Strategies for recovering phenol from wastewater: thermodynamic evaluation and environmental concerns

In this work, thermodynamic and environmental insights were used to study the recovery of phenol from wastewater. The liquid–liquid equilibrium calculation and prediction and the residue curve maps (RCM) were explored in a way to analyze the performance of a complete liquid–liquid extraction process...

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Published inFluid phase equilibria Vol. 228-229; no. Complete; pp. 447 - 457
Main Authors Pinto, R.T.P., Lintomen, L., Luz, L.F.L., Wolf-Maciel, M.R.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2005
Subjects
Applied thermodynamic
Environmental
Group contribution method
Liquid–liquid equilibria
Residue curve map
Vapor–liquid equilibria
Group contribution method
Residue curve map
Environmental
Liquid–liquid equilibria
Applied thermodynamic
Vapor–liquid equilibria
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Abstract In this work, thermodynamic and environmental insights were used to study the recovery of phenol from wastewater. The liquid–liquid equilibrium calculation and prediction and the residue curve maps (RCM) were explored in a way to analyze the performance of a complete liquid–liquid extraction process to remove phenol. The results have shown that the group-contribution method is a powerful tool to predict binary interaction parameters systems and equilibrium data for which no experimental data are available. Environmental restriction was a constraint in terms of solvent choice and presence in the raffinate stream. Final results show that the plant size is directly related to the selected solvent, when the complete process is considered (liquid–liquid extraction, distillation column, and recycle). Finally, it was identified a lack of experimental liquid–liquid and vapor–liquid data in the open literature related to the binary pairs studied here.
AbstractList In this work, thermodynamic and environmental insights were used to study the recovery of phenol from wastewater. The liquid–liquid equilibrium calculation and prediction and the residue curve maps (RCM) were explored in a way to analyze the performance of a complete liquid–liquid extraction process to remove phenol. The results have shown that the group-contribution method is a powerful tool to predict binary interaction parameters systems and equilibrium data for which no experimental data are available. Environmental restriction was a constraint in terms of solvent choice and presence in the raffinate stream. Final results show that the plant size is directly related to the selected solvent, when the complete process is considered (liquid–liquid extraction, distillation column, and recycle). Finally, it was identified a lack of experimental liquid–liquid and vapor–liquid data in the open literature related to the binary pairs studied here.
Author Lintomen, L.
Pinto, R.T.P.
Wolf-Maciel, M.R.
Luz, L.F.L.
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  surname: Wolf-Maciel
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Keywords Group contribution method
Residue curve map
Environmental
Liquid–liquid equilibria
Applied thermodynamic
Vapor–liquid equilibria
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Snippet In this work, thermodynamic and environmental insights were used to study the recovery of phenol from wastewater. The liquid–liquid equilibrium calculation and...
In this work, thermodynamic and environmental insights were used to study the recovery of phenol from wastewater. The liquid--liquid equilibrium calculation...
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elsevier
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StartPage 447
SubjectTerms Applied thermodynamic
Environmental
Group contribution method
Liquid–liquid equilibria
Residue curve map
Vapor–liquid equilibria
Title Strategies for recovering phenol from wastewater: thermodynamic evaluation and environmental concerns
URI https://dx.doi.org/10.1016/j.fluid.2004.09.005
https://search.proquest.com/docview/28624017
Volume 228-229
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