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Détail de l'auteur
Auteur Anne-Marie Wilhelm
Documents disponibles écrits par cet auteur
Affiner la rechercheRegeneration of activated carbon by (photo)-fenton oxidation / Cínthia T. Muranaka in Industrial & engineering chemistry research, Vol. 49 N° 3 (Fevrier 2010)
[article]
in Industrial & engineering chemistry research > Vol. 49 N° 3 (Fevrier 2010) . - pp. 989–995
Titre : Regeneration of activated carbon by (photo)-fenton oxidation Type de document : texte imprimé Auteurs : Cínthia T. Muranaka, Auteur ; Carine Julcour, Auteur ; Anne-Marie Wilhelm, Auteur Année de publication : 2010 Article en page(s) : pp. 989–995 Note générale : Industrial Chemistry Langues : Anglais (eng) Mots-clés : Carbon--Photo--Fenton--Oxidation Résumé : This work aims to study the adsorption of phenol on activated carbons (ACs) and the consecutive in situ regeneration of carbon by Fenton oxidation. Two different operations have been carried out: (1) a batch procedure in order to investigate the influence of Fe2+ and H2O2 concentrations; (2) continuous fixed bed adsorption, followed by a batch circulation of the Fenton’s reagent through the saturated AC bed, to examine the efficiency of the real process. Two different activated carbons have been also studied: a both micro- and mesoporous AC (L27) and an only microporous one (S23). In the batch reactor the best conditions found for pollutant mineralization in the homogeneous Fenton system are not the best for AC regeneration: a continuous reduction of adsorption capacity of L27 is observed after 3 oxidations, due to the decrease of both AC weight and surface area. Higher concentration of Fe2+ and lower concentration of H2O2 (2 times the stoichiometry) lead to a 50% recovery of the initial adsorption capacity during at least four consecutive cycles for L27, while about 20% or less for S23. In the consecutive continuous adsorption/batch Fenton oxidation process, the regeneration efficiency reaches 30−40% for L27 after two cycles whatever the feed concentration and less than 10% for S23. A photo-Fenton test performed on L27 shows almost complete mineralization (contrary to “dark” Fenton) and further improves recovery of AC adsorption capacity although not complete (56% after two cycles). Note de contenu : Bibiogr. ISSN : 0888-5885 En ligne : http://pubs.acs.org/doi/abs/10.1021/ie900675d [article] Regeneration of activated carbon by (photo)-fenton oxidation [texte imprimé] / Cínthia T. Muranaka, Auteur ; Carine Julcour, Auteur ; Anne-Marie Wilhelm, Auteur . - 2010 . - pp. 989–995.
Industrial Chemistry
Langues : Anglais (eng)
in Industrial & engineering chemistry research > Vol. 49 N° 3 (Fevrier 2010) . - pp. 989–995
Mots-clés : Carbon--Photo--Fenton--Oxidation Résumé : This work aims to study the adsorption of phenol on activated carbons (ACs) and the consecutive in situ regeneration of carbon by Fenton oxidation. Two different operations have been carried out: (1) a batch procedure in order to investigate the influence of Fe2+ and H2O2 concentrations; (2) continuous fixed bed adsorption, followed by a batch circulation of the Fenton’s reagent through the saturated AC bed, to examine the efficiency of the real process. Two different activated carbons have been also studied: a both micro- and mesoporous AC (L27) and an only microporous one (S23). In the batch reactor the best conditions found for pollutant mineralization in the homogeneous Fenton system are not the best for AC regeneration: a continuous reduction of adsorption capacity of L27 is observed after 3 oxidations, due to the decrease of both AC weight and surface area. Higher concentration of Fe2+ and lower concentration of H2O2 (2 times the stoichiometry) lead to a 50% recovery of the initial adsorption capacity during at least four consecutive cycles for L27, while about 20% or less for S23. In the consecutive continuous adsorption/batch Fenton oxidation process, the regeneration efficiency reaches 30−40% for L27 after two cycles whatever the feed concentration and less than 10% for S23. A photo-Fenton test performed on L27 shows almost complete mineralization (contrary to “dark” Fenton) and further improves recovery of AC adsorption capacity although not complete (56% after two cycles). Note de contenu : Bibiogr. ISSN : 0888-5885 En ligne : http://pubs.acs.org/doi/abs/10.1021/ie900675d