Vapor-liquid phase equilibria of water modelled by a Kim-Gordon potential

Maerzke KA; McGrath MJ; Kuo IFW; Tabacchi G; Siepmann JI; Mundy CJ

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Vapor-liquid phase equilibria of water modelled by a Kim-Gordon potential

机译：用金-戈登势模拟的水的汽液相平衡

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Gibbs ensemble Monte Carlo simulations were carried out to investigate the properties of a frozen-electron-density (or Kim-Gordon, KG) model of water along the vapor-liquid coexistence curve. Because of its theoretical basis, such a KG model provides for seamless coupling to Kohn-Sham density functional theory in mixed quantum mechanics/molecular mechanics implementations. The Gibbs ensemble simulations indicate limited transferability of a KG model to other state points. Specifically, a KG model that was parameterized by Barker and Sprik to the properties of liquid water at 300 K, yields saturated vapor pressures and a critical temperature that are significantly under- and overestimated, respectively.

机译：进行Gibbs集合蒙特卡罗模拟，以沿着汽液共存曲线研究水的冻结电子密度（或Kim-Gordon，KG）模型的特性。由于其理论基础，这种KG模型在混合量子力学/分子力学实现中提供了与Kohn-Sham密度泛函理论的无缝耦合。吉布斯系综模拟表明，KG模型到其他状态点的传递能力有限。具体而言，由Barker和Sprik参数化为300 K的液态水特性的KG模型产生的饱和蒸汽压和临界温度分别被大大低估和高估了。

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《Chemical Physics Letters》 |2009年第3期|共5页
作者
Maerzke KA; McGrath MJ; Kuo IFW; Tabacchi G; Siepmann JI; Mundy CJ;
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正文语种 eng
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DENSITY-FUNCTIONAL THEORY; MONTE-CARLO SIMULATIONS; 1ST PRINCIPLES; MOLECULAR-DYNAMICS; FORCE-FIELDS; COEXISTENCE PROPERTIES; GIBBS ENSEMBLE; ENERGY; APPROXIMATION;

机译：密度泛函理论;蒙特卡罗模拟;第一原理;分子动力学;力场;共存性;吉布斯可混性;能量;近似;

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1. Vapor-liquid phase equilibria of water modelled by a Kim-Gordon potential [J] . Maerzke KA, McGrath MJ, Kuo IFW, Chemical Physics Letters . 2009,第1a3期

机译：用金-戈登势模拟的水的汽液相平衡
2. Modeling vapor-liquid phase equilibria of methane-water and methane-carbon dioxide-water systems at 274K to 573K and 0.1 to 150 MPa using PRSV equation of state and Wong-Sandler mixing rule [J] . Zhao Haining Fluid Phase Equilibria . 2017,第期

机译：使用国家和Wong-Sandler混合规则将甲烷 - 水和甲烷 - 二氧化甲烷 - 水系统的汽液相平衡和0.1至150MPa建模
3. Modeling vapor-liquid phase equilibria of hydrogen sulfide and water system using a cubic EOS-G(EX) model [J] . Zhao Haining, Fang Zhengbao, Jing Hongbin, Fluid Phase Equilibria . 2019,第期

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4. Experimental determination of Vapor-Liquid Equilibria for Water - Glycerol System [C] . William A. Chasoy, Ariel Y. Vargas, Jorge M. Gomez, AIChE annual meeting . 2010

机译：水-甘油系统汽液平衡的实验测定。
5. Vapor-liquid phase equilibria of nonideal fluids with a G(E)-EoS model. [D] . Ioannidis, Socrates. 1996

机译：具有G（E）-EoS模型的非理想流体的汽液相平衡。
6. Molecular simulation data for the vapor-liquid phase equilibria of binary mixtures of HFO-1123 with R-32 R-1234yf R-1234ze(E) R-134a and CO2 and their modelling by the PCP-SAFT equation of state [O] . Gabriele Raabe 2019

机译：HFO-1123与R-32R-1234yfR-1234ze（E）R-134a和CO2的二元混合物的汽液相平衡的分子模拟数据及其通过状态PCP-SAFT方程进行建模
7. Vapor-liquid phase equilibria of water modelled by a Kim-Gordon potential [O] . K. A. Maerzke, M. J. McGrath, I. F. W. Kuo, 2009

机译：由Kim-Gordon势模拟的水的汽 - 液相平衡

Vapor-liquid phase equilibria of water modelled by a Kim-Gordon potential

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