Search results for "Non-random two-liquid model"

showing 10 items of 93 documents

Isobaric Vapor–Liquid Equilibria of 1-Propanol + Water + Trifluoromethanesulfonate-Based Ionic Liquid Ternary Systems at 100 kPa

2011

Isobaric vapor–liquid equilibria (VLE) for the 1-propanol + 1-butyl-3-ethylimidazolium trifluoromethanesulfonate ([beim][triflate]), water + [beim][triflate], 1-propanol + 1-butyl-1-methylpyrrolidinium trifluoromethanesulfonate ([bmpyr][triflate]), and water + [bmpyr][triflate] binary systems, as well as the VLE for the 1-propanol + water + [beim][triflate] and 1-propanol + water + [bmpyr][triflate] ternary systems have been obtained at 100 kPa using a recirculating still. The salting-out effect on the 1-propanol produced by the [bmpyr][triflate] was stronger than that produced by the [beim][triflate], although for the IL concentrations used in this study the effect was not enough to break …

General Chemical EngineeringInorganic chemistryGeneral ChemistryElectrolytechemistry.chemical_compound1-PropanolchemistryAzeotropeIonic liquidNon-random two-liquid modelPhysical chemistryIsobaric processTernary operationTrifluoromethanesulfonateJournal of Chemical & Engineering Data
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Solvent Effects on Vapor–Liquid Equilibria of the Binary System 1-Hexene + n-Hexane

2012

In order to study the separation of 1-hexene and n-hexane, two solvents, 2-pentanol and ethyl-butyrate, are tested as possible entrainers for an extractive distillation. In this way, isobaric vapor–liquid equilibrium (VLE) data at 100 kPa have been measured for the two ternary systems formed by the initial mixture and one of the mentioned solvents: 1-hexene + n-hexane + ethyl butyrate and 1-hexene + n-hexane + 2-pentanol. VLE data for the four constituent binary systems have also been measured. These systems are 1-hexene + ethyl butyrate, n-hexane + ethyl butyrate, 1-hexene + 2-pentanol, and finally n-hexane + 2-pentanol. All binary systems show moderate positive deviations from the ideal b…

Hexanechemistry.chemical_compoundUNIQUACchemistryEthyl butyrateGeneral Chemical EngineeringAzeotropeNon-random two-liquid modelExtractive distillationThermodynamicsGeneral ChemistryBinary systemUNIFACJournal of Chemical & Engineering Data
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Liquid–liquid equilibria of the systems dipropyl ether+n-propanol+water and dipropyl ether+n-propanol+ethylene glycol at different temperatures

2007

Abstract In this work, experimental liquid–liquid equilibria (LLE) data of the dipropyl ether + n-propanol + water and dipropyl ether + n-propanol + ethylene glycol systems are presented. The LLE of both systems have been measured at 283.15 and 323.15 K. The equilibrium data presented are correlated using NRTL and UNIQUAC equations. The reliability of these models is tested by comparison with experimental results. Moreover, the solvent capabilities of water and ethylene glycol were compared, concluding that ethylene glycol is the best solvent to extract n-propanol.

N-PropanolUNIQUACChemistryGeneral Chemical EngineeringGeneral Physics and AstronomyAlcoholEtherPropanolSolventchemistry.chemical_compoundNon-random two-liquid modelOrganic chemistryPhysical chemistryPhysical and Theoretical ChemistryEthylene glycolFluid Phase Equilibria
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Isobaric vapor-liquid equilibria for binary and ternary systems composed of water, 1-propanol, and 2-propanol at 100 kPa

1996

Isobaric vapor−liquid equilibria data were obtained for the 2-propanol + 1-propanol binary system and the water + 1-propanol + 2-propanol ternary system at 100 kPa. The data were found to be thermodynamically consistent according to the Van Ness−Byer−Gibbs method for the binary system and according to the McDermott−Ellis method for the ternary one. The binary system is well represented by assuming ideal behavior. The binary interaction parameters obtained from this and our previous work are used to predict the vapor−liquid equilibrium for the ternary system using the UNIQUAC, NRTL, and Wilson models. The ternary system is well predicted from binary data.

PropanolActivity coefficientchemistry.chemical_compoundUNIQUACTernary numeral systemChemistryGeneral Chemical EngineeringNon-random two-liquid modelIsobaric processThermodynamicsGeneral ChemistryBinary systemTernary operation
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Vapor-liquid equilibria for the binary systems of methylcyclohexane with 1-propanol, 2-propanol, 1-butanol, and 2-butanol at 101.3 kPa

1997

Isobaric vapor−liquid equilibrium measurements at 101.3 kPa are reported for the binary systems methylcyclohexane + 1-propanol, + 2-propanol, + 1-butanol, and + 2-butanol. The systems show a strong positive deviation from ideality and present a minimum temperature azeotrope. The activity coefficients were found to be thermodynamically consistent by the methods of Van Ness−Byer−Gibbs and Wisniak. The date were correlated with five liquid-phase activity coefficient models (Margules, Van Laar, Wilson, NRTL, and UNIQUAC). According to the average deviations in temperature and in vapor composition the best model for the systems is NRTL.

PropanolActivity coefficientchemistry.chemical_compoundUNIQUACchemistryButanolAzeotropeGeneral Chemical EngineeringNon-random two-liquid modelThermodynamicsGeneral ChemistryMethylcyclohexane2-Butanol
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Isobaric Vapor−Liquid Equilibria for the Binary System 3-Methylpentane + Ethanol and for the Ternary System 2-Methyl-2-propanol + Ethanol + 3-Methylp…

2000

Isobaric vapor-liquid equilibria data were measured for the 3-methylpentane + ethanol binary system and 2-methyl-2-propanol + ethanol + 3-methylpentane ternary system at 101.3 kPa in a temperature range from 329 to 356 K. The data were found to be thermodynamically consistent according to the Van Ness-Byer-Gibbs method for the binary system and according to the McDermott-Ellis method for the ternary one. The binary system shows a minimum boiling azeotrope that boils at 327.9 K and contains 71.4 mol % 3-methylpentane. The binary interaction parameters obtained from this work and literature data are used to predict the vapor-liquid equilibrium for the ternary system using the UNIQUAC, NRTL, a…

Propanolchemistry.chemical_compoundTernary numeral systemUNIQUACchemistryGeneral Chemical EngineeringAzeotropeNon-random two-liquid modelIsobaric processThermodynamicsGeneral ChemistryBinary systemTernary operationJournal of Chemical & Engineering Data
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Isobaric Vapor−Liquid Equilibria for the Binary System 3-Methylpentane + 2-Methyl-2-propanol and for the Ternary System Methyl 1,1-Dimethylethyl Ethe…

1999

Isobaric vapor−liquid equilibria data were obtained for the 3-methylpentane + 2-methyl-2-propanol binary system and methyl 1,1-dimethylethyl ether + 3-methylpentane + 2-methyl-2-propanol ternary system at 101.3 kPa in a temperature range from 329 to 356 K. The data were found to be thermodynamically consistent according to the Van Ness−Byer−Gibbs method for the binary system and according to the McDermott−Ellis method for the ternary one. The binary system shows a minimum boiling azeotrope that boils at 333.4 K and contains 82.6 mol % of 3-methylpentane. The binary interaction parameters obtained from this work and literature data are used to predict the vapor−liquid equilibrium for the ter…

Propanolchemistry.chemical_compoundUNIQUACTernary numeral systemchemistryGeneral Chemical EngineeringAzeotropeNon-random two-liquid modelThermodynamicsGeneral ChemistryBinary systemTernary operation3-MethylpentaneJournal of Chemical & Engineering Data
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Influence of Some Ionic Liquids Containing the Trifluoromethanesulfonate Anion on the Vapor–Liquid Equilibria of the Acetone + Methanol System

2011

Isobaric vapor–liquid equilibria (VLE) for the binary systems acetone + 1-butyl-3-ethylimidazolium trifluoromethanesulfonate ([beim][triflate]), methanol + [beim][triflate], acetone + 1-butyl-1-methylpyrrolidinium trifluoromethanesulfonate ([bmpyr][triflate]), and methanol + [bmpyr][triflate] as well as the VLE for the acetone + methanol + [beim][triflate] and acetone + methanol + [bmpyr][triflate] ternary systems have been obtained at 100 kPa using a recirculating still. The addition of both ionic liquids to the solvent mixtures produced an important salting-out effect, and the azeotrope tended to disappear for small amounts of ionic liquid. The experimental binary data sets were independe…

Solventchemistry.chemical_compoundchemistryGeneral Chemical EngineeringAzeotropeInorganic chemistryIonic liquidAcetoneNon-random two-liquid modelGeneral ChemistryBinary systemMethanolTrifluoromethanesulfonateJournal of Chemical & Engineering Data
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Isobaric vapor–liquid equilibria for 1-propanol+water+lithium nitrate at 100 kPa

2002

Abstract Isobaric vapor–liquid equilibria for the binary systems 1-propanol+lithium nitrate and water+lithium nitrate and the ternary system 1-propanol+water+lithium nitrate have been measured at 100 kPa using a recirculating still. The addition of lithium nitrate to the solvent mixture produced an important salting-out effect and the azeotrope tends to disappear when the salt content increases. The two experimental binary data sets were independently fitted with the electrolyte NRTL model and the parameters of Mock’s model were estimated for each binary system. These parameters were used to predict the ternary vapor–liquid equilibrium using the same model and the values so obtained agreed …

Ternary numeral systemChromatographyLithium nitrateGeneral Chemical EngineeringAnalytical chemistryGeneral Physics and AstronomyPropanolchemistry.chemical_compoundchemistryAzeotropeNon-random two-liquid modelIsobaric processBinary systemPhysical and Theoretical ChemistryTernary operationFluid Phase Equilibria
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Using 1-Ethyl-3-methylimidazolium Trifluoromethanesulfonate as an Entrainer for the Extractive Distillation of Ethanol + Water Mixtures

2009

Isobaric vapor−liquid equilibria (VLE) for the ethanol + water + [emim][triflate] ternary system have been obtained at 100 kPa using a recirculating still. The ethanol + water binary system was also obtained. Furthermore, data were simulated with the Mock’s electrolyte nonrandom two-liquid (NRTL) model, using the solvent−solvent interaction parameters obtained from VLE data of the ethanol + water system and taking the solvent−ionic liquid (IL) interaction parameters for the other binary systems from previous works. The agreement between experimental and calculated data is very good, showing the predictive capacity of the model. The addition of [emim][triflate] produces the disappearance of …

Ternary numeral systemGeneral Chemical EngineeringAnalytical chemistryGeneral ChemistryMole fractionchemistry.chemical_compoundchemistryAzeotropeIonic liquidNon-random two-liquid modelExtractive distillationOrganic chemistryBinary systemTrifluoromethanesulfonateJournal of Chemical & Engineering Data
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