Thermodynamic micellizatin model of asphaltene precipitation from petroleum fluids AI Victorov, A Firoozabadi AIChE journal 42 (6), 1753-1764, 1996 | 251* | 1996 |
Thermodynamic properties of pure fluids and solutions from the hole group-contribution model NA Smirnova, AI Victorov Fluid Phase Equilibria 34 (2-3), 235-263, 1987 | 103 | 1987 |
High pressure VLE in alkanol+ alkane mixtures. Experimental results for n-butane+ ethanol,+ 1-propanol,+ 1-butanol systems and calculations with three EOS methods A Deák, AI Victorov, TW De Loos Fluid Phase Equilibria 107 (2), 277-301, 1995 | 82 | 1995 |
Fluid phase equilibria in water: natural gas component mixtures and their description by the hole group-contribution equation of state AI Victorov, A Fredenslund, NA Smirnova Fluid phase equilibria 66 (1-2), 187-210, 1991 | 53 | 1991 |
Molecular thermodynamics for micellar branching in solutions of ionic surfactants VA Andreev, AI Victorov Langmuir 22 (20), 8298-8310, 2006 | 49 | 2006 |
Description of asphaltene polydispersity and precipitation by means of thermodynamic model of self-assembly AI Victorov, NA Smirnova Fluid Phase Equilibria 158, 471-480, 1999 | 46 | 1999 |
Thermodynamic model of petroleum fluids containing polydisperse asphaltene aggregates AI Victorov, NA Smirnova Industrial & engineering chemistry research 37 (8), 3242-3251, 1998 | 35 | 1998 |
Modeling of the effects of ion specificity on the onset and growth of ionic micelles in a solution of simple salts SV Koroleva, AI Victorov Langmuir 30 (12), 3387-3396, 2014 | 33 | 2014 |
Molecular thermodynamics for swelling of a mesoscopic ionomer gel in 1: 1 salt solutions A Victorov, C Radke, J Prausnitz Physical Chemistry Chemical Physics 8 (2), 264-278, 2006 | 29 | 2006 |
Application of the hole quasi-chemical group contribution equation of state for phase equilibrium calculation in systems with association AI Victorov, A Fredenslund Fluid phase equilibria 66 (1-2), 77-101, 1991 | 23 | 1991 |
The strong specific effect of coions on micellar growth from molecular-thermodynamic theory SV Koroleva, AI Victorov Physical Chemistry Chemical Physics 16 (33), 17422-17425, 2014 | 22 | 2014 |
Solubility and binding of water in toluene solutions of asphaltenes DS Khvostichenko, SI Andersen, AI Viktorov Russian journal of applied chemistry 77, 1013-1018, 2004 | 21 | 2004 |
Molecular thermodynamics for swelling of a bicontinuous gel AI Victorov, CJ Radke, JM Prausnitz Molecular Physics 100 (14), 2277-2297, 2002 | 18 | 2002 |
Molecular thermodynamic modeling of gelation and demixing in solution of cross-associating chains S Tcyrulnikov, AI Victorov Macromolecules 46 (11), 4706-4715, 2013 | 17 | 2013 |
A simple analytical approach to electrostatics for nanoparticles with torus-like elements in 1: 1 electrolyte solution VA Andreev, AI Victorov Molecular Physics 105 (2-3), 239-247, 2007 | 17 | 2007 |
Effect of morphology of a swollen ionomer gel on its salt uptake AI Victorov Fluid phase equilibria 241 (1-2), 334-343, 2006 | 16 | 2006 |
Prediction of multiphase equilibria in associating fluids by a contact-site quasichemical equation of state IV Prikhodko, TW de Loos, AI Victorov International journal of thermophysics 16, 1287-1297, 1995 | 15 | 1995 |
Modeling of micelle-solution equilibria for mixed nonionic micelles with strong specific interactions in coronae: group-contribution approach AI Victorov Journal of Chemical & Engineering Data 59 (10), 2995-3002, 2014 | 14 | 2014 |
Molecular thermodynamic modeling of the morphology transitions in a solution of a diblock copolymer containing a weak polyelectrolyte chain AI Victorov, NV Plotnikov, PD Hong The Journal of Physical Chemistry B 114 (27), 8846-8860, 2010 | 14 | 2010 |
Phase equilibria modeling by the quasilattice equation of state for binary and ternary systems composed of carbon dioxide, water and some organic components IV Prikhodko, AI Victorov, NA Smirnova, TW De Loos Fluid phase equilibria 110 (1-2), 17-30, 1995 | 13 | 1995 |