Modification of a natural zeolite with Fe(III) for simultaneous phosphate and ammonium removal from aqueous solutions

Modification of a natural zeolite with Fe(III) for simultaneous phosphate and ammonium removal from aqueous solutions

BACKGROUND: The incorporation of Fe(III) was performed in a natural clinoptilolite (Z-N) for simultaneous phosphate and ammonium removal. RESULTS: The existence of hydroxyl groups (?Fe-OH) in the iron zeolite (Z-Fe) enhances the phosphate uptake from 0.6�0.1mg-P g-1 in Z-N to 3.4�0.2mg-P g-1 in Z-Fe...

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Autor Principal: Guaya Caraguay, D. (author)
Outros autores: Farran, A. (author), Valderrama, C. (author), Cortina, J. (author)
Formato: article
Publicado: 2016
Subjects:
Ammonium
Clinoptilolite
Iron
Kinetic
Phosphate
Sorption
Acceso en liña:http://dspace.utpl.edu.ec/handle/123456789/19000
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Summary:BACKGROUND: The incorporation of Fe(III) was performed in a natural clinoptilolite (Z-N) for simultaneous phosphate and ammonium removal. RESULTS: The existence of hydroxyl groups (?Fe-OH) in the iron zeolite (Z-Fe) enhances the phosphate uptake from 0.6�0.1mg-P g-1 in Z-N to 3.4�0.2mg-P g-1 in Z-Fe. However, the ammonium sorption capacity slightly decreases from 33�2mg-Ng-1 in Z-N to 27�2mg-Ng-1 in Z-Fe. The equilibrium and kinetics sorption were well explained by the Langmuir isotherm and the intraparticle diffusion model, respectively. CONCLUSIONS: Both the phosphate and ammonium uptake were slightly affected by the coexistence of competing ions. The phosphate sorption capacity of iron zeolite was decreased in the regeneration cycles. Desorption using a 1molL-1 NaOH solution under dynamic conditions provided higher enrichment factors for ammonium than phosphate. © 2015 Society of Chemical Industry.

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