拉乌尔终究是正确的。

Raoult Was Right After All.

作者信息

Wexler Anthony S

机构信息

Air Quality Research Center and Departments of Mechanical and Aerospace Engineering, Civil and Environmental Engineering and Land, Air and Water Resources, University of California, Davis, California 95616, United States.

出版信息

ACS Omega. 2019 Jul 30;4(7):12848-12852. doi: 10.1021/acsomega.9b01707. eCollection 2019 Jul 31.

DOI:10.1021/acsomega.9b01707

PMID:31460410

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6682120/

Abstract

Raoult's law, published in 1887, is taught in chemistry and chemical engineering fields as a first approximation to the vapor pressure and activity of solutes and solvents in mixtures. In ideal solutions, it is exact but many solutions are known to have substantial deviations from Raoult's law as conventionally interpreted. In 1908, Callendar showed that water hydrated to the solute can explain some of the departures from Raoult's law in aqueous solution. Here, we show that by simply assuming equilibria between the free water in solution and its hydrated forms, Raoult's law and Callendar's extension are valid over the full range of concentrations, while also showing how water and solutes interact in solution. This model of solutions has importance in highly concentrated solutions common in atmosphere aerosols relevant to climate change and air quality, and in numerous industrial processes.

摘要

拉乌尔定律于1887年发表，在化学和化学工程领域作为对混合物中溶质和溶剂蒸气压及活度的一种初步近似进行讲授。在理想溶液中，它是精确的，但众所周知，许多溶液与传统解释的拉乌尔定律有很大偏差。1908年，卡伦德表明，与溶质水合的水可以解释水溶液中一些偏离拉乌尔定律的现象。在此，我们表明，只需假设溶液中的自由水与其水合形式之间存在平衡，拉乌尔定律和卡伦德的扩展在整个浓度范围内都是有效的，同时还展示了水和溶质在溶液中的相互作用方式。这种溶液模型在与气候变化和空气质量相关的大气气溶胶中常见的高浓度溶液以及众多工业过程中具有重要意义。

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拉乌尔终究是正确的。

Raoult Was Right After All.

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