Energy Consumption in Sharp and Non-Sharp Splits of Ideal Ternary Mixtures

Most of the distillation processes deal with multicomponent mixtures, existing a great quantity of distillation sequences for this process. The sharp splits available for an ideal ternary mixture are the direct and the inverse distillation sequence scheme in which the compounds are separated in two...

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Main Authors: Sergi Exposito, Jordi Bonet-Ruiz, Alexandra Elena Bonet-Ruiz, Joan Llorens, Petrica Iancu, Valentin Plesu
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2019-10-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/10585
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author Sergi Exposito
Jordi Bonet-Ruiz
Alexandra Elena Bonet-Ruiz
Joan Llorens
Petrica Iancu
Valentin Plesu
author_facet Sergi Exposito
Jordi Bonet-Ruiz
Alexandra Elena Bonet-Ruiz
Joan Llorens
Petrica Iancu
Valentin Plesu
author_sort Sergi Exposito
collection DOAJ
description Most of the distillation processes deal with multicomponent mixtures, existing a great quantity of distillation sequences for this process. The sharp splits available for an ideal ternary mixture are the direct and the inverse distillation sequence scheme in which the compounds are separated in two different columns. There are non-sharp splits in which all the compounds are separated in a single distillation column that can incorporate a side column. Unfortunately, to choose non-sharp splits schemes, there is no heuristic that can provide information about the recommended cases, e.g. a single distillation column in which the intermediate boiling compound is collected by a side stream at the required purity or by other possibilities, such as the use of a side stripper or a side rectifier. The literature about this subject is very scarce, and many times when the non-sharp splits are used, no comparison with the sharp split alternatives is provided. Therefore, the cases for which the literature suggests the use of side columns are further studied, e.g. BTX (Benzene, Toluene, Xylene) mixtures separation. For many case studies, the results obtained show that the energy savings achieved, due to the use of side columns, are not significantly higher than the best sharp split process schemes. However, these results do not discard that for some other situations; the side column could be the most advantageous case. Usually, it is considered that when the desired purity of the main product in a stream is reached, the impurities proportion do not affect significantly the energy consumption, and for most of the systems, this is true. However, for a mixture with a molar composition of 10 % isopentane, 10 % pentane and 80 % hexane (mol), when split in the respective compounds at a purity of 95 % (mol), very different energy requirements are depicted depending on the proportion of isopentane and hexane, present in the pentane stream obtained in a direct sequence process . The rigorous simulation results illustrate that almost 60% of the energy required to separate the above-mentioned mixture is saved when the pentane stream carries a mixture of isopentane and hexane. In addition, the environmental impact has been analyzed for each case studied, being reduced in the same way as the energy consumption does.
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spelling doaj.art-488bb097a8cd4d6e9491982da1c5f58b2022-12-21T22:02:54ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162019-10-017610.3303/CET1976134Energy Consumption in Sharp and Non-Sharp Splits of Ideal Ternary MixturesSergi ExpositoJordi Bonet-RuizAlexandra Elena Bonet-RuizJoan LlorensPetrica IancuValentin PlesuMost of the distillation processes deal with multicomponent mixtures, existing a great quantity of distillation sequences for this process. The sharp splits available for an ideal ternary mixture are the direct and the inverse distillation sequence scheme in which the compounds are separated in two different columns. There are non-sharp splits in which all the compounds are separated in a single distillation column that can incorporate a side column. Unfortunately, to choose non-sharp splits schemes, there is no heuristic that can provide information about the recommended cases, e.g. a single distillation column in which the intermediate boiling compound is collected by a side stream at the required purity or by other possibilities, such as the use of a side stripper or a side rectifier. The literature about this subject is very scarce, and many times when the non-sharp splits are used, no comparison with the sharp split alternatives is provided. Therefore, the cases for which the literature suggests the use of side columns are further studied, e.g. BTX (Benzene, Toluene, Xylene) mixtures separation. For many case studies, the results obtained show that the energy savings achieved, due to the use of side columns, are not significantly higher than the best sharp split process schemes. However, these results do not discard that for some other situations; the side column could be the most advantageous case. Usually, it is considered that when the desired purity of the main product in a stream is reached, the impurities proportion do not affect significantly the energy consumption, and for most of the systems, this is true. However, for a mixture with a molar composition of 10 % isopentane, 10 % pentane and 80 % hexane (mol), when split in the respective compounds at a purity of 95 % (mol), very different energy requirements are depicted depending on the proportion of isopentane and hexane, present in the pentane stream obtained in a direct sequence process . The rigorous simulation results illustrate that almost 60% of the energy required to separate the above-mentioned mixture is saved when the pentane stream carries a mixture of isopentane and hexane. In addition, the environmental impact has been analyzed for each case studied, being reduced in the same way as the energy consumption does.https://www.cetjournal.it/index.php/cet/article/view/10585
spellingShingle Sergi Exposito
Jordi Bonet-Ruiz
Alexandra Elena Bonet-Ruiz
Joan Llorens
Petrica Iancu
Valentin Plesu
Energy Consumption in Sharp and Non-Sharp Splits of Ideal Ternary Mixtures
Chemical Engineering Transactions
title Energy Consumption in Sharp and Non-Sharp Splits of Ideal Ternary Mixtures
title_full Energy Consumption in Sharp and Non-Sharp Splits of Ideal Ternary Mixtures
title_fullStr Energy Consumption in Sharp and Non-Sharp Splits of Ideal Ternary Mixtures
title_full_unstemmed Energy Consumption in Sharp and Non-Sharp Splits of Ideal Ternary Mixtures
title_short Energy Consumption in Sharp and Non-Sharp Splits of Ideal Ternary Mixtures
title_sort energy consumption in sharp and non sharp splits of ideal ternary mixtures
url https://www.cetjournal.it/index.php/cet/article/view/10585
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