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M. Dolores Saquete - One of the best experts on this subject based on the ideXlab platform.
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Liquid–liquid–solid equilibria for Ternary Systems water + lithium chloride + pentanols
Fluid Phase Equilibria, 2004Co-Authors: V. Gomis, N Boluda, F. Ruiz, M. Dolores SaqueteAbstract:Liquid–liquid–solid equilibria for the Ternary Systems water+ lithium chloride+ 1-pentanol, water+ lithium chloride+ 2-pentanol, water + lithium chloride + 3-pentanol, water + lithium chloride + 2-methyl-1-butanol and water + lithium chloride + 2-methyl-2-butanol have been measured at 25 ºC. The liquid–liquid equilibrium (LLE) data obtained were regressed using electrolyte NRTL. The model is unable to predict the S shaped solubility curve in the organic branch produced by the possible formation of the solvate alcohol—LiCl.The authors wish to thank the Ministerio de Ciencia y Tecnología (Spain) for the financial aid with of Project BQU2000-0212
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liquid liquid solid equilibria for Ternary Systems water sodium chloride pentanols
Journal of Chemical & Engineering Data, 1999Co-Authors: Vicente Gomis, Francisco Ruiz, N Boluda, M. Dolores SaqueteAbstract:Liquid-liquid-solid equilibria for the Ternary Systems water + sodium chloride + 1-pentanol, water + sodium chloride + 2-pentanol, water + sodium chloride + 3-pentanol, water + sodium chloride + 2-methyl-1-butanol, and water + sodium chloride + 2-methyl-2-butanol have been measured at 25 °C. The data obtained have been fitted by the Setschenov equation.
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Liquid-liquid-solid equilibria for Ternary Systems water + sodium chloride + pentanols
Journal of Chemical & Engineering Data, 1999Co-Authors: Vicente Gomis, Francisco Ruiz, N Boluda, M. Dolores SaqueteAbstract:Liquid-liquid-solid equilibria for the Ternary Systems water + sodium chloride + 1-pentanol, water + sodium chloride + 2-pentanol, water + sodium chloride + 3-pentanol, water + sodium chloride + 2-methyl-1-butanol, and water + sodium chloride + 2-methyl-2-butanol have been measured at 25 °C. The data obtained have been fitted by the Setschenov equation.
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Liquid-liquid-solid equilibria for the Ternary Systems butanols + water + sodium chloride or + potassium chloride
Journal of Chemical & Engineering Data, 1996Co-Authors: Vicente Gomis, Francisco Ruiz, And Juan Carlos Asensi, M. Dolores SaqueteAbstract:Liquid−liquid−solid equilibria for the Ternary Systems water + sodium choride + 2-butanol, water + sodium choride + 2-methyl-1-propanol, water + sodium choride + 2-methyl-2-propanol, water + potassium chloride + 1-butanol, water + potassium chloride + 2-butanol, water + potassium chloride + 2-methyl-1-propanol, and water + potassium chloride + 2-methyl-2-propanol have been measured at 25 °C.
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Liquid-liquid-solid equilibria for the Ternary Systems water-sodium chloride or potassium chloride-1-propanol or 2-propanol
Fluid Phase Equilibria, 1994Co-Authors: Vicente Gomis, Francisco Ruiz, Guillermo De Vera, Eladio López, M. Dolores SaqueteAbstract:Abstract Gomis V., Ruiz F., De Vera G., Lopez E. and Saquete M.D., 1994. Liquid-liquid-solid equilibria for the Ternary Systems water-sodium chloride or potassium chloride-1-propanol or 2-propanol. Fluid Phase Equilibria, 98:141-147. Liquid-liquid-solid equilibria for the Ternary Systems water-sodium chloride-1-propanol, water-potassium chloride-1-propanol, water-sodium chloride-2-propanol and water-potassium chloride-2-propanol have been measured at 25°C. The salt effect on the water miscible organic compound is greater with NaCl than with KC1, and greater on the 1-propanol than on the 2-propanol.
Vicente Gomis - One of the best experts on this subject based on the ideXlab platform.
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liquid liquid solid equilibria for Ternary Systems water sodium chloride pentanols
Journal of Chemical & Engineering Data, 1999Co-Authors: Vicente Gomis, Francisco Ruiz, N Boluda, M. Dolores SaqueteAbstract:Liquid-liquid-solid equilibria for the Ternary Systems water + sodium chloride + 1-pentanol, water + sodium chloride + 2-pentanol, water + sodium chloride + 3-pentanol, water + sodium chloride + 2-methyl-1-butanol, and water + sodium chloride + 2-methyl-2-butanol have been measured at 25 °C. The data obtained have been fitted by the Setschenov equation.
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Liquid-liquid-solid equilibria for Ternary Systems water + sodium chloride + pentanols
Journal of Chemical & Engineering Data, 1999Co-Authors: Vicente Gomis, Francisco Ruiz, N Boluda, M. Dolores SaqueteAbstract:Liquid-liquid-solid equilibria for the Ternary Systems water + sodium chloride + 1-pentanol, water + sodium chloride + 2-pentanol, water + sodium chloride + 3-pentanol, water + sodium chloride + 2-methyl-1-butanol, and water + sodium chloride + 2-methyl-2-butanol have been measured at 25 °C. The data obtained have been fitted by the Setschenov equation.
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Liquid-liquid-solid equilibria for the Ternary Systems butanols + water + sodium chloride or + potassium chloride
Journal of Chemical & Engineering Data, 1996Co-Authors: Vicente Gomis, Francisco Ruiz, And Juan Carlos Asensi, M. Dolores SaqueteAbstract:Liquid−liquid−solid equilibria for the Ternary Systems water + sodium choride + 2-butanol, water + sodium choride + 2-methyl-1-propanol, water + sodium choride + 2-methyl-2-propanol, water + potassium chloride + 1-butanol, water + potassium chloride + 2-butanol, water + potassium chloride + 2-methyl-1-propanol, and water + potassium chloride + 2-methyl-2-propanol have been measured at 25 °C.
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Liquid-liquid-solid equilibria for the Ternary Systems water-sodium chloride or potassium chloride-1-propanol or 2-propanol
Fluid Phase Equilibria, 1994Co-Authors: Vicente Gomis, Francisco Ruiz, Guillermo De Vera, Eladio López, M. Dolores SaqueteAbstract:Abstract Gomis V., Ruiz F., De Vera G., Lopez E. and Saquete M.D., 1994. Liquid-liquid-solid equilibria for the Ternary Systems water-sodium chloride or potassium chloride-1-propanol or 2-propanol. Fluid Phase Equilibria, 98:141-147. Liquid-liquid-solid equilibria for the Ternary Systems water-sodium chloride-1-propanol, water-potassium chloride-1-propanol, water-sodium chloride-2-propanol and water-potassium chloride-2-propanol have been measured at 25°C. The salt effect on the water miscible organic compound is greater with NaCl than with KC1, and greater on the 1-propanol than on the 2-propanol.
Tao Zhang - One of the best experts on this subject based on the ideXlab platform.
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Isobaric Vapor–Liquid Equilibrium of tert-Butyl Alcohol + Water + Triethanolamine-Based Ionic Liquid Ternary Systems at 101.3 kPa
Journal of Chemical & Engineering Data, 2015Co-Authors: Zhigang Zhang, Qiang Zhang, Qinqin Zhang, Tao ZhangAbstract:Isobaric vapor–liquid equilibrium (VLE) data for the tert-butyl alcohol (t-BuOH) + water + triethanolamine (TEA), t-BuOH + water + triethanolamine formic acid ([TEA][Fc]), t-BuOH + water + triethanolamine acetic acid ([TEA][Ac]), and t-BuOH + water + triethanolamine lactic acid ([TEA][Lc]) Ternary Systems were measured at 101.3 kPa. The results indicated that all the three ILs produced a more obvious effect on the VLE behavior of t-BuOH + water system than TEA, and eliminated the azeotropic point in the whole concentration range. [TEA][Lc] was the best solvent for the separation of the t-BuOH + water system by extractive distillation among the three ILs investigated. The experimental VLE data for the Ternary Systems were correlated with the NRTL model equation, and good correlations were obtained with an average relative deviation of 2.4 %.
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isobaric vapor liquid equilibrium of tert butyl alcohol water triethanolamine based ionic liquid Ternary Systems at 101 3 kpa
Journal of Chemical & Engineering Data, 2015Co-Authors: Zhigang Zhang, Qiang Zhang, Qinqin Zhang, Tao ZhangAbstract:Isobaric vapor–liquid equilibrium (VLE) data for the tert-butyl alcohol (t-BuOH) + water + triethanolamine (TEA), t-BuOH + water + triethanolamine formic acid ([TEA][Fc]), t-BuOH + water + triethanolamine acetic acid ([TEA][Ac]), and t-BuOH + water + triethanolamine lactic acid ([TEA][Lc]) Ternary Systems were measured at 101.3 kPa. The results indicated that all the three ILs produced a more obvious effect on the VLE behavior of t-BuOH + water system than TEA, and eliminated the azeotropic point in the whole concentration range. [TEA][Lc] was the best solvent for the separation of the t-BuOH + water system by extractive distillation among the three ILs investigated. The experimental VLE data for the Ternary Systems were correlated with the NRTL model equation, and good correlations were obtained with an average relative deviation of 2.4 %.
Jingrui Zhao - One of the best experts on this subject based on the ideXlab platform.
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calphad type thermodynamic description of phase equilibria in the ti w m m zr mo nb Ternary Systems
The Journal of Chemical Thermodynamics, 2019Co-Authors: Chengliang Qiu, Senlin Cui, Peisheng Wang, Fanfei Min, Jiaqiang Zhou, Jingrui ZhaoAbstract:Abstract Based on the thermodynamic descriptions of constitutive binary Systems as well as the experimental phase equilibria data available in the literature, the Ti-W-M (M = Zr, Mo, Nb) Ternary Systems have been thermodynamically evaluated by the CALPHAD (CALculation of PHAse Diagram) approach. The solution phases, i.e. liquid and bcc, are described by the substitutional solution model. The binary phase W2Zr with the solubilities of Ti is modeled using the sublattice model. A set of self-consistent thermodynamic parameters is finally obtained for each of these Ternary Systems. Some representative isothermal and vertical sections are calculated. Comparisons between the calculated and measured phase diagrams show that the most of experimental data are satisfactorily reproduced by the present thermodynamic descriptions.
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CALPHAD-type thermodynamic description of phase equilibria in the Ti-W-M (M = Zr, Mo, Nb) Ternary Systems
The Journal of Chemical Thermodynamics, 2019Co-Authors: Qiu Chengliang, Senlin Cui, Peisheng Wang, Zhou Jiaqiang, Fanfei Min, Jingrui ZhaoAbstract:Abstract Based on the thermodynamic descriptions of constitutive binary Systems as well as the experimental phase equilibria data available in the literature, the Ti-W-M (M = Zr, Mo, Nb) Ternary Systems have been thermodynamically evaluated by the CALPHAD (CALculation of PHAse Diagram) approach. The solution phases, i.e. liquid and bcc, are described by the substitutional solution model. The binary phase W2Zr with the solubilities of Ti is modeled using the sublattice model. A set of self-consistent thermodynamic parameters is finally obtained for each of these Ternary Systems. Some representative isothermal and vertical sections are calculated. Comparisons between the calculated and measured phase diagrams show that the most of experimental data are satisfactorily reproduced by the present thermodynamic descriptions.
N Boluda - One of the best experts on this subject based on the ideXlab platform.
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Liquid–liquid–solid equilibria for Ternary Systems water + lithium chloride + pentanols
Fluid Phase Equilibria, 2004Co-Authors: V. Gomis, N Boluda, F. Ruiz, M. Dolores SaqueteAbstract:Liquid–liquid–solid equilibria for the Ternary Systems water+ lithium chloride+ 1-pentanol, water+ lithium chloride+ 2-pentanol, water + lithium chloride + 3-pentanol, water + lithium chloride + 2-methyl-1-butanol and water + lithium chloride + 2-methyl-2-butanol have been measured at 25 ºC. The liquid–liquid equilibrium (LLE) data obtained were regressed using electrolyte NRTL. The model is unable to predict the S shaped solubility curve in the organic branch produced by the possible formation of the solvate alcohol—LiCl.The authors wish to thank the Ministerio de Ciencia y Tecnología (Spain) for the financial aid with of Project BQU2000-0212
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liquid liquid solid equilibria for Ternary Systems water sodium chloride pentanols
Journal of Chemical & Engineering Data, 1999Co-Authors: Vicente Gomis, Francisco Ruiz, N Boluda, M. Dolores SaqueteAbstract:Liquid-liquid-solid equilibria for the Ternary Systems water + sodium chloride + 1-pentanol, water + sodium chloride + 2-pentanol, water + sodium chloride + 3-pentanol, water + sodium chloride + 2-methyl-1-butanol, and water + sodium chloride + 2-methyl-2-butanol have been measured at 25 °C. The data obtained have been fitted by the Setschenov equation.
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Liquid-liquid-solid equilibria for Ternary Systems water + sodium chloride + pentanols
Journal of Chemical & Engineering Data, 1999Co-Authors: Vicente Gomis, Francisco Ruiz, N Boluda, M. Dolores SaqueteAbstract:Liquid-liquid-solid equilibria for the Ternary Systems water + sodium chloride + 1-pentanol, water + sodium chloride + 2-pentanol, water + sodium chloride + 3-pentanol, water + sodium chloride + 2-methyl-1-butanol, and water + sodium chloride + 2-methyl-2-butanol have been measured at 25 °C. The data obtained have been fitted by the Setschenov equation.