Ionic liquids as entrainers

In this article presents the review of modern articles about experimental research and modeling of phase equilibrium of liquid – vapor and liquid – liquid in binary and triple component mixtures that are formed by ionic liquids with various organic substances and also application of ionic liquids in separation processes.

ионные жидкости, фазовое равновесие жидкость-пар и жидкость- жидкость, разделяющие агенты, экстрактивная ректификация, жидкостная экстракция.

1. Wasserscheid, P. Ionic Liquids in Synthesis / P. Wasserscheid, T. Welton. – Weinheim : WileyVCH,

2. – 705 р.

3. Salminen, J. Physicochemical properties and toxicities of hydrophobic piperidinium and

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6. Gardas, R.L. Densities and Derived Thermodynamic Properties of Imidazolium-, Pyridinium-,

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16. to 343.15) K / Y. Huo, S. Xia, P. Ma // J. Chem. Eng. Data. – 2007. –Vol. 52, № 5. – P. 2077-2082.

17. Jacquemin, J. High-Pressure Volumetric Properties of Imidazolium-Based Ionic Liquids: Effect

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19. № 5. – P. 2204-2211.

20. Gardas, R.L. Extension of the Ye and Shreeve group contribution method for density estimation

21. of ionic liquids in a wide range of temperatures and pressures / R.L. Gardas, J.A.P. Coutinho // Fluid

22. Phase Equil. – 2008. – Vol. 263. – P. 26-32.

23. Machida, H. Pressure-volume-temperature (PVT) measurements of ionic liquids ([bmim+

24. ][PF6

25. -

26. ],

27. [bmim+

28. ][BF4

29. -

30. ], [bmim+

31. ][OcSO4

32. -

33. ]) and analysis with the Sanchez-Lacombe equation of state / H.

34. Machida, Y. Sato, R.L. Smith // Fluid Phase Equil. – 2008. – Vol. 264. – P. 147-155.

35. Jacquemin, J. Prediction of Ionic Liquids Properties. I. Volumetric Properties as a Function of

36. Temperature at 0.1 MPa / J. Jacquemin, R. Ge, P. Nancarrow, D.W. Rooney, M.F. Costa Gomes,

37. A.A.H. Padua, C. Hardacre // J. Chem. Eng. Data. – 2008. –Vol. 53, № 3. – P. 716-726.

38. Singh, T. Physical and excess properties of a room temperature ionic liquid (1-methyl-3-

39. octylimidazolium tetrafluoroborate) with n-alkoxyethanols (C1Em, m = 1 to 3) at T = (298.15 to

40. 15) K / T. Singh, A. Kumar // J. Chem. Thermodynamics – 2008. – Vol. 40. – P. 417-423.

41. Iglesias-Otero, M.A. Density and refractive index in mixtures of ionic liquids and organic

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43. Chem. Thermodynamics – 2008. – Vol. 40. – P 949-956.

44. Gomez, E. Excess molar properties of ternary system (ethanol + water + 1,3-

45. dimethylimidazoliummethylsulphate) and its binary mixtures at several temperatures / E. Gomez, B.

46. Gonzalez, N. Calvar, A. Dominguez // J. Chem. Thermodynamics – 2008. – Vol. 40. –P. 1208-1216.

47. Gomez, E. Physical properties of the ternary system (ethanol + water + 1-butyl-3-

48. methylimidazolium methylsulphate) and its binary mixtures at several temperatures / E. Gomez, B.

49. Gonzalez, N. Calvar, A. Dominguez // J. Chem. Thermodynamics. – 2008. – Vol. 40. – P. 1274-1281.

50. Fernandez, A. Volumetric, Transport and Surface Properties of [bmim][MeSO4] and

51. [emim][EtSO4] Ionic Liquids As a Function of Temperature / A. Fernandez, J. Garcia, J.S. Torrecilla,

52. M. Oliet, F. Rodriguez // J. Chem. Eng. Data. – 2008. – Vol. 53, № 7. – P. 1518-1522.

53. Gonzalez, B. Synthesis and Physical Properties of 1-ethyl 3-methylpyridinium Ethylsulfate and

54. Its Binary Mixtures with Ethanol and Water at Several Temperatures / B. Gonzalez, N. Calvar, E.

55. Gomez, E.A. Masedo, A. Dominguez // J. Chem. Eng. Data. – 2008. – Vol. 53, № 8. – P. 1824-1828.

56. Muhamad, A. Thermophysical properties of 1-hexyl-3-methyl imidazolium based ionic liquids

57. with tetrafluoroborate, hexafluorophosphate and bis(trifluoromethylsulfonyl)imide anions / A.

58. Muhamad, M.I.A. Mutalib, C.D. Wilfred, T. Murugesan, A. Shafeed // J. Chem. Thermodynamics. –

59. – Vol. 40. – P. 1433-1438.

60. Gardas, R.L. A group contribution method for viscosity estimation of ionic liquids / R.L.

61. Gardas, J.A.P. Coutinho // Fluid Phase Equil. – 2008. – Vol. 266. – P. 195-201.

62. Lei, Z. Selection of entrainers in the 1-hexene/n-hexane system with a limited solubility / Z.

63. Lei, W. Arlt, P. Wasserscheid // Fluid Phase Equil. – 2007. – Vol. 260. – P. 29-35.

64. Strechan, A.A. 1-butyl-3-methylimidazolium Tosylate Ionic Liquid: Heat Capacity, Thermal Stability,

65. and Phase Equilibrium of Its Binary Mixtures with Water and Caprolactam / A.A. Strechan, Y.U. Paulechka,

66. A.G. Kabo, A.V. Blokhin, G.J. Kabo // J. Chem. Eng. Data. – 2007. – Vol. 52, № 5. – P. 1791-1799.

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71. Kato R. Measurement and correlation of vapor-liquid equilibria and exess enthalpies of binary

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74. Liebert, V. Experimental and predicted phase equilibria and excess properties for systems with

75. ionic liquids / V. Liebert, S. Nebig, J. Gmehling. // Fluid Phase Equilibr. – 2008. – Vol. 268. – P. 14-20.

76. Guan, W. Enthalpy of Solution of Amino Acid Ionic Liquid 1-Buyl-3-methylimidazolium Glycine /

77. W. Guan, W.-F. Xue, N. Li, J. Tong // J. Chem. Eng. Data. – 2008. – V. 53, № 6. – P. 1401-1403.

78. Iglesias-Otero, M.A. Densities and Excess Enthalpies for Ionic Liquids + Ethanol or +

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81. Husson-Borg, P. Solubilities of Oxygen and Carbon Dioxide in Butyl Methyl Imidazolum

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83. Husson-Borg, V. Majer, M.F. Costa Gomes // J. Chem. Eng. Data. – 2003. – Vol. 48, № 3. – P. 480-

84.

85. Kamps, A.P.-S. Solubility of CO2 in the Ionic Liquid [bmim][PF6] / A.P.-S. Kamps, D. Tuma,

86. J. Xia, G. Maurer // J. Chem. Eng. Data. – 2003. – Vol. 48, № 3. – P. 746-749.

87. Kroon, M.C. High-Pressure Phase Behavior of Systems with Ionic Liquids: Part V. The Binary

88. System Carbon Dioxide + 1-Butyl-3-methylimidazolium Tetrafluoroborate / M.C. Kroon, A. Shariati,

89. M. Costantini, J. van Spronsen, G.-J. Witkamp, R.A. Sheldon, C.J. Peters // J. Chem. Eng. Data. –

90. – Vol. 50, № 1. – P. 173-176.

91. Chen, Y. Solubility of CO2 in imidazolium-based tetrafluoroborate ionic liquids / Y. Chen, S.

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93. Kumelan, J. Solubility of H2 in Ionic Liquid [bmim][PF6] / J. Kumelan, A.P.-S. Kamps, D.

94. Tuma, G. Maurer // J. Chem. Eng. Data. – 2006. – Vol. 51, № 1. – P. 11-14.

95. Hong, G. // Solubility of carbon dioxide and ethane in three ionic liquids based on the

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97. Husson, M.F. Costa Gomes // Fluid Phase Equil. – 2007. – Vol. 257. – P. 27-34.

98. Yuan, X. Solubility of CO2 in hydroxyl ammonium ionic liquids at elevated pressures / X.

99. Yuan, S. Zhang, J. Liu, X. Lu // Fluid Phase Equil. – 2007. – Vol. 257. – P. 195-200.

100. Kumelan, J. Solubility of the single gases H2 and CO in the Ionic Liquid [bmim][CH3SO4] / J.

101. Kumelan, A.P.-S. Kamps, D. Tuma, G. Maurer // Fluid Phase Equil. – 2007. – Vol. 260. – P. 3-8.

102. Kumelan, J. Solubility of the Single Gases Methane and Xenon in the Ionic Liquid

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104. Vol.52, № 6. – P. 2319-2324.

105. Shiflett, M.B. Phase behavior of {carbon dioxide + [bmim][Ac] / M.B. Shiflett, D.J. Kasprzak,

106. C.P. Junk, A. Yokozeki // J. Chem. Thermodynamics. – 2008. – Vol. 40. – P. 25-31.

107. Ventura, S.P.M. High pressure solubility data of carbon dioxide in (tri-iso-butyl(methyl)phosphonium

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110. Florusse, L.J. High-Pressure Phase Behavior of Ethane with 1-hexyl-3-methylimidazolium

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115. Domanska, U. Solubility of Imidazoles in Ethers / U. Domanska, M.K. Kozlowska // J. Chem.

116. Eng. Data. – 2003. –Vol. 48, № 3. – P. 557-563.

117. Domanska, U. Solubility of Imidazoles, Benzimidazoles, and Phenylimidazoles in

118. Dichloromethane, 1-Chlorobutane, Toluene, and 2-Nitrotoluene / U. Domanska, A. Pobudkowska // J.

119. Chem. Eng. Data. – 2004. – Vol. 49, № 4. – P. 1082-1090.

120. Sifaoui, H. Solid-liquid equilibria of three binary systems: {1-Ethyl-3-methylimidazolium

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122. Sifaoui, A. Ait-Kaci, A. Modarressi, M. Rogalski // Thermochim. Acta. – 2007. – Vol. 456. – P. 114-119.

123. Shevelyova, M.P. Solid-Liquid Equilibrium and Activity Coefficients for Caprolactam + 1-

124. Hexyl-3-methylimidazolium Bis(trifluoromethylsulfonyl)imide and Cyclohexanone Oxime + 1-Hexyl-

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130. Letcher, T.M. Activity coefficients at infinite dilution measurements for organic solutes in the

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134. Ge, M.-L. Activity Coefficients at Infinite Dilution of Alkanes, Alkenes, and Alkyl Benzenes

135. in 1-Butyl-3-Methylimidazolium Trifluoromethanesulfonate Using Gas-Liquid Chromatography / M.-

136. L. Ge, L.-S. Wang, M.-Y. Li, J.-S. Wu // J. Chem. Eng. Data. – 2007. – Vol. 52, № 6. – P. 2257-2260.

137. Mutelet, F. Measurements of activity coefficients at infinite dilution in 1-hexadecyl-3-

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139. Thermodynamics. – 2007. – Vol. 39. – P. 1144-1150.

140. Wang, J. Correlation of infinite dilution activity coefficient of solute in ionic liquids using UNIFAC

141. model / J. Wang, W. Sun, C. Li, Z. Wang // Fluid Phase Equil. – 2008. – Vol. 264. – P. 235-241.

142. Domanska, U. Measurements of activity coefficients at infinite dilution of aromatic and

143. aliphatic hydrocarbons , alcohols, and water in the new ionic liquid [EMIM][SCN] using GLC / U.

144. Domanska, A. Marciniak // J. Chem. Thermodynamics. – 2008. – Vol. 40. – P. 860-866.

145. Letcher, T.M. Activity coefficients at infinite dilution measurements for organic solutes in the ionic

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147. 15, 313.15, and 318.15) K / T.M. Letcher, D. Ramjugernath, M. Laskowska, M. Krolikowski, P.

148. Naidoo, U. Domanska // J. Chem. Thermodynamics. – 2008. – Vol. 40. – P. 1243-1247.

149. Yang X.-J. Activity Coefficient at Infinite Dilution of Alkanes, Alkenes, and Alkyl Benzenes

150. in 1-Hexyl-3-methylimidazolium Trifluoromethanesulfonate Using Gas-Liquid Cromatography / X.-J.

151. Yang, J.-S. Wu, M.-L. Ge, L.-S. Wang, M.-Y. Li. // J. Chem. Eng. Data. – 2008. – Vol. 53, № 5. – P.

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153. Dong, Q. ILTermo: A Free-Access Web Database for Thermodynamic Properties of Ionic

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156. Lei, Z. Selection of entrainers in the 1-hexene/n-hexane system with a limited solubility / Z.

157. Lei, W. Arlt, P. Wasserscheid // Fluid Phase Equilibr. – 2007. – Vol. 260. – P. 29–35.

158. Seiler, M. Separation of Azeotropic Mixtures Using Hyperbranched Polymers or Ionic Liquids

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161. Lei, Z. Predictive Molecular Thermodynamic Models for Liquids, Solid Salts, Polymers, and

162. Ionic Liquids / Z. Lei, B. Chen, C. Li, H. Lin // Chem. Rev. – 2008. – Vol. 108. – P. 1419–1455.

163. Beste, Y. Extractive distillation with ionic liquids / Y. Beste, M. Eggersmann, H.

164. Schoenmakers // Chem. Eng. Tech. – 2005. – Vol. 77. – P. 1800–1808.

165. Arlt, W. New classes of compound for Chemical and Process Engineering: ionic liquids and

166. hyperbranched polymers / W. Arlt, M. Seiler, C. Jork // 6 Italian Conference on Chemical and Process

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168. Seiler, M. Separation of Azeotropic Mixtures Using Hyperbranched Polymers or Ionic Liquids

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170. Jork, C. Influenceof Ionic Liquids on the Phase Behavior of Aqueous Azeotropic Systems / C.

171. Jork, M. Seiler, Y.A. Beste, W. Arlt // J. Chem. Eng. Data. – 2004. – Vol. 49, № 3. – P. 852-857.

172. Beste, Y. Extractive distillation with ionic liquids / Y. Beste, M. Eggersmann, H.

173. Schoenmakers // Chem. Eng. Tech. – 2005. – Vol. 77. – P. 1800-1806.

174. Lei, Z. Separation of 1-hexene and n-hexane with ionic liquids / Z. Lei, W. Arlt, P.

175. Wasserscheid // Fluid Phase Equil. – 2006. – Vol. 241. – P. 290-299.

176. Jork, C. Tailor-made ionic liquids / C. Jork, C. Kristen, D. Pieraccini, A. Stark, C. Chiappe,

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178. Kim, K.-S. Refractive index and heat capacity of 1-butyl-3-mrthylimidazolium

179. tetrafluoroborate, and vapor pressure of binary systems for 1-butyl-3-mrthylimidazolium bromide +

180. trifluoroethanol and 1-butyl-3-mrthylimidazolium tetrafluoroborate + trifluoroethanol / K.-S. Kim, B.-

181. K. Shin , H. Lee, F. Ziegler // Fluid Phase Equil. – 2004. – Vol. 218. – P. 215-220.

182. Kim, K.-S. Vapor Pressure 1-Butyl-3-methylimidazolium Bromide + Water, 1-Butyl-3-

183. methylimidazolium Tetrafluoroborate + Water, and 1-(2-Hydroxyethyl)- 3-methylimidazolium

184. Tetrafluoroborate + Water Systems / K.-S. Kim, S.-Y. Park, S. Choi, H. Lee // J. Chem. Eng. Data. –

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186. Anthony, J.L. Solution Thermodynamic of Imidazolium-Based Ionic Liquids and Water / J.L.

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191. Verevkin, S.P. Thermodynamic properties of mixtures containing ionic liquids. Activity

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195. Verevkin, S.P. Thermodynamic properties of mixtures containing ionic liquids / S.P. Verevkin,

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197. Vasiltsova, T.V. Thermodynamic properties of mixtures containing ionic liquids. 7. Activity

198. Coefficient of Aliphatic and Aromatic Esters and Benzylamine in 1-Methyl-3-ethylimidazolium

199. Bis(Trifluorometylsulfonyl) Imide Using the Transpiration Method / T.V. Vasiltsova, S.P. Verevkin, E. Bich,

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201. Heintz, A. Thermodynamic properties of mixtures containing ionic liquids. 8. Activity

202. Coefficient at Infinite Dilution of Hydrocarbons, Alcohols, Esters, and Aldehydes in 1-Hexyl-3-

203. methylimidazolium Bis(Trifluorometylsulfonyl) Imide Using Gas-Liquid Chromatography / A.

204. Heintz, S.P. Verevkin, D. Ondo // J. Chem. Eng. Data. – 2006. –Vol. 51. – P. 434-437.

205. Safarov, J. Vapor Pressures and Activity Coefficients of n-Alcohols and Benzene in Binary Mixtures

206. with 1-Methyl-3-butylimidazolium Octyl Sulfate and 1-Methyl-3-octylimidazolium Tetrafluoroborate / J.

207. Safarov, S.P. Verevkin, E. Bich, A. Heintz // J. Chem. Eng. Data. – 2006. –Vol. 51, – P. 518-525.

208. Heintz, A. Thermodynamic properties of mixtures containing ionic liquids. 8. Activity Coefficient at

209. Infinite Dilution of Hydrocarbons, Alcohols, Esters, and Aldehydes in Trimethyl-butylammonium

210. Bis(trifluoromethylsulfonyl) Imide Using Gas-Liquid Chromatography and Static Method / A. Heintz, T.V.

211. Vasiltsova, J. Safarov, E. Bich, S.P. Verevkin // J. Chem. Eng. Data. – 2006. –Vol. 51, – P. 648-655.

212. Doker, M. Measurement and prediction of vapor-liquid equilibria of ternary systems containing

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214. Kato, R. Measurement and correlation of vapor-liquid equilibria of binary systems containing ionic

215. liquids [EMIM][(CF3FO2)2N], [BMIM][(CF3FO2)2N], [MMIM][(CH3)2PO4] and oxygenated organic

216. compounds respectively in water / R. Kato, J. Gmehling // Fluid Phase Equil. – 2005. – Vol. 231. – P. 38-43.

217. Kato, R. Systems with ionic liquids: Measurement of VLE and 

218. 

219. data and prediction of their

220. thermodynamic behavior using original UNIFAC, mod. UNIFAC(Do) and COSMO-RS(Ol) / R. Kato,

221. J. Gmehling // J. Chem. Thermodynamics. – 2005. – Vol. 37. – P. 603-619.

222. Shiflett, M.B. Vapor-Liquid- Liquid Equilibria of Hydrofluorocarbons + 1-Butyl-3-

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225. Shiflett M.B. Binary Vapor-Liquid and Vapor-Liquid- Liquid Equilibria of Hydrofluorocarbons

226. (HFC-125 and HFC-143a) and Hydrofluoroethers (HFE-125 and HFE-143a) with Ionic Liquid [emim][Tf2N]

227. / M.B. Shiflett, A. Yokozeki // J. Chem. Eng. Data. – 2008. – Vol. 53, №2. – P. 492-497.

228. Kurzin, A.V. Isotermal Vapor-Liquid Equilibrium Data for the System Methanol + Toluene +

229. Triphenylbenzylphosphonium Cloride / A.V. Kurzin, A.N. Evdokimov, V.B. Antipina, O.S. Pavlova,

230. V.E. Gusev // J. Chem. Eng. Data. – 2007. – Vol. 52, №6. – P. 2174-2176.

231. Kurzin, A.V. Vaper Pressures for 1,4-Dioxane + Tetrabutylammonium Nitrate, Water +

232. Tetrabutylammonium Nitrate, and 1,4-Dioxane + Water + Tetrabutylammonium Nitrate / A.V. Kurzin,

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