@article { author = {Lin, Haitao}, title = {Levafix blue color's visible light degradation utilizing Fenton and photo-Fenton procedures}, journal = {Water and Environmental Sustainability}, volume = {2}, number = {4}, pages = {1-8}, year = {2022}, publisher = {Forscher Publication}, issn = {2710-3404}, eissn = {2710-3404}, doi = {10.52293/WES.2.4.18}, abstract = {Synthetic colors are generally utilized in the industrial section for the chemical consistency and ease of synthesis. Micropollutants in water sources propose an actual hazard to the natural ecosystem and the health of humans (Kim and Zoh, 2016). The traditional procedures have been limited approaches for dealing by sewage pollutants. Furthermore, Advanced Oxidation Processes, according to the hydroxyls radicals' generation, have been discovered and indicated to be influential procedures for removing the poisonous chemical mixes. In this study, we have investigated Fenton and Photo-Fenton procedures' performance on the Blue levafix color degradation, as a substitution technique for the textile industry swage treatment. The irradiation intensity impact, initial color concentration, initial PH, iron concentration, nitrate, and organic material have been investigated. The whole irradiation investigations have been gained at 365 nm utilizing high-pressure mercury lamp (Philips HPW, 15 W). Levafix Blue color discoloration kinetics has been monitored by UV-Vis spectrophotometer analysis in the highest adsorbsion wavelength (613 nm). So, under an acidic medium, it has been regarded that both procedures, Fenton and Photo-Fenton, could remove around 99 percent of contaminants. Nevertheless, the iron concentration growth causes the response prohibition.}, keywords = {Sewage Color Fenton Advanced Oxidation Processes Levafix Blue Photo,Fenton}, url = {https://www.journalwes.com/article_164774.html}, eprint = {https://www.journalwes.com/article_164774_eada10d3c84ff3a82508fbd1795ba228.pdf} }