Open AccessUV photoelectrocatalytic degradation of m- cresol pollutant using TiO2 dip -coated stainless steel electrode system
Author(s) -
Jayabharathi Jayapal,
M. Thenmozhi
Publication year - 2021
Publication title -
environment conservation journal/environment conservation journal
Language(s) - English
Resource type - Journals
eISSN - 2278-5124
pISSN - 0972-3099
DOI - 10.36953/ecj.2021.22315
Subject(s) - degradation (telecommunications) , electrode , pollutant , cresol , photocatalysis , aqueous solution , suspension (topology) , materials science , nuclear chemistry , chemistry , chemical engineering , phenol , environmental engineering , catalysis , environmental science , organic chemistry , telecommunications , mathematics , homotopy , computer science , pure mathematics , engineering
In the present study, the removal of m- cresol in an aqueous medium was studied by the photoelectrocatalytic (PEC) degradation by the TiO2 suspension on dip-coated stainless steel electrode under UV lamp of the wavelength of 352nm. The performance of the PEC method on the degradation of m- cresol was studied by made the comparison with the photocatalytic oxidation (PCO) method in terms of COD removal and kinetic study. In the PEC study on the degradation of m- cresol pollutant was studied by the various parameters such as initial concentration, pH, and the bias potential. The result found that the optimum degradation efficiency of m- cresol in the PEC and PCO methods were 79.6% and 39.8% at pH 5.0. The result showed that the kinetic constants (k) in the PEC and PCO methods were -0.0116 and -0.0058 under optimum conditions. The result found that the PEC method using TiO2 coated on stainless steel electrode is two times higher than the PCO method on the degradation of m- cresol.