Bibliographie
- Abrams et Prausnitz, 1975
Abrams D. S., Prausnitz J. M. , Statistical thermodynamics of liquid in mixtures. A new expression for the excess Gibbs energy of partly and completely miscible systems. AIChE J. 21: 116, .
- Ali et col., 1981
A.A. Ali, A. Farouk, Comparative studies on the bioavailability of ampicillin anhydrate and trihydrate. International Journal of Pharmaceutics, Volume 9, Issue 3, Pages 239–243, (). http://dx.doi.org/10.1016/0378-5173(81)90049-1
- Andrieu et Müller 2005
Andrieu S., Müller P., Les surfaces solides : concepts et méthodes, Savoirs Actuels, EDP Sciences/CNRS editions,
- Armenante et Kirwan, 1989
Armenante P.M., Kirwan D.J., Mass transfer to microparticles in agitated systems, Chem. Engng. Sci., vol. 44, pp. 2781-2796,
- Ayazi Shamlou et coll., 1994
Ayazi Shamlou, P., Stavrinides, S., Titchener-Hooker, N. and Hoare, M., Growth-independent breakage frequency of protein precipitates in turbulently agitated bioreactors, Chem. Eng. Sci., 49, 2647-2656, .
- Ayazi, 1994
Ayazi Shamlou P., Stavrinides S., Titchener-Hooker N., Hoare M., Growth-independent breakage frequency of protein precipitates in turbulently agitated bioreactors, Chem. Eng. Sci., 49, , 2647.
- Bauer, 2003
Bauer M., La cristallisation des molécules, Conséquences en termes de polymorphisme et Faciès appliqués au domaine pharmaceutique. Concepts de base. STP Pharma Pratiques 13(2), pp1-15, ()
- Becker et Döring, 1935
Becker R., Döring, W., Kinetische Behandlung der Keimbildung in Übersättigten Dämpfen, Ann. Phys. , 24, , 719–752.
- Beek et Miller, 1959
Beek J., Miller R.S., Turbulent transport in chemical reactors, Chem. Eng. Progress Symp. Ser., vol. 25, pp. 23-38,
- Bennema et Hurle, 1993
Bennema P., Hurle D.T., Handbook of crystal growth – 1a Fundamentals :Thermodynamics and kinetics, Elsevier, , 481-577
- Bennet, 1969
R.C. Bennet, Chem. Eng. Progr. Symp. Ser., 95, 34,
- Béranger et Mazille 2005
Béranger G., Mazille H. , Approche scientifique des surfaces. Caractérisation et propriétés, M1425, ed. Techniques de l'ingénieur, pp 1-21,
- Boothroyd, 1971
Boothroyd R.G., Flowing gas-solids suspensions, Chapman and Hall,
- Botsaris, 1976
Botsaris G.D., Secondary nucleation-a review, in Industrial crystallization , Ed. J.W. Mullin, Plenum, New York, p. 3.
- Bourne et Davey, 1976
Bourne J. R., Davey R. J., The role of solvent-solute interactions in determining crystal growth mechanisms from solution : I. The surface entropy factor , J. Crystal Growth, 36 , , 278
- Brennen, 1982
Brennen C.E., a review of added mass and fluid inertial forces, technical report, CR 82.010, Naval civil engineering laboratory,
- Burton et coll. (BCF), 1951
Burton W.K., Cabrera N., Frank F.C., Phil. Trans. Roy. Soc., London, 243, , 299
- Cameirao et coll., 2006
A. Cameirao, F. Espitalier, R. David L. Rouleau, Validation of a model for multiple agglomeration, Chem. Eng.Technol., 29, 171-174,
- Cameirão, 2007
Cameirão A., Etude expérimentale et modélisation d'une précipitation avec agglomération entre cristaux de morphologie différentes : application au molybdate de strontium, Doctorat de l'institut polytechnique de Toulouse,
- Céolin et col., 1992
René Céolin, Siro Toscani, Viatcheslav Agafonov, and Jérôme Dugué, Phenomenology of polymorphism .1. pressure temperature representation of trimorphism - general rules - application to the case of dimethyl 3,6-dichloro-2,5- dihydroxyterephthalate, Journal of Solid State Chemistry 98 (), no. 2, 366–378. http://dx.doi.org/doi:10.1016/S0022-4596(05)80247-6
- Chauvet et col., 1992
Alain Chauvet, Jacqueline Masse, Jean-Paul Ribet, Dennis Bigg, Jean-Marie Autin, Jean-Louis Maurel, Jean-François Patoiseau, et Joel Jaud, Characterization of polymorphs and solvates of 3-amino-1-(m- trifluoromethylphenyl)-6-methyl-1h-pyridazin-4-one, Journal of Pharmaceutical Sciences, 81, (), no. 8, 836–841. http://dx.doi.org/10.1002/jps.2600810824
- Cheng et coll. 2006
Cheng Y. C., Lobo R. F., Sandler S. I. and Lenhoff A. M., Kinetics and equilibria of protein precipitation and crystallization in concentrated ammonium sulfate solutions, Biotech. Bioeng., 94, p. 177-188,
- Cournil et Gohar, 1989
Cournil M., Gohar P., Thermodynamic model of supersaturated liquid solutions. Application to the homogeneous nucleation of potassium sulfate, J. Coll. Inter. Sci., 132, ,188-199.
- Danner et Daubert, 1983
Danner R.P., Daubert, T.E., Manual for predicting Chemical Process Design Data, Data Prediction Manual, Design institute for physical property data-American Institute of chemical Engineers (DIPPR-AICHE) New York,
- David et coll., 2003
R. David, F. Espitalier, A.Cameirao, L. Rouleau, Developments in the understanding and modelling of agglomeration of suspended crystals in crystallisation, Kona, 21, 40-53,
- David et Xuereb 2006
David R., Xuereb C. , Agitation et mélange, chap. 4, Dunod , Paris,
- de Villiers et col., 1992
de Villiers MM, van der Watt JG, Lotter AP. Kinetic study of the solid-state photolytic degradation of two polymorphic forms of furosemide. Int J Pharm ; 88:275–283, ().
- Demo et Kozisek, 1993
Demo P., Kozisek Z., Homogeneous nucleation process. Analytical approach, Phys. Rev.B, 48, , 3620-3625.
- Dillmann et Meier, 1989
Dillmann A., Meier G.E.A., Homogeneous nucleation from supersaturated vapour, Chem. Phys. Lett., 160, ,71-74.
- Espitalier et coll. 1995
Espitalier F., Biscans B., Sere Peyrigain P., Laguérie, Ternary diagram : pharmaceutical drug in acetone-water mixtures at different temperatures. Experimental data and predicted results. Fluid Phase Equilibria, vol. 113, pp. 151-171,
- Fuchs, 1934
Fuchs N., Z. Physik. 89, 736,
- Garside et Coll., 2002
J. Garside, A. Mersmann, J. Nyvlt, Measurement of crystal growth and nucleation rates, Institution of chemical Engineers, , pp1-202
- Garside, 1977
Garside J., Crystal Growth and Materials, Eds E. Kaldis, Scheel H.J., Amsterdam,
- Gilmer et Bennema, 1972
Gilmer G.H., Bennema P., Simulation of Crystal Growth with Surface Diffusion, J. Appl. Phys., 43, , 1347
- Ginde et Myerson, 1992
Ginde R.M., Myerson A.S., Cluster size estimation in binary supersaturated solutions, J. Cryst. Growth, 116, , 41-49.
- Giron, 1995
Giron D., Thermal analysis and calorimetric methods in the characterisation of polymorphs and solvates, Thermochimica Acta, 248, pp1-59, (). http://dx.doi.org/10.1016/0040-6031(94)01953-E
- Girshick et Chiu, 1990
Girshick S.L., Chiu C.P., Kinetic nucleation theory : a new expression for the rate of homogeneous nucleation from an ideal supersaturated vapor, J. Chem. Phys., 93, , 1273-1277.
- Gmehling et coll., 1982
Gemhling J., Rasmussen P. and Fredeslund A., Vapor liquid equilibria by UNIFAC group contribution revision and extension 2. Ind Eng Chem Process Des Dev, 21, p118-127, .
- Goldman et coll., 1967
Goldman A.J., Cox R.G., Brenner H., slow viscous motion of a sphere parallel to a plane wall, Chem. Eng. Sci. 22, p637-651, p653-660,
- Grant et col., 1998
Rajendra Khankari, Linna Chen, David J. W. Grant, Physical characterization of nedocromil sodium hydrates ; Journal of Pharmaceutical Sciences, 87 (9) ;1052-1060, (). http://dx.doi.org/10.1021/js980106g
- Grenville et coll., 1992
Grenville R.K., Mak A.T.C., Ruszkowski S.W., Blending of fluids in mixing vessels by trubulent recirculating jets, The 1992 IchemE Research Event (UMIST), Manchester, UK, pp. 128-130, .
- Hamaker, 1937
Hamaker H.C., Physica, 4, 1058,
- Happel et Brenner, 1965
Happel J., Brenner H., low Reynolds number Hydrodynamics, Englewood Cliffs, N.J. : Prentice-Hall,
- Happel, 1958
Happel J. , A.I.Ch.E. Journal, 4, 197,
- Harnby et coll., 1997
N. Harnby, M.F.Edwards, A.W.Nienow, Mixing in the process industries, 2nd ed., Butterworth-Heinemann, London,
- Hayashi, 1973
Hayashi M., Improved Theory of the Growth of Perfect Crystals, J. Phys. Soc. Japan, 35, , 614
- Henck et col., 1999
Henck J.O, Kuhnert-Brandstatter M., Demonstration of the terms enantiotropy and monotropy in polymorphism research exemplified by flurbiprofen. J Pharm Sci, 88:103–108.()
- Herndl et Mersmann, 1981
Herndl G., Mersmann A., Fluid dynamics and mass transfer in stirred suspensions, Chem. Eng. Commun., vol. 13, pp. 23-37, 1981
- Houcine 1995
Houcine I., Étude du mélange dans une cuve agitée de taille pilote par conductimétrie et visualisation par nappe laser couplée à un traitement d'images, Thèse de l'Institut National Polytechnique de Lorraine, Nancy,
- Hounslow et coll., 2001
Hounslow M. et coll., A micromechanical model for the rate of agglomeration during precipitation from solution, Chem. Eng. Sci., 56, 2543-2552,
- Hurle, 1993
D.T. J. Hurle ; Handbook of Crystal Growth ; vol. 1 ; Elsevier ; ; chap. 6 ; 7
- Jackson, 1958
Jackson, K. A., Liquid Metals and Solidification, ASM Cleveland, , 174
- Jancic et Groostsholten, 1984
S.J. Jancic, P.A.M. Groostsholten, Industrial crystallysation - Chapter 3 - Crystal growth, Delft University press, , pp1-434
- Kaito et col , 1980
Kaito F., Goto Y., Kato Y., Chemical and Pharmaceutical Bulletin, 28, p 1240, ().
- Karpinski, 1996
P.H. Karpinski, 13th Symp. on Ind. Crystallization, Toulouse, 2, 727,
- Kashchiev et coll., 1991
Kashchiev D., Verdoes D., van Rosmalen G.M., Induction time and metastability limits in new phase formation, J. Cryst. Growth, 110, , 373-380.
- Kashchiev, 1969
Kashchiev D., Solution of the non-steady state problem nucleation kinetics, Surf. Sci., 14, , 209-220.
- Kashchiev, 2000
Kashchiev D., Nucleation, Butterworths, Oxford, .
- Katz et Widersich, 1977
Katz J.L., Widersich, H., Nucleation theory wthout Maxwell demons, J. Coll. Inter. Sci., 61, , 351-355.
- Kim et Lawrence, 1988
Kim S., Lawrence C.J., suspension mechanics for particle contamination control, Chem. Eng. Sci. 43, p991-1016,
- Komunjer et Pezron 2007
Komunjer L. and Pezron L., A New Experimental Method for Determination of Solubility and Hyper-solubility of Hygroscopic Solid , Colloque "science et technologie des poudres-poudres et matériaux frittés", Albi, France,
- Kozisek, 1991
Kozisek Z., Influence of the curvature dependence of interfacial energy on homogeneous nucleation kinetics, Cryst. Res. Technol., 26, , 3-10.
- Kusters, 1991
Kusters, K. A., The influence of turbulence on aggregation of small particles in agitated vessel, Ph.D. Thesis, Eindhoven University of Technology, The Netherlands,
- Leighton et Acrivos, 1985
Leighton et Acrivos, 1985
- Levins et Glastonbury 1972
Levins D.M., Glastonbury J.R., Particle-liquid hydrodynamics and mass transfer in a stirred vessel. Part II- Mass transfer, Trans. Inst. Chem. Eng., vol. 50, pp. 132-146,
- Liew et Hounslow, 2003
Liew T.L., Barrick J.P., Hounslow M.J., A micromechanical model for the rate of aggregation during precipitation from solution, Chem. Eng. Technol., 26, 282-285,
- Lifshitz, 1956
Lifshitz E.W., Soviet Phys. JETP, 2, 73,
- London, 1930
London F., Z. Physik. 63, 245,
- Lothe et Pound, 1962
Lothe J., Pound G.M., Reconsiderations on nucleation theory, 36, , 2080-2085.
- Marchal et coll., 1988
P.Marchal, R.David, J.Villermaux, J.P.Klein, Crystallization and Precipitation Engineering: I-An efficient method for solving population balance in crystallization with agglomeration, Chem.Engng.Sci.,43,59-67,
- Mathas et coll., 2004
Matas J.P., Morris J.F., Guazzelli E., lateral forces on a sphere, Oil and gas science and technology, rev. IFP, 59, p59-70,
- Mersmann et coll. 1998
Mersmann A., Werner F., Maurer S., Bartosch K., Theoretical prediction of the minimum stirrer speed in mechanically agitated suspensions, Chem. Eng. Process., vol. 37, pp. 503-510,
- Mersmann, 2001
A. Mersmann, Crystallization Technology Handbook, 2nd edition, Marcel DEKKER, Inc. New York,
- Mersmann, 2001
A. Mersmann; Crystallization Technology Handbook ; second edition ; Marcel Dekker ;
- Mersmann, 2001
Mersmann A., Crystallization Technology Handbook, M.Dekker, New York, Bâle, 2nd édition,
- Midoux 1993
Midoux N., Mécanique et rhéologie des fluides en génie chimique, Lavoisier Tec Doc, Paris,
- Molerus et Latzel, 1987
Molerus O., Latzel W., Chem. Eng. Sci. 42 p1423,
- Morris, 1999
K .R. Morris, Structural Aspects of Hydrates and Solvates,in Polymorphism in Pharmaceutical Solids, G.Brittain Ed., Marcel Dekker, New York,, chapitre 4, pp125-121
- Mullin, 1972
Mullin J. W., Crystallization, Second edition, publié par Butterworth, .
- Mullin, 2004
Mullin J. W., Crystallization, 4th Ed., Elsevier, Oxford,
- Myerson et Lo, 1990
Myerson A.S., Lo P.Y., Diffusion and cluster formation in supersaturated solution, J. Crys. Growth, 99, 1990, 1048-1052.
- Myerson, 2002
A. S. Myerson ; Handbook of industrial Crystallization ; second edition ; Butterworth – Heinemann ;
- Nagata 1975
Nagata, Mixing, ?,
- Nielsen, 1964
Nielsen A. E., Kinetics of Precipitation, Pergamon, Oxford,
- Nielsen, 1984
Nielsen A. E., J. Crystal Growth, Electrolyte crystal growth mechanisms, 67, , 289
- Nienow 1997
Nienow A.W. , Mixing in the Process Industries, 2nd ed., Butterworth Heinemann, London,
- Nyvlt, 1983
Nyvlt J., Induction period of nucleation and metastable zone width, Collect Czech Chem Commun 48, , 1977–1983.
- Obretevnov et coll., 1989
Obretenov W., Kaschiev D., Bostanov V., Unified description of the rate of nucleation-mediated crystal growth, J. Crystal Growth, 96, , 843
- Ottewill et Wilkins, 1960
Ottewill R.H., Wilkins D.J, J. Colloid Science, 15, 512,
- Oxtoby, 1992
Oxtoby D.W., Homogeneous nucleation : theory and experiment, J. Phys. Cond. Matter, 4, , 7627-7650.
- Ploss et Mersmann, 1989
Ploss R., Mersmann A., A new model of the effect of stirring intensity on the rate of secondary nucleation, Chem. Eng. Technol., 12, , 137-146
- Pohlisch et Mersmann, 1988
Pohlisch J., Mersmann A., The influence of stress and attrition on crystal size distribution, Chem. Eng. Technol., 11, , 40-49
- Randolph et Larson, 1988
Randolph A.D., Larson M.A., Theory of particulate processes, Acad. Press, New York,
- Reiss et coll., 1990
Reiss H., Tabazadeh A., Talbot J., Molecular theory of vapor phase nucleation : the physically consistent cluster, J. Chem. Phys., 92, , 1266-1274.
- Reiss, 1970
Reiss H., Treatment of droplike clusters by means of the classical phase integral in nucleation theory, J. Stat. Phys., 2, , 83-104.
- Reynolds 1883
Reynolds O., An experimental investigation of whether the motion of water in parallel channels shall be direct or sinuous and of the law of resistance in parllel channels, Philosoph. Trans. R. Soc. London Ser. A, 174, p 935,
- Richardson et Zaki 1954
Richardson J.F., Zaki W.N., Sedimentation and fluidisation: part1, Trans. Inst. Chem. Eng., vol. 32, pp. 35-41,
- Rieger et Ditl, 1994
F. Rieger, P. Ditl, Chem. Eng. Sci., 49 p2219,
- Rostami et coll., 2006
Rostami M., A. Ardeshir A., G. Ahmadi G., Thomas P.J., can the history force be neglected for the motion of particles at high subcritical Reynolds number range, IJE Transactions B : Applications, 19, p23-34,
- Ruckenstein et Nowakowski, 1990
Ruckenstein E., Nowakowski B., A kinetic theory of nucleation in liquids, J. Coll. Inter. Sci., 137, , 583-592.
- Sauceau 2001
Sauceau M., Mesure et modélisation de la solubilité de composés solides dans des fluides supercritiques : application à la génération de poudres, Doctorat de l'Ecole des Mines de Paris,
- Sauceau et coll. 2000
Sauceau M., Fages J., Letourneau J. J., Richon D., A novel apparatus for accurate measurements of solid solubilities in supercritical phases, Ind. Eng. Chem. Res., vol. 39, pp 4609-4614,
- Schenkel et Kitchener, 1960
Schenkel, J. H. and Kitchener, J. A., Trans. Farad. Soc., 56, 161,
- Shi et coll.,1990
Shi G., Seinfeld J.H., Okuyama K., Transient kinetics of nucleation, 41, , 2101-2108.
- Simon, Grassi et Boistelle, 1974
Simon B., Grassi A., Boistelle R., Cinétique de croissance de la face (110) de la paraffine C36H74, J. Crystal Growth, 26, 77,
- Singh et col., 1998
Singh D., Marshall P., Shield L., YorkP., Solid-state characterization of chlordiazepoxide polymorphs, J.Pharm.Sci., 87 (5), 655-662, (), http://dx.doi.org/10.1021/js960385c
- Söhnel et Garside, 1992
Söhnel O. and Garside J., Precipitation : basic principles and industrial applications, Butterworth Heinemann, Oxford, .
- Söhnel et Garside, 1992
O. Söhnel ; J. Garside ; Precipitation : basic principles and industrial applications ; Butterworth – Heinemann ;
- Söhnel et Mullin, 1988
Söhnel O., Mullin J.W., Interpretation of crystallization induction periods, J. Coll. Inter. Sci., 123, , 43-50.
- Sonntag et Russel, 1987
Sonntag, R. C., and Russel, W. B., Structure and breakup of flocs subjected to fluid stresses: II. theory, J. Coll. Interface Sci., 115, 378-389,
- Spielman, 1970
Spielman, L. A., J. Coll. Interface. Sci., 33, 562,
- Synowiec, 1993
Synowiec P, Jones A.G., Shamlou P.A., Crystal break-up in dilute turbulently agitated suspensions, Chem. Eng. Sci. 48, , 3485-3495
- Tai et Wu, 1992
Tai C.Y., Wu J.F., Interfacial supersaturation, secondary nucleation, and crystal growth, J. Cryst. Growth, 116, , 294-306.
- Triboulet, 1990
Triboulet P. , Influence d'impuretés sur les processus de cristallisation de l'orthophosphate monipotassique (KDP) en solution aqueuse, Thèse de doctorat INPG et ENSMSE,
- Vanni, 2000
Vanni M., Chem. Eng. Sci., 55, 685,
- Verwey et Overbeek, 1948
Verwey, E. J. W.and Overbeek, J. T. G., Theory of the Stability of Lyophobic Colloids, Elsevier, Amsterdam,
- Vidal 1997
Vidal J., Thermodynamique : application au génie chimique et à l'industrie pétrolière, ed Technip Paris n°ISBN 2-7108-0715-7,
- Vinogradova, 1999
Vinogradova O.I., slippage of water over hydrophobic surfaces, Int. J. Miner. Process. 56, p31-60,
- Voit et Mersmann, 1985
Voit H., Mersmann A., Chem. Ing. Tech. 57 p692,
- Volmer et Weber, 1926
Volmer M., Weber A., Keimbildung in übersättigten Gebilden, Z. Phys. Chem., 119, , 277-301.
- Volmer et Weber, 1926
Volmer, M., Weber, A., Keimbildung in ubersattigten Gebilden, Z. Phys. Chem. 119, , 277
- Von Smoluchowski, 1916
Smoluchowski M., Physik. Z. 17, 557, 585,
- Von Smoluchowski, 1917
Smoluchowski M., Z. Physik. Chem. 92, 129,
- Zeebe et Wolf-Gladrow, 2001
Zeebe R. E. et Wolf-Gladrow CO2 in seawater : equilibrium, kinetics, isotopes Elsevier Amsterdam
- Zeldovich, 1943
Zeldovich Y.B., Theory of formation of a new phase, Acta Physicochim. USSR, 18, , 1.
- Zhukovitskii, 1994
Zhukovitskii D.I., Size corrected theory of homogeneous nucleation, J. Chem. Phys., 101, , 5076-5080.
- Zwietering 1958
Zwietering Th. N., Suspending solid particles in liquids by agitation , Chem. Engng Sc., vol. 8, pp. 244-253,