Methylene Blue Sorption Phenomena onto Pectin, Brea Gum, Montmorillonite Based Hydrogels: Kinetic and Thermodynamic Assessment

Methylene Blue Sorption Phenomena onto Pectin, Brea Gum, Montmorillonite Based Hydrogels: Kinetic and Thermodynamic Assessment

The wastewater treatment, particularly the removal of organic contaminants, is often carried out by adsorption with solids. Hydrogels present a great swelling capacity that can be enhanced by the incorporation of nano-clays such as montmorillonita (Mt). Methylene blue is a common component of indust...

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Bibliographic Details
Published in:Journal of polymers and the environment Vol. 30; no. 11; pp. 4710 - 4725
Main Authors: Gamboni, Jimena Elizabeth, Bertuzzi, María Alejandra, Slavutsky, Aníbal Marcelo
Format: Journal Article
Language:English
Published: New York Springer US 01-11-2022
Springer Nature B.V
Subjects:
Adsorption
Boundary layers
Chemistry
Chemistry and Materials Science
Contaminants
Endothermic reactions
Environmental Chemistry
Environmental Engineering/Biotechnology
Hydrogels
Industrial Chemistry/Chemical Engineering
Industrial effluents
Industrial wastewater
Materials Science
Mathematical models
Methylene blue
Montmorillonite
Nanoparticles
Organic contaminants
Original Paper
Pectin
pH effects
Polymer Sciences
Statistical analysis
Swelling
Temperature effects
Wastewater treatment
Mathematical models
Adsorption process
Nanoclay
Mass transfer
Kinetic constants
Polyelectrolyte complex
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Summary:The wastewater treatment, particularly the removal of organic contaminants, is often carried out by adsorption with solids. Hydrogels present a great swelling capacity that can be enhanced by the incorporation of nano-clays such as montmorillonita (Mt). Methylene blue is a common component of industrial effluents and its ecotoxicity in well-known. The aim of this work was to evaluate the adsorption capacity of hydrogels based on pectin and brea gum with Mt nanoparticles. The hydrogels were physically characterized, it was observed that Mt is exfoliated into the matrix, and affects the swelling and erosion of them. Incorporation of Mt caused an increment of swelling of approximately 150% at pH 6.5. The effects of various experimental parameters have been investigated. The temperature effect on the adsorption rate indicated an endothermic process with activation energy of 33.231 kJ mol −1 . The removal % of MB at 45 °C, pH 2.5 and 75 mg L −1 of MB solution presented a value of 97%. The adsorption kinetic was analysed through different mathematical models (pseudo-first order, pseudo-second order, intra-particle, and Boyd models). Statistics and further analysis of the kinetics constants indicated that the pseudo-second order model better represents the behaviour of the samples. The application of intra particle model and Boyd model indicates that the adsorption phenomenon occurs in two stages. The first stage, of short duration, is related to the boundary layer. The second stage, which controls the process, is related to the chemical adsorption of the dye on the polymeric structure of the hydrogel.
ISSN:1566-2543
1572-8919
DOI:10.1007/s10924-022-02546-7