Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics Modelling

Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics Modelling

This study was carried out to examine the potential of Agave americana fibres (AAF) for the treatment of wastewater contaminated with dyes. The batch mode adsorption of two dyes, viz. Sumfixe Supra Red (SSR) and Alpacelle Lumiere Brown (ALB), by AAF was investigated at different pH values, temperatu...

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Main Authors: Aïcha Menyar Ben Hamissa, François Brouers, Borhane Mahjoub, Mongi Seffen
Format: Article
Language:English
Published: Hindawi - SAGE Publishing 2007-06-01
Series:Adsorption Science & Technology
Online Access:https://doi.org/10.1260/026361707783432533
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spelling doaj-720784d9e322403f8bf9624b2077ccb02021-04-02T13:32:35ZengHindawi - SAGE PublishingAdsorption Science & Technology0263-61742048-40382007-06-012510.1260/026361707783432533Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics ModellingAïcha Menyar Ben Hamissa0François Brouers1Borhane Mahjoub2Mongi Seffen3 Applied Chemistry and Environment Research Unit, EPAM Sousse 4000, Tunisia Department of Physics, University of Liège, 4000, Belgium Applied Chemistry and Environment Research Unit, EPAM Sousse 4000, Tunisia Applied Chemistry and Environment Research Unit, EPAM Sousse 4000, TunisiaThis study was carried out to examine the potential of Agave americana fibres (AAF) for the treatment of wastewater contaminated with dyes. The batch mode adsorption of two dyes, viz. Sumfixe Supra Red (SSR) and Alpacelle Lumiere Brown (ALB), by AAF was investigated at different pH values, temperatures and initial dye concentrations. The highest dye adsorption capacities at 30°C were attained at pH 2.0 for SSR and at pH 2.5 for ALB. In both cases, an increase in temperature increased the velocity of the reaction. The maximum amounts of dyes desorbed were at basic pH values. To compare our results with studies on other biomaterials, the adsorption isotherms and kinetic data were analysed employing the usual models (Freundlich, Langmuir and Temkin isotherms and first- and second-order kinetics). Conventional analysis indicated that the kinetics of the processes were closer to pseudo-second order rather than first order. The data were also modelled with a new method of analysis based on the statistical theory of complex systems and the heterogeneity of the sorption energy (energy landscape). This enabled the adsorption process to be characterised in terms of a greater number of physical parameters.https://doi.org/10.1260/026361707783432533
collection DOAJ
language English
format Article
sources DOAJ
author Aïcha Menyar Ben Hamissa
François Brouers
Borhane Mahjoub
Mongi Seffen
spellingShingle Aïcha Menyar Ben Hamissa
François Brouers
Borhane Mahjoub
Mongi Seffen
Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics Modelling
Adsorption Science & Technology
author_facet Aïcha Menyar Ben Hamissa
François Brouers
Borhane Mahjoub
Mongi Seffen
author_sort Aïcha Menyar Ben Hamissa
title Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics Modelling
title_short Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics Modelling
title_full Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics Modelling
title_fullStr Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics Modelling
title_full_unstemmed Adsorption of Textile Dyes Using (L.) Fibres: Equilibrium and Kinetics Modelling
title_sort adsorption of textile dyes using (l.) fibres: equilibrium and kinetics modelling
publisher Hindawi - SAGE Publishing
series Adsorption Science & Technology
issn 0263-6174
2048-4038
publishDate 2007-06-01
description This study was carried out to examine the potential of Agave americana fibres (AAF) for the treatment of wastewater contaminated with dyes. The batch mode adsorption of two dyes, viz. Sumfixe Supra Red (SSR) and Alpacelle Lumiere Brown (ALB), by AAF was investigated at different pH values, temperatures and initial dye concentrations. The highest dye adsorption capacities at 30°C were attained at pH 2.0 for SSR and at pH 2.5 for ALB. In both cases, an increase in temperature increased the velocity of the reaction. The maximum amounts of dyes desorbed were at basic pH values. To compare our results with studies on other biomaterials, the adsorption isotherms and kinetic data were analysed employing the usual models (Freundlich, Langmuir and Temkin isotherms and first- and second-order kinetics). Conventional analysis indicated that the kinetics of the processes were closer to pseudo-second order rather than first order. The data were also modelled with a new method of analysis based on the statistical theory of complex systems and the heterogeneity of the sorption energy (energy landscape). This enabled the adsorption process to be characterised in terms of a greater number of physical parameters.
url https://doi.org/10.1260/026361707783432533
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