structure-Preserving Infinite Dimensional Model Reduction: Application to Adsorption Processes.” 19, no. 3 (March 2009): 394–404. doi:10.1016/j.jprocont.2008.07.002.
Pages:394-404

Journal of Process Control

 

Enthalpy based modelling and design of asymptotic observers for chemical reactors

date:2009
références bibliographiques:

Dochain, D., F. Couenne, and C. Jallut. “Enthalpy Based Modelling and Design of Asymptotic Observers for Chemical Reactors.” 82, no. 8 (August 2009): 1389–1403. doi:10.1080/00207170802236085.
Pages:1389-1403

International Journal of Control