Investigation of an electrolysis system with boron-doped diamond anode and gas diffusion cathode to remove water micropollutants

Abstract

Abstract Using electrolysis systems to degrade organics in wastewater encourages utilizing this technique to remove micropollutants (MPs) in different types of water. In this work, a cell consisting of an anode as a boron-doped diamond (BDD) electrode combined with a gas diffusion (GDE) cathode without a separator showed that MPs degradation can be effectively achieved. Investigating different operating parameters, it was stated that applying a low current density (2 mA/cm2) and setting the Reynolds number of the electrolyte flow through the cell at the laminar range raised the treatment time by 3 folds at the same energy demand. This arrangement increased the MPs removal. Some substances like diclofenac were removed up to 84% at a longer treatment time of 180 min coupled with an increase in energy demand. The results at the mentioned parameters indicated an adequate generation rate of radicals needed to remove MPs and the oxidation reactions were promoted. The results show high practicability to the investigated electrolysis system in removing MPs in wastewater under considering the need to further reduction of the energy demand.