Brahima Seyhi scite author profile

The objective of the present work is to evaluate the potential of a photosonolysis process for the degradation of butyl-paraben (BPB). After 120 min of treatment time, high removal of BPB was achieved by the photosonolysis (US/UV) process (88.0±0.65%) compared to the photochemical (UV) and the conventional ultrasonication (US) processes. Several factors such as calorimetric power, treatment time, pH and initial concentration of BPB were investigated. Using a 2(4) factorial matrix, the treatment time and the calorimetric power are the main parameters influencing the degradation rate of BPB. Subsequently, a central composite design methodology has been investigated to determine the optimal experimental parameters for BPB degradation. The US/UV process applied under optimal operating conditions (at a calorimetric power of 40 W during 120 min and under pH7) is able to oxidize around 99.2±1.4% of BPB and to record 43.3% of mineralization. During the US/UV process, BPB was mainly transformed into 1 hydroxy BPB, dihydroxy BPB, hydroquinone and 4-hydroxybenzoic acid. Microtox biotests (Vibrio fisheri) showed that the treated effluent was not toxic. The pseudo-first order kinetic model (k=0.0367 min(-1)) described very well the oxidation of BPB.

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Combined membrane bioreactor and electrochemical oxidation using Ti/PbO2 anode for the removal of carbamazepine

García-Gómez

Drogui

Seyhi

et al. 2016

Journal of the Taiwan Institute of Chemical Engineers

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Brahima Seyhi

Occurrence, fate and effects of Di (2-ethylhexyl) phthalate in wastewater treatment plants: A review

Experimental design methodology applied to electrochemical oxidation of carbamazepine using Ti/PbO2 and Ti/BDD electrodes

Photosonochemical degradation of butyl-paraben: Optimization, toxicity and kinetic studies

Combined membrane bioreactor and electrochemical oxidation using Ti/PbO2 anode for the removal of carbamazepine

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