Revisiting electrolyte thermodynamic models: Insights from molecular simulations

Hossain Nazir; Ravichandran Ashwin; Khare Rajesh; Chen Chau‐Chyun

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Revisiting electrolyte thermodynamic models: Insights from molecular simulations

机译：重新审视电解质热力学模型：分子模拟见解

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> Pitzer and electrolyte nonrandom two‐liquid (eNRTL) models are the two most widely used electrolyte thermodynamic models. For aqueous sodium chloride (NaCl) solution, both models correlate the experimental mean ionic activity coefficient ( γ _± ) data satisfactorily up to salt saturation concentration, that is, ionic strength around 6 m. However, beyond 6 m, the model extrapolations deviate significantly and diverge from each other. We examine this divergence by calculating the mean ionic activity coefficient over a wide range of concentration based on molecular simulations and Kirkwood–Buff theory. The asymptotic behavior of the activity coefficient predicted by the eNRTL model is consistent with the molecular simulation results and supersaturation experimental data. ? 2018 American Institute of Chemical Engineers AIChE J , 64: 3728–3734, 2018

机译： > Pitzer和Electrolyte Nonrandom（Enrtl）模型是两个最广泛使用的电解质热力学模型。对于氯化钠水溶液（NaCl）溶液，两种模型都将实验性平均离子活性系数相关（ γ _{± ）数据令人满意地达到盐饱和浓度，即离子强度约为6μm。然而，超过6米，模型外推显着偏离并彼此分歧。通过计算基于分子模拟和柯克伍德 - BUFF理论的广泛浓度的平均离子活性系数来检查这种分歧。通过enttl模型预测的活动系数的渐近行为与分子模拟结果和超饱和实验数据一致。还2018年美国化学工程研究所 aiche j ，64：3728-3734,2018}

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《AIChE Journal》 |2018年第10期|共7页
作者
Hossain Nazir; Ravichandran Ashwin; Khare Rajesh; Chen Chau‐Chyun;
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作者单位

Dept. of Chemical EngineeringTexas Tech UniversityLubbock TX 79409;

Dept. of Chemical EngineeringTexas Tech UniversityLubbock TX 79409;

Dept. of Chemical EngineeringTexas Tech UniversityLubbock TX 79409;

Dept. of Chemical EngineeringTexas Tech UniversityLubbock TX 79409;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
aqueous solutions; phase equilibrium; simulation; molecular; thermodynamics/classical;

机译：水溶液;相平衡;模拟;分子;热力学/古典;

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Revisiting electrolyte thermodynamic models: Insights from molecular simulations

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