2010
DOI: 10.1021/ie101264p
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Thermodynamics of Mixtures Containing Oxaalkanes. 4. Random Mixing and Orientational Effects in Ether + Alkane Systems

Abstract: Molar excess enthalpies, H m E, and volumes, V m E, of linear or cyclic ether + n-alkane systems have been discussed in terms of the effective dipole moment, μ̅, of the ether, differences of standard enthalpies of vaporization of the ether and of the isomeric alkane, the number and relative positions of the oxygen atoms, the shape of the ether, and the relative size of the mixture compounds. The mentioned solutions have also been studied using the Flory model and the Kirkwood−Buff formalism. Both theories prov… Show more

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Cited by 17 publications
(22 citation statements)
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“…This supports that orientational effects are similar for all the systems studied with the CO or the CHO groups. In contrast, such a general behavior is not observed in ether + heptane systems [12], as it is shown in Fig. 4 for various systems of this type realized using data reported earlier [12].…”
Section: Alkanone + Alkanementioning
confidence: 50%
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“…This supports that orientational effects are similar for all the systems studied with the CO or the CHO groups. In contrast, such a general behavior is not observed in ether + heptane systems [12], as it is shown in Fig. 4 for various systems of this type realized using data reported earlier [12].…”
Section: Alkanone + Alkanementioning
confidence: 50%
“…(1) is useful when treating mixtures; see below). The so-called geometrical parameter of the mixture, 12…”
Section: The Flory Modelmentioning
confidence: 99%
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“…However, if one takes into account that V E m of (TEA + n-alkane) systems decreases from heptane [36,39] [45] (all values in cm 3 Á mol À1 ). This variation is just the opposite to that for H E m and reveals the existence increasing structural effects when the number of the (CH 2 CH 2 O) groups of the polyether is increased [46]. Thus, the @V E m @T P values are positive, e.g., for, 2,5,8-trioxanonane, 0.0028 cm 3 Á mol À1 Á K À1 [43], and negative, À0.0025 cm 3 Á mol À1 Á K À1 [47], for the system containing the pentaether.…”
Section: (2-alkanone + Dpa +Dba or +Tea) Mixturesmentioning
confidence: 70%
“…An analysis of each of the three contributions to the excess molar volume, V E , for all of the mixtures, shows that the interactional contribution is predominant and always negative. Moreover, the magnitude of the interactional and the “free volume” contributions increases with the increase of size and dipole moment, μ i /D of the polyether (1.71 for EGDME, 1.97 for DEGDME, and 1.92 for DEGDEE), while the magnitude of the “free volume” contribution, the lowest, remains constant.…”
Section: Resultsmentioning
confidence: 96%