2014
DOI: 10.1002/aic.14478
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Extractive distillation with the mixture of ionic liquid and solid inorganic salt as entrainers

Abstract: The use of the mixture of ionic liquid (IL) and solid inorganic salt in place of the single IL as entrainers for extractive distillation, which integrates the advantages of a liquid solvent, that is, IL (easy operation and nonvolatility) and a solid salt (high separation ability) has been proposed in this work. The vapor-liquid equilibrium experiments indicated that the combination of [EMIM]2 and KAc is the most promising for the separation of ethanol and water among all of the entrainers investigated. Based o… Show more

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Cited by 49 publications
(24 citation statements)
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“…Penambahan zat elektrolit NaOH dan KOH akan mengurangi interaksi ikatan hidrogen antara molekul etanol dan air yaitu dengan melemahkan gaya tarik dipol-dipol antara molekul etanol-air (Lei et al, 2014). Semakin lemahnya gaya tarik dipol-dipol antara etanol-air maka energi yang dibutuhkan untuk memisahkan molekul etanol dan molekul air semakin kecil pula, sehingga etanol akan lebih mudah terpisah dari air.…”
Section: Gambar 3diagram T H -T K -X Sistem Etanol-air-zat Elektroliunclassified
“…Penambahan zat elektrolit NaOH dan KOH akan mengurangi interaksi ikatan hidrogen antara molekul etanol dan air yaitu dengan melemahkan gaya tarik dipol-dipol antara molekul etanol-air (Lei et al, 2014). Semakin lemahnya gaya tarik dipol-dipol antara etanol-air maka energi yang dibutuhkan untuk memisahkan molekul etanol dan molekul air semakin kecil pula, sehingga etanol akan lebih mudah terpisah dari air.…”
Section: Gambar 3diagram T H -T K -X Sistem Etanol-air-zat Elektroliunclassified
“…However, separation of this mixture is important because pure components can be reused in further applications. Extractive distillation is currently the most widely used process to separate the components in the azeotropic systems [2][3][4]. Nevertheless, this process shows some serious disadvantages such as need high energy to achieve a fluid phase system, and the use of volatile compounds.…”
Section: Introductionmentioning
confidence: 99%
“…The separation of ethanol/water as an azeotropic mixture can be performed by distillation techniques such as pressure-swing distillation, heterogeneous azeotropic distillation, extractive distillation, and salt-addition distillation [12]. Among these processes, extractive distillation is the most common industrial method [10,13] due to its low energy consumption, easy operation, and flexibility in selection of entrainers [12,14].…”
Section: Introductionmentioning
confidence: 99%