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Darwish, Ahmad S.; Abu Hatab, Farah; Lemaoui, Tarek; A. Z. Ibrahim, Omar; Almustafa, Ghaiath; Zhuman, Botagoz; E. E. Warrag, Samah; Hadj-Kali, Mohamed K.; Benguerba, Yacine; Alnashef, Inas M.
Journal of molecular liquids, 08/2021, Volume: 336Journal Article
Display omitted •Simultaneous dearomatization of four impurities using a salt-acid-based eutectic solvent.•The solvent was characterized by its eutectic point, physical, and critical properties.•Phase behavior was determined experimentally, predicted via COSMO-RS, and correlated via NRTL.•Molecular-level interactions and mechanisms of extraction were studied.•Parametric investigation of the multicomponent extraction process was conducted. Eutectic solvents (ESs) have been extensively studied in the literature for the purification of fuels. Nevertheless, most studies investigated the extraction of a single type of aromatic from n-alkanes. In this work, aiming to provide insights about the performance of ESs in a process that mimics the multicomponent dearomatization used industrially, a salt-acid-based ES, comprised of methyltriphenyl-phosphonium bromide and acetic acid, was applied in simultaneously extracting toluene, thiophene, quinoline, and pyrrole from n-decane. First, the DES was characterized for its eutectic composition, physicochemical, and critical properties. Then, an initial screening to determine the molecular-level interactions and extraction mechanism were studied experimentally and using COSMO-RS screening charge density profiles and potentials. A physical mechanism was confirmed for the extraction of pyrrole, thiophene, and toluene while for quinoline, an acid-base reaction was the predominant extraction mechanism. The phase diagrams of each impurity were also experimentally determined, predicted using the COSMO-RS model, and correlated using the NRTL model in Aspen Plus. Lastly, a parametric investigation studying the impact of key parameters including stirring time, initial concentration, mixing effects, solvent-to-feed ratio, multi-stage extraction, and repetitive usage of solvent was conducted. On multi-stage extraction, full recovery of pyrrole and quinoline (≈99.9%) was achieved in only 2-stages, whereas for thiophene and toluene efficiencies of 82.2% and 58.4% were reached after the 5th stage, respectively.
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