Fenton oxidation of the nonionic surfactant Brij 35 was enhanced by the effect of 1,4-hydroquinone adsorbed on granular activated carbon (GAC). The procedure allowed 90%-94% surfactant removal after 24 h at pH= 2.7-3.0, using 97mg g- 1 of hydroquinone adsorbed on GAC and concentrations of surfactant, H2O2, and iron (either Fe2 + or Fe3 + ) of, respectively, 1300, 450, and 9mg L- 1. In the absence of carbon and hydroquinone, and with the same concentration of H2O2, conventional Fenton process required 300mg L- 1 of Fe(II) to obtain 85% removal of Brij 35. Quinone-loaded carbon was effectively recycled until surfactant removal decreased to 50%-60%. Only 3% of hydroquinone was desorbed from GAC to the aqueous solution, and about 40% of the dissolved fraction was degraded to low-molecular-weight organic acids. This is the first description of a Fenton process performing the recycling of a redox-active organic compound adsorbed on GAC, with the aim of decreasing the amount of iron salt utilized in the conventional Fenton reaction.

Cooperative effects of adsorption on granular activated carbon and hydroquinone-driven fenton reaction in the removal of nonionic surfactant from aqueous solution

Pagano M;Volpe A;Mascolo G;Lopez A;Locaputo V;Ciannarella R
2012

Abstract

Fenton oxidation of the nonionic surfactant Brij 35 was enhanced by the effect of 1,4-hydroquinone adsorbed on granular activated carbon (GAC). The procedure allowed 90%-94% surfactant removal after 24 h at pH= 2.7-3.0, using 97mg g- 1 of hydroquinone adsorbed on GAC and concentrations of surfactant, H2O2, and iron (either Fe2 + or Fe3 + ) of, respectively, 1300, 450, and 9mg L- 1. In the absence of carbon and hydroquinone, and with the same concentration of H2O2, conventional Fenton process required 300mg L- 1 of Fe(II) to obtain 85% removal of Brij 35. Quinone-loaded carbon was effectively recycled until surfactant removal decreased to 50%-60%. Only 3% of hydroquinone was desorbed from GAC to the aqueous solution, and about 40% of the dissolved fraction was degraded to low-molecular-weight organic acids. This is the first description of a Fenton process performing the recycling of a redox-active organic compound adsorbed on GAC, with the aim of decreasing the amount of iron salt utilized in the conventional Fenton reaction.
2012
Istituto di Ricerca Sulle Acque - IRSA
fenton oxidation
hydroquinone
granular activated carbon
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/234581
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