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Journal of Dispersion Science and Technology Volume 4, 1983 - Issue 2
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Original Articles

SURFACTANT-OIL-WATER SYSTEMS NEAR THE AFFINITY INVERSION PART II: VISCOSITY OF EMULSIFIED SYSTEMS

J. L. Salager Lab. FIRP, School of Chemical Engineering Universidad de los Andes, Mérida, Venezuela
,
M. Mi≁ana-Pérez Lab. FIRP, School of Chemical Engineering Universidad de los Andes, Mérida, Venezuela
,
J. M. Andérez Lab. FIRP, School of Chemical Engineering Universidad de los Andes, Mérida, Venezuela
,
J. L. Grosso Lab. FIRP, School of Chemical Engineering Universidad de los Andes, Mérida, VenezuelaView further author information
,
C. I. Rojas Lab. FIRP, School of Chemical Engineering Universidad de los Andes, Mérida, Venezuela
,
I. Layrisse Los Teques, Venezuela
&
S.A. INTEVEP Los Teques, Venezuela
 show all
Pages 161-173 | Published online: 28 Mar 2007

Citations (49)

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Duo Wei, Lingling Ge, Stig E. Friberg & Rong Guo. (2011) Viscosity Variation During Evaporation of a Vegetable Oil Emulsion Stabilized by Tween 80R. Journal of Dispersion Science and Technology 32:2, pages 141-149.
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Marta Rámirez, Johnny Bullón, José Andérez, Isabel Mira & Jean-Louis Salager. (2002) Drop Size Distribution Bimodality and Its Effect on O/W Emulsion Viscosity. Journal of Dispersion Science and Technology 23:1-3, pages 309-321.
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Matilde MIÑANA-PEREZ, Caroline GUTRON, Carine ZUNDEL, JoséM. ANDEREZ & JeanL. SALAGER. (1999) MINIEMULSION FORMATION BY TRANSITIONAL INVERSION. Journal of Dispersion Science and Technology 20:3, pages 893-905.
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Raquel Antón, Hercilio Rivas & Jean-Louis Salager. (1996) SURFACTANT-OIL-WATER SYSTEMS NEAR THE AFFINITY INVERSION. PART X: EMULSIONS MADE WITH ANIONIC-NONIONIC SURFACTANT MIXTURES.. Journal of Dispersion Science and Technology 17:6, pages 553-566.
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N. Marquez, R.E. Anton, A. Usubillaga & J.L. Salager. (1993) Experimental Conditions for HPLC Analysis of Ethoxylated Alkyl Phenol Surfactants in Microemulsion Systems. Part I. Isocratic Mode with Mixed Solvents. Separation Science and Technology 28:9, pages 1769-1782.
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J.L. Salager, G. Lopez-Castellanog, M. Mi[nbar]ana-Perez, C. Parra, C. Cucuphat, A. Graclaa & J. Lachaise. (1991) SURFACTANT-OIL-WATER SYSTEMS NEAR THE AFFINITY INVERSION: PART VII: PHASE BEHAVIOR AND EMULSIONS WITH POLAR OILS. Journal of Dispersion Science and Technology 12:1, pages 59-67.
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J. Lachaise, T. Breul, A. Graciaa, G. Marion, A. Monsalve & J.L. Salager. (1990) FOAMING PROPERTIES OF SURFACTANT-OIL-VATER SYSTEMS IN THE NEIGHBOURHOOD OF OPTIMUM FORMULATION. Journal of Dispersion Science and Technology 11:5, pages 443-453.
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J.L. Salager, G Lopéz-Castellanos & M. Miaña-Pérez. (1990) SURFACTANT-OIL-WATER SYSTEMS NEAR THE AFFINITY INVERSION: PART VI: EMULSIONS HITH VISCOUS HYDROCARBONS. Journal of Dispersion Science and Technology 11:4, pages 397-407.
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M. Miriana-Pérez, P. Jarry, M. Pérez-Sanchez, M. Ramirez-Gouveia & J.L. Salager. (1986) SURFACTAHT-OIL-WATER SYSTEMS NEAR THE AFFINITY INVERSION PART V: PROPERTIES OF EMULSIONS. Journal of Dispersion Science and Technology 7:3, pages 331-343.
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R. E. Antón, P. Castillo & J. L. Salager. (1986) SURFACTANT-OIL-WATER SYSTEMS NEAR THE AFFINITY INVERSION PART IV: EMULSION INVERSION TEMPERATURE. Journal of Dispersion Science and Technology 7:3, pages 319-329.
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F. M. Rabagliati, A. C. Falcón, D. A. González, C. Martín, R. E. Antón & J. L. Salager. (1986) POLYMERIZATION OF STYRENE IN LOW INTERFACIAL TENSION MICROEMULSION-OIL-WATER THREE-PHASE SYSTEMS. Journal of Dispersion Science and Technology 7:2, pages 245-258.
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R. E. Antón & J. L. Salager. (1985) AN IMPROVED GRAPHIC METHOD TO CHARACTERIZE A SURFACTANT. Journal of Dispersion Science and Technology 6:2, pages 245-253.
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Ronald Marquez, Jesús F. Ontiveros, Nelson Barrios, Laura Tolosa, Gerardo Palazzo, Véronique Nardello‐Rataj & Jean Louis Salager. (2023) Advantages and limitations of different methods to determine the optimum formulation in surfactant–oil–water systems: A review. Journal of Surfactants and Detergents 27:1, pages 5-36.
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Lucie Delforce, Jesús F. Ontiveros, Véronique Nardello-Rataj & Jean-Marie Aubry. (2023) Rational design of O/W nanoemulsions based on the surfactant dodecyldiglyceryl ether using the normalized HLD concept and the formulation-composition map. Colloids and Surfaces A: Physicochemical and Engineering Aspects 671, pages 131679.
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Jinpeng Gao, Daniel Rossi, Xuhong Chen, Francis Choi, Joseph Borst, Jeanne Hankett, Padma Prabodh Varanasi & Zhan Chen. (2023) Corn Oil–Water Separation: Interfacial Behavior of Extended Surfactant and Glutelin. Langmuir 39:29, pages 10088-10097.
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Davide Schirone, Luigi Gentile, Ulf Olsson & Gerardo Palazzo. (2022) Optimum formulation conditions for cationic surfactants via rheo-titration in turbulent regime. Colloids and Surfaces A: Physicochemical and Engineering Aspects 648, pages 129154.
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Ahmed Al-Mohammedawi & Konrad Mollenhauer. (2022) Current Research and Challenges in Bitumen Emulsion Manufacturing and Its Properties. Materials 15:6, pages 2026.
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Davide Schirone, Giuseppe Tartaro, Luigi Gentile & Gerardo Palazzo. (2021) An HLD framework for cationic ammonium surfactants. JCIS Open 4, pages 100033.
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Guillaume Lemahieu, Jesús F. Ontiveros, Nathaniel Terra Telles Souza, Valérie Molinier & Jean-Marie Aubry. (2021) Fast and accurate selection of surfactants for enhanced oil recovery by dynamic Salinity-Phase-Inversion (SPI). Fuel 289, pages 119928.
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Jean-Marie Aubry, Jesús F. Ontiveros, Jean-Louis Salager & Véronique Nardello-Rataj. (2020) Use of the normalized hydrophilic-lipophilic-deviation (HLDN) equation for determining the equivalent alkane carbon number (EACN) of oils and the preferred alkane carbon number (PACN) of nonionic surfactants by the fish-tail method (FTM). Advances in Colloid and Interface Science 276, pages 102099.
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Guillaume Lemahieu, Jesus F. Ontiveros, Valérie Molinier & Jean-Marie Aubry. (2019) Using the dynamic Phase Inversion Temperature (PIT) as a fast and effective method to track optimum formulation for Enhanced Oil Recovery. Journal of Colloid and Interface Science 557, pages 746-756.
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Ronald Marquez, Raquel Antón, Francia Vejar, Jean‐Louis Salager & Ana M. Forgiarini. (2019) New Interfacial Rheology Characteristics Measured Using a Spinning Drop Rheometer at the Optimum Formulation. Part 2. Surfactant–Oil–Water Systems with a High Volume of Middle‐Phase Microemulsion. Journal of Surfactants and Detergents 22:2, pages 177-188.
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Sylvain Prévost, Michael Gradzielski & Thomas Zemb. (2017) Self-assembly, phase behaviour and structural behaviour as observed by scattering for classical and non-classical microemulsions. Advances in Colloid and Interface Science 247, pages 374-396.
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Mercado Ronald & Fuentes Pumarejo Luis. (2016) Asphalt emulsions formulation: State-of-the-art and dependency of formulation on emulsions properties. Construction and Building Materials 123, pages 162-173.
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Christel Pierlot, Jesus F. Ontiveros, Marianne Catté, Jean-Louis Salager & Jean-Marie Aubry. (2016) Cone–Plate Rheometer as Reactor and Viscosity Probe for the Detection of Transitional Phase Inversion of Brij30–Isopropyl Myristate–Water Model Emulsion. Industrial & Engineering Chemistry Research 55:14, pages 3990-3999.
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Musa R. Kamal, Leszek A. Utracki & A. Mirzadeh. 2014. Polymer Blends Handbook. Polymer Blends Handbook 725 873 .
Jingjing Jiang, Zhen Mei, Jian Xu & Dejun Sun. (2013) Effect of inorganic electrolytes on the formation and the stability of water-in-oil (W/O) emulsions. Colloids and Surfaces A: Physicochemical and Engineering Aspects 429, pages 82-90.
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R. M. Charin, M. Nele & F. W. Tavares. (2013) Transitional Phase Inversion of Emulsions Monitored by in Situ Near-Infrared Spectroscopy . Langmuir 29:20, pages 5995-6003.
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Aldo Pizzino, Valérie Molinier, Marianne Catté, Jesús F. Ontiveros, Jean-Louis Salager & Jean-Marie Aubry. (2013) Relationship between Phase Behavior and Emulsion Inversion for a Well-Defined Surfactant (C 10 E 4 )/ n -Octane/Water Ternary System at Different Temperatures and Water/Oil Ratios . Industrial & Engineering Chemistry Research 52:12, pages 4527-4538.
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Carlos A. Carrillo, Daniel Saloni & Orlando J. Rojas. (2013) Evaluation of O/W microemulsions to penetrate the capillary structure of woody biomass: interplay between composition and formulation in green processing. Green Chemistry 15:12, pages 3377.
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Jean-Louis Salager, Ana María Forgiarini, Raquel Elena Antón & Lirio Quintero. (2012) Available Know-how in Transforming an Emulsified Drilling Fluid To Be Removed from an Unwanted Location into a Low-Viscosity Single-Phase System. Energy & Fuels 26:7, pages 4078-4085.
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Emilio Paruta-Tuarez, Véronique Sadtler, Philippe Marchal, Lionel Choplin & Jean-Louis Salager. (2011) Making Use of the Formulation−Composition Map To Prepare Highly Concentrated Emulsions with Particular Rheological Properties. Industrial & Engineering Chemistry Research 50:4, pages 2380-2387.
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Shahriar Sajjadi. (2007) Formation of fine emulsions by emulsification at high viscosity or low interfacial tension; A comparative study. Colloids and Surfaces A: Physicochemical and Engineering Aspects 299:1-3, pages 73-78.
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Marianna Rondón-Gonzaléz, Véronique Sadtler, Lionel Choplin & Jean-Louis Salager. (2006) Emulsion Catastrophic Inversion from Abnormal to Normal Morphology. 5. Effect of the Water-to-Oil Ratio and Surfactant Concentration on the Inversion Produced by Continuous Stirring. Industrial & Engineering Chemistry Research 45:9, pages 3074-3080.
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Eric Tyrode, Joachim Allouche, Lionel Choplin & Jean-Louis Salager. (2004) Emulsion Catastrophic Inversion from Abnormal to Normal Morphology. 4. Following the Emulsion Viscosity during Three Inversion Protocols and Extending the Critical Dispersed-Phase Concept. Industrial & Engineering Chemistry Research 44:1, pages 67-74.
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Jean L Salager, Raquel E Antón, María I Briceño, Lionel Choplin, Laura Márquez, Aldo Pizzino & María P Rodriguez. (2003) The emergence of formulation engineering in emulsion making—transferring know‐how from research laboratory to plant. Polymer International 52:4, pages 471-478.
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L. A. Utracki & M. R. Kamal. 2003. Polymer Blends Handbook. Polymer Blends Handbook 449 546 .
Jong-Moon Lee, Kyung-Hee Lim & Duane H. Smith. (2002) Formation of Two-Phase Multiple Emulsions by Inclusion of Continuous Phase into Dispersed Phase. Langmuir 18:20, pages 7334-7340.
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Jean-Louis Salager, Laura Márquez, Alejandro A. Peña, Miguel Rondón, Félix Silva & Eric Tyrode. (2000) Current Phenomenological Know-How and Modeling of Emulsion Inversion. Industrial & Engineering Chemistry Research 39:8, pages 2665-2676.
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Françoise Nielloud & Gilberte Marti-MestresJean-Louis Salager. 2000. Pharmaceutical Emulsions and Suspensions. Pharmaceutical Emulsions and Suspensions 73 125 .
Shuihan Zhu & Chi-Ming Chan. (1998) Transition of phase continuity induced by crosslinking and interfacial reaction during reactive processing of compatibilized PVC/SBR blends. Polymer 39:26, pages 7023-7032.
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Uttandaraman Sundararaj, C. W. Macosko & Chi‐Kai Shih. (2004) Evidence for inversion of phase continuity during morphology development in polymer blending. Polymer Engineering & Science 36:13, pages 1769-1781.
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J. -L. Salager, M. Perez-Sanchez & Y. Garcia. (1996) Physicochemical parameters influencing the emulsion drop size. Colloid & Polymer Science 274:1, pages 81-84.
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L. A. Utracki. 1993. Rheological Measurement. Rheological Measurement 479 594 .
R.E Anton & J.L Salager. (1990) Effect of the electrolyte anion on the salinity contribution to optimum formulation of anionic surfactant microemulsions. Journal of Colloid and Interface Science 140:1, pages 75-81.
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Jeng Shung Hwang, Hung Jang Gi, Pailin Wu & Shou Nan Chen. (2013) Studies of Photon Correlation Spectroscopy of the Microemulsion of H 2 O/Tween 80/Benzene Derivative . Journal of the Chinese Chemical Society 37:3, pages 223-229.
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Raquel E Antón & Jean-Louis Salager. (1986) Emulsion instability in the three-phase behavior region of surfactant-alcohoi-oil-brine systems. Journal of Colloid and Interface Science 111:1, pages 54-59.
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Philippe Jarry, Matilde Miñana-Pérez & Jean L. Salager. 1987. Surfactants in Solution. Surfactants in Solution 1689 1696 .
Jean-Louis Salager. (1985) Phase behavior of amphiphile—oil—water systems related to the butterfly catastrophe. Journal of Colloid and Interface Science 105:1, pages 21-26.
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