ESTUDO MECANÍSTICO DAS REAÇÕES FENTON E CUPRO-FENTON POR ANÁLISE VOLTAMÉTRICA IN SITU

AUTOR(ES)

Friedrich, Leidi C., Zanta, Carmem Lúcia P. S., Machulek Jr., Amilcar, Quina, Frank H.

FONTE

Quím. Nova

DATA DE PUBLICAÇÃO

2017-08

RESUMO

Although the classical Fenton process exhibits a high initial rate of the organic compounds degradation, this process is not complete due to the formation of refractory compounds which resist the attack of the hydroxyl radicals. In the presence of Cu(II), the degradation is slower, but results in a greater reduction of TOC (total organic carbon) measurements of net mineralization at the end of the reaction (t=120min). The addition of Cu(II) ions to classical Fenton reaction conditions (Fe(II) plus H2O2 at pH 3) is shown to accelerate the degradation of organic compounds. This synergic effect causes an approximately 15% additional reduction of the TOC. Voltammetric studies confirm the catalytic role of catechol in the presence of Fe(III)/Fe(II) and Cu(II)/Cu(I). Addition of aliphatic acids to the reaction medium, did not interfere with the cupro-Fenton reaction, but had an inhibitory effect on the classical Fenton reaction, consistent with the following order of interaction with the ion Fe(III): Oxalic Acid (OA) >> Formic Acid (FA) ~ Acetic acid (AA).

Documentos Relacionados

• Aplicabilidade de reações de Fenton e foto-Fenton no tratamento de glifosato comercial
• Optimization of fenton s reaction aiming at in-situ and ex-situ groundwater remediation
• Estudo das reações de oligomerização de eteno catalisadas por complexos de níquel
• Degradação de poluentes emergentes por processos Fenton e foto-Fenton
• Utilização de reações foto-Fenton na prevenção de contaminações agrícolas