Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation Processes

Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation Processes

As a result of their high tuneability and low volatility, room temperature ionic liquids have been proposed as replacement solvents in a wide range of industrial applications. They are particularly well-suited for use as an entrainer (or solvent) in extractive distillation processes to separate clos...

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Bibliographic Details
Main Authors: Andrew S. Paluch, Pratik Dhakal
Format: Article
Language:English
Published: MDPI AG 2018-11-01
Series:ChemEngineering
Subjects:
phase equilibrium
extractive distillation
entrainer
azeotrope
ionic liquid
limiting activity coefficient
Online Access:https://www.mdpi.com/2305-7084/2/4/54
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spelling doaj-1fd243db40f74eb9a3fbbd96bd0886412020-11-25T01:30:37ZengMDPI AGChemEngineering2305-70842018-11-01245410.3390/chemengineering2040054chemengineering2040054Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation ProcessesAndrew S. Paluch0Pratik Dhakal1Department of Chemical, Paper and Biomedical Engineering, Miami University, Oxford, OH 45056, USADepartment of Chemical, Paper and Biomedical Engineering, Miami University, Oxford, OH 45056, USAAs a result of their high tuneability and low volatility, room temperature ionic liquids have been proposed as replacement solvents in a wide range of industrial applications. They are particularly well-suited for use as an entrainer (or solvent) in extractive distillation processes to separate close boiling and azeotropic mixtures. The limiting selectivity is a common, fundamental parameter used to screen and rank entrainer candidates. In the present study, we present a detailed thermodynamic analysis to understand the basis for its use along with the necessary, underlying assumptions. We find that, while for many cases the limiting selectivity can correctly rank ionic liquid entrainer candidates for homogeneous extractive distillation processes, it is not always able to capture the correct phase behavior. We, instead, recommend the use of composition dependent activity coefficients.https://www.mdpi.com/2305-7084/2/4/54phase equilibriumextractive distillationentrainerazeotropeionic liquidlimiting activity coefficient
collection DOAJ
language English
format Article
sources DOAJ
author Andrew S. Paluch
Pratik Dhakal
spellingShingle Andrew S. Paluch
Pratik Dhakal
Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation Processes
ChemEngineering
phase equilibrium
extractive distillation
entrainer
azeotrope
ionic liquid
limiting activity coefficient
author_facet Andrew S. Paluch
Pratik Dhakal
author_sort Andrew S. Paluch
title Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation Processes
title_short Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation Processes
title_full Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation Processes
title_fullStr Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation Processes
title_full_unstemmed Thermodynamic Assessment of the Suitability of the Limiting Selectivity to Screen Ionic Liquid Entrainers for Homogeneous Extractive Distillation Processes
title_sort thermodynamic assessment of the suitability of the limiting selectivity to screen ionic liquid entrainers for homogeneous extractive distillation processes
publisher MDPI AG
series ChemEngineering
issn 2305-7084
publishDate 2018-11-01
description As a result of their high tuneability and low volatility, room temperature ionic liquids have been proposed as replacement solvents in a wide range of industrial applications. They are particularly well-suited for use as an entrainer (or solvent) in extractive distillation processes to separate close boiling and azeotropic mixtures. The limiting selectivity is a common, fundamental parameter used to screen and rank entrainer candidates. In the present study, we present a detailed thermodynamic analysis to understand the basis for its use along with the necessary, underlying assumptions. We find that, while for many cases the limiting selectivity can correctly rank ionic liquid entrainer candidates for homogeneous extractive distillation processes, it is not always able to capture the correct phase behavior. We, instead, recommend the use of composition dependent activity coefficients.
topic phase equilibrium
extractive distillation
entrainer
azeotrope
ionic liquid
limiting activity coefficient
url https://www.mdpi.com/2305-7084/2/4/54
work_keys_str_mv AT andrewspaluch thermodynamicassessmentofthesuitabilityofthelimitingselectivitytoscreenionicliquidentrainersforhomogeneousextractivedistillationprocesses
AT pratikdhakal thermodynamicassessmentofthesuitabilityofthelimitingselectivitytoscreenionicliquidentrainersforhomogeneousextractivedistillationprocesses
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