22 1.2.2. Bilan des forces sur les gouttes de phase légère en mouvement dans la phase lourde, p.24 ,
25 1.3.1. Coefficient global de transfert de matière sens de transfert de matière sur l'efficacité d'une colonne pulsée d'extraction liquide-liquide, p.33 ,
33 1.4.1. Le rôle de la variable opératoire S/V (surface/volume), p.38 ,
45 1.7.1. Rôle de la tension superficielle et méthodes de mesures 45 1.7.2. Le rôle du temps de séjour dans un processus oscillant, ., p.51 ,
159 4.5.2. Résultats de la corrélation du diamètre moyen de Sauter selon les conditions opératoires de la colonne d'extraction liquide-liquide, p.164 ,
19 1.1. Introduction, 22 1.2.2. Bilan des forces sur les gouttes de phase légère en mouvement dans la phase lourde, p.24 ,
25 1.3.1. Coefficient global de transfert de matière sens de transfert de matière sur l'efficacité d'une colonne pulsée d'extraction liquide-liquide, p.33 ,
33 1.4.1. Le rôle de la variable opératoire S/V (surface/volume), p.38 ,
45 1.7.1. Rôle de la tension superficielle et méthodes de mesures 45 1.7.2. Le rôle du temps de séjour dans un processus oscillant, ., p.51 ,
Conception et analyse d'un nouveau type de colonne pulsée appliquée au contact solide/liquide Drop sizes of emulsions related to turbulent energy dissipation rates, Chem. Eng. Sci, vol.40, issue.5, pp.839-842, 1985. ,
Studies at phase interfaces. I. The sliding of liquid drops on solid surfaces and a theory for spray retention, Journal of Colloid Science, vol.17, issue.4, pp.309-324, 1962. ,
DOI : 10.1016/0095-8522(62)90011-9
Influence of mass transfer direction on the operation of a pulsed sieve-plate pilot column, Chemical Engineering Science, vol.46, issue.11, p.2799, 1991. ,
DOI : 10.1016/0009-2509(91)85149-R
Population balance based modelling of solvent extraction columns. Liquid-Liquid Extraction Equipment, p.137, 1994. ,
Mass and heat transfer from drops in liquid-liquid extraction. A.I.Ch, J, vol.3, pp.365-383, 1957. ,
Fundamentals of the Hydrodynamic mechanism of Splitting in Dispersion processes, A.I.Ch Wetting of low-energy surfaces in wettability pp, E. Journal, vol.1, issue.3, pp.289-295, 1955. ,
Droplet size spectra generated in turbulent pipe flow of dilute liquid/liquid dispersions, AIChE Journal, vol.24, issue.2, pp.170-180, 1949. ,
DOI : 10.1002/aic.690240203
On the theory of extraction from falling drops, Appl Sci Res, pp.142-154, 1950. ,
Drop sizes and Drop Dispersion in Straight Horizontal Tubes and in Helical Coils Correlations for prediction of mass transfer coefficients in single drop systems and liquid-liquid extraction columns, Chem. Eng. Sci Trans IChem, vol.32, issue.77, pp.95-2002, 1977. ,
Unified Correlations For the Prediction of Drop Size in Liquid-Liquid Extraction Coloumns, Ind. Eng, 1996. ,
Prediction of dispersed phase holdup in pulsed perforated plate columns, Chem. Eng. Process, vol.23, pp.41-59, 1988. ,
Transport Phenomena in liquid-liquid Extraction MC Graw Hill, 1976. ,
Modélisation et simulation numérique de l'écoulement et de la dispersion d'un contaminant dans une colonne pulsée, Thèse de Doctorat, Conservatoire National des Arts et Métiers, 1993. ,
The Numerical Computation of Turbulent Flows, 1974. ,
Extraction liquide-lquide, 2004. ,
Mass transfer in the continuous phase around axisymmetric bodies of revolution, Chemical Engineering Science, vol.19, issue.7, pp.471-484, 1964. ,
DOI : 10.1016/0009-2509(64)85074-0
Pulsed Perforated-Plate Columns New method of packed column design for Liquid- Liquid extraction processes with randon and stacked packings Three detachment of a drop from an interval wall in pulsed liquid-liquid column, Third international conference on multiphase yow, pp.355-372, 1983. ,
Mouillabilité dans les contacteurs liquide-liquide: Approche théorique et expérimentale, récents progrès en Génie des Procédé s, pp.11-51, 1997. ,
Thèse doctorat CNAM, 27 octobre Measurement of drop size distribution in concentrated liquid-liquid dispersion: Video and capillary technique, Transactions of the Institution of Chemical Engineers, Part A, Chemical Engineering Research and Design Chem. Eng. Sci, vol.73, issue.544, pp.461-473, 1995. ,
Longitudinal concentration profiles Evaluation of packings for use in liquid-liquid extraction columns Simulation of hydrodynamic performance of stirring extraction column, Ind. Eng. Chem. Fundamentals. Separation Science and Technology AIChE journal, vol.1, issue.222-32, pp.93-103, 1962. ,
A model for simulation of hydrodynamics and mass transfer in extraction columns filled with regular packing. Transactions of IChemE: Part A , 73, Ind. Eng. Chem. Proc. Des. Dev, vol.12, pp.542-550, 1973. ,
Distribution of drop sizes produced in turbulent liquid???liquid dispersion, Chemical Engineering Science, vol.22, issue.3, pp.435-444, 1967. ,
DOI : 10.1016/0009-2509(67)80130-1
Drop size distribution in liquid pulsed plate columns Maxwell-Sefan approach coupled drop population model for dynamic simulation of liquid-liquid extraction pulsed column, Les réacteurs chimiques. Editions Technip Process and Apparatus for intimately contacting fluids. Patent US2011186, pp.379-386, 1935. ,
Dispersed phase holdup and mass transfer in liquid pulsed column, Bioprocess Engineering, vol.18, issue.2, pp.119-126, 1998. ,
DOI : 10.1007/s004490050421
Correlation of mean drop size and minimum drop size with the turbulence energy dissipation and the flow in an agitated tank, Chemical Engineering Science, vol.53, issue.11, pp.2063-2079, 1998. ,
DOI : 10.1016/S0009-2509(97)00438-7
75 2.3.1. Description de la méthode de contrôle vision : Système optique et l'éclairage, p.78 ,
88 2.5.1. Principe et définition de l'angle de contact, application à la détermination de l'énergie de surface goutte liquide, ., p.89 ,
Simulation of flow hydrodynamics in a pulsed solvent extraction column under turbulent regimes, Chemical Engineering Journal, vol.8, issue.71, pp.1-9, 1998. ,
117 3.6.1. Morphologie de la surface des gouttes, p.119 ,
128 3.11.1, ., p.130 ,
Simulation of flow hydrodynamics in a pulsed solvent extraction column under turbulent regimes, Chemical Engineering Journal, vol.71, pp.1-9, 1998. ,
Handbook of Chemical Engineering 6 th edition Modélsiation et simulation des écoulements turbulents, Traités des Nouvelles Technologies, Mech. Eng, vol.3, p.269, 1974. ,
159 4.5.2. Résultats de la corrélation du diamètre moyen de Sauter selon les conditions opératoires de la colonne d'extraction liquide-liquide, p.164 ,
Mass transfer in the continuous phase around axisymmetric bodies of revolution, Chemical Engineering Science, vol.19, issue.7, pp.471-484, 1964. ,
DOI : 10.1016/0009-2509(64)85074-0
New method of packed column design for Liquid- Liquid extraction processes with randon and stacked packings Evaporation from Drops, German Chemical Engineering Chem. Eng. Progr, vol.16, issue.48, pp.199-248, 1952. ,
Longitudinal concentration profiles Dispersed phase holdup and mass transfer in liquid pulsed column, Ind. Eng. Chem. Fundamentals. Bioprocess Engineering, vol.1, issue.18, pp.93-103, 1962. ,
Correlation of diffusion coefficients in dilute solutions, AIChE Journal, vol.1, pp.264-270, 1955. ,
VariableVariable.object hyOrge = hyContainer.FindVariableVariable.object hyOrgs = hyContainer.FindVariableVariable.object hyAgitation = hyContainer.FindVariableVariable hyPlateau = hyContainer.FindVariableVariable hyTrou = hyContainer.FindVariable("Trou")Variable hyNbreTrou = hyContainer.FindVariableVariable hyNbrePlateau = hyContainer.FindVariableVariable hyHauteur = hyContainer.FindVariableVariable hyAmplitude = hyContainer.FindVariableVariable 'Determiner si les flux d'entree ont les informations requises If hyAqeValue) End If If hyAgitation (hyAmplitude.Value) End If If hyAgitation ,
H2O is required as component") OK = False End If If AEPresent = False Then Call hyStatusAddStatusCondition(StatusLevel_enum.slMissingRequiredInformation, 2E-Acetate is required as component") OK = False End If If AAPresent = False Then Call hyStatusAddStatusCondition(StatusLevel_enum.slMissingRequiredInformation, 3Acetic Acid is required as component") OK = False End If If hyAqe Is Nothing Then Call hyStatusAddStatusCondition(StatusLevel_enum.slMissingRequiredInformation, 4Aq_e required") OK = False End If If hyAqs Is Nothing Then Call hyStatusAq_s required") OK = False End If If hyOrge Is Nothing Then Call hyStatus.AddStatusCondition(StatusLevel_enum.slMissingRequiredInformation, 6Org_e required") OK = False End If If hyOrgs Is Nothing Then Call hyStatus.AddStatusCondition(StatusLevel_enum.slMissingRequiredInformation, 7, "Org_s required") OK = False End If If hyAgitation.Value = conEmpty Then Call hyStatus, AddStatusCondition(StatusLevel_enum.slMissingRequiredInformationAddStatusCondition(StatusLevel_enum.slMissingRequiredInformation, vol.1, issue.10 ,
Value = conEmpty Then Call hyStatusAddStatusCondition(StatusLevel_enum.slMissingRequiredInformation, 11Nombre de Trous Required") OK = False End If If hyNbrePlateau.Value = conEmpty Then Call hyStatus.AddStatusCondition(StatusLevel_enum.slMissingRequiredInformation, 11Nombre de Plateaux Required") OK = False End If If hyHauteur.Value = conEmpty Then Call hyStatus ,