Abstract
AbstractThe treatment of a high-strength pharmaceutical wastewater (PW) has been carried out using two different electrochemical processes [i.e., electrocoagulation (EC) using aluminium and electrooxidation (EO) using carbon electrodes]. For EC, the main object was to study the adsorption capacity of electroflocs using the Freundlich isotherm (R2=0.8) and the kinetics of adsorption by (Lagergren model) first-order (R2=0.88) and second-order (R2=0.83) kinetic models. For the EO process, the effect of current density (CD) in a range from 40 to 120 A/m2 and initial pH from 3 to 11 on the treatment efficiency was studied. Under identical operating conditions (CD 80 A/m2; pH 7.2), EC resulted in 24% after 25 min, whereas the EO yielded 35.6% chemical oxygen demand (COD) removal after 90 min of treatment. The kinetics of COD removal for EO was described by a two-stage, first-order kinetic model. Based on the cyclic voltammetric studies, the presence of chlorides was found to have an influence, resulting in in...
Published Version
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