Resumen:
In this work, the electrochemical degradation of ciprofloxacin (CIP) was studied in a filter-press-type reactor without division in a batch recirculation
manner. For this purpose, two boron-doped diamond (BDD) electrodes (as cathode and anode) were employed. Also, the optimal
operating conditions were found by response surface methodology (RSM) following a central composite face-centered design with three
factors, namely current intensity (i), initial pH (pH0), and initial concentration ([C]0) with two responses, namely remotion efficiency (η) and
operating cost. Optimal operating conditions were i ¼3 A, pH0 ¼ 8.49, and [C]0 ¼ 33.26 mg L 1 within an electrolysis time of 5 h, leading
to a maximum removal efficiency of 93.49% with a minimum operating cost of $0.013 USD L 1. Also, a TOC analysis shows an 80% of mineralization
extent with an energy consumption of 5.11 kWh g 1 TOC. Furthermore, the CIP degradation progress was followed by mass
spectrometry (LC/MS) and a degradation pathway is proposed.