American Journal of Environmental Engineering

American Journal of Environmental Engineering presents broad interdisciplinary information on the practice and status of research in environmental engineering science, systems engineering, and sanitation. A balanced contribution from consultants, practicing engineers, and researchers is sought on engineering solutions, and professional obligations and responsibilities.


Sébastien Déon

Editorial Board Member of American Journal of Environmental Engineering

Assistant Professor, Institut UTINAM, Université de Franche-Comté, France

Research Areas

Chemical engineering, membrane science, desalination, water treatment, transport modelling, structural and electrokinetic surface characterizations

Education

Ph.D.Chemical Engineering, Université de Bretagne Sud, Lorient, France
M.Sc.Chemical Engineering and Environment, Institut National Polytechnique de Toulouse, France
B.Sc.Chemical Engineering, Université de Nantes, France

Experience

2013-PresentAssociate professor, Université de Franche-Comté, Besançon, France
2008-2013Assistant professor, Université de Franche-Comté, Besançon, France

Publications: Journals

[1]  Lanteri Y., Ballout W., Fievet P., Déon S., Szymczyk A., Sauvade P., A new method for in line electrokinetic characterization of cakes, Membrane Water Treatment 4 , 3 (2013) pp 157-174.
[2]  Déon S., Dutournié P., Fievet P., Limousy L.,Bourseau P., Concentration polarization phenomenon during the nanofiltration of multi-ionic solutions: influence of the filtrated solution and operating conditions, Water Research, 47, 7 (2013) pp 2260-2272.
[3]  Déon S., Escoda A., Fievet P., Salut R., Prediction of single salt rejection by NF membranes: An experimental methodology to assess physical parameters from membrane and streaming potentials. Desalination 315 (2013) pp 37-45.
[4]  Escoda A., Bouranene S., Fievet P., Déon S., Szymczyk A., Dehydration and pore swelling effects on the transfer of PEG through NF membranes, Membrane Water Treatment 4, 2 (2013) pp127-142.
[5]  Déon S., Fievet P., Osman Doubad C., Tangential streaming potential/current measurements for the characterization of composite membranes, Journal of Membrane Science, 423-424 (2012) pp 413-421.
[6]  Lanteri Y., Fievet P., Déon S., Sauvade P., Ballout W., Szymczyk A., Electrokinetic characterization of hollow fibers by streaming current, streaming potential and electric conductance, Journal of membrane Science, 411-412 (2012) pp 193-200.
[7]  Déon S., Escoda A., Fievet P., Dutournié P., Bourseau P., How to use a multi-ionic transport model to fully predict rejection of mineral salts by nanofiltration membranes. Chemical Engineering Journal, 189-190 (2012) pp 24-31.
[8]  Déon S., Escoda A., Fievet P., A transport model considering charge adsorption inside pores to describe salts rejection by nanofiltration membranes. Chemical Engineering Science, 66, 12 (2011) pp 2823-2832.
[9]  Escoda A., Déon S., Fievet P., Assessment of dielectric contribution in the modeling of multi-ionic transport through nanofiltration membranes. Journal of Membrane Science, 378, 1-2 (2011) pp 214-223.
[10]  Lanteri Y., Fievet P., Magnenet C., Déon S., Szymczyk A., Electrokinetic characterization of particle deposits from streaming potential coupled with permeate flux measurements during dead-end filtration. Journal of Membrane Science, 378, 1-2 (2011) pp 224-232.
[11]  Déon S., Dutournié P., Limousy L., Bourseau P.,  The two-dimensional Pore and Polarization Transport Model to describe mixtures separation by nanofiltration: Model validation. AIChE Journal, 57, 4 (2011), pp 985-995.
[12]  Dutournié P., Limousy L., Déon S., Bourseau P., Unsteady transport of divalent salt through a mineral membrane of ultrafiltration: Numerical estimation of physical parameters. Desalination, 265, 1-3 (2011), pp 184-189.
[13]  Escoda A., Lanteri Y., Fievet P., Déon S., Szymczyk A., Determining the dielectric constant inside the pores of nanofiltration membranes from membrane potential measurements. Langmuir, 26, 18 (2010), pp 14628–14635.
[14]  Escoda A., Fievet P., Lakard S., Szymczyk A., Déon S., Influence of salts on the rejection of polyethyleneglycol by an NF organic membrane: pore swelling and salting-out effect, Journal of Membrane Science,347, 1-2 (2010) pp 174-182.
[15]  Chevereau E., Zouaoui N., Limousy L., Dutournié P., Déon S., Bourseau P., Surface properties of ceramic ultrafiltration TiO2 membranes: effects of surface equilibriums on salt retention, Desalination, 255, 1-3 (2010), pp 1-8.
[16]  Déon S., Dutournié P., Limousy L., Bourseau P., Transport of salt mixtures through nanofiltration membranes: identification of electric and dielectric contributions, Separation and Purification Technology, 69, 3 (2009), pp 225-233.
[17]  Déon S., Dutournié P., Bourseau P., Modelling nanofiltration with Nernst-Planck approach and polarization layer, AIChE Journal, 53, 8 (2007), pp 1952-1969.
[18]  Déon S., Dutournié P., Bourseau P., Transfer of monovalent salts through nanofiltration membranes: a model combining transport through pores and polarization layer, Industrial & Engineering Chemistry Research, 46, 21 (2007), pp 6752-6761.
[19]  Alappat B. J., Déon S., Pré P., Delebarre A., Viazzo S., Oil-Polluted Sands in a Fluidized Bed, Industrial & Engineering Chemistry Research, 44 (2005), pp 1585-1591.