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An atomistic explanation of the ethanol-water azeotrope

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Author(s):
Carravetta, Vincenzo ; de Abreu Gomes, Anderson Herbert ; Teixeira Marinho, Ricardo dos Reis ; Ohrwall, Gunnar ; Agren, Hans ; Bjorneholm, Olle ; de Brito, Arnaldo Naves
Total Authors: 7
Document type: Journal article
Source: Physical Chemistry Chemical Physics; v. 24, n. 42, p. 9-pg., 2022-10-14.
Abstract

Ethanol and water form an azeotropic mixture at an ethanol molecular percentage of similar to 91% (similar to 96% by volume), which prohibits ethanol from being further purified via distillation. Aqueous solutions at different concentrations in ethanol have been studied both experimentally and theoretically. We performed cylindrical micro-jet photoelectron spectroscopy, excited by synchrotron radiation, 70 eV above C1s ionization threshold, providing optimal atomic-scale surface-probing. Large model systems have been employed to simulate, by molecular dynamics, slabs of the aqueous solutions and obtain an atomistic description of both bulk and surface regions. We show how the azeotropic behaviour results from an unexpected concentration-dependence of the surface composition. While ethanol strongly dominates the surface and water is almost completely depleted from the surface for most mixing ratios, the different intermolecular bonding patterns of the two components cause water to penetrate to the surface region at high ethanol concentrations. The addition of surface water increases its relative vapour pressure, giving rise to the azeotropic behaviour. (AU)

FAPESP's process: 17/11986-5 - Generation and storage of New Energy: bringing technological development for the country
Grantee:Ana Flávia Nogueira
Support Opportunities: Research Grants - Research Centers in Engineering Program