Application of a new sandwich of granular activated and fiber carbon as cathode in the electrochemical advanced oxidation treatment of pharmaceutical effluents

Abstract

Society technological advances and environmental requirements claim for the development of highly effective, low cost and environmental friendly technologies able to degrade emerging organic pollutants widely used such as pharmaceuticals. The development of electrochemical advanced oxidation processes may increase the efficiency of the traditional treatments used on the remediation of polluted water. Therefore, this work has been devoted to the design of a cathode that permits to enhance the generation of hydroxyl radicals on the system. The best results were obtained when a cathode made with granular activated carbon and carbon fiber (SGAFC) was used. After determining the efficiency of this cathode on the decoloration of two model dyes, its application to the chloramphenicol antibiotic reduction was evaluated, obtaining near complete removal after 120min. In addition, the treatment on successive batches and different continuous electrochemical cell configurations has emphasized the ability of this new cathode to be used on different water treatment facilities.