Thermodynamic and Transport Properties of H2O + NaCl from Polarizable Force Fields

Jiang Hao; Mester Zoltan; Moultos Othonas A.; Economou Ioannis G.; Panagiotopoulos Athanassios Z.

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Thermodynamic and Transport Properties of H2O + NaCl from Polarizable Force Fields

机译：可极化力场中H2O + NaCl的热力学和输运性质

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Molecular dynamics and Monte Carlo simulations were performed to obtain thermodynamic and transport properties of the binary H2O + NaCl system using the polarizable force fields of Kiss and Baranyai (J. Chem. Phys. 2013, 138, 204507 and 2014, 141, 114501). In particular, liquid densities, electrolyte and crystal chemical potentials of NaCl, salt solubilities, mean ionic activity coefficients, vapor pressures, vapor-liquid interfacial tensions, and viscosities were obtained as functions of temperature, pressure, and salt concentration. We compared the performance of the polarizable force fields against fixed-point-charge (nonpolarizable) models. Most of the properties of interest are better represented by the polarizable models, which also remain physically realistic at elevated temperatures.

机译：使用Kiss和Baranyai的极化力场（J. Chem。Phys。2013，138，204507和2014，141，114501）进行了分子动力学和蒙特卡罗模拟，以获得二元H2O + NaCl系统的热力学和传输性质。特别地，获得了作为温度，压力和盐浓度的函数的液体密度，NaCl的电解质和晶体化学势，盐的溶解度，平均离子活度系数，蒸气压，蒸气-液体界面张力和粘度。我们将可极化力场的性能与定点电荷（不可极化）模型进行了比较。极化模型更好地表示了大多数感兴趣的特性，这些模型在高温下仍保持物理逼真的状态。

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《Journal of chemical theory and computation: JCTC》 |2015年第8期|共9页
作者
Jiang Hao; Mester Zoltan; Moultos Othonas A.; Economou Ioannis G.; Panagiotopoulos Athanassios Z.;
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正文语种 eng
中图分类化学键的量子力学理论;化学;
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1. Thermodynamic and Transport Properties of H2O + NaCl from Polarizable Force Fields [J] . Jiang Hao, Mester Zoltan, Moultos Othonas A., Journal of chemical theory and computation: JCTC . 2015,第8期

机译：可极化力场中H2O + NaCl的热力学和输运性质
2. Molecular simulation of thermodynamic and transport properties for the H2O+NaCl system [J] . Orozco Gustavo A., Moultos Othonas A., Jiang Hao, The Journal of Chemical Physics . 2014,第24期

机译：H2O + NaCl系统的热力学和传输性质的分子模拟
3. PVTx properties of the CO2-H2O and CO2-H2O-NaCl systems below 647 K: Assessment of experimental data and thermodynamic models [J] . Hu JW, Duan ZH, Zhu C, Chemical geology . 2007,第3a4期

机译：低于647 K的CO2-H2O和CO2-H2O-NaCl系统的PVTx特性：实验数据和热力学模型的评估
4. Advanced non-polarizable force field for ionic liquids based on first-principles DFT calculation: development and the applications to transport properties [C] . Yoshiki ISHII, Ryosuke ISHIZUKA, Nobuyuki MATUBAYASI 日本化学会春季年会講演予稿集 . 2018

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7. Employing SAFT Coarse-Grained Force Fields for the Molecular Simulation of Thermodynamic and Transport Properties of CO2–n-Alkane Mixtures [O] . Lingru Zheng, Fernando Bresme, J. P. Martin Trusler, 2019

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8. Transport Properties and Thermodynamic Processes for Liquid Fuels and Gas Mixtures of N2, O2, H2 and H2O. [R] . Sokolova, I. A., Slavinskaya, N. A., Haidn, O. J. 2001

机译：N2，O2，H2和H2O的液体燃料和气体混合物的输运性质和热力学过程。

Thermodynamic and Transport Properties of H2O + NaCl from Polarizable Force Fields

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