Sciences & Technologie
Volume 3, Numéro 1, Pages 07-11
2018-06-30
Authors : Brahmia O . Louafi F .
In this study, the electrochemical decolorization of the Methylene Blue dye on Platinum electrodes was assessed. Direct oxidation results demonstrate a partial pollutant degradation reaching a maximum of 64 %. However, the addition of a small amount of a redox mediator Co2+/3+ is efficiently able to electrocatalyse the Methylene blue oxidation by shortening significantly the treatment time and enhancing clearly the dye decolorization rate. Nearly complete decolorization was achieved (92 % in 1h 45min). The most striking results achieved within the cyclic voltammetry study demonstrate undoubtedly the pollutant mineralisation. Electrochemical experiments were performed using the spectrophotometric method, which is very convenient, easy and allows monitoring the spectral changes as well as the determination of the dye concentration during the process. The kinetics data show a first-order indirect oxidation kinetics. A mechanism was proposed to explain the different phenomenon during the electrochemical process.
Decolorization, Methylene Blue, catalyst, Platinum electrode, mineralisation
Brahmia Ouarda
.
Louafi Fadila
.
pages 9-14.
Brahmia Ouarda
.
Louafi Fadila
.
pages 9-14.
Achi F.
.
Bensana A.
.
Bouguettoucha A.
.
Derradji C.
.
pages 035-040.
Hana Ferkous
.
pages 36-43.
Djebablia Ikram
.
Guellati Ouanassa
.
Habib Naima
.
Harat Aicha
.
Djefaflia Fahima
.
Nait-merzoug Assia
.
Janowska Izabella
.
Guerioune Mohamed
.
pages 27-34.