Amino‐functionalized material from a bio‐template for silver adsorption: process evaluation in batch and fixed bed

BACKGROUND The modification of an organic matrix as a bio‐template (grapefruit peel) using urea and melamine was carried out to introduce amino groups on its surface and favor Ag(I) adsorption in aqueous solution for metal recovery. RESULTS Adsorption capacity in batch mode was proportional to the n...

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Published in:Journal of chemical technology and biotechnology (1986) 2019-02, Vol.94 (2), p.590-599
Main Authors: Romero‐Cano, Luis A, García‐Rosero, Helena, del Olmo‐Iruela, Monsalud, Carrasco‐Marín, Francisco, González‐Gutiérrez, Linda V
Format: Article
Language:English
Subjects:
Adsorbents
Adsorption
Amino groups
Aqueous solutions
Continuous flow
Fixed beds
functionalized material
Grapefruit
grapefruit peel
Materials recovery
Melamine
Metals
Organic chemistry
Silver
silver adsorption
Urea
Ureas
waste minimization
wastewater treatment
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Summary:BACKGROUND The modification of an organic matrix as a bio‐template (grapefruit peel) using urea and melamine was carried out to introduce amino groups on its surface and favor Ag(I) adsorption in aqueous solution for metal recovery. RESULTS Adsorption capacity in batch mode was proportional to the nitrogen content within the adsorbents, the maximum being the one obtained with the adsorbent functionalized with urea, 72.33 mg g−1, which was tested as a fixed bed in a column to evaluate the metal adsorption in a continuous flow model. The adsorption capacity of the fixed bed was 15.14 mg g−1, and its use was proved over three adsorption–desorption cycles. CONCLUSION Amino‐functionalized adsorbent achieved a high Ag+ uptake capacity; from the characterization it is proposed that the adsorption mechanism consists in the formation of the complex R‐NH2Ag+ and R‐COOAg. © 2018 Society of Chemical Industry
ISSN:0268-2575
1097-4660
DOI:10.1002/jctb.5806