Abstract
This study addresses a significant micropollutant removal from actual human urine (AHU) through photovoltaic driven electrochemical treatment. This study showed significant reductions of 69.09 % urea, 67.95 % creatinine, and 95.180 % uric acid under optimal continuous recirculation conditions. Analysis revealed that the degradation of pollutants were facilitated by in-situ generation of reactive oxygen and chlorine species during treatment. Further, the procedure employed with molecular hydrogen generation during anodic oxidation as useful byproduct. Thus, the findings suggest that novel mixed metal oxide exhibits high efficacy for AHU treatment, offering a prominent concept for onsite treatment of complex mixed wastewater in real-life applications.
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