水(甲醇或乙醇)与离子液体[EEIM][DEP]或[BEIM][DEP]二元混合物在1atm和(293.15至333.15)K下的过量体积

Journal of Applied Solution Chemistry and Modeling Pub Date : 2014-09-18 DOI:10.6000/1929-5030.2014.03.03.2

H. Song, Yin-hui Gong, Xue-Mei Jiang, Chun-Xi Lib

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引用次数: 0

摘要

用振动管密度计测定了水(甲醇或乙醇)和离子液体(IL) 1,3-二乙基咪唑二乙基磷酸[EEIM][DEP]或1-正丁基-3-乙基咪唑二乙基磷酸[BEIM][DEP]在1atm和(293.15 ~ 333.15)K下的二元混合物的密度。用Glasser理论估计了这两种分子的分子体积、标准熵和晶格能。在整个组成范围内，所研究的二元混合物的过量体积均为负值，并在IL的摩尔分数为0.3左右时达到最大值。此外，对于IL水溶液，它们随着温度的升高而降低，而在任何浓度的甲醇或乙醇的IL溶液则相反。用五参数多项式方程成功地将过量摩尔体积作为温度和IL摩尔分数的函数，密度的平均绝对相对偏差(ARD)在0.02%以内。

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Excess Volume of Binary Mixtures of Water (Methanol or Ethanol) with an Ionic Liquid [EEIM][DEP] or [BEIM][DEP] at 1 atm and (293.15 to 333.15) K

Densities were measured for the binary mixtures of water (methanol or ethanol) and an ionic liquid (IL) 1,3-diethylimidazolium diethylphosphate [EEIM][DEP] or 1-n-butyl-3-ethylimidazolium diethylphosphate [BEIM][DEP] at 1 atm and (293.15 to 333.15) K using a vibrating-tube densimeter. The molecular volume, standard entropy, and lattice energy of the two ILs were estimated with the Glasser theory. The excess volumes are negative for all binary mixtures studied in the whole composition range, and reach to the maximum at the mole fraction of IL being around 0.3. Besides, they decrease with increasing temperature for the aqueous solution of ILs, whilst a reverse trend is found for the IL solutions of methanol or ethanol at any concentration. The excess molar volumes were correlated successfully by a five-parameter polynomial equation as a function of temperature and mole fraction of IL with average absolute relative deviation (ARD) of density within 0.02%.

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Journal of Applied Solution Chemistry and Modeling

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