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Multiple Solutions When Fitting Excess Gibbs Energy Models and Implications for Process Simulation Vasiliu D, Gottl Q, Brocker S, Burger J Chemie Ingenieur Technik, 93(3), 490, 2021 |
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CH4, C2H6, and C2H4 Phase Equilibria on SAPO-34 Using the Vacancy Solution Theory Masoudi-Nejad M, Fatemi S, Joda M Separation Science and Technology, 50(11), 1629, 2015 |
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A generalized reference state at constant volume for the prediction of phase equilibria from low pressure model parameters: Application to size-asymmetric systems and to the Wong-Sandler mixing rule Neau E, Escandell J, Raspo I Chemical Engineering Science, 66(18), 4148, 2011 |
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Measurements and thermodynamic modeling of the ethanol-water system with emphasis to the azeotropic region Voutsas EC, Pamouktsis C, Argyris D, Pappa GD Fluid Phase Equilibria, 308(1-2), 135, 2011 |
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Extraction of biofuels and biofeedstocks from aqueous solutions using ionic liquids Simoni LD, Chapeaux A, Brennecke JF, Stadtherr MA Computers & Chemical Engineering, 34(9), 1406, 2010 |
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Application of force field in Gibbs ensemble lattice statistics to model vapor/liquid equilibria Arturo SG, Knox DE Fluid Phase Equilibria, 252(1-2), 175, 2007 |
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Simultaneous prediction of interfacial tension and phase equilibria in binary mixtures - An approach based on cubic equations of state with improved mixing rules Mejia A, Segura H, Vega LF, Wisniak J Fluid Phase Equilibria, 227(2), 225, 2005 |
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Representation of liquid-liquid equilibria at low and high pressures using the EOS-G(E) mixing rules Ohta T, Todoriki H, Yamada T Fluid Phase Equilibria, 225(1-2), 23, 2004 |
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Redox energetics of SrFeO3-delta - a coulometric titration study Bakken E, Stolen S, Norby T, Glenne R, Budd M Solid State Ionics, 167(3-4), 367, 2004 |
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Modeling of microemulsion phase diagrams from excess Gibbs energy models Garcia-Sanchez F, Eliosa-Jimenez G, Salas-Padron A, Hernandez-Garduza O, Apam-Martinez D Chemical Engineering Journal, 84(3), 257, 2001 |